Probe Set ID p-value wild type ts mutant Log2 Change U
UniGene Name niGene Symbol Representative mRNA Accession
10957_at 0.00390222 -0.218428 -4.97315633 -4.75472833 OPI3 YJR073C
unsaturated phospholipid N-methyltransferase
8936_at 0.00494056 -0.08860967 -3.61613 -3.52752033 RPS7B
ribosomal protein S7B (rp30)YNL096C
8313_at 0.01371855 -0.08384067 -3.47365633 -3.38981567 Rad53 YOR247W
Suppressor of SRL1 null Lethality
5620_at 0.04663043 -0.621257 -3.88318933 -3.26193233 MET6 YER091C
vitamin B12-(cobalamin)-independent isozyme of methionine syntha
9946_at 0.0014478 -0.025836 -3.204806 -3.17897 RPS22B YLR367W
ribosomal protein S22B (S24B) (rp50) (YS22)
5076_f_at 0.0052829 -0.07619667 -3.113297 -3.03710033 NA NA YGL076C
10958_at 0.00532548 -0.08730067 -3.091841 -3.00454033 MOG1 with GTP-Gsp1p
nuclear protein that interacts YJR074W
9184_at 0.0248153 -0.25567 -3.22675133 -2.97108133 RPL18B
ribosomal protein L18B (rp28B) YNL301C
8981_at 0.00579733 -0.06845633 -3.033387 -2.96493067 RPS7B
ribosomal protein S7B (rp30)YNL096C
4233_at 0.0141522 -0.02971133 -2.85273433 -2.823023 SIM1 YIL123W
(putative) invovled in control of DNA replication
9513_at 0.03518144 -0.19499633 -2.978652 -2.78365567 ASC1
G-beta like protein YMR116C
7460_at 0.0211911 -0.176353 -2.90956867 -2.73321567 RHK1 YBL082C
Dol-P-Man dependent alpha(1-3) mannosyltransferase (putative)
9633_at 0.0315648 -0.20978067 -2.92931967 -2.719539 HXT2 YMR011W
high affinity hexose transporter-2
11114_at 0.03784631 -0.05242133 -2.60667633 -2.554255 ARG3
ornithine carbamoyltransferase YJL088W
11262_s_at 0.03990826 -0.25231467 -2.79706367 -2.544749 acid phosphatasePHO12 YAR071W
9185_at 0.06390146 -0.00750867 -2.543531 -2.53602233 Hypothetical ORFNA YNL300W
8593_at 0.01243252 -0.051754 -2.57332767 -2.52157367 ARG1
arginosuccinate synthetase YOL058W
5075_i_at 0.00150804 -0.02582533 -2.52524 -2.49941467 NA NA YGL076C
5196_at 0.0193044 -0.210414 -2.666086 -2.455672 STR3
cystathionine beta-lyase YGL184C
7076_at 0.08081468 -0.40610033 -2.84897933 -2.442879 NA NA YBR056w-a
5971_at 0.09128102 -0.445566 -2.85007167 -2.40450567 SAM2 YDR502C
methionine biosynthesis regulation
4760_at 0.08617521 -0.09775967 -2.49715433 -2.39939467 PFK1 YGR240C
phosphofructokinase alpha subunit
5009_at 0.07974133 -0.269331 -2.651869 -2.382538 PMA1
plasma membrane H+-ATPase YGL008C
4729_i_at 0.14123156 -0.105202 -2.485878 -2.380676 enolase ENO2 YGR254W
7359_at 0.03111284 -0.00509567 -2.36366267 -2.358567 HTB2 YBL002W
histone H2B (HTB1 and HTB2 code for nearly identical proteins)
7208_at 0.01589477 -0.122441 -2.47829867 -2.35585767 Target of SBF NA YBR162C
9889_i_at 0.00936081 -0.05179667 -2.405268 -2.35347133 RPS1B
ribosomal protein S1B (rp10B) YLR441C
7898_at 0.0309528 -0.020643 -2.368182 -2.347539 histone H1 HHO1 YPL127C
6010_at 0.02251714 -0.175703 -2.49900867 -2.32330567 YHP1 YDR451C
acts as a repressor at early cell cycle boxes (ECBs) to restrict their
10161_g_at 0.08366353 -0.40525567 -2.719153 -2.31389733 SAM1 /// SAM2 YLR180W
S-adenosylmethionine synthetase /// methionine biosynthesis regul
10223_at 0.00116123 -0.01529967 -2.31995367 -2.304654 Hypothetical ORFNA YLR104W
3790_s_at 0.16747672 -0.406783 -2.69879467 -2.29201167 YRF1-7 YLL067C
Hypothetical ORF /// Y'-helicase protein 1
4959_at 0.00107502 -0.00608533 -2.281088 -2.27500267 GSC2 YGR032W
1,3-beta-D-glucan synthase catalytic component
8152_f_at 0.09836494 -0.31393467 -2.57712733 -2.26319267 CDC21
thymidylate synthase YOR074C
5121_at 0.08514939 -0.08518333 -2.32715167 -2.24196833 G protein gamma subunit mimic
Heterotrimeric GPG1 YGL121C
8251_at 0.04722625 -0.28022167 -2.52181533 -2.24159367 NA found in the
Protein of unknown function, YOR315W cytoplasm and the nucleu
8555_at 0.11298799 -0.35646367 -2.57504933 -2.21858567 Appears to be NA YOL007C
a structural component of the chitin synthase 3 comp
9293_at 0.00416811 -0.01778067 -2.22353833 -2.20575767 HUG1 YML058w-a
Protein involved in the Mec1p-mediated checkpoint pathway that re
8166_at 0.0246385 -0.00166933 -2.20726 -2.20559067 calponin homologSCP1 YOR367W
8588_at 0.05534371 -0.07840767 -2.27892733 -2.20051967 NA green fluorescent protein (GFP)-fusion
Protein of unknown function; YOL019W
10885_at 0.02833893 -0.10129333 -2.295181 -2.19388767 ECM17
sulfite reductase beta subunit YJR137C
8922_at 0.09261214 -0.180247 -2.37312867 -2.19288167 SUN4 process. Related to glucanases.
Protein involved in the aging YNL066W
3789_s_at 0.19015624 -0.90611533 -3.09666167 -2.19054633 YRF1-7 YLL067C
Hypothetical ORF /// Y'-helicase protein 1
3722_s_at 0.07392613 -0.23823167 -2.42770167 -2.18947 NA YLRWTY2-1
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
9700_at 0.09190397 -0.381211 -2.567093 -2.185882 IMD4
IMP dehydrogenase homolog YML056C
4515_i_at 0.01652611 -0.07371833 -2.255529 -2.18181067 RPL14A
ribosomal protein L14A YHL001W
10301_at 0.06158479 -0.15298033 -2.324652 -2.17167167 RPS0B
ribosomal protein S0B YLR048W
9759_at 0.12240332 -0.14046667 -2.29322767 -2.152761 ERG13 YML126C
3-hydroxy-3-methylglutaryl coenzyme A synthase
6358_at 0.01594744 -0.007024 -2.15071033 -2.14368633 INO2
helix-loop-helix protein YDR123C
9926_at 0.13966515 -0.07743967 -2.21467833 -2.13723867 CCW14
cell wall mannoprotein YLR391W-A
8879_at 0.06212135 -0.245936 -2.38079933 -2.13486333 PUB1
poly(A) binding protein YNL016W
11263_f_at 0.01197962 -0.078431 -2.200658 -2.122227 IMD2
IMP dehydrogenase homolog YAR073W
6902_at 0.01074833 -0.07978167 -2.186589 -2.10680733 HIS4
histidinol dehydrogenase YCL030C
5711_at 0.28054433 -1.36330567 -3.452866 -2.08956033 TIR1 YER011W
Cold-shock induced protein of the Srp1p/Tip1p family of serine-alan
8030_at 0.21920883 -1.025373 -3.11053733 -2.08516433 DIP5 YPL265W
dicarboxylic amino acid permease
6858_f_at 0.19050466 -0.39650667 -2.47308567 -2.076579 PMP1 YCR024C-A
proteolipid associated with plasma membrane H(+)-ATPase (Pma1
7290_at 0.10302898 -0.37603067 -2.441161 -2.06513033 TIP1
cell wall mannoprotein YBR067C
7880_at 0.05253326 -0.22549233 -2.286105 -2.06061267 Member of theKES1 YPL145C
oxysterol binding protein family, which includes seve
7999_at 0.06286131 -0.180341 -2.22422033 -2.04387933 ICY2 cytoskeleton and is involved in chrom
Protein that interacts with theYPL250C
9010_at 0.06163009 -0.25318367 -2.29523567 -2.042052 NA function;
Essential protein of unknownYNL158Wgreen fluorescent protein (GF
5922_s_at 0.17063486 -0.84798233 -2.886916 -2.03893367 TFP1 YDL184w-a
site-specific endonuclease VDE (PI-SceI)|vacuolar ATPase V1 dom
10018_at 0.02029919 -0.055996 -2.09351967 -2.03752367 MET17 YLR303W
O-acetylhomoserine (thiol)-lyase
4235_at 0.04537512 -0.20384833 -2.23342533 -2.029577 NA
plasma membrane transporter YIL121W
6910_at 0.11206589 -0.19611467 -2.19598567 -1.999871 NFS1 YCL017C
Required for the post-transcriptional thio-modification of both mitoch
10658_at 0.10619061 -0.40564833 -2.40037133 -1.994723 TEF4 YKL081W
translation elongation factor EF-1gamma
6916_at 0.01999193 -0.089531 -2.056323 -1.966792 VAC17 of Myo2p,
the vacuole-specific receptorYCL063W a class V myosin
6912_at 0.14071992 -0.43134733 -2.39315733 -1.96181 BUD3 YCL014W
Protein involved in bud-site selection and required for axial budding
9397_at 0.08186895 -0.21386767 -2.17549367 -1.961626 GAS3 YMR215W
Putative 1,3-beta-glucanosyltransferase, has similarity to Gas1p; lo
7152_at 0.0500847 -0.015633 -1.970837 -1.955204 PGI1 YBR196C
glucose-6-phosphate isomerase|phosphoglucose isomerase
5260_at 0.06244189 -0.169541 -2.09332733 -1.92378633 NA NA YGL253W
7459_s_at 0.00721768 -0.043449 -1.963207 -1.919758 RHK1 YBL083C
Dol-P-Man dependent alpha(1-3) mannosyltransferase (putative)
4941_at 0.06009792 -0.12995333 -2.044888 -1.91493467 ERG25
C-4 sterol methyl oxidase YGR060W
7603_at 0.05306068 -0.04387067 -1.95813567 -1.914265 KRE6
beta-glucan synthase (putative)YPR159W
3851_s_at 0.07909917 -0.30637367 -2.21086333 -1.90448967 COS1 /// COS5 member
Protein of unknown function, YJR161Cof a family of conserved, ofte
8976_at 0.00537845 -0.02916333 -1.93300267 -1.90383933 AVT4 YNL101W
Gln (Asn), Ile (Leu), Tyr transporter
7302_at 0.09585573 -0.06144 -1.95066467 -1.88922467 protein YBR078W
GPI-anchored ECM33 of unknown function, has a possible role in ap
8812_at 0.11082437 -0.354291 -2.23877233 -1.88448133 NOG2
part of a pre-60S complex YNR053C
5245_at 0.11142493 -0.17570467 -2.05846833 -1.88276367 VRG4 YGL225W
May regulate Golgi function and glycosylation in Golgi
3944_f_at 0.14133469 -0.27345433 -2.14894233 -1.875488 HAC1 YFL031W
bZIP (basic-leucine zipper) protein
11230_at 0.11169451 -0.260423 -2.13501933 -1.87459633 elongase ELO1 YJL196C
10193_at 0.10829479 -0.06010467 -1.93068567 -1.870581 aspartic
GPI-anchored YPS1 protease YLR120C
9550_at 0.17284952 -0.027476 -1.89536167 -1.86788567 ILV2
acetolactate synthase YMR108W
7581_at 0.08028399 -0.046159 -1.891053 -1.844894 DPM1 synthase
dolichol phosphate mannoseYPR183W
10563_at 0.04260329 -0.14882 -1.98727967 -1.83845967 MET14
adenylylsulfate kinase YKL001C
6505_at 0.14538279 -0.157279 -1.99485167 -1.83757267 NA YDL046W
Putative homologue of human NPC2/He1
7153_at 0.0459414 -0.06950367 -1.90500333 -1.83549967 Hypothetical ORFNA YBR197C
4098_at 0.01642535 -0.02570267 -1.85976567 -1.834063 activator YIR017C
transcriptional MET28 in the Cbf1p-Met4p-Met28p complex
7301_at 0.05880071 -0.17351067 -2.00381233 -1.83030167 protein YBR078W
GPI-anchored ECM33 of unknown function, has a possible role in ap
7068_at 0.02294914 -0.07796333 -1.906638 -1.82867467 PCA1 YBR295W
P-type ATPase Cu(2+)-transporting (putative)
3543_s_at 0.32386087 -0.09919367 -1.92240033 -1.82320667 YRF1-7 YBL112C
Hypothetical ORF /// Y'-helicase protein 1
8378_at 0.09200415 -0.03098767 -1.85145967 -1.820472 (protoheme ferrolyase)
ferrochelataseHEM15 YOR176W
3713_s_at 0.00105283 -0.00467567 -1.822705 -1.81802933 NA YMRCTY1-3
TyA Gag protein; the main structural constituent of virus-like particle
10003_f_at 0.01677386 -0.00988667 -1.827588 -1.81770133 RPS25A (S31A) (rp45) (YS23) /// ribosomal protein S
YLR333C
ribosomal protein S25A /// RPS25B
4862_at 0.0261182 -0.08845567 -1.90554467 -1.817089 Hypothetical ORFRTS3 YGR161C
9628_at 0.16351734 -0.49675333 -2.31257067 -1.81581733 PLB2 YMR006C
lysophospholipase|phospholipase B
5990_at 0.06950596 -0.11496867 -1.91422167 -1.799253 Hypothetical ORFNA YDR476C
4506_at 0.00847817 -0.036389 -1.83510767 -1.79871867 Hypothetical ORFNA YHR032W
5702_at 0.03097351 -0.030197 -1.81679033 -1.78659333 PMI40
mannose-6-phosphate isomerase YER003C
3310_s_at 0.04333879 -0.04177467 -1.81766867 -1.775894 HAP1 YERWDELTA18
Identified by gene-trapping, microarray-based expression analysis,
5771_at 0.01142106 -0.04046067 -1.81561767 -1.775157 CAN1
arginine permease YEL063C
10015_at 0.09844308 -0.02938433 -1.80378467 -1.77440033 EXG1
exo-1,3-beta-glucanase YLR300W
5789_at 0.02452354 -0.07842233 -1.84444233 -1.76602 GLY1
threonine aldolase YEL046C
11180_at 0.00922435 -0.00827533 -1.77070333 -1.762428 SDS-extractedYJL158C by laminarinase|similar to H
released from CIS3 cell walls
9604_at 0.00930369 -0.007797 -1.76618067 -1.75838367 NA YMR027W
High level expression reduced Ty3 Transposition
10689_at 0.1077957 -0.02354 -1.77728867 -1.75374867 CWP1
cell wall mannoprotein YKL096W
8964_at 0.02179954 -0.033096 -1.785485 -1.752389 DBP2 YNL112W
ATP dependent RNA helicase|dead box protein
4489_at 0.03941726 -0.07747833 -1.82335533 -1.745877 GIC1 YHR061C
Protein of unknown function involved in initiation of budding and cel
4452_at 0.06228351 -0.10174433 -1.84465567 -1.74291133 PCL5 cyclin-dependent kinase (Cdk), induce
Cyclin, interacts with Pho85pYHR071W
7908_at 0.12121054 -0.42557267 -2.164129 -1.73855633 Hypothetical ORFNA YPL162C
5642_at 0.02327776 -0.07138633 -1.79931233 -1.727926 ARG5,6 YER069W
acetylglutamate kinase|N-acetyl-gamma-glutamyl-phosphate reduc
11203_i_at 0.02122767 -0.080646 -1.80400467 -1.72335867 RPL17A YJL177W
ribosomal protein L17A (L20A) (YL17)
5219_at 0.21604794 -0.25093033 -1.973103 -1.72217267 chain
Clathrin heavyCHC1 YGL206C
8235_at 0.05549305 -0.02398267 -1.743406 -1.71942333 RAX1 budding pattern of an axl1 null mutant
A rax1 mutation converts the YOR301W
6811_at 0.03376141 -0.016758 -1.72558133 -1.70882333 CPR4 YCR069W
cyclophilin|peptidyl-prolyl cis-trans isomerase (PPIase)
5676_at 0.04206333 -0.06768467 -1.77314967 -1.705465 FCY22
purine-cytosine permease YER060w-A
8400_at 0.11953034 -0.10207167 -1.78980733 -1.68773567 PDR5
multidrug resistance transporterYOR153W
7822_at 0.12682727 -0.06475167 -1.75098133 -1.68622967 Hypothetical ORFNA YPL067C
11032_at 0.09813738 -0.294068 -1.977136 -1.683068 M
ATP sulfurylase ET3 YJR010W
8341_at 0.14782416 -0.33152567 -2.01302 -1.68149433 modulator
transcriptional WTM2 YOR229W
8342_at 0.10497468 -0.04261933 -1.71602333 -1.673404 modulator
transcriptional WTM1 YOR230W
5719_at 0.08658711 -0.153415 -1.82353467 -1.67011967 ISC1 encodes ISC1 YER019W
phospholipase C type enzyme which hydrolyzes inos
9959_at 0.12827481 -0.01717067 -1.686172 -1.66900133 SEC61
membrane component of ERYLR378C protein translocation apparatus
6337_at 0.0844875 -0.222934 -1.88924867 -1.66631467 activator
transcriptional SWI5 YDR146C
8314_g_at 0.01165028 -0.02621567 -1.68944733 -1.66323167 Rad53 YOR247W
Suppressor of SRL1 null Lethality
10619_at 0.02125689 -0.00814233 -1.65577433 -1.647632 The authentic, NA YKL033W
non-tagged protein was localized to the mitochondria
11319_at 0.19284565 -0.12090933 -1.76845667 -1.64754733 EFB1 YAL003W
translation elongation factor EF-1beta
11212_at 0.1463968 -0.223489 -1.86935133 -1.64586233 Hypothetical ORFNA YJL171C
9346_at 0.06684818 -0.047929 -1.68704733 -1.63911833 NA green fluorescent protein (GFP)-fusion
Protein of unknown function; YMR295C
8973_at 0.05023125 -0.01086267 -1.64908133 -1.63821867 LEU4 YNL104C
alpha-isopropylmalate synthase (2-isopropylmalate synthase)
4929_at 0.0083958 -0.01298367 -1.64899033 -1.63600667 Hypothetical ORFNA YGR093W
5774_at 0.13871513 -0.12221133 -1.753457 -1.63124567 PRB1
vacuolar protease B YEL060C
8176_at 0.14749377 -0.36353267 -1.99414 -1.63060733 ATF1
alcohol acetyltransferase YOR377W
10160_at 0.14206468 -0.30788833 -1.93600567 -1.62811733 SAM1
S-adenosylmethionine synthetase YLR180W
9655_at 0.16440163 -0.00906567 -1.63288867 -1.623823 SPT5
transcription factor YML010W
10779_at 0.07654151 -0.10791033 -1.72612 -1.61820967 SPE1
ornithine decarboxylase YKL184W
5394_at 0.06831927 -0.01568933 -1.62979733 -1.614108 beta-tubulin TUB2 YFL037W
4830_at 0.09708496 -0.05063533 -1.663559 -1.61292367 ERG1
squalene monooxygenase YGR175C
7960_i_at 0.00394287 -0.01533733 -1.61640033 -1.601063 RPL7B YPL198W
ribosomal protein L7B (L6B) (rp11) (YL8)
4736_at 0.02065856 -0.069718 -1.66843267 -1.59871467 TNA1 YGR260W
high affinity nicotinic acid plasma membrane permease
7907_at 0.00420192 -0.00407167 -1.59920567 -1.595134 SVS1 YPL163C
Cell wall and vacuolar protein, required for wild-type resistance to v
5558_at 0.02740511 -0.040583 -1.63012267 -1.58953967 PAB1
poly(A) binding protein YER165W
10125_at 0.1005739 -0.264634 -1.85314167 -1.58850767 MMR1 YLR190W
Phosphorylated protein of unknown function, localized to small buds
10617_at 0.15631665 -0.09007867 -1.675823 -1.58574433 UGP1 YKL035W
uridinephosphoglucose pyrophosphorylase
7147_at 0.02452061 -0.046677 -1.622336 -1.575659 RPL21B
ribosomal protein L21B YBR191W
5813_at 0.09246395 -0.106036 -1.68062467 -1.57458867 DLD3
D-lactate dehydrogenase YEL071W
4712_at 0.18833499 -0.04894533 -1.616522 -1.56757667 BGL2 YGR282C
cell wall endo-beta-1,3-glucanase
9519_at 0.11540901 -0.05744867 -1.62402633 -1.56657767 ADE17 YMR120C
5-aminoimidazole-4-carboxamide ribonucleotide (AICAR) transform
9575_at 0.28956944 -0.05512267 -1.61877133 -1.56364867 ARG80
transcription factor YMR042W
6078_at 0.02374362 -0.05591733 -1.61923133 -1.563314 YRA1 protein
RNA-binding RNA annealing YDR381W
9565_at 0.12835896 -0.173607 -1.73518067 -1.56157367 SEC14 YMR079W
phosphatidylinositol transfer protein
8312_at 0.03335256 -0.037595 -1.586994 -1.549399 Hypothetical ORFNA YOR246C
4835_at 0.05191859 -0.03414 -1.58042633 -1.54628633 reductase, small (R2) subunit
ribonucleotide RNR4 YGR180C
9315_at 0.12782395 -0.01256367 -1.55319333 -1.54062967 GAS1 YMR307W
cell surface glycoprotein 115-120 kDa
7218_at 0.07918816 -0.046045 -1.583114 -1.537069 VMA2 subunit B
vacuolar ATPase V1 domain YBR127C (60 kDa)
7718_g_at 0.04757436 -0.019558 -1.55464933 -1.53509133 NHP6A YPR052C
11 kDa nonhistone chromosomal protein
6883_at 0.3294049 -1.04085867 -2.575117 -1.53425833 C
citrate synthase IT2 YCR005C
4416_at 0.20535615 -0.54200433 -2.07409467 -1.53209033 EPT1 YHR123W
sn-1,2-diacylglycerol ethanolamine- and cholinephosphotranferase
4936_at 0.00440195 -0.00518867 -1.53684033 -1.53165167 MUP1 YGR055W
high affinity methionine permease
4033_f_at 0.30097129 -0.84861 -2.378637 -1.530027 COS8 /// COS5 YIR044C
Nuclear membrane protein, member of a family of conserved, often
6401_at 0.0880533 -0.050369 -1.57564167 -1.52527267 SED1 YDR077W
cell surface glycoprotein (putative)
5068_at 0.08997754 -0.176582 -1.69875833 -1.52217633 NA YGL039W
Oxidoreductase, catalyzes NADPH-dependent reduction of the bicy
9651_at 0.07734866 -0.011649 -1.533391 -1.521742 SEL1 YML013W
Endoplasmic reticulum protein whose absence causes highly increa
10895_at 0.17033507 -0.348445 -1.86407333 -1.51562833 HMS2 YJR147W
heat shock transcription factor homolog
10300_f_at 0.22818116 -0.38702733 -1.90092733 -1.5139 RPS0A /// ribosomal protein S0B
ribosomal protein S0A /// RPS0B YLR048W
7832_at 0.09836712 -0.21617333 -1.72966733 -1.513494 SUR1
integral membrane protein YPL057C
11346_at 0.11758401 -0.07126267 -1.58380333 -1.51254067 CCR4 transcriptional regulator for some gluc
carbon catabolite repression;YAL021C
5113_at 0.02643563 -0.007655 -1.51985733 -1.51220233 GUP1
glycerol transporter (putative) YGL084C
5333_at 0.04949764 -0.08940433 -1.59873967 -1.50933533 PHO4
myc-family transcription factor YFR034C
6850_at 0.12446733 -0.04168633 -1.544873 -1.50318667 processing of YCR018C to mature rRNA
involved in theSRD1 pre-rRNA
7579_at 0.1436032 -0.16129967 -1.663336 -1.50203633 SEC23
GTPase activating protein (GAP) YPR181C
3943_i_at 0.21273289 -0.173263 -1.67195367 -1.49869067 NA NA YFL031W
9588_at 0.16674311 -0.342089 -1.83944367 -1.49735467 FET3
multicopper oxidase YMR058W
8249_at 0.02453571 -0.06279267 -1.55955733 -1.49676467 SPS4
sporulation-specific protein YOR313C
6560_at 0.0554503 -0.053106 -1.54743367 -1.49432767 RPL13B
ribosomal protein L13B YDL082W
11123_at 0.22284275 -0.32284 -1.81347133 -1.49063133 PRY1 has similarity to Pry2p and Pry3p and
Protein of unknown function, YJL079C
11235_at 0.0994947 -0.10667267 -1.597149 -1.49047633 RPS14B
ribosomal protein S14B (rp59B) YJL191W
8642_at 0.18058586 -0.178357 -1.65464167 -1.47628467 IZH4 YOL101C
Membrane protein involved in zinc metabolism, member of the four-
6906_at 0.02679285 -0.049648 -1.52552467 -1.47587667 FRM2 involved in
Protein of unknown function, YCL026C-Athe integration of lipid signa
4537_at 0.08648067 -0.01958467 -1.494392 -1.47480733 ARG4
argininosuccinate lyase YHR018C
8937_at 0.02070048 -0.007292 -1.47192333 -1.46463133 Hypothetical ORFNA YNL095C
3166_i_at 0.07715575 -0.134841 -1.59175833 -1.45691733 NA NA YHRWDELTA9
10909_at 0.13173362 -0.25479067 -1.71157033 -1.45677967 Hypothetical ORFNA YJR116W
5675_at 0.02620855 -0.01633867 -1.47170567 -1.455367 FCY21
purine-cytosine permease YER060W
6038_at 0.02815601 -0.03768433 -1.49211733 -1.454433 recognition motif|nuclear shuttling protein
contains RNA NPL3 YDR432W
5669_g_at 0.02971372 -0.00874133 -1.46311667 -1.45437533 FCY2 /// FCY22 purine-cytosine permease
purine-cytosine permease /// YER056C
4335_at 0.17407738 -0.09959167 -1.550864 -1.45127233 CTR2 YHR175W
Putative low-affinity copper transporter of the vacuolar membrane; m
6051_at 0.20116407 -0.220819 -1.66993867 -1.44911967 URH1 ribohydrolase); EC 3.2.2.3
uridine nucleosidase (uridineYDR400W
9714_at 0.14112295 -0.012335 -1.456086 -1.443751 NA NA YML085C
10576_at 0.09375122 -0.07043 -1.51155867 -1.44112867 PRY2 has similarity to Pry1p and Pry3p and
Protein of unknown function, YKR013W
9432_at 0.14228628 -0.05022967 -1.486077 -1.43584733 PFK2
phosphofructokinase beta subunit YMR205C
11056_at 0.01498651 -0.02725733 -1.462589 -1.43533167 polyphosphateVTC4 YJL012C
synthetase (putative)
9453_at 0.0658823 -0.05490867 -1.48297233 -1.42806367 SSO1
t-SNARE /// t-SNARE/// SSO2 YMR183C
10183_at 0.20567829 -0.050397 -1.47647433 -1.42607733 ACS2
acetyl CoA synthetase YLR153C
9312_at 0.05959167 -0.00408767 -1.429927 -1.42583933 SCW10
soluble cell wall protein YMR305C
7811_at 0.01909025 -0.03107033 -1.45228433 -1.421214 RPL21B
ribosomal protein L21B YPL079W
6368_at 0.10649112 -0.06220467 -1.47832 -1.41611533 Hypothetical ORFNA YDR089W
7662_at 0.14468796 -0.097074 -1.50895133 -1.41187733 SUA7 YPR086W
transcription factor TFIIB homolog
7274_at 0.22117784 -0.210361 -1.62213267 -1.41177167 acid phosphatasePHO5 YBR093C
8231_at 0.33076116 -0.430283 -1.840002 -1.409719 MBF1
multiprotein bridging factor YOR298C-A
10347_at 0.01583855 -0.01397267 -1.42275533 -1.40878267 SSL1 YLR005W
RNA polymerase transcription factor TFIIH component
9856_at 0.17334012 -0.17686833 -1.58542733 -1.408559 SST2 YLR452C
GTPase activating protein (GAP)|RGS (regulator of G-protein signa
3626_i_at 0.05472862 -0.10028867 -1.50791333 -1.40762467 COS10 member of
Protein of unknown function, YNR075W a family of conserved, ofte
6379_at 0.1572739 -0.13910667 -1.544011 -1.40490433 BMH2 YDR099W
member of conserved eukaryotic 14-3-3 gene family
5691_at 0.09233833 -0.03502667 -1.43937233 -1.40434567 Hypothetical ORFNA YER036C
8466_at 0.05486264 -0.02836933 -1.432359 -1.40398967 transferase glycoprotein complex 34 kDa gamma su
oligosaccharylOST3 YOR085W
11097_at 0.25434665 -0.39572333 -1.79401967 -1.39829633 Arylformamidase BNA3 YJL060W
7961_f_at 0.01005847 -0.01367767 -1.40982067 -1.396143 RPL7B YPL198W
ribosomal protein L7B (L6B) (rp11) (YL8)
10599_at 0.08938861 -0.03910433 -1.43367933 -1.394575 LAC1
LAG1 longevity gene homolog YKL008C
11185_at 0.18388513 -0.368324 -1.75159433 -1.38327033 INO1 YJL153C
L-myo-inositol-1-phosphate synthase
4881_at 0.14133666 -0.02447867 -1.406426 -1.38194733 LAs17 BindingLSB1protein YGR136W
5565_at 0.16851582 -0.27445067 -1.653528 -1.37907733 RSP5 YER125W
involved in ubiquitin-mediated protein degradation
4516_f_at 0.00967126 -0.01507233 -1.390557 -1.37548467 RPL14A
ribosomal protein L14A YHL001W
8182_at 0.13304315 -0.12690967 -1.50101633 -1.37410667 FIT3 YOR383C
Cell wall protein involved in iron transport
10065_at 0.25457864 -0.08372233 -1.45389033 -1.370168 YPT6
similar to the human GTPase, Rab6YLR262C
4575_i_at 0.02498425 -0.016115 -1.38354067 -1.36742567 RPL8B YHL033C
ribosomal protein L8B (L4B) (rp6) (YL5)
9645_at 0.31162768 -0.23976867 -1.60599933 -1.36623067 OST6 YML019W
N-oligosaccharyltransferase complex 37kDa subunit (putative)
9953_at 0.06583579 -0.016442 -1.38048567 -1.36404367 elongase SUR4 YLR372W
7188_at 0.10747297 -0.03927833 -1.400944 -1.36166567 Hypothetical ORFNA YBR187W
9391_at 0.22605335 -0.04153367 -1.39922967 -1.357696 Hypothetical ORFNA YMR252C
10002_i_at 0.14450003 -0.02364567 -1.37925167 -1.355606 NA NA YLR333C
9430_at 0.06028101 -0.078223 -1.431706 -1.353483 TOM40 YMR203W
forms the outer membrane import channel|mitochondrial outer mem
5680_at 0.0430728 -0.011136 -1.36118067 -1.35004467 GCD11 YER025W
translational initiation factor eIF-2 gamma subunit
10146_at 0.16817988 -0.10324433 -1.45253167 -1.34928733 SEC13 YLR208W
nuclear pore complex subunit|protein involved in release of transpo
10345_at 0.01107803 -0.01156933 -1.36054833 -1.348979 Hypothetical ORFNA YLR003C
4898_at 0.0420649 -0.06777867 -1.41520433 -1.34742567 B-type cyclin CLB1 YGR108W
7382_at 0.06139224 -0.03595867 -1.38336067 -1.347402 RRN10 YBL025W
upstream activation factor subunit
9708_at 0.12297842 -0.143928 -1.48548367 -1.34155567 GSF2 YML048W
ER localized integral membrane protein that may promote secretion
10930_at 0.30017696 -0.29641 -1.636832 -1.340422 Member of theJSN1 YJR091C
Puf family of RNA-binding proteins, interacts with mR
7317_at 0.02965785 -0.011673 -1.35194833 -1.34027533 REB1 binding protein
RNA polymerase I enhancer YBR049C
9983_at 0.17352917 -0.01800667 -1.351677 -1.33367033 ADE13
adenylosuccinate lyase YLR359W
11369_at 0.26055724 -0.091146 -1.42331533 -1.33216933 G1 cyclin CLN3 YAL040C
6304_at 0.03464616 -0.04159333 -1.37165067 -1.33005733 HOM2 dehydrogenase
aspartic beta semi-aldehyde YDR158W
10566_at 0.33079447 -0.14934833 -1.47777967 -1.32843133 Member of an OSH6 YKR003W
oxysterol-binding protein family with overlapping, red
6370_at 0.08294708 -0.103224 -1.42919 -1.325966 RLI1 superfamily
ATP-binding cassette (ABC) YDR091C nontransporter group (puta
7403_at 0.1074851 -0.013949 -1.338741 -1.324792 Hypothetical ORFMOH1 YBL049W
9126_at 0.05210502 -0.02922133 -1.350105 -1.32088367 lysine permease LYP1 YNL268W
9696_at 0.07886718 -0.04356567 -1.36353467 -1.319969 mec lethality. Ribonucleotide reductase inhibitor.
Suppressor of SML1 YML058W
5096_at 0.0328881 -0.013357 -1.33199767 -1.31864067 Hypothetical ORFNA YGL101W
10953_at 0.12745092 -0.08416467 -1.40092367 -1.316759 HAM1 YJR069C
Protein of unknown function that is involved in DNA repair; mutant i
5381_at 0.28554372 -0.600148 -1.91646867 -1.31632067 BLM3 against bleomycin damage
involved in protecting the cellYFL007W
9675_at 0.2493045 -0.336909 -1.65214267 -1.31523367 SRC1 sister chromatid segregation, potentia
Protein with a putative role inYML034W
7306_at 0.07173508 -0.07497567 -1.388118 -1.31314233 CHS2
chitin synthase 2 YBR038W
5917_at 0.14558889 -0.05722167 -1.36762833 -1.31040667 PAD1
phenylacrylic acid decarboxylaseYDR538W
9130_at 0.12059417 -0.07578733 -1.38476833 -1.308981 PDR17
Pdr16p homolog|Sec14p homolog YNL264C
9630_at 0.21695656 -0.00775867 -1.31442133 -1.30666267 phospholipasePLB1 YMR008C
B (lypophospholipase)
8508_at 0.07942797 -0.027424 -1.33397733 -1.30655333 SHE4 YOR035C
Protein containing a UCS (UNC-45/CRO1/SHE4) domain, binds to m
8678_at 0.10402883 -0.02850867 -1.334678 -1.30616933 SHR5 YOL110W
Subunit of a palmitoyltransferase, composed of Shr5p and Erf2p, th
9108_at 0.3962249 -0.49033067 -1.79200433 -1.30167367 ZWF1 YNL241C
glucose-6-phosphate dehydrogenase
10471_at 0.04853128 -0.01797567 -1.319392 -1.30141633 SRP40 YKR092C
Nopp140 homolog, a nonribosomal protein of the nucleolus and coi
9512_at 0.05709373 -0.01901533 -1.319462 -1.30044667 ASC1
G-beta like protein YMR116C
7547_at 0.07040994 -0.09175867 -1.38959733 -1.29783867 NA NA YPR195C
4464_at 0.09856392 -0.02156667 -1.31675733 -1.29519067 KSP1 YHR082C
Serine/threonine kinase similar to casein kinase II and other serine/
4417_at 0.14701992 -0.083955 -1.378378 -1.294423 EPT1 YHR123W
sn-1,2-diacylglycerol ethanolamine- and cholinephosphotranferase
9637_at 0.26777782 -0.08060067 -1.372106 -1.29150533 ERG5
cytochrome P450|involved inYMR015CC-22 denaturation of the ergosterol sid
7458_i_at 0.11945815 -0.00908267 -1.29577667 -1.286694 NA NA YBL083C
6263_at 0.13459392 -0.09025833 -1.376459 -1.28620067 EBS1 contains a
Protein of unknown function, YDR206W putative RNA recognition m
4779_f_at 0.12796344 -0.148071 -1.43402267 -1.28595167 RPS0A /// ribosomal protein S0B
ribosomal protein S0A /// RPS0B YGR214W
9966_at 0.03401385 -0.00390267 -1.288795 -1.28489233 FKS1
1,3-beta-D-glucan synthase YLR342W
4922_at 0.08533224 -0.08828433 -1.372035 -1.28375067 PIL1 inhibitor of
Long chain base-responsive YGR086C protein kinases Phk1p and
5654_at 0.11738885 -0.18289333 -1.461596 -1.27870267 SER3
3-phosphoglycerate dehydrogenaseYER081W
5718_at 0.12879134 -0.09605267 -1.37257767 -1.276525 SPC25
spindle pole component YER018C
8579_at 0.19621144 -0.09490767 -1.37132833 -1.27642067 YAP7 YOL028C
basic leucine zipper (bZIP) transcription factor
4999_at 0.17605428 -0.21975067 -1.49508467 -1.275334 NA green fluorescent protein (GFP)-fusion
Protein of unknown function; YGR026W
8338_at 0.17456711 -0.25858167 -1.53216567 -1.273584 ISU2 YOR226C
Iron-sulfur cluster nifU-like protein
11131_at 0.08863537 -0.10372967 -1.37369633 -1.26996667 Hypothetical ORFNA YJL118W
10168_at 0.11570457 -0.048713 -1.31731867 -1.26860567 NA green fluorescent protein (GFP)-fusion
Protein of unknown function; YLR187W
3234_at 0.06469071 -0.08029367 -1.34875333 -1.26845967 COS1 member of
Protein of unknown function, YGR295C a family of conserved, ofte
11355_at 0.08678483 -0.003073 -1.26572467 -1.26265167 CYS3
cystathionine gamma-lyase YAL012W
9704_at 0.18962415 -0.27183167 -1.53296567 -1.261134 SUR7 YML052W
integral membrane protein (putative)
8725_g_at 0.43420919 -1.019294 -2.27831533 -1.25902133 NA
Hypothetical ORF /// ORF YOL155C
4500_at 0.07868402 -0.034222 -1.29196133 -1.25773933 PPA1 V0 domain
proteolipid|vacuolar ATPase YHR026W subunit c''
6869_at 0.10665099 -0.07690133 -1.33233967 -1.25543833 FEN1 in sphingolipid biosynthesis; acts on f
Fatty acid elongase, involvedYCR034W
6431_at 0.03150251 -0.03102067 -1.28543867 -1.254418 LCB2 YDR062W
serine palmitoyltransferase component
8569_at 0.20994196 -0.098754 -1.35272133 -1.25396733 SLG1 YOR008C
cell wall integrity and stress response component 1
5223_at 0.03442494 -0.017821 -1.27019167 -1.25237067 ARO8 YGL202W
aromatic amino acid aminotransferase
10159_at 0.05199815 -0.003323 -1.24948833 -1.24616533 NA transcription is activated by paralogou
Protein of unknown function, YLR179C
5323_at 0.15542529 -0.14757967 -1.392446 -1.24486633 Hypothetical ORFNA YFR026C
4800_at 0.06058325 -0.09370733 -1.33602333 -1.242316 NA NA YGR190C
8019_s_at 0.15437395 -0.11328667 -1.35553233 -1.24224567 Hypothetical ORFNA YPL277C
8920_i_at 0.02545228 -0.03419967 -1.275819 -1.24161933 RPL9B YNL067W
ribosomal protein L9B (L8B) (rp24) (YL11)
11353_at 0.13018743 -0.03402467 -1.27520833 -1.24118367 syntaxin familySYN8 YAL014C
10171_at 0.06167961 -0.00409633 -1.24499733 -1.240901 RRN5 YLR141W
UAF member (upstream activation factor) along with Rrn9p and Rrn
7358_s_at 0.05970194 -0.01767433 -1.25823133 -1.240557 HTA1 YBL003C
histone H2A (HTA1 and HTA2 code for nearly identical proteins)
9884_at 0.05308959 -0.02507467 -1.26251967 -1.237445 Hypothetical ORFNA YLR437C
7334_at 0.05473723 -0.02263467 -1.25920767 -1.236573 uracil permease FUR4 YBR021W
5812_at 0.03726215 -0.00022267 -1.23513333 -1.23491067 RMD6 YEL072W
Protein required for sporulation
8833_at 0.2950387 -0.043632 -1.27771867 -1.23408667 ECM39
mannosyltransferase YNR030W
10680_at 0.17914124 -0.14782767 -1.378795 -1.23096733 GFA1 YKL104C
glucoseamine-6-phosphate synthase|glutamine_fructose-6-phosph
8790_s_at 0.07364859 -0.02535433 -1.25481467 -1.22946033 YIP3
Interacts with YPT proteins YNL044W
5360_at 0.11953584 -0.103936 -1.333249 -1.229313 Hypothetical ORFNA YFR018C
11079_at 0.21500636 -0.259183 -1.48780433 -1.22862133 PRY3 has similarity to Pry1p and Pry2p and
Protein of unknown function, YJL078C
5763_at 0.12656069 -0.06625767 -1.29377667 -1.227519 CUP5 YEL027W
17 kDa|VO sector subunit|dicyclohexylcarbodiimide binding subunit
9936_at 0.05819295 -0.05593367 -1.27959567 -1.223662 synthase 3 YLR401C
dihydrouridine DUS3
11260_at 0.18761694 -0.262624 -1.48513367 -1.22250967 OPT1 YJL212C
peptide transporter|glutathione transporter
10247_at 0.1093127 -0.11176367 -1.33292767 -1.221164 24kDa YLR083C
Protein whose EMP70 cleavage product is found in endosome-enric
8377_at 0.11590363 -0.155291 -1.37581667 -1.22052567 Hypothetical ORFNA YOR175C
4045_s_at 0.07927576 -0.02485367 -1.24126467 -1.216411 reductase, large (R1) subunit
ribonucleotide RNR3 YIL066C
4114_at 0.26516839 -0.42713533 -1.6401 -1.21296467 TIR3
cell wall mannoprotein YIL011W
6890_at 0.26645257 -0.04389267 -1.25643633 -1.21254367 PGK1
3-phosphoglycerate kinase YCR012W
4451_at 0.04604614 -0.00832367 -1.219782 -1.21145833 TRM5 YHR070W
tRNA(m(1)G37)methyltransferase, methylates a tRNA base adjacen
7420_at 0.03403943 -0.01146067 -1.22198433 -1.21052367 HEK2 YBL032W
RNA binding protein with similarity to hnRNP-K that localizes to the
6837_at 0.06144576 -0.06471167 -1.27229233 -1.20758067 ARE1 YCR048W
acyl-CoA cholesterol acyltransferase (sterol-ester synthetase)
10235_at 0.16138467 -0.074272 -1.28136333 -1.20709133 Component of MSL5 YLR116W
the commitment complex, which defines the first step
9913_at 0.34930093 -0.01677567 -1.223169 -1.20639333 Hypothetical ORFNA YLR422W
5573_at 0.50658172 -1.48984567 -2.695534 -1.20568833 GLC7
protein phosphatase type I YER133W
8436_at 0.08694921 -0.03870567 -1.24325833 -1.20455267 KTR1
type II transmembrane protein YOR099W
4866_at 0.06758066 -0.07999467 -1.284457 -1.20446233 ammonia permeaseMEP1 YGR121C
6174_at 0.05950539 -0.007083 -1.21093 -1.203847 PRO1
gamma-glutamyl kinase YDR300C
4102_at 0.05718406 -0.03509533 -1.238118 -1.20302267 Hypothetical ORFNA YIL023C
8393_at 0.06482009 -0.01206333 -1.214604 -1.20254067 NA NA YOR146W
4468_at 0.18681874 -0.00246167 -1.20129567 -1.198834 NAM8 YHR086W
RNA-binding protein|U1 snRNP protein|involved in meiosis-specific
8465_at 0.11809449 -0.133699 -1.33250567 -1.19880667 of YOR084W
Putative lipaseNA the peroxisomal matrix; transcriptionally activated
5740_at 0.03681415 -0.02215133 -1.21940833 -1.197257 Hypothetical ORFNA YEL006W
5977_at 0.0759447 -0.06325333 -1.25748833 -1.194235 GNP1 YDR508C
high affinity glutamine permease
5697_at 0.07578747 -0.08937 -1.283514 -1.194144 MXR1 reductase
peptide methionine sulfoxide YER042W
5253_g_at 0.13285901 -0.191309 -1.38227233 -1.19096333 aspartic YPS6YGL259W
GPI-anchored YPS5 /// protease /// GPI-anchored aspartic protease
8266_at 0.03341459 -0.00834233 -1.19913433 -1.190792 regulator
transcriptional SNF2 YOR290C
8420_at 0.05048729 -0.00563733 -1.19574333 -1.190106 ADE2 YOR128C
phosphoribosylamino-imidazole-carboxylase
8820_at 0.10241748 -0.06995933 -1.258438 -1.18847867 Hypothetical ORFNA YNR061C
7263_at 0.10091608 -0.11722167 -1.30540867 -1.188187 AAC3
ADP/ATP translocator YBR085W
10526_at 0.0403981 -0.01368367 -1.20126233 -1.18757867 heavy chain ofDYN1 YKR054C
cytoplasmic dynein
4799_at 0.06469625 -0.080241 -1.261945 -1.181704 C
cell wall protein RH1 YGR189C
4323_f_at 0.01905685 -0.02130467 -1.20062833 -1.17932367 IMD2
IMP dehydrogenase homolog YHR216W
4730_s_at 0.18924124 -0.01072367 -1.189626 -1.17890233 enolase ENO2 YGR254W
10325_at 0.13184706 -0.044227 -1.22224 -1.178013 RPL15A YLR029C
ribosomal protein L15A (YL10) (rp15R) (L13A)
10009_at 0.41985678 -0.546696 -1.72440133 -1.17770533 NA NA YLR339C
6608_at 0.18124045 -0.06929533 -1.24687033 -1.177575 SNA4 localized to
Protein of unknown function, YDL123W the vacuolar outer membra
6696_at 0.01658549 -0.01736533 -1.19261567 -1.17525033 SHR3 YDL212W
Endoplasmic reticulum packaging chaperone, required for incorpora
10524_at 0.23371977 -0.04871633 -1.22186133 -1.173145 carrier protein MRS4 YKR052C
5069_at 0.30826844 -0.13561133 -1.307668 -1.17205667 Hypothetical ORFNA YGL082W
7641_at 0.07775614 -0.05211967 -1.221442 -1.16932233 RPC40
RNA polymerase III subunit YPR110C
4164_at 0.04646036 -0.00356367 -1.169251 -1.16568733 NA NA YIL053W
7242_at 0.09687637 -0.00748033 -1.17136967 -1.16388933 PHO88 involved in
Probable membrane protein, YBR106W phosphate transport; pho8
10994_at 0.14311865 -0.02918933 -1.19162433 -1.162435 cis-trans isomerase (PPIase)
peptidyl-prolyl ESS1 YJR017C
10326_g_at 0.10719811 -0.03807633 -1.20030667 -1.16223033 RPL15A (YL10) (rp15R) (L13A) /// ribosomal protein
YLR029C
ribosomal protein L15A /// RPL15B
8199_at 0.07971328 -0.03599167 -1.197773 -1.16178133 GDS1 required for
Protein of unknown function, YOR355W growth on glycerol as a ca
8491_at 0.21665813 -0.00528267 -1.16483967 -1.159557 RPL3 YOR063W
ribosomal protein L3 (rp1) (YL1)
8315_i_at 0.08055573 -0.06052567 -1.21863067 -1.158105 Rad53 YOR248W
Suppressor of SRL1 null Lethality
8022_at 0.08159227 -0.03980167 -1.195251 -1.15544933 SAM4 YPL273W
AdoMet-homocysteine methyltransferase
6004_at 0.08329363 -0.03346267 -1.18753633 -1.15407367 SSN2
transcription factor YDR443C
5258_at 0.03306741 -0.01849367 -1.171716 -1.15322233 ZRT1 YGL255W
High-affinity zinc transporter of the plasma membrane, responsible
8871_at 0.07443748 -0.01995833 -1.16982667 -1.14986833 NA YNL024C
Putative S-adenosylmethionine-dependent methyltransferase of the
11150_at 0.10190464 -0.04926 -1.19619533 -1.14693533 membrane protein required for import of mitochondr
16.5 kDa innerTIM17 YJL143W
4860_at 0.1001072 -0.055235 -1.20178167 -1.14654667 NSR1 YGR159C
nuclear localization sequence binding protein
6243_at 0.10478661 -0.059765 -1.20560733 -1.14584233 HEM1
5-aminolevulinate synthase YDR232W
8613_at 0.21769765 -0.09507367 -1.23423367 -1.13916 RPP2A P2A (L44)
60S acidic ribosomal protein YOL039W (A2) (YP2alpha)
10993_at 0.11302079 -0.09274967 -1.230757 -1.13800733 ILV3
dihydroxyacid dehydratase YJR016C
7897_at 0.07698097 -0.014329 -1.15170067 -1.13737167 TBF1
TTAGGG repeat binding factor YPL128C
8984_at 0.28120027 -0.03052767 -1.16417433 -1.13364667 NA NA YNL138W
3949_i_at 0.17582071 -0.200292 -1.33322733 -1.13293533 YIP3
Interacts with YPT proteins YNL044W
6687_at 0.02457897 -0.00884133 -1.14152733 -1.132686 CDC13 YDL220C
single-stranded TG1-3 telomere G-tails binding protein
10722_at 0.19839418 -0.13892533 -1.269908 -1.13098267 Hypothetical ORFNA YKL151C
6864_at 0.09278496 -0.02945833 -1.16033233 -1.130874 RIM1
DNA binding protein YCR028C-A
10473_i_at 0.05599157 -0.005006 -1.13486033 -1.12985433 RPL40B YKR094C
ribosomal protein L40B|also encodes a ubiquitin protein
10738_i_at 0.10004059 -0.07053767 -1.199069 -1.12853133 RPL17A YKL180W
ribosomal protein L17A (L20A) (YL17)
4238_at 0.09599524 -0.014799 -1.14238467 -1.12758567 nitrilase NIT1 YIL164C
6447_at 0.31736891 -0.2539 -1.38138633 -1.12748633 MRH1 YDR033W
Protein that localizes primarily to the plasma membrane, also found
9885_at 0.20711317 -0.09864567 -1.22552167 -1.126876 CAR2
ornithine aminotransferase YLR438W
10511_at 0.29150039 -0.23046233 -1.35652467 -1.12606233 general aminoGAP1acid permease YKR039W
7396_at 0.02928672 -0.034029 -1.15961933 -1.12559033 SCT1 YBL011W
High copy suppresor of choline-transport mutants
9566_at 0.22092305 -0.18970533 -1.313673 -1.12396767 NAM7
helicase (putative) YMR080C
9026_at 0.24380407 -0.312221 -1.43455167 -1.12233067 MEP2
ammonia transport protein YNL142W
9851_at 0.24117561 -0.03542467 -1.15719567 -1.121771 VMA6 subunit d
vacuolar ATPase V0 domain YLR447C (36 kDa)|vacuolar H(+) ATP
7574_at 0.09974412 -0.05415467 -1.17511067 -1.120956 BET2 YPR176C
geranylgeranyltransferase type II beta subunit
4167_at 0.09683627 -0.01022367 -1.13105433 -1.12083067 cyclin PCL7 YIL050W
7365_at 0.11203629 -0.02757167 -1.146678 -1.11910633 ER membraneNA protein YBR005W
4132_at 0.0730483 -0.01469367 -1.13251133 -1.11781767 Hypothetical ORFNA YIL039W
10927_at 0.20089722 -0.101695 -1.219261 -1.117566 Hypothetical ORFNA YJR088C
7717_at 0.02794386 -0.004378 -1.120074 -1.115696 NHP6A YPR052C
11 kDa nonhistone chromosomal protein
9083_at 0.04017627 -0.01683567 -1.13244933 -1.11561367 ADE12
adenylosuccinate synthetaseYNL220W
6818_at 0.21242101 -0.02807667 -1.14268767 -1.114611 PAT1 deadenylation-dependent mRNA-deca
Topoisomerase II-associatedYCR077C
9917_at 0.09287967 -0.09292367 -1.207472 -1.11454833 Hypothetical ORFNA YLR426W
9603_at 0.01561001 -0.00228067 -1.11617667 -1.113896 PEX12 YMR026C
C3HC4 zinc-binding integral peroxisomal membrane protein
6909_at 0.16468663 -0.13778067 -1.250471 -1.11269033 LEU2 YCL018W
beta-IPM (isopropylmalate) dehydrogenase
9098_at 0.09128236 -0.09002167 -1.19838067 -1.108359 NRD1 YNL251C
RNA-binding protein that interacts with the C-terminal domain of the
7654_at 0.1711191 -0.189833 -1.29736667 -1.10753367 Hypothetical ORFNA YPR078C
11041_at 0.02752548 -0.00967433 -1.117056 -1.10738167 reductase subunit|ribonucleotide reductase, small (R
ribonucleotide RNR2 YJL026W
7085_at 0.07538437 -0.07093833 -1.17783467 -1.10689633 TSC10
3-ketosphinganine reductaseYBR265W
6820_at 0.19295227 -0.06646167 -1.17127433 -1.10481267 SRB8 YCR081W
activation mediator subcomplex of RNA polymerase I holoenzyme
9683_at 0.20727662 -0.04544667 -1.14995033 -1.10450367 YOX1 YML027W
homeobox-domain containing protein
7695_at 0.35319136 -0.44273767 -1.546805 -1.10406733 NA NA YPR075C
5698_at 0.07941728 -0.01271067 -1.11592367 -1.103213 SAH1 YER043C
S-adenosyl-L-homocysteine hydrolase (putative)
6532_at 0.2809477 -0.07431333 -1.17043867 -1.09612533 IDP1 YDL066W
NADP-dependent isocitrate dehydrogenase
6823_at 0.07490844 -0.007404 -1.10204167 -1.09463767 TUP1 YCR084C
General repressor of transcription (with Cyc8p), mediates glucose r
4965_at 0.10807155 -0.085909 -1.18051333 -1.09460433 NA NA YGR039W
7418_at 0.10776544 -0.04906767 -1.14035867 -1.091291 cold-sensitive YBL034C
Suppressor of STU1 tub2 mutation. Stu1p binds to interpola
10902_at 0.04069035 -0.00395033 -1.093051 -1.08910067 CPA2
carbamyl phosphate synthetase YJR109C
4801_at 0.06139161 -0.04880867 -1.135224 -1.08641533 HIP1
histidine permease YGR191W
7779_at 0.03076117 -0.023799 -1.11006867 -1.08626967 polyphosphateVTC3 YPL019C
synthetase (putative)
9534_at 0.02940781 -0.00845267 -1.092847 -1.08439433 AIP1
actin cortical patch component YMR092C
6413_at 0.32685476 -0.18704633 -1.26987933 -1.082833 HEM13
coproporphyrinogen III oxidase YDR044W
10755_at 0.23465005 -0.05650133 -1.137876 -1.08137467 PIR1 YKL164C
Protein containing tandem internal repeats
3470_i_at 0.30591832 -0.44723933 -1.528511 -1.08127167 COS5 member of
Protein of unknown function, YDL248W a family of conserved, ofte
7911_at 0.18478109 -0.14391633 -1.22358133 -1.079665 PET20 YPL159C
Protein required for respiratory growth and stability of the mitochond
11139_at 0.23334618 -0.10910833 -1.18614033 -1.077032 PRM10 YJL108C
Hypothetical ORF /// Pheromone-regulated protein, predicted to hav
6894_at 0.3121033 -0.11879933 -1.19502533 -1.076226 ATG22 YCL038C
Autophagy gene essential for breakdown of autophagic vesicles in t
10659_at 0.02536558 -0.007366 -1.08266867 -1.07530267 TEF4 YKL081W
translation elongation factor EF-1gamma
5577_at 0.31285392 -0.26291667 -1.33677833 -1.07386167 GDI1
GDP dissociation inhibitor YER136W
10961_at 0.20592675 -0.01479833 -1.087976 -1.07317767 MIR1 YJR077C
Mitochondrial phosphate carrier, imports inorganic phosphate into m
8464_at 0.05279014 -0.05444 -1.12671133 -1.07227133 function unknownWHI5 YOR083W
8366_at 0.14348157 -0.05371433 -1.125322 -1.07160767 SEY1 YOP1
Synthetic Enhancement with YOR165W
10265_at 0.18325474 -0.03695167 -1.10744933 -1.07049767 ERG3
C-5 sterol desaturase YLR056W
4392_at 0.26448934 -0.172701 -1.242986 -1.070285 DSE2 YHR143W
Daughter cell-specific secreted protein with similarity to glucanases
7126_at 0.15001383 -0.05131333 -1.12113267 -1.06981933 Y
redox regulator BP1 YBR216C
7889_at 0.03683829 -0.034036 -1.10300233 -1.06896633 NA NA YPL136W
7970_at 0.17374706 -0.04620333 -1.11445033 -1.068247 TFP3 subunit c'
vacuolar ATPase V0 domain YPL234C (17 kDa)|vacuolar H(+) ATP
5730_at 0.21102822 -0.11113067 -1.178133 -1.06700233 GTT3 YEL017W
Protein of unknown function with a possible role in glutathione meta
5631_at 0.05927285 -0.02162533 -1.088571 -1.06694567 UBC6
ubiquitin-conjugating enzyme YER100W
7651_at 0.04881217 -0.048772 -1.115642 -1.06687 B-type cyclin CLB2 YPR119W
5234_at 0.05935433 -0.009269 -1.07311367 -1.06384467 ADE5,7 YGL234W
aminoimidazole ribotide synthetase|glycinamide ribotide synthetase
9163_at 0.17548985 -0.01856633 -1.081947 -1.06338067 NA potential Cdc28p substrate
Protein of unknown function, YNL321W
8857_at 0.08874517 -0.08435567 -1.14757867 -1.063223 Hypothetical ORFNA YNR009W
9366_at 0.21437784 -0.13094867 -1.192464 -1.06151533 SCS7
desaturase|hydroxylase YMR272C
9948_f_at 0.04220647 -0.02538567 -1.08563367 -1.060248 RPS22B YLR367W
ribosomal protein S22B (S24B) (rp50) (YS22)
7698_at 0.10510688 -0.027374 -1.08746 -1.060086 GLN1
glutamine synthetase YPR035W
8683_at 0.37348715 -0.20483433 -1.26432233 -1.059488 GRE2 YOL151W
NADPH-dependent methylglyoxal reductase (D-lactaldehyde dehyd
3913_s_at 0.5643716 -1.101919 -2.15951367 -1.05759467 HAP1 YARCTY1-1
Identified by expression profiling and mass spectrometry /// Similar
11003_at 0.26732556 -0.04949867 -1.106244 -1.05674533 BNA1 YJR025C
3-hydroxyanthranilic acid dioxygenase
8933_at 0.19330437 -0.05496767 -1.1109 -1.05593233 VAC7 YNL054W
Integral 128-kDa vacuolar membrane protein; may function to regul
4909_f_at 0.01034644 -0.008187 -1.06359467 -1.05540767 NA NA YGR118W
5236_n_at 0.23643986 -0.14743933 -1.202364 -1.05492467 acetyltransferase, RNA-binding protein required for t
Putative tRNA TAN1 YGL232W
6039_g_at 0.0297668 -0.01632233 -1.07090033 -1.054578 recognition motif|nuclear shuttling protein
contains RNA NPL3 YDR432W
9419_at 0.36785199 -0.29163167 -1.34602067 -1.054389 NA NA YMR193C-A
10122_at 0.05274904 -0.009427 -1.06199833 -1.05257133 NA NA YLR230W
4843_at 0.18231455 -0.073636 -1.12559267 -1.05195667 SKN1 YGR143W
highly homologous to Kre6p|type II membrane protein (putative)
11105_at 0.07976958 -0.024042 -1.07438267 -1.05034067 NA YJL097W
Protein required for cell viability
9516_at 0.17514064 -0.04914567 -1.09792267 -1.048777 ASI1 YMR119W
Putative integral membrane E3 ubiquitin ligase; genetic interactions
5759_at 0.19203012 -0.10585833 -1.15414267 -1.04828433 P-type ATPase SPF1 YEL031W
7060_at 0.17606784 -0.01008567 -1.05559833 -1.04551267 NA NA YBR287W
11146_at 0.20967823 -0.112508 -1.15670833 -1.04420033 GSH1 YJL101C
gamma-glutamylcysteine synthetase
8139_at 0.06193415 -0.025715 -1.069489 -1.043774 Hypothetical ORFNA YOR385W
5614_at 0.06353927 -0.00357833 -1.04622967 -1.04265133 ILV1
threonine deaminase YER086W
4470_at 0.29342745 -0.19987067 -1.24130633 -1.04143567 SRB2 YHR041C
RNA polymerase II holoenzyme/mediator subunit
5611_at 0.11944607 -0.01759533 -1.05812733 -1.040532 RMD7 Division; functions in DNA replication a
Required for Meiotic nuclear YER083C
8532_at 0.09971194 -0.01873033 -1.05925767 -1.04052733 RTS1 YOR014W
protein phosphatase 2A (PP2A) B-type regulatory subunit
10232_at 0.18768495 -0.00920033 -1.04767533 -1.038475 MAP kinase HOG1 YLR113W
5581_at 0.38227835 -0.072595 -1.109244 -1.036649 COX15 YER141W
cytochrome oxidase assembly factor
4992_at 0.15392765 -0.04686067 -1.08273233 -1.03587167 UGA1 YGR019W
gamma-aminobutyrate (GABA) transaminase (4-aminobutyrate ami
10068_i_at 0.32728989 -0.23243067 -1.26696533 -1.03453467 RPS28B YLR264W
ribosomal protein S28B (S33B) (YS27)
8867_at 0.22386399 -0.181038 -1.21445933 -1.03342133 ARE2 YNR019W
acyl-CoA cholesterol acyltransferase (sterol-ester synthetase)
4056_at 0.22598527 -0.01830767 -1.05154933 -1.03324167 NA NA YIR020C
7369_s_at 0.05578185 -0.00551 -1.03745033 -1.03194033 HHT2
histone H3 (HHT1 and HHT2YBR010W code for identical proteins)
6665_at 0.04760814 -0.01667333 -1.046606 -1.02993267 GGC1 YDL198C
Mitochondrial GTP/GDP transporter, essential for mitochondrial gen
5317_s_at 0.21686576 -0.04490567 -1.07233367 -1.027428 NA YFL042C
Due to a sequence change (deletion of G at 46151), YFL043C is no
9688_at 0.089523 -0.040346 -1.064736 -1.02439 APT1 YML022W
adenine phosphoribosyltransferase
4933_at 0.09202815 -0.00391733 -1.027828 -1.02391067 activator YGR097W
transcriptional ASK10 of the SKN7 mediated 'two-component' regu
3627_r_at 0.1320823 -0.094619 -1.118297 -1.023678 COS10 member of
Protein of unknown function, YNR075W a family of conserved, ofte
6359_at 0.21838485 -0.18537533 -1.20710533 -1.02173 Hypothetical ORFNA YDR124W
9101_at 0.15292706 -0.07369767 -1.09536033 -1.02166267 RPA49 YNL248C
RNA polymerase A 49 kDa alpha subunit
10494_at 0.09516905 -0.06525367 -1.08602 -1.02076633 MET1 YKR069W
S-adenosyl-L-methionine uroporphyrinogen III transmethylase, invo
4718_at 0.17482339 -0.15795133 -1.17854667 -1.02059533 protein
MAL-activator MAL13 YGR288W
7441_at 0.01546933 -0.000652 -1.02084367 -1.02019167 PTC3
protein phosphatase type 2CYBL056W
11343_at 0.10708148 -0.0462 -1.065606 -1.019406 LTE1 YAL024C
Gdp/GTP exchange factor required for growth at low temperatures
5961_at 0.08468137 -0.03764733 -1.05591167 -1.01826433 IZH1 YDR492W
Membrane protein involved in zinc metabolism, member of the four-
5424_at 0.22135615 -0.19847167 -1.216321 -1.01784933 AAD6 YFL056C
aryl-alcohol dehydrogenase (putative)
5000_i_at 0.09123387 -0.002883 -1.02037433 -1.01749133 RPS25A (S31A) (rp45) (YS23) /// ribosomal protein S
YGR027C
ribosomal protein S25A /// RPS25B
9416_at 0.12672116 -0.02606433 -1.04241467 -1.01635033 NA YMR191W
Protein required for survival at high temperature during stationary p
7597_at 0.19339709 -0.02653 -1.04202733 -1.01549733 [PSI+] inductionPIN3 YPR154W
9069_at 0.49554208 -0.27590867 -1.290566 -1.01465733 Hypothetical ORFNA YNL190W
8550_at 0.04302097 -0.03325833 -1.04208067 -1.00882233 HTZ1 YOL012C
evolutionarily conserved member of the histone H2A F/Z family of h
8577_at 0.15990055 -0.143528 -1.15110067 -1.00757267 GAS5 YOL030W
Putative 1,3-beta-glucanosyltransferase, has similarity to Gas1p; lo
8479_at 0.05216812 -0.021297 -1.02867067 -1.00737367 RPS7A
ribosomal protein S7A (rp30)YOR096W
5152_at 0.03105456 -0.00905833 -1.01635867 -1.00730033 SEC27
yeast coatomer beta'-subunitYGL137W
3738_s_at 0.14926801 -0.01835733 -1.02560833 -1.007251 COS1 member of
Protein of unknown function, YML132W a family of conserved, ofte
7265_at 0.28470879 -0.015292 -1.021187 -1.005895 RFC5 YBR087W
replication factor C subunit 5|similar to human RFC 38 kDa subunit
8637_at 0.30884549 -0.17722333 -1.183 -1.00577667 MAM3 YOL060C
Protein required for normal mitochondrial morphology, has similarity
4778_at 0.32362752 -0.18686233 -1.18951667 -1.00265433 RTA1 YGR213C
involved in 7-aminocholesterol resistance
8188_at 0.06938088 -0.02941133 -1.03134033 -1.001929 TYE7 a potential
33 kDa|serine-rich protein, isYOR344C member of the bHLH/leucin
6385_at 0.20987427 -0.070927 -1.072179 -1.001252 TMS1 YDR105C
Putative membrane protein, conserved in mammals
7978_at 0.08879971 -0.02377967 -1.02502433 -1.00124467 NEW1 with an Q/N-rich amino terminal doma
This gene encodes a protein YPL226W
5995_at 0.06421145 -0.02647033 -1.02770567 -1.00123533 PHO8 YDR481C
repressible alkaline phosphatase
7341_at 0.08534455 -0.007257 -1.006599 -0.999342 Hypothetical ORFNA YBR028C
6450_at 0.20245956 -0.00284033 -1.001927 -0.99908667 ARO3 YDR035W
3-deoxy-D-arabino-heptulosonate 7-phosphate (DAHP) synthase is
11193_at 0.08922501 -0.03819167 -1.03715067 -0.998959 tyrosine kinase SWE1 YJL187C
9162_at 0.08017063 -0.02201833 -1.019458 -0.99743967 MET2
homoserine O-trans-acetylase YNL277W
6195_at 0.21068795 -0.10117533 -1.09769767 -0.99652233 BSC2 YDR275W
Transcript encoded by this ORF shows a high level of stop codon b
11264_f_at 0.04551477 -0.027116 -1.02312067 -0.99600467 IMD2 homolog /// IMP dehydrogenase homolog
IMP dehydrogenase /// IMD3 YAR075W
10772_at 0.13059064 -0.10696867 -1.100576 -0.99360733 NA NA YKL190W
7945_at 0.14613069 -0.00750233 -0.99964733 -0.992145 DAP1 YPL170W
sterol-binding protein (putative)
9156_at 0.04468434 -0.02951667 -1.011447 -0.98193033 cysteine YNL283C
contains novelWSC2 motif|integral membrane protein (putative)|s
9615_at 0.20204376 -0.026928 -1.00767367 -0.98074567 MSN2
zinc finger protein YMR037C
6549_at 0.04712425 -0.02948167 -1.010078 -0.98059633 KRE9 homolog KNH1 YDL049C
8306_at 0.16170272 -0.05443367 -1.033804 -0.97937033 ABP140
actin filament binding proteinYOR240W
5779_at 0.04816361 -0.034975 -1.01343567 -0.97846067 HAT2 YEL056W
histone acetyltransferase subunit
10315_at 0.05084834 -0.01465833 -0.99132767 -0.97666933 PSR2 YLR019W
Plasma membrane Sodium Response 2
10472_at 0.38465189 -0.423459 -1.39995933 -0.97650033 PTR2
peptide transporter YKR093W
4434_at 0.08226005 -0.031211 -1.00668733 -0.97547633 Hypothetical ORFNA YHR097C
5150_at 0.22208728 -0.13321133 -1.10819067 -0.97497933 Hypothetical ORFNA YGL139W
9157_at 0.25182308 -0.25050567 -1.22541133 -0.97490567 POP3 YNL282W
Nuclear RNase P subunit|RNase MRP subunit
10891_at 0.04672554 -0.026115 -1.000902 -0.974787 PMT4 YJR143C
dolichyl phosphate-D-mannose:protein O-D-mannosyltransferase
10253_at 0.05509042 -0.00686533 -0.98094533 -0.97408 NA YLR089C
putative alanine transaminase (glutamyc pyruvic transaminase)
4218_at 0.27739123 -0.032755 -1.00419033 -0.97143533 TPM2
tropomyosin isoform II YIL138C
7036_s_at 0.34339245 -0.04124467 -1.01237367 -0.971129 AST1 YBL069W
Peripheral membrane protein that interacts with the plasma membra
9426_at 0.16980165 -0.08962967 -1.06036467 -0.970735 G1 cyclin CLN1 YMR199W
9852_at 0.1190313 -0.01470933 -0.98525067 -0.97054133 RPL6A YLR448W
ribosomal protein L6A (L17A) (rp18) (YL16)
10169_at 0.06844629 -0.00276633 -0.973134 -0.97036767 MDL1 transporter
ATP-binding cassette (ABC) YLR188W family member
4949_at 0.02191124 -0.001122 -0.96985433 -0.96873233 Hypothetical ORFNA YGR068C
10267_at 0.1897204 -0.09705533 -1.065694 -0.96863867 SHM2
serine hydroxymethyltransferaseYLR058C
10109_at 0.45487422 -0.71689133 -1.684409 -0.96751767 NA NA YLR217W
6492_at 0.29147104 -0.08130167 -1.0487 -0.96739833 TSC13 YDL015C
ER protein involved in very long chain fatty acid synthesis
8527_at 0.12893659 -0.10123067 -1.06649 -0.96525933 TIR2 YOR010C
cold-shock induced protein of the Srp1p/Tip1p family of serine-alan
7329_at 0.16036747 -0.00703733 -0.97178133 -0.964744 NA unknown
Plasma membrane protein ofYBR016Wfunction; has similarity to hy
7795_at 0.05447381 -0.00296567 -0.96675967 -0.963794 CAM1 YPL048W
calcium and phospholipid binding protein homologous to translation
7646_at 0.24559674 -0.11190367 -1.07559167 -0.963688 Hypothetical ORFNA YPR114W
6871_at 0.07127567 -0.03734667 -1.00026967 -0.962923 ILV6 YCL009C
Regulatory subunit of acetolactate synthase, which catalyzes the fir
7108_at 0.03592588 -0.000602 -0.9634 -0.962798 ALG7 YBR243C
UDP-N-acetyl-glucosamine-1-P transferase (GPT)
10138_g_at 0.2494342 -0.21860333 -1.18116967 -0.96256633 The authentic, NA YLR202C
non-tagged protein was localized to the mitochondria
5618_at 0.04318929 -0.015972 -0.97749267 -0.96152067 PTC2
protein phosphatase type 2CYER089C
7765_at 0.30466565 -0.19480133 -1.15590733 -0.961106 Hypothetical ORFNA YPR013C
7333_at 0.09256595 -0.00706133 -0.96679867 -0.95973733 galactokinase GAL1 YBR020W
8478_at 0.13059237 -0.01936867 -0.97785867 -0.95849 RPS7A
ribosomal protein S7A (rp30)YOR096W
4377_at 0.08480314 -0.03856233 -0.996369 -0.95780667 SPC97
gamma-tubulin complex componentYHR172W
9938_at 0.10941171 -0.05073633 -1.00715033 -0.956414 SFP1
split zinc finger protein YLR403W
9382_at 0.09380948 -0.04395767 -0.99902233 -0.95506467 ZRC1 YMR243C
Vacuolar membrane zinc transporter, transports zinc from the cytos
9979_at 0.02163504 -0.00449867 -0.95893967 -0.954441 ILV5 YLR355C
acetohydroxyacid reductoisomerase
10124_at 0.25924999 -0.01150633 -0.96528667 -0.95378033 ATG26 YLR189C
UDP-glucose:sterol glucosyltransferase
5593_at 0.09925715 -0.007347 -0.960286 -0.952939 activator of FLO1 (putative)
transcriptional FLO8 YER108C
6543_at 0.05369686 -0.00138733 -0.953288 -0.95190067 PSA1 YDL055C
GDP-mannose pyrophosphorylase|mannose-1-phosphate guanyltra
10651_at 0.18632596 -0.01347 -0.96513367 -0.95166367 NA YKL088W
Protein required for cell viability
9360_at 0.12957674 -0.08308267 -1.03423 -0.95114733 NA YMR266W
Overexpression rescues sro7/sop1 in NaCl. Encodes a membrane
5005_at 0.15062271 -0.01554967 -0.96579767 -0.950248 ERG4
sterol C-24 reductase YGL012W
8305_at 0.22474422 -0.005113 -0.95441633 -0.94930333 ABP140
actin filament binding proteinYOR239W
11073_at 0.08761732 -0.02079333 -0.969952 -0.94915867 NUP192
nuclear pore complex subunit YJL039C
4043_s_at 0.32739041 -0.22712967 -1.17548733 -0.94835767 SUC2 YIL162W
invertase (sucrose hydrolyzing enzyme)
8663_at 0.42993043 -0.483951 -1.430936 -0.946985 MDH2
malate dehydrogenase YOL126C
4521_at 0.11097319 -0.00294633 -0.949822 -0.94687567 NEM1
Nuclear Envelope Morphology YHR004C
10717_at 0.05124422 -0.016743 -0.96336367 -0.94662067 RPS27A YKL156W
ribosomal protein S27A (rp61) (YS20)
8592_at 0.28962119 -0.222298 -1.16820567 -0.94590767 GPD2 YOL059W
glycerol-3-phosphate dehydrogenase (NAD+)
6354_at 0.12509812 -0.05011 -0.99535133 -0.94524133 Hypothetical ORFNA YDR119W
4334_i_at 0.3580991 -0.00277533 -0.947832 -0.94505667 enolase ENO2 YHR174W
8486_at 0.17995375 -0.08501433 -1.02940667 -0.94439233 ASE1
spindle midzone component YOR058C
9632_at 0.41917733 -0.22308633 -1.16685033 -0.943764 NA green fluorescent protein (GFP)-fusion
Protein of unknown function; YMR010W
4115_at 0.2139947 -0.06342133 -1.00625333 -0.942832 DOT5 YIL010W
Nuclear thiol peroxidase which functions as an alkyl-hydroperoxide
7429_at 0.07407663 -0.04728 -0.98920167 -0.94192167 UBP13 YBL067C
ubiquitin carboxyl-terminal hydrolase
10475_at 0.06623806 -0.029134 -0.97046567 -0.94133167 MLP1 similar to myosin and TPR
colied-coil protein (putative), YKR095W
7565_at 0.0257569 -0.00097367 -0.940982 -0.94000833 MET16 YPR167C
3'phosphoadenylylsulfate reductase
4988_at 0.14166968 -0.03891433 -0.97884733 -0.939933 Hypothetical ORFNA YGR015C
5781_i_at 0.05478099 -0.01489467 -0.95229533 -0.93740067 RPL12A YEL054C
ribosomal protein L12A (L15A) (YL23)
11157_at 0.38501912 -0.18834367 -1.12424233 -0.93589867 GLG2
glycogen synthesis initiator YJL137C
9971_at 0.18505877 -0.060433 -0.996136 -0.935703 KAP95 YLR347C
karyopherin beta (importin 90) homolog (95 kDa)
10758_at 0.0762176 -0.001096 -0.93580033 -0.93470433 NA YKL161C
Mpk1-like protein kinase; associates with Rlm1p
11168_at 0.11302527 -0.066626 -1.001059 -0.934433 regulator
transcriptional SPT10 YJL127C
4449_at 0.10910828 -0.03884233 -0.97325433 -0.934412 DYS1
deoxyhypusine synthase YHR068W
9994_at 0.14996353 -0.02101233 -0.95533467 -0.93432233 RPL38
ribosomal protein L38 YLR325C
7723_at 0.17474663 -0.071157 -1.00051833 -0.92936133 TIF6 YPR016C
similar to human translation initiation factor 6 (eIF6); however, TIF6
9131_at 0.11341461 -0.01758833 -0.94627767 -0.92868933 YIF1 YNL263C
Yip1-Interacting Factor, shows similarity to NADH dehydrogenases
6065_at 0.05034969 -0.00236033 -0.9303 -0.92793967 ERD1 required for
Predicted membrane protein YDR414C the retention of lumenal e
9037_at 0.1354706 -0.002808 -0.92911033 -0.92630233 Hypothetical ORFNA YNL176C
9990_at 0.09357735 -0.02473867 -0.95066767 -0.925929 SFH1 YLR321C
Snf5p homolog|chromatin remodeling complex member, RSC
7766_at 0.07020272 -0.02186233 -0.947791 -0.92592867 SVL3 mutant phenotype suggests a potentia
Protein of unknown function, YPL032C
6167_at 0.17681925 -0.069152 -0.99369633 -0.92454433 SSD1 YDR293C
Protein with a role in maintenance of cellular integrity, interacts with
5788_at 0.09682095 -0.01891 -0.94156433 -0.92265433 NA
Fumurate ReDuctase Soluble YEL047C
9039_at 0.11363498 -0.05853833 -0.98019867 -0.92166033 NA NA YNL174W
10709_at 0.08691091 -0.04963667 -0.97088033 -0.92124367 OAC1
oxaloacetate transport protein YKL120W
7345_s_at 0.03933144 -0.00593767 -0.92708867 -0.921151 RPL4B YBR031W
ribosomal protein L4B (L2B) (rp2) (YL2)
9947_i_at 0.07289167 -0.02343567 -0.944406 -0.92097033 RPS22B YLR367W
ribosomal protein S22B (S24B) (rp50) (YS22)
6171_at 0.16473419 -0.09385967 -1.01437633 -0.92051667 SUR2
sphingosine hydroxylase YDR297W
8668_at 0.07387068 -0.01259567 -0.93173633 -0.91914067 RPL18B
ribosomal protein L18B (rp28B) YOL120C
5383_at 0.16613344 -0.028113 -0.94707267 -0.91895967 SEC4 YFL005W
ras homolog|small GTP binding protein
11120_at 0.29522958 -0.08123133 -0.999849 -0.91861767 IML2 green fluorescent protein (GFP)-fusion
Protein of unknown function, YJL082W
9341_at 0.41147859 -0.01952133 -0.937783 -0.91826167 Hypothetical ORFNA YMR291W
7348_at 0.2604961 -0.06989833 -0.98722733 -0.917329 HMT1 YBR034C
arginine methyltransferase|mono- and asymmetrically dimethylating
6593_at 0.04804336 -0.01440067 -0.92753033 -0.91312967 PMT5 YDL093W
dolichyl phosphate-D-mannose:protein O-D-mannosyltransferase
6504_at 0.18888405 -0.11825333 -1.031035 -0.91278167 SIT4 bovine type
similar to catalytic subunit of YDL047W 2A protein phosphatase
5603_at 0.29607027 -0.05436633 -0.96675833 -0.912392 AVT6
Asp, Glu transporter YER119C
6060_at 0.07938208 -0.04735433 -0.95923333 -0.911879 SIZ1 YDR409W
chromatin protein; SUMO1/Smt3 ligase
8801_at 0.31549092 -0.080713 -0.99247633 -0.91176333 NA NA YNR043W
7694_at 0.11721341 -0.01820467 -0.92977533 -0.91157067 transketolase 1 TKL1 YPR074C
5571_at 0.15635768 -0.058412 -0.96932667 -0.91091467 RPS26B
ribosomal protein S26B YER131W
5214_at 0.02235563 -0.004831 -0.91568033 -0.91084933 NCS6
has a role in invasive growth YGL211W
7244_at 0.2679691 -0.049988 -0.960119 -0.910131 Hypothetical ORF NA YBR108W
4169_at 0.14161372 -0.04398267 -0.953284 -0.90930133 P-type ATPase NEO1 YIL048W
10072_at 0.31319648 -0.07125 -0.98005833 -0.90880833 NA overproduction suppresses a pam1 slv
Protein of unknown function, YLR267W
8503_at 0.2232036 -0.162378 -1.07075433 -0.90837633 DFG16 YOR030W
Probable multiple transmembrane protein, involved in invasive grow
9317_at 0.19367464 -0.03637267 -0.94465633 -0.90828367 NIP1 YMR309C
translation initiation factor eIF3 subunit
8526_at 0.20277316 -0.14528267 -1.05326867 -0.907986 TIR4
cell wall mannoprotein YOR009W
4744_at 0.20259121 -0.007116 -0.91406733 -0.90695133 HUA1 YGR268C
Cytoplasmic protein of unknown function; computational analysis of
10118_at 0.42148555 -0.408534 -1.31495467 -0.90642067 BUR2
bypass UAS Requirement YLR226W
10999_at 0.12288305 -0.08460133 -0.990434 -0.90583267 REC107 YJR021C
ds break formation complex subunit
6423_at 0.19069672 -0.074215 -0.97990733 -0.90569233 CDC34
ubiquitin-conjugating enzyme YDR054C
5646_at 0.0963986 -0.010639 -0.91519233 -0.90455333 ALD5
aldehyde dehydrogenase YER073W
6324_g_at 0.21754756 -0.054461 -0.95870467 -0.90424367 Hypothetical ORF NA YDR133C
8704_at 0.02744235 -0.00769 -0.90826233 -0.90057233 ALR1 YOL130W
Plasma membrane Mg(2+) transporter, expression and turnover are
4421_at 0.1054143 -0.001462 -0.901946 -0.900484 NA YHR127W
(H)igh copy (S)uppressor of (N)34 dominant negative allele of SEC4
6325_at 0.04635939 -0.01007833 -0.91044133 -0.900363 YCF1 YDR135C
Vacuolar glutathione S-conjugate transporter of the ATP-binding ca
9901_at 0.10524897 -0.03295633 -0.93310933 -0.900153 VIP1
Homologous to S. pombe asp1+ YLR410W
6844_at 0.12266353 -0.029112 -0.92770867 -0.89859667 YIH1 YCR059C
piecemeal microautophagy of the nucleus (PMN)
7385_at 0.08933937 -0.05471767 -0.95119667 -0.896479 NA NA YBL022C
10370_at 0.17151443 -0.04245333 -0.93734467 -0.89489133 synthetase YLL018C
aspartyl-tRNA DPS1
8677_at 0.16041062 -0.086257 -0.980653 -0.894396 Hypothetical ORF NA YOL111C
11050_at 0.23191589 -0.09415233 -0.98720367 -0.89305133 MPS3
nuclear envelope protein YJL018W
8896_at 0.33892691 -0.150318 -1.043271 -0.892953 Hypothetical ORF NA YNL046W
5744_at 0.21885345 -0.02387067 -0.91573067 -0.89186 transferase glycoprotein complex, beta subunit
oligosaccharylWBP1 YEL002C
6493_at 0.02419559 -0.003767 -0.89552367 -0.89175667 NOP1 mammalian
U3 snoRNP protein|similar toYDL014W fibrillarin
9406_at 0.12062621 -0.006953 -0.89791233 -0.89095933 MRE11 YMR224C
Subunit of a complex with Rad50p and Xrs2p (RMX complex) that fu
10081_at 0.23798112 -0.033589 -0.92444367 -0.89085467 TOP3
DNA topoisomerase III YLR234W
8203_at 0.16870228 -0.02536767 -0.91622 -0.89085233 NA VTS1 YOR359W
7609_at 0.26678382 -0.225745 -1.11509067 -0.88934567 NA NA YPR123C
7338_at 0.14678452 -0.01938567 -0.908285 -0.88889933 Hypothetical ORF NA YBR025C
6936_g_at 0.56009094 -1.158366 -2.046886 -0.88852 GLK1
Hypothetical ORF /// glucokinaseYCL042W
8724_at 0.58024769 -1.02492 -1.911521 -0.886601 ORF NA YOL155C
6793_at 0.16697953 -0.03985233 -0.92632033 -0.886468 GIT1 YCR098C
permease involved in the uptake of glycerophosphoinositol (GroPIn
6472_at 0.11972348 -0.030574 -0.91678467 -0.88621067 ABC transporter SNQ2 YDR011W
8921_s_at 0.04217856 -0.01963833 -0.905703 -0.88606467 RPL9B YNL067W
ribosomal protein L9B (L8B) (rp24) (YL11)
6001_at 0.11607827 -0.02022 -0.90513567 -0.88491567 RIB3 YDR487C
3,4-dihydroxy-2-butanone 4-phosphate synthase
8512_at 0.09920455 -0.03023767 -0.91501333 -0.88477567 CK2, YOR039W
protein kinase CKB2 beta' subunit
4230_at 0.0403703 -0.00068333 -0.88433433 -0.883651 STH1 homolog
helicase related protein|snf2 YIL126W
7915_at 0.12259261 -0.025282 -0.90785667 -0.88257467 protein
kinesin relatedKIP2 YPL155C
8147_s_at 0.07099616 -0.00561733 -0.88813767 -0.88252033 Hypothetical ORF NA YOR394W
10058_at 0.36168507 -0.23083433 -1.11245 -0.88161567 HAP1 YLR256W
zinc finger transcription factor of the Zn(2)-Cys(6) binuclear cluster
10111_at 0.2507226 -0.01247567 -0.89375833 -0.88128267 MSC3 green fluorescent protein (GFP)-fusion
Protein of unknown function, YLR219W
10194_at 0.40043014 -0.20930167 -1.089756 -0.88045433 aspartic
GPI-anchored YPS3 protease YLR121C
9161_at 0.02703231 -0.01196 -0.892174 -0.880214 CAF120
CCR4 Associated Factor 120 kDa YNL278W
6320_at 0.11133538 -0.011421 -0.89111467 -0.87969367 HMO1
high mobility group (HMG) familyYDR174W
6086_at 0.12977621 -0.06633433 -0.94401767 -0.87768333 SAC7 YDR389W
GTPase activating protein (GAP) for RHO1
6244_at 0.15646819 -0.01174867 -0.88934867 -0.8776 NA NA YDR233C
6668_at 0.12519269 -0.00610633 -0.882734 -0.87662767 SEC31 YDL195W
COPII coat of secretory pathway vesicles component (p150)
6639_at 0.22304075 -0.09665267 -0.971955 -0.87530233 RDI1 YDL135C
Rho GDP dissociation inhibitor with activity toward Rho1p
4958_at 0.09600662 -0.00989467 -0.88485533 -0.87496067 Hypothetical ORF NA YGR031W
10701_at 0.235755 -0.013313 -0.88740333 -0.87409033 PGM1
phosphoglucomutase minor isoformYKL127W
9046_at 0.45825619 -0.029247 -0.90330867 -0.87406167 SKO1 YNL167C
Basic leucine zipper (bZIP) transcriptional factor of the ATF/CREB f
7405_at 0.23597836 -0.02506333 -0.89857767 -0.87351433 protein YBL047C
Key endocytic EDE1 involved in a network of interactions with othe
6833_at 0.1052824 -0.05123567 -0.924511 -0.87327533 Hypothetical ORF NA YCR045C
9095_at 0.23563833 -0.17729367 -1.05045367 -0.87316 Hypothetical ORF NA YNL254C
5770_at 0.12383018 -0.04434533 -0.91701633 -0.872671 transporter AVT2 YEL064C
9073_at 0.24348206 -0.00335733 -0.87564633 -0.872289 ELA1 YNL230C
elongin A transcription elongation factor
4422_at 0.26274385 -0.044222 -0.916295 -0.872073 UPRTase FUR1 YHR128W
9014_at 0.03053419 -0.00980867 -0.88165933 -0.87185067 YCK2
casein kinase I homolog YNL154C
7270_i_at 0.13369954 -0.04461633 -0.91604767 -0.87143133 NHP6B YBR090C
11 kDa nonhistone chromosomal protein /// Hypothetical ORF
6713_at 0.10855397 -0.05909467 -0.93012033 -0.87102567 LRG1 YDL240W
similar to LIM-domain proteins and to rho/rac GTPase-activating fam
7719_at 0.11767163 -0.02623133 -0.89708033 -0.870849 NHP6A YPR053C
11 kDa nonhistone chromosomal protein
7131_at 0.13429971 -0.029172 -0.89912833 -0.86995633 PDB1 YBR221C
pyruvate dehydrogenase beta subunit (E1 beta)
8012_at 0.17835605 -0.109769 -0.97899367 -0.86922467 NA NA YPL238C
6913_at 0.08256274 -0.017843 -0.88667 -0.868827 BUD3 YCL012W
Protein involved in bud-site selection and required for axial budding
9321_at 0.2747771 -0.044488 -0.912298 -0.86781 TGL3
triacylglycerol lipase YMR313C
11360_at 0.14327012 -0.079804 -0.947098 -0.867294 NA NA YAL048C
4401_at 0.03408594 -0.00765533 -0.873935 -0.86627967 GGA2
ARF-binding protein YHR108W
4100_at 0.16992427 -0.09173 -0.95662333 -0.86489333 MUC1 YIR019C
cell surface flocculin with structure similar to serine/threonine-rich G
10185_s_at 0.12540667 -0.00185533 -0.866624 -0.86476867 ASP3-4 cell-wall L-asparaginase II
nitrogen catabolite-regulated YLR155C
7083_at 0.21093368 -0.012619 -0.87559733 -0.86297833 SHM1 YBR263W
Serine hydroxymethyltransferase, mitochondrial
6728_at 0.28939791 -0.00976767 -0.871968 -0.86220033 WHI4 YDL224C
RNA binding protein (putative)|WHI3 homolog
4772_at 0.06443701 -0.00390133 -0.86562433 -0.861723 GCN5
histone acetyltransferase YGR252W
7129_at 0.17931873 -0.014893 -0.87642867 -0.86153567 NA YBR220C
Hypothetical ORF /// Hypothetical ORF
9772_at 0.36414641 -0.01320733 -0.874606 -0.86139867 VAN1
mannosyltransferase YML115C
5635_at 0.14337143 -0.02342433 -0.88476533 -0.861341 to YER064C
mutation leadsNA reduction of ERG9, CYC1-LacZ, and GCN4-LacZ
8666_at 0.07369106 -0.029021 -0.889562 -0.860541 HRP1 YOL123W
cleavage and polyadenylation factor CF I component involved in pre
9103_at 0.27572846 -0.09440733 -0.95356 -0.85915267 NA VPS75 YNL246W
10007_at 0.29486711 -0.036892 -0.89423367 -0.85734167 VRP1
proline-rich protein verprolin YLR337C
10976_at 0.60082848 -1.00178133 -1.857959 -0.85617767 ANB1 YJR047C
translation initiation factor eIF-5A, anaerobically expressed form
7546_at 0.22003148 -0.163312 -1.01758167 -0.85426967 OPT2
peptide transporter YPR194C
9175_at 0.12031379 -0.04089 -0.892883 -0.851993 STB1 YNL309W
Protein with a role in regulation of MBF-specific transcription at Star
8477_at 0.07953243 -0.00800067 -0.85822333 -0.85022267 RKI1 YOR095C
ribose-5-phosphate ketol-isomerase
5634_at 0.05767281 -0.01056433 -0.860212 -0.84964767 the Transcriptional (T) defect of Hpr1 (H) by Overexp
Suppressor of THO1 YER063W
5638_g_at 0.26237958 -0.053038 -0.90180033 -0.84876233 CDC4 YER066W
Hypothetical ORF /// ubiquitin ligase subunit
5526_at 0.1049831 -0.00097267 -0.84961167 -0.848639 NA NA YER178W
5966_at 0.06710641 -0.02586533 -0.87445433 -0.848589 ITR1
myo-inositol transporter YDR497C
5056_at 0.16548862 -0.021759 -0.87028033 -0.84852133 MST27
protein with COPI and COPIIYGL051Wbindng motifs
5595_at 0.08982571 -0.002281 -0.85018333 -0.84790233 KAP123
karyopherin beta 4 YER110C
8448_at 0.22510241 -0.03815467 -0.88602967 -0.847875 Hypothetical ORF NA YOR111W
6097_at 0.08302427 -0.000222 -0.847725 -0.847503 SPC110 YDR356W
interacts with Spc42p, calmodulin, and a 35 kDa protein|spindle pol
8929_at 0.1961482 -0.04316167 -0.89052967 -0.847368 NA localizes
Protein of unknown function, YNL058Cto the vacuole; potential Cdc
6457_at 0.14166259 -0.08320833 -0.92946267 -0.84625433 Hypothetical ORF NA YDR042C
8945_at 0.02946274 -0.006989 -0.85293567 -0.84594667 Contains threeTCB2 YNL087W
calcium and lipid binding domains; may be involved
6085_at 0.0538138 -0.014176 -0.85921033 -0.84503433 RVS167
cytoskeletal protein (putative) YDR388W
10800_at 0.29592622 -0.045595 -0.890006 -0.844411 SAC1
phosphoinositide phosphatase YKL212W
10796_at 0.20798897 -0.058529 -0.90269267 -0.84416367 dihydroorotateURA1dehydrogenase YKL216W
5690_at 0.22394526 -0.06277033 -0.906345 -0.84357467 EDC2 YER035W
RNA-binding protein, activates mRNA decapping directly by binding
4814_at 0.02070472 -0.00297233 -0.84644667 -0.84347433 ADE3
C1-tetrahydrofolate synthaseYGR204W
7069_at 0.2092525 -0.12555267 -0.96891267 -0.84336 PHO89
Na+/Pi symporter (putative) YBR296C
9283_at 0.08052905 -0.012702 -0.85577033 -0.84306833 alcohol
medium chain ADH6 dehydrogenase YMR318C
9015_at 0.14364417 -0.02687767 -0.86868833 -0.84181067 GIM3 YNL153C
bovine prefoldin subunit 4 homolog (putative)
9413_f_at 0.14130565 -0.058168 -0.89966867 -0.84150067 RPS10B
ribosomal protein S10B YMR230W
9961_at 0.13907899 -0.07172 -0.91156433 -0.83984433 CSR1 protein with
Phosphatidylinositol transfer YLR380W a potential role in lipid turn
5687_at 0.10949982 -0.01613033 -0.85557 -0.83943967 FIR1 YER032W
participant in 3' mRNA processing (putative)
4525_at 0.27434899 -0.03234633 -0.87109867 -0.83875233 ERG11 YHR007C
cytochrome P450 lanosterol 14a-demethylase
9294_at 0.32603059 -0.00012367 -0.836923 -0.83679933 Hypothetical ORF NA YMR122w-a
9368_at 0.18483739 -0.089533 -0.92628133 -0.83674833 protease RCE1 YMR274C
5750_at 0.0712162 -0.00449133 -0.84121833 -0.836727 UTR2 YEL040W
Putative glycosidase, glycosylphosphatidylinositol (GPI)-anchored p
6267_at 0.24998108 -0.050612 -0.88591067 -0.83529867 NA green fluorescent protein (GFP)-fusion
Protein of unknown function; YDR210W
7236_at 0.12985503 -0.02223333 -0.85532533 -0.833092 ADH5 YBR145W
alcohol dehydrogenase isoenzyme V
6887_at 0.05276303 -0.018685 -0.85121467 -0.83252967 ADY2
transmembrane protein YCR010C
10655_at 0.11598801 -0.00669133 -0.83857333 -0.831882 HOT13 YKL084W
Assembly factor for the Translocase of the Inner Membrane comple
7169_at 0.15627024 -0.02236267 -0.854042 -0.83167933 MET8 YBR213W
Bifunctional dehydrogenase and ferrochelatase, involved in the bios
3533_f_at 0.1688362 -0.07425467 -0.905327 -0.83107233 NA YPRCTY1-4
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
10028_at 0.28707937 -0.069347 -0.90024 -0.830893 Spa2p homologPH1 S YLR313C
8600_at 0.06552571 -0.01775633 -0.84804567 -0.83028933 SPE2 YOL052C
S-adenosylmethionine decarboxylase
11048_at 0.24152668 -0.166179 -0.996353 -0.830174 MPS3
nuclear envelope protein YJL019W
8640_at 0.21513012 -0.00193233 -0.831625 -0.82969267 ITR2
myo-inositol transporter YOL103W
9084_at 0.28018991 -0.06228367 -0.89154833 -0.82926467 ALG9
mannosyltransferase YNL219C
8564_at 0.40735144 -0.21912533 -1.047659 -0.82853367 YSP3
subtilisin-like protease III YOR003W
8440_at 0.11824959 -0.05502367 -0.88347033 -0.82844667 OST2 YOR103C
40% identical to vertebrate DAD1 protein|oligosaccharyltransferase
8718_at 0.23316931 -0.15652167 -0.984183 -0.82766133 NA YOL163W
Hypothetical ORF, member of the Dal5p subfamily of the major faci
6630_at 0.12492203 -0.00418267 -0.83026967 -0.826087 COP1 YDL145C
coatomer complex gamma-alpha-COP alpha subunit
11019_at 0.22291224 -0.05261633 -0.87794733 -0.825331 subunit YJL002C
64 kDa, alpha OST1 of oligosaccharyltransferase complex; homol
6904_at 0.23483356 -0.061212 -0.886514 -0.825302 RNQ1 YCL028W
transferable epigenetic modifier, forms a prion responsible for the [P
6334_at 0.12114105 -0.021223 -0.84582067 -0.82459767 SAN1 san1 mutations suppress sir4 and cdc
Protein of unknown function; YDR143C
8507_at 0.0869372 -0.00970467 -0.83296833 -0.82326367 AKR2 YOR034C
Protein involved in constitutive endocytosis of Ste3p
4281_i_at 0.37938286 -0.291563 -1.11414233 -0.82257933 NA NA YIL171W
8949_at 0.07024565 -0.006821 -0.8286 -0.821779 SAL1 YNL083W
Probable transporter, member of the Ca2+-binding subfamily of the
10623_at 0.20320925 -0.11308733 -0.93486333 -0.821776 malic enzyme MAE1 YKL029C
5729_f_at 0.49631625 -0.381751 -1.202883 -0.821132 PMP2 YEL017C-A
proteolipid associated with plasma membrane H(+)-ATPase (Pma1
3948_s_at 0.10377978 -0.02545 -0.84613433 -0.82068433 PTK1 YKL198C
Putative serine/threonine protein kinase
5305_at 0.07660679 -0.00153433 -0.82215133 -0.820617 RET2 YFR051C
coatomer (COPI) complex delta subunit
4176_at 0.15816721 -0.04880433 -0.869405 -0.82060067 Hypothetical ORF NA YIL090W
9485_at 0.1581532 -0.01242 -0.83241567 -0.81999567 Hypothetical ORF JLP2 YMR132C
7387_at 0.13770297 -0.01153833 -0.831125 -0.81958667 RFT1
67 kDa integral membrane proteinYBL020W
4857_at 0.15040226 -0.00418133 -0.82346533 -0.819284 PTI1
Pta1p Interacting protein YGR156W
11039_at 0.03138776 -0.002503 -0.81955867 -0.81705567 NA NA YJL028W
4709_at 0.29011783 -0.10951067 -0.925546 -0.81603533 SCW4
soluble cell wall protein YGR279C
8421_at 0.13212231 -0.04976067 -0.865676 -0.81591533 NA YOR129C
Putative component of the outer plaque of the spindle pole body; m
5605_at 0.0217749 -0.00546167 -0.82071533 -0.81525367 SCS2 YER120W
Protein likely to be involved in regulating INO1 expression; suppres
9339_at 0.06846836 -0.00733367 -0.82112267 -0.813789 HAS1 YMR290C
RNA-dependent helicase (putative)
10527_at 0.33705801 -0.06486167 -0.87850233 -0.81364067 RHO4
GTP-binding protein|ras homolog YKR055W
8953_at 0.22966673 -0.01018 -0.823467 -0.813287 tropomyosin I TPM1 YNL079C
6201_at 0.12260713 -0.05114467 -0.863086 -0.81194133 PHM6 expression
Protein of unknown function, YDR281C is regulated by phosphate
9584_at 0.26993848 -0.069943 -0.881774 -0.811831 STV1 YMR054W
110 kDa subunit; not in vacuole membrane|vacuolar H-ATPase
10016_at 0.26569683 -0.066012 -0.87630267 -0.81029067 Hypothetical ORF NA YLR301W
3643_i_at 0.55633194 -0.92637867 -1.73662333 -0.81024467 NA NA YOLCDELTA7
4459_at 0.18853082 -0.050747 -0.86042433 -0.80967733 IRE1 YHR079C
endoribonuclease|serine-threonine kinase|transmembrane protein
3524_f_at 0.16035926 -0.07208967 -0.881675 -0.80958533 NA YPRCTY1-2
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
11308_s_at 0.08117306 -0.00181633 -0.810407 -0.80859067 NA
putative membrane protein YAR068W
6877_at 0.08266847 -0.01543033 -0.82377667 -0.80834633 RER1 YCL001W
Protein involved in retention of membrane proteins, including Sec12
6761_at 0.10896369 -0.03230833 -0.837874 -0.80556567 ATG15 YCR068W-A
Lipase, required for intravacuolar lysis of autophagic bodies; locate
4581_at 0.23045094 -0.12763533 -0.92937067 -0.80173533 activator YHL027W
TranscriptionalRIM101 required for entry into meiosis, has similari
3188_at 0.13236245 -0.044209 -0.84568633 -0.80147733 COS8 membrane
Hypothetical ORF /// Nuclear YHL048W protein, member of a famil
6683_g_at 0.09528222 -0.032641 -0.83411167 -0.80147067 LYS20 /// LYS21YDL182W
YDL131W (LYS21) homolog|homocitrate synthase /// YDL182W (LY
6602_at 0.35120071 -0.09180133 -0.89200633 -0.800205 VCX1
vacuolar H+/Ca2+ exchanger YDL128W
7890_at 0.4088305 -0.277787 -1.07788167 -0.80009467 ISU1 YPL135W
Iron-sulfur cluster nifU-like protein
10073_at 0.06272379 -0.01892367 -0.818956 -0.80003233 SEC22 YLR268W
Identified in a screen for dense cells that accumulated invertase at
7731_at 0.47129038 -0.315473 -1.11347033 -0.79799733 YME1 YPR024W
Mitochondrial inner membrane protease of the AAA family, respons
7757_at 0.16430507 -0.05976033 -0.856861 -0.79710067 HAL1
polar 32 kDa cytoplasmic proteinYPR005C
6795_at 0.16656123 -0.06727567 -0.863305 -0.79602933 NA YCR100C
Hypothetical ORF /// Hypothetical ORF
7488_at 0.03209094 -0.00135967 -0.79725733 -0.79589767 BNA4
Kynurenine 3-mono oxygenase YBL098W
5975_at 0.29081456 -0.05852667 -0.85195633 -0.79342967 Hypothetical ORF NA YDR506C
5678_at 0.16284658 -0.00634733 -0.79950767 -0.79316033 PRO3 YER023W
delta 1-pyrroline-5-carboxylate reductase
7190_i_at 0.10735854 -0.00375667 -0.79657133 -0.79281467 RPS9A (rp21) (YS11)
ribosomal protein S9A (S13) YBR189W
5643_at 0.24667356 -0.00437133 -0.79541333 -0.791042 reductase, large (R1) subunit
ribonucleotide RNR1 YER070W
6650_at 0.18048262 -0.077315 -0.86803733 -0.79072233 UGA3 YDL170W
zinc finger transcription factor of the Zn(2)-Cys(6) binuclear cluster
4716_at 0.34873019 -0.217918 -1.008238 -0.79032 biotin synthase BIO2 YGR286C
5001_f_at 0.10968854 -0.00882367 -0.79819133 -0.78936767 RPS25A (S31A) (rp45) (YS23) /// ribosomal protein S
YGR027C
ribosomal protein S25A /// RPS25B
4348_at 0.08154458 -0.00483233 -0.79301233 -0.78818 GPI16 YHR188C
GPI transamidase component, human PIG-T homologue
4724_i_at 0.17072427 -0.072262 -0.86038833 -0.78812633 NA NA YGR122C-A
3907_f_at 0.28024736 -0.14582133 -0.93345833 -0.787637 PAU4 YAL068C
Part of 23-member seripauperin multigene family encoded mainly in
5569_at 0.07651458 -0.001031 -0.78841967 -0.78738867 PAK1 YER129W
Upstream kinase for the SNF1 complex, has partially redundant fun
10218_at 0.25359328 -0.11373633 -0.89672033 -0.782984 ICT1 null mutation leads to an increase in s
Protein of unknown function, YLR099C
4559_at 0.12741135 -0.02483833 -0.80676033 -0.781922 LAG1 YHL003C
Ceramide synthase component, involved in synthesis of ceramide f
5626_at 0.14957508 -0.01077 -0.79191967 -0.78114967 RAD51 YER095W
Rad51p colocalizes to ~ 65 spots with Dmc1p prior to synapsis (ind
10663_at 0.3106335 -0.02823867 -0.80916133 -0.78092267 Hypothetical ORFNA YKL077W
8355_at 0.46436047 -0.185612 -0.96641167 -0.78079967 BFR1 (Brefeldin
Multicopy suppressor of BFAYOR198C A)-induced lethality; implica
4385_at 0.37945109 -0.008776 -0.78917767 -0.78040167 SPL2 YHR136C
Protein with similarity to cyclin-dependent kinase inhibitors, overpro
5228_at 0.25702553 -0.03112433 -0.80873833 -0.777614 Mck1 Dosage MDS3 negative regulator of early meiotic gen
Suppressor 3; YGL197W
3412_f_at 0.2166808 -0.10594433 -0.883322 -0.77737767 NA YDRCTY1-2
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
8383_at 0.10719392 -0.004778 -0.78130467 -0.77652667 LAS17
actin assembly factor YOR181W
9695_at 0.14443777 -0.01451633 -0.79029167 -0.77577533 NA YML059C
Serine esterase that deacylates exogenous lysophospholipids, puta
10448_s_at 0.23923758 -0.11038967 -0.885836 -0.77544633 NA YKL033W-A
Similar to S. pombe hypothetical proteins
5051_at 0.14349213 -0.009053 -0.78427833 -0.77522533 SDS23 YGL056C
homolog of pombe SDS23; localizes to spindle pole body
3734_s_at 0.3501045 -0.18741433 -0.960976 -0.77356167 YRF1-7
Y'-helicase protein 1 YLR466W
9451_at 0.40427097 -0.079219 -0.851145 -0.771926 NA open reading frame may be part of a b
Protein of unknown function; YMR181C
3917_f_at 0.12473395 -0.04379433 -0.81528233 -0.771488 NA YARCTY1-1
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
4070_at 0.256881 -0.08401633 -0.85467467 -0.77065833 LYS1
saccharopine dehydrogenase YIR034C
6635_at 0.26797997 -0.11934433 -0.88933033 -0.769986 RPO21
RNA polymerase II core subunit YDL140C
10268_at 0.2059467 -0.05087767 -0.82059333 -0.76971567 RNA exonuclease REX2 YLR059C
5125_at 0.18579827 -0.05584367 -0.82514433 -0.76930067 Hypothetical ORFNA YGL117W
6446_at 0.27317256 -0.03944667 -0.80860067 -0.769154 PST2 YDR032C
Protoplasts-SecreTed protein; the gene product was detected amon
11259_at 0.25873279 -0.048327 -0.81707867 -0.76875167 Hypothetical ORFNA YJL213W
9338_at 0.44256802 -0.01233733 -0.780209 -0.76787167 NA
4-amino-4-deoxychorismate lyase YMR289W
7410_at 0.13442377 -0.01017567 -0.77782033 -0.76764467 uridine permeaseFUI1 YBL042C
8687_at 0.12722479 -0.00144833 -0.76823833 -0.76679 PEX11
peroxisomal membrane protein YOL147C
9398_at 0.22041084 -0.03311267 -0.799867 -0.76675433 SKY1 YMR216C
SRPK1-like Kinase in Yeast (SRPK1 is a human serine kinase that
4793_at 0.18578511 -0.02399033 -0.789742 -0.76575167 DIE2
glucosyltransferase YGR227W
6002_at 0.08256773 -0.03060367 -0.79567567 -0.765072 PAC11 YDR488C
Dynein intermediate chain, acts in the cytoplasmic dynein pathway,
8014_at 0.19935892 -0.017042 -0.78125933 -0.76421733 Hypothetical ORFNA YPL236C
4503_at 0.14257813 -0.00509833 -0.768777 -0.76367867 Hypothetical ORFNA YHR029C
8031_at 0.22108596 -0.00681867 -0.76952667 -0.762708 Hypothetical ORFNA YPL264C
10053_at 0.23330105 -0.00087033 -0.76332167 -0.76245133 GSP1
GTP-binding protein YLR293C
7291_at 0.17214504 -0.00229567 -0.76472167 -0.762426 BAP2 YBR068C
High-affinity leucine permease, functions as a branched-chain amin
4138_at 0.29121942 -0.052318 -0.81435867 -0.76204067 BCY1 YIL033C
cAMP-dependent protein kinase regulatory subunit
6225_at 0.26465176 -0.05809167 -0.81996033 -0.76186867 SWM1
Spore Wall Maturation 1 YDR260C
5348_at 0.22828834 -0.018862 -0.77875733 -0.75989533 Hypothetical ORFNA YFR006W
4192_at 0.55479386 -0.66436033 -1.42414467 -0.75978433 ras inhibitor RPI1 YIL119C
8389_at 0.40518299 -0.03410467 -0.79369267 -0.759588 LSC1 YOR142W
alpha subunit of succinyl-CoA ligase (synthetase; ATP-forming), a m
10129_at 0.30210973 -0.045186 -0.80423333 -0.75904733 Hypothetical ORFNA YLR194C
10762_at 0.28246361 -0.06422133 -0.82216167 -0.75794033 EAP1 YKL204W
eIF4E-associated protein, binds eIF4E and inhibits cap-dependent
8386_at 0.10972615 -0.00914133 -0.76702367 -0.75788233 phosphoserineSER1transaminaseYOR184W
5986_at 0.06900208 -0.000189 -0.75730667 -0.75711767 TRS31 YDR472W
targeting complex (TRAPP) component involved in ER to Golgi mem
5607_at 0.23761934 -0.04701167 -0.80365967 -0.756648 GLO3 YER122C
similar to Gcs1p and Sps18p|zinc finger protein
6048_at 0.19793408 -0.00963567 -0.76587367 -0.756238 APT2 YDR441C
Apparent pseudogene, not transcribed or translated under normal c
8991_at 0.48576231 -0.25572933 -1.011914 -0.75618467 TOM22 YNL131W
mitochondrial import receptor protein
7213_at 0.12369357 -0.04794133 -0.803878 -0.75593667 TYR1
prephenate dehydrogenase (NADP+)YBR166C
9007_at 0.12973743 -0.01493733 -0.770731 -0.75579367 CBK1
serine/threonine protein kinase YNL161W
10270_at 0.10768421 -0.01208733 -0.767863 -0.75577567 RPL22A (rp4) (YL31)
ribosomal protein L22A (L1c)YLR061W
4225_at 0.22830243 -0.07047267 -0.82585667 -0.755384 forkhead proteinFKH1 YIL131C
6866_at 0.06607265 -0.00196867 -0.757178 -0.75520933 RPS14B
ribosomal protein S14B (rp59B) YCR031C
4103_at 0.09066605 -0.00355633 -0.75856033 -0.755004 TIM44 YIL022W
48.8 kDa protein involved in mitochondrial protein import
6488_at 0.31364673 -0.013807 -0.76828067 -0.75447367 oxysterol-binding protein family with seven members
Member of an OSH2 YDL019C
9448_at 0.1891477 -0.042417 -0.79485467 -0.75243767 Hypothetical ORFNA YMR178W
4960_at 0.08886508 -0.01183933 -0.76383733 -0.751998 The authentic, NA YGR033C
non-tagged protein was localized to the mitochondria
5008_at 0.09541523 -0.007409 -0.75927867 -0.75186967 LEU1
isopropylmalate isomerase YGL009C
10379_at 0.10952242 -0.011536 -0.76309667 -0.75156067 reductase withYLL051C to Fre2p; expression induce
Putative ferric FRE6 similarity
8324_at 0.28679335 -0.02031767 -0.77166067 -0.751343 SAS5 YOR213C
Involved in silencing at telomeres, HML and HMR
9972_at 0.13681946 -0.04322033 -0.79406 -0.75083967 DIC1
dicarboxylate transport protein YLR348C
5574_at 0.27762349 -0.063677 -0.81423233 -0.75055533 GLC7
protein phosphatase type I YER133W
4935_at 0.09287684 -0.00351767 -0.75365167 -0.750134 of
yeast homologNA mammalian eIF2A YGR054W
4368_at 0.30414027 -0.023366 -0.77073067 -0.74736467 SOL3 YHR163W
weak multicopy suppressor of los1-1
10560_at 0.07847119 -0.01493833 -0.761563 -0.74662467 AUR1 YKL004W
Phosphatidylinositol:ceramide phosphoinositol transferase (IPC syn
5117_at 0.28911787 -0.12067867 -0.86711967 -0.746441 MET13 YGL125W
methylenetetrahydrofolate reductase (mthfr) (putative)
5613_at 0.09769265 -0.01459167 -0.760673 -0.74608133 Hypothetical ORF NA YER085C
8987_at 0.13708062 -0.02286533 -0.767035 -0.74416967 NA NA YNL135C
6481_at 0.13402413 -0.04916233 -0.792047 -0.74288467 Hypothetical ORF NA YDR020C
7133_at 0.26294989 -0.02522967 -0.76670133 -0.74147167 Tyrosine-DNA TDP1 YBR223C
Phosphodiesterase
11287_f_at 0.21151108 -0.028989 -0.770093 -0.741104 PAU5 YAR020C
Part of 23-member seripauperin multigene family encoded mainly in
7367_at 0.15620169 -0.046402 -0.78736767 -0.74096567 FLR1
major facilitator transporter YBR008C
10355_at 0.25114259 -0.00387833 -0.744476 -0.74059767 ER membraneGPI13 YLL031C
localized phosphoryltransferase that adds phosphoe
9208_at 0.18653481 -0.00138867 -0.741535 -0.74014633 KRE1
cell wall beta-glucan assembly YNL322C
4863_at 0.11254826 -0.00314267 -0.74327733 -0.74013467 TIF4631 YGR162W
150 kDa subunit|Tif4632p and mammalian p220 homolog|mRNA ca
7300_at 0.07793288 -0.00233633 -0.74198967 -0.73965333 Hypothetical ORF NA YBR077C
6061_at 0.23175409 -0.08526967 -0.824702 -0.73943233 STE14 YDR410C
farnesyl cysteine-carboxyl methyltransferase
10319_at 0.06922075 -0.008916 -0.747823 -0.738907 IZH3 YLR023C
Membrane protein involved in zinc metabolism, member of the four-
7481_at 0.11203607 -0.001043 -0.739594 -0.738551 NA NA YBL105C
3204_at 0.11447433 -0.023601 -0.76184133 -0.73824033 NA NA YHRCDELTA4
5667_at 0.06144678 -0.00188733 -0.739074 -0.73718667 HIS1
ATP phosphoribosyltransferase YER055C
6082_at 0.31744421 -0.14257367 -0.87969433 -0.73712067 ATO3
transmembrane protein YDR384C
8907_s_at 0.28912436 -0.06385867 -0.800944 -0.73708533 Hypothetical ORF NA YNL034W
6679_at 0.13224791 -0.01589233 -0.752431 -0.73653867 TFP1 YDL185W
site-specific endonuclease VDE (PI-SceI)|vacuolar ATPase V1 dom
6035_at 0.11264279 -0.02351067 -0.75969567 -0.736185 TIF35 YDR429C
translation initiation factor eIF3 subunit
5422_s_at 0.48410872 -0.34811567 -1.08375767 -0.735642 Hypothetical ORF NA YFL067W
6273_at 0.4090106 -0.22643833 -0.96170733 -0.735269 ADR1 YDR216W
positive transcriptional regulator
7374_at 0.04952609 -0.002076 -0.73707733 -0.73500133 SHE1 YBL031W
Cytoskeletal protein of unknown function; overexpression causes gr
8229_at 0.22460394 -0.06799767 -0.802716 -0.73471833 translocase TIM18 YOR297C
8242_at 0.06804682 -0.018887 -0.75291 -0.734023 SLY41 YOR307C
chloroplast phosphate transporter homolog
6712_at 0.43994779 -0.18011733 -0.913897 -0.73377967 Hypothetical ORF NA YDL241W
10186_s_at 0.21907874 -0.09472767 -0.82827167 -0.733544 NA YLR156W
Identified by gene-trapping, microarray-based expression analysis,
6926_at 0.08968871 -0.02617467 -0.759644 -0.73346933 APA1 YCL050C
diadenosine 5',5'''-P1,P4-tetraphosphate phosphorylase I
4946_at 0.09372265 -0.026927 -0.76021767 -0.73329067 VHT1
H+-biotin symporter YGR065C
6369_at 0.21061657 -0.018903 -0.752122 -0.733219 Hypothetical ORF NA YDR090C
9292_at 0.0529322 -0.01076867 -0.74353367 -0.732765 NA NA YMR194C-A
8334_at 0.17630909 -0.03680833 -0.76924333 -0.732435 ODC2 YOR222W
mitochondrial 2-oxodicarboxylate transport protein
5086_at 0.21833167 -0.02433 -0.75609733 -0.73176733 SGF73 SAGA histone acetyltransferase comp
Probable 73KkDa Subunit of YGL066W
5435_at 0.17180298 -0.004462 -0.73532567 -0.73086367 SEC53
phosphomannomutase YFL045C
4319_at 0.21066907 -0.013343 -0.74338967 -0.73004667 SKN7 YHR206W
Protein with similarity to DNA-binding region of heat shock transcrip
9504_at 0.21388938 -0.01386967 -0.74377633 -0.72990667 oligosaccharylSWP1 YMR149W
transferase glycoprotein complex, delta subunit
8601_at 0.11593134 -0.03549733 -0.76499933 -0.729502 GAL11 YOL051W
RNA polymerase II holoenzyme complex component|positive and n
4784_at 0.14749674 -0.00772467 -0.73712867 -0.729404 CRM1 YGR218W
chromosome region maintenance protein
9625_at 0.27900782 -0.09596967 -0.8239 -0.72793033 Hypothetical ORF NA YMR003W
8237_at 0.05854266 -0.00219067 -0.729977 -0.72778633 CPA1 YOR303W
arginine specific|carbamoyl phosphate synthetase
9403_at 0.1393462 -0.008494 -0.731117 -0.722623 The authentic, NA YMR221C
non-tagged protein was localized to the mitochondria
7350_at 0.03986724 -0.006448 -0.72842233 -0.72197433 NA NA YBR036C
7191_f_at 0.16474713 -0.0076 -0.72740767 -0.71980767 RPS9A (rp21) (YS11)
ribosomal protein S9A (S13) YBR189W
11122_at 0.29102742 -0.01046667 -0.73024767 -0.719781 SCP160 YJL080C
May be required during cell division for faithful partitioning of the ER
9865_f_at 0.32237247 -0.132306 -0.850809 -0.718503 PAU4 YLR461W
Part of 23-member seripauperin multigene family encoded mainly in
6106_at 0.33237723 -0.07538933 -0.79246667 -0.71707733 CDC40
beta transducin family YDR364C
7463_at 0.56915653 -0.04343233 -0.76016667 -0.71673433 NUP170
nuclear pore complex subunit YBL079W
10069_f_at 0.34073472 -0.14303533 -0.85845233 -0.715417 RPS28B YLR264W
ribosomal protein S28B (S33B) (YS27)
7618_f_at 0.16201401 -0.00408267 -0.71908867 -0.715006 RPS23B YPR132W
ribosomal protein S23B (S28B) (rp37) (YS14)
9203_at 0.20995092 -0.01928133 -0.733876 -0.71459467 EGT2 (GPI)-anchored cell wall endoglucanas
Glycosylphosphatidylinositol YNL327W
4202_at 0.19258157 -0.02093267 -0.73548067 -0.714548 SEC24
vesicle coat component YIL109C
6196_at 0.24384545 -0.02087233 -0.73418267 -0.71331033 PMP3 protein
hypothetical transmembrane YDR276C
4188_at 0.19249183 -0.01180633 -0.72466 -0.71285367 SEC28
epsilon-COP coatomer subunit YIL076W
7585_at 0.34884937 -0.04182233 -0.754211 -0.71238867 NA NA YPR142C
5589_at 0.18557209 -0.00395 -0.71590033 -0.71195033 RTT105 102, 103,
same phenotype as RTT101,YER104W 104
8717_at 0.24761346 -0.03266567 -0.74386933 -0.71120367 Hypothetical ORFNA YOL164W
5327_at 0.22481425 -0.02010433 -0.73089467 -0.71079033 MET10
sulfite reductase alpha subunit YFR030W
7309_at 0.33903115 -0.03589233 -0.74654533 -0.710653 FAT1
fatty acid transporter YBR041W
8221_at 0.2085732 -0.066065 -0.776613 -0.710548 NA NA YOR331C
5227_at 0.35898678 -0.098085 -0.80842933 -0.71034433 YIP4 YGL198W
Protein that interacts with Rab GTPases; computational analysis of
6591_at 0.2394571 -0.040203 -0.74987167 -0.70966867 PMT1 YDL095W
dolichyl phosphate-D-mannose:protein O-D-mannosyltransferase
10094_at 0.18629404 -0.037926 -0.74659967 -0.70867367 ERF2 YLR246W
Subunit of a palmitoyltransferase, composed of Erf2p and Shr5p, th
6862_at 0.10023305 -0.01195 -0.72048767 -0.70853767 FEN2 YCR028C
Plasma Membrane H+-Pantothenate Symporter
8489_at 0.21202231 -0.01118967 -0.71952967 -0.70834 CK2 alpha' subunit
protein kinase CKA2 YOR061W
8252_at 0.09976227 -0.01169833 -0.71972367 -0.70802533 CAF20 YOR276W
20 kDa protein|functionally analogous to mammalian 4E-BPs|functio
4398_at 0.24952195 -0.04408567 -0.752017 -0.70793133 IMP3
U3 snoRNP protein YHR148W
3225_f_at 0.21528002 -0.05421867 -0.760781 -0.70656233 NA YGRCTY1-3
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
9458_at 0.14475663 -0.01809367 -0.724615 -0.70652133 Hypothetical ORFNA YMR187C
6117_at 0.27174252 -0.04640767 -0.75283 -0.70642233 ER membraneGPI8 YDR331W
glycoprotein subunit of the glycosylphosphatidylinos
7134_at 0.22465593 -0.09970033 -0.805765 -0.70606467 Hypothetical ORFNA YBR224W
11047_at 0.29187815 -0.13128533 -0.83513633 -0.703851 BBC1 YJL020C
Protein possibly involved in assembly of actin patches; interacts wit
11314_at 0.28706293 -0.05342933 -0.75591033 -0.702481 ERP2 YAL007C
p24 protein involved in membrane trafficking
5522_at 0.3815082 -0.179069 -0.881124 -0.702055 glutaredoxin GRX4 YER174C
8645_at 0.23443831 -0.01706133 -0.71892367 -0.70186233 Hypothetical ORFNA YOL098C
7683_at 0.2083268 -0.05821667 -0.75894567 -0.700729 Hypothetical ORFNA YPR063C
11293_at 0.13508061 -0.019596 -0.71933233 -0.69973633 PRM9 YAR031W
Pheromone-regulated protein with 3 predicted transmembrane segm
11029_at 0.12426621 -0.00961433 -0.70822567 -0.69861133 SUI2 YJR007W
Translation initiation factor eIF-2 alpha subunit
4283_at 0.18691471 -0.046281 -0.744622 -0.698341 NA
L-serine dehydratase YIL168W
11049_g_at 0.2516977 -0.074371 -0.77270433 -0.69833333 MPS3
nuclear envelope protein YJL019W
5053_at 0.33259155 -0.171678 -0.86936233 -0.69768433 found YGL054C
14 kDa proteinERV14 on ER-derived vesicles
4714_at 0.59085254 -0.36632867 -1.06381233 -0.69748367 ERV29 YGR284C
ER-Golgi transport vesicle protein
5991_at 0.30378013 -0.073274 -0.76993767 -0.69666367 SNF1
serine/threonine kinase YDR477W
3403_f_at 0.36682432 -0.17228133 -0.868609 -0.69632767 PAU4 YDR542W
Part of 23-member seripauperin multigene family encoded mainly in
7114_at 0.15547266 -0.005035 -0.70037767 -0.69534267 ARO4 YBR249C
3-deoxy-D-arabino-heptulosonate 7-phosphate (DAHP) synthase is
10855_at 0.18168567 -0.006332 -0.70139467 -0.69506267 PGU1
endo-polygalacturonase YJR153W
6832_at 0.33310425 -0.064971 -0.75950767 -0.69453667 PER1
Protein Processing in the ERYCR044C
11354_at 0.22355421 -0.04982733 -0.74422333 -0.694396 modulator involved in the regulation of structural gen
TranscriptionalDEP1 YAL013W
10794_at 0.25249285 -0.05057633 -0.744185 -0.69360867 SRY1 YKL218C
3-hydroxyaspartate dehydratase, deaminates L-threo-3-hydroxyasp
8353_at 0.32773932 -0.00359833 -0.69705333 -0.693455 LIP5
lipoic acid synthase YOR196C
5681_at 0.5191651 -0.10095833 -0.79434367 -0.69338533 CHO1
phosphatidylserine synthase YER026C
9061_at 0.10273075 -0.01372067 -0.70695333 -0.69323267 NA NA YNL198C
11051_at 0.40410956 -0.09995467 -0.792662 -0.69270733 Hypothetical ORFNA YJL017W
4998_at 0.13706882 -0.02701067 -0.71919233 -0.69218167 NA NA YGR025W
8396_at 0.18748282 -0.02096367 -0.712401 -0.69143733 SMP3
alpha 1,2 mannosyltransferase YOR149C
8698_at 0.36900118 -0.15858167 -0.84942867 -0.690847 PFK27
6-phosphofructo-2-kinase YOL136C
4868_at 0.32187442 -0.075572 -0.765158 -0.689586 PPT1 YGR123C
Protein serine/threonine phosphatase with similarity to human phos
11344_at 0.32906218 -0.004045 -0.69349133 -0.68944633 PMT2 YAL023C
dolichyl phosphate-D-mannose:protein O-D-mannosyltransferase
8910_at 0.29130965 -0.00178333 -0.690585 -0.68880167 HHT2 code for
histone H3 (HHT1 and HHT2YNL031Cidentical proteins)
7119_at 0.28299698 -0.069208 -0.757745 -0.688537 of 20 kDa
Trapp subunit TRS20 YBR254C
8350_at 0.22844405 -0.03135433 -0.718744 -0.68738967 PEX27 YOR193W
Involved in peroxisome proliferation
4939_at 0.24205511 -0.093288 -0.78055767 -0.68726967 Hypothetical ORFNA YGR058W
5745_at 0.06910918 -0.00829433 -0.695482 -0.68718767 Hypothetical ORFNA YEL001C
8143_at 0.1707885 -0.01936333 -0.70601533 -0.686652 Hypothetical ORFNA YOR389W
7924_at 0.24545903 -0.04947967 -0.735618 -0.68613833 NAB3 protein|polyadenylated single strand D
polyadenylated RNA binding YPL190C
10127_at 0.20744281 -0.000972 -0.686615 -0.685643 HCR1 YLR192C
Substoichiometric component of eukaryotic translation initiation fact
8560_at 0.26024515 -0.043 -0.72726133 -0.68426133 IZH2 YOL002C
Membrane protein involved in zinc metabolism, member of the four-
4127_at 0.1184206 -0.01552567 -0.69897767 -0.683452 effector
ARF GAP withAGE2 function(s) YIL044C
4476_at 0.25307462 -0.07217133 -0.75534567 -0.68317433 AAP1'
arginine/alanine aminopeptidase YHR047C
8018_i_at 0.46047472 -0.17589367 -0.85790633 -0.68201267 Hypothetical ORF NA YPL277C
7264_at 0.20739693 -0.02353033 -0.705437 -0.68190667 IST2 YBR086C
Plasma membrane protein that may be involved in osmotolerance,
6599_at 0.17460774 -0.02059933 -0.701995 -0.68139567 RPP1B (YP1beta)
ribosomal protein P1B (L44') YDL130W (Ax)
5925_at 0.29458904 -0.03206067 -0.713276 -0.68121533 NA NA YDR524c-a
5197_at 0.16673316 -0.050065 -0.73043933 -0.68037433 MND1 YGL183C
needed for Meiotic Nuclear Divisions
9456_at 0.57976895 -0.18918033 -0.869473 -0.68029267 HSP82 YMR186W
heat shock protein 90|mammalian Hsp90 homolog
11156_s_at 0.25107697 -0.025751 -0.705036 -0.679285 TIF1 YJL138C
translation initiation factor eIF4A subunit
6485_at 0.45760552 -0.07473833 -0.753774 -0.67903567 GPD1 YDL022W
glycerol-3-phosphate dehydrogenase
6957_s_at 0.34830677 -0.174065 -0.85129267 -0.67722767 BUD5 YCL068C
GTP/GDP exchange factor for Rsr1 protein
10754_at 0.50954833 -0.21784133 -0.89458467 -0.67674333 MCD4 YKL165C
Required for GPI anchor synthesis
9768_at 0.13155059 -0.00189467 -0.677605 -0.67571033 Hypothetical ORF NAB6 YML117W
8162_at 0.32258246 -0.01660033 -0.692277 -0.67567667 PIP2
transcription factor YOR363C
10615_at 0.38073368 -0.23586533 -0.91121333 -0.675348 Hypothetical ORF NA YKL037W
11325_at 0.34717813 -0.01390733 -0.68804867 -0.67414133 ERP1 YAR002C-A
p24 protein involved in membrane trafficking
10045_at 0.24634213 -0.03947133 -0.71346533 -0.673994 endochitinase CTS1 YLR286C
6810_g_at 0.06335183 -0.00948933 -0.68301267 -0.67352333 ATG15 YCR068W
Lipase, required for intravacuolar lysis of autophagic bodies; locate
4787_at 0.2044035 -0.03674833 -0.70999133 -0.673243 TOS2 YGR221C
Protein of unknown function that localizes to the bud neck and bud
9911_at 0.344349 -0.13027033 -0.79984967 -0.66957933 dihydrooratase URA4 YLR420W
4547_at 0.0670095 -0.000832 -0.669538 -0.668706 RPS20
ribosomal protein S20 YHL015W
9859_at 0.20147465 -0.058531 -0.72713533 -0.66860433 Hypothetical ORF NA YLR455W
8534_at 0.35074527 -0.02198267 -0.69048133 -0.66849867 ERP4 YOR016C
p24 protein involved in membrane trafficking
5563_at 0.35799184 -0.05393133 -0.72225267 -0.66832133 ADK2 YER170W
adenylate kinase|mitochondrial GTP:AMP phosphotransferase
10217_at 0.24868897 -0.021336 -0.68939867 -0.66806267 CHA4 YLR098C
DNA binding transcriptional activator of CHA1
5787_at 0.42056301 -0.25438867 -0.92113367 -0.666745 Hypothetical ORF NA YEL048C
7936_at 0.43423515 -0.22268867 -0.88898533 -0.66629667 PPQ1
protein phosphatase Q YPL179W
7364_at 0.33828602 -0.01580167 -0.680405 -0.66460333 The authentic, NA YBR004C
non-tagged protein was localized to the mitochondria
4790_at 0.1083624 -0.01457933 -0.678205 -0.66362567 AZR1 YGR224W
Plasma membrane transporter of the major facilitator superfamily, in
7561_at 0.35319749 -0.00836067 -0.67147033 -0.66310967 TIF3 YPR163C
translation initiation factor eIF-4B
10393_at 0.23926851 -0.08504633 -0.74793667 -0.66289033 ENT4 contains
Protein of unknown function, YLL038Can N-terminal epsin-like dom
6874_at 0.25678435 -0.038228 -0.701112 -0.662884 Hypothetical ORF NA YCL005W
8435_at 0.17731541 -0.02769033 -0.69019067 -0.66250033 NUP1
nuclear pore complex subunit YOR098C
10289_f_at 0.13459698 -0.01644967 -0.678828 -0.66237833 DAN2 cell wall protein
Hypothetical ORF /// putativeYLR037C
4143_at 0.2822641 -0.11632433 -0.77842067 -0.66209633 NA NA YIL028W
6362_at 0.18273027 -0.03813133 -0.69993533 -0.661804 ARO1 YDR127W
3-dehydroquinate dehydratase (3-dehydroquinase)|3-dehydroquina
9050_at 0.20618006 -0.01310133 -0.674026 -0.66092467 Hypothetical ORF NA YNL208W
5756_at 0.30474623 -0.02495733 -0.68574567 -0.66078833 NA NA YEL034W
10387_at 0.36920667 -0.083086 -0.743132 -0.660046 NA NA YLL044W
6459_at 0.40066426 -0.058957 -0.71884467 -0.65988767 MCD1 YDL003W
Mitotic Chromosome Determinant; similar to S. pombe RAD21; may
11125_at 0.14044753 -0.02715367 -0.68632533 -0.65917167 LSM1 YJL124C
Like Sm protein; the finding that Lsm1 contains the Sm consensus
10493_at 0.19778451 -0.02323167 -0.68236967 -0.659138 BET3 YKR068C
transport protein particle (TRAPP) component
4040_at 0.02834321 -0.00161967 -0.66059933 -0.65897967 NA NA YIR017w-a
6606_at 0.40951195 -0.020986 -0.67962067 -0.65863467 HNT1 YDL125C
Adenosine 5'-monophosphoramidase; interacts physically and gene
4827_at 0.30746116 -0.05271467 -0.71084133 -0.65812667 YIP1 YGR172C
Golgi integral membrane protein; binds to the transport GTPases Y
4321_at 0.14069756 -0.018848 -0.67639867 -0.65755067 BAT1 YHR208W
branched-chain amino acid transaminase|highly similar to mammal
4236_at 0.13551117 -0.016254 -0.67319433 -0.65694033 QDR1
multidrug resistance transporterYIL120W
5036_at 0.15800036 -0.01403633 -0.67078967 -0.65675333 TRP5
tryptophan synthetase YGL026C
9973_at 0.2527427 -0.02606367 -0.68175667 -0.655693 NA NA YLR349W
5913_at 0.27816819 -0.03693333 -0.69244367 -0.65551033 FIT1 YDR534C
Cell wall protein involved in iron uptake
6071_at 0.28958065 -0.083341 -0.738843 -0.655502 RAD30
DNA polymerase eta YDR419W
6100_at 0.35086889 -0.050792 -0.70463 -0.653838 Component of VID21 YDR359C
the NuA4 histone acetyltransferase complex
7980_at 0.10090404 -0.01222767 -0.665723 -0.65349533 MMT2 YPL224C
Protein involved in mitochondrial iron accumulation
5063_at 0.20294969 -0.01039133 -0.663572 -0.65318067 RNA15 YGL044C
cleavage and polyadenylation factor CF I component involved in pre
4415_at 0.25987978 -0.06963033 -0.721312 -0.65168167 NA YHR122W
Protein required for cell viability
4824_at 0.343612 -0.04717067 -0.698693 -0.65152233 RNA:Psi-synthase PUS6 YGR169C
9905_at 0.25443397 -0.00263433 -0.653894 -0.65125967 NA green fluorescent protein (GFP)-fusion
Protein of unknown function; YLR414C
9854_at 0.45242281 -0.229078 -0.88013433 -0.65105633 HMG2 YLR450W
3-hydroxy-3-methylglutaryl-coenzyme A (HMG-CoA) reductase isoz
11026_at 0.34997336 -0.12335633 -0.77440267 -0.65104633 alpha-agglutininSAG1 YJR004C
7072_s_at 0.29677169 -0.05771167 -0.708425 -0.65071333 maltase MAL12 YBR299W
4478_at 0.04153929 -0.00520167 -0.655802 -0.65060033 FSH1 YHR049W
Serine hydrolase that localizes to both the nucleus and cytoplasm.
8720_f_at 0.39264908 -0.121479 -0.77089 -0.649411 PAU4 YOL161C
Part of 23-member seripauperin multigene family encoded mainly in
5176_at 0.29985057 -0.04488633 -0.69386233 -0.648976 Hypothetical ORFNA YGL159W
10992_at 0.36683169 -0.153193 -0.80216833 -0.64897533 Hypothetical ORFNA YJR015W
10299_at 0.10287976 -0.00592667 -0.65447167 -0.648545 Hypothetical ORFNA YLR047C
10672_at 0.55511683 -0.15217233 -0.798454 -0.64628167 protein|transcriptional activator
ARS1 binding ABF1 YKL112W
7807_at 0.10047375 -0.01093967 -0.65651333 -0.64557367 PMA2
plasma membrane ATPase YPL036W
7685_at 0.41449232 -0.14315933 -0.787752 -0.64459267 ROX1 YPR065W
HMG-domain site-specific DNA binding protein.
8026_at 0.18600859 -0.05127267 -0.69509567 -0.643823 KAR9 YPL269W
Karyogamy protein required for correct positioning of the mitotic spi
10210_at 0.26827937 -0.091592 -0.73527733 -0.64368533 TIS11 YLR136C
Zinc finger containing homolog of mammalian TIS11, glucose repre
7039_at 0.30231746 -0.076843 -0.72033533 -0.64349233 NA NA YBR266C
8500_at 0.20560916 -0.01909867 -0.66123533 -0.64213667 SGO1 YOR073W
Protein that protects centromeric Rec8p at meiosis I; required for ac
7555_s_at 0.23629007 -0.050119 -0.692004 -0.641885 GCR1 YPL075W
trans-acting positive regulator of the enolase and glyceraldehyde-3-
7994_at 0.30452454 -0.01445033 -0.65481467 -0.64036433 BBP1 YPL255W
Protein required for the spindle pole body (SPB) duplication, localiz
7210_at 0.09835699 -0.02053767 -0.66076033 -0.64022267 DEM1 shows similarity to RNA-processing pr
Protein of unknown function, YBR163W
5546_at 0.09439866 -0.001015 -0.640977 -0.639962 Hypothetical ORFNA YER152C
11005_at 0.18760668 -0.03044567 -0.66892767 -0.638482 GEA1
GDP/GTP exchange factor YJR031C
5337_at 0.2937511 -0.02136867 -0.659776 -0.63840733 Hypothetical ORFNA YFR038W
6797_at 0.45202958 -0.24601467 -0.88367367 -0.637659 Hypothetical ORFNA YCR102C
6186_at 0.33957172 -0.030041 -0.66750967 -0.63746867 GIC2 YDR309C
Protein of unknown function involved in initiation of budding and cel
8438_at 0.15534616 -0.00294333 -0.64024533 -0.637302 ras homolog RAS1 YOR101W
9978_at 0.24325284 -0.01094567 -0.647921 -0.63697533 enzyme in theYLR354C
transaldolase, TAL1 pentose phosphate pathway
8570_at 0.22503557 -0.04975133 -0.68649933 -0.636748 NA NA YOL037C
10727_at 0.30233351 -0.03857067 -0.67529633 -0.63672567 AVT3 YKL146W
Gln (Asn), Ile (Leu), Tyr transporter
7693_at 0.24902107 -0.05328733 -0.68992467 -0.63663733 NA NA YPR073C
10390_at 0.51966027 -0.03398767 -0.669666 -0.63567833 SDH2 YLL041C
succinate dehydrogenase (ubiquinone) iron-sulfur protein subunit
3881_f_at 0.23002188 -0.053053 -0.68873067 -0.63567767 NA YJRWTY1-1
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
10959_at 0.32957591 -0.124134 -0.75976933 -0.63563533 HOC1
mannosyltransferase (putative) YJR075W
4082_at 0.49491786 -0.229772 -0.86521833 -0.63544633 SGN1 YIR001C
Cytoplasmic RNA-binding protein, contains an RNA recognition mo
4563_f_at 0.38349546 -0.12992533 -0.764604 -0.63467867 PAU4 YHL046C
Part of 23-member seripauperin multigene family encoded mainly in
6907_at 0.34799731 -0.05573 -0.68841967 -0.63268967 AGP1
amino acid permease YCL025C
4903_at 0.16742556 -0.03015133 -0.661746 -0.63159467 DAM1 YGR113W
Duo1 And Mps1 interacting. Localized to intranuclear spindles and
5921_at 0.46398833 -0.06519267 -0.69657533 -0.63138267 SNA2 has similarity
Protein of unknown function, YDR525W-A to Pmp3p, which is invol
9351_at 0.4251331 -0.03061067 -0.66163267 -0.631022 PET111 YMR257C
translational activator of cytochrome C oxidase subunit II
5371_at 0.29167437 -0.011687 -0.642589 -0.630902 NA NA YFL015C
7977_at 0.33656989 -0.00423633 -0.63417133 -0.629935 ALG5 YPL227C
UDP-glucose:dolichyl-phosphate glucosyltransferase
4572_at 0.14360969 -0.012183 -0.64175833 -0.62957533 MUP3 YHL036W
very low affinity methionine permease
8145_s_at 0.43217245 -0.11195633 -0.74095467 -0.62899833 Hypothetical ORFNA YOR390W
7590_at 0.42453017 -0.09659467 -0.72541233 -0.62881767 Hypothetical ORFNA YPR147C
7461_at 0.26535323 -0.010813 -0.63753067 -0.62671767 Hypothetical ORFNA YBL081W
7457_at 0.14983081 -0.019926 -0.64663533 -0.62670933 CDC27 YBL084C
anaphase promoting complex (APC) subunit
5318_s_at 0.59487853 -0.47417733 -1.10062233 -0.626445 HAC1 YFL031W
bZIP (basic-leucine zipper) protein
5724_at 0.33750942 -0.070329 -0.695503 -0.625174 URA3 YEL021W
orotidine-5'-phosphate decarboxylase
6806_at 0.37068195 -0.15880133 -0.78371033 -0.624909 forkhead proteinHCM1 YCR065W
10574_at 0.55644041 -0.16739467 -0.792295 -0.62490033 Hypothetical ORFNA YKR011C
3672_f_at 0.20607947 -0.05636167 -0.68012833 -0.62376667 NA YMRCTY1-4
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
8172_at 0.17545713 -0.04406133 -0.667516 -0.62345467 Component of NUD1 YOR373W
the spindle pole body outer plaque, required for exit
8829_at 0.37493697 -0.14672333 -0.76963367 -0.62291033 SEC12 YNR026C
guanine nucleotide exchange factor for Sar1p
9373_at 0.30838252 -0.04703633 -0.66833167 -0.62129533 ribonuclease H RNH1 YMR234W
5267_at 0.11923208 -0.00484433 -0.62576167 -0.62091733 RAI1 and stabilizes the exoribonuclease Ra
Nuclear protein that binds to YGL246C
10582_at 0.18652034 -0.03480633 -0.65548167 -0.62067533 PAN3 YKL025C
Pab1p-dependent poly(A) ribonuclease (PAN) 76 kDa subunit
5061_at 0.23877363 -0.07262033 -0.69305033 -0.62043 RIM8 YGL046W
Involved in proteolytic processing of Rim1p
8458_at 0.16772546 -0.00322433 -0.62278833 -0.619564 RTS2 YOR077W
Basic zinc-finger protein, similar to human and mouse Kin17 protein
3712_s_at 0.49448685 -0.29104533 -0.90958833 -0.618543 NA YMRCTY1-3
TyA Gag protein; the main structural constituent of virus-like particle
9656_g_at 0.18037763 -0.022139 -0.640574 -0.618435 SPT5
transcription factor YML010W
5052_at 0.41406531 -0.080631 -0.699055 -0.618424 OLE1
delta-9-fatty acid desaturase YGL055W
8271_at 0.04107618 -0.00095 -0.619348 -0.618398 RRS1 YOR294W
Essential protein that binds ribosomal protein L11 and is required fo
7674_at 0.18991636 -0.03134467 -0.64919333 -0.61784867 Hypothetical ORFNA YPR098C
4738_at 0.13157387 -0.02759133 -0.64537233 -0.617781 BUD32 YGR262C
Protein involved in bud-site selection; diploid mutants display a rand
8830_at 0.07988397 -0.01158233 -0.62921067 -0.61762833 BUD17 YNR027W
Protein involved in bud-site selection; diploid mutants display a rand
11371_at 0.36584074 -0.01108133 -0.62818633 -0.617105 C
pyruvate kinase DC19 YAL038W
11290_at 0.43283871 -0.17280333 -0.78963733 -0.616834 NA YAR028W
Putative integral membrane protein, member of DUP240 gene fami
10239_at 0.11834684 -0.01982767 -0.635917 -0.61608933 RPL10
ribosomal protein L10 YLR075W
10716_at 0.15817289 -0.011853 -0.62782533 -0.61597233 APE2
aminopeptidase yscII YKL157W
9939_at 0.32929087 -0.08579933 -0.70095433 -0.615155 Hypothetical ORFNA YLR404W
4190_at 0.20588675 -0.041366 -0.656142 -0.614776 SER33
3-phosphoglycerate dehydrogenaseYIL074C
5772_at 0.31535896 -0.07480667 -0.689004 -0.61419733 NPR2 YEL062W
Regulator of nitrogen permeases; transcription is induced in respon
8669_at 0.14868755 -0.01500667 -0.62897667 -0.61397 MCH4 YOL119C
monocarboxylate permease homologue
10227_at 0.18537272 -0.002077 -0.61423467 -0.61215767 Hypothetical ORFNA YLR108C
5997_at 0.12075183 -0.011048 -0.62279533 -0.61174733 KRE2
alpha-1,2-mannosyltransferase YDR483W
8947_at 0.06203904 -0.004299 -0.615706 -0.611407 MKT1 YNL085W
retroviral protease signature protein
10613_at 0.02283474 -0.00090967 -0.611425 -0.61051533 PTM1
membrane protein (putative) YKL039W
9197_s_at 0.44471289 -0.000485 -0.610896 -0.610411 SNO2 nearly identical to Sno3p; expression i
Protein of unknown function, YNL334C
9646_at 0.1083511 -0.00377067 -0.61275467 -0.608984 Hypothetical ORFNA YML018C
5776_at 0.18604177 -0.04037433 -0.64931233 -0.608938 NA NA YEL059W
10322_at 0.22941063 -0.01263533 -0.62151567 -0.60888033 SED5 NSF attachment protein receptor) req
Sed5p is a t-SNARE (solubleYLR026C
7352_at 0.02979385 -0.00103933 -0.60978433 -0.608745 haspin NA YBL009W
9027_at 0.27024181 -0.06446567 -0.673132 -0.60866633 AAH1 YNL141W
adenine aminohydrolase (adenine deaminase)
9977_at 0.15123592 -0.02519 -0.63310667 -0.60791667 BUD8 YLR353W
Protein involved in bud-site selection; diploid mutants display a unip
9044_at 0.16459817 -0.01303533 -0.62075833 -0.607723 PSD1
phosphatidylserine decarboxylaseYNL169C
5575_at 0.2963095 -0.03500833 -0.64198233 -0.606974 Hypothetical ORFNA YER134C
6069_i_at 0.17135697 -0.01156667 -0.617773 -0.60620633 RPL12A YDR418W
ribosomal protein L12A (L15A) (YL23)
10564_at 0.21865862 -0.019006 -0.624483 -0.605477 VPS1 YKR001C
GTP-binding protein (putative)|dynamin GTPase family member|sim
8651_at 0.20090925 -0.01471167 -0.61996233 -0.60525067 Hypothetical ORFNA YOL092W
9284_at 0.36758539 -0.00117867 -0.605974 -0.60479533 NA NA YMR319C
10412_f_at 0.34961234 -0.106695 -0.71059 -0.603895 PAU4 YLL064C
Part of 23-member seripauperin multigene family encoded mainly in
10697_at 0.09240391 -0.00409167 -0.60784467 -0.603753 NA NA YKL131W
5130_at 0.12767083 -0.009383 -0.613084 -0.603701 TAF6 YGL112C
TATA-binding protein-associated-factor
7770_at 0.35931566 -0.02843 -0.631848 -0.603418 ERG10
acetoacetyl CoA thiolase YPL028W
4963_at 0.06260649 -0.00184667 -0.605076 -0.60322933 ACB1 YGR037C
acyl-CoA-binding protein (ACBP)/diazepam binding inhibitor (DBI)/e
7059_at 0.23429773 -0.01758567 -0.620202 -0.60261633 APE3
aminopeptidase yscIII YBR286W
8661_at 0.39582201 -0.14052833 -0.742821 -0.60229267 protein kinase YGK3 YOL128C
6361_at 0.10359036 -0.01489333 -0.616844 -0.60195067 SWF1
Spore Wall Formation YDR126W
7269_g_at 0.1759749 -0.006295 -0.607222 -0.600927 NHP6B YBR090C-A
11 kDa nonhistone chromosomal protein /// Hypothetical ORF
5183_at 0.47019195 -0.04851633 -0.649162 -0.60064567 Hypothetical ORFNA YGL196W
11195_at 0.44702041 -0.06605767 -0.66601633 -0.59995867 Hypothetical ORFNA YJL185C
7563_at 0.21961917 -0.00113767 -0.60001167 -0.598874 RHO1 YPR165W
GTP-binding protein|rho subfamily
11110_at 0.09998546 -0.01248667 -0.61124833 -0.59876167 DNA helicase HPR5 YJL092W
4802_i_at 0.39741144 -0.02335467 -0.62189933 -0.59854467 TDH2 dehydrogenase
glyceraldehyde 3-phosphate YGR192C
10666_at 0.19076028 -0.009681 -0.60812633 -0.59844533 Hypothetical ORFNA YKL075C
4382_at 0.1871721 -0.025564 -0.62384267 -0.59827867 NA potential homolog of mammalian Insig
Protein of unknown function, YHR133C
7783_at 0.31971363 -0.06078233 -0.658932 -0.59814967 Member of theHST2 YPL015C
silencing information regulator 2 (Sir2) family of NAD
8814_at 0.07416462 -0.00368867 -0.60086333 -0.59717467 HOL1 superfamily
similar to the major facilitatorYNR055C of transporters
4318_at 0.19805581 -0.01234467 -0.60909133 -0.59674667 SCH9 YHR205W
cAMP-dependent protein kinase homolog|suppressor of cdc25ts
5548_at 0.15901562 -0.00512333 -0.60153267 -0.59640933 the mitochondrial inner membrane, mediates the ins
Translocase ofOXA1 YER154W
9546_at 0.54012936 -0.16014767 -0.75508733 -0.59493967 protein kinase YPK2 YMR104C
7780_at 0.24019837 -0.06259167 -0.657174 -0.59458233 CTF19
kinetochore protein YPL018W
8992_at 0.39457495 -0.07800767 -0.67203667 -0.594029 CPT1 YNL130C
sn-1,2-diacylglycerol cholinephosphotransferase
9494_at 0.31047606 -0.092689 -0.68639 -0.593701 the YMR140W
Sip5 facilitatesSIP5interaction between the Reg1Glc7 phosphatase
6387_at 0.23391072 -0.00267933 -0.59579767 -0.59311833 multispanning NAmembrane proteinYDR107C
10369_at 0.56162017 -0.25737267 -0.85017167 -0.592799 homolog
protein kinase KNS1 YLL019C
5811_at 0.11547991 -0.010602 -0.60276533 -0.59216333 Hypothetical ORFNA YEL073C
5608_at 0.44944735 -0.233106 -0.824767 -0.591661 YCK3
casein kinase I homolog YER123W
9207_at 0.18194808 -0.000816 -0.592199 -0.591383 LEM3
membrane glycoprotein YNL323W
9863_at 0.22126658 -0.025733 -0.61664033 -0.59090733 GAB1 YLR459W
GPI transamidase subunit, involved in attachment of glycosylphosp
10385_i_at 0.08930942 -0.008352 -0.59907267 -0.59072067 RPL8B YLL045C
ribosomal protein L8B (L4B) (rp6) (YL5)
10329_at 0.39350103 -0.04609467 -0.635918 -0.58982333 Hypothetical ORFNA YLL014W
8247_at 0.12491294 -0.00967 -0.59891933 -0.58924933 NOP58
U3 snoRNP protein YOR310C
8885_at 0.12768327 -0.005932 -0.595148 -0.589216 Hypothetical ORFNA YNL010W
3185_s_at 0.31452714 -0.10639933 -0.69499833 -0.588599 NA YIL175W
Hypothetical ORF /// Hypothetical ORF
8701_at 0.27815298 -0.05627667 -0.644714 -0.58843733 HRT1 YOL133W
Skp1-Cullin-F-box ubiquitin protein ligase (SCF) subunit
7124_at 0.52604117 -0.03044267 -0.61860267 -0.58816 SDS24 YBR214W
Similar to S. pombe SDS23, suppresses DIS2, localized to the nucl
6372_at 0.23733181 -0.029371 -0.61704933 -0.58767833 DNF2 translocase
Potential aminophospholipid YDR093W
3519_f_at 0.36807981 -0.11165333 -0.69784167 -0.58618833 NA NA YBRCDELTA14
7799_at 0.06060565 -0.00354633 -0.589277 -0.58573067 NA NA YPL044C
9665_at 0.52926668 -0.06714967 -0.65272367 -0.585574 GLO1 YML004C
lactoylglutathione lyase (glyoxalase I)
10470_at 0.45093107 -0.07663833 -0.66196233 -0.585324 SRL3 YKR091W
Cytoplasmic protein that, when overexpressed, suppresses the leth
10933_at 0.12198505 -0.00365067 -0.58860233 -0.58495167 RPL43B
ribosomal protein L43B YJR094W-A
11109_at 0.31758666 -0.011795 -0.595746 -0.583951 TOK1 YJL093C
outward-rectifier potassium channel
6114_at 0.23188234 -0.01007467 -0.59335967 -0.583285 NA VPS74 YDR372C
5240_at 0.46371035 -0.09123267 -0.673647 -0.58241433 SAP4 YGL229C
Protein required for function of the Sit4p protein phosphatase, mem
5703_at 0.42342666 -0.08840233 -0.670779 -0.58237667 The authentic, NA YER004W
non-tagged protein was localized to the mitochondria
6127_at 0.11844902 -0.01062133 -0.59237667 -0.58175533 NA YDR341C
Cytoplasmic arginyl-tRNA synthetase
6040_i_at 0.07675739 -0.00298067 -0.584212 -0.58123133 recognition motif|nuclear shuttling protein
contains RNA NPL3 YDR433W
6139_at 0.214453 -0.03631333 -0.61738467 -0.58107133 TRR1 YDR353W
thioredoxin reductase|EC 1.6.4.5
6935_at 0.02956897 -0.00128067 -0.58217967 -0.580899 GLK1 YCL042W
Hypothetical ORF /// glucokinase
4068_at 0.24008424 -0.05821467 -0.63885733 -0.58064267 DAL3
ureidoglycolate hydrolase YIR032C
10660_at 0.22921569 -0.023466 -0.60397133 -0.58050533 VMA5 C|vacuolar
V1 sector hydrophilic subunitYKL080W ATPase V1 domain subun
10955_at 0.39060807 -0.081241 -0.66162667 -0.58038567 NA NA YJR071W
8633_at 0.20466035 -0.01367367 -0.593708 -0.58003433 MET22 YOL064C
3'(2')5'-bisphosphate nucleotidase
9942_at 0.45479419 -0.18655733 -0.76631067 -0.57975333 NMD4 YLR363C
putative Upf1p-interacting protein
9542_at 0.50814543 -0.16861567 -0.74701867 -0.578403 MUB1 YMR100W
Homolog of samB gene of Aspergillus nidulans (deletion of samB re
6634_at 0.17626964 -0.01025367 -0.588321 -0.57806733 BPL1
biotin:apoprotein ligase YDL141W
8786_f_at 0.44103439 -0.12328767 -0.701231 -0.57794333 PAU4 YNR076W
Part of 23-member seripauperin multigene family encoded mainly in
8587_at 0.15404645 -0.009671 -0.58652133 -0.57685033 TAT2 YOL020W
tryptophan permease, high affinity
9295_g_at 0.29559763 -0.00103867 -0.576988 -0.57594933 Hypothetical ORFNA YMR122w-a
4258_at 0.29677304 -0.00444367 -0.580028 -0.57558433 SSL2 ERCC3
DNA helicase|human XPBC, YIL143Chomolog
8866_at 0.07685921 -0.01069967 -0.58499633 -0.57429667 Hypothetical ORFNA YNR018W
4044_s_at 0.27223281 -0.05063567 -0.624809 -0.57417333 Mps One Binder MOB1 YIL106W
10170_g_at 0.48329613 -0.27403533 -0.84811167 -0.57407633 RRN5 YLR140W
UAF member (upstream activation factor) along with Rrn9p and Rrn
10256_at 0.15729469 -0.01948233 -0.593346 -0.57386367 SUL2
high affinity sulfate permease YLR092W
4177_at 0.29273877 -0.06078433 -0.634215 -0.57343067 Hypothetical ORFNA YIL089W
7955_at 0.54957295 -0.04794833 -0.62122067 -0.57327233 TPK2 YPL203W
cAMP-dependent protein kinase catalytic subunit
10206_at 0.39851137 -0.086971 -0.660174 -0.573203 NA YLR132C
Protein required for cell viability
3236_f_at 0.23040432 -0.03837967 -0.61106433 -0.57268467 NA YGRCTY1-2
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
8893_at 0.3198008 -0.032537 -0.60439267 -0.57185567 SFB2
zinc finger protein (putative) YNL049C
7993_at 0.28357836 -0.03071967 -0.60189033 -0.57117067 G1 cyclin CLN2 YPL256C
8969_at 0.15062839 -0.00326667 -0.574403 -0.57113633 Hypothetical ORFNA YNL108C
6245_at 0.21719971 -0.03475467 -0.605257 -0.57050233 homoaconitase LYS4 YDR234W
7956_at 0.40174162 -0.08434267 -0.65448833 -0.57014567 AFT2 YPL202C
Activator of Iron (Fe) Transcription
8299_at 0.31598216 -0.00700967 -0.57653867 -0.569529 protein kinase KIN4 YOR233W
10246_at 0.29748107 -0.06296067 -0.63160033 -0.56863967 Rad53 YLR082C
Suppressor of SRL2 null Lethality
9502_at 0.21640924 -0.047679 -0.615441 -0.567762 Hypothetical ORFNA YMR147W
6937_at 0.59458995 -0.11491567 -0.68176567 -0.56685 GLK1 YCL040W
Hypothetical ORF /// glucokinase
5660_at 0.44346554 -0.18021333 -0.74706 -0.56684667 NA YER048W-A
Similar to D. melanogaster protein; weaker homology to C. elegans
7985_at 0.38236906 -0.050606 -0.61736433 -0.56675833 cyclin PCL8 YPL219W
7383_at 0.13637377 -0.01815167 -0.58480967 -0.566658 NCL1
tRNA:m5C-methyltransferase YBL024W
11182_at 0.45525647 -0.17832967 -0.743781 -0.56545133 Component of SSY5 YJL156C
the SPS plasma membrane amino acid sensor syste
6876_at 0.04223273 -0.00341833 -0.56875833 -0.56534 Hypothetical ORFNA YCL002C
10153_at 0.2277326 -0.00654167 -0.571734 -0.56519233 Hypothetical ORFNA YLR173W
11249_f_at 0.41727978 -0.12967567 -0.69438033 -0.56470467 PAU4 YJL223C
Part of 23-member seripauperin multigene family encoded mainly in
9172_at 0.30647363 -0.005078 -0.569617 -0.564539 RFA2 YNL312W
29% identical to the human p34 subunit of RF-A|replication factor R
7851_at 0.22408016 -0.00627167 -0.570591 -0.56431933 BRO1 YPL084W
BCK1-like resistance to osmotic shock
11209_at 0.08651754 -0.00562467 -0.56945233 -0.56382767 KRE9
cell wall beta-glucan assembly YJL174W
9148_at 0.27565675 -0.00167667 -0.56546133 -0.56378467 N-glycosylatedMID1 YNL291C
integral plasma membrane protein
8630_at 0.30057924 -0.0449 -0.60868367 -0.56378367 RTG1
transcription factor YOL067C
5054_at 0.3964052 -0.03705833 -0.60084133 -0.563783 PRM8 YGL053W
Pheromone-regulated protein with 2 predicted transmembrane segm
5672_at 0.34776338 -0.104277 -0.667927 -0.56365 p14.5 family with
Member of theHMF1 protein YER057C similarity to Mmf1p, function
6678_at 0.34838854 -0.079833 -0.64272267 -0.56288967 Hypothetical ORFNA YDL186W
6284_at 0.121707 -0.00575367 -0.568052 -0.56229833 CDC1 YDR182W
Putative membrane protein of unknown function involved in Mn2+ h
10447_s_at 0.24137923 -0.00194467 -0.56384533 -0.56190067 PTK1 YKL198C
Putative serine/threonine protein kinase
5941_at 0.15312525 -0.02098167 -0.58284067 -0.561859 NA
mammalian GRASP protein homolog YDR517W
5018_at 0.26185382 -0.044903 -0.605879 -0.560976 NA YGR001C
Putative methyltransferase, based on sequence similarity to methyl
6514_at 0.62999082 -0.462692 -1.02346133 -0.56076933 PRM7 YDL038C
Hypothetical ORF /// Pheromone-regulated protein, predicted to hav
9309_at 0.10376094 -0.01160333 -0.57237033 -0.560767 ADH2
alcohol dehydrogenase II YMR303C
9323_at 0.55931572 -0.12552133 -0.68587533 -0.560354 Hypothetical ORFNA YMR315W
9045_at 0.15594829 -0.00756933 -0.56623767 -0.55866833 The authentic, NA YNL168C
non-tagged protein was localized to mitochondria
4391_at 0.31399144 -0.03967467 -0.597309 -0.55763433 CHS7 YHR142W
The seventh gene identified that is involved in chitin synthesis; invo
8535_at 0.19109153 -0.013614 -0.57110533 -0.55749133 PET127
mitochondrial membrane protein YOR017W
10647_at 0.33418656 -0.02628133 -0.58374033 -0.557459 BUD2 YKL092C
GTPase activating protein (GAP) for Rsr1p/Bud1p
4955_at 0.22695434 -0.03832833 -0.59528033 -0.556952 SMD1 YGR074W
Homolog of human core snRNP protein D1, involved in snRNA mat
9974_at 0.36311907 -0.063932 -0.62053467 -0.55660267 ORM2 YLR350W
Endoplasmic reticulum membrane-anchored protein
6458_at 0.35441453 -9.77E-05 -0.556275 -0.5561773 NRG1 YDR043C
binds to UAS-1 in the STA1 promoter and can interact with Ssn6p|tr
11020_i_at 0.61929235 -0.343196 -0.89863367 -0.55543767 PRE3
20S proteasome subunit YJL001W
6868_at 0.3334661 -0.09126867 -0.646381 -0.55511233 NA SNT1 YCR033W
8036_at 0.31313771 -0.06889167 -0.62395533 -0.55506367 APM1 YPL259C
clathrin associated protein complex medium subunit
10292_at 0.3049155 -0.00891733 -0.56387467 -0.55495733 Hypothetical ORFNA YLR040C
7173_at 0.24752384 -0.01212567 -0.56522633 -0.55310067 SEC66 Sec62p and
glycoprotein complexed with YBR171W Sec63p in the Sec63 com
10496_at 0.16186003 -0.00952933 -0.562512 -0.55298267 DRE2 mutation
Protein of unknown function; YKR071Cdisplays synthetic lethal inter
6652_at 0.35512273 -0.06581967 -0.61878867 -0.552969 SFA1 YDL168W
glutathione-dependent formaldehyde dehydrogenase|long-chain alc
9427_at 0.07141611 -0.001586 -0.55396233 -0.55237633 ROT1
membrane protein (putative) YMR200W
8636_at 0.05890897 -0.00428433 -0.55664267 -0.55235833 PRS5 YOL061W
phosphoribosylpyrophosphate synthetase (ribose-phosphate pyroph
6603_at 0.24809104 -0.03631667 -0.58771733 -0.55140067 G1 cyclin PCL2 YDL127W
4105_at 0.11921353 -0.000776 -0.55195967 -0.55118367 HIS6 YIL020C
phosphoribosyl-5-amino-1-phosphoribosyl-4-imidazolecarboxiamide
4041_at 0.15313997 -0.02434667 -0.575405 -0.55105833 NA NA YIR020c-a
6553_at 0.22400788 -0.00313967 -0.55376967 -0.55063 ASM4
nuclear pore complex subunit YDL088C
5251_f_at 0.50024799 -0.16639867 -0.71672833 -0.55032967 PAU4 YGL261C
Part of 23-member seripauperin multigene family encoded mainly in
7160_at 0.29164632 -0.00595367 -0.55620133 -0.55024767 KTR3 YBR205W
alpha-1,2-mannosyltransferase (putative)
6835_at 0.33419386 -0.038177 -0.58804667 -0.54986967 BUD23 YCR047C
Protein involved in bud-site selection; diploid mutants display a rand
9415_at 0.18812925 -0.00298933 -0.55261033 -0.549621 PEP5
Zn-finger protein (putative) YMR231W
11377_at 0.29480055 -0.03855267 -0.587731 -0.54917833 FUN19
Protein of unknown function YAL034C
11017_at 0.35874852 -0.07601967 -0.624863 -0.54884333 SYS1 null mutation
Multicopy suppressor of ypt6 YJL004C
8811_at 0.14829143 -0.017794 -0.566154 -0.54836 NOG2
part of a pre-60S complex YNR053C
4080_at 0.05553477 -0.00229733 -0.55055567 -0.54825833 INP51 YIL002C
phosphatidylinositol 4,5-bisphosphate 5-phosphatase
3337_i_at 0.67254795 -0.52453 -1.072599 -0.548069 NA NA YERCSIGMA2
10052_at 0.54177537 -0.04329 -0.59055167 -0.54726167 SEC72 YLR292C
protein involved in membrane protein insertion into the ER
8348_i_at 0.57326328 -0.23758567 -0.784663 -0.54707733 Hypothetical ORFNA YOR192C
5695_at 0.4213822 -0.037792 -0.58405467 -0.54626267 activator of nitrogen-regulated genes
transcriptional GLN3 YER040W
4574_at 0.25367617 -0.00631833 -0.55224 -0.54592167 SBP1 YHL034C
single stranded nucleic acid binding protein
5988_at 0.42655293 -0.04576067 -0.591285 -0.54552433 NA
Jumonji Interacting Protein YDR474C
5616_at 0.24923393 -0.00377033 -0.54852867 -0.54475833 Sbh2p homologBH1S YER087C-A
5256_at 0.09403785 -0.00136933 -0.54609567 -0.54472633 MNT2
alpha-1,3-mannosyltransferase YGL257C
4832_at 0.40327162 -0.140571 -0.68482967 -0.54425867 ATF2
alcohol acetyltransferase YGR177C
7336_at 0.34471788 -0.04259933 -0.586707 -0.54410767 CHS3
chitin synthase 3 YBR023C
7248_at 0.20654452 -0.01774933 -0.561616 -0.54386667 CYC8 YBR112C
General transcriptional co-repressor, acts together with Tup1p; also
8697_at 0.24796015 -0.01671367 -0.56038867 -0.543675 BSC6 YOL137W
Transcript encoded by this ORF shows a high level of stop codon b
10769_at 0.59781498 -0.183572 -0.72709567 -0.54352367 SDS22
Glc7p regulatory subunit YKL193C
9139_at 0.12706494 -0.012726 -0.556246 -0.54352 GIS2 YNL255C
Putative zinc finger protein with similarity to human CNBP, propose
6849_at 0.25861757 -0.006106 -0.54944333 -0.54333733 CWH43 YCR017C
Putative sensor/transporter protein involved in cell wall biogenesis;
10044_at 0.04001326 -0.00235 -0.54529267 -0.54294267 NNT1 YLR285W
Putative nicotinamide N-methyltransferase
3299_f_at 0.33555473 -0.078701 -0.62156133 -0.54286033 NA YGL260W
Hypothetical ORF /// Hypothetical ORF
10578_at 0.15308072 -0.02307867 -0.56550333 -0.54242467 Hypothetical ORF NA YKR015C
10255_at 0.2195953 -0.001241 -0.543386 -0.542145 Hypothetical ORF NA YLR091W
10166_at 0.21191339 -0.02835 -0.56933167 -0.54098167 RPL37A (L43)YLR185W
(YL35)
ribosomal protein L37A /// RPL37B /// ribosomal protein L37B (L43
6800_at 0.12619242 -0.00118767 -0.54207433 -0.54088667 regulator
transcriptional RDS1 YCR106W
5257_at 0.24863179 -0.03428167 -0.575024 -0.54074233 ADH4 YGL256W
alcohol dehydrogenase isoenzyme IV
7304_at 0.18936005 -0.00280133 -0.54350767 -0.54070633 SEC18 YBR080C
ATPase|NSF|protein involved in protein transport between ER and
3387_f_at 0.18661549 -0.02404167 -0.56452467 -0.540483 NA YDRWTY1-4
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
9898_at 0.43943203 -0.081091 -0.62120233 -0.54011133 NA green fluorescent protein (GFP)-fusion
Protein of unknown function; YLR407W
11298_at 0.29364065 -0.061416 -0.600613 -0.539197 SWH1 YAR042W
Similar to mammalian oxysterol-binding protein
10274_at 0.29846591 -0.035715 -0.57367367 -0.53795867 Hypothetical ORF NA YLR065C
7040_g_at 0.30230686 -0.02939833 -0.56675533 -0.537357 NA NA YBR266C
10386_s_at 0.18342605 -0.00894233 -0.54608933 -0.537147 RPL8B YLL045C
ribosomal protein L8B (L4B) (rp6) (YL5)
10997_at 0.35892255 -0.01187233 -0.548713 -0.53684067 NA NA YJR020W
10075_at 0.72814072 -0.388001 -0.92449767 -0.53649667 NA NA YLR270W
5617_at 0.16784276 -0.00773333 -0.54417567 -0.53644233 DOT6 involved in
Protein of unknown function, YER088C telomeric gene silencing an
8344_at 0.40831128 -0.11911567 -0.654792 -0.53567633 MSB1 YOR188W
Protein involved in positive requlation of both 1,3-beta-glucan synth
7701_at 0.54327916 -0.13346533 -0.66862433 -0.535159 NA NA YPR038W
9202_at 0.21692833 -0.01755267 -0.552513 -0.53496033 chaperonin MDJ2 YNL328C
6365_at 0.18329105 -0.02827633 -0.562654 -0.53437767 FIN1 YDR130C
Basic protein with putative coiled-coil regions that comprises a filam
7947_at 0.16281863 -0.00320433 -0.53755567 -0.53435133 NIP7 YPL211W
Nip7p is required for 60S ribosome subunit biogenesis
8013_at 0.02966935 -0.000142 -0.53432733 -0.53418533 SUI3 YPL237W
translation initiation factor eIF-2 beta subunit
10376_at 0.46637126 -0.21016933 -0.744232 -0.53406267 Hypothetical ORF NA YLL054C
9496_at 0.08319386 -0.00241067 -0.53643033 -0.53401967 RPL13B
ribosomal protein L13B YMR142C
8004_at 0.13152589 -0.001103 -0.535104 -0.534001 rhomboid proteaseRBD2 YPL246C
9964_at 0.19831152 -0.01715333 -0.55108133 -0.533928 RPP0
ribosomal protein P0 (A0) (L10E) YLR340W
10297_at 0.24717123 -0.046489 -0.580378 -0.533889 STU2 YLR045C
Control of microtubule dynamics by Stu2p is essential for spindle or
7328_at 0.37116115 -0.01002733 -0.54307967 -0.53305233 MNN2 YBR015C
golgi alpha-1,2-mannosyltransferase (putative)
6831_at 0.17846165 -0.01990167 -0.552871 -0.53296933 Hypothetical ORF NA YCR043C
3780_f_at 0.31968657 -0.080155 -0.613007 -0.532852 NA YLRWTY1-2
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
7969_at 0.49898263 -0.13552067 -0.66778467 -0.532264 Hypothetical ORF NA YPL191C
10960_at 0.14999293 -0.00345067 -0.53546167 -0.532011 CDC11
10 nm filament component ofYJR076Cmother-bud neck|septin
5071_at 0.10934892 -0.00885967 -0.54057033 -0.53171067 The authentic, NA YGL080W
non-tagged protein was localized to the mitochondria
8691_at 0.23152552 -0.03965533 -0.571034 -0.53137867 RIB4 YOL143C
6,7-dimethyl-8-ribityllumazine synthase (DMRL synthase)
7973_at 0.29592796 -0.05702767 -0.58829867 -0.531271 FAS2
fatty acid synthase alpha subunitYPL231W
10879_at 0.33002352 -0.042604 -0.57360267 -0.53099867 alpha-mannosidaseMNS1 YJR131W
4465_at 0.22000731 -0.00350733 -0.53442067 -0.53091333 SAM35 YHR083W
Essential component of the sorting and assembly machinery (SAM
8365_at 0.46018587 -0.06350633 -0.59440533 -0.530899 PTP2
tyrosine phosphatase YOR208W
8641_at 0.30325394 -0.03843467 -0.56750467 -0.52907 TPT1
tRNA 2'-phosphotransferase YOL102C
4743_at 0.33022344 -0.000213 -0.52920433 -0.52899133 FOL2
GTP-cyclohydrolase I YGR267C
4466_at 0.23070727 -0.007317 -0.535872 -0.528555 STE12
transcription factor YHR084W
11101_at 0.41056389 -0.06800467 -0.59650433 -0.52849967 Zinc-regulatedZAP1 YJL056C
transcription factor, binds to zinc-responsive promot
5542_at 0.38434373 -0.001484 -0.528324 -0.52684 TFIID subunit SPT15 YER148W
6580_at 0.38823275 -0.06159867 -0.58842633 -0.52682767 PHO2 YDL106C
homeobox transcription factor|positive regulator of PHO5 and other
5003_at 0.20766076 -0.00189967 -0.52840033 -0.52650067 PUF
member of thePUF4 protein family YGL014W
8009_at 0.14604612 -0.01339433 -0.53976033 -0.526366 cofactor C
tubulin folding CIN2 YPL241C
8639_at 0.50296256 -0.18509467 -0.71081833 -0.52572367 NDJ1 YOL104C
Meiosis-specific telomere protein Ndj1p is required for bouquet form
4158_at 0.56259168 -0.27504233 -0.80034667 -0.52530433 NA NA YIL059C
7742_at 0.26946976 -0.022696 -0.54756933 -0.52487333 ARP7 YPR034W
actin related protein|chromatin remodeling Snf/Swi complex subunit
5004_at 0.33182189 -0.00727933 -0.532077 -0.52479767 PDR1 YGL013C
zinc finger transcription factor of the Zn(2)-Cys(6) binuclear cluster
6527_at 0.10132917 -0.00126 -0.52580567 -0.52454567 NA NA YDL071C
4813_at 0.38294882 -0.071163 -0.595146 -0.523983 NA YGR203W
Probable protein tyrosine phosphatase of the CDC25-like phosphat
7600_s_at 0.5625466 -0.02442533 -0.54812067 -0.52369533 TPO2 /// TPO3YPR156C
Polyamine transport protein /// Polyamine transport protein
7926_at 0.25336842 -0.03352767 -0.557221 -0.52369333 POS5 phosphorylates NADH; also phosphory
Mitochondrial NADH kinase, YPL188W
7067_at 0.3981386 -0.113709 -0.63700433 -0.52329533 is mediated by specific sulfate transporters SUL1 an
sulfate uptake SUL1 YBR294W
7696_at 0.207253 -0.011037 -0.53393933 -0.52290233 NA NA YPR076W
7375_at 0.53503701 -0.21872667 -0.741625 -0.52289833 PET9
ADP/ATP translocator YBL030C
9743_at 0.61060062 -0.08078467 -0.60347867 -0.522694 TSL1 YML100W
similar to TPS3 gene product|trehalose-6-phosphate synthase/phos
10354_at 0.21730475 -0.03862967 -0.56087533 -0.52224567 Hypothetical ORFNA YLL032C
4753_at 0.28266271 -0.010875 -0.53287233 -0.52199733 PHO81 YGR233C
Cyclin-dependent kinase (CDK) inhibitor, regulates Pho80p-Pho85p
8694_at 0.28123071 -0.03088667 -0.55260633 -0.52171967 aminotransferase
acetylornithineARG8 YOL140W
9457_g_at 0.70538813 -0.242186 -0.76388167 -0.52169567 HSP82 YMR186W
heat shock protein 90|mammalian Hsp90 homolog
4360_at 0.36425832 -0.032916 -0.55420067 -0.52128467 Hypothetical ORFNA YHR155W
8236_at 0.62464865 -0.113192 -0.63446633 -0.52127433 NA YOR302W
CPA1 uORF , Arginine attenuator peptide, regulates translation of t
4256_at 0.26282569 -0.02512533 -0.54576633 -0.520641 PAN6
pantothenate synthase YIL145C
10342_at 0.41384042 -0.023737 -0.54415233 -0.52041533 DNM1
similar to dynamin GTPase YLL001W
10688_at 0.34846202 -0.02452333 -0.54428033 -0.519757 CWP2
cell wall mannoprotein YKL097W-A
6235_at 0.20000626 -0.000317 -0.519788 -0.519471 HTB1 YDR224C
histone H2B (HTB1 and HTB2 code for nearly identical proteins)
8660_at 0.32912348 -0.04560233 -0.564542 -0.51893967 NA VPS68 YOL129W
3498_f_at 0.23270645 -0.00713267 -0.52566633 -0.51853367 NA YCLWTY2-1
Identified by expression profiling and mass spectrometry /// TyB Ga
4247_at 0.44384905 -0.106994 -0.62545667 -0.51846267 IMP2'
transcription factor YIL154C
6138_at 0.10304892 -0.00494567 -0.522986 -0.51804033 Hypothetical ORFNA YDR352W
7614_at 0.20125496 -0.00142667 -0.51880133 -0.51737467 ANT1
adenine nucleotide transporter YPR128C
11178_at 0.35236721 -0.07671867 -0.59407033 -0.51735167 Hypothetical ORFNA YJL160C
5378_at 0.33609504 -0.06674367 -0.58313933 -0.51639567 WWM1 YFL010C
WW domain containing protein interacting with Metacaspase (MCA
8675_at 0.41025124 -0.051798 -0.568016 -0.516218 SKM1 YOL113W
Serine/threonine protein kinase with similarity to Ste20p and Cla4p
9697_at 0.25121401 -0.04345833 -0.55949767 -0.51603933 NA NA YML058C-A
5221_at 0.31040921 -0.05856733 -0.57449867 -0.51593133 NA NA YGL204C
7117_at 0.159405 -0.00515867 -0.519635 -0.51447633 DUT1
dUTP pyrophosphatase YBR252W
10120_at 0.41528283 -0.088912 -0.60328233 -0.51437033 ECM22 YLR228C
Sterol regulatory element binding protein, regulates transcription of
10295_at 0.32025399 -0.02288 -0.53716267 -0.51428267 thioredoxin|ECTRX11.8.4.8 YLR043C
10025_at 0.21413881 -0.01290667 -0.52718867 -0.514282 CDC25 protein
adenylate cyclase regulatory YLR310C
7796_at 0.29687276 -0.016658 -0.529377 -0.512719 NA YPL047W
Probable 11kDa subunit of the SAGA histone acetyltransferase com
10103_at 0.50910495 -0.05213567 -0.56402433 -0.51188867 Hypothetical ORFNA YLR211C
4255_at 0.38529891 -0.044152 -0.55591367 -0.51176167 protein YIL146C
Non-essential ECM37 of unknown function
10286_at 0.49802173 -0.09534667 -0.605298 -0.50995133 SMF3 YLR034C
Nramp homolog|SMF1 and SMF2 homolog|metal transporter (putat
5668_at 0.052974 -0.00300033 -0.51292133 -0.509921 FCY2
purine-cytosine permease YER056C
8432_at 0.32908192 -0.02367033 -0.533504 -0.50983367 SFL1
transcription factor YOR140W
6339_at 0.45568658 -0.019317 -0.52873033 -0.50941333 KGD2 YDR148C
alpha-ketoglutarate dehydrogenase complex dihydrolipoyl transsuc
6290_at 0.15815744 -0.00558133 -0.514969 -0.50938767 cytosolic chaperonin Cct ring complex, related to Tcp
Subunit of the CCT6 YDR188W
4725_f_at 0.53713267 -0.183823 -0.69310633 -0.50928333 NA NA YGR122C-A
3279_f_at 0.2780899 -0.04250267 -0.551043 -0.50854033 NA YGRWTY1-1
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
10636_at 0.27535019 -0.00334333 -0.511768 -0.50842467 aldolase FBA1 YKL060C
10008_at 0.32753648 -0.065265 -0.57285033 -0.50758533 NA NA YLR338W
9530_at 0.18133347 -0.005358 -0.51227067 -0.50691267 Hypothetical ORFNA YMR088C
3916_s_at 0.23374658 -7.67E-05 -0.50680467 -0.50672797 NA YARCTY1-1
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
10789_f_at 0.23569015 -0.02277667 -0.52944433 -0.50666767 Hypothetical ORFNA YKL224C
3714_f_at 0.30835772 -0.032765 -0.53915967 -0.50639467 NA YMRCTY1-3
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
8619_at 0.49636701 -0.14069733 -0.64675267 -0.50605533 NA NA YOL079W
7847_at 0.48050979 -0.176172 -0.68177933 -0.50560733 NA YPL088W
Putative aryl alcohol dehydrogenase; transcription is activated by pa
6380_at 0.46585238 -0.09445433 -0.59967933 -0.505225 NA
integral membrane protein YDR100W
7814_at 0.26500754 -0.03658367 -0.541777 -0.50519333 GPI2 YPL076W
Protein involved in the synthesis of N-acetylglucosaminyl phosphati
8225_at 0.07909275 -0.00078433 -0.505977 -0.50519267 ALA1 YOR335C
Cytoplasmic alanyl-tRNA synthetase, required for protein synthesis
6227_at 0.31901984 -0.00889367 -0.51362033 -0.50472667 Hypothetical ORFNA YDR262W
4280_f_at 0.46440452 -0.12027867 -0.624731 -0.50445233 PAU4 YIL176C
Part of 23-member seripauperin multigene family encoded mainly in
10914_at 0.60868182 -0.167619 -0.671711 -0.504092 ATP2 YJR121W
F(1)F(0)-ATPase complex beta subunit
6393_at 0.5492956 -0.052338 -0.55641467 -0.50407667 DOA4
ubiquitin isopeptidase YDR069C
6613_at 0.14711163 -0.01755167 -0.52133567 -0.503784 NA NA YDL118W
8529_at 0.36131173 -0.054617 -0.557482 -0.502865 Hypothetical ORFNA YOR012W
8646_at 0.16553267 -0.02264567 -0.52530833 -0.50266267 WRS1
tryptophan-tRNA ligase YOL097C
8239_at 0.07144491 -0.00184033 -0.503643 -0.50180267 NA green fluorescent protein (GFP)-fusion
Protein of unknown function; YOR304C-A
6536_at 0.16016317 -0.00098733 -0.50256333 -0.501576 NA NA YDL062W
10514_at 0.64210923 -0.18137667 -0.68249733 -0.50112067 UTH1 YKR042W
Youth, involved in determining yeast longevity
6646_at 0.29995162 -0.00637267 -0.50653967 -0.500167 DLD1 YDL174C
D-lactate ferricytochrome c oxidoreductase
11002_at 0.23544754 -0.01197333 -0.51198933 -0.500016 Hypothetical ORFNA YJR024C
11071_at 0.32506865 -0.02115733 -0.52088767 -0.49973033 MHP1 YJL042W
microtubule-associated protein (MAP) (putative)
3613_i_at 0.48646036 -0.16794367 -0.667599 -0.49965533 NA NA YORCDELTA18
11320_at 0.15856795 -0.00207233 -0.50093433 -0.498862 EFB1 YAL003W
translation elongation factor EF-1beta
10944_at 0.19330679 -0.002332 -0.50062333 -0.49829133 CBF1
basic helix-loop-helix protein YJR060W
10351_at 0.3131752 -0.007204 -0.50547233 -0.49826833 GRC3 required for
Protein of unknown function, YLL035W cell growth and possibly in
5410_f_at 0.22832781 -0.00542867 -0.50299233 -0.49756367 PAU5 YFL020C
Part of 23-member seripauperin multigene family encoded mainly in
5749_at 0.53154733 -0.21508367 -0.71251467 -0.497431 Hypothetical ORFNA YEL041W
5746_at 0.37053403 -0.02252133 -0.51971033 -0.497189 MNN1
alpha-1,3-mannosyltransferase YER001W
7342_at 0.48702794 -0.15239467 -0.64934633 -0.49695167 cytidylyltransferase
phosphatidate CDS1 YBR029C
6328_at 0.41550028 -0.06053767 -0.55593367 -0.495396 HPR1 YDR138W
Subunit of THO/TREX, related complexes that couple transcription
3818_at 0.27200985 -0.04659033 -0.54154533 -0.494955 NA NA YKLCDELTA4
4356_at 0.33384011 -0.07772633 -0.572039 -0.49431267 Hypothetical ORFNA YHR151C
9894_at 0.3304123 -0.07146833 -0.565386 -0.49391767 Hypothetical ORFNA YLR445W
6674_at 0.46752454 -0.04286367 -0.53626133 -0.49339767 NA NA YDL189W
6449_at 0.44226822 -0.010485 -0.50357033 -0.49308533 NA green fluorescent protein (GFP)-fusion
Protein of unknown function; YDR034W-B
6152_at 0.26640803 -0.03638767 -0.529312 -0.49292433 asparaginase IASP1 YDR321W
6577_at 0.30145117 -0.047295 -0.54015 -0.492855 Hypothetical ORFNA YDL109C
10147_at 0.18321404 -0.002621 -0.49543833 -0.49281733 RPS31 YLR167W
ribosomal protein S31 (S37) (YS24)|also encodes a ubiquitin protei
10446_s_at 0.4164365 -0.03999733 -0.532785 -0.49278767 PTK1 YKL199C
Putative serine/threonine protein kinase
3911_at 0.37774514 -0.06225867 -0.554749 -0.49249033 NA NA YARCDELTA3
7197_at 0.34253005 -0.022005 -0.514468 -0.492463 APD1 required for
Protein of unknown function, YBR151W normal localization of actin
7645_at 0.29731096 -0.02127967 -0.51346033 -0.49218067 PIS1
phosphatidylinositol synthase YPR113W
8901_at 0.38605465 -0.019336 -0.51113467 -0.49179867 Hypothetical ORFNA YNL040W
9152_at 0.23595271 -0.00346967 -0.49444133 -0.49097167 SEC21 YNL287W
PEST sequence-containing protein|non-clathrin coat protein
11222_at 0.28934238 -0.04962767 -0.54048667 -0.490859 ReCYcling 1 RCY1 YJL204C
7413_at 0.1481244 -0.00417233 -0.49473967 -0.49056733 CTP synthase URA7 YBL039C
8409_at 0.11821272 -0.00646133 -0.496837 -0.49037567 YRR1
transcription factor YOR162C
6454_g_at 0.18398275 -0.00013433 -0.49016367 -0.49002933 ENA1 YDR038C
P-type ATPase Na+ pump|plasma membrane ATPase
5533_at 0.08313472 -0.00455767 -0.49458533 -0.49002767 Hypothetical ORFNA YER184C
4811_at 0.36237818 -0.06685 -0.55645367 -0.48960367 Hypothetical ORFNA YGR201C
6717_at 0.35028397 -0.01977767 -0.50880267 -0.489025 PHO13
p-nitrophenyl phosphatase YDL236W
5147_at 0.38877692 -0.003227 -0.49097733 -0.48775033 GPI10 YGL142C
Identified by expression profiling and mass spectrometry /// alpha 1
9306_at 0.41207326 -0.03409667 -0.521666 -0.48756933 ADE4 YMR300C
phosphoribosylpyrophosphate amidotransferase
7781_at 0.20720707 -0.013958 -0.50100533 -0.48704733 NA YPL017C
Putative S-adenosylmethionine-dependent methyltransferase of the
10690_at 0.51098199 -0.16925267 -0.65621833 -0.48696567 YJU2 YKL095W
Essential nuclear protein; putative spliceosomal component involve
6856_at 0.40455957 -0.03934233 -0.52572967 -0.48638733 Hypothetical ORFNA YCR023C
4568_at 0.19148874 -0.00935233 -0.495499 -0.48614667 ARN1 YHL040C
Transporter, member of the ARN family of transporters that specific
9055_at 0.29137259 -0.00375567 -0.48945467 -0.485699 SPS18
transcription factor YNL204C
5259_at 0.20942098 -0.00402033 -0.48967267 -0.48565233 FZF1 YGL254W
contains five zinc fingers|transcription factor
8932_at 0.34440861 -0.00720133 -0.492808 -0.48560667 POR1 /// POR2 YNL055C
porin|voltage-dependent anion channel (VDAC) /// voltage depende
6889_at 0.61985095 -0.05048533 -0.53608867 -0.48560333 NA NA YCR013C
8616_at 0.49610008 -0.02864967 -0.51364967 -0.485 ATG19 YOL082W
Receptor for biosynthetic cytoplasm to vacuole targeting
9727_at 0.23094634 -0.00724533 -0.49192167 -0.48467633 calcium and lipid binding domains; localized to the b
Contains threeTCB3 YML072C
4396_at 0.34380203 -0.05514867 -0.53971467 -0.484566 CRP1
Cruciform DNA binding protein YHR146W
4782_at 0.27130291 -0.020887 -0.505229 -0.484342 GPI1 YGR216C
Membrane protein involved in the synthesis of N-acetylglucosaminy
10642_at 0.21469481 -0.004676 -0.488712 -0.484036 DEF1
Rad26-interacting protein YKL054C
4339_at 0.06223495 -0.00053433 -0.48448333 -0.483949 OYE2
NAPDH dehydrogenase (old YHR179Wyellow enzyme), isoform 2
4094_at 0.36292978 -0.05917433 -0.54261133 -0.483437 GAT4 YIR013C
Protein containing GATA family zinc finger motifs
7762_at 0.22149528 -0.008976 -0.49206667 -0.48309067 RPA135
RNA polymerase I subunit YPR010C
8410_at 0.53018724 -0.02085133 -0.503455 -0.48260367 DDP1 YOR163W
diadenosine and diphosphoinositol polyphosphate phosphohydrola
6624_at 0.18380976 -0.01407867 -0.49629233 -0.48221367 NA NA YDL151C
4496_at 0.48228898 -0.118242 -0.600115 -0.481873 Hypothetical ORFNA YHR022C
3357_at 0.4605894 -0.15915133 -0.64087333 -0.481722 NA NA YDR544C
10853_at 0.36866223 -0.04112767 -0.521605 -0.48047733 DAN4
cell wall mannoprotein YJR151C
8855_at 0.58965148 -0.08260733 -0.562952 -0.48034467 ATG3 YNR007C
Protein involved in autophagocytosis during starvation
9473_at 0.40751768 -0.04116233 -0.521347 -0.48018467 ER membraneYMR161W unknown function, similar to
Tail-anchored HLJ1 protein of
6394_at 0.53782931 -0.032986 -0.51281933 -0.47983333 The authentic, NA YDR070C
non-tagged protein was localized to the mitochondria
6264_at 0.38231361 -0.04276367 -0.522508 -0.47974433 URS1-binding YDR207C
C6 zinc finger UME6 protein
4395_at 0.37878245 -0.09409033 -0.57351633 -0.479426 NA YHR145C
Identified by expression profiling and mass spectrometry
9028_at 0.24937751 -0.01221667 -0.491342 -0.47912533 UBP10 YNL186W
Ubiquitin-specific protease that deubiquitinates ubiquitin-protein mo
10323_at 0.29995029 -0.015327 -0.49427067 -0.47894367 AAT2
aspartate aminotransferase YLR027C
5547_at 0.16375747 -0.016344 -0.49470333 -0.47835933 PET122 YER153C
translational activator of cytochrome C oxidase subunit III
8990_at 0.28700844 -0.03540033 -0.51354467 -0.47814433 KRE33
Killer toxin REsistant YNL132W
9673_at 0.4379013 -0.06651 -0.544533 -0.478023 AMP deaminase AMD1 YML035C
10608_at 0.43187075 -0.095425 -0.57333667 -0.47791167 NA NA YKL044W
4893_at 0.34640267 -0.03341867 -0.510992 -0.47757333 NOP7 rRNA processing and 60S ribosomal s
Nucleolar protein involved in YGR103W
3517_f_at 0.2843705 -0.03586733 -0.513078 -0.47721067 NA YBRWTY1-2
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
6933_at 0.40734756 -0.030159 -0.507197 -0.477038 PDI1
protein disulfide isomerase YCL043C
6721_at 0.4120488 -0.04259767 -0.51961433 -0.47701667 3.6 kDa protein OST4 YDL232W
10157_at 0.61711872 -0.079016 -0.554981 -0.475965 Hypothetical ORFNA YLR177W
4477_at 0.41537003 -0.097453 -0.57313733 -0.47568433 Hypothetical ORFNA YHR048W
5579_at 0.52205159 -0.12581633 -0.60122033 -0.475404 Hypothetical ORFNA YER139C
3659_f_at 0.28334146 -0.01985833 -0.49476033 -0.474902 NA YNLWTY1-2
Identified by expression profiling and mass spectrometry /// TyA Ga
10641_at 0.16556083 -0.00988467 -0.48461733 -0.47473267 OAR1 YKL055C
3-oxoacyl-[acyl-carrier-protein] reductase
9133_at 0.23091233 -0.00414333 -0.47866133 -0.474518 ORC5 YNL261W
ATP-binding site (putative)|origin recognition complex fifth largest s
5218_at 0.45171439 -0.028837 -0.503265 -0.474428 heterodimeric YGL207W
Subunit of the SPT16 FACT complex (Spt16p-Pob3p), facilita
4986_at 0.2922802 -0.00662133 -0.48087 -0.47424867 U1 snRNP proteinSNU71 YGR013W
7552_at 0.21513857 -0.02264833 -0.496206 -0.47355767 activator of the bZIP family, required for transcription
TranscriptionalARR1 YPR199C
9909_at 0.22987853 -0.01055767 -0.483985 -0.47342733 the Paf1 YLR418C
Substituent of CDC73 complex together with RNA polymerase II, P
5049_at 0.21694379 -0.02628367 -0.49957167 -0.473288 RAD6
ubiquitin-conjugating enzyme YGL058W
3344_f_at 0.26151778 -0.014893 -0.488053 -0.47316 NA NA YERCDELTA15
10509_at 0.35872819 -0.049423 -0.52167767 -0.47225467 HBS1 YKR084C
GTP binding protein with sequence similarity to the elongation facto
7672_at 0.43406421 -0.084375 -0.556623 -0.472248 NA NA YPR096C
7624_at 0.38657747 -0.09406967 -0.565871 -0.47180133 NA NA YPR136C
4436_at 0.24809531 -0.031455 -0.502953 -0.471498 TRA1 YHR099W
ATM/Mec1/TOR1/TOR2-related|NuA4 complex component
5225_at 0.07097824 -0.001432 -0.47227733 -0.47084533 EMP24
type I transmembrane protein YGL200C
4096_at 0.23612107 -0.021638 -0.49220967 -0.47057167 RPR2
Nuclear RNase P subunit YIR015W
10121_at 0.40659307 -0.09026367 -0.56082967 -0.470566 of Ras-like proteins
Rho subfamilyCDC42 YLR229C
6433_at 0.17580614 -0.00176567 -0.472124 -0.47035833 RPS13 YDR064W
ribosomal protein S13 (S27a) (YS15)
8514_at 0.23793419 -0.03368533 -0.50293767 -0.46925233 NA NA YOR041C
8789_s_at 0.11190142 -0.00594467 -0.47485133 -0.46890667 LAP3 YNL239W
aminopeptidase of cysteine protease family
10174_at 0.4619371 -0.003072 -0.47144433 -0.46837233 ACF2 YLR144C
Intracellular beta-1,3-endoglucanase, expression is induced during
5072_at 0.36271521 -0.020451 -0.488143 -0.467692 Hypothetical ORFNA YGL079W
3207_i_at 0.53009432 -0.087991 -0.55564 -0.467649 NA NA YHRCDELTA6
6126_at 0.38919953 -0.099023 -0.56661467 -0.46759167 NA NA YDR340W
11295_r_at 0.48277654 -0.04646567 -0.51390933 -0.46744367 MST27 bindng motifs
protein with COPI and COPIIYAR033W
4435_at 0.36108364 -0.02208733 -0.48899767 -0.46691033 Member of theSFB3 YHR098C
Sec24p family; forms a complex, with Sec23p, that is
9420_i_at 0.3769202 -0.03034367 -0.49657933 -0.46623567 RPL36A (YL39)
ribosomal protein L36A (L39)YMR194W
6400_at 0.49557659 -0.04454133 -0.510726 -0.46618467 RAD55 Rad51p and
RecA homolog|interacts with YDR076W Rad57p by two-hybrid an
4393_at 0.13725224 -0.000277 -0.46596067 -0.46568367 RPC10
RNA polymerase II subunit YHR143W-A
9377_at 0.41117966 -0.08496933 -0.549944 -0.46497467 essential glycosylphosphatidylinositol (GPI)-anchore
Mannosidase, DFG5 YMR238W
7946_at 0.34738441 -0.05480067 -0.51955633 -0.46475567 MEX67
a poly(A)+RNA binding protein YPL169C
9528_at 0.18814318 -0.01188767 -0.476606 -0.46471833 POM152 YMR129W
membrane glycoprotein|nuclear pore complex subunit
4499_at 0.36909387 -0.062073 -0.52670267 -0.46462967 THR1
homoserine kinase YHR025W
8411_at 0.33620744 -0.05342433 -0.518043 -0.46461867 Hypothetical ORFNA YOR164C
6638_at 0.27646296 -0.00130833 -0.46592467 -0.46461633 ARF2
ADP-ribosylation factor 2 YDL137W
9592_at 0.1043014 -0.002524 -0.466804 -0.46428 acetyltransferase
acetylornithineECM40 YMR062C
10971_at 0.39731162 -0.02818667 -0.492404 -0.46421733 NUP85
nuclear pore complex subunit YJR042W
9681_at 0.30310958 -0.00558567 -0.46921767 -0.463632 USA1 YML029W
pre-mRNA splicing factor (putative)
8695_at 0.15908936 -0.010473 -0.474092 -0.463619 CDC33
mRNA cap binding protein eIF-4E YOL139C
7376_at 0.65864876 -0.32207333 -0.78438033 -0.462307 Hypothetical ORFNA YBL029W
8330_at 0.26069394 -0.01539367 -0.477415 -0.46202133 STE13
dipeptidyl aminopeptidase YOR219C
11165_at 0.22623504 -0.00404967 -0.46606967 -0.46202 URA2 YJL130C
aspartate transcarbamylase|glutamine amidotransferase|carbamoy
9345_at 0.38704158 -0.04536633 -0.507287 -0.46192067 NA NA YMR294W-A
10099_at 0.62779699 -0.05631467 -0.517901 -0.46158633 SYM1 YLR251W
Protein homologous to mammalian peroxisomal membrane protein
4505_at 0.32131612 -0.000178 -0.46157933 -0.46140133 DNA helicase RRM3 YHR031C
3424_f_at 0.27383581 -0.03 -0.491282 -0.461282 NA YDRCTY1-3
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
5193_at 0.6790577 -0.29093633 -0.752197 -0.46126067 COX4
cytochrome c oxidase subunit IV YGL187C
7665_at 0.30235561 -0.04736233 -0.50842333 -0.461061 Hypothetical ORFNA YPR089W
3658_f_at 0.27168862 -0.03176233 -0.49272367 -0.46096133 NA YNLWTY1-2
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
9381_s_at 0.13489987 -0.002505 -0.46312467 -0.46061967 RPL20A
ribosomal protein L20A (L18A) YMR242C
10934_at 0.18415796 -0.00820367 -0.468533 -0.46032933 SFC1 protein
succinate-fumarate transportYJR095W
8861_at 0.12258029 -0.006869 -0.46419867 -0.45732967 PHO91 YNR013C
Low-affinity phosphate transporter; deletion of pho84, pho87, pho89
4762_at 0.45398746 -0.13862167 -0.59572933 -0.45710767 NA NA YGR242W
6750_i_at 0.41030766 -0.102005 -0.55846767 -0.45646267 NA YCL075W
Psuedogene: encodes fragment of Ty Pol protein
7203_at 0.58268881 -0.1736 -0.62996367 -0.45636367 ICS2 null mutation does not confer any obvi
Protein of unknown function; YBR157C
3619_f_at 0.3568135 -0.01526967 -0.471609 -0.45633933 NA YORCTY2-1
Identified by expression profiling and mass spectrometry /// TyB Ga
5584_at 0.39819425 -0.01819267 -0.47438633 -0.45619367 UBP5 YER144C
ubiquitin-specific protease (putative)
11232_at 0.45144644 -0.12787433 -0.58347267 -0.45559833 CDC6
pre-initiation complex componentYJL194W
3486_at 0.47672118 -0.122281 -0.57784867 -0.45556767 NA YCLWTY5-1
Psuedogene: encodes fragment of Ty Pol protein /// Psuedogene: e
7266_at 0.3179639 -0.043686 -0.498905 -0.455219 POL30 YBR088C
Proliferating Cell Nuclear Antigen (PCNA)
8403_at 0.36325139 -0.000518 -0.45556 -0.455042 NFI1
chromatin protein YOR156C
5604_at 0.45338095 -0.12278267 -0.57777967 -0.454997 NA NA YER119C-A
3394_f_at 0.39272346 -0.066653 -0.52127833 -0.45462533 NA YDRWTY1-5
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
6342_at 0.55096623 -0.10521533 -0.559501 -0.45428567 CTH1 YDR151C
CCCH zinc finger protein family that has two or more repeats of a n
7101_at 0.14622094 -0.00659667 -0.46084767 -0.454251 SSH1 YBR283C
SEC61 homolog involved in co-translational pathway of protein tran
10529_i_at 0.22601354 -0.01271233 -0.46660367 -0.45389133 RPS21A YKR057W
ribosomal protein S21A (S26A) (YS25)
6693_at 0.53129035 -0.01741967 -0.471059 -0.45363933 GDH2 YDL215C
NAD-dependent glutamate dehydrogenase
7794_at 0.26108971 -0.03422367 -0.48764633 -0.45342267 DIG1
MAP kinase-associated protein YPL049C
7962_s_at 0.15998181 -0.01009467 -0.46344633 -0.45335167 RPL7B YPL198W
ribosomal protein L7B (L6B) (rp11) (YL8)
6875_at 0.32864066 -0.00875067 -0.46094767 -0.452197 PGS1 YCL004W
17 kDa phosphatidylglycerolphosphate synthase
7986_at 0.1008684 -0.00051467 -0.45219367 -0.451679 SAR1
ARF family|GTP-binding protein YPL218W
5970_at 0.40339323 -0.00018267 -0.45178333 -0.45160067 PLM2
Plasmid Maintenance YDR501W
7689_at 0.32854397 -0.034957 -0.48650767 -0.45155067 SPE3 YPR069C
putrescine aminopropyltransferase (spermidine synthase)
5732_at 0.1491958 -0.01037 -0.46161167 -0.45124167 conserved protein of unknown function, plays a role i
Non-essential EDC3 YEL015W
9762_at 0.19853361 -0.00750967 -0.45869167 -0.451182 PHO84
inorganic phosphate transporter YML123C
3700_f_at 0.28850193 -0.02866133 -0.4798 -0.45113867 NA YMLWTY1-1
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
8723_at 0.42580033 -0.04340433 -0.49391633 -0.450512 ENB1
enterobactin transporter YOL158C
7845_s_at 0.09873611 -0.00308 -0.45286867 -0.44978867 RPS6A YPL090C
ribosomal protein S6A (S10A) (rp9) (YS4)
10950_at 0.27835443 -0.00285367 -0.45248333 -0.44962967 TOR1 YJR066W
phosphatidylinositol kinase homolog
7619_s_at 0.32413209 -0.01032133 -0.45985 -0.44952867 RPS23B YPR132W
ribosomal protein S23B (S28B) (rp37) (YS14)
6762_s_at 0.52955533 -0.04604767 -0.49556067 -0.449513 KCC4 YCL024W
S. pombe Nim1 homolog|protein kinase
3222_f_at 0.24983334 -0.00869167 -0.45800333 -0.44931167 NA YGRWTY2-2
Identified by expression profiling and mass spectrometry /// TyB Ga
10606_at 0.20085664 -0.00699 -0.45586067 -0.44887067 GPI-anchored YKL046C protein required for cell wa
Mannosidase, DCW1 membrane
8441_at 0.47859682 -0.073068 -0.52180333 -0.44873533 [PSI+] inductionPIN2 YOR104W
5226_at 0.59313262 -0.23089267 -0.67962667 -0.448734 NA NA YGL199C
6885_at 0.35666694 -0.01767467 -0.465904 -0.44822933 SAT4 YCR008W
Protein with similarity to Npr1p protein kinase
6306_at 0.23654798 -0.00076633 -0.44883767 -0.44807133 Component of SSY1 YDR160W
the SPS plasma membrane amino acid sensor syste
6289_at 0.3787543 -0.07609567 -0.52412467 -0.448029 NA NA YDR187C
6301_at 0.4366866 -0.05254367 -0.50019567 -0.447652 CPR1 YDR155C
cyclophilin|peptidyl-prolyl cis-trans isomerase (PPIase)
8537_at 0.36769044 -0.003556 -0.45109967 -0.44754367 Hypothetical ORFNA YOR019W
7842_at 0.1844914 -0.00752367 -0.45504267 -0.447519 NOG1 YPL093W
homologs identified in human and Trypanosoma brucei|nucleolar G
4982_at 0.27748011 -0.00965867 -0.45710767 -0.447449 NMA2 YGR010W
nicotinamide/nicotinic acid mononucleotide adenylyltransferase
8805_at 0.56306413 -0.10588467 -0.553233 -0.44734833 NA YNR047W
Putative protein kinase that, when overexpressed, interferes with ph
5168_at 0.29157758 -0.03360733 -0.480927 -0.44731967 Ca2+ ATPase PMR1 YGL167C
10887_at 0.1246877 -0.00900033 -0.45618133 -0.447181 HOM6 YJR139C
L-homoserine:NADP oxidoreductase|homoserine dehydrogenase
10721_at 0.47972883 -0.00399767 -0.450275 -0.44627733 GPM1
phosphoglycerate mutase YKL152C
9466_at 0.28198711 -0.02986733 -0.475964 -0.44609667 Hypothetical ORFNA YMR155W
8168_at 0.15990595 -0.00103433 -0.447016 -0.44598167 RPS12
ribosomal protein S12 YOR369C
5203_at 0.4534972 -0.033661 -0.47890733 -0.44524633 protein, YGL178W
mRNA bindingMPT5 specifically binds to mRNAs encoding chrom
9879_f_at 0.18260658 -0.00966267 -0.454785 -0.44512233 IMD3
IMP dehydrogenase homolog YLR432W
10199_at 0.27945112 -0.03533367 -0.480244 -0.44491033 Hypothetical ORFNA YLR125W
9541_at 0.28892223 -0.00094233 -0.44562933 -0.444687 Hypothetical ORFNA YMR099C
5600_at 0.33742138 -0.005609 -0.45024167 -0.44463267 SPR6
sporulation-specific protein YER115C
5920_at 0.31197254 -0.02882367 -0.47316833 -0.44434467 Hypothetical ORFNA YDR541C
10714_at 0.25772372 -0.00336467 -0.44761 -0.44424533 NA NA YKL159C
8474_at 0.43010485 -0.00899467 -0.45253167 -0.443537 protein YOR092W
Non-essential ECM3 of unknown function
4867_at 0.25596332 -0.027849 -0.47084433 -0.44299533 Hypothetical ORFNA YGR122W
9954_at 0.23997583 -0.02547367 -0.468128 -0.44265433 VID22
Vacuole import and degradation YLR373C
11297_at 0.2865744 -0.03525667 -0.477699 -0.44244233 YAT1
carnitine acetyltransferase YAR035W
10898_at 0.19096219 -0.01326933 -0.45554867 -0.44227933 adenosine kinaseADO1 YJR105W
4358_at 0.35559711 -0.01795067 -0.460226 -0.44227533 SPO16 required for
Protein of unknown function, YHR153C spore formation
5525_at 0.36673912 -0.00132833 -0.44336067 -0.44203233 BMH1 YER177W
member of conserved eukaryotic 14-3-3 gene family
5160_at 0.32210085 -0.02286933 -0.46443833 -0.441569 a complex YGL128C
Component of CWC23 containing Cef1p, putatively involved in pr
8996_at 0.27849111 -0.00970867 -0.45053833 -0.44082967 SPC98
gamma-tubulin complex componentYNL126W
11386_at 0.6005265 -0.18327 -0.62354267 -0.44027267 GDH3 YAL062W
NADP-linked glutamate dehydrogenase
7485_at 0.61226796 -0.08798933 -0.52803067 -0.44004133 protein YBL101C
Non-essential ECM21 of unknown function; promoter contains sever
11024_at 0.32513209 -0.00854067 -0.44855267 -0.440012 MPP10
U3 snoRNP protein YJR002W
5815_at 0.30705182 -0.04269567 -0.48264033 -0.43994467 NA NA YEL067C
10358_at 0.35921884 -0.022374 -0.462146 -0.439772 TPO1 YLL028W
plasma membrane-bound exporter, involved in the detoxification of
9452_at 0.12198085 -0.007065 -0.44679533 -0.43973033 repressor withYMR182C zinc fingers (putative)
transcriptional RGM1 proline-rich
7572_at 0.17817663 -0.005787 -0.445464 -0.439677 NA green fluorescent protein (GFP)-fusion
Protein of unknown function; YPR174C
8700_at 0.37355362 -0.05259733 -0.49226867 -0.43967133 NA NA YOL134C
3270_f_at 0.45505831 -0.03647267 -0.475265 -0.43879233 HAP1 YGLWDELTA9
zinc finger transcription factor of the Zn(2)-Cys(6) binuclear cluster
8965_at 0.31436847 -0.03000567 -0.46821167 -0.438206 DBP2 YNL112W
ATP dependent RNA helicase|dead box protein
4569_at 0.33853577 -0.00573733 -0.44375033 -0.438013 Hypothetical ORFNA YHL039W
3421_f_at 0.15940188 -0.00853033 -0.446406 -0.43787567 NA YDRWTY2-3
Identified by expression profiling and mass spectrometry /// TyB Ga
7368_i_at 0.36640627 -0.02155767 -0.459219 -0.43766133 HHT2
histone H3 (HHT1 and HHT2YBR010Wcode for identical proteins)
9652_at 0.31475166 -0.005674 -0.44333233 -0.43765833 NA NA YML013C-A
8354_at 0.10775856 -0.003641 -0.44126367 -0.43762267 MCA1
putative cysteine protease YOR197W
6277_at 0.49799052 -0.151019 -0.588597 -0.437578 NA NA YDR220C
4975_at 0.48489054 -0.032661 -0.47016033 -0.43749933 SCM4 YGR049W
Protein that suppresses ts allele of CDC4 when overexpressed
9320_at 0.20475843 -0.019698 -0.45702967 -0.43733167 ELP6 protein subunit
RNA polymerase II ElongatorYMR312W
8495_at 0.32184434 -0.02889433 -0.46616633 -0.437272 ALG8
glycosyl transferase YOR067C
9610_at 0.55954958 -0.21562033 -0.652874 -0.43725367 HOF1 YMR032W
Bud neck-localized, SH3 domain-containing protein required for cyt
4471_at 0.18117389 -0.001641 -0.43843867 -0.43679767 NCP1
NADP-cytochrome P450 reductase YHR042W
8693_at 0.42338314 -0.02880533 -0.46507067 -0.43626533 PPM2 YOL141W
PPM1 homolog|carboxy methyl transferase
8215_at 0.26415073 -0.02660567 -0.462582 -0.43597633 NA NA YOR325W
9985_at 0.40788337 -0.01574733 -0.45146367 -0.43571633 NA regulation
Protein involved in cell cycle YLR361C
10674_at 0.18600129 -0.016595 -0.45208067 -0.43548567 KTI12
Elongator associated protein YKL110C
10793_at 0.31368454 -0.00894933 -0.44399767 -0.43504833 COS9 member of
Protein of unknown function, YKL219W a family of conserved, ofte
8778_at 0.2120909 -0.01695133 -0.450787 -0.43383567 Hypothetical ORFNA YNR066C
6530_at 0.31314441 -0.02999467 -0.463782 -0.43378733 NA NA YDL068W
9056_at 0.19733515 -0.00336933 -0.43657633 -0.433207 NA NA YNL203C
4856_at 0.23839836 -0.006979 -0.44013367 -0.43315467 CYS4
cystathionine beta-synthase YGR155W
5087_at 0.2809438 -0.02468067 -0.45767567 -0.432995 ALG2
glycosyltransferase YGL065C
3607_f_at 0.29144936 -0.02833533 -0.46131767 -0.43298233 NA YORWTY1-2
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
6805_at 0.50316764 -0.04628433 -0.47884067 -0.43255633 BUD31 YCR063W
Protein involved in bud-site selection; diploid mutants display a rand
9777_at 0.69503297 -0.21245133 -0.64467333 -0.432222 COQ5
C-methyltransferase (putative) YML110C
8462_at 0.29243535 -0.03479067 -0.46689067 -0.4321 NA localizes to
Protein of unknown function, YOR081C lipid particles; potential Cd
6432_at 0.19235395 -0.00139833 -0.43337633 -0.431978 Hypothetical ORFNA YDR063W
4438_at 0.33112966 -0.05087967 -0.48273833 -0.43185867 or big
bad in glucoseBIG1 cells YHR101C
4089_at 0.26479924 -0.02332433 -0.45506233 -0.431738 PRI1
DNA primase p48 polypeptide YIR008C
9599_at 0.35288063 -0.00959367 -0.44103233 -0.43143867 QRI8
ubiquitin-conjugating enzyme YMR022W
5077_at 0.45834319 -0.120624 -0.55154167 -0.43091767 MPS2 localized
Essential membrane protein YGL075Cat the nuclear envelope and s
7391_at 0.26824045 -0.027062 -0.45781533 -0.43075333 FUS3 YBL016W
CDC28/cdc2 related protein kinase
6520_at 0.17984863 -0.008249 -0.43872433 -0.43047533 NA NA YDL032W
4895_at 0.17772866 -0.01119133 -0.44156333 -0.430372 VMA21 YGR105W
Protein involved in vacuolar H-ATPase assembly or function. Requi
7431_at 0.31367869 -0.027566 -0.45781733 -0.43025133 NA NA YBL065W
6415_at 0.38728539 -0.05655567 -0.48658967 -0.430034 BAP3
valine transporter YDR046C
5141_at 0.26194138 -0.02871133 -0.458021 -0.42930967 ARO2
chorismate synthase YGL148W
7187_at 0.32487872 -0.03617033 -0.46486367 -0.42869333 PCH2
ATPase (putative) YBR186W
6044_at 0.37768182 -0.07195367 -0.50039667 -0.428443 NA YDR437W
Protein required for cell viability
10614_at 0.13356324 -0.003098 -0.430841 -0.427743 activator|transcriptional repressor
transcriptional RGT1 YKL038W
7554_at 0.21461205 -0.01548333 -0.44320667 -0.42772333 ARR3 YPR201W
Arsenite transporter of the plasma membrane, required for resistan
8303_at 0.405099 -0.04326667 -0.470672 -0.42740533 HES1 YOR237W
similar to human oxysterol binding protein
7975_at 0.24382507 -0.020771 -0.447858 -0.427087 Hypothetical ORFNA YPL229W
5210_at 0.47451333 -0.06496367 -0.491692 -0.42672833 NA NA YGL215W
4179_at 0.56188926 -0.05365833 -0.47969533 -0.426037 Hypothetical ORFNA YIL087C
10765_at 0.31231152 -0.00943967 -0.43528267 -0.425843 AAA ATPase PEX1 YKL197C
8824_at 0.14317409 -0.00632033 -0.43132333 -0.425003 Hypothetical ORFNA YNR021W
11095_at 0.3582509 -0.00061633 -0.425588 -0.42497167 LAS21 YJL062W
major facilitator superfamily (putative)|membrane protein (putative)
8939_at 0.37728039 -0.04451933 -0.46947267 -0.42495333 YPT53
GTP-binding protein|rab family YNL093W
10380_at 0.26347643 -0.00654633 -0.43138967 -0.42484333 COF1 YLL050C
actin binding and severing protein|cofilin
10515_at 0.1811711 -0.00455967 -0.429275 -0.42471533 Hypothetical ORFNA YKR043C
3316_f_at 0.53766638 -0.007697 -0.43220633 -0.42450933 NA NA YERCSIGMA4
4735_at 0.21598082 -0.018696 -0.44311833 -0.42442233 NA NA YGR259C
7927_at 0.36100302 -0.04197767 -0.46627867 -0.424301 MF(ALPHA)1 YPL187W
mating factor alpha
4062_at 0.33540463 -0.02852567 -0.45167633 -0.42315067 YVH1 induced
protein tyrosine phosphataseYIR026C by nitrogen starvation
8290_at 0.34737857 -0.043791 -0.46663 -0.422839 PAC1 YOR269W
Protein involved in nuclear migration, part of the dynein/dynactin pa
9593_at 0.25268801 -0.02584633 -0.44860167 -0.42275533 RIM9 YMR063W
Protein required for IME1 expression
4861_at 0.06226337 -0.00049 -0.422642 -0.422152 NA NA YGR160W
9857_at 0.17207053 -0.00487233 -0.42684567 -0.42197333 nuclear protein RIF2 YLR453C
6898_at 0.50025313 -0.071154 -0.49289833 -0.42174433 LAs17 BindingLSB5protein YCL034W
8622_at 0.54659021 -0.06257067 -0.48424 -0.42166933 NatB N-terminal acetyltransferase, which catalyzes a
Subunit of the MDM20 YOL076W
3320_i_at 0.56262215 -0.110846 -0.53245333 -0.42160733 NA NA YERWDELTA25
5363_at 0.15617882 -0.00328233 -0.42475133 -0.421469 ATG18 YFR021W
Phosphatidylinositol 3,5-bisphosphate-binding protein of the vacuol
8676_at 0.38699206 -0.031109 -0.45247067 -0.42136167 MSB4 the Ras superfamily that acts primarily
GTPase-activating protein of YOL112W
8151_s_at 0.36068767 -0.02594667 -0.446923 -0.42097633 CDC21
thymidylate synthase YOR074C
6215_at 0.34085825 -0.017641 -0.43857633 -0.42093533 NA NA YDR250C
5624_at 0.30760801 -0.001294 -0.42197667 -0.42068267 Hypothetical ORFNA YER093C-A
9928_at 0.23241264 -0.01518333 -0.435625 -0.42044167 ATP10 YLR393W
Mitochondrial inner membrane protein required for assembly of the
4404_at 0.3141467 -0.02214567 -0.442145 -0.41999933 UBA4 before its
Protein that activates Urm1p YHR111Wconjugation to proteins (urm
5178_at 0.62301731 -0.20671167 -0.62652533 -0.41981367 NA YGL157W
Oxidoreductase, catalyzes NADPH-dependent reduction of the bicy
5254_i_at 0.56242386 -0.220689 -0.63981567 -0.41912667 Hypothetical ORFNA YGL258W
3740_f_at 0.28570315 -0.028201 -0.44642067 -0.41821967 NA YLRWTY1-3
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
7930_at 0.21488056 -0.01427833 -0.432463 -0.41818467 Hypothetical ORFNA YPL184C
10200_at 0.46650476 -0.010952 -0.42854267 -0.41759067 Hypothetical ORFNA YLR126C
9616_at 0.58428464 -0.182309 -0.599642 -0.417333 copper chaperoneCCS1 YMR038C
8563_at 0.29593487 -0.02526033 -0.442214 -0.41695367 ALG6
glucosyltransferase YOR002W
6764_g_at 0.35285426 -0.02086167 -0.43763567 -0.416774 STP22
putative ubiquitin receptor YCL008C
3512_f_at 0.28735534 -0.02075733 -0.43737633 -0.416619 NA YBLWTY1-1
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
7226_at 0.12575551 -0.00082567 -0.416345 -0.41551933 kinase
Cdc28 protein CKS1 subunitYBR135W
4099_at 0.113767 -0.00246567 -0.417136 -0.41467033 YAP5 YIR018W
bZIP (basic-leucine zipper) protein|transcription factor
9921_at 0.22702499 -0.00883933 -0.42269533 -0.413856 VAC14
Activator of Fab1p YLR386W
6057_at 0.70860668 -0.17179667 -0.585559 -0.41376233 PDR15 YDR406W
multidrug resistance transporter (putative)
4713_at 0.17120955 -0.005308 -0.418501 -0.413193 Hypothetical ORFNA YGR283C
4723_f_at 0.54467882 -0.10828033 -0.52133133 -0.413051 PAU4 YGR294W
Part of 23-member seripauperin multigene family encoded mainly in
11375_at 0.29992172 -0.03265967 -0.44558767 -0.412928 NA NA YAL035C-A
4773_at 0.44378629 -0.018978 -0.431474 -0.412496 PUP2
proteasome subunit YGR253C
5559_at 0.19893643 -0.008836 -0.42110667 -0.41227067 DNF1 translocase
Potential aminophospholipid YER166W
9096_at 0.31021198 -0.03031033 -0.44220667 -0.41189633 TEX1 component
transcription export complex YNL253W
4332_at 0.14862227 -0.00379867 -0.41535 -0.41155133 NA NA YHR131w-a
11373_at 0.4057173 -0.00284933 -0.41402267 -0.41117333 NA YAL036C
GTPase, interacts with ribosomes, has similarity to Xenopus GTP-b
6653_at 0.32507898 -0.02266367 -0.43342067 -0.410757 NRP1 rich in asparagine residues
Protein of unknown function, YDL167C
8483_at 0.21185084 -0.01205267 -0.422512 -0.41045933 NA NA YOR055W
7279_at 0.50747187 -0.134751 -0.545174 -0.410423 endonuclease MMS4 YBR098W
8213_at 0.34286912 -0.002805 -0.41294767 -0.41014267 PRO2 YOR323C
gamma-glutamyl phosphate reductase
6079_at 0.13899774 -0.004186 -0.41365667 -0.40947067 YRA1
RNA-binding RNA annealing YDR381Wprotein
10525_at 0.44775893 -0.06769667 -0.47704933 -0.40935267 YSR3
DHS-1-P phosphatase YKR053C
8178_at 0.41763382 -0.07678267 -0.48576433 -0.40898167 NA NA YOR379C
9643_at 0.27215866 -0.018314 -0.427022 -0.408708 UNG1
uracil DNA glycosylase YML021C
4197_at 0.65558526 -0.22026867 -0.62886133 -0.40859267 POR2 YIL114C
voltage dependent anion channel (YVDAC2)
5786_f_at 0.48409846 -0.07129733 -0.479575 -0.40827767 PAU4 YEL049W
Part of 23-member seripauperin multigene family encoded mainly in
3569_at 0.43528756 -0.07830467 -0.48628033 -0.40797567 NA NA YPRWDELTA16
4833_at 0.39922002 -0.049884 -0.45783033 -0.40794633 PBP1 YGR178C
Poly(A)-binding protein binding protein
10899_at 0.50502649 -0.092987 -0.50088633 -0.40789933 protein YJR106W
Non-essential ECM27 of unknown function
5773_at 0.35635116 -0.00376633 -0.41161233 -0.407846 protein YEL061C
Kinesin motor CIN8 involved in mitotic spindle assembly and chro
7195_at 0.63354537 -0.135991 -0.54379233 -0.40780133 ARA1
D-arabinose dehydrogenase YBR149W
7584_at 0.25179268 -0.022888 -0.43059133 -0.40770333 NA NA YPR141C
5041_at 0.32455178 -0.034699 -0.44218967 -0.40749067 haspin ALK1 YGL021W
7037_s_at 0.7155095 -0.102302 -0.50954233 -0.40724033 UGA2 YBR006W
succinate semialdehyde dehydrogenase
7639_at 0.45050401 -0.073286 -0.48047533 -0.40718933 RPN7 YPR108W
proteasome regulatory particle subunit
6627_at 0.49356453 -0.010686 -0.417828 -0.407142 U3 snoRNP proteinNOP14 YDL148C
8320_at 0.14817984 -0.00012067 -0.40699933 -0.40687867 NPT1 YOR209C
nicotinate phosphoribosyltransferase
10621_at 0.39134483 -0.05970933 -0.46637933 -0.40667 NA NA YKL031W
7106_at 0.494559 -0.01376367 -0.420419 -0.40665533 Hypothetical ORF NA YBR241C
11021_f_at 0.69882312 -0.32006 -0.72654233 -0.40648233 PRE3
20S proteasome subunit YJL001W
6003_at 0.24748135 -0.011379 -0.417733 -0.406354 NA NA YDR442W
10415_at 0.69017828 -0.19733033 -0.60331267 -0.40598233 MMP1 YLL061W
high affinity S-methylmethionine permease
3525_f_at 0.21912217 -0.01076267 -0.416545 -0.40578233 NA YPRCTY1-2
Identified by expression profiling and mass spectrometry /// TyA Ga
7433_at 0.08466537 -0.000191 -0.40561833 -0.40542733 protein
kinesin relatedKIP1 YBL063W
9147_at 0.44810357 -0.02353333 -0.428455 -0.40492167 synthase
pseudouridine PUS4 YNL292W
3167_r_at 0.52971139 -0.146414 -0.55123733 -0.40482333 NA NA YHRWDELTA9
8442_g_at 0.27296479 -0.02704133 -0.431633 -0.40459167 [PSI+] induction PIN2 YOR104W
8191_at 0.58250554 -0.124848 -0.529243 -0.404395 PYK2 YOR347C
Pyruvate kinase, glucose-repressed isoform
6888_at 0.37232739 -0.00652867 -0.41012767 -0.403599 ADP1 YCR011C
Shows homology to ATP-dependent permeases
6268_at 0.56011539 -0.00225733 -0.40565467 -0.40339733 GCD6 YDR211W
translation initiation factor eIF-2B epsilon subunit
7592_at 0.74772243 -0.35624633 -0.75943467 -0.40318833 NA NA YPR149W
6279_at 0.44097614 -0.01026567 -0.412242 -0.40197633 SDH4 YDR178W
succinate dehydrogenase membrane anchor subunit
4966_at 0.1734061 -0.00698333 -0.40845433 -0.401471 KSS1 YGR040W
MAP kinase|involved in pheromone signal transduction
11382_at 0.3789932 -0.02996833 -0.431172 -0.40120367 Hypothetical ORF NA YAL064W-B
11330_at 0.28381431 -0.001164 -0.40197367 -0.40080967 ADE1 YAR015W
phosphoribosyl amino imidazolesuccinocarbozamide synthetase
11130_at 0.32527063 -0.017094 -0.41767533 -0.40058133 NA NA YJL119C
5645_at 0.20225865 -0.00822167 -0.407955 -0.39973333 VTC1 YER072W
S. pombe Nrf1p homolog (97% identical in predicted amino acid se
10973_at 0.66037924 -0.102553 -0.50193567 -0.39938267 VPS55 targeting
Involved in Golgi to vacuolar YJR044C
8874_at 0.32514231 -0.002215 -0.40094233 -0.39872733 HDA1 YNL021W
histone deacetylase|shares sequence similarity with Rpd3p, Hos1p
5021_at 0.46757378 -0.08886633 -0.48738233 -0.398516 PEX31 YGR004W
Peroxisomal integral membrane protein, involved in negative regula
11208_at 0.30621578 -0.00295467 -0.40128867 -0.398334 NA NA YJL175W
7363_at 0.56552382 -0.080077 -0.47839567 -0.39831867 COQ1 YBR003W
hexaprenyl pyrophosphate synthetase
9514_at 0.37082494 -0.01839633 -0.41667567 -0.39827933 SPC24
spindle pole component YMR117C
8703_at 0.26032393 -0.02293667 -0.42078267 -0.397846 Hypothetical ORF NA YOL131W
6059_at 0.45841575 -0.077414 -0.47523833 -0.39782433 ADE8 YDR408C
glycinamide ribotide transformylase
6840_at 0.09344056 -0.000879 -0.398404 -0.397525 RSC6 YCR052W
a subunit of RSC, a fifteen-protein chromatin remodeling complex a
6859_at 0.12098514 -0.00317367 -0.400379 -0.39720533 NA NA YCR025C
3206_at 0.32380592 -0.031342 -0.428477 -0.397135 NA NA YHRCDELTA5
7548_at 0.63255695 -0.19445133 -0.59033567 -0.39588433 NA
nuclear protein (putative) YPR196W
10491_at 0.45780869 -0.04780767 -0.44277067 -0.394963 CCP1
cytochrome c peroxidase YKR066C
6464_at 0.45760068 -0.00714533 -0.401713 -0.39456767 ER membraneNA protein YDR003W
8942_at 0.16769357 -0.00256433 -0.39682267 -0.39425833 RHO2 YNL090W
GTP-binding protein|rho subfamily
8931_at 0.18133101 -0.00158267 -0.39579467 -0.394212 Hypothetical ORFNA YNL056W
7952_at 0.53717781 -0.03089433 -0.42491433 -0.39402 NA YPL206C
Endoplasmic reticulum protein of unknown function
9352_at 0.42939222 -0.003526 -0.39734 -0.393814 Hypothetical ORFNA YMR258C
5737_at 0.1507576 -0.00569667 -0.399436 -0.39373933 activator YEL009C
transcriptional GCN4 of amino acid biosynthetic genes
9431_at 0.54079098 -0.13597867 -0.52936667 -0.393388 Hypothetical ORFNA YMR204C
5599_at 0.28234703 -0.01714 -0.410402 -0.393262 BOI2 YER114C
Protein implicated in polar growth, functionally redundant with Boi1p
5255_s_at 0.38025486 -0.054542 -0.44743767 -0.39289567 Hypothetical ORFNA YGL258W
8246_s_at 0.12127745 -0.00425933 -0.397127 -0.39286767 NOP58
U3 snoRNP protein YOR309C
10367_r_at 0.35743401 -0.03183833 -0.42467167 -0.39283333 homolog
protein kinase KNS1 YLL020C
6183_at 0.35184324 -0.01889567 -0.41143633 -0.39254067 Hypothetical ORFNA YDR306C
11379_at 0.6213409 -0.210964 -0.60231267 -0.39134867 SEO1
permease (putative) YAL067C
8414_at 0.26798015 -0.00056867 -0.39184167 -0.391273 profilin PFY1 YOR122C
8847_at 0.09364629 -0.00099633 -0.39093733 -0.389941 RLP7 YNL002C
Significant sequence similarity to RPL7B, but neither can functional
4380_at 0.5697137 -0.01724233 -0.40588433 -0.388642 Hypothetical ORFNA YHR131C
11228_at 0.35337415 -0.03359167 -0.42218333 -0.38859167 PHO90 YJL198W
Low-affinity phosphate transporter; deletion of pho84, pho87, pho89
5129_at 0.41367 -0.00704567 -0.395439 -0.38839333 SLD3 YGL113W
synthetic lethality with dpb11-1; Sld3p interacts with Cdc45 and is re
6323_at 0.40497285 -0.04471667 -0.43285333 -0.38813667 Hypothetical ORFNA YDR133C
6466_at 0.27741022 -0.01709067 -0.40499833 -0.38790767 MAF1 YDR005C
Mod5 protein sorting. Negative effector of Pol III synthesis.
4405_at 0.43890117 -0.015042 -0.402184 -0.387142 Hypothetical ORFNA YHR112C
8891_at 0.42157917 -0.05194267 -0.43856267 -0.38662 Component of COG5 oligomeric
the conservedYNL051W Golgi complex
3529_f_at 0.26976982 -0.01641067 -0.40209233 -0.38568167 NA YPRWTY1-3
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
8367_at 0.53944103 -0.05100467 -0.43625533 -0.38525067 Hypothetical ORFNA YOR166C
7802_at 0.55766649 -0.08122933 -0.46638467 -0.38515533 Hypothetical ORFNA YPL041C
5040_at 0.31427104 -0.011441 -0.396398 -0.384957 STT3 YGL022W
integral ER membrane protein|oligosaccharyltransferase complex s
11004_at 0.57888475 -0.008683 -0.39326233 -0.38457933 Hypothetical ORFNA YJR030C
7142_at 0.37958831 -0.038149 -0.42271233 -0.38456333 NA NA YBR232C
5343_at 0.2447777 -0.000214 -0.38462833 -0.38441433 Hypothetical ORFNA YFR044C
3199_f_at 0.40084382 -0.00256233 -0.38690467 -0.38434233 NA YHLCDELTA1
Hypothetical ORF /// Identified by expression profiling and mass spe
10579_at 0.4853668 -0.05324633 -0.436446 -0.38319967 TFA1 subunit
transcription factor tfIIE largeYKL028W
9951_at 0.40802745 -0.01791767 -0.40110833 -0.38319067 ARC18
Arp2/3 complex subunit YLR370C
9986_at 0.7208015 -0.38142933 -0.76449567 -0.38306633 NA NA YLR317W
9726_at 0.22667509 -0.00259167 -0.385612 -0.38302033 RPL6A YML073C
ribosomal protein L6A (L17A) (rp18) (YL16)
9183_s_at 0.27244708 -0.01023333 -0.39311967 -0.38288633 RPL18B
ribosomal protein L18B (rp28B) YNL301C
10601_at 0.42205406 -0.009166 -0.39177667 -0.38261067 PI Four
Suppressor of SFK1 Kinase YKL051W
8240_at 0.21799729 -0.00356 -0.38611033 -0.38255033 Hypothetical ORFNA YOR305W
6095_at 0.55201853 -0.03868067 -0.421026 -0.38234533 TRP4 YDR354W
anthranilate phosphoribosyl transferase
7430_at 0.28970996 -0.02060833 -0.402795 -0.38218667 SEF1
transcription factor (putative) YBL066C
9934_at 0.49881329 -0.09649867 -0.47851667 -0.382018 BDF1 YLR399C
Protein involved in transcription initiation at TATA-containing promo
3836_f_at 0.34770218 -0.029411 -0.41084967 -0.38143867 NA YJRWTY1-2
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
10911_at 0.40037171 -0.05142533 -0.432035 -0.38060967 ILM1
Protein of unknown function YJR118C
4896_at 0.4198859 -0.047528 -0.42748533 -0.37995733 Hypothetical ORFNA YGR106C
10467_at 0.25194621 -0.00822233 -0.38812967 -0.37990733 NA
integral membrane protein YKR088C
4498_at 0.54621784 -0.06615567 -0.44603467 -0.379879 MAS2 YHR024C
mitochondrial processing protease 53 kDa subunit
4849_at 0.53387786 -0.014157 -0.39400367 -0.37984667 Hypothetical ORFNA YGR149W
7700_at 0.49836196 -0.025302 -0.405016 -0.379714 ERV2 YPR037C
Flavin-linked sulfhydryl oxidase localized to the endoplasmic reticul
3652_f_at 0.383422 -0.03659233 -0.41616533 -0.379573 NA YNLCTY1-1
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
3284_f_at 0.22564095 -0.001313 -0.380732 -0.379419 NA YFLWTY2-1
Identified by expression profiling and mass spectrometry /// TyB Ga
9758_at 0.22328011 -0.004229 -0.38339967 -0.37917067 Structure of Chromatin
Remodels the RSC9 YML127W
8222_at 0.22617783 -0.01457067 -0.39292333 -0.37835267 VMA4 YOR332W
E subunit of V1 sector|vacuolar H(+) ATPase 27 kDa subunit
9999_at 0.30624746 -0.00292133 -0.38081967 -0.37789833 CHS5 activity, also required for homozygosis
Involved in chitin synthase IIIYLR330W
6619_at 0.35751258 -0.00514733 -0.38295333 -0.377806 Hypothetical ORFNA YDL156W
5046_at 0.35635194 -0.02077567 -0.39843767 -0.377662 KAP122
karyopherin beta family member YGL016W
3480_at 0.36998126 -0.033615 -0.411067 -0.377452 NA NA YBRCDELTA18
8841_at 0.50746031 -0.03570467 -0.41311033 -0.37740567 DBP6
RNA helicase (putative) YNR038W
8894_at 0.57790419 -0.02005633 -0.397369 -0.37731267 ALG11 YNL048W
Alpha-1,2-mannosyltransferase, catalyzes addition of the terminal a
10091_at 0.38750588 -0.01360967 -0.39090767 -0.377298 NA YLR243W
Protein required for cell viability
8227_at 0.46668287 -0.03068967 -0.40747833 -0.37678867 TEA1 Enhancer-mediated Activation
Mutants are defective in Ty1 YOR337W
10282_at 0.47183808 -0.05526467 -0.43196633 -0.37670167 Hypothetical ORFNA YLR073C
11179_at 0.71633288 -0.259703 -0.63591933 -0.37621633 HSP150 glycoprotein
heat shock protein|secretory YJL159W
9370_at 0.46051444 -0.00986933 -0.38605033 -0.376181 DSK2
ubiquitin-like protein YMR276W
3637_f_at 0.39793904 -0.044259 -0.420173 -0.375914 NA YOLWTY1-1
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
3588_f_at 0.29713495 -0.019085 -0.394831 -0.375746 NA YPLWTY1-1
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
7910_at 0.24897814 -5.33E-06 -0.37574467 -0.37573934 ligase
leucine--tRNA CDC60 YPL160W
5392_at 0.29629902 -0.01131533 -0.38614367 -0.37482833 actin ACT1 YFL039C
7196_at 0.54769907 -0.025798 -0.40032967 -0.37453167 TBS1
Probable Zn-finger protein YBR150C
7243_at 0.34661522 -0.00144 -0.37592933 -0.37448933 IML3 YBR107C
Protein with a role in kinetochore function, localizes to the outer kin
10361_f_at 0.33296848 -0.018332 -0.392563 -0.374231 DAN2 cell wall protein
Hypothetical ORF /// putativeYLL025W
10557_f_at 0.24426279 -0.00553633 -0.37965 -0.37411367 RPL14A
ribosomal protein L14A YKL006W
8174_at 0.18552188 -0.00581267 -0.37946833 -0.37365567 NADP-specificGDH1 YOR375C
glutamate dehydrogenase
7292_at 0.34176065 -0.000274 -0.37388633 -0.37361233 TAT1 YBR069C
amino acid transport protein for valine, leucine, isoleucine, and tyro
6882_at 0.53581091 -0.0297 -0.40298867 -0.37328867 YCP4 has sequence and structural similarity
Protein of unknown function, YCR004C
3195_f_at 0.51299843 -0.09292567 -0.46610433 -0.37317867 NA NA YHLCSIGMA1
4962_at 0.52640135 -0.10600767 -0.47844067 -0.372433 CAX4 amino acids
contains 3 short stretches of YGR036C that are characteristic for
8913_at 0.36674496 -0.044583 -0.41665333 -0.37207033 NA NA YNL028W
6559_f_at 0.16744187 -0.00219733 -0.37378367 -0.37158633 RPS16A
ribosomal protein S16A (rp61R) YDL083C
7132_at 0.37646819 -0.00719767 -0.37871433 -0.37151667 PCS60
Probable AMP-binding protein YBR222C
4859_at 0.5089331 -0.009913 -0.381078 -0.371165 MTR3
Involved in mRNA transport YGR158C
4183_at 0.45494392 -0.07299833 -0.444109 -0.37111067 NA
Homolog to human PPCS YIL083C
10598_at 0.13178186 -0.00086567 -0.37180733 -0.37094167 MRT4 YKL009W
Protein involved in mRNA turnover and ribosome assembly, localize
5748_at 0.25329478 -0.01023833 -0.38116233 -0.370924 GDA1 Golgi membrane
guanosine diphosphatase of YEL042W
10731_at 0.60603213 -0.067862 -0.43859167 -0.37072967 MRP8
ribosomal protein YKL142W
7416_at 0.29683661 -0.01502967 -0.38547133 -0.37044167 Single-domainNA YBL036C
racemase, possibly non-specific due to the lack of th
7841_at 0.52375925 -0.00798267 -0.37762167 -0.369639 SEC62 YPL094C
ER protein translocation apparatus membrane component
11345_at 0.48159265 -0.08342367 -0.45227467 -0.368851 FUN26 YAL022C
Nucleoside transporter with broad nucleoside selectivity; localized t
6233_at 0.72019553 -0.07193433 -0.440261 -0.36832667 NA green fluorescent protein (GFP)-fusion
Protein of unknown function; YDR222W
8274_at 0.68069494 -0.18834367 -0.55619267 -0.367849 NAT5
N-acetyltransferase YOR253W
8516_at 0.23537153 -0.010884 -0.378201 -0.367317 WHI2 YOR043W
Protein required, with binding partner Psr1p, for full activation of the
9868_at 0.63290707 -0.11188633 -0.478684 -0.36679767 COX19 YLL018C-A
Protein required for cytochrome c oxidase assembly, located in the
5116_at 0.56748343 -0.03274767 -0.39929967 -0.366552 SCS3 YGL126W
Required for inositol prototrophy
4333_at 0.46269215 -0.05564967 -0.4222 -0.36655033 NA NA YHR173C
6853_at 0.35401602 -0.030845 -0.39729667 -0.36645167 MAK31 YCR020C-A
Like Sm protein; member of the Sm protein family, though slightly d
9988_at 0.32597472 -0.000356 -0.36675033 -0.36639433 BUD6 protein, involved in actin cable nucleat
Actin- and formin-interacting YLR319C
8408_at 0.60125628 -0.02830167 -0.394611 -0.36630933 PNS1 has similarity to Torpedo californica tC
Protein of unknown function; YOR161C
8008_at 0.32583192 -0.01899767 -0.384691 -0.36569333 IQG1 determination of budding pattern, prom
Essential protein required forYPL242C
6730_at 0.59663223 -0.15469967 -0.51974333 -0.36504367 The authentic, NA YDL222C
non-tagged protein was localized to the mitochondria
6673_at 0.4301043 -0.005959 -0.37038 -0.364421 UFD2
ubiquitin conjugating factor e4YDL190C
5632_at 0.43346663 -0.04001867 -0.40409367 -0.364075 AST2 in targeting
Protein that may have a role YER101C of plasma membrane [H+]A
5243_at 0.50063081 -0.048148 -0.41190967 -0.36376167 OST5 YGL226C-A
oligosaccharyltransferase complex 9.5 kDa zeta subunit
5143_at 0.36625927 -0.03180867 -0.395567 -0.36375833 Hypothetical ORFNA YGL146C
9490_at 0.62785415 -0.09194067 -0.454884 -0.36294333 GAT2 YMR136W
Protein containing GATA family zinc finger motifs; similar to Gln3p a
8628_at 0.45868282 -0.013218 -0.37569267 -0.36247467 NUF2 YOL069W
Spindle pole body protein, required for chromosome segregation du
5112_at 0.422887 -0.00853433 -0.370945 -0.36241067 Hypothetical ORFNA YGL085W
8291_at 0.32736166 -0.00415667 -0.36649433 -0.36233767 VPH1 YOR270C
V0 sector subunit|essential for vacuolar acidification and vacuolar H
5329_s_at 0.31616815 -0.01473567 -0.37701067 -0.362275 RPL2B YFR031C-A
ribosomal protein L2B (L5B) (rp8) (YL6)
9009_at 0.32945201 -0.01985833 -0.38192833 -0.36207 ASI2 genetic interactions suggest a role in
Predicted membrane protein;YNL159C
8361_at 0.63460759 -0.18913133 -0.551189 -0.36205767 DED1 YOR204W
ATP-dependent DEAD (Asp-Glu-Ala-Asp)-box RNA helicase, requir
10288_at 0.23352884 -0.00825 -0.370262 -0.362012 Hypothetical ORFNA YLR036C
7316_s_at 0.23032671 -0.00347567 -0.36498467 -0.361509 RPS11A YBR048W
ribosomal protein S11A (S18A) (rp41A) (YS12)
4215_g_at 0.31757457 -0.02228967 -0.38378833 -0.36149867 AXL2 YIL141W
Integral plasma membrane protein required for axial budding in hap
7562_at 0.32841315 -0.00602 -0.36749933 -0.36147933 MMS1 YPR164W
sensitive to methyl methanesulfonate (MMS), diepoxybutane, and m
7074_f_at 0.53243621 -0.05178 -0.41317933 -0.36139933 PAU4 YBR301W
Part of 23-member seripauperin multigene family encoded mainly in
3400_i_at 0.59587063 -0.18641833 -0.54746667 -0.36104833 NA NA YDRWDELTA30
3294_at 0.54873999 -0.13534867 -0.49616767 -0.360819 NA NA YFRCDELTA9
5721_at 0.24570918 -0.01535033 -0.376017 -0.36066667 GPA2 protein
nucleotide binding regulatoryYER020W
5350_at 0.5339829 -0.01366233 -0.373825 -0.36016267 FAR7 YFR008W
Protein involved in G1 cell cycle arrest in response to pheromone, i
5914_at 0.34296789 -0.002182 -0.36232867 -0.36014667 NA NA YDR535C
5784_at 0.3746811 -0.013544 -0.37368433 -0.36014033 VMA8 YEL051W
V1 catalytic sector D subunit|vacuolar H-ATPase
5814_at 0.45916376 -0.061189 -0.42072733 -0.35953833 NA NA YEL068C
10248_at 0.5900233 -0.087578 -0.447065 -0.359487 maintenance of bipolar pattern
Involved in theRAX2 YLR084C
7660_at 0.23736699 -0.00311233 -0.36246133 -0.359349 NA
Hypothetical ORF YPR084W
11175_at 0.7012825 -0.00182333 -0.36022567 -0.35840233 NA
Hypothetical ORF YJL163C
7687_at 0.54531659 -0.06308 -0.42065467 -0.35757467 ISA2 YPR067W
Protein required for maturation of mitochondrial and cytosolic Fe/S
7239_at 0.21399068 -0.003536 -0.36093433 -0.35739833 SIF2
Sir4p-Interacting Factor YBR103W
6547_at 0.22543479 -0.003014 -0.36038 -0.357366 LHP1 for maturation of tRNA and snRNA pr
RNA binding protein requiredYDL051W
10115_at 0.63514653 -0.085733 -0.44306933 -0.35733633 IFH1 YLR223C
Essential protein with a highly acidic N-terminal domain; IFH1 exhib
8997_at 0.46801952 -0.04519667 -0.40248733 -0.35729067 ESBP6 YNL125C
monocarboxylate permease (putative)
9997_at 0.5387905 -0.069341 -0.42656233 -0.35722133 NMA1 YLR328W
nicotinamide/nicotinic acid mononucleotide adenylyltransferase
8864_at 0.34875386 -0.02662467 -0.38382233 -0.35719767 ACC1
acetyl CoA carboxylase YNR016C
10543_at 0.25303788 -0.005206 -0.36186233 -0.35665633 alpha
eIF2B 34 kDa GCN3subunit YKR026C
4035_at 0.23592299 -0.011345 -0.36784333 -0.35649833 NA NA YIL156w-a
5010_at 0.1973681 -0.00840967 -0.36481433 -0.35640467 NA NA YGL007W
3487_g_at 0.64731076 -0.26611233 -0.622015 -0.35590267 NA YCLWTY5-1
Psuedogene: encodes fragment of Ty Pol protein /// Psuedogene: e
10144_at 0.65315049 -0.04287433 -0.39868233 -0.355808 ENT2 YLR206W
Epsin-like protein required for endocytosis and actin patch assembl
3772_f_at 0.33309436 -0.01513967 -0.37014233 -0.35500267 NA YLRCTY1-1
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
10465_at 0.27017805 -0.01682867 -0.37166 -0.35483133 PRP16
ATP-binding protein (putative) YKR086W
6451_at 0.49192093 -0.014262 -0.36892533 -0.35466333 EHD3 YDR036C
Protein of unconfirmed function, plays an indirect role in endocytic m
10867_s_at 0.47981132 -0.057365 -0.411955 -0.35459 BUD4 YJR092W
Protein involved in bud-site selection and required for axial budding
4987_at 0.36046649 -0.01491833 -0.36948833 -0.35457 MSB2 YGR014W
integral membrane protein (putative)
3441_f_at 0.29237248 -0.01296633 -0.36723667 -0.35427033 NA YDRCTY1-1
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
5694_at 0.37022755 -0.00632833 -0.36035533 -0.354027 HVG1 (putative)
nucleotide sugar transporter YER039C
5408_at 0.33312648 -0.02308033 -0.37709833 -0.354018 FRS2 YFL022C
phenylalanine-tRNA ligase subunit
4556_at 0.5895971 -0.11519133 -0.468596 -0.35340467 SHU1 YHL006C
suppressor of HU sensitivity involved in recombination
6132_at 0.42753158 -0.009392 -0.362405 -0.353013 SVF1 YDR346C
Protein with a potential role in cell survival pathways, required for th
8890_at 0.55552144 -0.10645067 -0.45906233 -0.35261167 MRP7 YNL005C
Mitochondrial ribosomal protein of the large subunit
10949_at 0.53798688 -0.00891367 -0.361495 -0.35258133 ARP3
actin-related gene YJR065C
8232_at 0.47121509 -0.01509267 -0.36765733 -0.35256467 BUD7 YOR299W
Protein involved in bud-site selection; diploid mutants display an ax
10272_at 0.6663629 -0.078748 -0.431229 -0.352481 NA
Hypothetical ORF YLR063W
6544_at 0.26507586 -0.009004 -0.361211 -0.352207 MCH1 YDL054C
Monocarboxylate Permease Homologue
9182_s_at 0.26496635 -0.00174033 -0.35393667 -0.35219633 RPS19B YNL302C
ribosomal protein S19B (rp55B) (S16aB) (YS16B)
8430_at 0.36065918 -0.02297367 -0.37493567 -0.351962 NA NA YOR138C
4429_at 0.59270198 -0.10404533 -0.455921 -0.35187567 NA NA YHR093W
11215_at 0.36153964 -0.03116333 -0.38279 -0.35162667 NA NA YJL211C
8469_g_at 0.47313025 -0.069681 -0.42129967 -0.35161867 YVC1 YOR087W
Vacuolar cation channel, mediates release of Ca(2+) from the vacu
6726_at 0.35353578 -0.00307633 -0.354687 -0.35161067 GCS1 YDL226C
ADP-ribosylation factor GTPase-activating protein (ARF GAP)
10687_at 0.33702643 -0.02713367 -0.37802067 -0.350887 NA NA YKL097C
7127_at 0.52652797 -0.01152733 -0.36200233 -0.350475 ATG12 YBR217W
Protein that becomes conjugated to Atg5p by the E1 enzyme Atg7p
9435_at 0.63026114 -0.088272 -0.438353 -0.350081 ERG12
mevalonate kinase YMR208W
10132_at 0.47333596 -0.012116 -0.36165967 -0.34954367 SIK1
U3 snoRNP protein YLR197W
5310_at 0.77730829 -0.444283 -0.79375367 -0.34947067 NA
Hypothetical ORF YFR055W
7865_at 0.42164014 -0.00844133 -0.35781033 -0.349369 BEM3 YPL115C
rho GTPase activating protein (GAP)
5140_at 0.34476377 -0.01886733 -0.36790733 -0.34904 NA NA YGL149W
9324_at 0.60261759 -0.09156267 -0.43949433 -0.34793167 DIA1 involved in
Protein of unknown function, YMR316W invasive and pseudohypha
5354_at 0.24803743 -0.01097667 -0.35879567 -0.347819 NA
Hypothetical ORF YFR012W
8468_at 0.35543827 -0.02695633 -0.37450633 -0.34755 YVC1 YOR087W
Vacuolar cation channel, mediates release of Ca(2+) from the vacu
7852_at 0.10192698 -0.00053267 -0.34796933 -0.34743667 SEN54 YPL083C
tetrameric tRNA splicing endonuclease 54 kDa subunit
4948_at 0.32115631 -0.008269 -0.355697 -0.347428 NA YGR067C
Hypothetical ORF; has similarity to Adr1p DNA-binding domain
7211_at 0.20215107 -0.00401 -0.35108233 -0.34707233 NA NA YBR164C
7678_at 0.31650574 -0.01728233 -0.36416467 -0.34688233 YMC1 YPR058W
Putative mitochondrial inner membrane transporter, member of the
10860_s_at 0.33662088 -0.01871867 -0.365547 -0.34682833 HXT16 /// HXT17 transporter
hexose permease /// hexose YJR158W
6136_at 0.20114153 -0.00277833 -0.34899533 -0.346217 TCM10 YDR350C
Mitochondrial inner membrane protein required for assembly of the
10336_at 0.40210621 -0.02307567 -0.369046 -0.34597033 Hypothetical ORFNA YLL007C
5047_at 0.37237219 -0.01305267 -0.358058 -0.34500533 YBP2 YGL060W
Protein with a role in resistance to oxidative stress; has similarity to
5230_at 0.47793531 -0.04178767 -0.38672167 -0.344934 CSE1 YGL238W
Nuclear envelope protein that mediates the nuclear export of import
6460_at 0.54897486 -0.05293467 -0.39779433 -0.34485967 NHP10
HMG1-box containing protein YDL002C
3460_at 0.5388884 -0.10843467 -0.453165 -0.34473033 NA NA YCRCtau1
9623_at 0.5917081 -0.113997 -0.45846967 -0.34447267 protein kinase CDC5 YMR001C
9314_at 0.25980662 -0.01224567 -0.35667367 -0.344428 NA NA YMR306C-A
6398_at 0.69622355 -0.020063 -0.363908 -0.343845 TPS2
trehalose-6-phosphate phosphataseYDR074W
8536_at 0.48834187 -0.042923 -0.386663 -0.34374 ROD1 YOR018W
Membrane protein; overexpression confers resistance to the GST s
10744_at 0.32651357 -0.00910667 -0.35281467 -0.343708 ZRT3 YKL175W
Vacuolar membrane zinc transporter, transports zinc from storage i
9489_at 0.36008469 -0.02920533 -0.37283733 -0.343632 NA NA YMR135W-A
10700_at 0.37471691 -0.005211 -0.34878367 -0.34357267 PMU1
phosphomutase homolog YKL128C
7676_at 0.48580684 -0.018542 -0.36172367 -0.34318167 TFB4 YPR056W
transcription initiation factor TFIIH subunit
3503_f_at 0.33740924 -0.00425033 -0.34727267 -0.34302233 NA YBLWTY2-1
Identified by expression profiling and mass spectrometry /// TyB Ga
7354_at 0.27301282 -0.00479833 -0.34771333 -0.342915 SLA1 YBL007C
cytoskeletal protein binding protein
11043_at 0.47327551 -0.06966167 -0.412556 -0.34289433 APS3 YJL024C
sigma3-like subunit of the yeast AP-3 complex which functions in tra
5405_at 0.43907158 -0.01181467 -0.35463267 -0.342818 BST1 YFL025C
Protein that negatively regulates COPII vesicle formation; functiona
8800_at 0.24877929 -0.00466167 -0.34747967 -0.342818 NA NA YNR042W
11140_at 0.38942514 -0.035722 -0.37802867 -0.34230667 PRM10 YJL107C
Hypothetical ORF /// Pheromone-regulated protein, predicted to hav
4888_at 0.28983561 -0.008836 -0.35086167 -0.34202567 separase ESP1 YGR098C
4538_at 0.2404221 -0.010044 -0.351299 -0.341255 DED81
asparaginyl-tRNA synthetaseYHR019C
8837_at 0.52355795 -0.01090367 -0.35203067 -0.341127 SOL1
Multicopy Suppressor Of los1 YNR034W
4440_at 0.21902452 -0.00046233 -0.34158367 -0.34112133 KIC1 YHR102W
Kinase that interacts with Cdc31p; N-rich kinase 1
8681_at 0.47514821 -0.026255 -0.367007 -0.340752 Hypothetical ORFNA YOL107W
4720_at 0.41290786 -0.02872233 -0.36933967 -0.34061733 NA NA YGR290W
10620_at 0.54766586 -0.08234833 -0.42248067 -0.34013233 IXR1 YKL032C
intrastrand crosslink recognition protein
6237_at 0.29880906 -0.00139833 -0.341398 -0.33999967 adenylate kinaseADK1 YDR226W
6287_at 0.62241661 -0.12378267 -0.46357433 -0.33979167 Hypothetical ORFNA YDR185C
3315_f_at 0.28746366 -0.012782 -0.352481 -0.339699 NA YERCSIGMA4
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
4118_at 0.48105706 -0.02876433 -0.368363 -0.33959867 FAA3
acyl-CoA synthase YIL009W
7933_at 0.32529795 -0.01102233 -0.35038633 -0.339364 NA NA YPL182C
11054_at 0.51408745 -0.00079067 -0.34013967 -0.339349 CCT3
gamma chaperonin subunit YJL014W
5094_at 0.40555961 -0.00110533 -0.34016233 -0.339057 RPL28 YGL103W
ribosomal protein L28 (L29) (rp44) (YL24)
10366_i_at 0.5848326 -0.078656 -0.41758933 -0.33893333 homolog
protein kinase KNS1 YLL020C
7724_at 0.30620441 -0.01693767 -0.35576767 -0.33883 DSS4
GDP dissociation factor for Sec4pYPR017C
9991_at 0.43116147 -0.050473 -0.38927833 -0.33880533 NA NA YLR322W
4798_at 0.56605769 -0.017078 -0.35565167 -0.33857367 BUB1 YGR188C
checkpoint gene involved in permitting entry into mitosis depending
4567_at 0.56114913 -0.04075033 -0.37913133 -0.338381 NA NA YHL041W
4494_at 0.3897784 -0.01753733 -0.355768 -0.33823067 RPS27B YHR021C
ribosomal protein S27B (rp61) (YS20)
5661_at 0.30642878 -0.013673 -0.351866 -0.338193 Hypothetical ORFNA YER049W
6503_at 0.55011784 -0.038327 -0.376514 -0.338187 delta subunit YDL004W
ATP synthase ATP16
7626_at 0.5468337 -0.09473133 -0.43258967 -0.33785833 NH4+ transporterMEP3 YPR138C
7874_at 0.40640091 -0.02510633 -0.36278 -0.33767367 NA NA YPL106C
10587_at 0.45272892 -0.03545267 -0.37288267 -0.33743 protein YKL020C
ER membraneSPT23 involved, with its homolog Mga2p, in regulati
5361_at 0.48383224 -0.020552 -0.35727033 -0.33671833 FAB1 YFR019W
1-phosphatidylinositol-3-phosphate 5-kinase
6219_at 0.37817988 -0.02297733 -0.359346 -0.33636867 CHL4 YDR254W
Protein necessary for stability of ARS-CEN plasmids; suggested to
10113_at 0.44846207 -0.01418567 -0.350402 -0.33621633 RSA3 YLR221C
Protein with a likely role in ribosomal maturation, required for accum
4913_at 0.40974833 -0.032138 -0.36825567 -0.33611767 PEX8 YGR077C
peroxisome associated protein containing a PTS1 signal
5689_at 0.47437831 -0.03276367 -0.36874833 -0.33598467 Hypothetical ORFNA YER034W
5050_at 0.65774317 -0.124329 -0.460213 -0.335884 Hypothetical ORFNA YGL057C
10556_i_at 0.4234954 -0.031749 -0.367582 -0.335833 RPL14A
ribosomal protein L14A YKL006W
9982_at 0.60805399 -0.10292733 -0.437691 -0.33476367 RSC2
RSC complex member YLR357W
9017_at 0.42338486 -0.00479833 -0.33918067 -0.33438233 RPC31 YNL151C
HMG1-like protein|RNA polymerase III (C) 31 kDa subunit
4359_at 0.57073722 -0.062381 -0.396421 -0.33404 RTT107 YHR154W
Regulator of Ty1 Transposition; Establishes Silent Chromatin
7864_at 0.4478642 -0.00850533 -0.342499 -0.33399367 HOS3 YPL116W
Trichostatin A-insensitive homodimeric histone deacetylase (HDAC
7882_f_at 0.2563198 -0.00366567 -0.33763433 -0.33396867 RPL33A YPL143W
ribosomal protein L33A (L37A) (YL37) (rp47)
6062_at 0.50501934 -0.02919333 -0.36307167 -0.33387833 DFM1 YDR411C
Der1p like family member; localizes to the ER, contains four transm
5114_at 0.36314939 -0.027778 -0.36164767 -0.33386967 GTPase
Suppressor of SCY1 mutant YGL083W
8657_at 0.46998278 -0.00347733 -0.337268 -0.33379067 ADH1
alcohol dehydrogenase YOL086C
9151_at 0.57805781 -0.05121 -0.384486 -0.333276 CAF40
CCR4 Associated Factor 40 kDa YNL288W
8881_at 0.54828257 -0.02505267 -0.357787 -0.33273433 HEF3 3 (EF-3)
Translation elongation factor YNL014W
11219_at 0.38156266 -0.00297767 -0.33533733 -0.33235967 Hypothetical ORFNA YJL207C
10093_at 0.56610627 -0.07037967 -0.402662 -0.33228233 CDD1
cytidine deaminase YLR245C
6581_at 0.53602146 -0.07732433 -0.40933533 -0.332011 QRI2 YDL105W
Nuclear protein of unknown function
10908_at 0.73252875 -0.17026267 -0.50220367 -0.331941 Hypothetical ORFNA YJR115W
7223_at 0.39264489 -0.03119867 -0.36303267 -0.331834 AGP2 YBR132C
plasma membrane carnitine transporter
5099_at 0.43845277 -0.025299 -0.35703667 -0.33173767 USE1 YGL098W
Use1p is a SNARE and forms a complex with the SNAREs Sec22p,
6135_at 0.3368458 -0.018178 -0.349346 -0.331168 aspartic
GPI-anchored YPS7 protease YDR349C
3704_f_at 0.46432728 -0.048365 -0.37936767 -0.33100267 NA YMLWTY1-2
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
10273_at 0.57455588 -0.041173 -0.37188633 -0.33071333 Hypothetical ORFNA YLR064W
10486_s_at 0.4714927 -0.031869 -0.362486 -0.330617 Hypothetical ORFNA YKR105C
8865_at 0.39712818 -0.016117 -0.34659667 -0.33047967 MAS6 YNR017W
23 kDa mitochondrial inner membrane protein
4445_at 0.49583462 -0.00016467 -0.330162 -0.32999733 CDC12 mother-bud
10 nm filament component ofYHR107C neck|septin
9290_f_at 0.39952248 -0.02611 -0.35561933 -0.32950933 Hypothetical ORFNA YMR325W
8654_at 0.45191097 -0.041025 -0.37021267 -0.32918767 HAL9 YOL089C
contains zinc finger|transcription factor (putative)
7735_at 0.74662376 -0.317543 -0.646433 -0.32889 Protein. YPR028W
Ypt InteractingYOP1 Regulates vesicular traffic in stressed cells
10368_s_at 0.65246265 -0.11850167 -0.446662 -0.32816033 homolog
protein kinase KNS1 YLL020C
5926_g_at 0.51046489 -0.04588933 -0.373984 -0.32809467 NA NA YDR524c-a
7267_at 0.63259474 -0.11537267 -0.443322 -0.32794933 NA NA YBR089W
3430_f_at 0.20446808 -0.000566 -0.32841567 -0.32784967 NA YDRCTY2-1
Identified by expression profiling and mass spectrometry /// TyB Ga
7229_at 0.45884613 -0.05697467 -0.38481667 -0.327842 NA YBR138C
Cytoplasmic protein of unknown function, potentially phosphorylated
7866_at 0.4931025 -0.04793933 -0.37557067 -0.32763133 NA NA YPL114W
7566_at 0.353785 -0.02162667 -0.34856467 -0.326938 NUT2 YPR168W
RNA polymerase II holoenzyme 21 kDa mediator subunit
6272_at 0.33505015 -0.01427067 -0.34078733 -0.32651667 NA NA YDR215C
4527_at 0.42388872 -0.03332733 -0.35963733 -0.32631 Hypothetical ORFNA YHR009C
9035_at 0.29633538 -0.00990233 -0.33591 -0.32600767 NA NA YNL178W
4472_s_at 0.69601671 -0.188828 -0.51474 -0.325912 DOG1 /// DOG2
2-deoxyglucose-6-phosphateYHR043Cphosphatase /// 2-deoxyglucose-6-ph
3800_at 0.57071814 -0.11645 -0.442231 -0.325781 NA NA YLRWDELTA4
9110_at 0.37206459 -0.01120733 -0.336743 -0.32553567 KEX2
Ca2+-dependent serine protease YNL238W
10920_at 0.61275373 -0.145707 -0.47103167 -0.32532467 Hypothetical ORFNA YJR079W
7793_at 0.42012855 -0.00150133 -0.326813 -0.32531167 MNN9 YPL050C
required for complex glycosylation
7340_at 0.54702553 -0.08528667 -0.41049433 -0.32520767 NA NA YBR027C
9520_at 0.49836112 -0.055232 -0.38039967 -0.32516767 RPL15B YMR121C
ribosomal protein L15B (YL10) (L13B) (rp15R)
4551_at 0.17383803 -0.00188633 -0.32697 -0.32508367 PRS3 YHL011C
ribose-phosphate pyrophosphokinase
9721_at 0.32947922 -0.00309533 -0.327951 -0.32485567 CPR3 YML078W
cyclophilin|peptidyl-prolyl cis-trans isomerase (PPIase)
10189_at 0.51395675 -0.02886333 -0.353638 -0.32477467 YLR164Wp is NA YLR164W
homologous to TIM18p
10892_at 0.25412177 -0.00129667 -0.32607 -0.32477333 MGM101
mitochondrial nucleoid protein YJR144W
11081_at 0.37035694 -0.02335133 -0.34812033 -0.324769 NET1 exit from
Nucleolar protein involved in YJL076Wmitosis
11115_at 0.69341321 -0.15198033 -0.476556 -0.32457567 tRNA ligase TRL1 YJL087C
5688_at 0.45808371 -0.02599467 -0.35036933 -0.32437467 ZRG8 YER033C
Cytoplasmic protein of unknown function, transcription is induced u
7690_at 0.303309 -0.001397 -0.32563267 -0.32423567 MED1 YPR070W
essential for transcriptional regulation|mediator complex subunit 1
7702_g_at 0.35967445 -0.00386433 -0.327378 -0.32351367 NA NA YPR038W
6511_at 0.50725596 -0.07662333 -0.39921167 -0.32258833 NA NA YDL041W
10384_at 0.46138563 -0.044202 -0.366473 -0.322271 RNP1
RNA binding protein (putative) YLL046C
5082_at 0.26624789 -0.003372 -0.32549533 -0.32212333 RPB9
RNA polymerase II core subunit YGL070C
8425_s_at 0.2084341 -0.00343733 -0.325403 -0.32196567 EFT1 YOR133W
translation elongation factor 2 (EF-2)
6497_at 0.5463143 -0.00124933 -0.322786 -0.32153667 Hypothetical ORFNA YDL010W
7070_at 0.37788405 -0.010968 -0.33230667 -0.32133867 protein
MAL-activator MAL33 YBR297W
6249_at 0.53627834 -0.00059967 -0.32189667 -0.321297 SEC26
yeast coatomer subunit YDR238C
8002_at 0.30424301 -0.00095067 -0.322189 -0.32123833 GAL4 YPL248C
zinc finger transcription factor of the Zn(2)-Cys(6) binuclear cluster
7782_at 0.26470792 -0.00754633 -0.32843633 -0.32089 SWI1
zinc finger transcription factorYPL016W
5550_at 0.51594668 -0.03601367 -0.35661767 -0.320604 Hypothetical ORFNA YER156C
8011_at 0.43629092 -0.02264967 -0.3432 -0.32055033 YAR1 YPL239W
200-amino-acid protein with two ANK repeat motifs and an acidic C
4232_at 0.62974319 -0.014355 -0.33481167 -0.32045667 AYR1 YIL124W
1-acyl dihydroxyacetone phosphate reductase
6000_at 0.62474811 -0.02534667 -0.34549133 -0.32014467 VPS60 YDR486C
vacuolar protein sorting (putative)
4384_at 0.4336433 -0.03058233 -0.350713 -0.32013067 YCK1
casein kinase I homolog YHR135C
4147_at 0.23742679 -0.006535 -0.326574 -0.320039 HOP1
DNA binding protein YIL072W
4972_at 0.39134781 -0.00808433 -0.32792667 -0.31984233 NA function, mRNA is targeted to the bud
Essential protein of unknownYGR046W
7984_s_at 0.24359979 -0.00155767 -0.32133933 -0.31978167 RPL1A part of the
ribosomal protein L1A, formsYPL220W 60S ribosomal subunit
8289_at 0.29581038 -0.01289267 -0.33257567 -0.319683 Hypothetical ORFNA YOR268C
4337_at 0.40693048 -0.023758 -0.343098 -0.31934 NA NA YHR177W
8270_f_at 0.33876516 -0.00085167 -0.31980867 -0.318957 RPS10B
ribosomal protein S10B YOR293W
6286_at 0.58347561 -0.06445233 -0.38335867 -0.31890633 ATC1 YDR184C
Nuclear protein, possibly involved in regulation of cation stress resp
4124_at 0.40481923 -0.01870933 -0.337352 -0.31864267 SYG1
plasma membrane protein YIL047C
7184_at 0.61941098 -0.02766333 -0.34622667 -0.31856333 YPC1 YBR183W
alkaline ceramidase with reverse activity
6618_at 0.45109614 -0.01342767 -0.33146967 -0.318042 Hypothetical ORFNA YDL157C
9016_at 0.50241464 -0.05647367 -0.37448333 -0.31800967 NA YNL152W
Protein required for cell viability
11078_at 0.80101973 -0.270085 -0.58803767 -0.31795267 KAR2 YJL034W
HSP70 family|mammalian BiP (GPR78) homolog
7976_at 0.59667772 -0.01872667 -0.33666833 -0.31794167 CET1 YPL228W
RNA 5'-triphosphatase|mRNA capping enzyme beta subunit (80 kD
8780_at 0.762017 -0.06314167 -0.38106233 -0.31792067 Hypothetical ORFNA YNR068C
10443_at 0.50224743 -0.02339667 -0.341032 -0.31763533 NA NA YKL162C-A
4964_at 0.49562807 -0.05072733 -0.368271 -0.31754367 ORM1 YGR038W
Evolutionarily conserved protein with similarity to Orm2p, required f
5304_at 0.70694159 -0.08005267 -0.39651333 -0.31646067 PRE4 YFR050C
necessary for peptidyl glutamyl peptide hydrolyzing activity|proteaso
8530_g_at 0.38026034 -0.011285 -0.32724433 -0.31595933 Hypothetical ORFNA YOR012W
8672_at 0.43801757 -0.00857233 -0.32436567 -0.31579333 activator
transcriptional MSN1 YOL116W
10208_at 0.51460098 -0.06046667 -0.37610567 -0.315639 PDC5
pyruvate decarboxylase YLR134W
3182_i_at 0.74200125 -0.353219 -0.668842 -0.315623 NA NA YHR217C
7319_at 0.363831 -0.01599267 -0.33135133 -0.31535867 NA NA YBR051W
5390_at 0.64421507 -0.09010567 -0.405366 -0.31526033 FET5 YFL041W
multicopper oxidase|type 1 integral membrane protein
8548_at 0.59974129 -0.11865433 -0.4337 -0.31504567 Hypothetical ORFNA YOL014W
5766_at 0.77085299 -0.30397367 -0.61891267 -0.314939 RIP1 YEL024W
Rieske iron-sulfur protein of the mitochondrial cytochrome bc1 com
3549_f_at 0.532098 -0.06208733 -0.376587 -0.31449967 NA NA YPLWDELTA9
5216_at 0.60620633 -0.06115833 -0.37561333 -0.314455 MIG2 YGL209W
contains zinc fingers very similar to zinc fingers in Mig1p
7544_at 0.44595505 -0.04120867 -0.355191 -0.31398233 aquaporin AQY1 YPR192W
5263_at 0.74077584 -0.12033133 -0.434313 -0.31398167 Hypothetical ORFNA YGL250W
10163_at 0.53549327 -0.012353 -0.32630233 -0.31394933 SWI6
transcription factor YLR182W
11069_at 0.6729058 -0.042136 -0.35592733 -0.31379133 GYP6 YJL044C
GTPase activating protein (GAP) for Ypt6
11234_at 0.56775336 -0.03339033 -0.34714533 -0.313755 SOP4
suppressor of pma1-7 YJL192C
8288_at 0.63308478 -0.006195 -0.31972433 -0.31352933 similar
protein kinase HRK1 to Npr1 YOR267C
7176_at 0.26314889 -0.00880967 -0.32199033 -0.31318067 NA NA YBR174C
8309_at 0.47963163 -0.04686267 -0.35980033 -0.31293767 synthase
pseudouridine PUS7 YOR243C
6229_at 0.55754368 -0.07539433 -0.38814233 -0.312748 AKR1 YDR264C
ankyrin repeat-containing protein
5038_at 0.28556639 -0.00095267 -0.31277367 -0.311821 NA NA YGL024W
11227_at 0.52646135 -0.03001733 -0.341624 -0.31160667 NA NA YJL199C
8919_at 0.40507066 -0.01060533 -0.321648 -0.31104267 forkhead proteinFKH2 YNL068C
6958_s_at 0.55372731 -0.006675 -0.317605 -0.31093 BUD5 factor for Rsr1 protein /// Homeobox-domain c
GTP/GDP exchange /// MATALPHA2 YCL067C
7158_at 0.41223028 -0.03338767 -0.34406167 -0.310674 COS111 resistance
Protein required for wild-typeYBR203W to the antifungal drug ciclop
10679_at 0.64338408 -0.08952267 -0.399923 -0.31040033 Hypothetical ORFNA YKL105C
5315_at 0.39063405 -0.02710767 -0.337438 -0.31033033 HSP12
heat shock protein 12 YFL013w-a
3435_f_at 0.3562065 -0.01870233 -0.32810867 -0.30940633 NA YDRWDELTA7
Identified by expression profiling and mass spectrometry /// TyB Ga
7033_at 0.42544493 -0.03436567 -0.34374633 -0.30938067 NA NA YBR109w-a
6670_at 0.67088788 -0.08252467 -0.391879 -0.30935433 NA YDL193W
Protein required for cell viability
4195_at 0.37783962 -0.00539033 -0.31386333 -0.308473 HIS5 YIL116W
histidinol-phosphate aminotransferase
10083_g_at 0.43571022 -0.02662633 -0.33433967 -0.30771333 NA NA YLR235C
9919_at 0.39557458 -0.02043833 -0.32784967 -0.30741133 IKI3 YLR384C
Subunit of RNA polymerase II elongator complex, which is a histone
6070_s_at 0.30592178 -0.005549 -0.31288767 -0.30733867 RPL12A YDR418W
ribosomal protein L12A (L15A) (YL23)
4403_at 0.40907242 -6.17E-05 -0.30725667 -0.30719497 ERP5 YHR110W
p24 protein involved in membrane trafficking
7643_at 0.53971513 -0.006152 -0.31320633 -0.30705433 Ser/Thr Kinase DBF20 YPR111W
5609_at 0.66279088 -0.11346833 -0.42024333 -0.306775 DSE1 YER124C
Daughter cell-specific protein, may participate in pathways regulatin
8281_at 0.34881067 -0.00458733 -0.31127567 -0.30668833 GCD1 YOR260W
gamma subunit|negative regulator in the general control of amino a
4825_at 0.43318867 -0.00731467 -0.312632 -0.30531733 PSD2 YGR170W
phosphatidylserine decarboxylase
8978_at 0.47895483 -0.013229 -0.31837267 -0.30514367 OCA1 YNL099C
Putative protein tyrosine phosphatase, required for cell cycle arrest
8248_at 0.21792534 -0.00496733 -0.31009767 -0.30513033 ER membraneHSD1 protein YOR311C
8822_at 0.51745768 -0.06826033 -0.37317933 -0.304919 Hypothetical ORFNA YNR063W
8206_at 0.47848455 -0.04471967 -0.34958033 -0.30486067 COT1 YOR316C
Vacuolar transporter that mediates zinc transport into the vacuole; o
10640_at 0.32643204 -0.008417 -0.31321633 -0.30479933 Hypothetical ORFNA YKL056C
8908_s_at 0.66502523 -0.03735633 -0.342066 -0.30470967 Hypothetical ORFNA YNL033W
10713_at 0.59143688 -0.00259133 -0.30719233 -0.304601 protein kinase PRR1 YKL116C
8189_at 0.58645053 -0.10606767 -0.410619 -0.30455133 NA NA YOR345C
4748_at 0.54839018 -0.00149 -0.304679 -0.303189 Hypothetical ORFNA YGR272C
4039_at 0.3117969 -0.01058133 -0.31376133 -0.30318 NA NA YIL066w-a
3724_f_at 0.27233719 -0.00249767 -0.305676 -0.30317833 NA YLRWDELTA23
Identified by expression profiling and mass spectrometry /// TyB Ga
8450_at 0.5876366 -0.10124567 -0.40400167 -0.302756 AZF1 YOR113W
Zinc-finger transcription factor, involved in induction of CLN3 transc
8422_at 0.40986783 -0.00018033 -0.302783 -0.30260267 ORT1 YOR130C
Ornithine transporter of the mitochondrial inner membrane, exports
5972_at 0.7221542 -0.18080133 -0.48334733 -0.302546 LPP1
lipid phosphate phosphataseYDR503C
7653_s_at 0.69157011 -0.192247 -0.49446067 -0.30221367 Hypothetical ORFNA YPR077C
3903_i_at 0.67815939 -0.19041367 -0.49260433 -0.30219067 NA NA YJLWDELTA2
11381_at 0.43800772 -0.028275 -0.33024433 -0.30196933 Hypothetical ORFNA YAL065C
7182_at 0.60744047 -0.120929 -0.42227233 -0.30134333 DTR1
dityrosine transporter MFS-MDR YBR180W
9975_at 0.4720404 -0.02760967 -0.32892633 -0.30131667 NIT3 YLR351C
Nit protein, one of two proteins in S. cerevisiae with similarity to the
9613_at 0.49321993 -0.00822267 -0.309189 -0.30096633 protease IMP2 YMR035W
7121_at 0.46506381 -0.03416367 -0.33492433 -0.30076067 RIB5
Riboflavin biosynthesis YBR256C
9677_at 0.55291048 -0.04263767 -0.34327033 -0.30063267 RAD52 YML032C
Protein that stimulates strand exchange by facilitating Rad51p bindi
10257_at 0.48686322 -0.010844 -0.31137667 -0.30053267 vacuolar v-SNARENYV1 YLR093C
8000_i_at 0.2578873 -0.00765967 -0.30796167 -0.300302 RPL36B (YL39)
ribosomal protein L36B (L39)YPL249C-A
8381_at 0.54967098 -0.00514567 -0.30522133 -0.30007567 APT subcomplex of cleavage and polyadenylation fa
Subunit of the SYC1 YOR179C
11247_s_at 0.57181735 -0.00295633 -0.30297967 -0.30002333 YRF1-7 YJL225C
Hypothetical ORF /// Y'-helicase protein 1
10998_at 0.67534402 -0.14273433 -0.44268833 -0.299954 REC107 YJR021C
ds break formation complex subunit
8911_s_at 0.30522768 -0.00918733 -0.30913933 -0.299952 HHF2
histone H4 (HHF1 and HHF2YNL030W code for identical proteins)
9897_f_at 0.38054306 -0.00547667 -0.30536367 -0.299887 RPL31B YLR406C
ribosomal protein L31B (L34B) (YL28)
8455_at 0.46101593 -0.00975333 -0.309266 -0.29951267 Hypothetical ORFNA YOR118W
10972_at 0.49218009 -0.00571167 -0.30514033 -0.29942867 POL32 YJR043C
55 kDa|DNA polymerase delta subunit
3410_f_at 0.4629874 -0.02828633 -0.32739633 -0.29911 NA YDRWTY2-2
Identified by expression profiling and mass spectrometry /// TyB Ga
9062_at 0.59129631 -0.09368833 -0.392657 -0.29896867 WHI3
RNA binding protein (putative) YNL197C
7588_at 0.4388727 -0.00666833 -0.305571 -0.29890267 ASN1
asparagine synthetase YPR145W
5347_at 0.53836981 -0.02613867 -0.324384 -0.29824533 SAD1 YFR005C
Conserved zinc-finger domain protein involved in pre-mRNA splicin
10481_at 0.51594593 -0.01626467 -0.31410667 -0.297842 NA green fluorescent protein (GFP)-fusion
Protein of unknown function; YKR100C
10304_at 0.6732027 -0.06447 -0.36117667 -0.29670667 Hypothetical ORFNA YLR050C
5078_at 0.33172462 -0.014329 -0.310989 -0.29666 NA NA YGL074C
4087_at 0.39763233 -0.02181367 -0.318306 -0.29649233 PAN1 YIR006C
Part of actin cytoskeleton-regulatory complex Pan1p-Sla1p-End3p,
6214_at 0.50698821 -0.05114233 -0.34756 -0.29641767 Hypothetical ORFNA YDR249C
8943_at 0.48790392 -0.00353067 -0.299787 -0.29625633 NA NA YNL089C
7412_at 0.66428352 -0.145979 -0.44220633 -0.29622733 E
HDEL receptor RD2 YBL040C
5067_at 0.37889636 -0.00160133 -0.297026 -0.29542467 HEM2 YGL040C
delta-aminolevulinate dehydratase (porphobilinogen synthase)
11190_at 0.3807239 -0.00110633 -0.29614367 -0.29503733 RPA34
RNA polymerase I subunit A34.5 YJL148W
7254_at 0.69017924 -0.17759167 -0.47219033 -0.29459867 similar
transketolase, TKL2 to TKL1 YBR117C
4938_at 0.68838374 -0.04244133 -0.33695167 -0.29451033 LST7 YGR057C
Required for amino acid permease transport from the Golgi to the c
5028_at 0.44755052 -0.03782367 -0.332131 -0.29430733 NA NA YGL034C
7884_at 0.45567996 -0.020965 -0.31444667 -0.29348167 Hypothetical ORFNA YPL141C
4325_at 0.37327671 -0.020395 -0.313633 -0.293238 NA NA YHL046w-a
10780_at 0.53734172 -0.04251 -0.33519 -0.29268 LOT5 gene expression increases in cultures
Protein of unknown function; YKL183W
9438_at 0.36723 -0.00117767 -0.29299767 -0.29182 DML1 YMR211W
Protein required for cell viability
4412_at 0.44593458 -0.02260667 -0.314202 -0.29159533 SET1 YHR119W
Histone methyltransferase, subunit of the COMPASS complex, whic
9855_at 0.66668498 -0.06883967 -0.36028667 -0.291447 LEU3 YLR451W
zinc finger transcription factor of the Zn(2)-Cys(6) binuclear cluster
5590_at 0.47341528 -0.00692 -0.29828167 -0.29136167 NUP157
nuclear pore complex subunit YER105C
6130_at 0.43481771 -0.03122367 -0.32237833 -0.29115467 NA NA YDR344C
5994_at 0.34715894 -0.00264 -0.29368667 -0.29104667 DIG2
MAP kinase-associated protein YDR480W
8021_at 0.60556754 -0.02881533 -0.31937067 -0.29055533 SAM3 YPL274W
high affinity S-adenosylmethionine permease
9150_at 0.64888714 -0.008236 -0.29835133 -0.29011533 PCL1
G1 cyclin|associates with PHO85YNL289W
9562_at 0.76097153 -0.04001333 -0.33002033 -0.290007 PDS5 YMR076C
Precocious Dissociation of Sister chromatids
3499_f_at 0.29254715 -0.00842 -0.29797067 -0.28955067 NA YCLWDELTA5
Identified by expression profiling and mass spectrometry /// TyB Ga
8517_at 0.58585519 -0.09132633 -0.380574 -0.28924767 Hypothetical ORFNA YOR044W
6633_at 0.56585013 -0.04905233 -0.338132 -0.28907967 CRD1
cardiolipin synthase YDL142C
10790_at 0.6974447 -0.00446333 -0.29347067 -0.28900733 Hypothetical ORFNA YKL222C
7869_at 0.40030736 -0.01343767 -0.30213967 -0.288702 arginase CAR1 YPL111W
8392_at 0.35337597 -0.008321 -0.29686167 -0.28854067 PNO1
Associated with Nob1 YOR145C
10051_at 0.55517841 -0.045059 -0.33345433 -0.28839533 GCD7 YLR291C
negative regulator of GCN4 expression|translation initiation factor e
8665_at 0.622583 -0.04631833 -0.33471333 -0.288395 NA YOL124C
Putative S-adenosylmethionine-dependent methyltransferase of the
10554_at 0.4646911 -0.00317733 -0.29143867 -0.28826133 SPC34
spindle pole component YKR037C
6660_at 0.56383467 -0.01088067 -0.299122 -0.28824133 DHH1 YDL160C
Cytoplasmic DExD/H-box helicase, stimulates mRNA decapping, co
6716_at 0.504077 -0.00568867 -0.2937 -0.28801133 Hypothetical ORFNA YDL237W
6357_at 0.63012518 -0.02043267 -0.30838233 -0.28794967 KIN1
Serine/threonine protein kinaseYDR122W
4719_at 0.59792429 -0.013917 -0.30122533 -0.28730833 MAL11 YGR289C
alpha-glucoside transporter|hexose transporter|maltose permease
8595_at 0.5511204 -0.029546 -0.31610233 -0.28655633 GPM3
phosphoglycerate mutase YOL056W
7404_at 0.43911466 -0.01965633 -0.306128 -0.28647167 NA NA YBL048W
4260_at 0.47591469 -0.038129 -0.32435067 -0.28622167 AXL2 YIL141W
Integral plasma membrane protein required for axial budding in hap
8138_at 0.54968151 -0.06715333 -0.35318 -0.28602667 reductase withYOR384W Fre2p; expression induce
Putative ferric FRE5 similarity to
7135_at 0.59533013 -0.044633 -0.33030967 -0.28567667 Hypothetical ORFNA YBR225W
6789_at 0.42956824 -0.01017667 -0.295287 -0.28511033 CDC50 YCR094W
Endosomal protein that regulates cell polarity; similar to Ynr048wp a
8340_at 0.67714723 -0.02212567 -0.30676233 -0.28463667 Hypothetical ORFNA YOR228C
8301_at 0.395176 -0.02073033 -0.305094 -0.28436367 NA NA YOR235W
9661_at 0.41353939 -0.00118633 -0.28525 -0.28406367 ERG6 YML008C
Delta(24)-sterol C-methyltransferase, converts zymosterol to fecost
4482_at 0.52480779 -0.010078 -0.29400167 -0.28392367 CIC1
Core interacting component 1 YHR052W
11207_at 0.51231547 -0.009594 -0.293274 -0.28368 SWI3
transcription factor YJL176C
11236_at 0.38252728 -0.01697933 -0.30043767 -0.28345833 RPS22A YJL190C
ribosomal protein S22A (S24A) (rp50) (YS22)
4063_at 0.28424366 -0.00293033 -0.28637467 -0.28344433 allantoinase DAL1 YIR027C
10583_at 0.46425647 -0.03181667 -0.31451267 -0.282696 URA6 YKL024C
uridine-monophosphate kinase (uridylate kinase)
7447_at 0.45464918 -0.02990833 -0.312252 -0.28234367 ROX3 YBL093C
RNA polymerase II holoenzyme/mediator subunit
9883_at 0.39091836 -0.020503 -0.30247433 -0.28197133 protein YLR436C
Non-essential ECM30 of unknown function
3781_f_at 0.39238566 -0.01164833 -0.29358133 -0.281933 NA YLRWTY1-2
Identified by expression profiling and mass spectrometry /// TyA Ga
4967_at 0.52738601 -0.01152633 -0.293168 -0.28164167 BUD9 YGR041W
Protein involved in bud-site selection; diploid mutants display a unip
10037_at 0.37905216 -0.01948767 -0.301045 -0.28155733 NA NA YLR279W
10033_at 0.56533606 -0.037881 -0.31938467 -0.28150367 SMD2 class
U1 snRNP protein of the Sm YLR275W
8463_at 0.53156843 -0.029384 -0.310757 -0.281373 NA NA YOR082C
9578_at 0.37491207 -0.001399 -0.28255633 -0.28115733 NUP116
nuclear pore complex subunit YMR047C
11027_at 0.44066102 -0.013393 -0.29369 -0.280297 APL1 YJR005W
beta-adaptin|clathrin associated protein complex large subunit
6194_at 0.44154479 -0.026007 -0.306234 -0.280227 NA NA YDR274C
7833_at 0.50897938 -0.04508633 -0.32523033 -0.280144 Hypothetical ORFNA YPL056C
11231_at 0.50269803 -0.04530533 -0.32523833 -0.279933 NA NA YJL195C
11040_at 0.36978606 -0.01635833 -0.29619767 -0.27983933 Hypothetical ORFNA YJL027C
6691_at 0.38533614 -0.01050867 -0.29032333 -0.27981467 TIM22 YDL217C
Mitochondrial inner membrane protein involved in import of proteins
7595_at 0.45711242 -0.02401833 -0.30364833 -0.27963 Hypothetical ORFNA YPR152C
9498_f_at 0.42644496 -0.002547 -0.282094 -0.279547 RPS16A
ribosomal protein S16A (rp61R) YMR143W
6780_at 0.50897936 -0.04438833 -0.32391867 -0.27953033 CSM1 with Lrs4p,
Protein that forms a complexYCR086W located in the nucleolus; L
6178_at 0.46853345 -0.000534 -0.28002033 -0.27948633 CPR5 YDR304C
cyclophilin D|peptidyl-prolyl cis-trans isomerase (PPIase)
4428_at 0.75096866 -0.23483467 -0.514082 -0.27924733 HXT4 YHR092C
high affinity glucose transporter
6309_at 0.44283353 -0.001373 -0.28024833 -0.27887533 protein YDR163W
Non-essential CWC15involved in pre-mRNA splicing, component of
8006_at 0.50493077 -0.02868833 -0.30749533 -0.278807 HUT1 YPL244C
Protein with a role in UDP-galactose transport to the Golgi lumen, h
9617_at 0.45075786 -0.00968 -0.28818933 -0.27850933 coactivator YMR039C
transcriptional SUB1
8547_at 0.58285703 -0.05077667 -0.32891033 -0.27813367 Hypothetical ORFNA YOL015W
7596_at 0.35684047 -0.001629 -0.279676 -0.278047 Hypothetical ORFNA YPR153W
4034_at 0.44989667 -0.018261 -0.29625167 -0.27799067 NA NA YIR020W-B
9429_at 0.27176222 -0.000218 -0.278152 -0.277934 ERG2
C-8 sterol isomerase YMR202W
3580_f_at 0.38326774 -0.00765833 -0.28513567 -0.27747733 NA YORWTY2-2
Identified by expression profiling and mass spectrometry /// TyB Ga
10036_at 0.39905677 -0.00394567 -0.28042167 -0.276476 NA localizes
Protein of unknown function, YLR278Cto the nucleus; potential Cdc
5229_at 0.6028555 -0.069236 -0.34543233 -0.27619633 NA NA YGL239C
4822_at 0.46135453 -0.019114 -0.29529667 -0.27618267 CLC1
clathrin light chain YGR167W
7691_at 0.49210672 -0.031029 -0.30704733 -0.27601833 Hypothetical ORFNA YPR071W
6210_at 0.61595104 -0.006647 -0.282663 -0.276016 MNN10
galactosyltransferase YDR245W
4128_at 0.54383928 -0.05381967 -0.32934367 -0.275524 CBR1
cytochrome b reductase YIL043C
9086_at 0.46990801 -0.00904733 -0.284474 -0.27542667 Hypothetical ORFNA YNL217W
6515_at 0.3196221 -0.00971233 -0.28507733 -0.275365 BSC1 YDL037C
Transcript encoded by this ORF shows a high level of stop codon b
7297_at 0.35317406 -0.00134133 -0.276655 -0.27531367 Hypothetical ORFNA YBR074W
4915_at 0.70220868 -0.03635367 -0.31145433 -0.27510067 Hypothetical ORFNA YGR079W
7278_at 0.65896087 -0.03609533 -0.311043 -0.27494767 VPS15
serine/threonine protein kinase YBR097W
5700_at 0.66665347 -0.129844 -0.40472367 -0.27487967 NA NA YER044C-A
7972_at 0.49818284 -0.04157433 -0.31622767 -0.27465333 t-SNARE SSO1 YPL232W
8549_at 0.56316955 -0.00714467 -0.281661 -0.27451633 HRD1 YOL013C
Ubiquitin-protein ligase required for endoplasmic reticulum-associat
10766_at 0.54547996 -0.00623 -0.280609 -0.274379 v-SNARE YKT6 YKL196C
6672_s_at 0.43227493 -0.00857733 -0.282953 -0.27437567 RPL35A
ribosomal protein L35A YDL191W
3413_f_at 0.3464134 -0.00335567 -0.27740033 -0.27404467 NA YDRCTY1-2
Identified by expression profiling and mass spectrometry /// TyA Ga
6166_at 0.23522863 -0.00199033 -0.275499 -0.27350867 SRP101 YDR292C
signal recognition particle receptor - alpha subunit
3618_f_at 0.39983145 -0.01780533 -0.29119233 -0.273387 NA YORCDELTA20
Identified by expression profiling and mass spectrometry /// TyB Ga
9585_at 0.57406432 -0.026591 -0.29994333 -0.27335233 BUB2 arrest in response to loss of microtub
Protein required for cell cycleYMR055C
9750_at 0.57970276 -0.057637 -0.33010267 -0.27246567 NA NA YML095C-A
4069_at 0.58771882 -0.00805967 -0.28036133 -0.27230167 protein YIR033W
ER membraneMGA2 involved, with its homolog Spt23p, in regulati
4327_at 0.49816753 -0.02911033 -0.30097033 -0.27186 NA NA YHL006w-a
9400_at 0.71593762 -0.05263067 -0.32445667 -0.271826 TRS130 YMR218C
targeting complex (TRAPP) component involved in ER to Golgi mem
10030_at 0.54795127 -0.028383 -0.29997233 -0.27158933 NA NKP2 YLR315W
4400_at 0.35306683 -0.00574867 -0.27571867 -0.26997 peroxin PEX28 YHR150W
6438_at 0.29298303 -0.00240533 -0.272161 -0.26975567 SES1
serine-tRNA ligase YDR023W
11116_at 0.40108023 -0.019121 -0.28867867 -0.26955767 tRNA ligase TRL1 YJL086C
8524_at 0.35360447 -0.007902 -0.277357 -0.269455 Hypothetical ORFNA YOR051C
8034_at 0.6761862 -0.08275867 -0.352023 -0.26926433 NA NA YPL261C
4324_s_at 0.71459378 -0.01223833 -0.28123033 -0.268992 YRF1-7
Y'-helicase protein 1 YHR218W
9555_at 0.59827203 -0.00456333 -0.273554 -0.26899067 MOT3 YMR070W
2 Cys2-His2 zinc fingers at c-terminus, glutamine and asparagine ri
11181_at 0.71089194 -0.15869333 -0.42732467 -0.26863133 FAR1
Cdc28p kinase inhibitor YJL157C
6419_at 0.40934714 -0.003752 -0.27196033 -0.26820833 TPI1
triosephosphate isomerase YDR050C
4350_at 0.71750531 -0.03570567 -0.30389967 -0.268194 ERG9
squalene synthetase YHR190W
11106_at 0.61700853 -0.089892 -0.35802833 -0.26813633 MRPL49 YJL096W
Mitochondrial ribosomal protein of the large subunit
9282_at 0.56072741 -0.00379633 -0.27143533 -0.267639 Hypothetical ORFNA YMR317W
9662_at 0.74361802 -0.10870967 -0.376224 -0.26751433 YAP1
jun-like transcription factor YML007W
10691_at 0.42405482 -0.02115 -0.28861667 -0.26746667 YJU3 localizes to
Protein of unknown function, YKL094W lipid particles
7843_at 0.57303246 -0.06340933 -0.33066567 -0.26725633 SSU1
major facilitator superfamily YPL092W
3493_f_at 0.56781634 -0.03249 -0.299705 -0.267215 HAP1 YCLWDELTA2A
zinc finger transcription factor of the Zn(2)-Cys(6) binuclear cluster
5602_at 0.54696911 -0.01439033 -0.28150867 -0.26711833 SHO1
transmembrane osmosensorYER118C
9455_at 0.54424501 -0.03116567 -0.29819533 -0.26702967 NA YMR185W
Protein required for cell viability
9876_at 0.4415617 -0.001976 -0.26899267 -0.26701667 CRN1 YLR429W
Dictyostelium and human actin-binding protein coronin homolog
3241_f_at 0.4380192 -0.00198633 -0.26898433 -0.266998 NA YGRCTY2-1
Identified by expression profiling and mass spectrometry /// TyB Ga
9653_at 0.34888872 -0.00026967 -0.266994 -0.26672433 ERV25
vesicle coat component YML012W
10213_at 0.34382596 -0.00569367 -0.27226367 -0.26657 SLS1 YLR139C
73 kDa mitochondrial integral membrane protein
9201_at 0.39040861 -0.00227733 -0.26852233 -0.266245 AAA ATPase PEX6 YNL329C
4944_at 0.50133804 -0.01245 -0.27858967 -0.26613967 regulator|zinc YGR063C
transcriptional SPT4 finger protein
9944_at 0.5213718 -0.045661 -0.31145367 -0.26579267 NA NA YLR365W
10229_at 0.54876698 -0.03042167 -0.29593233 -0.26551067 CCW12
cell wall mannoprotein YLR110C
3485_at 0.61665208 -0.09813933 -0.36336833 -0.265229 NA YCLWTY5-1
Psuedogene: encodes fragment of Ty Pol protein
3298_f_at 0.68383173 -0.16948667 -0.43463867 -0.265152 NA NA YGLWOMEGA1
9761_at 0.42108253 -0.02165333 -0.286788 -0.26513467 NA NA YML124C
8331_at 0.63663139 -0.00597867 -0.27104533 -0.26506667 Hypothetical ORFNA YOR220W
4346_at 0.57483399 -0.054586 -0.31950533 -0.26491933 KOG1 YHR186C
Subunit of TORC1, a rapamycin-sensitive complex involved in grow
8349_f_at 0.44232513 -0.025022 -0.289752 -0.26473 Hypothetical ORFNA YOR192C
8185_at 0.46526716 -0.025439 -0.2898 -0.264361 RPA190
RNA polymerase I subunit YOR341W
5537_at 0.80241194 -0.35609333 -0.62043033 -0.264337 NA NA YER188W
5566_at 0.38626629 -0.01245567 -0.27670967 -0.264254 NSA2
ribosome biogenesis YER126C
8692_at 0.31112804 -0.00257633 -0.26657767 -0.26400133 RRP40
3' -> 5' exoribonuclease YOL142W
3914_s_at 0.64990689 -0.00688433 -0.27056333 -0.263679 NA YARCTY1-1
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
6175_at 0.33479394 -0.00861633 -0.272187 -0.26357067 CFT1 YDR301W
150 kDa protein associated with polyadenylation factor 1 (PF I)|clea
5974_at 0.69689205 -0.169233 -0.432778 -0.263545 PSP1 YDR505C
high-copy suppressor of cdc17 DNA polymerase alpha mutations
9328_at 0.57202191 -0.03719767 -0.300694 -0.26349633 Hypothetical ORFNA YMR279C
6378_at 0.16271775 -0.00080267 -0.264296 -0.26349333 glutaredoxin GRX3 YDR098C
8957_at 0.36466926 -0.001755 -0.26514533 -0.26339033 IMP4
U3 snoRNP protein YNL075W
6063_at 0.49690888 -0.01799767 -0.28131533 -0.26331767 NA NA YDR413C
6480_at 0.76504057 -0.21255667 -0.47566833 -0.26311167 GCV1 YDR019C
glycine decarboxylase complex T subunit
5969_at 0.44863101 -0.01268233 -0.275605 -0.26292267 RPL37B (YL35)
ribosomal protein L37B (L43)YDR500C
9904_at 0.57661266 -0.02554633 -0.288431 -0.26288467 NA green fluorescent protein (GFP)-fusion
Protein of unknown function; YLR413W
9890_s_at 0.35293698 -0.00562633 -0.267778 -0.26215167 RPS1B
ribosomal protein S1B (rp10B) YLR441C
11111_at 0.71881232 -0.16874733 -0.430653 -0.26190567 GWT1 YJL091C
Protein involved in the inositol acylation of glucosaminyl phosphatid
7998_at 0.56713681 -0.039629 -0.301509 -0.26188 NA NA YPL251W
9687_at 0.4693568 -0.009972 -0.27142667 -0.26145467 NA YML023C
Protein required for cell viability
4877_at 0.67787424 -0.108221 -0.36962567 -0.26140467 PHB1 YGR132C
Phb2p homolog|mitochondrial protein
5174_at 0.54876741 -0.02463767 -0.28595067 -0.261313 YIP5 YGL161C
Protein that interacts with Rab GTPases; computational analysis of
4076_f_at 0.50913617 -0.03313767 -0.294287 -0.26114933 Hypothetical ORFNA YIR041W
11062_at 0.74209949 -0.22348867 -0.48457333 -0.26108467 NA localized
Protein of unknown function, YJL051Wto the bud tip; mRNA is targe
6595_at 0.29246367 -0.00276833 -0.26380833 -0.26104 Hypothetical ORFNA YDL133W
6531_at 0.61991662 -0.01043167 -0.27072467 -0.260293 COX9 YDL067C
cytochrome c oxidase subunit VIIa
7823_at 0.44361269 -0.02182767 -0.28210567 -0.260278 Hypothetical ORFNA YPL066W
6202_at 0.49738842 -0.011217 -0.27146767 -0.26025067 Hypothetical ORFNA YDR282C
7349_at 0.24139219 -0.00209833 -0.26232233 -0.260224 PDX3 YBR035C
pyridoxine (pyridoxiamine) phosphate oxidase
7275_at 0.45688771 -0.00471167 -0.26490333 -0.26019167 Hypothetical ORFNA YBR094W
7419_at 0.42255183 -0.015298 -0.27505467 -0.25975667 RIB1
GTP cyclohydrolase II YBL033C
4322_at 0.62726316 -0.08771133 -0.34705233 -0.259341 Hypothetical ORFNA YHR210C
8171_at 0.73526938 -0.04994333 -0.309239 -0.25929567 NDD1
Nuclear Division Defective 1 YOR372C
9644_at 0.51403558 -0.00821667 -0.26716333 -0.25894667 Hypothetical ORFNA YML020W
11317_s_at 0.83160007 -0.283372 -0.54230333 -0.25893133 SSA1 family
heat shock protein of HSP70YAL005C
3732_s_at 0.66527956 -0.05158233 -0.310417 -0.25883467 NA NA YLR463C
9866_i_at 0.53275798 -0.044108 -0.302903 -0.258795 NA NA YLR465C
3285_f_at 0.46545731 -3.97E-05 -0.25875233 -0.25871263 NA YFLWDELTA4
Identified by expression profiling and mass spectrometry /// TyB Ga
7894_at 0.47505689 -0.00744967 -0.266142 -0.25869233 RPL5
ribosomal protein L5 (L1a)(YL3)YPL131W
6870_at 0.73738488 -0.090122 -0.34809033 -0.25796833 SGF29 SAGA histone acetyltransferase comp
Probable 29kKDa Subunit of YCL010C
7161_g_at 0.50149677 -0.02482567 -0.282563 -0.25773733 KTR3 YBR205W
alpha-1,2-mannosyltransferase (putative)
6396_at 0.48254312 -0.00906667 -0.266488 -0.25742133 IPT1
inositolphosphotransferase 1YDR072C
4243_at 0.73950947 -0.126427 -0.383566 -0.257139 Hypothetical ORFNA YIL158W
9386_at 0.62326748 -0.053233 -0.31022033 -0.25698733 FAA4 YMR246W
long chain fatty acyl:CoA synthetase|long-chain fatty acid:CoA ligas
4130_at 0.52652411 -0.007903 -0.26488833 -0.25698533 NA
peripheral membrane proteinYIL041W
6496_at 0.35769059 -0.007364 -0.26409233 -0.25672833 NA NA YDL011C
9526_at 0.33210138 -0.00877833 -0.26509867 -0.25632033 SAS2
zinc finger protein YMR127C
11364_at 0.65448972 -0.00997233 -0.26589 -0.25591767 GCV3 YAL044C
glycine cleavage system H-protein subunit
9640_at 0.38120785 -0.00776767 -0.263645 -0.25587733 Hypothetical ORFNA YMR018W
6332_at 0.45079527 -0.00137167 -0.25699767 -0.255626 DOP1 essential
Protein of unknown function, YDR141Cfor viability, involved in estab
7180_at 0.48044067 -0.00968667 -0.265211 -0.25552433 NA NA YBR178W
5552_at 0.54669566 -0.01545667 -0.270559 -0.25510233 NA has similarity to Afr1p; potentially phos
Protein of unknown function, YER158C
9554_at 0.52550394 -0.01999767 -0.27500867 -0.255011 NAT4
N-alpha acetyltransferase YMR069W
10781_at 0.5272624 -0.02756067 -0.28251567 -0.254955 FAS1 YKL182W
acetyl transferase|dehydratase|enoyl reductase|malonyl/palmityl tra
9206_at 0.522059 -0.037705 -0.29243467 -0.25472967 NA NA YNL324W
4231_at 0.7282892 -0.04369133 -0.29828767 -0.25459633 KGD1 YIL125W
alpha-ketoglutarate dehydrogenase
9723_at 0.63207384 -0.07132133 -0.32583967 -0.25451833 ORF WAR1 YML076C
7415_at 0.51481135 -0.00936033 -0.263611 -0.25425067 APL3 YBL037W
clathrin associated protein complex large subunit
5351_at 0.35655049 -0.005645 -0.259871 -0.254226 GCN20 family
ATP-binding cassette (ABC) YFR009W
6110_at 0.6281287 -0.02714333 -0.28136433 -0.254221 YPR1 YDR368W
2-methylbutyraldehyde reductase, may be involved in isoleucine ca
5984_at 0.63477589 -0.102602 -0.35673567 -0.25413367 UGO1
outer membrane protein YDR470C
8307_at 0.37531832 -0.00076733 -0.25489333 -0.254126 MET7
folylpolyglutamate synthetase YOR241W
6475_at 0.52254234 -0.03393633 -0.28780367 -0.25386733 RAD61 mutation confers radiation sensitivity
Protein of unknown function; YDR014W
3852_f_at 0.29523514 -0.00283433 -0.25663967 -0.25380533 COS5 member
Protein of unknown function, YJR161Cof a family of conserved, ofte
9937_at 0.33709785 -0.00880433 -0.26250767 -0.25370333 NA NA YLR402W
8606_at 0.54771327 -0.04320767 -0.296838 -0.25363033 NA NA YOL046C
10616_at 0.59584641 -0.03143533 -0.28486833 -0.253433 NA NA YKL036C
6798_f_at 0.47659024 -0.02504167 -0.278069 -0.25302733 Hypothetical ORFNA YCR104W
4420_at 0.5240201 -0.03927733 -0.2922 -0.25292267 Hypothetical ORFNA YHR126C
7855_f_at 0.43158954 -0.016315 -0.269132 -0.252817 RPS9A (rp21) (YS11)
ribosomal protein S9A (S13) YPL081W
5308_at 0.47735846 -0.000287 -0.25282067 -0.25253367 NA NA YFR054C
5942_at 0.69729427 -0.089471 -0.34121933 -0.25174833 EUG1 YDR518W
protein disulfide isomerase homolog
9094_s_at 0.30305726 -0.00309133 -0.254714 -0.25162267 SSB2 YNL209W
SSB1 homolog|heat shock protein of HSP70 family
7996_at 0.42843805 -0.01605367 -0.26741267 -0.251359 VIK1 with Kar3p
Protein that forms a complexYPL253C at the spindle pole body, p
5943_at 0.68435981 -0.04724767 -0.29856867 -0.251321 cis-trans isomerase (PPIase)
peptidyl-prolyl FPR2 YDR519W
6918_at 0.69103669 -0.02682567 -0.27760367 -0.250778 division YCL059C
Involved in cellKRR1 and spore germination
6855_at 0.4814096 -0.02293567 -0.273605 -0.25066933 NA NA YCR022C
9020_at 0.32137219 -0.007381 -0.257912 -0.250531 cofactor B
tubulin folding ALF1 YNL148C
3664_f_at 0.37146002 -0.00593 -0.25632567 -0.25039567 NA YNLCDELTA5
Identified by expression profiling and mass spectrometry /// TyB Ga
4577_at 0.57619984 -0.03462533 -0.28452367 -0.24989833 GOS1 YHL031C
SNARE protein with a C-terminal membrane anchor
4858_at 0.73855623 -0.13407467 -0.38362967 -0.249555 CHO2 YGR157W
phosphatidyl-ethanolamine N-methyltransferase
8321_at 0.36162569 -0.00163567 -0.25110233 -0.24946667 RPB10
RNA polymerase II core subunit YOR210W
7380_f_at 0.8031589 -0.24996 -0.49930233 -0.24934233 NA NA YBL026W
7743_at 0.38977193 -0.00095333 -0.25024933 -0.249296 RET3
vesicle coat component YPL010W
3614_f_at 0.63407631 -0.07986733 -0.32898167 -0.24911433 NA NA YORCDELTA18
9497_i_at 0.60027452 -0.03694233 -0.28598167 -0.24903933 RPS16A
ribosomal protein S16A (rp61R) YMR143W
8382_at 0.48463825 -0.007612 -0.255864 -0.248252 DCI1 YOR180C
delta(3,5)-delta(2,4)-dienoyl-CoA isomerase
10567_at 0.58045045 -0.00408433 -0.25159867 -0.24751433 protein YKR004C
Non-essential ECM9 of unknown function
6538_at 0.61924286 -0.03006967 -0.27755767 -0.247488 TSR1 YDL060W
Protein required for processing of 20S pre-rRNA in the cytoplasm, a
7992_at 0.36834986 -0.00036467 -0.24766033 -0.24729567 PUS1
tRNA pseudouridine synthase YPL212C
3733_s_at 0.56777689 -0.016677 -0.263802 -0.247125 YRF1-7
Y'-helicase protein 1 YLR464W
10000_at 0.53607813 -0.039696 -0.28630167 -0.24660567 NA NA YLR331C
6335_at 0.31177989 -0.003428 -0.24998633 -0.24655833 MKC7 YDR144C
aspartyl protease|related to Yap3p
10263_at 0.50405728 -0.02978467 -0.276089 -0.24630433 Non-essential NA YLR054C
protein required for construction of the outer spore w
9881_at 0.64708513 -0.10044467 -0.34663267 -0.246188 NA NA YLR434C
9499_at 0.57780815 -0.01537467 -0.26127767 -0.245903 Hypothetical ORFNA YMR144W
9349_at 0.42155021 -0.00591 -0.25179667 -0.24588667 GFD1 YMR255W
Coiled-coiled protein of unknown function, identified as a high-copy
5246_at 0.34711943 -0.00408233 -0.24985367 -0.24577133 SDT1 YGL224C
Pyrimidine nucleotidase; overexpression suppresses the 6-AU sens
6312_at 0.30832576 -0.0027 -0.24834433 -0.24564433 SEC5
exocyst complex component YDR166C
3584_f_at 0.49018049 -0.002867 -0.24851033 -0.24564333 NA NA YPLCDELTA1
5955_at 0.62568401 -0.01138233 -0.25693033 -0.245548 NA YDR531W
Pantothenate kinase (ATP:D-pantothenate 4'-phosphotransferase, E
10152_at 0.60333443 -0.047944 -0.29329267 -0.24534867 DPH5 YLR172C
Methyltransferase required for diphthamide biosynthesis, not essen
6927_at 0.58958355 -0.01882 -0.26373533 -0.24491533 Hypothetical ORFNA YCL049C
3544_at 0.50169098 -0.02968833 -0.27428233 -0.244594 NA NA YBL108W
9488_at 0.62195408 -0.02393833 -0.26821533 -0.244277 GID8 involved in
Protein of unknown function, YMR135C proteasome-dependent cat
5139_at 0.64500396 -0.00652667 -0.25035233 -0.24382567 INO80 YGL150C
ATPase that forms a large complex, containing actin and several ac
4223_at 0.46720641 -0.00859067 -0.252171 -0.24358033 RPL16A YIL133C
ribosomal protein L16A (L21A) (rp22) (YL15)
9006_s_at 0.35538563 -0.00624467 -0.249764 -0.24351933 RPL42A YNL162W
ribosomal protein L42A (YL27) (L41A)
4513_at 0.71808097 -0.02910467 -0.27225667 -0.243152 MSC7 green fluorescent protein (GFP)-fusion
Protein of unknown function, YHR039C
10801_at 0.56237794 -0.03066933 -0.27367533 -0.243006 TRP3 YKL211C
anthranilate synthase component II|indole-3-phosphate
3450_r_at 0.54473858 -0.03863167 -0.28160867 -0.242977 NA NA YDRWDELTA10
10954_at 0.58548082 -0.04827033 -0.29106 -0.24278967 LIA1 YJR070C
Protein that binds to the C-terminal domain of Hyp2p (eIF5A); has f
6388_at 0.61313676 -0.00618667 -0.24894433 -0.24275767 GSG1 protein particle), a multi-subunit comp
Subunit of TRAPP (transport YDR108W
6561_at 0.47930578 -0.01883133 -0.26146667 -0.24263533 RPP1A (YP1alpha)
acidic ribosomal protein P1A YDL081C (A1)
8398_at 0.4143853 -0.013674 -0.256294 -0.24262 RPB2
RNA polymerase II core subunit YOR151C
6238_at 0.63954812 -0.00498367 -0.24756 -0.24257633 SIR4 YDR227W
silencing regulator at HML, HMR, and telomeres
9383_at 0.51507979 -0.02696233 -0.26942033 -0.242458 Hypothetical ORFNA YMR244W
8258_at 0.69220224 -0.014061 -0.256482 -0.242421 NA NA YOR282W
3572_f_at 0.43427464 -0.01687067 -0.259038 -0.24216733 NA YORCDELTA21
Identified by expression profiling and mass spectrometry /// TyA Ga
3945_at 0.54030667 -0.01730867 -0.25946467 -0.242156 ERV1
sulfhydryl oxidase YGR029W
11366_at 0.46331678 -0.02284567 -0.26460333 -0.24175767 NA NA YAL043C-A
10005_at 0.3868542 -0.00557833 -0.24721633 -0.241638 nucleoporin NUP2 YLR335W
7853_at 0.60720938 -0.039313 -0.28091833 -0.24160533 MOT1
helicase (putative) YPL082C
7066_at 0.52301473 -0.02858367 -0.26985667 -0.241273 Hypothetical ORFNA YBR293W
10612_at 0.51782199 -0.00195933 -0.24305433 -0.241095 N
Nifu-like protein FU1 YKL040C
4184_s_at 0.61940976 -0.02769467 -0.26817533 -0.24048067 NA YIL080W
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
9493_at 0.57072293 -0.02506367 -0.26525433 -0.24019067 RIM11 YMR139W
Required for Ime1p phosphorylation, association of the Ime1p-Ume
5551_at 0.65357374 -0.00488833 -0.24494733 -0.240059 Component of COG3 YER157W
the Conserved Oligomeric Golgi complex
4224_at 0.50085376 -0.00826867 -0.24808367 -0.239815 CSM2 chromosome segregation during meio
Protein required for accurate YIL132C
10205_at 0.71504107 -0.130635 -0.36991333 -0.23927833 ACE2 YLR131C
zinc finger transcription factor
5029_at 0.51911758 -0.03380533 -0.27273233 -0.238927 HOP2 YGL033W
meiosis-specific gene required for the pairing of similar chromosom
5647_s_at 0.43338482 -0.005437 -0.24408967 -0.23865267 RPS24B
ribosomal protein S24B YER074W
9774_at 0.21295791 -0.001238 -0.23985267 -0.23861467 DAT1 YML113W
datin|oligo(dA).oligo(dT)-binding protein
6680_s_at 0.63639581 -0.00282067 -0.24119867 -0.238378 RPL41A YDL184C
ribosomal protein L41A (YL41) (L47A)
5179_at 0.82610616 -0.23625233 -0.47434233 -0.23809 AMS1
alpha mannosidase YGL156W
10029_at 0.5739879 -0.03466733 -0.27156533 -0.236898 septin CDC3 YLR314C
3578_f_at 0.5095147 -0.01384367 -0.25001067 -0.236167 NA YORWDELTA23
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
11211_at 0.66859174 -0.01961067 -0.25495833 -0.23534767 CPS1
carboxypeptidase yscS YJL172W
9143_at 0.55649703 -0.02063933 -0.25525033 -0.234611 NA NA YNL296W
10602_at 0.46627242 -0.01388733 -0.248393 -0.23450567 Hypothetical ORFNA YKL050C
10416_at 0.56302301 -0.04359333 -0.27803367 -0.23444033 GTT2
glutathione transferase YLL060C
7240_at 0.44580331 -0.007423 -0.241586 -0.234163 YMC2 YBR104W
Putative mitochondrial inner membrane transporter, member of the
8618_at 0.53200793 -0.00322433 -0.23721433 -0.23399 REX4
RNA EXonuclease; member YOL080Cof 3'->5' exonuclease family. See Mose
10512_at 0.59598943 -0.03747833 -0.27143133 -0.233953 NA NA YKR040C
5649_at 0.6385089 -0.00440733 -0.23812867 -0.23372133 Hypothetical ORFNA YER076C
8032_at 0.53640382 -0.01646067 -0.250122 -0.23366133 KEL3 YPL263C
kelch-repeat protein|similar to Kel1 and Kel2
7144_at 0.56855695 -0.001578 -0.23503167 -0.23345367 ARC40 YBR234C
Arp2/3 complex subunit, 40 kilodalton
6841_at 0.30161959 -0.00383267 -0.237233 -0.23340033 THR4
threonine synthase YCR053W
6184_at 0.63167363 -0.00929767 -0.242566 -0.23326833 Hypothetical ORFNA YDR307W
5498_at 0.44303273 -0.01176 -0.24483367 -0.23307367 NA NA YER038w-a
3422_f_at 0.344408 -0.00452467 -0.23747967 -0.232955 NA YDRWDELTA20
Identified by expression profiling and mass spectrometry /// TyB Ga
10373_at 0.61101967 -0.014399 -0.247061 -0.232662 JLP1 YLL057C
similar to Fe(II)-dependent sulfonate/alpha-ketoglutarate dioxygena
4997_at 0.60733107 -0.014792 -0.24738933 -0.23259733 THG1 YGR024C
tRNAHis guanylyltransferase, adds a guanosine residue to the 5' en
4904_at 0.77108584 -0.09032367 -0.32286833 -0.23254467 NA NA YGR114C
4329_at 0.5069473 -0.02468233 -0.25689433 -0.232212 NA NA YHR056w-a
7688_at 0.83459974 -0.03614533 -0.26833367 -0.23218833 I histone YPR068C
Putative class HOS1 deacetylase (HDAC) with sequence similari
10682_at 0.33206413 -0.00444433 -0.236355 -0.23191067 NA NA YKL102C
10684_at 0.72944168 -0.01946767 -0.25118067 -0.231713 Hypothetical ORFNA YKL100C
3832_s_at 0.5883447 -0.05234067 -0.28405067 -0.23171 NA YKR106W
Protein of unconfirmed function; displays a topology characteristic o
7372_at 0.57622621 -0.046298 -0.27782467 -0.23152667 Hypothetical ORFNA YBR013C
6729_at 0.80969661 -0.16103867 -0.39224767 -0.231209 HBT1 YDL223C
Substrate of the Hub1p ubiquitin-like protein that localizes to the sh
7784_at 0.86883385 -0.251338 -0.48242167 -0.23108367 Hypothetical ORFNA YPL014W
4341_at 0.66008241 -0.02229867 -0.25288867 -0.23059 NA
integral membrane protein YHR181W
5739_at 0.69550714 -0.104149 -0.334118 -0.229969 Hypothetical ORFNA YEL007W
11380_at 0.60508173 -0.04816167 -0.27750733 -0.22934567 NA NA YAL066W
8918_at 0.3559198 -0.00545333 -0.23466967 -0.22921633 RPL16B YNL069C
ribosomal protein L16B (L21B) (rp23) (YL15)
5393_at 0.33353211 -0.00448467 -0.23326733 -0.22878267 YPT1 YFL038C
GTP-binding protein|ras homolog|similar to mammalian Rab1A prot
5313_s_at 0.4689712 -0.000371 -0.229128 -0.228757 MOB2
Mob1p-like protein YFL035C
8809_at 0.69039218 -0.03520267 -0.263839 -0.22863633 BRE5
protein of unknown function YNR051C
5034_at 0.49000565 -0.00221133 -0.23059167 -0.22838033 glucanase SCW11 YGL028C
7684_at 0.39302264 -0.00579433 -0.23396833 -0.228174 NA NA YPR064W
11023_at 0.55149434 -0.01886 -0.24689033 -0.22803033 AVT1 YJR001W
Gln (Asn), Ile (Leu), Tyr transporter
6623_at 0.57126209 -0.02893333 -0.25682167 -0.22788833 NA NA YDL152W
7871_at 0.60974269 -0.01548033 -0.24285967 -0.22737933 Hypothetical ORFNA YPL109C
7737_at 0.47053625 -0.01007133 -0.23712433 -0.227053 APL4 YPR029C
clathrin associated protein complex large subunit|gamma-adaptin
4389_at 0.56822794 -0.038102 -0.265032 -0.22693 NA NA YHR139C-A
9380_at 0.48055533 -0.003355 -0.230255 -0.2269 YHM2 YMR241W
DNA binding protein|mtDNA stabilizing protein, mitochondrial inner
10657_at 0.73777917 -0.01602533 -0.24290033 -0.226875 NA NA YKL083W
11356_at 0.82357628 -0.13705567 -0.36341933 -0.22636367 ACS1
acetyl CoA synthetase YAL054C
6226_at 0.40242149 -0.008913 -0.23467467 -0.22576167 EXG2
exo-1,3-beta-glucanase YDR261C
7245_at 0.48345784 -0.00126633 -0.22688867 -0.22562233 calmodulin CMD1 YBR109C
6705_at 0.51898388 -0.00907033 -0.23438467 -0.22531433 Hypothetical ORFNA YDL203C
3237_f_at 0.47491167 -0.007728 -0.23272933 -0.22500133 HAP1 YGRCTY1-2
Identified by expression profiling and mass spectrometry /// TyB Ga
9801_at 0.61401383 -0.017665 -0.24253 -0.224865 Hypothetical ORFNA YML131W
4077_at 0.44589771 -0.00714267 -0.231908 -0.22476533 Hypothetical ORFNA YIR042C
3352_s_at 0.62148835 -0.06287767 -0.28695 -0.22407233 NA NA YERWDELTA21
3442_f_at 0.40008904 -0.00207033 -0.226134 -0.22406367 HAP1 YDRCTY1-1
Identified by expression profiling and mass spectrometry /// TyB Ga
5540_at 0.55360878 -0.02916867 -0.25276233 -0.22359367 NA NA YER091C-A
9364_at 0.63393686 -0.03696767 -0.26042733 -0.22345967 RRN9 YMR270C
upstream activation factor subunit
7551_at 0.60087953 -0.046754 -0.269986 -0.223232 SGE1 YPR198W
multi-copy suppressor of gal11 null; member of drug-resistance pro
4876_at 0.72146618 -0.14006967 -0.36281233 -0.22274267 Hypothetical ORFNA YGR131W
4897_at 0.44641985 -0.014145 -0.236771 -0.222626 NA NA YGR107W
8419_at 0.5948514 -0.00815533 -0.230659 -0.22250367 RGA1 YOR127W
rho GTPase activating protein (GAP)
3515_at 0.46376696 -0.01362567 -0.23611767 -0.222492 NA NA YBRCDELTA11
8962_at 0.37656611 -0.00121933 -0.22368433 -0.222465 NA NA YNL114C
8484_at 0.72089758 -0.079966 -0.30216 -0.222194 NOB1 YOR056C
Associated with the 26S proteasome
9179_at 0.71352673 -0.02010167 -0.242267 -0.22216533 Hypothetical ORFNA YNL305C
8212_at 0.29701747 -0.001675 -0.22382267 -0.22214767 Hypothetical ORFNA YOR322C
9694_at 0.61954149 -0.01279033 -0.23487167 -0.22208133 OGG1 YML060W
43 kDa 8-oxo-guanine DNA glycosylase
9751_at 0.62245076 -0.04991833 -0.27171567 -0.22179733 GIM5 YML094W
bovine prefoldin subunit 5 homolog (putative)
4067_at 0.65208242 -0.04523633 -0.26698333 -0.221747 DAL7
malate synthase 2 YIR031C
11045_at 0.56225445 -0.036313 -0.257933 -0.22162 NA NA YJL022W
9378_at 0.61800538 -0.002516 -0.22381967 -0.22130367 ribonuclease IIIRNT1 YMR239C
10096_at 0.46664791 -0.01522267 -0.23651433 -0.22129167 RCK2
Serine/threonine protein kinaseYLR248W
7454_s_at 0.49348889 -0.00845267 -0.22957433 -0.22112167 RPL23B YBL087C
ribosomal protein L23B (L17aB) (YL32)
10916_at 0.46362689 -0.00969467 -0.23060667 -0.220912 RPS5 YJR123W
ribosomal protein S5 (S2) (rp14) (YS8)
3449_i_at 0.58021909 -0.035062 -0.25596567 -0.22090367 NA NA YDRWDELTA10
5430_at 0.67877719 -0.0542 -0.275064 -0.220864 ALR2 overexpression confers increased tole
Probable Mg(2+) transporter;YFL050C
11300_at 0.60800298 -0.05442567 -0.27510833 -0.22068267 NA NA YAR047C
9875_at 0.66548827 -0.03418767 -0.253817 -0.21962933 NA NA YLR428C
6234_at 0.67899225 -0.033752 -0.25299833 -0.21924633 NA potentially
Protein of unknown function, YDR223W phosphorylated by Cdc28p
4918_at 0.58068681 -0.02119867 -0.24040567 -0.219207 TOM20 YGR082W
20 kDa mitochondrial outer membrane protein import receptor
10478_at 0.70257615 -0.02164733 -0.240761 -0.21911367 NA NA YKR097W
9085_at 0.56235941 -0.02453467 -0.24363567 -0.219101 MGS1 YNL218W
Maintenance of Genome Stability 1
10513_at 0.49721185 -0.01997433 -0.238794 -0.21881967 Hypothetical ORFNA YKR041W
4148_at 0.67846682 -0.01279767 -0.23157433 -0.21877667 PCI8 YIL071C
translational regulator (putative)|COP9 signalosome (CSN) subunit
4216_at 0.73033945 -0.067971 -0.28662967 -0.21865867 AXL2 YIL140W
Integral plasma membrane protein required for axial budding in hap
4442_at 0.86520015 -0.29199967 -0.510642 -0.21864233 aldose reductaseGRE3 YHR104W
10252_at 0.47648321 -0.00460033 -0.22312267 -0.21852233 GAA1 YLR088W
GPI:protein transamidase component (putative)
10350_at 0.68683696 -0.09751667 -0.31540767 -0.217891 PAM18
DnaJ-like protein, cochaperone YLR008C
4432_at 0.53165951 -0.011201 -0.22906467 -0.21786367 HXT5
hexose transporter YHR096C
6053_at 0.5395012 -0.00191367 -0.21891767 -0.217004 NA NA YDR401W
9684_s_at 0.38559917 -0.00143567 -0.218313 -0.21687733 RPS18B
ribosomal protein S18B YML026C
5709_at 0.54957963 -0.02697367 -0.24381533 -0.21684167 NTF2 YER009W
nuclear transport factor|similar to mammalian cytosolic nuclear imp
5686_at 0.60742826 -0.000576 -0.217271 -0.216695 YPT31
GTPase|YPT32 homolog|ras YER031Chomolog
11307_s_at 0.5601411 -0.03033567 -0.247028 -0.21669233 NA
putative membrane protein YAR066W
6046_at 0.53295938 -0.021336 -0.23801 -0.216674 LRS4
Loss of rDNA silencing YDR439W
8688_at 0.55065764 -0.02909433 -0.24563467 -0.21654033 PSF3
subunit of the GINS complexYOL146W
7878_at 0.550607 -0.03092767 -0.24711067 -0.216183 NA NA YPL102C
10545_at 0.68132017 -0.009562 -0.225717 -0.216155 SAP190 YKR028W
type 2A-related protein phosphatase
3495_f_at 0.70842756 -0.027008 -0.24289567 -0.21588767 NA NA YCLWdelta2b
4123_at 0.47731571 -0.01691467 -0.23263033 -0.21571567 BET1 YIL004C
Type II membrane protein required for vesicular transport between
10805_at 0.60009161 -0.037344 -0.252205 -0.214861 NA
Hypothetical ORF YKL207W
9569_at 0.58658074 -0.00098567 -0.21550567 -0.21452 ADH3 YMR083W
alcohol dehydrogenase isoenzyme III
11128_at 0.68165014 -0.084673 -0.299164 -0.214491 RPE1 YJL121C
D-ribulose-5-Phosphate 3-epimerase
7192_at 0.71459311 -0.12661867 -0.34097767 -0.214359 RPL21B
ribosomal protein L21B YBR190W
11158_i_at 0.33042928 -0.00308033 -0.21737933 -0.214299 NA NA YJL136C
3223_f_at 0.45378169 -0.01311967 -0.227302 -0.21418233 NA YGRWDELTA28
Identified by expression profiling and mass spectrometry /// TyB Ga
10010_at 0.75576709 -0.09224933 -0.306248 -0.21399867 subunit
ATP synthase ATP14 h YLR295C
6252_at 0.66897279 -0.08131333 -0.295228 -0.21391467 NA NA YDR241W
5960_at 0.7506867 -0.06090867 -0.274632 -0.21372333 NA NA YDR491C
4945_at 0.7105886 -0.03336867 -0.24680667 -0.213438 NA NA YGR064W
10893_s_at 0.33921152 -0.00256333 -0.21528833 -0.212725 RPS4A (rp5) (S7A)
ribosomal protein S4A (YS6) YJR145C
7542_at 0.73177955 -0.039564 -0.252261 -0.212697 RPC82 YPR190C
82 kDa subunit of RNA polymerase III (C)
6528_at 0.55414436 -0.03008533 -0.24224367 -0.21215833 BDF2 YDL070W
BDF1 homolog|bromodomain protein
10886_at 0.58636298 -0.033607 -0.24575533 -0.21214833 IML1 green fluorescent protein (GFP)-fusion
Protein of unknown function, YJR138W
7550_at 0.57621479 -0.02829833 -0.24020467 -0.21190633 NA NA YPR197C
10559_at 0.56913001 -0.01161167 -0.22328433 -0.21167267 BYE1 YKL005C
Negative regulator of transcription elongation
6711_at 0.61615048 -0.050601 -0.26188233 -0.21128133 NA NA YDL242W
4993_at 0.53030245 -0.01017933 -0.22146 -0.21128067 VMA7 subunit F
vacuolar ATPase V1 domain YGR020C (14 kDa)
4367_at 0.56890617 -0.00827333 -0.21946733 -0.211194 NA
Hypothetical ORF YHR162W
4207_at 0.59375875 -0.00232667 -0.21319 -0.21086333 NA
Hypothetical ORF YIL103W
9342_at 0.62946302 -0.00264867 -0.21306633 -0.21041767 GOT1
membrane protein YMR292W
5204_at 0.4081359 -0.00285767 -0.21309033 -0.21023267 NA
Hypothetical ORF YGL176C
11333_at 0.69440194 -0.04890033 -0.25912467 -0.21022433 POP5 YAL033W
Nuclear RNase P subunit|RNase MRP subunit
5391_at 0.34899558 -0.00300833 -0.213151 -0.21014267 NA
Hypothetical ORF YFL040W
8662_at 0.34923987 -0.00104433 -0.21108367 -0.21003933 RPL25 (YL25)
ribosomal protein L25 (rpl6L)YOL127W
7294_at 0.80637158 -0.25956233 -0.468912 -0.20934967 NA
Hypothetical ORF YBR071W
3365_f_at 0.45951571 -0.01324 -0.22161633 -0.20837633 NA YELCDELTA4
Identified by expression profiling and mass spectrometry /// TyB Ga
10106_at 0.85086767 -0.42028467 -0.62865 -0.20836533 FRE1 YLR214W
cupric reductase|ferric reductase
6688_at 0.70501571 -0.060986 -0.26899533 -0.20800933 DTD1
D-Tyr-tRNA(Tyr) deacylase YDL219W
4149_at 0.75488999 -0.077797 -0.28569333 -0.20789633 MAM33 YIL070C
33-kDa mitochondrial acidic matrix protein
6278_at 0.57154932 -0.00186567 -0.20952767 -0.207662 UBC1
ubiquitin-conjugating enzyme YDR177W
11351_at 0.61545808 -0.01429633 -0.22168833 -0.207392 TPD3 YAL016W
protein phosphatase 2A regulatory subunit A
3918_f_at 0.54596618 -0.011565 -0.21851167 -0.20694667 NA YARCTY1-1
Identified by expression profiling and mass spectrometry /// TyA Ga
10250_at 0.48647676 -0.00721767 -0.214048 -0.20683033 SMC4 YLR086W
SMC chromosomal ATPase family member
9478_at 0.83114129 -0.02369733 -0.23050633 -0.206809 NA
Hypothetical ORF YMR166C
7231_at 0.60592653 -0.00879033 -0.21541433 -0.206624 IRA1 YBR140C
GTPase activating protein (GAP)
7877_at 0.66276439 -0.01672733 -0.22296133 -0.206234 non-tagged protein was localized to the mitochondria
The authentic, NA YPL103C
4780_at 0.52328814 -0.02040633 -0.22639433 -0.205988 RPS0A
ribosomal protein S0A YGR214W
9910_at 0.44152566 -0.00253567 -0.20801533 -0.20547967 NA
Hypothetical ORF YLR419W
5523_at 0.5412858 -0.01128533 -0.21672867 -0.20544333 TMT1 YER175C
Trans-aconitate Methyltransferase 1
7355_at 0.58750731 -0.023074 -0.22844867 -0.20537467 LDB7 null mutant
Protein of unknown function; YBL006C shows a reduced affinity fo
3729_f_at 0.46587868 -0.01229533 -0.21760567 -0.20531033 NA YLRCDELTA26
Identified by expression profiling and mass spectrometry /// TyB Ga
10773_at 0.53737806 -0.02115033 -0.22616467 -0.20501433 NA NA YKL190W
9165_at 0.70962541 -0.10864767 -0.313488 -0.20484033 NA NA YNL319W
3488_at 0.6930192 -0.08160133 -0.28632533 -0.204724 NA YCLWTY5-1
Psuedogene: encodes fragment of Ty Pol protein
4058_at 0.43451121 -0.000224 -0.204946 -0.204722 SEC11
signal peptidase subunit YIR022W
7080_at 0.50010928 -0.010954 -0.21564167 -0.20468767 RGD1 YBR260C
GTPase activating protein (GAP) (putative)
10677_at 0.77720125 -0.09997733 -0.304569 -0.20459167 NA
Hypothetical ORF YKL107W
10538_at 0.52193911 -0.01086933 -0.21494233 -0.204073 NA
Hypothetical ORF YKR021W
3531_at 0.61618739 -0.01942767 -0.223458 -0.20403033 NA NA YPRCDELTA22
7225_at 0.74923011 -0.069294 -0.27331033 -0.20401633 NA NA YBR134W
11070_at 0.69199074 -0.086605 -0.29046367 -0.20385867 NA
Hypothetical ORF YJL043W
9862_at 0.46194914 -0.010621 -0.21431633 -0.20369533 NA NA YLR458W
6557_at 0.47692084 -0.000208 -0.203775 -0.203567 SUB2
ATP-dependent RNA helicase YDL084W
9552_at 0.79048305 -0.079263 -0.282745 -0.203482 Hypothetical ORFNA YMR110C
5716_at 0.64570574 -0.00116733 -0.204635 -0.20346767 BIM1 YER016W
Bim1p and Kar9p together make up the cortical microtubule-capture
10164_at 0.75714367 -0.08745267 -0.29078767 -0.203335 TOS4 YLR183C
Transcription factor that binds to a number of promoter regions, par
5374_at 0.61546833 -0.02457933 -0.22700733 -0.202428 NA NA YFL013W-A
5362_at 0.39214081 -0.00443433 -0.206772 -0.20233767 NA NA YFR020W
10372_at 0.51711014 -0.00713 -0.209186 -0.202056 SDC25 YLL016W
Ras guanine nucleotide exchange factor (GEF); in the S288C strain
5433_at 0.62523494 -0.014443 -0.216229 -0.201786 RGD2 YFL047W
specific GTPase activating protein (RhoGAP)
5916_at 0.51986064 -0.01841433 -0.22017533 -0.201761 NA NA YDR537C
3381_f_at 0.69652982 -0.095386 -0.29680967 -0.20142367 NA NA YDRWSIGMA4
5015_at 0.61964156 -0.01215867 -0.21346033 -0.20130167 ERP6 YGL002W
p24 protein involved in membrane trafficking
5648_at 0.64362219 -0.02438167 -0.22540567 -0.201024 PTP3
tyrosine phosphatase YER075C
11014_at 0.6385521 -0.05119 -0.25216067 -0.20097067 NA NA YJL007C
10047_f_at 0.47735533 -0.006569 -0.20750233 -0.20093333 NA NA YLR287C-A
6756_at 0.72503103 -0.03141967 -0.231981 -0.20056133 HTL1
High-Temperature Lethal YCR020W-B
8148_at 0.45669603 -0.008348 -0.208486 -0.200138 NA NA YOL013W-A
3741_f_at 0.52349052 -0.01642233 -0.21647867 -0.20005633 NA YLRWTY1-3
Identified by expression profiling and mass spectrometry /// TyA Ga
8882_at 0.5524877 -0.019981 -0.21998167 -0.20000067 NA NA YNL013C
7073_at 0.60867545 -0.00602133 -0.205914 -0.19989267 NA NA YBR300C
8373_at 0.44286713 -0.002397 -0.20227 -0.199873 chain YOR171C
sphingoid longLCB4 base (LCB) kinase
7077_at 0.62435076 -0.01589567 -0.21575733 -0.19986167 TSC3 YBR058c-a
Involved in sphingolipid biosynthesis. Stimulates the activity of serin
7806_at 0.55140044 -0.01495167 -0.21459967 -0.199648 EGD1 YPL037C
pol II transcribed genes regulator
8329_at 0.57675057 -0.015219 -0.21475167 -0.19953267 NA NA YOR218C
4557_at 0.58925996 -0.03053567 -0.23005667 -0.199521 NA NA YHL005C
9002_at 0.42365528 -0.00749433 -0.206888 -0.19939367 NA NA YNL120C
3504_f_at 0.49425402 -0.01088733 -0.210117 -0.19922967 NA YBLWDELTA5
Identified by expression profiling and mass spectrometry /// TyB Ga
6484_at 0.6472419 -0.045537 -0.244605 -0.199068 NA NA YDL023C
9117_at 0.59431647 -0.00644367 -0.20541267 -0.198969 PDR16
Pdr17p homolog|Sec14p homolog YNL231C
10204_at 0.74606388 -0.01496067 -0.213794 -0.19883333 ZRT2 YLR130C
low affinity zinc transport protein
5619_at 0.74867181 -0.01239567 -0.21106233 -0.19866667 TRP2 YER090W
anthranilate synthase component I
6422_at 0.50075729 -0.01415867 -0.212491 -0.19833233 NA NA YDR053W
10198_at 0.56185312 -0.024864 -0.222428 -0.197564 NA NA YLR124W
9945_at 0.52806814 -0.013247 -0.21069267 -0.19744567 NA NA YLR366W
10588_at 0.56880962 -0.00980367 -0.20695467 -0.197151 RAM2 YKL019W
CAAX farnesyltransferase alpha subunit
4996_at 0.75237333 -0.011526 -0.208659 -0.197133 with transduce
acts in concertMTL1Mid2p to YGR023W cell wall stress signals
8783_at 0.61403539 -0.04024133 -0.23722433 -0.196983 Hypothetical ORFNA YNR071C
10167_at 0.47003279 -0.005251 -0.20221233 -0.19696133 EMG1
ribosome biogenesis YLR186W
10645_at 0.79466664 -0.153242 -0.35017133 -0.19692933 Component of ASK1 YKL052C
the DASH complex that binds to microtubules and ki
4454_at 0.59649828 -0.00297867 -0.19959667 -0.196618 oxysterol-binding protein family with seven members
Member of an OSH3 YHR073W
4711_at 0.82427695 -0.107601 -0.30412733 -0.19652633 ABC transporter YOR1 YGR281W
10547_at 0.55515642 -0.01999033 -0.21617033 -0.19618 GMH1 YKR030W
Golgi membrane protein of unknown function, interacts with Gea1p
4448_at 0.80333341 -0.10010467 -0.29625433 -0.19614967 RMD12 YHR067W
Mitochondrial protein required for sporulation
10629_at 0.84134383 -0.09627167 -0.291993 -0.19572133 YNK1
nucleoside diphosphate kinase YKL067W
3723_f_at 0.49906354 -0.005892 -0.201513 -0.195621 NA YLRWTY2-1
Identified by expression profiling and mass spectrometry /// TyB Ga
10726_at 0.55324379 -0.01421433 -0.209818 -0.19560367 NA NA YKL147C
6364_at 0.61998305 -0.01079567 -0.206349 -0.19555333 SAC6 YDR129C
actin filament bundling protein|fimbrin homolog
3600_i_at 0.58892768 -0.03110733 -0.22661067 -0.19550333 NA NA YOLWSIGMA2
7582_at 0.73240345 -0.00062933 -0.19612167 -0.19549233 GDB1 YPR184W
Glycogen debranching enzyme containing glucanotranferase and a
6661_at 0.60840107 -0.00052233 -0.19565567 -0.19513333 STE7
MAP kinase kinase (MEK) YDL159W
8582_at 0.77442946 -0.0429 -0.237755 -0.194855 LAG2
affects longevity YOL025W
5659_at 0.68208619 -0.01354167 -0.208228 -0.19468633 NA NA YER048C
7721_at 0.61849217 -0.03947867 -0.234141 -0.19466233 NA NA YPR014C
8785_at 0.65236875 -0.05603667 -0.25055767 -0.194521 NA
putative reductase YNR074C
9001_at 0.65178725 -0.03312367 -0.22745733 -0.19433367 TOM70 YNL121C
70 kDa mitochondrial specialized import receptor of the outer memb
5428_at 0.68493641 -0.07595267 -0.270058 -0.19410533 Hypothetical ORFNA YFL052W
8808_at 0.75032422 -0.03958667 -0.233637 -0.19405033 LYS9 YNR050C
Seventh step in lysine biosynthesis pathway
3566_i_at 0.54374788 -0.01951367 -0.21333233 -0.19381867 NA NA YPRCDELTA15
6847_g_at 0.75001267 -0.04085033 -0.234577 -0.19372667 NA green fluorescent protein (GFP)-fusion
Protein of unknown function; YCR061W
7064_at 0.79942786 -0.00840033 -0.20179733 -0.193397 NA NA YBR291C
7728_at 0.64689154 -0.005671 -0.19902567 -0.19335467 AGC1
Aspartate-glutamate transporterYPR021C
6316_at 0.69957799 -0.03332933 -0.226661 -0.19333167 SEC7 YDR170C
guanine nucleotide exchange protein for ARF
6144_at 0.73688107 -0.02875867 -0.22156333 -0.19280467 PIB1 YDR313C
Phosphatidylinositol(3)-phosphate binding
10296_at 0.59055136 -0.00435067 -0.19690933 -0.19255867 PDC1
pyruvate decarboxylase YLR044C
8187_at 0.55684247 -0.02060433 -0.21315133 -0.192547 NA NA YOR343C
7271_at 0.64871679 -0.01829833 -0.21084467 -0.19254633 Hypothetical ORFNA YBR090C
10522_at 0.63055178 -0.04080333 -0.23329633 -0.192493 TRK2 YKR050W
low affinity potassium transport|membrane protein
10485_at 0.67592316 -0.03663467 -0.22868233 -0.19204767 NA YKR104W
ORFs YKR103W and YKR104W are merged in different strain back
11061_g_at 0.70387063 -0.00373867 -0.19578333 -0.19204467 TDH2 /// TDH1YJL052W
glyceraldehyde 3-phosphate dehydrogenase /// glyceraldehyde-3-p
3589_f_at 0.46709301 -0.004944 -0.196977 -0.192033 NA YPLWTY1-1
Identified by expression profiling and mass spectrometry /// TyA Ga
8875_at 0.48847157 -0.001007 -0.19269333 -0.19168633 ARK1 YNL020C
serine/threonine kinase (putative)
6955_s_at 0.69583757 -0.08273433 -0.27439833 -0.191664 NA YCL076W
Psuedogene: encodes fragment of Ty Pol protein
3776_i_at 0.85646637 -0.52537867 -0.71703833 -0.19165967 NA NA YLRCDELTA9
10995_at 0.74800049 -0.11108767 -0.30198267 -0.190895 NA NA YJR018W
6080_at 0.54446916 -0.01376133 -0.204139 -0.19037767 RPP2B YDR382W
ribosomal protein P2B (YP2beta) (L45)
10187_at 0.70523451 -0.06551067 -0.25588433 -0.19037367 Hypothetical ORFNA YLR162W
8591_at 0.7850468 -0.13312667 -0.32347233 -0.19034567 CMK2 YOL016C
calmodulin-dependent protein kinase
4889_at 0.69269568 -0.025161 -0.21482567 -0.18966467 TEL2
telomere binding protein YGR099W
5553_at 0.66179245 -0.013145 -0.20232233 -0.18917733 regulator
transcriptional BUR6 YER159C
9635_at 0.78952571 -0.10268867 -0.29182967 -0.189141 SEC59 YMR013C
membrane protein|required for core glycosylation
9771_at 0.63154285 -0.02330367 -0.21239067 -0.189087 ATR1 YML116W
Multidrug efflux pump of the major facilitator superfamily, required fo
6572_at 0.72646634 -0.01470433 -0.20376033 -0.189056 NA
homolog of mammalian BAP31 YDL072C
8217_at 0.57976115 -0.01249433 -0.20099033 -0.188496 SNC2 YOR327C
vesicle-associated membrane protein (synaptobrevin) homolog
7366_at 0.6301404 -0.02619467 -0.21465233 -0.18845767 NA NA YBR007C
8617_at 0.61886702 -0.02414033 -0.21244367 -0.18830333 IRA2 YOL081W
GTPase activating protein|highly homologous to Ira1p|neurofibromi
7215_at 0.641702 -0.02865433 -0.216582 -0.18792767 NA NA YBR124W
4203_at 0.79004426 -0.07310033 -0.26038133 -0.187281 Hypothetical ORFNA YIL108W
4887_at 0.52237087 -0.00556233 -0.19262833 -0.187066 NA VPS62 YGR141W
7916_at 0.75366173 -0.042406 -0.229402 -0.186996 PEP4
vacuolar proteinase A YPL154C
9622_at 0.53736373 -0.00765667 -0.194382 -0.18672533 YPT7
GTP-binding protein|rab family YML001W
3874_i_at 0.76961719 -0.15872267 -0.34543067 -0.186708 NA NA YJLWDELTA9
9676_at 0.65523307 -0.013261 -0.199889 -0.186628 SRC1 sister chromatid segregation, potentia
Protein with a putative role inYML033W
10548_at 0.69833104 -0.01582033 -0.20220467 -0.18638433 phospholipaseSPO14D YKR031C
5309_at 0.60463137 -0.02948067 -0.21582267 -0.186342 NA NA YFR056C
9476_at 0.8368828 -0.20312767 -0.38914233 -0.18601467 MSS11 YMR164C
758 amino acid polypeptide with poly-glutamine and poly-asparagin
4186_at 0.43644966 -0.00231467 -0.188318 -0.18600333 THS1
threonine-tRNA ligase YIL078W
4328_at 0.68612463 -0.00688367 -0.192622 -0.18573833 NA NA YHL002c-a
5736_at 0.64527509 -0.03865033 -0.22407133 -0.185421 NA NA YEL010W
4381_at 0.56495134 -0.020468 -0.205874 -0.185406 protein YHR132C
Non-essential ECM14 of unknown function, similar to zinc carboxype
10476_at 0.61428088 -0.03019467 -0.21544333 -0.18524867 Hypothetical ORFNA YKR096W
4756_at 0.69153439 -0.05354833 -0.23876933 -0.185221 NA YGR236C
Protein required for survival at high temperature during stationary p
5791_at 0.71369994 -0.03480233 -0.21991533 -0.185113 IES6 YEL044W
Protein that associates with the INO80 chromatin remodeling comp
5670_i_at 0.40499089 -0.004353 -0.18940067 -0.18504767 RPL34B
ribosomal protein L34B YER056C-A
5298_at 0.65443586 -0.040616 -0.22559567 -0.18497967 Hypothetical ORFNA YGL262W
4172_at 0.46357828 -5.07E-05 -0.184892 -0.1848413 LYS12
homo-isocitrate dehydrogenase YIL094C
7747_at 0.67744989 -0.00486867 -0.18959433 -0.18472567 NCR1 YPL006W
transmembrane protein (putative)
6375_at 0.44201048 -0.00568 -0.19036767 -0.18468767 NA NA YDR095C
7392_at 0.731737 -0.02311467 -0.20779733 -0.18468267 NA NA YBL015W
4517_at 0.66089047 -0.011132 -0.19542233 -0.18429033 oxysterol-binding protein family with seven members
Member of an OSH7 YHR001W
3369_i_at 0.66969952 -0.03945667 -0.22374467 -0.184288 NA NA YERWDELTA7
3612_f_at 0.49772533 -0.00796633 -0.19222367 -0.18425733 NA YORWDELTA17
Hypothetical ORF /// Identified by expression profiling and mass spe
5366_s_at 0.70215661 -0.02234133 -0.20647 -0.18412867 LAs17 BindingLSB3 protein YFR024C-A
8141_at 0.62742577 -0.030303 -0.21433133 -0.18402833 Hypothetical ORFNA YOR387C
7638_at 0.72290571 -0.082901 -0.26683 -0.183929 YTH1
polyadenylation factor subunit YPR107C
9470_at 0.48261141 -0.00216233 -0.18602233 -0.18386 NA NA YMR158W-A
8216_at 0.62530903 -0.00967667 -0.19335867 -0.183682 class V myosin MYO2 YOR326W
7568_at 0.6809612 -0.03784533 -0.22135633 -0.183511 NA NA YPR170C
3252_s_at 0.76023287 -0.13986433 -0.32256633 -0.182702 NA YGRWTY3-1
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
9955_at 0.65364516 -0.047603 -0.230109 -0.182506 NA NA YLR374C
7168_at 0.78360813 -0.07223767 -0.25361867 -0.181381 NGR1 YBR212W
glucose-repressible RNA binding protein
5039_at 0.52809005 -0.00131133 -0.18249467 -0.18118333 PIB2 YGL023C
Phosphatidylinositol 3-phosphate binding
9572_at 0.53171942 -0.00333067 -0.184364 -0.18103333 NA green fluorescent protein (GFP)-fusion
Protein of unknown function; YMR086W
6367_at 0.53904041 -0.01246067 -0.19323967 -0.180779 Hypothetical ORF NA YDR132C
10558_s_at 0.40656392 -0.00157433 -0.18211833 -0.180544 RPL14A
ribosomal protein L14A YKL006W
11204_s_at 0.48586562 -0.008252 -0.18870867 -0.18045667 RPL17A YJL177W
ribosomal protein L17A (L20A) (YL17)
3737_s_at 0.69396156 -0.02162167 -0.201852 -0.18023033 YRF1-7
Y'-helicase protein 1 YLR467W
8850_at 0.85621926 -0.062526 -0.24248167 -0.17995567 FUN34
transmembrane protein (putative)YNR002C
10535_at 0.7628218 -0.04904833 -0.228702 -0.17965367 Hypothetical ORF NA YKR018C
8846_at 0.57999937 -0.00585967 -0.18536933 -0.17950967 PET8 YNL003C
S-adenosylmethionine transporter of the mitochondrial inner memb
10155_at 0.63418623 -0.00771133 -0.18720967 -0.17949833 CBF5 YLR175W
major low affinity 55 kDa centromere/microtubule binding protein
6476_at 0.71343304 -0.03352067 -0.212805 -0.17928433 NA NA YDR015C
5119_at 0.64476202 -0.01955767 -0.198638 -0.17908033 RPS2 YGL123W
ribosomal protein S2 (S4) (rp12) (YS5)
8336_at 0.61800995 -0.01858367 -0.197414 -0.17883033 RPB8 YOR224C
16 kDa RNA polymerase subunit (common to polymerases I, II and
9746_at 0.63934119 -0.00540167 -0.18410533 -0.17870367 TFIID subunit TAF13 YML098W
7246_at 0.71408727 -0.01659433 -0.19498867 -0.17839433 ALG1
beta-1,4-mannosyltransferase YBR110W
6340_at 0.62972096 -0.03569 -0.214074 -0.178384 NA NA YDR149C
7741_at 0.57546295 -0.020562 -0.19894 -0.178378 histidine-tRNAHTS1ligase YPR033C
3496_f_at 0.43742829 -0.00107733 -0.179339 -0.17826167 NA YCLWDELTA4
Identified by expression profiling and mass spectrometry /// TyB Ga
5110_at 0.53185778 -0.00474367 -0.18268467 -0.177941 MMS2 YGL087C
Member of error-free postreplication DNA repair pathway
9501_at 0.58247096 -0.011737 -0.18959033 -0.17785333 TIF34 YMR146C
translation initiation factor eIF3 p39 subunit
9047_at 0.70312811 -0.04087733 -0.218565 -0.17768767 BNI5 YNL166C
Protein involved in organization of septins at the mother-bud neck, m
3501_f_at 0.60879111 -0.01858367 -0.196176 -0.17759233 NA YBLWDELTA4
Identified by expression profiling and mass spectrometry /// TyB Ga
4481_at 0.82517593 -0.07761633 -0.25519433 -0.177578 COX6
cytochrome c oxidase subunit YHR051W
7570_at 0.81383888 -0.14143767 -0.318379 -0.17694133 NA transcriptionally activated by Yrm1p al
Protein of unknown function, YPR172W
3348_f_at 0.66028156 -0.00332767 -0.18021867 -0.176891 NA YERCDELTA19
Identified by expression profiling and mass spectrometry /// TyA Ga
10079_at 0.51418352 -0.00982167 -0.18664 -0.17681833 NA NA YLR232W
3596_f_at 0.50389671 -0.00687933 -0.18364467 -0.17676533 NA YPLWDELTA8
Identified by expression profiling and mass spectrometry /// TyB Ga
7166_at 0.56324902 -0.01266367 -0.18929267 -0.176629 ERV15 has similarity to Erv14p
Protein of unknown function, YBR210W
3861_f_at 0.62106337 -0.031566 -0.208126 -0.17656 NA YJLCDELTA5
Identified by expression profiling and mass spectrometry /// TyB Ga
7071_s_at 0.70099856 -0.02223233 -0.19874933 -0.176517 maltose permease MAL31 YBR298C
4791_at 0.60597527 -0.02439867 -0.20038667 -0.175988 AMA1 YGR225W
Required for sporulation, highly induced during sporulation; activato
8806_at 0.70295692 -0.028552 -0.204516 -0.175964 Hypothetical ORF NA YNR048W
6819_at 0.71322121 -0.01590133 -0.19185633 -0.175955 Hypothetical ORF NA YCR079W
7394_at 0.6502542 -0.02820933 -0.203784 -0.17557467 FMT1
methionyl-tRNA transformylase YBL013W
6119_at 0.65104937 -0.01539533 -0.19096667 -0.17557133 Hypothetical ORF NA YDR333C
8038_at 0.63225366 -0.00522167 -0.18066667 -0.175445 Hypothetical ORF NA YPL257W
6959_s_at 0.71325761 -0.07430733 -0.24957333 -0.175266 regulation of YCL066W
involved in theMATALPHA1 alpha-specific genes|transcription facto
3168_f_at 0.80229558 -0.184618 -0.35987 -0.175252 NA NA YHRWDELTA9
3359_f_at 0.48589821 -0.00014233 -0.17526267 -0.17512033 NA YELWDELTA2
Hypothetical ORF /// Identified by expression profiling and mass spe
6015_at 0.70692097 -0.046464 -0.22151233 -0.17504833 Na+/H+ exchanger NHX1 YDR456W
6546_at 0.42673711 -0.00066067 -0.17568733 -0.17502667 SLC1 YDL052C
1-acyl-sn-gylcerol-3-phosphate acyl transferase (putative)
7287_at 0.66356287 -0.03753633 -0.212531 -0.17499467 NA NA YBR064W
3915_s_at 0.76904422 -0.01325133 -0.18820533 -0.174954 NA YARCTY1-1
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
6395_at 0.53985637 -0.008091 -0.18302867 -0.17493767 NA YDR071C
It acetylates polyamines such as putrescine, spermidine and sperm
4549_at 0.60115209 -0.00565233 -0.18052633 -0.174874 Hypothetical ORF NA YHL013C
10498_at 0.57147421 -0.002705 -0.17667867 -0.17397367 NA NA YKR073C
6719_at 0.75014223 -0.08095267 -0.25491433 -0.17396167 GYP7
GTPase activating protein (GAP) YDL234C
7861_at 0.41486419 -0.00285867 -0.176673 -0.17381433 DBP1 YPL119C
ATP dependent RNA helicase (putative)|dead box protein (putative)
4370_at 0.71096555 -0.02802933 -0.201186 -0.17315667 PRP8
U5 snRNP and spliceosome YHR165C component
7268_at 0.54242617 -0.010698 -0.183758 -0.17306 NHP6B YBR090C-A
11 kDa nonhistone chromosomal protein
11176_at 0.75265036 -0.00655533 -0.17910833 -0.172553 JJJ2 YJL162C
Protein that may function as a cochaperone, as suggested by the p
3942_at 0.88303431 -0.479258 -0.651772 -0.172514 HAC1 YFL031W
bZIP (basic-leucine zipper) protein
4979_at 0.6543334 -0.012798 -0.18519567 -0.17239767 MUQ1 YGR007W
choline phosphate cytidylyltransferase (also called phosphoethanol
7356_at 0.83638751 -0.203236 -0.375611 -0.172375 PDR3 YBL005W
Zinc-finger transcription factor related to Pdr1p
6537_f_at 0.6692834 -0.01088433 -0.18308833 -0.172204 RPS29A YDL061C
ribosomal protein S29A (S36A) (YS29)
7953_at 0.58772275 -0.00020967 -0.17217233 -0.17196267 NA NA YPL205C
10082_at 0.63538306 -0.028372 -0.19924433 -0.17087233 NA NA YLR235C
7198_at 0.67501934 -0.04816333 -0.219027 -0.17086367 SPP381
U4/U6/U5 snRNP-associatedYBR152Wprotein|contains PEST proteolysis mo
9313_at 0.63239029 -0.01427433 -0.184912 -0.17063767 FKS3 has similarity
Protein of unknown function, YMR306W to 1,3-beta-D-glucan syn
10711_at 0.6506424 -0.030015 -0.20032867 -0.17031367 NA NA YKL118W
6382_at 0.61956031 -0.02778967 -0.197278 -0.16948833 NA NA YDR102C
6809_at 0.76599962 -0.097358 -0.26682367 -0.16946567 ATG15 YCR068W
Lipase, required for intravacuolar lysis of autophagic bodies; locate
3297_i_at 0.76291632 -0.11825633 -0.28731033 -0.169054 NA NA YGLWOMEGA1
6281_at 0.69950104 -0.02180833 -0.19069233 -0.168884 Hypothetical ORFNA YDR179W-A
9322_at 0.68120895 -0.00908 -0.17793867 -0.16885867 PRE5 YMR314W
20S proteasome alpha-type subunit
3747_at 0.76267663 -0.11462033 -0.28345333 -0.168833 NA NA YLRCDELTA16
7310_at 0.54666328 -0.00486567 -0.17364 -0.16877433 Hypothetical ORFNA YBR042C
6526_at 0.64412499 -0.032543 -0.20084567 -0.16830267 NA NA YDL026W
6836_at 0.56432168 -0.00402467 -0.172192 -0.16816733 NA NA YCR049C
5705_at 0.67954992 -0.01327733 -0.181425 -0.16814767 NUG1 YER006W
Nuclear GTPase involved in Ribosome biogenesis
4090_at 0.68800263 -0.03289867 -0.200868 -0.16796933 MSL1
U2 snRNP component|YU2B'' YIR009W
4497_at 0.67407629 -0.00400333 -0.17184967 -0.16784633 class II myosinMYO1 YHR023W
6816_at 0.75941747 -0.09249667 -0.25974467 -0.167248 ERS1 YCR075C
Protein with similarity to human cystinosin, which is a H(+)-driven tr
5919_at 0.85538778 -0.19045567 -0.357475 -0.16701933 Hypothetical ORFNA YDR540C
3330_f_at 0.69381158 -0.019988 -0.18649867 -0.16651067 NA YFLWDELTA3
Identified by expression profiling and mass spectrometry /// TyB Ga
10172_at 0.62159206 -0.00722167 -0.17371633 -0.16649467 proline oxidase PUT1 YLR142W
10039_s_at 0.69137195 -0.041161 -0.207572 -0.166411 Hypothetical ORFNA YLR280C
8605_at 0.81821215 -0.18163267 -0.347999 -0.16636633 NA green fluorescent protein (GFP)-fusion
Protein of unknown function; YOL047C
10966_at 0.62913178 -0.027202 -0.19350667 -0.16630467 NA NA YJR037W
10901_at 0.68825183 -0.034517 -0.20059567 -0.16607867 ABM1 required for
Protein of unknown function, YJR108W normal microtubule organ
7314_at 0.86246426 -0.34310367 -0.50918033 -0.16607667 homolog, found in the cytoplasm and nucleus; has si
Zeta-crystallin ZTA1 YBR046C
3946_at 0.73867565 -0.07197867 -0.23794233 -0.16596367 ERV1
sulfhydryl oxidase YGR029W
7034_i_at 0.83344904 -0.031948 -0.19787733 -0.16592933 NA NA YBR126w-a
3547_f_at 0.62509427 -0.02391467 -0.18975967 -0.165845 NA YBLWDELTA2
Identified by expression profiling and mass spectrometry /// TyB Ga
7487_at 0.68513229 -0.04559533 -0.21121 -0.16561467 alpha
F1F0-ATPase ATP1 subunit YBL099W
4740_at 0.46090177 -0.00036467 -0.165643 -0.16527833 MES1
methionine-tRNA ligase YGR264C
5233_at 0.62552674 -0.02233833 -0.187578 -0.16523967 NA potential Cdc28p substrate
Protein of unknown function, YGL235W
7734_at 0.65811619 -0.02684133 -0.191908 -0.16506667 Hypothetical ORFNA YPR027C
8003_at 0.84480593 -0.00942733 -0.17431167 -0.16488433 Hypothetical ORFNA YPL247C
4194_at 0.69827977 -0.03969933 -0.204358 -0.16465867 PRM5 YIL117C
Pheromone-regulated protein, predicted to have 1 transmembrane
9414_f_at 0.59128673 -0.00474133 -0.169253 -0.16451167 RPS10B
ribosomal protein S10B YMR230W
4854_at 0.81332628 -0.15161633 -0.31608167 -0.16446533 Hypothetical ORFNA YGR153W
4316_at 0.69152601 -0.036931 -0.20121833 -0.16428733 Hypothetical ORFNA YHR202W
9486_at 0.74328462 -0.08658667 -0.25043167 -0.163845 REC114
early sporulation protein YMR133W
5092_at 0.59567811 -0.00335733 -0.16711833 -0.163761 ARC1 YGL105W
Protein that binds tRNA and methionyl- and glutamyl-tRNA syntheta
3362_at 0.77092295 -0.10952867 -0.27304067 -0.163512 NA NA YELCDELTA3
4869_at 0.58543876 -0.004513 -0.16771633 -0.16320333 ASN2
asparagine synthetase YGR124W
9405_at 0.72892757 -0.06327433 -0.22639833 -0.163124 UBP8 YMR223W
Ubiquitin-specific protease that is a component of the SAGA (Spt-A
7092_at 0.79482801 -0.07526467 -0.238113 -0.16284833 protein kinase CHK1 YBR274W
8623_at 0.67968121 -0.00194267 -0.16387667 -0.161934 Hypothetical ORFNA YOL075C
5950_at 0.76966731 -0.05723767 -0.21884433 -0.16160667 NA NA YDR526C
7892_at 0.75324781 -0.08214167 -0.24362667 -0.161485 regulator
transcriptional RDS2 YPL133C
7756_at 0.62291119 -0.01348867 -0.17459433 -0.16110567 Hypothetical ORFNA YPR004C
5985_at 0.58400206 -0.00298867 -0.16382133 -0.16083267 RPL27B
ribosomal protein L27B YDR471W
4357_at 0.7609621 -0.08152633 -0.24228133 -0.160755 with negatively charged C-terminus required for func
20 kDa proteinSPO12 YHR152W
8915_at 0.78664555 -0.108703 -0.269394 -0.160691 RNH201 YNL072W
Ribonuclease H2 catalytic subunit, removes RNA primers during Ok
7891_at 0.74523162 -0.079131 -0.23976 -0.160629 ODC1 YPL134C
mitochondrial 2-oxodicarboxylate transport protein
9177_at 0.89360118 -0.410281 -0.570902 -0.160621 MCK1 YNL307C
43.1 kDa serine/threonine/tyrosine protein kinase
11321_at 0.7876769 -0.01556067 -0.17596767 -0.160407 VPS8 YAL002W
membrane-associated hydrophilic protein which contains a C-termin
11318_at 0.67886436 -0.03979833 -0.1993 -0.15950167 NA NA YAL004W
7789_at 0.6125066 -0.02106333 -0.18041833 -0.159355 LEE1
Protein of unknown function YPL054W
7371_at 0.6516661 -0.02941467 -0.18842967 -0.159015 NA NA YBR012C
4208_at 0.71763937 -0.05519167 -0.213893 -0.15870133 Hypothetical ORF NA YIL102C
8363_at 0.73310814 -0.024772 -0.183072 -0.1583 NOC2 YOR206W
Protein that forms a nucleolar complex with Mak21p that binds to 90
10907_at 0.64387989 -0.01135967 -0.16946867 -0.158109 NA
Small hydrophobic protein YJR114W
10671_at 0.78579679 -0.04444633 -0.20246933 -0.158023 exonuclease required for Okazaki fragment processi
42 kDa 5' to 3' RAD27 YKL113C
7154_at 0.64171494 -0.01889867 -0.17667567 -0.157777 TAF5 YBR198C
Subunit (90 kDa) of TFIID and SAGA complexes, involved in RNA p
5398_at 0.76379105 -0.01580933 -0.17319633 -0.157387 RIM15 kinase related to S. pombe cek1+
trehalose-associated protein YFL033C
9105_at 0.44567378 -0.00227533 -0.15962133 -0.157346 SUI1 YNL244C
translation initiation factor eIF1
6477_at 0.70815292 -0.02448433 -0.181688 -0.15720367 DAD1
Essential protein, componentYDR016Cof the DASH complex, involved in spin
5954_at 0.84814037 -0.17993633 -0.336555 -0.15661867 APA2 phosphorylase II
5',5'''-P-1,P-4-tetraphosphateYDR530C
8502_at 0.62857846 -0.02340267 -0.17968567 -0.156283 NA NA YOR029W
6260_at 0.54208063 -0.00541967 -0.161597 -0.15617733 NA NA YDR203W
9369_at 0.43784456 -0.002616 -0.15870867 -0.15609267 BUL1 in specifying
BUL1p is putatively involved YMR275C ubiquitination substrates
3471_f_at 0.59542958 -0.01470467 -0.170458 -0.15575333 COS5 member of
Protein of unknown function, YDL248W a family of conserved, ofte
6863_at 0.57508216 -0.007105 -0.162511 -0.155406 RIM1
DNA binding protein YCR028C-A
6884_at 0.7389262 -0.04706933 -0.20235367 -0.15528433 NA NA YCR006C
9286_s_at 0.73482932 -0.05249867 -0.20776867 -0.15527 SAM4 YMR321C
AdoMet-homocysteine methyltransferase
8175_at 0.66358451 -0.03098867 -0.186094 -0.15510533 NA NA YOR376W
6600_at 0.71076096 -0.03820333 -0.19306767 -0.15486433 RPP1B (YP1beta)
ribosomal protein P1B (L44') YDL130W (Ax)
8679_at 0.66799719 -0.020969 -0.175737 -0.154768 ZEO1 YOL109W
Peripheral membrane protein of the plasma membrane that interact
3601_f_at 0.69536727 -0.04034033 -0.195032 -0.15469167 NA NA YOLWSIGMA2
6895_at 0.64196683 -0.00907767 -0.16367133 -0.15459367 SRO9 YCL037C
Associates with translating ribosomes; may function in the cytoplas
5073_at 0.66375555 -0.01535733 -0.16939667 -0.15403933 DBP3 YGL078C
ATP dependent RNA helicase|dead/deah box protein CA3
8499_at 0.66389042 -0.030036 -0.18401467 -0.15397867 NA NA YOR072W
3395_f_at 0.68673445 -0.03497867 -0.18894867 -0.15397 NA YDRWTY1-5
Identified by expression profiling and mass spectrometry /// TyA Ga
7751_at 0.71053525 -0.01055867 -0.16428533 -0.15372667 functionally related to SNF7
appears to be SNF8 YPL002C
4073_at 0.78873013 -0.04758167 -0.20128333 -0.15370167 HYR1
glutathione-peroxidase (putative)YIR037W
11161_at 0.79219116 -0.026256 -0.17978333 -0.15352733 LCB3 YJL134W
dihydrosphingosine-1-phosphate phophatase
10864_r_at 0.79847159 -0.13489733 -0.28810267 -0.15320533 NA
Identified by SAGE YJL136w-a
6649_at 0.71955117 -0.030483 -0.18289067 -0.15240767 GLT1
glutamate synthase (NADH) YDL171C
10638_at 0.75054893 -0.029063 -0.18116633 -0.15210333 TOA2 YKL058W
transcription factor IIA subunit|beta
6960_at 0.74833674 -0.07630967 -0.227794 -0.15148433 regulation of YCL065W
involved in theMATALPHA1 alpha-specific genes|transcription facto
3726_f_at 0.61380621 -0.011709 -0.16317067 -0.15146167 NA YLRCDELTA25
Identified by expression profiling and mass spectrometry /// TyB Ga
8335_at 0.85379014 -0.033109 -0.18424733 -0.15113833 Hypothetical ORF NA YOR223W
6295_at 0.70420066 -0.045792 -0.19602433 -0.15023233 NA NA YDR193W
8445_at 0.74959071 -0.03835033 -0.18833833 -0.149988 LEU9 YOR108W
alpha-isopropylmalate synthase (2-isopropylmalate synthase)
3429_f_at 0.61209557 -0.004875 -0.15484333 -0.14996833 NA YDRCDELTA4
Hypothetical ORF /// Identified by expression profiling and mass spe
8966_at 0.8719739 -0.11855767 -0.268137 -0.14957933 cytochrome b5CYB5 YNL111C
6164_at 0.7428519 -0.06747733 -0.21695067 -0.14947333 NA NA YDR290W
11121_at 0.64178483 -0.00364067 -0.15302467 -0.149384 ARP4 YJL081C
54.8 kDa protein|actin related protein
11174_at 0.85724273 -0.17325833 -0.32246233 -0.149204 TPK1 YJL164C
cAMP-dependent protein kinase catalytic subunit (putative)
10112_at 0.76966595 -0.06528333 -0.214422 -0.14913867 NA NA YLR220W
8337_at 0.77601104 -0.06449867 -0.21358567 -0.149087 NA NA YOR225W
8007_at 0.53787017 -0.00100633 -0.15003567 -0.14902933 SRP68 YPL243W
signal recognition particle component
5715_at 0.83408397 -0.11744133 -0.266406 -0.14896467 FAA2 YER015W
acyl-CoA synthetase (fatty acid activator 2)
11223_at 0.78159685 -0.01168467 -0.16051867 -0.148834 PRP21
RNA splicing factor YJL203W
6355_at 0.7315412 -0.017487 -0.16602367 -0.14853667 TRM1 YDR120C
N2,N2-dimethylguanosine-specific tRNA methyltransferase
9104_at 0.79335511 -0.074922 -0.22330833 -0.14838633 a complex YNL245C
Component of CWC25 containing Cef1p, involved in pre-mRNA s
9895_i_at 0.62909069 -0.01242333 -0.160577 -0.14815367 RPL31A (L34A) (YL28) /// ribosomal protein L31B (L
ribosomal protein L31A /// RPL31BYLR406C
5207_at 0.77855033 -0.01493033 -0.16301267 -0.14808233 NA NA YGL218W
5205_at 0.74740073 -0.067811 -0.215233 -0.147422 SAE2 YGL175C
Protein with a role in accurate meiotic and mitotic double-strand bre
7445_at 0.64580115 -0.005157 -0.15216533 -0.14700833 Hypothetical ORF NA YBL095W
4584_at 0.7983888 -0.04011233 -0.18701433 -0.146902 RIM4 YHL024W
RNA-binding protein of the RRM class (putative)
8177_at 0.71395362 -0.03124633 -0.177635 -0.14638867 Hypothetical ORF NA YOR378W
8924_at 0.74416729 -0.03253567 -0.17891067 -0.146375 YDJ1 YNL064C
heat shock protein|yeast dnaJ homolog (nuclear envelope protein)
6149_at 0.58887341 -0.005116 -0.15141367 -0.14629767 MCM21 maintenance
Involved in minichromosome YDR318W
10937_at 0.65446537 -0.00777333 -0.15368433 -0.145911 NA
Hypothetical ORF YJR098C
3419_f_at 0.58111733 -0.00452467 -0.15038933 -0.14586467 NA YDRWDELTA19
Identified by expression profiling and mass spectrometry /// TyB Ga
11389_at 0.54387995 -0.002431 -0.14818 -0.145749 ECM1 localized
Protein of unknown function, YAL059Win the nucleoplasm and the n
7393_at 0.87401104 -0.004577 -0.15022033 -0.14564333 RRN6 YBL014C
yeast Pol I core factor (CF) also composed of Rrn11p, Rrn7p and T
9629_at 0.87541092 -0.27008967 -0.41552533 -0.14543567 NA NA YMR007W
11206_f_at 0.55285821 -0.00521067 -0.15019667 -0.144986 RPL17A YJL177W
ribosomal protein L17A (L20A) (YL17)
9390_at 0.83020389 -0.01772333 -0.162603 -0.14487967 NA NA YMR251W-A
9713_at 0.64552275 -0.013064 -0.15790833 -0.14484433 ALO1
D-arabinono-1,4-lactone oxidaseYML086C
5758_at 0.81711366 -0.059457 -0.20402 -0.144563 MCM3 at ARS's
Member of complex that actsYEL032Wto initiate replication
5704_at 0.78897037 -0.03397433 -0.17851267 -0.14453833 YND1
apyrase (NDPase/NTPase) YER005W
4168_at 0.69877611 -0.03520233 -0.17969 -0.14448767 DFG10 involved
Protein of unknown function, YIL049Win filamentous growth
5136_at 0.63662517 -0.00266333 -0.14709733 -0.144434 light
myosin Myo2pMLC1chain YGL106W
9958_at 0.64072289 -0.015429 -0.15957967 -0.14415067 FBP1
fructose-1,6-bisphosphatase YLR377C
5423_s_at 0.81135158 -0.120304 -0.264073 -0.143769 AAD4 YFL057C
aryl-alcohol dehydrogenase (putative)
3910_at 0.85925103 -0.08956967 -0.23245767 -0.142888 NA NA YALCDELTA2
3494_f_at 0.59930403 -0.00159 -0.143354 -0.141764 NA YCLWDELTA3
Identified by expression profiling and mass spectrometry /// TyB Ga
8906_at 0.82597306 -0.08745767 -0.22913167 -0.141674 NA
Hypothetical ORF YNL035C
5427_at 0.72265712 -0.04603933 -0.18761233 -0.141573 DAK2
dihydroxyacetone kinase YFL053W
3865_f_at 0.84688486 -0.21093233 -0.35247833 -0.141546 NA NA YJLCDELTA6
9923_f_at 0.6952352 -0.007793 -0.14890633 -0.14111333 RPS29A YLR388W
ribosomal protein S29A (S36A) (YS29)
8269_f_at 0.77276166 -0.075279 -0.216354 -0.141075 NA NA YOR293W
7834_at 0.80209484 -0.05411767 -0.195172 -0.14105433 ELP4 protein subunit
RNA polymerase II ElongatorYPL101W
6124_at 0.65796994 -0.01671667 -0.15762467 -0.140908 NA
Hypothetical ORF YDR338C
8493_at 0.8846183 -0.27980267 -0.42039933 -0.14059667 cytochrome c1CYT1 YOR065W
11309_at 0.70912843 -0.01068133 -0.15111433 -0.140433 NA YAR069C
Identified by gene-trapping, microarray-based expression analysis,
9460_at 0.80097052 -0.11169033 -0.25198433 -0.140294 GCV2 YMR189W
glycine cleavage system P subunit|glycine decarboxylase complex
9537_at 0.79612898 -0.01789833 -0.15747567 -0.13957733 SNO1 YMR095C
Protein of unconfirmed function, involved in pyridoxine metabolism;
10737_at 0.69359415 -0.016188 -0.15543033 -0.13924233 PRS1 YKL181W
ribose-phosphate pyrophosphokinase
8250_at 0.7337368 -0.04483533 -0.18391533 -0.13908 NA NA YOR314W
10309_at 0.80751543 -0.114091 -0.25294133 -0.13885033 GAT3 YLR013W
Protein containing GATA family zinc finger motifs
9968_s_at 0.66875643 -0.01303733 -0.15178933 -0.138752 RPL26B YLR344W
ribosomal protein L26B (L33B) (YL33)
6686_at 0.61241602 -0.01049733 -0.149213 -0.13871567 NA NA YDL221W
8292_at 0.73745012 -0.03391133 -0.17248867 -0.13857733 NA
Hypothetical ORF YOR271C
7395_at 0.71690207 -0.03863867 -0.176744 -0.13810533 NA NA YBL012C
5761_at 0.77337154 -0.00390733 -0.14138067 -0.13747333 BUD16 YEL029C
Protein involved in bud-site selection; diploid mutants display a rand
7837_at 0.67846353 -0.01261767 -0.14998133 -0.13736367 NA
Hypothetical ORF YPL098C
3466_i_at 0.79128304 -0.096416 -0.23377433 -0.13735833 NA NA YCRWDELTA13
7777_at 0.76145605 -0.057352 -0.19467167 -0.13731967 protein YPL021W
Non-essential ECM23 of unconfirmed function; affects pre-rRNA pro
8431_at 0.78120077 -0.07913533 -0.215739 -0.13660367 NA NA YOR139C
10216_at 0.83832154 -0.00191967 -0.138442 -0.13652233 HRT3 YLR097C
Putative nuclear ubiquitin ligase, based on computational analysis o
6064_at 0.74907605 -0.02471733 -0.161234 -0.13651667 NA YDR412W
Protein required for cell viability
10224_at 0.65780605 -0.00350833 -0.139895 -0.13638667 SEN2 subunit
tRNA splicing endonuclease YLR105C
7642_at 0.72123717 -0.02256467 -0.15889933 -0.13633467 Ser/Thr Kinase DBF20 YPR111W
9436_at 0.77992796 -0.023242 -0.15951133 -0.13626933 NA
Hypothetical ORF YMR209C
7755_at 0.79208237 -0.03159567 -0.167628 -0.13603233 NA
Hypothetical ORF YPR003C
7635_at 0.75397303 -0.02804433 -0.16340767 -0.13536333 to the YPR104C
domain similarFHL1 fork head DNA-binding domain found in the de
4212_g_at 0.57897933 -0.004073 -0.13936967 -0.13529667 glucoamylase SGA1 YIL099W
3882_f_at 0.64847339 -0.01074167 -0.145981 -0.13523933 NA YJRWTY1-1
Identified by expression profiling and mass spectrometry /// TyA Ga
9399_at 0.69270248 -0.01671867 -0.15188967 -0.135171 GMP synthaseGUA1 YMR217W
8190_at 0.69770359 -0.01386467 -0.14878267 -0.134918 REV1
deoxycytidyl transferase YOR346W
7863_at 0.75044089 -0.032021 -0.166849 -0.134828 IDI1 YPL117C
isopentenyl diphosphate:dimethylallyl diphosphate isomerase (IPP
7583_at 0.8352856 -0.02264233 -0.15729767 -0.13465533 ATG13 YPR185W
Phosphorylated protein that interacts with Vac8p, required for the cy
4541_at 0.88296047 -0.07917167 -0.21374933 -0.13457767 non-tagged protein was localized to the mitochondria
The authentic, NA YHL021C
9732_at 0.65032017 -0.00122467 -0.13574867 -0.134524 ERV41 YML067C
Protein localized to COPII-coated vesicles, forms a complex with Er
5268_at 0.57928918 -0.00511867 -0.139615 -0.13449633 GUS1 YGL245W
Glutamyl-tRNA synthetase (GluRS), forms a complex with methiony
7740_at 0.72974398 -0.03957367 -0.173701 -0.13412733 of the YPR032W
yeast homologSRO7 Drosophila tumor suppressor, lethal giant larv
5958_at 0.71845822 -0.001629 -0.13575167 -0.13412267 SLD5
subunit of the GINS complexYDR489W
9503_at 0.74222468 -0.03342267 -0.16752433 -0.13410167 Hypothetical ORFNA YMR148W
4083_at 0.82073089 -0.08589367 -0.219994 -0.13410033 DEAH YIR002C
Member of theMPH1 family of helicases, functions in an error-free
8388_at 0.76090119 -0.03235267 -0.16641033 -0.13405767 Hypothetical ORFNA YOR186W
9041_at 0.69853732 -0.00401867 -0.13804667 -0.134028 APC1
ubiquitin ligase subunit YNL172W
5765_at 0.76304395 -0.02637333 -0.160255 -0.13388167 RSC YEL025C
SWI/SNF and NA interacting protein 1
9348_at 0.81860525 -0.01632733 -0.15019933 -0.133872 PRC1 YMR297W
carboxypeptidase Y (proteinase C)|carboxypeptidase yscY|CPY
6014_at 0.69603659 -0.02095533 -0.15459933 -0.133644 NA NA YDR455C
11046_at 0.85001469 -0.04305467 -0.176647 -0.13359233 BBC1 YJL021C
Protein possibly involved in assembly of actin patches; interacts wit
6131_at 0.70562798 -0.006303 -0.139317 -0.133014 HXT3
low affinity glucose transporterYDR345C
6565_at 0.76294204 -0.01492267 -0.147783 -0.13286033 MDH3
malate dehydrogenase YDL078C
7130_g_at 0.48873387 -0.00070367 -0.13328767 -0.132584 NA YBR220C
Hypothetical ORF /// Hypothetical ORF
7648_at 0.66076296 -0.00246033 -0.133309 -0.13084867 Hypothetical ORFNA YPR116W
10141_at 0.80609445 -0.02868733 -0.15921567 -0.13052833 MSS51 YLR203C
Protein required for the maturation and translation of COX1 mRNA
7172_at 0.7787804 -0.02422433 -0.15426033 -0.130036 NPL4 YBR170C
Endoplasmic reticulum and nuclear membrane protein, forms a com
6846_at 0.80902704 -0.05350233 -0.182961 -0.12945867 NA green fluorescent protein (GFP)-fusion
Protein of unknown function; YCR061W
7808_at 0.63667421 -0.00487433 -0.13396567 -0.12909133 NA NA YPL035C
8834_at 0.78202657 -0.05429767 -0.18333 -0.12903233 SSK2 YNR031C
MAP kinase kinase kinase|activator of Pbs2p
5074_at 0.58068894 -0.004041 -0.132996 -0.128955 HNM1 YGL077C
transporter (permease) for choline and nitrogen mustard; share hom
10308_at 0.8130591 -0.10237933 -0.23098633 -0.128607 Hypothetical ORFNA YLR012C
11301_i_at 0.80370096 -0.08054367 -0.209104 -0.12856033 FLO1 flocculation,
Lectin-like protein involved inYAR050W cell wall protein that bind
7854_i_at 0.78468865 -0.074988 -0.20337133 -0.12838333 RPS9A (rp21) (YS11)
ribosomal protein S9A (S13) YPL081W
7370_at 0.52959233 -0.00270333 -0.13078567 -0.12808233 IPP1
inorganic pyrophosphatase YBR011C
5142_i_at 0.7480937 -0.00565333 -0.13360767 -0.12795433 RPL9B YGL147C
ribosomal protein L9B (L8B) (rp24) (YL11)
11136_at 0.72046234 -0.006019 -0.13344567 -0.12742667 CCT7 YJL111W
chaperonin containing T-complex subunit seven component
8260_at 0.83621023 -0.06184333 -0.189204 -0.12736067 HUA2 YOR284W
Cytoplasmic protein of unknown function; computational analysis of
4989_at 0.67625522 -0.010014 -0.13716333 -0.12714933 Hypothetical ORFNA YGR016W
8347_at 0.7499578 -0.02183767 -0.148976 -0.12713833 RIS1
SWI2/SNF2 DNA-dependentYOR191W ATPase family member (putative)
7170_at 0.80875909 -0.00729367 -0.13427233 -0.12697867 PEX32 YBR168W
Peroxisomal integral membrane protein, involved in negative regula
6575_at 0.72864959 -0.03037667 -0.15713133 -0.12675467 exosome 3->5RRP42 YDL111C
exoribonuclease complex component with Rrp4p, Rr
9521_at 0.78489143 -0.01846433 -0.14447167 -0.12600733 NA NA YMR122C
9198_s_at 0.81699062 -0.039425 -0.165371 -0.125946 SNZ2 YNL333W
Snooze: stationary phase-induced gene family
4721_at 0.76679986 -0.040738 -0.16652033 -0.12578233 NA YGR291C
Identified by gene-trapping, microarray-based expression analysis,
8207_at 0.90040648 -0.20007333 -0.32571467 -0.12564133 NA NA YOR317W
9920_at 0.75847586 -0.04245567 -0.168072 -0.12561633 SWC7 component
Protein of unknown function, YLR385C of the Swr1p complex that
6302_at 0.71917422 -0.02255 -0.148119 -0.125569 RPA14
RNA polymerase I subunit YDR156W
7768_at 0.83436543 -0.01353533 -0.13894833 -0.125413 Hypothetical ORFNA YPL030W
10627_at 0.80603437 -0.051407 -0.176799 -0.125392 Hypothetical ORFNA YKL069W
9864_at 0.85275938 -0.10792067 -0.23319533 -0.12527467 Hypothetical ORFNA YLR460C
11160_at 0.75359756 -0.04417067 -0.16906267 -0.124892 LCB3 YJL135W
dihydrosphingosine-1-phosphate phophatase
4544_at 0.76435131 -0.0514 -0.17595033 -0.12455033 Hypothetical ORFNA YHL018W
3795_at 0.76526746 -0.051529 -0.175998 -0.124469 NA NA YLRCSIGMA1
4491_at 0.81867094 -0.006094 -0.13025267 -0.12415867 PAN5
ketopantoate reductase YHR063C
8627_at 0.79307232 -0.036867 -0.16073967 -0.12387267 NA green fluorescent protein (GFP)-fusion
Protein of unknown function; YOL070C
9671_at 0.760834 -0.04625333 -0.17008467 -0.12383133 Hypothetical ORFNA YML037C
7538_at 0.85039228 -0.07071867 -0.19445667 -0.123738 PZF1 YPR186C
transcription factor IIIA (putative)
6109_at 0.79585033 -0.014983 -0.138155 -0.123172 NA green fluorescent protein (GFP)-fusion
Protein of unknown function; YDR367W
3599_at 0.82438086 -0.11583867 -0.239005 -0.12316633 NA NA YOLCDELTA9
5915_at 0.64155087 -0.00022633 -0.123289 -0.12306267 STL1
sugar transporter-like proteinYDR536W
9072_at 0.89419799 -0.32759567 -0.45048433 -0.12288867 Non-essential NA YNL187W
protein with putative leucine-rich nuclear export signa
10882_at 0.80478486 -0.01603 -0.13861533 -0.12258533 SGM1 required
Protein of unknown function, YJR134Cfor wild-type growth rate on g
4715_at 0.68275164 -0.01579333 -0.13821233 -0.122419 binding YGR285C
zuotin, Z-DNA ZUO1 protein (putative)
9091_at 0.78902698 -0.037524 -0.159461 -0.121937 VID27
Vacuole import and degradation YNL212W
5384_at 0.76860822 -0.022142 -0.14371233 -0.12157033 polyphosphateVTC2 YFL004W
synthetase (putative)
7202_at 0.65368682 -0.00124367 -0.12269833 -0.12145467 protein YBR156C
Mitotic spindle SLI15 involved in chromosome segregation.
5949_at 0.71266578 -0.02435267 -0.14554667 -0.121194 NA NA YDR525W
10605_at 0.76350975 -0.03456633 -0.15563933 -0.121073 Hypothetical ORFNA YKL047W
5601_at 0.73980707 -0.01354867 -0.13459033 -0.12104167 SLX8 YER116C
Protein containing a RING finger domain that forms a complex with
10207_at 0.7806458 -0.051302 -0.172281 -0.120979 choline kinaseCKI1 YLR133W
6815_at 0.80482281 -0.02376867 -0.144557 -0.12078833 SOL2
multicopy suppressor of los1-1 YCR073W-A
3507_at 0.81023442 -0.060636 -0.18065867 -0.12002267 NA NA YBLCDELTA7
10670_at 0.8199873 -0.00753367 -0.12719533 -0.11966167 APN1 YKL114C
major apurinic/apyrimidinic endonuclease/3'-repair diesterase
9437_at 0.89180756 -0.045878 -0.16539133 -0.11951333 Hypothetical ORFNA YMR210W
11383_at 0.78006812 -0.05574967 -0.17457533 -0.11882567 Hypothetical ORFNA YAL064C-A
6140_at 0.70333714 -0.013316 -0.131831 -0.118515 SUM1 YDR310C
Suppresor of mar1-1 (sir2) mutation
3745_f_at 0.78234999 -0.034825 -0.15327667 -0.11845167 NA NA YLRWSIGMA3
5151_at 0.77959212 -0.04170667 -0.159988 -0.11828133 Hypothetical ORFNA YGL138C
6408_at 0.75104167 -0.010283 -0.128474 -0.118191 NA
integral membrane protein YDR084C
9570_at 0.82393028 -0.10598033 -0.22399833 -0.118018 Hypothetical ORFNA YMR084W
7484_at 0.77903987 -0.02318533 -0.14073133 -0.117546 SFT2
similar to mammalian syntaxin 5YBL102W
7425_s_at 0.63617677 -0.00158167 -0.118504 -0.11692233 RPS8B YBL072C
ribosomal protein S8B (S14B) (rp19) (YS9)
4529_f_at 0.69711619 -0.00890633 -0.12445333 -0.115547 RPL27A
ribosomal protein L27A YHR010W
6615_at 0.67822351 -0.003895 -0.11881433 -0.11491933 NUP84 YDL116W
nuclear pore complex subunit|similar to mammalian Nup107p
6658_at 0.74787373 -0.03247067 -0.14730733 -0.11483667 NA NA YDL162C
3621_i_at 0.81108099 -0.078152 -0.19284933 -0.11469733 NA YNRWSIGMA4
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
5585_at 0.7800257 -0.049302 -0.16389167 -0.11458967 iron permeaseFTR1 YER145C
10324_at 0.76660109 -0.00732033 -0.12188267 -0.11456233 ADE16 YLR028C
5-aminoimidazole-4-carboxamide ribonucleotide (AICAR) transform
10363_at 0.86102859 -0.06433633 -0.17889133 -0.114555 Hypothetical ORFNA YLL023C
3751_f_at 0.63960701 -0.00071967 -0.11494867 -0.114229 NA YLRCDELTA18
Identified by expression profiling and mass spectrometry /// TyB Ga
8256_at 0.69568149 -0.00083033 -0.11505367 -0.11422333 FSH3 YOR280C
Serine hydrolase that localizes to both the nucleus and cytoplasm.
8546_at 0.87824767 -0.24803767 -0.36176967 -0.113732 CIN5 YOR028C
bZIP (basic-leucine zipper) protein|can activate transcription from a
10442_s_at 0.71170404 -0.019396 -0.13303667 -0.11364067 MNN4 mannosylphosphate transferase (Mnn
Putative positive regulator of YKL200C
7424_at 0.74670195 -0.02612967 -0.139555 -0.11342533 NA NA YBL073W
11108_at 0.81954818 -0.054139 -0.16745133 -0.11331233 KHA1
putative K+/H+ antiporter YJL094C
9356_at 0.8076596 -0.038132 -0.15143533 -0.11330333 Hypothetical ORFNA YMR262W
9733_at 0.71042103 -0.01929367 -0.13235633 -0.11306267 SMA2
Spore Membrane Assembly YML066C
3350_f_at 0.60065943 -0.00438967 -0.117346 -0.11295633 NA YERCTY1-1
Identified by expression profiling and mass spectrometry /// TyA Ga
5252_at 0.69648627 -0.01548133 -0.12809 -0.11260867 aspartic
GPI-anchored YPS5 protease YGL259W
4245_at 0.80835978 -0.02918833 -0.14166667 -0.11247833 UBP7
ubiquitin-specific protease YIL156W
9425_at 0.83385223 -0.02724333 -0.13965767 -0.11241433 CIK1
Kar3-binding protein YMR198W
3321_f_at 0.82121638 -0.08734467 -0.199373 -0.11202833 NA NA YERWDELTA25
10894_at 0.75346026 -0.03257167 -0.14446167 -0.11189 HMS2 YJR146W
heat shock transcription factor homolog
11340_at 0.71728142 -0.018102 -0.129943 -0.111841 Hypothetical ORFNA YAL027W
4425_at 0.77377412 -0.033378 -0.14483233 -0.11145433 GAR1
small nucleolar RNP protein YHR089C
8542_at 0.7467042 -0.02870533 -0.140148 -0.11144267 NA NA YOR024W
4185_at 0.79885496 -0.00616167 -0.116912 -0.11075033 AIR1 YIL079C
RING finger protein that interacts with the arginine methyltransferas
5978_at 0.75390825 -0.03153333 -0.14208033 -0.110547 NA NA YDR509W
7656_s_at 0.58311542 -0.00142467 -0.11174 -0.11031533 TEF1 YPR080W
translational elongation factor EF-1 alpha
3444_f_at 0.64442663 -0.003943 -0.11416433 -0.11022133 NA YDRCDELTA8
Identified by expression profiling and mass spectrometry /// TyB Ga
3697_f_at 0.64761435 -0.004489 -0.11444967 -0.10996067 NA YMLCDELTA2
Hypothetical ORF /// Identified by expression profiling and mass spe
6534_at 0.71821491 -0.01826333 -0.12821533 -0.109952 UBC9
SUMO-conjugating enzyme YDL064W
9164_at 0.8049599 -0.05593333 -0.16576033 -0.109827 Hypothetical ORFNA YNL320W
9347_at 0.60700941 -0.00263467 -0.112214 -0.10957933 LCB1 YMR296C
serine palmitoyltransferase component
9067_at 0.82580555 -0.062726 -0.172285 -0.109559 CHS1
chitin synthase 1 YNL192W
5596_at 0.88253898 -0.23013633 -0.33957833 -0.109442 SWI4
transcription factor YER111C
4907_at 0.77294142 -0.01742967 -0.12627133 -0.10884167 SPT6 YGR116W
interacts with histones, primarily histone H3, possesses nucleosom
3622_f_at 0.77075219 -0.02141733 -0.130228 -0.10881067 NA YNRWSIGMA4
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
8211_at 0.8916166 -0.16709333 -0.275893 -0.10879967 PMT3 YOR321W
dolichyl phosphate-D-mannose:protein O-D-mannosyltransferase
5180_at 0.66317559 -0.001623 -0.11017867 -0.10855567 CDC43 YGL155W
protein geranylgeranyltransferase type 1 polypeptide subunit
8325_at 0.77228841 -0.02606767 -0.134414 -0.10834633 Hypothetical ORFNA YOR214C
6377_at 0.84600977 -0.04618867 -0.15438067 -0.108192 MSH6
human GTBP protein homolog YDR097C
9659_at 0.79427433 -0.04268267 -0.15084267 -0.10816 NA NA YML010C-B
3742_f_at 0.69734751 -0.006379 -0.11433667 -0.10795767 HAP1 YLRWDELTA14
Identified by expression profiling and mass spectrometry /// TyB Ga
9861_at 0.74212475 -0.00904467 -0.11688367 -0.107839 Nap1p BindingNBP1Protein YLR457C
10123_at 0.87641514 -0.01743033 -0.12464 -0.10720967 Kynureninase BNA5 YLR231C
9316_at 0.68067292 -0.00764667 -0.11393767 -0.106291 karyopherin PSE1 YMR308C
3692_at 0.81828329 -0.069011 -0.174888 -0.105877 NA NA YMRWDELTA20
5918_at 0.66151911 -0.00299667 -0.10876033 -0.10576367 Hypothetical ORFNA YDR539W
6172_at 0.8353472 -0.01835567 -0.12331033 -0.10495467 subunit YDR298C
ATP synthase ATP5 5|oligomycin sensitivity-conferring protein
6055_at 0.73774347 -0.01371667 -0.118544 -0.10482733 RPB7 YDR404C
RNA polymerase II dissociable subunit
8941_at 0.78031146 -0.007697 -0.11195733 -0.10426033 NST1 mediates
Protein of unknown function, YNL091Wsensitivity to salt stress; inte
7194_at 0.79166017 -0.01736 -0.12125667 -0.10389667 YSW1 YBR148W
Protein expressed specifically in spores
7411_at 0.65348178 -0.004384 -0.10821567 -0.10383167 PRE7
proteasome subunit YBL041W
9289_at 0.80806902 -0.036526 -0.140322 -0.103796 NA NA YMR324C
10179_at 0.8627731 -0.03533333 -0.13895533 -0.103622 Hypothetical ORFNA YLR149C
9063_at 0.78578309 -0.033159 -0.13645967 -0.10330067 NA YNL196C
Sporulation-specific protein with a leucine zipper motif
4722_s_at 0.79964049 -0.04811267 -0.15133467 -0.103222 NA NA YGR293C
7344_i_at 0.87054489 -0.050069 -0.15309433 -0.10302533 RPL4B YBR031W
ribosomal protein L4B (L2B) (rp2) (YL2)
11159_s_at 0.6704215 -9.13E-05 -0.10276867 -0.10267737 RPS21A YJL136C
ribosomal protein S21A (S26A) (YS25)
7631_at 0.90867259 -0.00136233 -0.103752 -0.10238967 SNT309 YPR101W
protein complex component associated with the splicing factor Prp1
7868_at 0.87900613 -0.002993 -0.10496333 -0.10197033 peroxin PEX25 YPL112C
7230_at 0.90184605 -0.03370867 -0.13540967 -0.101701 Hypothetical ORFNA YBR139W
3147_at 0.794347 -0.042186 -0.14366633 -0.10148033 NA NA YIRCDELTA6
6590_at 0.71638254 -0.01139367 -0.112839 -0.10144533 NA NA YDL096C
10101_at 0.73726693 -0.01852233 -0.11987267 -0.10135033 PNP1
purine nucleoside phosphorylaseYLR209C
5035_at 0.73378395 -0.01660933 -0.11780633 -0.101197 glucosidase I CWH41 YGL027C
8583_at 0.83175677 -0.05152967 -0.15262367 -0.101094 Hypothetical ORFNA YOL024W
8565_at 0.79876616 -0.01707967 -0.11781267 -0.100733 NA YOR004W
Protein required for cell viability
7824_at 0.83576081 -0.00855133 -0.109276 -0.10072467 VPS28 YPL065W
soluble, hydrophilic protein involved in transport of precursors for so
10080_at 0.8142336 -0.006479 -0.10681267 -0.10033367 EST1
Telomere elongation protein YLR233C
4908_at 0.86046229 -0.02755833 -0.127709 -0.10015067 Hypothetical ORFNA YGR117C
7428_at 0.7768525 -0.01053133 -0.110497 -0.09996567 PRS4 YBL068W
ribose-phosphate pyrophosphokinase
5989_at 0.77365876 -0.03008167 -0.13003 -0.09994833 NA
Jumonji Interacting Protein YDR475C
6026_at 0.73240355 -0.00771267 -0.10761933 -0.09990667 HKR1 YDR420W
contains EF hand motif|type I transmembrane protein
11261_at 0.8314835 -0.071825 -0.171704 -0.099879 NA YAR070C
Identified by gene-trapping, microarray-based expression analysis,
10417_at 0.79155779 -0.033955 -0.13381233 -0.09985733 NA NA YLL059C
3581_f_at 0.71935451 -0.010988 -0.11041 -0.099422 NA YORWDELTA24
Identified by expression profiling and mass spectrometry /// TyB Ga
5126_at 0.86268733 -0.089566 -0.18875 -0.099184 CDC20 YGL116W
anaphase promoting complex (APC) subunit
3218_at 0.81928931 -0.058866 -0.157861 -0.098995 NA NA YGRWDELTA26
3591_f_at 0.72060706 -0.013907 -0.11269633 -0.09878933 NA YPLWDELTA5
Identified by expression profiling and mass spectrometry /// TyB Ga
3379_f_at 0.73335353 -0.009239 -0.10797567 -0.09873667 HAP1 YDRCDELTA22
Identified by expression profiling and mass spectrometry /// TyA Ga
10996_at 0.85365943 -0.06697233 -0.16566733 -0.098695 TES1
acyl-CoA thioesterase YJR019C
9173_at 0.68307797 -0.00720933 -0.10541 -0.09820067 F-box protein NA YNL311C
4146_at 0.80140201 -0.02998867 -0.12746567 -0.097477 NA NA YIL025C
3667_f_at 0.73043298 -0.012546 -0.10997633 -0.09743033 NA YNLCDELTA6
Identified by expression profiling and mass spectrometry /// TyB Ga
4406_at 0.83596108 -0.01012133 -0.10752633 -0.097405 Hypothetical ORFNA YHR113W
4159_at 0.72944421 -0.01366467 -0.11100633 -0.09734167 NA NA YIL058W
8787_at 0.75838985 -0.01492833 -0.111617 -0.09668867 HUB1
ubiquitin-like modifier YNR032C-A
3749_r_at 0.82494329 -0.05937067 -0.15568367 -0.096313 NA NA YLRWDELTA17
10926_at 0.75521013 -0.00885033 -0.10516233 -0.096312 STE18 YJR087W
G protein gamma subunit|coupled to mating factor receptor
5411_at 0.79056353 -0.03166033 -0.127934 -0.09627367 NA NA YFL019C
5200_at 0.89831408 -0.14530767 -0.24124833 -0.09594067 protein kinase ATG1 YGL180W
7444_at 0.85783157 -0.02242033 -0.11812267 -0.09570233 NA NA YBL096C
3628_f_at 0.85702571 -0.10351733 -0.199182 -0.09566467 COS10 member of
Protein of unknown function, YNR075W a family of conserved, ofte
11013_at 0.70403404 -0.007036 -0.10221733 -0.09518133 CCT8 YJL008C
chaperonin containing T-complex subunit eight component
10900_at 0.85389366 -0.03083833 -0.12578267 -0.09494433 Hypothetical ORFNA YJR107W
10348_at 0.83112878 -0.00489 -0.099832 -0.094942 SSK1 YLR006C
two-component signal transducer that with Sln1p regulates osmose
5149_at 0.78258955 -0.016644 -0.11153633 -0.09489233 Hypothetical ORFNA YGL140C
11010_at 0.7998658 -0.01401133 -0.10860533 -0.094594 RPC17 YJL011C
RNA polymerase III subunit C17; physically interacts with C31, C11
3440_f_at 0.74173999 -0.00893967 -0.10341633 -0.09447667 NA YDRCDELTA7
Identified by expression profiling and mass spectrometry /// TyB Ga
10060_at 0.92094599 -0.00624667 -0.10060967 -0.094363 GSY2 YLR258W
glycogen synthase (UDP-glucose-starch glucosyltransferase)
3269_f_at 0.86243688 -0.05743433 -0.15152567 -0.09409133 NA NA YGLWDELTA8
9960_at 0.77454243 -0.02510567 -0.119077 -0.09397133 NA NA YLR379W
3302_f_at 0.71343132 -0.00790533 -0.101696 -0.09379067 NA YGLCDELTA1
Identified by expression profiling and mass spectrometry
3689_f_at 0.75399897 -0.00826467 -0.101993 -0.09372833 NA YMRWDELTA19
Identified by expression profiling and mass spectrometry /// TyB Ga
6499_at 0.79086923 -0.01568033 -0.109264 -0.09358367 APC11 YDL008W
anaphase promoting complex (APC) subunit
8230_at 0.83848586 -0.001534 -0.09511733 -0.09358333 Hypothetical ORFNA YOR298W
4201_at 0.81643269 -0.00222767 -0.09574867 -0.093521 NA YIL110W
Putative S-adenosylmethionine-dependent methyltransferase of the
8972_at 0.80572555 -0.037889 -0.131401 -0.093512 NA NA YNL105W
4930_at 0.85300774 -0.00221633 -0.09565567 -0.09343933 VAS1
valine-tRNA ligase YGR094W
8607_at 0.86544512 -0.04566067 -0.13892767 -0.093267 PAS kinase PSK2 YOL045W
10062_at 0.9064755 -0.040019 -0.13286033 -0.09284133 chain YLR260W
sphingoid longLCB5 base (LCB) kinase
7682_at 0.78587375 -0.026526 -0.119061 -0.092535 FCY1
cytosine deaminase YPR062W
6569_at 0.71362235 -0.00353367 -0.096046 -0.09251233 RPL31A (L34A) (YL28) /// ribosomal protein L31B (L
YDL075W
ribosomal protein L31A /// RPL31B
9699_at 0.78769999 -0.00414933 -0.09662767 -0.09247833 IMD4
IMP dehydrogenase homolog YML056C
10293_at 0.82279699 -0.05120433 -0.14355 -0.09234567 NA NA YLR041W
4365_at 0.86196371 -0.050308 -0.14261067 -0.09230267 peroxin PEX18 YHR160C
10970_at 0.82726251 -0.005339 -0.097429 -0.09209 URB2 YJR041C
Nucleolar protein required for normal metabolism of the rRNA prima
10359_at 0.83627149 -0.058639 -0.15047467 -0.09183567 ISA1 YLL027W
Mitochondrial matrix protein involved in biogenesis of the iron-sulfur
5331_at 0.7933964 -0.00103867 -0.09266467 -0.091626 RPL29
ribosomal protein L29 (YL43)YFR032C-A
7115_at 0.88723192 -0.13328933 -0.22460233 -0.091313 Hypothetical ORFNA YBR250W
6054_at 0.84115862 -0.04228633 -0.13349467 -0.09120833 dityrosine synthesis in the outer layer of the spore w
first enzyme inDIT1 YDR403W
9755_at 0.82884092 -0.05155067 -0.14274067 -0.09119 NA NA YML090W
3288_at 0.82711358 -0.047247 -0.13812633 -0.09087933 NA NA YFLCDELTA6
9365_at 0.87008186 -0.00275633 -0.09323767 -0.09048133 URA10 YMR271C
orotate phosphoribosyltransferase 2
3373_at 0.70947907 -0.00249067 -0.09292867 -0.090438 NA NA YERCDELTA8
9129_at 0.77899315 -0.01591133 -0.10632233 -0.090411 IST1 factor, as
Putative translation initiation YNL265C suggested by computational
7311_at 0.83991526 -0.03451033 -0.124851 -0.09034067 NA may have
Protein of unknown function, YBR043C a role in drug resistance
7792_at 0.85435701 -0.01552733 -0.10569667 -0.09016933 ARL3 YPL051W
Similar to ADP-ribosylation factor. Part of the carboxypeptidase Y p
8610_at 0.83510085 -0.01032967 -0.10043967 -0.09011 NGL1 YOL042W
RNase (putative)|DNase (putative)
4282_f_at 0.75453597 -0.00976967 -0.09985333 -0.09008367 glucose permeaseHXT11 YIL171W
6585_at 0.8127685 -0.00544367 -0.09542933 -0.08998567 protein kinase DUN1 YDL101C
8272_at 0.8871695 -0.11558867 -0.20552833 -0.08993967 UAF30 YOR295W
Topoisomerase 1 and RAD52 epistasis group Interactions
3313_f_at 0.75570353 -0.00898533 -0.098647 -0.08966167 NA YERWDELTA22
Identified by expression profiling and mass spectrometry /// TyB Ga
5032_at 0.71418553 -0.001906 -0.09137933 -0.08947333 RPL30 YGL030W
ribosomal protein L30 (L32) (rp73) (YL38) large subunit
7224_at 0.77029202 -0.00729433 -0.09662733 -0.089333 Has homologyHSL7 YBR133C
to arginine methyltransferases
8339_at 0.91772646 -0.02293933 -0.11217433 -0.089235 Hypothetical ORFNA YOR227W
9465_at 0.87544732 -0.02433567 -0.11344533 -0.08910967 RIM13 YMR154C
cysteine protease|similar to E. nidulans palB|calpain-like protease i
5639_at 0.84524463 -0.06930833 -0.15835133 -0.089043 NA NA YER066C-A
3399_f_at 0.75333517 -0.01394533 -0.10288933 -0.088944 NA YDRWDELTA29
Identified by expression profiling and mass spectrometry /// TyB Ga
5404_at 0.85789391 -0.05063567 -0.13956733 -0.08893167 STE2 YFL026W
alpha-factor pheromone receptor|seven-transmembrane domain pro
5946_at 0.77996908 -0.02188433 -0.11079567 -0.08891133 SPS2
Middle/late gene of meiosis YDR522C
10948_at 0.77578259 -0.00592633 -0.09451633 -0.08859 CCT5 YJR064W
chaperonin subunit epsilon subunit
10180_at 0.65409629 -0.00247967 -0.09095633 -0.08847667 STM1 YLR150W
purine motif triplex-binding protein
5344_at 0.75606875 -0.00597433 -0.094306 -0.08833167 NIC96 YFR002W
96 kDa nucleoporin-interacting component|nuclear pore complex su
10251_at 0.79653326 -0.00783767 -0.096152 -0.08831433 CSF1 YLR087C
Protein required for fermentation at low temperature
11187_at 0.86134673 -0.04533667 -0.13363833 -0.08830167 SNA3 YJL151C
Integral membrane protein localized to vacuolar intralumenal vesicl
5541_at 0.88814992 -0.09188533 -0.17985933 -0.087974 NA NA YER006c-a
4446_at 0.88637947 -0.02672667 -0.11461 -0.08788333 RRP3 YHR065C
weak RNA-dependent ATPase activity which is not specific for rRNA
11268_at 0.79599379 -0.02711633 -0.114904 -0.08778767 NA NA YAR040c
9691_i_at 0.75265443 -0.00010433 -0.087834 -0.08772967 RPS1B
ribosomal protein S1B (rp10B) YML063W
9030_at 0.90993695 -0.16870667 -0.25630267 -0.087596 MRPL19 YNL184C
Mitochondrial ribosomal protein of the large subunit
5532_at 0.7921105 -0.02149667 -0.10880567 -0.087309 FAU1 YER183C
5,10-methenyltetrahydrofolate synthetase
11323_at 0.83405239 -0.05168 -0.138692 -0.087012 TFC3 YAL001C
transcription factor tau (TFIIIC) subunit
8821_at 0.81428968 -0.03372067 -0.12058433 -0.08686367 Hypothetical ORFNA YNR062C
8368_i_at 0.77643922 -0.017305 -0.104097 -0.086792 RPS28A YOR167C
ribosomal protein S28A (S33A) (YS27)
4441_at 0.7891053 -0.01024633 -0.09693467 -0.08668833 SBE22 YHR103W
functionally redundant and similar in structure to SBE2
8297_at 0.88469221 -0.02651267 -0.11287133 -0.08635867 MKK1
MAP kinase kinase (MEK) YOR231W
4853_at 0.91185681 -0.159226 -0.24545167 -0.08622567 RSR1 YGR152C
Gtp-binding protein of the ras superfamily involved in bud site selec
4808_at 0.86540324 -0.00107 -0.087102 -0.086032 NA function; green fluorescent protein (GF
Essential protein of unknownYGR198W
10539_at 0.80437804 -0.017123 -0.10248767 -0.08536467 NA YKR022C
Protein required for cell viability
3947_at 0.7236584 -0.00724033 -0.09233133 -0.085091 NA YKL033W-A
Similar to S. pombe hypothetical proteins
3171_r_at 0.89183789 -0.15401733 -0.23901533 -0.084998 NA NA YHRCDELTA11
3240_f_at 0.74827768 -0.01025 -0.09506367 -0.08481367 NA YGRCDELTA17
Identified by expression profiling and mass spectrometry /// TyB Ga
4209_at 0.84041186 -0.003749 -0.08853567 -0.08478667 repressor
transcriptional XBP1 YIL101C
10084_at 0.7501495 -0.010198 -0.09495167 -0.08475367 NA NA YLR236C
5664_at 0.79699885 -0.00547233 -0.09011433 -0.084642 HOM3 YER052C
aspartate kinase (L-aspartate 4-P-transferase) (EC 2.7.2.4)
3423_f_at 0.76362013 -0.01187 -0.09646233 -0.08459233 NA YDRCDELTA21
Identified by expression profiling and mass spectrometry /// TyB Ga
11153_at 0.92133906 -0.01584 -0.10028267 -0.08444267 YAK1
Serine-threonine protein kinase YJL141C
6714_at 0.92618408 -0.125212 -0.20950267 -0.08429067 ADY3 YDL239C
Protein required for spore wall formation, thought to mediate assem
4741_at 0.83796897 -0.049147 -0.132963 -0.083816 NA NA YGR265W
5064_at 0.85544214 -0.01365767 -0.097373 -0.08371533 DST1 YGL043W
RNA polymerase II elongation factor|transcription elongation factor|
7705_at 0.84783885 -0.008592 -0.09223667 -0.08364467 TIF5 YPR041W
Translation initiation factor eIF5
6657_at 0.83351937 -0.04569667 -0.12921933 -0.08352267 NA NA YDL163W
7407_at 0.87668863 -0.02703233 -0.11042933 -0.083397 COR1 YBL045C
coenzyme QH2 cytochrome c reductase 44 kDa core protein subun
3902_f_at 0.74701888 -0.00688567 -0.08997367 -0.083088 NA YJLCDELTA3
Hypothetical ORF /// Identified by expression profiling and mass spe
3748_i_at 0.8681963 -0.08428 -0.16713167 -0.08285167 NA NA YLRWDELTA17
6473_i_at 0.84687716 -0.01678133 -0.09939267 -0.08261133 NA NA YDR012W
9011_at 0.78352837 -0.007554 -0.08984133 -0.08228733 Hypothetical ORFNA YNL157W
5306_at 0.87915514 -0.07037733 -0.15251533 -0.082138 RPN12
32-34 kDa protein YFR052W
4113_at 0.77964367 -0.015877 -0.09794867 -0.08207167 NA NA YIL012W
3345_f_at 0.81784794 -0.00967033 -0.091533 -0.08186267 NA YERCDELTA16
Identified by expression profiling and mass spectrometry /// TyB Ga
5747_at 0.84038696 -0.04146767 -0.12292033 -0.08145267 Hypothetical ORFNA YEL043W
11132_at 0.749733 -0.00397267 -0.08525467 -0.081282 PHO86 YJL117W
Protein specifically required for packaging of the high-affinity phosp
8985_at 0.88184805 -0.02501267 -0.10627533 -0.08126267 NAM9 YNL137C
mitochondrial S4 ribosomal protein (putative)
10269_at 0.82406496 -0.03489933 -0.11614033 -0.081241 FRS1 YLR060W
phenylalanine-tRNA ligase subunit
3844_f_at 0.79069719 -0.01498367 -0.09622033 -0.08123667 NA YJRWDELTA17
Identified by expression profiling and mass spectrometry /// TyB Ga
9896_f_at 0.74704528 -0.004365 -0.08551533 -0.08115033 RPL31A (L34A) (YL28) /// ribosomal protein L31B (L
YLR406C
ribosomal protein L31A /// RPL31B
3583_i_at 0.87321283 -0.088141 -0.16913933 -0.08099833 NA NA YPLCDELTA1
11210_at 0.82745511 -0.02438967 -0.105325 -0.08093533 RFA3
replication factor-A subunit 3 YJL173C
10378_at 0.82063328 -0.015236 -0.09616033 -0.08092433 AQY2 YLL052C
Hypothetical ORF; maybe continuous with YLL052C (AQY2) in som
8518_at 0.81100205 -0.00501667 -0.085564 -0.08054733 TOM6 YOR045W
associates with TOM40|protein translocation complex component
5399_at 0.86806526 -0.02153267 -0.102048 -0.08051533 HAC1 YFL032W
bZIP (basic-leucine zipper) protein
4419_at 0.86248011 -0.06994767 -0.150403 -0.08045533 NA NA YHR125W
5190_i_at 0.85936429 -0.059669 -0.13999433 -0.08032533 RPS26A
ribosomal protein S26A YGL189C
7257_at 0.7730269 -0.00727633 -0.08734 -0.08006367 GRS1
glycine-tRNA ligase YBR121C
5539_at 0.83544235 -0.00694633 -0.08694267 -0.07999633 Hypothetical ORFNA YER039C-A
9907_at 0.78229719 -0.014797 -0.094781 -0.079984 Hypothetical ORFNA YLR416C
3311_f_at 0.76309064 -0.00392 -0.08388933 -0.07996933 NA YERWDELTA18
Identified by expression profiling and mass spectrometry /// TyB Ga
6275_at 0.83723763 -0.02281233 -0.10240433 -0.079592 septin SPR28 YDR218C
4336_at 0.83073646 -0.03229367 -0.111866 -0.07957233 FMO1
flavin-containing monooxygenase YHR176W
4848_at 0.75479419 -0.007046 -0.08601067 -0.07896467 RPL24B YGR148C
ribosomal protein L24B (rp29) (YL21) (L30B)
4112_at 0.89748828 -0.023091 -0.101807 -0.078716 PDR11
ABC transporter (putative) YIL013C
8332_at 0.83568388 -0.01681133 -0.095525 -0.07871367 MCT1
malonyl-CoA:ACP transferase YOR221C
5330_at 0.90616245 -0.050642 -0.129272 -0.07863 Hypothetical ORFNA YFR032C
7549_g_at 0.78736704 -0.00932033 -0.08792667 -0.07860633 protein YPR196W
MAL-activator MAL33 /// nuclear protein (putative)
7228_at 0.91802657 -0.134364 -0.212856 -0.078492 Hypothetical ORFNA YBR137W
4492_at 0.83968456 -0.00626 -0.08428533 -0.07802533 HSP70 family SSZ1 YHR064C
4871_at 0.83743225 -0.03945267 -0.11731433 -0.07786167 Hypothetical ORFNA YGR126W
11358_at 0.87245049 -0.00923467 -0.08707533 -0.07784067 OAF1
transcription factor YAL051W
4970_at 0.88884841 -0.023905 -0.101637 -0.077732 RME1 YGR044C
zinc finger protein|negative regulator of meiosis; directly repressed
3180_f_at 0.86118103 -0.00866 -0.08596 -0.0773 NA YHRCTY1-1
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
4570_at 0.85015602 -0.00513633 -0.08233833 -0.077202 CBP2 YHL038C
Protein required for splicing of COB aI5 intron
9159_at 0.85866547 -0.00537133 -0.08239667 -0.07702533 ERG24
sterol C-14 reductase YNL280C
4846_at 0.86633704 -0.01128433 -0.08811333 -0.076829 Hypothetical ORFNA YGR146C
10040_at 0.8438845 -0.025266 -0.10191733 -0.07665133 Hypothetical ORFNA YLR281C
6667_at 0.79974146 -0.015745 -0.092074 -0.076329 NA NA YDL196W
3276_i_at 0.94398719 -0.41045833 -0.48671 -0.07625167 NA NA YGRCDELTA12
4906_at 0.79263176 -0.016432 -0.09265933 -0.07622733 NA NA YGR115C
6414_at 0.84520217 -0.000988 -0.07696667 -0.07597867 RPC11 YDR045C
TFIIS-like small Pol III subunit C11
9087_at 0.81512834 -0.006623 -0.08259767 -0.07597467 RAP1
repressor activator protein YNL216W
8594_at 0.91819378 -0.18704267 -0.26297567 -0.075933 Hypothetical ORFNA YOL057W
5808_i_at 0.82501063 -0.02138033 -0.09652133 -0.075141 NA NA YEL076W-C
3363_at 0.71301144 -0.001327 -0.076378 -0.075051 NA NA YELCTAU1
10150_at 0.83917145 -0.02383133 -0.09853933 -0.074708 APS1 YLR170C
clathrin associated protein complex small subunit
3665_f_at 0.77192184 -0.00640433 -0.08106433 -0.07466 NA YNLCTY2-1
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
4507_at 0.85744395 -0.03207367 -0.10649433 -0.07442067 Hypothetical ORFNA YHR033W
7844_at 0.73926682 -0.00308767 -0.077485 -0.07439733 NA NA YPL091W
10669_at 0.88981007 -0.08965233 -0.16389867 -0.07424633 protein kinase PRR1 YKL115C
6641_at 0.81386689 -0.000804 -0.074388 -0.073584 PCL9 YDL179W
Cyclin, forms a functional kinase complex with Pho85p cyclin-depen
4554_at 0.88570475 -0.003226 -0.07672733 -0.07350133 Hypothetical ORFNA YHL008C
8356_at 0.84127713 -0.008152 -0.08165133 -0.07349933 NA NA YOR199W
3527_f_at 0.82327353 -0.00875 -0.08191667 -0.07316667 NA YPRCDELTA19
Identified by expression profiling and mass spectrometry /// TyA Ga
11162_at 0.83330563 -0.00481767 -0.07791433 -0.07309667 carrier protein MRS3 YJL133W
6541_at 0.69771786 -0.00074567 -0.073503 -0.07275733 Hypothetical ORFNA YDL057W
8571_at 0.87755544 -0.005163 -0.07784233 -0.07267933 NA potential Cdc28p substrate
Protein of unknown function; YOL036W
8852_at 0.87183064 -0.05372933 -0.12594667 -0.07221733 Hypothetical ORFNA YNR004W
10097_at 0.75870601 -0.00704467 -0.07925633 -0.07221167 YEF3 3 (EF-3)
Translation elongation factor YLR249W
9054_g_at 0.78886881 -0.00468033 -0.07673933 -0.072059 RTT106 /// SPS18
YNL205C
Regulator of Ty1 Transposition - same phenotype as RTT101 - RTT
4977_at 0.86309419 -0.05475833 -0.12678167 -0.07202333 NA NA YGR051C
3256_at 0.8863435 -0.09014867 -0.16195967 -0.071811 NA NA YGRWDELTA21
9682_at 0.86563846 -0.01778333 -0.08938 -0.07159667 TSA1 YML028W
thioredoxin-peroxidase (TPx); reduces H2O2 and alkyl hydroperoxid
6176_at 0.87581804 -0.03467067 -0.10615367 -0.071483 protein YDR302W
ER membraneGPI11 involved in a late step of glycosylphosphatidy
10528_at 0.86110085 -0.036838 -0.10773433 -0.07089633 TRM2
tRNA methyltransferase YKR056W
9715_at 0.8473034 -0.02028067 -0.09115967 -0.070879 NA NA YML084W
4131_at 0.83548786 -0.01475067 -0.08560933 -0.07085867 NA localizes
Protein of unknown function, YIL040W to the endoplasmic reticulum
10610_at 0.90228753 -0.043553 -0.11410333 -0.07055033 SPC42
spindle pole body component YKL042W
5951_at 0.87006428 -0.01517 -0.08569133 -0.07052133 RBA50 YDR527W
Protein required for cell viability
3611_f_at 0.8204098 -0.01800867 -0.08847133 -0.07046267 NA NA YORWDELTA16
7708_f_at 0.80013184 -0.00818133 -0.07855233 -0.070371 RPL43A
ribosomal protein L43A YPR043W
4178_at 0.75807409 -0.00372733 -0.07407 -0.07034267 transporter AVT7 YIL088C
8352_at 0.92508343 -0.068182 -0.13840833 -0.07022633 (putative)
leucine zipper SLK19 YOR195W
8585_at 0.77800041 -0.000425 -0.07022233 -0.06979733 NA YOL022C
Protein required for cell viability
5780_at 0.82760245 -0.005838 -0.07533167 -0.06949367 POL5
DNA polymerase phi YEL055C
8664_at 0.82868016 -0.012983 -0.08239133 -0.06940833 Hypothetical ORFNA YOL125W
9717_at 0.81897154 -0.00632933 -0.07554267 -0.06921333 Hypothetical ORFNA YML082W
7633_s_at 0.82174996 -0.001022 -0.07013433 -0.06911233 RPL11A YPR102C
ribosomal protein L11A (L16A) (rp39A) (YL22)
3833_f_at 0.91121901 -0.14919533 -0.21800233 -0.068807 NA NA YKRWOMEGA1
6956_s_at 0.77932631 -0.00644733 -0.07512467 -0.06867733 NA YCL074W
Psuedogene: encodes fragment of Ty Pol protein
3615_i_at 0.91675928 -0.17772 -0.24609267 -0.06837267 NA NA YORWDELTA19
6932_at 0.91947868 -0.157699 -0.225878 -0.068179 Hypothetical ORFNA YCL044C
4426_at 0.848771 -0.00306833 -0.07120033 -0.068132 YNG2 YHR090C
NuA4 histone acetyltransferase complex component
8612_at 0.69524812 -0.00073767 -0.06884633 -0.06810867 NA NA YOL040C
4797_at 0.89550408 -0.02634033 -0.09419367 -0.06785333 HGH1 YGR187C
Protein of unknown function with similarity to human HMG1 and HM
9686_s_at 0.79969816 -0.005213 -0.07291433 -0.06770133 RPS17A
ribosomal protein S17A (rp51A) YML024W
11205_i_at 0.76234572 -0.003365 -0.07106133 -0.06769633 NA NA YJL177W
7362_at 0.92064298 -0.12985967 -0.19732433 -0.06746467 RER2
cis-prenyltransferase YBR002C
4976_at 0.83194257 -0.00064 -0.068052 -0.067412 NA NA YGR050C
9450_at 0.81768986 -0.013777 -0.08097 -0.067193 CTL1
RNA triphosphatase YMR180C
4457_at 0.83272191 -0.020046 -0.08646733 -0.06642133 PTC7
type 2C Protein Phosphatase YHR076W
6042_at 0.90260745 -0.04859767 -0.11484533 -0.06624767 PPM1 YDR435C
carboxy methyl transferase for protein phosphatase 2A catalytic sub
7790_at 0.82489091 -0.01130567 -0.077157 -0.06585133 KTR6
mannosylphosphate transferase YPL053C
9517_g_at 0.82923908 -0.00237733 -0.06819 -0.06581267 ASI1 YMR119W
Putative integral membrane E3 ubiquitin ligase; genetic interactions
9703_at 0.90537661 -0.01656367 -0.082261 -0.06569733 NA
Hypothetical ORF YML053C
8883_at 0.92131959 -0.08746067 -0.152842 -0.06538133 SPO1
similar to phospholipase B YNL012W
4879_at 0.88700963 -0.02428567 -0.08960933 -0.06532367 CAF130
CCR4 Associated Factor 130 kDa YGR134W
10302_g_at 0.82537201 -0.01186567 -0.07712067 -0.065255 RPS0A /// ribosomal protein S0B
ribosomal protein S0A /// RPS0BYLR048W
9409_at 0.86585592 -0.02436 -0.089584 -0.065224 NA YMR226C
NADP(+)-dependent dehydrogenase; acts on serine, L-allo-threonin
7772_at 0.91289678 -0.04368967 -0.10885533 -0.06516567 SKS1 and grr1
multicopy suppressor of snf3YPL026Cmutants
5778_at 0.87877471 -0.02767167 -0.09264267 -0.064971 NA
Hypothetical ORF YEL057C
7587_at 0.87615095 -0.01472033 -0.07941133 -0.064691 NOC4
U3 snoRNP protein YPR144C
6917_at 0.91983514 -0.013587 -0.078142 -0.064555 MRC1 YCL061C
S-phase checkpoint protein found at replication forks, required for D
5764_at 0.80382849 -0.004493 -0.06895533 -0.06446233 SNU13 YEL026W
U3 snoRNP protein|U4/U6.U5 snRNP component
5707_at 0.83146927 -0.001488 -0.06584367 -0.06435567 NA
Hypothetical ORF YER007C-A
10483_at 0.87598345 -0.04015767 -0.10437 -0.06421233 FLO10 YKR102W
Lectin-like protein with similarity to Flo1p, thought to be involved in
4139_at 0.87923431 -0.04643967 -0.11063433 -0.06419467 NA NA YIL032C
10571_at 0.85075859 -0.01899667 -0.08305067 -0.064054 RSC4
RSC complex member YKR008W
5979_at 0.85923078 -0.01325333 -0.07729367 -0.06404033 SMT3 in function
Protein that may be involved YDR510W and/or structure of the euka
7758_at 0.89666354 -0.031189 -0.09516333 -0.06397433 ICL2
2-methylisocitrate lyase YPR006C
4155_at 0.85111397 -0.00498967 -0.06890967 -0.06392 ARC15
Arp complex subunit YIL062C
3500_f_at 0.88054926 -0.03686033 -0.100189 -0.06332867 NA NA YBLWDELTA3
7888_at 0.92416245 -0.16543567 -0.22864133 -0.06320567 NA
Hypothetical ORF YPL137C
5301_at 0.89830174 -0.032715 -0.09584967 -0.06313467 BNA6 YFR047C
Quinolinate phosphoribosyl transferase
3212_f_at 0.90248078 -0.06001367 -0.12289867 -0.062885 NA NA YGRWDELTA22
7165_at 0.86145308 -0.03211667 -0.09439 -0.06227333 NA NA YBR209W
9679_at 0.89037823 -0.03779333 -0.099684 -0.06189067 NDC1 YML031W
multiple transmembrane domains (putative)|nuclear envelope prote
5504_at 0.88075816 -0.042204 -0.103872 -0.061668 NA NA YER165c-a
8782_at 0.86946762 -0.03434367 -0.095812 -0.06146833 NA YNR070W
ABC transporter of the PDR family
3752_f_at 0.78139491 -0.00554233 -0.06692367 -0.06138133 NA NA YLRCDELTA19
6407_at 0.88655724 -0.00264233 -0.06400767 -0.06136533 RRP8 efficient processing of pre-rRNA at sit
nucleolar protein required forYDR083W
7330_at 0.89823778 -0.011088 -0.07205333 -0.06096533 KAP104
karyopherin beta 2 YBR017C
6452_at 0.79041582 -0.00499233 -0.06593233 -0.06094 KRS1
lysine-tRNA ligase YDR037W
5752_at 0.85873041 -0.02069733 -0.081485 -0.06078767 NA NA YEL038W
5090_at 0.92989298 -0.09605733 -0.156827 -0.06076967 PYC1
pyruvate carboxylase YGL062W
3380_i_at 0.84249968 -0.00919667 -0.06966967 -0.060473 NA NA YDRWSIGMA4
7091_at 0.8139473 -0.004514 -0.064912 -0.060398 UBX7
Hypothetical ORF YBR273C
6509_at 0.88339808 -0.038178 -0.09832933 -0.06015133 PRP11
snRNA-associated protein YDL043C
11103_at 0.91179232 -0.082267 -0.142377 -0.06011 CHS6 YJL099W
Involved in chitin biosynthesis and/or its regulation
10712_at 0.90577825 -0.01554733 -0.075561 -0.06001367 SBA1
HSP90 associated co-chaperone YKL117W
8916_at 0.82946927 -0.001192 -0.06115933 -0.05996733 LAT1 YNL071W
pyruvate dehydrogenase complex dihydrolipoamide acetyltransfera
3654_i_at 0.89083076 -0.05570433 -0.115612 -0.05990767 NA NA YNLCSIGMA1
4761_at 0.81580261 -0.00524433 -0.06504933 -0.059805 YAP1802 member
Yeast Assembly Polypeptide,YGR241Cof AP180 protein family, bind
5406_at 0.89336861 -0.04338467 -0.102889 -0.05950433 EPL1 YFL024C
NuA4 histone acetyltransferase complex component
6671_at 0.8595074 -0.01985267 -0.07928933 -0.05943667 ARF1
ADP-ribosylation factor YDL192W
7921_at 0.87377945 -0.00706733 -0.06640867 -0.05934133 ATG5
Involved in autophagy YPL149W
6463_at 0.80361265 -0.003538 -0.06264933 -0.05911133 YRB1 YDR002W
Yeast Ran Binder #1; suppressor of FUS1; homolog of mouse HTF
10516_at 0.88521592 -0.03595667 -0.09425033 -0.05829367 UIP5
Ulp1 Interacting Protein 5 YKR044W
6266_at 0.89985145 -0.04871667 -0.10690733 -0.05819067 NA NA YDR209C
9624_at 0.95297084 -0.380334 -0.438455 -0.058121 NA
Hypothetical ORF YMR002W
9127_at 0.89951288 -0.005937 -0.063814 -0.057877 PIK1
phosphatidylinositol 4-kinaseYNL267W
7616_at 0.88382539 -0.016231 -0.073932 -0.057701 NA NA YPR130C
5297_at 0.88040545 -0.041899 -0.099593 -0.057694 COS12 member of
Protein of unknown function, YGL263W a family of conserved, ofte
5682_at 0.85522252 -0.01599467 -0.07363233 -0.05763767 GAL83 YER027C
One of three possible beta-subunits of the Snf1 kinase complex, all
9670_at 0.90907865 -0.00204033 -0.059536 -0.05749567 YMD8 YML038C
similar to vanadate resistance protein Gog5
11305_s_at 0.87272679 -0.03016467 -0.087648 -0.05748333 NA
Hypothetical ORF YAR062W
9358_at 0.85491808 -0.020264 -0.07749767 -0.05723367 and recruitment protein
Ubc7p bindingCUE1 YMR264W
9711_at 0.86808494 -0.023151 -0.08021567 -0.05706467 F-box protein UFO1 YML088W
9940_at 0.8156475 -0.00331167 -0.060268 -0.05695633 synthase 4 YLR405W
dihydrouridine DUS4
3322_at 0.88586153 -0.04366933 -0.10041467 -0.05674533 NA NA YERCDELTA26
9924_at 0.87010457 -0.018057 -0.07424567 -0.05618867 STE23
involved in a-factor processingYLR389C
6037_at 0.89123528 -0.048583 -0.10472567 -0.05614267 NA NA YDR431W
8358_at 0.85103908 -0.01469167 -0.07079167 -0.0561 PET56 YOR201C
ribose methyltransferase for mitochondrial 21S rRNA
4916_at 0.87405376 -0.023172 -0.078951 -0.055779 TWF1 sequestering protein
twinfilin A, an actin monomerYGR080W
6009_at 0.92323613 -0.03409033 -0.08975033 -0.05566 UTP6
U3 snoRNP protein YDR449C
7692_at 0.9095099 -0.078923 -0.13454367 -0.05562067 NOT5 YPR072W
NOT complex member, a global negative regulator of transcription
3434_f_at 0.89930763 -0.03048633 -0.08597267 -0.05548633 NA NA YDRCDELTA6A
4566_at 0.89644128 -0.02856033 -0.08332267 -0.05476233 Hypothetical ORFNA YHL042W
9355_at 0.95051103 -0.05265867 -0.10711233 -0.05445367 TPS3 YMR261C
trehalose-6-phosphate synthase/phosphatase complex 115 kDa reg
8480_at 0.96590655 -0.36654567 -0.420749 -0.05420333 Hypothetical ORFNA YOR052C
7251_at 0.8842596 -0.011336 -0.06520233 -0.05386633 LYS2
alpha aminoadipate reductase YBR115C
9374_at 0.89175836 -0.00529067 -0.058993 -0.05370233 RNA1 YMR235C
GTPase activating protein (GAP) for Gsp1p
3215_f_at 0.9079373 -0.04176833 -0.09524467 -0.05347633 NA YGRWDELTA24
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
4501_at 0.93653225 -0.08788133 -0.14121467 -0.05333333 RPN1
26S proteasome PA700 subunit YHR027C
6676_at 0.91151045 -0.04212567 -0.095421 -0.05329533 PPH22 YDL188C
Catalytic subunit of protein phosphatase 2A, functionally redundant
8364_at 0.85848942 -0.01801433 -0.07116033 -0.053146 RET1 YOR207C
second-largest subunit of RNA polymerase III
9484_at 0.896828 -0.020331 -0.073424 -0.053093 RRB1
RiboSome Assembly 2 YMR131C
7284_at 0.87139711 -0.019291 -0.072321 -0.05303 TRM7 YBR061C
2'-O-ribose tRNA anticodon loop methyltransferase
10310_at 0.89464037 -0.00518667 -0.05815367 -0.052967 PPR1 YLR014C
zinc finger transcription factor of the Zn(2)-Cys(6) binuclear cluster
8369_f_at 0.86139168 -0.0098 -0.06274333 -0.05294333 RPS28A YOR167C
ribosomal protein S28A (S33A) (YS27)
3927_f_at 0.87012111 -0.015831 -0.068467 -0.052636 NA YARWDELTA7
Hypothetical ORF /// Identified by expression profiling and mass spe
10625_at 0.93010481 -0.00660033 -0.059188 -0.05258767 Hypothetical ORFNA YKL071W
8525_at 0.86644398 -0.018962 -0.07154367 -0.05258167 and YOR008C-A
diepoxybutaneNA mitomycin C resistance
5057_at 0.81873567 -0.00119433 -0.053734 -0.05253967 Hypothetical ORFNA YGL050W
3521_i_at 0.90608742 -0.04683867 -0.09936233 -0.05252367 NA NA YBRWDELTA15
8999_at 0.87685595 -0.003185 -0.05570467 -0.05251967 shows protein NA YNL123W
sequence similarity to the mammalian Omi/HtrA2 fam
4764_at 0.89964234 -0.02724167 -0.07914067 -0.051899 LSC2 ligase (synthetase; ATP-forming), a m
beta subunit of succinyl-CoA YGR244C
6075_at 0.87644364 -0.020981 -0.072686 -0.051705 snRNP proteinLSM6 YDR378C
10852_at 0.87978613 -0.00900433 -0.06053133 -0.051527 DAN1 YJR150C
cell wall mannoprotein|induced during anaerobic growth
6934_at 0.90645252 -0.02881533 -0.08009667 -0.05128133 PDI1
protein disulfide isomerase YCL041C
10962_at 0.9522536 -0.25860367 -0.30979267 -0.051189 BNA2 YJR078W
Hypothetical ORF /// Tryptophan 2,3-dioxygenase
9142_at 0.91609467 -0.00628467 -0.05705 -0.05076533 MON2 YNL297C
Peripheral membrane protein with a role in endocytosis and vacuole
3568_f_at 0.9207098 -0.08481 -0.135534 -0.050724 NA NA YPRCDELTA15
8853_at 0.83092931 -0.00641 -0.05679367 -0.05038367 NA NA YNR005C
5187_at 0.87223139 -0.01338367 -0.06362967 -0.050246 IME4
methyltransferase YGL192W
9980_at 0.92357765 -0.00969933 -0.059759 -0.05005967 Hypothetical ORFNA YLR356W
10631_at 0.92213137 -0.010742 -0.06027367 -0.04953167 NA
homolog of mammalian BAP31 YKL065C
10896_at 0.91216849 -0.050013 -0.09945033 -0.04943733 NA NA YJR148W
6554_at 0.89806448 -0.00249067 -0.05176733 -0.04927667 LUC7 YDL087C
Living Under Cap-binding complex expression
8648_at 0.85453205 -0.00202167 -0.05125467 -0.049233 HMI1 YOL095C
Mitochondrial inner membrane localized ATP-dependent DNA helic
9891_at 0.90900695 -0.05347233 -0.10268367 -0.04921133 SIR3 YLR442C
silencing regulator at HML, HMR, and telomeres
4542_at 0.95035375 -0.16701167 -0.216024 -0.04901233 regulator of aYHL020C genes; phosphorylation by p
TranscriptionalOPI1 variety of
10165_at 0.90354279 -0.02454833 -0.07341833 -0.04887 NA NA YLR184W
6363_at 0.87477501 -0.01006767 -0.05868433 -0.04861667 Hypothetical ORFNA YDR128W
4717_at 0.93181348 -0.07649967 -0.125009 -0.04850933 NA NA YGR287C
5973_at 0.94217581 -0.07812767 -0.12643367 -0.048306 NA YDR504C
Protein required for survival at high temperature during stationary p
10357_at 0.79676024 -0.00191633 -0.05019733 -0.048281 Hypothetical ORFNA YLL029W
5549_at 0.94960546 -0.068488 -0.11674233 -0.04825433 BEM2 YER155C
rho GTPase activating protein (GAP)
6545_at 0.88264381 -0.000204 -0.04824833 -0.04804433 protein, YDL053C
Pbp1p bindingPBP4 interacts strongly with Pab1p-binding protein
3655_f_at 0.91630284 -0.04638 -0.09417433 -0.04779433 NA NA YNLCSIGMA1
8543_at 0.95227788 -0.150374 -0.19812367 -0.04774967 Homolog of SIR2 HST3 YOR025W
10600_at 0.94598254 -0.076717 -0.12425867 -0.04754167 C
capping protein AP1 YKL007W
3535_i_at 0.96122353 -0.41291767 -0.460389 -0.04747133 NA NA YPRWSIGMA3
6371_at 0.91249257 -0.03202433 -0.079175 -0.04715067 UBC13
ubiquitin-conjugating enzyme YDR092W
11326_at 0.93733217 -0.11955167 -0.16665933 -0.04710767 SWD1 YAR003W
compass (complex proteins associated with Set1p) component
9070_at 0.90666462 -0.04195867 -0.08883433 -0.04687567 SRP1
karyopherin alpha YNL189W
5939_at 0.96480956 -0.37470933 -0.42156467 -0.04685533 SLF1 YDR515W
Associates with translating ribosomes; may function in cytoplasm to
9376_at 0.91508042 -0.019834 -0.06659133 -0.04675733 NA YMR237W
Protein involved in transport at the trans-Golgi
6294_at 0.87109447 -0.004859 -0.05134467 -0.04648567 associated with nuclear pore complexes; structurally
42 kDa proteinNUP42 YDR192C
3623_f_at 0.84300057 -0.00297633 -0.04944567 -0.04646933 NA YNRCDELTA8
Hypothetical ORF /// Identified by expression profiling and mass spe
8496_at 0.89017993 -0.01459367 -0.060861 -0.04626733 VAM10 YOR068C
Required for normal tethering of vacuoles prior to fusion.
7298_at 0.90703475 -0.02901267 -0.07524667 -0.046234 NA
Hypothetical ORF YBR075W
6101_at 0.89731983 -0.02962467 -0.07567667 -0.046052 NA NA YDR360W
7313_at 0.95084853 -0.14482467 -0.19073467 -0.04591 GIP1 YBR045C
Meiosis-specific protein proposed to be a regulatory subunit of the p
6697_at 0.94623253 -0.035805 -0.081489 -0.045684 NA
Hypothetical ORF YDL211C
10656_at 0.95982516 -0.06536167 -0.11075833 -0.04539667 NA YKL082C
Required for normal pre-rRNA Processing
4437_at 0.92753515 -0.02756267 -0.07284833 -0.04528567 NA
Hypothetical ORF YHR100C
6084_at 0.93324575 -0.02440967 -0.06884467 -0.044435 NA
Hypothetical ORF YDR387C
3392_f_at 0.85448128 -0.00606833 -0.05036 -0.04429167 NA YDRWDELTA27
Identified by expression profiling and mass spectrometry /// TyA Ga
3675_r_at 0.9577843 -0.29065433 -0.33484933 -0.044195 NA NA YMRCDELTA11
9764_at 0.91704174 -0.00477067 -0.04896467 -0.044194 (putative)
small GTPase GTR1 YML121W
7754_at 0.93541146 -0.01725567 -0.061431 -0.04417533 PDH1 YPR002W
Mitochondrial protein that participates in respiration, induced by dia
10778_at 0.89174126 -0.00900833 -0.053065 -0.04405667 ASH1 YKL185W
Zinc-finger inhibitor of HO transcription; mRNA is localized and tran
4122_at 0.87455363 -0.00230033 -0.04632367 -0.04402333 disulfide isomerase)-related protein involved in endo
Pdi1p (protein EPS1 YIL005W
8539_at 0.91242583 -0.034253 -0.07822167 -0.04396867 NA
Hypothetical ORF YOR021C
7205_at 0.91324239 -0.03166833 -0.07545133 -0.043783 NA
microsomal beta-keto-reductase YBR159W
9880_at 0.90210048 -0.002753 -0.04650567 -0.04375267 CNA1
calcineurin subunit A YLR433C
5999_at 0.87919576 -0.00127767 -0.04480633 -0.04352867 VPS72 component
Protein of unknown function, YDR485C of the Swr1p complex that
11016_at 0.96071707 -0.04371433 -0.08711633 -0.043402 CYR1
adenylate cyclase YJL005W
3465_at 0.93643388 -0.097907 -0.14115133 -0.04324433 NA NA YCRWOMEGA3
9882_at 0.93037649 -0.01310567 -0.056141 -0.04303533 TSR2 YLR435W
Protein with a potential role in pre-rRNA processing
8970_at 0.86931912 -0.00464267 -0.04757367 -0.042931 YAF9 leukemogenic protein AF9; member o
Yeast homolog of the humanYNL107W
7850_at 0.87638273 -0.006019 -0.047972 -0.041953 SEC16
vesicle coat component YPL085W
4495_at 0.92028993 -0.050564 -0.09142867 -0.04086467 protein YHR021W-A
Non-essential ECM12 of unknown function
7716_at 0.92785337 -0.01391667 -0.05472733 -0.04081067 NA NA YPR051W
5612_at 0.94984187 -0.10611567 -0.14680567 -0.04069 NA NA YER084W
6399_at 0.94224184 -0.022749 -0.06330467 -0.04055567 PPH3
protein phosphatase type 2AYDR075W
7095_at 0.91022744 -0.005321 -0.045867 -0.040546 NA NA YBR277C
4950_at 0.92417433 -0.041037 -0.081495 -0.040458 NA NA YGR069W
10594_at 0.92949328 -0.04858433 -0.08900733 -0.040423 ARC19
Arp complex subunit YKL013C
10505_at 0.934421 -0.045987 -0.08636133 -0.04037433 MTD1 YKR080W
NAD-dependent 5,10-methylenetetrahydrafolate dehydrogenase
10550_at 0.95209343 -0.10261233 -0.14284933 -0.040237 NA NA YKR033C
10327_at 0.92442675 -0.04773967 -0.087781 -0.04004133 NA
Hypothetical ORF YLR030W
5209_at 0.94942623 -0.083842 -0.12382133 -0.03997933 KIP3
Kinesin-related protein YGL216W
10967_at 0.92022411 -0.04553467 -0.08540233 -0.03986767 NA NA YJR038C
10209_at 0.90743659 -0.013824 -0.053251 -0.039427 SLX4 YLR135W
Subunit of a complex, with Slx1p, that hydrolyzes 5' branches from
3459_at 0.86955641 -0.00699133 -0.046044 -0.03905267 NA NA YCRWDELTA9
7856_at 0.90173524 -0.01549567 -0.05451233 -0.03901667 NA NA YPL080C
7820_at 0.87372842 -0.00658967 -0.04493367 -0.038344 diphosphate synthase|EC 2.5.1.29
geranylgeranylBTS1 YPL069C
5753_at 0.91880707 -0.01026567 -0.04847267 -0.038207 NA NA YEL037C
9912_at 0.92657462 -0.01552733 -0.05368267 -0.03815533 19S regulatory particle of the 26S proteasome lid
Subunit of the RPN13 YLR421C
6605_at 0.94608594 -0.00368867 -0.04171667 -0.038028 HNT1 YDL125C
Adenosine 5'-monophosphoramidase; interacts physically and gene
9709_at 0.94837739 -0.10994333 -0.14747867 -0.03753533 NA NA YML048W-A
3661_at 0.91888748 -0.035517 -0.072942 -0.037425 NA NA YNLWSIGMA2
3329_f_at 0.9347825 -0.047041 -0.08437633 -0.03733533 NA YFLWDELTA2
Similar to probable membrane protein YDR340W and to yeast CYC
10230_at 0.88208884 -0.006354 -0.04328833 -0.03693433 NA NA YLR111W
6718_at 0.92563657 -0.04522467 -0.08184033 -0.03661567 YPD1 YDL235C
two-component phosphorelay intermediate
3940_at 0.97225783 -0.40092167 -0.43741767 -0.036496 DER1 YBR201W
Endoplasmic reticulum membrane protein, required for the protein d
4878_at 0.91935506 -0.01874833 -0.05523267 -0.03648433 PEX4 family
ubiquitin-conjugating protein YGR133W
4995_at 0.92585478 -0.03760933 -0.07392933 -0.03632 NA NA YGR022C
3586_f_at 0.88052087 -0.00578133 -0.04141333 -0.035632 NA YPLWDELTA3
Identified by expression profiling and mass spectrometry /// TyA Ga
4745_at 0.9309585 -0.03462233 -0.07005233 -0.03543 NA NA YGR269W
6568_f_at 0.87791412 -0.00341633 -0.03839867 -0.03498233 RPL31A YDL075W
ribosomal protein L31A (L34A) (YL28)
3432_f_at 0.88979595 -0.00192267 -0.03667 -0.03474733 NA YDRCDELTA5
Hypothetical ORF /// Identified by expression profiling and mass spe
8144_g_at 0.91264086 -0.01816567 -0.05236833 -0.03420267 Hypothetical ORF NA YOR389W
6620_at 0.93391768 -0.026761 -0.060322 -0.033561 B-type cyclin CLB3 YDL155W
6865_at 0.96023597 -0.00587333 -0.039237 -0.03336367 SYP1 YCR030C
Protein with a potential role in actin cytoskeletal organization; overe
8443_at 0.94564557 -0.03417233 -0.067436 -0.03326367 syntaxin familyVAM3 YOR106W
7707_i_at 0.90214692 -0.003061 -0.03624633 -0.03318533 RPL43A
ribosomal protein L43A YPR043W
7791_at 0.95806614 -0.120715 -0.15321067 -0.03249567 Hypothetical ORF NA YPL052W
10489_at 0.93432065 -0.025501 -0.05780467 -0.03230367 Hypothetical ORF NA YKR064W
10743_at 0.93553336 -0.02114933 -0.05343233 -0.032283 LST4 YKL176C
required for amino acid permease transport from the Golgi to the ce
4157_at 0.97302435 -0.23169733 -0.26375533 -0.032058 Hypothetical ORF NA YIL060W
7650_at 0.92087172 -0.00179633 -0.03369533 -0.031899 Hypothetical ORF NA YPR118W
3609_i_at 0.97256073 -0.37438767 -0.40616267 -0.031775 NA NA YORCDELTA15
4807_at 0.90558702 -0.010707 -0.04215933 -0.03145233 SNG1 YGR197C
Involved in nitrosoguanidine resistance
9111_at 0.97988307 -0.39438933 -0.42574233 -0.031353 YTP1 YNL237W
Probable type-III integral membrane protein of unknown function, ha
3839_at 0.95458999 -0.084332 -0.115365 -0.031033 NA NA YJRWDELTA14
11038_at 0.93022151 -0.02956833 -0.06042967 -0.03086133 VPS53 YJL029C
hydrophilic protein that is peripherally associated with the late Golgi
4509_at 0.93572579 -0.01082133 -0.04134167 -0.03052033 Hypothetical ORF NA YHR035W
11265_i_at 0.94533271 -0.050331 -0.080336 -0.030005 by YAL069W
--- /// IdentifiedNA fungal homology and RT-PCR /// Identified by gen
9077_at 0.91795031 -0.00875067 -0.03826567 -0.029515 NA NA YNL226W
7586_at 0.94277396 -0.001565 -0.03085067 -0.02928567 NA YPR143W
Protein required for cell viability
9641_at 0.94244806 -0.007086 -0.036346 -0.02926 two-hybrid assay
binds Sin3p in STB4 YMR019W
11089_at 0.97023933 -0.06788733 -0.097091 -0.02920367 Hypothetical ORF NA YJL068C
6700_at 0.93207762 -0.024782 -0.05398033 -0.02919833 HMG-like protein NHP2 YDL208W
6689_at 0.93044773 -0.01940467 -0.04770733 -0.02830267 DTD1
D-Tyr-tRNA(Tyr) deacylase YDL219W
8404_at 0.95585691 -0.00636033 -0.03442833 -0.028068 PUP1
proteasome subunit (putative) YOR157C
4473_i_at 0.97795508 -0.14757233 -0.17552733 -0.027955 NA NA YHR044C
6050_at 0.95603982 -0.046489 -0.074261 -0.027772 HPT1 YDR399W
hypoxanthine guanine phosphoribosyltransferase
4870_at 0.95262987 -0.00815333 -0.03575133 -0.027598 Hypothetical ORF NA YGR125W
4221_at 0.94520967 -0.04565633 -0.073178 -0.02752167 VHS2 suppresses the synthetic lethality of th
Gene whose overexpression YIL135C
8163_at 0.94485167 -0.03477 -0.062279 -0.027509 NA NA YOR364W
5816_at 0.93525974 -0.012047 -0.03928533 -0.02723833 HPA3 YEL066W
Histone acetyltransferase of the Gcn5-related N-acetyltransferase (
7905_at 0.9625953 -0.012541 -0.03969333 -0.02715233 NA SET6 YPL165C
5108_at 0.95331571 -0.04199667 -0.06874533 -0.02674867 MF(ALPHA)2 YGL089C
alpha mating factor
7940_at 0.93914202 -0.011112 -0.03774567 -0.02663367 SPT14 YPL175W
N-acetylglucosaminyl-phosphatidylinositol biosynthetic protein
4726_at 0.95018538 -0.05355567 -0.08018567 -0.02663 Identified by SAGENA YGL006w-a
9981_at 0.9538772 -0.050331 -0.07667267 -0.02634167 NA NA YLR358C
8328_at 0.92772574 -0.00872867 -0.03490767 -0.026179 RFC1 YOR217W
replication factor C subunit 1|similar to human RFC 140 kDa subun
10725_at 0.97691993 -0.04828533 -0.07396833 -0.025683 SDH1 YKL148C
succinate dehydrogenase flavoprotein subunit
7249_at 0.92536325 -0.004399 -0.0298 -0.025401 NA NA YBR113W
4314_at 0.92618317 -0.01090133 -0.036261 -0.02535967 RPN10 YHR200W
26S proteasome component|mammalian S5a protein homolog
9058_at 0.97835481 -0.13038533 -0.15571833 -0.025333 PSY2 deletion results in sensitivity to antican
Protein of unknown function; YNL201C
10356_at 0.95299082 -0.04965033 -0.07493167 -0.02528133 NA NA YLL030C
7448_at 0.92398946 -0.00031 -0.02543533 -0.02512533 RPL32
ribosomal protein L32 YBL092W
9524_at 0.92077449 -0.00352333 -0.02855633 -0.025033 STO1 YMR125W
Large subunit of the nuclear cap-binding protein complex
4562_at 0.95050508 -0.043011 -0.06775633 -0.02474533 ARN2 YHL047C
triacetylfusarinine C transporter
6441_at 0.94772096 -0.02846233 -0.05293567 -0.02447333 Component of VPS54 YDR027C
the GARP (Golgi-associated retrograde protein) com
8952_at 0.93155427 -0.013707 -0.03792533 -0.02421833 NA YNL080C
Deletion causes slight growth defect, similar to U. maydis myp1 pro
9158_at 0.97601019 -0.22597 -0.25007 -0.0241 HCH1 that binds
Heat shock protein regulator YNL281W to Hsp90p and may stimula
3823_f_at 0.95295046 -0.04610633 -0.07014433 -0.024038 NA YKLWDELTA7
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
10031_at 0.94788047 -0.02788067 -0.051829 -0.02394833 TAD3 YLR316C
tRNA-specific adenosine deaminase subunit
3705_f_at 0.94755301 -0.031516 -0.05542967 -0.02391367 NA YMLWTY1-2
Identified by expression profiling and mass spectrometry /// TyA Ga
8302_at 0.96285328 -0.071402 -0.095285 -0.023883 DFR1
dihydrofolate reductase YOR236W
3239_f_at 0.9109741 -0.00372833 -0.027425 -0.02369667 NA YGRCDELTA16
Identified by expression profiling and mass spectrometry /// TyB Ga
10264_at 0.94466384 -0.020881 -0.04453 -0.023649 SPT8 acetyltransferase SAGA complex|trans
probable member of histone YLR055C
10632_at 0.95980319 -0.00564733 -0.029126 -0.02347867 MNR2 YKL064W
Putative megnesium transporter; has similarity to Alr1p and Alr2p, w
8275_at 0.96207188 -0.06037233 -0.08363167 -0.02325933 SEC63 YOR254C
Protein involved in protein import into ER
4394_at 0.95167027 -0.03574667 -0.05883733 -0.02309067 dCMP deaminase DCD1 YHR144C
10604_at 0.95881964 -0.00649967 -0.02958633 -0.02308667 protein kinase ELM1 YKL048C
10974_at 0.9766428 -0.195168 -0.21808867 -0.02292067 SSC1 YJR045C
mitochondrial matrix protein involved in protein import|Endo.SceI en
7914_at 0.94829206 -0.00920033 -0.031773 -0.02257267 PRM4 YPL156C
Pheromone-regulated protein, predicted to have 1 transmembrane
5505_at 0.92400991 -0.00114933 -0.02346233 -0.022313 NA NA YER172c-a
6025_at 0.95212541 -0.01172867 -0.033924 -0.02219533 RMT2
arginine methyltransferase YDR465C
9956_at 0.9571038 -0.00276067 -0.024939 -0.02217833 NA and in uptake of branched-chain amin
Involved in pre-tRNA splicingYLR375W
3286_f_at 0.95645085 -0.01440733 -0.03554333 -0.021136 NA NA YFLWDELTA5
7703_at 0.96205116 -0.05106567 -0.07175367 -0.020688 obserwed null YPR039W was Sporulation DeFicienc
SDF1 the first TIP41 phenotype
6839_at 0.97040804 -0.05682 -0.07740467 -0.02058467 Hypothetical ORFNA YCR051W
10980_at 0.94472805 -0.00649 -0.02701933 -0.02052933 OSM1
osmotic growth protein YJR051W
9394_at 0.95566173 -0.005771 -0.02616567 -0.02039467 protein YMR212C
Non-essential EFR3 of unknown function; exhibits synthetic lethal
5102_at 0.94329338 -0.01393567 -0.034188 -0.02025233 VPS45 YGL095C
Protein of the Sec1p family essential for vacuolar protein sorting; re
7617_at 0.97421682 -0.01076633 -0.030498 -0.01973167 NAT3
N-terminal acetyltransferase YPR131C
4742_at 0.97048275 -0.05948533 -0.079105 -0.01961967 NA YGR266W
probably contains a single transmembrane span
9134_at 0.96898648 -0.03295067 -0.05253233 -0.01958167 NA YNL260C
Protein required for cell viability
5757_at 0.95146372 -0.00777133 -0.026524 -0.01875267 NA NA YEL033W
8689_at 0.95936489 -0.01829533 -0.037034 -0.01873867 Component of CTR9 YOL145C
the Paf1p complex, which is a large complex that bin
6783_at 0.96854626 -0.03516633 -0.053879 -0.01871267 ABP1
actin binding protein YCR088W
5621_at 0.94949658 -0.002281 -0.02092433 -0.01864333 IES5 YER092W
Protein that associates with the INO80 chromatin remodeling comp
8226_at 0.96839265 -0.06134267 -0.07986867 -0.018526 KRE5 YOR336W
appears to function early in (1,6)-beta-D-glucan synthesis pathway
4250_at 0.96754513 -0.01323167 -0.03123433 -0.01800267 Hypothetical ORFNA YIL151C
4510_at 0.96057259 -0.00437467 -0.02233967 -0.017965 NA YHR036W
Protein required for cell viability
10683_at 0.97278942 -0.045549 -0.06336333 -0.01781433 HSL1
serine-threonine kinase YKL101W
5425_at 0.9747444 -0.05977333 -0.07755933 -0.017786 AGP3 YFL055W
Low-affinity amino acid permease, may act to supply the cell with am
9123_at 0.9684769 -0.02940267 -0.04671733 -0.01731467 BNI1 YNL271C
formin, involved in spindle orientation
3721_s_at 0.98374636 -0.14068967 -0.15797633 -0.01728667 NA YLRWTY2-1
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
8333_at 0.96889345 -0.04625133 -0.06350267 -0.01725133 MCT1
malonyl-CoA:ACP transferase YOR221C
4349_at 0.97687415 -0.09307733 -0.110169 -0.01709167 hydrolase
peptidyl-tRNA PTH1 YHR189W
10181_at 0.98199894 -0.10182933 -0.11882833 -0.016999 PCD1
coenzyme A diphosphatase YLR151C
10245_at 0.96464275 -0.03693267 -0.05392633 -0.01699367 GAL2
galactose permease YLR081W
11096_at 0.98253619 -0.09986367 -0.116731 -0.01686733 NUP82 coiled-coil
82 kDa protein, with putative YJL061W domain, has carboxy-termin
5191_f_at 0.94956032 -0.00605033 -0.02278533 -0.016735 RPS26A
ribosomal protein S26A YGL189C
4752_at 0.97213639 -0.00561067 -0.02199933 -0.01638867 NAS6 YGR232W
26S proteasome interacting protein
11198_at 0.96909461 -0.04641867 -0.062765 -0.01634633 NA NA YJL182C
3875_f_at 0.97376228 -0.08386633 -0.10017133 -0.016305 NA NA YJLWDELTA9
5128_at 0.95206635 -0.00492733 -0.02104367 -0.01611633 NA YGL114W
Putative member of the oligopeptide transporter (OPT) family of me
3469_f_at 0.97169347 -0.03029367 -0.04563933 -0.01534567 NA NA YCRCDELTA14
6539_at 0.98204468 -0.096404 -0.11142867 -0.01502467 RAD59 homology
the RAD59 gene product hasYDL059C to the Rad52 protein
3272_f_at 0.97353968 -0.05644967 -0.07139267 -0.014943 NA NA YGLCSIGMA3
7826_at 0.98062968 -0.01910633 -0.033991 -0.01488467 TIM50 YPL063W
Protein of the inner mitochondrial membrane, required for import of
4431_at 0.9716061 -0.03372133 -0.048547 -0.01482567 NA NA YHR095W
7900_at 0.96310118 -0.003658 -0.01815367 -0.01449567 karyopherin KAP120 YPL125W
9598_at 0.94813613 -0.00195167 -0.01544633 -0.01349467 MAC1 activator
metal-binding transcriptional YMR021C
8346_at 0.96719627 -0.003697 -0.01705267 -0.01335567 SPR1 YOR190W
exo-1,3-beta-glucanase, sporulation-specific
8658_at 0.96749628 -0.017972 -0.03124967 -0.01327767 NA NA YOL085C
6796_at 0.97653464 -0.04112167 -0.05428333 -0.01316167 Hypothetical ORFNA YCR101C
4165_i_at 0.95714849 -0.00102133 -0.01415367 -0.01313233 RPL34B
ribosomal protein L34B YIL052C
5300_at 0.98570382 -0.01538333 -0.027761 -0.01237767 NA
kinetochore protein YFR046C
6443_at 0.96701571 -0.002416 -0.01479 -0.012374 NA NA YDR029W
3509_f_at 0.96588224 -0.013341 -0.02542733 -0.01208633 NA YBLCSIGMA1
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
6873_at 0.97842437 -0.05185833 -0.063507 -0.01164867 NA NA YCL006C
10979_at 0.98237186 -0.003632 -0.01518367 -0.01155167 Component of ISY1 YJR050W
the spliceosome complex involved in pre-mRNA splic
5220_at 0.96675101 -0.011482 -0.022841 -0.011359 POX1
fatty-acyl coenzyme A oxidase YGL205W
8471_at 0.97712075 -0.03322467 -0.044556 -0.01133133 VPS21
small GTP-binding protein YOR089C
10704_at 0.98488703 -0.00883233 -0.02010967 -0.01127733 SHR3; YKL124W
Suppressor of SSH4 confers leflunomide resistance when overexp
6584_at 0.97774189 -0.01865 -0.02977967 -0.01112967 CDC2 (delta) subunit
DNA polymerase III catalytic YDL102W
3481_at 0.97714654 -0.021646 -0.03274667 -0.01110067 NA NA YBRCDELTA19
10477_g_at 0.96945764 -0.009089 -0.01993 -0.010841 Hypothetical ORFNA YKR096W
9551_at 0.97821734 -0.016972 -0.02764467 -0.01067267 myosin I MYO5 YMR109W
3346_at 0.98592543 -0.08871433 -0.09925367 -0.01053933 NA NA YERCTAU3
8439_at 0.98157437 -0.03581733 -0.04612233 -0.010305 NA NA YOR102W
10584_at 0.98744186 -0.055004 -0.06475967 -0.00975567 Hypothetical ORF NA YKL023W
4340_at 0.99066187 -0.18254233 -0.192279 -0.00973667 NA NA YHR180W
9079_at 0.97824818 -0.01307367 -0.02270633 -0.00963267 Hypothetical ORF NA YNL224C
4536_at 0.98368155 -0.04325633 -0.05278033 -0.009524 YSC83
similar to S. douglasii YSD83YHR017W
10876_at 0.97377939 -0.00759333 -0.01698267 -0.00938933 NA NA YJR128W
7959_at 0.98719303 -0.05021133 -0.05939967 -0.00918833 Hypothetical ORF NA YPL199C
6901_at 0.98484728 -0.031255 -0.04024033 -0.00898533 RRP7
involved in rRNA processing YCL031C
9118_at 0.98268264 -0.024544 -0.03333633 -0.00879233 NA NA YNL276C
6160_at 0.98368564 -0.01075667 -0.01881633 -0.00805967 NA NA YDR328C
4812_at 0.98652791 -0.00090633 -0.00893467 -0.00802833 PCT1 YGR202C
cholinephosphate cytidylyltransferase|phosphorylcholine transferas
3886_f_at 0.98953177 -0.11115833 -0.119068 -0.00790967 NA NA YJLWSIGMA1
5810_s_at 0.98728448 -0.03825967 -0.04615667 -0.007897 by YEL074W
--- /// IdentifiedNA fungal homology and RT-PCR /// Identified by gen
8293_at 0.98498135 -0.02319467 -0.031061 -0.00786633 YTM1
microtubule-associated protein YOR272W
11183_at 0.98740027 -0.00597667 -0.013723 -0.00774633 FBP26
fructose-2,6-bisphosphatase YJL155C
8253_at 0.99185342 -0.122502 -0.12996867 -0.00746667 NA NA YOR277C
10877_at 0.98617512 -0.01102633 -0.01801933 -0.006993 NA YJR129C
Putative S-adenosylmethionine-dependent methyltransferase of the
8902_at 0.989655 -0.02037533 -0.027157 -0.00678167 TFIIIB 90 kDa BDP1subunit YNL039W
6518_at 0.98777057 -0.04267833 -0.04935433 -0.006676 NA NA YDL034W
7875_at 0.9857689 -0.024507 -0.031116 -0.006609 Hypothetical ORF NA YPL105C
10197_at 0.98657966 -0.00147 -0.00790367 -0.00643367 NA NA YLR123C
5594_at 0.98227372 -0.01391167 -0.02031267 -0.006401 activator of FLO1 (putative)
transcriptional FLO8 YER109C
8655_at 0.9904394 -0.07505233 -0.08139767 -0.00634533 MPD2 YOL088C
protein disulfide isomerase related protein
5948_at 0.99144592 -0.02312233 -0.02891733 -0.005795 effector
ARF GAP withAGE1 function(s) YDR524C
7929_at 0.99204919 -0.02016533 -0.02449833 -0.004333 NA NA YPL185W
3638_f_at 0.9858611 -0.006452 -0.01070033 -0.00424833 NA YOLWTY1-1
Identified by expression profiling and mass spectrometry /// TyB Ga
4754_at 0.99166316 -0.002259 -0.00551767 -0.00325867 NA NA YGR234W
3571_f_at 0.9918095 -0.01432367 -0.01755267 -0.003229 NA YPRCDELTA18
Identified by expression profiling and mass spectrometry /// TyA Ga
3384_f_at 0.99278852 -0.00880933 -0.01193867 -0.00312933 NA YDRWSIGMA5
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
10320_at 0.99372327 -0.02889633 -0.03186867 -0.00297233 UBR2
ubiquitin-protein ligase (E3) YLR024C
9906_at 0.99326974 -0.01998667 -0.022545 -0.00255833 Hypothetical ORF NA YLR415C
9327_at 0.99540424 -0.022991 -0.025295 -0.002304 Hypothetical ORF NA YMR278W
3209_f_at 0.99239518 -0.00020833 -0.00246367 -0.00225533 MAG1 YHRWDELTA7
3-methyladenine DNA glycosylase /// Identified by expression profili
3560_at 0.9966271 -0.087687 -0.08992633 -0.00223933 NA NA YPRCDELTA13
7081_at 0.99500916 -0.01694067 -0.01902667 -0.002086 NA YBR261C
Putative S-adenosylmethionine-dependent methyltransferase of the
3203_f_at 0.99383396 -0.00894967 -0.01099867 -0.002049 NA YHRCDELTA3
Identified by expression profiling and mass spectrometry /// TyA Ga
5501_at 0.99640356 -0.036767 -0.03845367 -0.00168667 NA NA YER068c-a
4166_at 0.99677889 -0.00077733 -0.00190133 -0.001124 MMF1 YIL051C
Maintenance of Mitochondrial Function
5181_at 0.99839656 -0.05174567 -0.05282933 -0.00108367 LYS5 YGL154C
alpha aminoadipate reductase phosphopantetheinyl transferase
3727_f_at 0.99853691 -0.00836933 -0.00886833 -0.000499 NA YLRCTY2-2
Identified by expression profiling and mass spectrometry /// TyB Ga
10285_at 0.99921301 -0.00095033 -0.00141167 -0.00046133 RSC58 YLR033W
58KDa Subunit of RSC Chromatin Remodeling Complex
5250_at 0.99980212 -0.00225267 -0.00232 -6.7333E-05 Hypothetical ORF NA YGL220W
6586_at 0.99824246 -0.00290867 -0.00242333 0.00048533 ARR4 YDL100C
ATPase, involved in resistance to heat and metal stress, active as a
9115_at 0.99919794 -0.01419867 -0.01365833 0.00054033 Chs3p YNL233W
required to linkBNI4 and Chs4p to the septins
4707_at 0.9983815 -0.01526067 -0.01464133 0.00061933 NA
Homolog to human PPAT YGR277C
4776_at 0.99660207 -0.01197067 -0.01080633 0.00116433 ZPR1
zinc finger protein YGR211W
8276_at 0.99566398 -0.032383 -0.03036433 0.00201867 Non-essential NA YOR255W
protein required for construction of the outer spore w
6236_i_at 0.99335593 -0.00710733 -0.00468033 0.002427 HTA1 YDR225W
histone H2A (HTA1 and HTA2 code for nearly identical proteins)
5717_at 0.99404587 -0.00442067 -0.00168333 0.00273733 AFG3
ATP dependent metalloprotease YER017C
5568_at 0.98988766 -0.007142 -0.00363367 0.00350833 Hypothetical ORF NA YER128W
9903_at 0.98771901 -0.00530067 -0.00177967 0.003521 Hypothetical ORF NA YLR412W
5432_at 0.99437261 -0.030824 -0.02717 0.003654 EMP47 YFL048C
47 kDa type I transmembrane protein localized to the Golgi
3660_f_at 0.98966866 -0.010774 -0.00708733 0.00368667 HAP1 YNLWDELTA4
Identified by expression profiling and mass spectrometry /// TyA Ga
7233_at 0.99378143 -0.047551 -0.04379033 0.00376067 Necessary for MAK5 YBR142W
maintenance of dsRNA killer plasmids. Is predicted t
4200_at 0.9940334 -0.001276 0.00250967 0.00378567 COX5B
cytochrome c oxidase chain Vb YIL111W
10130_at 0.9843339 -0.00079833 0.00316133 0.00395967 NMT1
N-myristoyl transferase YLR195C
3897_s_at 0.99385868 -0.10249433 -0.098424 0.00407033 NA YJLWTY4-1
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
7895_at 0.99260393 -0.013534 -0.00929167 0.00424233 SPO19
meiosis-specific GPI-protein YPL130W
3750_f_at 0.98918408 -0.017327 -0.01303533 0.00429167 NA NA YLRWDELTA17
7831_at 0.99458306 -0.14100233 -0.13669033 0.004312 PDR12
multidrug resistance transporterYPL058C
4372_at 0.99187731 -0.010708 -0.00610233 0.00460567 THP2
affects transcription elongationYHR167W
8284_at 0.99054199 -0.03811133 -0.03344267 0.00466867 NA NA YOR263C
6410_at 0.98352871 -0.001882 0.002911 0.004793 SSS1 YDR086C
ER protein|Sec61 trimeric complex component|Ssh1 trimeric compl
7827_at 0.98970242 -0.02190667 -0.01705833 0.00484833 NA NA YPL062W
10098_at 0.98293528 -0.00692467 -0.001803 0.00512167 SSP120 green fluorescent protein (GFP)-fusion
Protein of unknown function; YLR250W
4129_at 0.98908036 -0.039287 -0.03390233 0.00538467 NA
Hypothetical ORF YIL042C
5271_at 0.99504123 -0.09691467 -0.09152167 0.005393 NA
Hypothetical ORF YGL242C
6128_f_at 0.98531995 -0.000825 0.004626 0.005451 HXT6
hexose transporter YDR342C
3677_f_at 0.98855117 -0.026837 -0.02134967 0.00548733 NA NA YMRWDELTA12
3193_at 0.99144754 -0.09379533 -0.08830067 0.00549467 NA NA YHL045W
3408_f_at 0.98895346 -0.045745 -0.04012967 0.00561533 NA YDRWDELTA13
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
7950_at 0.98933002 -0.02128933 -0.01535 0.00593933 NA
Hypothetical ORF YPL208W
8192_at 0.98728723 -0.01571467 -0.00961167 0.006103 PUT4
proline specific permease YOR348C
3235_f_at 0.9797394 -0.006486 -0.00035733 0.00612867 NA YGRCDELTA15
Identified by expression profiling and mass spectrometry /// TyB Ga
7139_at 0.98972812 -0.060617 -0.05389433 0.00672267 glucosidase II ROT2 YBR229C
4905_g_at 0.99082965 -0.01477767 -0.00788133 0.00689633 NA NA YGR114C
3411_f_at 0.98687271 -0.048872 -0.04189633 0.00697567 NA YDRWDELTA14
Identified by expression profiling and mass spectrometry /// TyB Ga
6232_at 0.98388223 -0.00210733 0.00497467 0.007082 NA
Hypothetical ORF YDR221W
10942_at 0.98675038 -0.05801733 -0.05073067 0.00728667 CTP synthase URA8 YJR103W
7322_at 0.99224837 -0.097048 -0.08975967 0.00728833 YRO2 YBR054W
Putative plasma membrane protein of unknown function, transcriptio
7938_at 0.98505485 -0.01518467 -0.00752467 0.00766 CUP9
DNA binding protein (putative) YPL177C
5316_at 0.98377482 -0.032743 -0.025021 0.007722 NA NA YFR036w-a
10562_at 0.97552016 -0.00834367 -0.000131 0.00821267 DID4 YKL002W
class E vacuolar-protein sorting and endocytosis factor
10371_at 0.98241626 -0.019155 -0.01070367 0.00845133 NA YLL017W
Ras guanine nucleotide exchange factor (GEF); in the S288C strain
11251_s_at 0.98893437 -0.16431267 -0.15504167 0.009271 NA
Hypothetical ORF YJL221C
7801_at 0.97143977 -0.00220067 0.00711467 0.00931533 SSN3 YPL042C
cyclin (SSN8)-dependent serine/threonine protein kinase
9132_at 0.98134253 -0.014417 -0.00503433 0.00938267 POL2
DNA polymerase II YNL262W
6824_at 0.9840015 -0.03991433 -0.03032033 0.009594 NA NA YCR085W
7771_at 0.9767735 -0.01254733 -0.002734 0.00981333 SMA1
Spore Membrane Assembly YPL027W
6096_at 0.96684312 -0.00708 0.00297567 0.01005567 NA NA YDR355C
8589_at 0.98302191 -0.00348567 0.006608 0.01009367 TLG2 YOL018C
tSNARE that affects a late Golgi compartment
6292_at 0.97551103 -0.00526 0.00496733 0.01022733 RVB1 YDR190C
RUVB-like protein, TIP49a Homologue
3625_at 0.99083118 -0.10519033 -0.094748 0.01044233 COS10 member of
Protein of unknown function, YNR075W a family of conserved, ofte
3630_at 0.98431785 -0.105527 -0.09496567 0.01056133 NA NA YOLCDELTA1
6315_at 0.98590162 -0.054844 -0.04397367 0.01087033 two-hybrid assay
binds Sin3p in STB3 YDR169C
5982_at 0.98398171 -0.07640467 -0.06531767 0.011087 TLG1 YDR468C
tSNARE that affects a late Golgi compartment
7679_at 0.97634365 -0.035844 -0.024582 0.011262 NA NA YPR059C
5699_at 0.98021735 -0.02325133 -0.011707 0.01154433 ERG28 YER044C
Endoplasmic reticulum membrane protein, may facilitate protein-pro
4971_at 0.98149828 -0.02516167 -0.013508 0.01165367 NA
Hypothetical ORF YGR045C
10904_at 0.98030691 -0.01969867 -0.00799833 0.01170033 NA
Hypothetical ORF YJR111C
11025_at 0.97869927 -0.06206867 -0.049798 0.01227067 NA
Hypothetical ORF YJR003C
9477_at 0.98052805 -0.00240933 0.010185 0.01259433 SMP2
involved in plasmid maintenance YMR165C
10414_at 0.98966306 -0.307101 -0.29444633 0.01265467 MHT1 YLL062C
S-Methylmethionine Homocysteine methylTransferase
7881_at 0.98133436 -0.07430133 -0.061566 0.01273533 NA
Hypothetical ORF YPL144W
10863_i_at 0.97638649 -0.02459467 -0.01164967 0.012945 NA
Identified by SAGE YJL136w-a
8245_r_at 0.97626144 -0.02033233 -0.00735233 0.01298 NOP58
U3 snoRNP protein YOR309C
6448_at 0.96854965 -0.01480167 -0.001752 0.01304967 activator of lysine pathway genes with 2-aminoadipa
TranscriptionalLYS14 YDR034C
3896_s_at 0.97638224 -0.06292433 -0.04960367 0.01332067 NA YJLWTY4-1
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
6517_at 0.95759887 -0.010145 0.003502 0.013647 GPR1 coupled
Plasma membrane G-proteinYDL035Creceptor that interacts with th
7981_at 0.98342864 -0.053371 -0.03965233 0.01371867 unknown function; stress induced (osmotic, ionic, oxi
Hydrophilin of GRE1 YPL223C
5768_at 0.97284948 -0.00999767 0.00416333 0.014161 GEA2
ARF GTP/GDP exchange factor YEL022W
6808_at 0.9673223 -0.00868467 0.00585867 0.01454333 SED4 YCR067C
Sed4p is an integral ER membrane protein, which, along along with
5037_at 0.98025528 -0.12144867 -0.10658633 0.01486233 PGD1 polyglutamine domain protein
Probable transcription factor,YGL025C
9873_at 0.97171351 -0.03788133 -0.022987 0.01489433 NA
Hypothetical ORF YLR426W
8241_at 0.98786677 -0.34431467 -0.329356 0.01495867 MCH5 YOR306C
monocarboxylate permease homologue
5048_at 0.97188508 -0.04096133 -0.02591267 0.01504867 NA
Hypothetical ORF YGL059W
7035_s_at 0.98497936 -0.01704 -0.00197667 0.01506333 NA NA YBR126w-a
10466_at 0.94901567 -0.003202 0.012093 0.015295 OMA1 mitochondrial inner membrane, involve
Metalloendopeptidase of the YKR087C
5671_s_at 0.94719317 -0.006408 0.009008 0.015416 RPL34B
ribosomal protein L34B YER056C-A
4524_at 0.97798347 -0.04257933 -0.02648867 0.01609067 STP2 YHR006W
Transcription factor, activated by proteolytic processing in response
5976_at 0.98243279 -0.146243 -0.13000433 0.01623867 GIN4 YDR507C
serine/threonine kinase (putative)
5369_at 0.97542988 -0.023079 -0.00678433 0.01629467 GNA1 YFL017C
glucosamine-phosphate N-acetyltransferase
7658_at 0.9644517 -0.01095667 0.00546267 0.01641933 DIB1
17 kDa U4/U6.U5 associatedYPR082Cprotein
3706_f_at 0.96381011 -0.029705 -0.01325 0.016455 NA YMLWDELTA6
TyA Gag protein; the main structural constituent of virus-like particle
10880_at 0.97817163 -0.01836033 -0.00171 0.01665033 NMD5 YJR132W
Upf1p interacting protein|importin beta homolog Kap119p
3817_f_at 0.94462037 -0.00316433 0.01358467 0.016749 NA YKLCSIGMA1
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
8444_at 0.97977399 -0.04589067 -0.02862167 0.017269 RGS2
GTPase activating protein (GAP)YOR107W
7113_at 0.97488766 -0.01137533 0.00626767 0.017643 HIS7 synthase
imidazole glycerol phosphateYBR248C
6535_at 0.96854507 -0.04642 -0.02861067 0.01780933 NA
Hypothetical ORF YDL063C
7738_at 0.9850735 -0.22416233 -0.20622067 0.01794167 CSR2 YPR030W
Nuclear protein with a potential regulatory role in utilization of galac
5576_at 0.95722166 -0.027482 -0.00883333 0.01864867 NA NA YER135C
10771_at 0.96565981 -0.047892 -0.02914267 0.01874933 DPH2 involved in
Protein of unknown function, YKL191W diphtheria toxicity and diph
8680_at 0.95541222 -0.01829833 0.00051433 0.01881267 INO4 protein
basic helix-loop-helix (bHLH)YOL108C
3912_f_at 0.93660208 -0.00164467 0.01719333 0.018838 NA YARCDELTA4
Identified by expression profiling and mass spectrometry /// TyA Ga
8877_r_at 0.97036832 -0.09525367 -0.076279 0.01897467 NA NA YNL017C
3773_f_at 0.95730345 -0.02537333 -0.006328 0.01904533 NA YLRCTY1-1
Identified by expression profiling and mass spectrometry /// TyA Ga
7308_at 0.925659 -0.00152933 0.017634 0.01916333 FIG1
integral membrane protein YBR040W
10626_at 0.95954572 -0.02736467 -0.00818967 0.019175 NA
Hypothetical ORF YKL070W
3639_f_at 0.94590334 -0.00775067 0.01161967 0.01937033 NA YOLWDELTA5
TyA Gag protein; the main structural constituent of virus-like particle
6758_at 0.97438313 -0.15987933 -0.140004 0.01987533 NA NA YCR102W-A
10549_at 0.94521743 -0.017793 0.002611 0.020404 NA NA YKR032W
3662_f_at 0.93918769 -0.00382233 0.01667067 0.020493 NA YNLWSIGMA3
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
8838_at 0.97518091 -0.05247633 -0.03198267 0.02049367 ARC35
Arp complex subunit YNR035C
9568_at 0.92566985 -0.00448467 0.01600933 0.020494 NA NA YMR082C
4191_at 0.97138261 -0.028573 -0.00783767 0.02073533 SPO22 YIL073C
meiosis-specific phospholipase A2 homolog
3386_f_at 0.92198272 -0.001557 0.01936867 0.02092567 NA YDRWDELTA23
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
10362_at 0.98794784 -0.28869233 -0.267763 0.02092933 SSA1 family
heat shock protein of HSP70YLL024C
4137_at 0.95163691 -0.001873 0.01921367 0.02108667 CAP2
capping protein beta subunit YIL034C
8849_at 0.97867657 -0.03459067 -0.01337733 0.02121333 C
citrate synthase IT1 YNR001C
10797_at 0.96680093 -0.00010667 0.021193 0.02129967 NA
Hypothetical ORF YKL215C
3489_f_at 0.97095718 -0.13727 -0.11591833 0.02135167 NA NA YCLWTY5-1
10117_at 0.9710574 -0.09428433 -0.072902 0.02138233 NA
Hypothetical ORF YLR225C
9125_at 0.94923198 -0.01185467 0.00965233 0.021507 BSC4 YNL269W
Transcript encoded by this ORF shows a high level of stop codon b
5535_at 0.93534399 -0.000387 0.02168833 0.02207533 NA
Hypothetical ORF YER186C
4528_i_at 0.95528988 -0.00713433 0.01494767 0.022082 RPL27A
ribosomal protein L27A YHR010W
3291_f_at 0.94318402 -0.01016733 0.01209433 0.02226167 NA YFRCDELTA8
TyA Gag protein; the main structural constituent of virus-like particle
6265_at 0.94935298 -0.00323067 0.01915733 0.022388 MSS4 YDR208W
phosphatidylinositol 4-phosphate kinase
4928_at 0.95228082 -0.00029167 0.02271533 0.023007 Ser/Thr Kinase DBF2 YGR092W
7788_at 0.92968628 -0.001499 0.021844 0.023343 LGE1 null mutant
Protein of unknown function; YPL055C forms abnormally large cel
11177_at 0.98271237 -0.30073567 -0.27736833 0.02336733 non-tagged protein was localized to the mitochondria
The authentic, NA YJL161W
6318_at 0.9519858 -0.024005 -0.000331 0.023674 SUP35 eRF3
translation termination factor YDR172W
5239_at 0.9200777 -0.00258667 0.02109567 0.02368233 NA
Hypothetical ORF YGL230C
8453_at 0.9481373 -0.017788 0.00593667 0.02372467 RPO31
RNA polymerase III subunit YOR116C
7629_at 0.95866946 -0.01278233 0.01095367 0.023736 NA NA YPR099C
4805_at 0.94258632 -0.011123 0.01289733 0.02402033 SKI6
RNAse PH homolog YGR195W
7452_at 0.92438402 -0.00856067 0.01575167 0.02431233 transporter AVT5 YBL089W
10913_at 0.96011599 -0.06088767 -0.036571 0.02431667 NA
Hypothetical ORF YJR120W
6158_at 0.93818125 -0.00728667 0.017158 0.02444467 NA
Hypothetical ORF YDR326C
7209_at 0.95432883 -0.02006333 0.00445967 0.024523 YSY6 YBR162W-A
Protein that participates in secretory pathway
3873_f_at 0.96630506 -0.12419167 -0.09966067 0.024531 NA NA YJLWDELTA8
7675_at 0.93620723 -0.01620633 0.00851833 0.02472467 SEC8
exocyst complex component YPR055W
4239_at 0.87545785 -0.000385 0.024416 0.024801 NA NA YIL163C
7990_at 0.91402737 -0.00242067 0.022675 0.02509567 THI6 YPL214C
TMP pyrophosphorylase|hydroxyethylthiazole kinase
9672_at 0.95711877 -0.01613633 0.009128 0.02526433 NA
Hypothetical ORF YML036W
4175_at 0.94063811 -0.01192733 0.01368767 0.025615 NA YIL091C
Protein required for cell viability
7649_at 0.96928924 -0.097812 -0.072122 0.02569 NA
Hypothetical ORF YPR117W
8889_at 0.93610406 -0.00676833 0.019131 0.02589933 LST8 YNL006W
Required for amino acid permease transport from the Golgi to the c
9304_at 0.95316522 -0.047388 -0.02143467 0.02595333 NA YMR298W
Protein required for cell viability
3162_at 0.91233025 -0.00174833 0.02427933 0.02602767 NA NA YHRWTAU3
8621_at 0.942242 -0.02326967 0.003032 0.02630167 BRX1 YOL077C
Essential nucleolar protein required for biogenesis of the 60S riboso
5720_at 0.94275107 -0.01801667 0.00857467 0.02659133 NA NA YER019C-A
11304_at 0.93359556 -0.01704 0.00956933 0.02660933 NA YAR061W
Identified by gene-trapping, microarray-based expression analysis,
7773_at 0.93188326 -0.02226833 0.004484 0.02675233 NA NA YPL025C
7378_s_at 0.91537728 -0.00269467 0.024083 0.02677767 NA NA YBL027W
3761_f_at 0.94334056 -0.03706667 -0.00961667 0.02745 NA YLRWDELTA22
Identified by expression profiling and mass spectrometry /// TyB Ga
5352_at 0.9656219 -0.01634433 0.01117833 0.02752267 UBP6 YFR010W
Ubiquitin-specific protease situated in the base subcomplex of the 2
8184_at 0.94812711 -0.035592 -0.006939 0.028653 RPA43 YOR340C
DNA dependent RNA polymerase I subunit A43
5728_i_at 0.9797455 -0.400302 -0.37118667 0.02911533 PMP2 YEL017C-A
proteolipid associated with plasma membrane H(+)-ATPase (Pma1
4313_at 0.94073258 -0.02232267 0.00699867 0.02932133 non-tagged protein was localized to the mitochondria
The authentic, NA YHR199C
11392_at 0.9224594 -0.00928667 0.02018333 0.02947 subunit
Proposed betaGPB2 of theYAL056W heterotrimeric G protein that interacts
11085_at 0.92577721 -0.001433 0.02825033 0.02968333 PSF2
subunit of the GINS complexYJL072C
9753_at 0.9234528 -0.00197567 0.02771 0.02968567 PRE8
proteasome component Y7 YML092C
11252_s_at 0.93956331 -0.02496033 0.00483667 0.029797 NA NA YJL220W
9433_at 0.93279941 -0.00907833 0.020875 0.02995333 NA
Hypothetical ORF YMR206W
8433_at 0.90384761 -0.00178333 0.02817 0.02995333 ARP8
actin-related protein YOR141C
8900_at 0.92228937 -0.01943667 0.010524 0.02996067 the conservedYNL041C Golgi complex; interacts w
Component of COG6 oligomeric
8429_at 0.93998299 -0.00822233 0.02196967 0.030192 eIF5A
Suppressor of SIA1 YOR137C
3214_at 0.95486369 -0.01036167 0.02000767 0.03036933 NA NA YGRWDELTA23
8322_at 0.91820931 -0.004976 0.02540267 0.03037867 MGM1 related to
GTP-binding domain protein YOR211Cdynamin
9527_at 0.95126531 -0.03818533 -0.007617 0.03056833 ECM16
U3 snoRNP protein YMR128W
3208_f_at 0.94429829 -0.018457 0.01275833 0.03121533 NA NA YHRCDELTA6
9439_at 0.94841478 -0.03062033 0.00120667 0.031827 NA YMR171C
Endosomal protein of unknown function, mRNA is targeted to the bu
11107_at 0.94597994 -0.00636633 0.025571 0.03193733 MEKK BCK1 YJL095W
9867_s_at 0.94430593 -0.01630867 0.015715 0.03202367 NA NA YLR465C
7917_at 0.92639358 -0.011529 0.02056267 0.03209167 protein kinase RAD53 YPL153C
7713_at 0.89873332 -0.00299167 0.02936367 0.03235533 TAH18 YPR048W
Protein with a potential role in DNA replication; displays synthetic le
6465_at 0.91627302 -0.002101 0.03025633 0.03235733 RAD57 Rad 55p by
RecA homolog|interacts with YDR004W two-hybrid analysis|simila
6157_at 0.93834475 -0.00303567 0.029678 0.03271367 YCG1
Yeast Condensin G YDR325W
5429_at 0.92996256 -0.02336067 0.00939567 0.03275633 NA
Hypothetical ORF YFL051C
3484_f_at 0.95315632 -0.10060067 -0.067643 0.03295767 NA NA YCLWOMEGA1
6034_at 0.90008619 -0.00841333 0.02472333 0.03313667 NA
Hypothetical ORF YDR428C
3585_f_at 0.93700045 -0.02809633 0.00579933 0.03389567 NA NA YPLWSIGMA1
3674_i_at 0.96256162 -0.15745867 -0.12340867 0.03405 NA NA YMRCDELTA11
9933_at 0.8916792 -0.00485133 0.029225 0.03407633 NA NA YLR398C
11072_at 0.89992475 -0.003509 0.031231 0.03474 NSP1
nuclear pore complex subunit YJL041W
9620_at 0.94770362 -0.080937 -0.04599867 0.03493833 NA
Hypothetical ORF YML003W
7825_at 0.95294308 -0.0032 0.03191833 0.03511833 a complex YPL064C
Component of CWC27 containing Cef1p, putatively involved in pr
7901_at 0.91464956 -0.01344567 0.02205233 0.035498 SPC29
spindle pole body component YPL124W
7232_at 0.92485482 -0.02553433 0.010205 0.03573933 NA
Hypothetical ORF YBR141C
9506_at 0.88269455 -0.008105 0.02764933 0.03575433 NA NA YMR151W
3340_f_at 0.87758321 -0.004819 0.031292 0.036111 NA YERCDELTA14
Hypothetical ORF /// Identified by expression profiling and mass spe
7234_at 0.89159106 -0.01166067 0.02476867 0.03642933 SUP45 YBR143C
eRF1 (eukaryotic Release Factor 1) homolog
6125_at 0.88313593 -0.00288867 0.03390333 0.036792 NA YDR339C
Protein required for cell viability
8522_at 0.96625697 -0.18531867 -0.148241 0.03707767 sphingoid long chain base (LCB) sensitivity of an LC
Suppressor of RSB1 YOR049C
4285_at 0.95058191 -0.11558733 -0.078037 0.03755033 NA YIL166C
Hypothetical ORF, member of the Dal5p subfamily of the major faci
3257_f_at 0.95149603 -0.080253 -0.04245133 0.03780167 NA YGRWSIGMA6
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
5375_at 0.92383522 -0.01900867 0.01888467 0.03789333 Hypothetical ORFNA YFL012W
8863_at 0.92634171 -0.03216867 0.00600067 0.03816933 SMM1
tRNA dihydrouridine synthase YNR015W
5592_at 0.82337004 -0.000885 0.03800033 0.03888533 GLE2 YER107C
nuclear pore complex subunit|rae1 S. pombe homolog
10919_at 0.87895151 -0.00666933 0.03243133 0.03910067 NA VPS70 YJR126C
4926_at 0.91952392 -0.034534 0.00481667 0.03935067 UTP22 involved in
Possible U3 snoRNP protein YGR090W maturation of pre-18S rRN
5058_at 0.88484459 -0.00606533 0.03365867 0.039724 TIF4632 YGL049C
150 kDa|eIF-4F mRNA cap-binding complex subunit|eIF-4G homolo
4526_at 0.9612947 -0.08829733 -0.04849333 0.039804 superoxide dismutase
Mn-containing SOD2 YHR008C
4257_at 0.9334665 -0.00129 0.03883467 0.04012467 TID3 YIL144W
Highly conserved coil-coil protein, component of the Ndc80 comple
6092_at 0.89618445 -0.01628133 0.02420867 0.04049 SXM1
karyopherin beta family member YDR395W
7816_at 0.91907135 -0.02610367 0.014398 0.04050167 NA NA YPL073C
6611_at 0.93446209 -0.03392767 0.00682767 0.04075533 Homologue YDL120W
Yeast FrataxinYFH1
11167_at 0.90598023 -0.02487467 0.01636267 0.04123733 PBS2 YJL128C
MAP kinase kinase (MEK)|may act as a scaffolding protein for Sho1
7262_at 0.9242632 -0.05011967 -0.0086 0.04151967 MIS1
C1-tetrahydrofolate synthaseYBR084W
8958_at 0.93282217 -0.01708433 0.024555 0.04163933 MLF3
Protein of unknown function YNL074C
10890_at 0.92800582 -0.04423933 -0.002475 0.04176433 Hypothetical ORFNA YJR142W
9392_at 0.9202812 -0.009318 0.03245333 0.04177133 NA green fluorescent protein (GFP)-fusion
Protein of unknown function; YMR253C
9034_at 0.93436283 -0.048007 -0.00618533 0.04182167 NA NA YNL179C
6425_at 0.93243606 -0.05246933 -0.01033167 0.04213767 Hypothetical ORFNA YDR056C
10499_at 0.90613002 -0.002214 0.04028733 0.04250133 Hypothetical ORFNA YKR074W
6799_at 0.89224396 -0.002335 0.04089867 0.04323367 alcohol
medium chain ADH7 dehydrogenase YCR105W
6516_at 0.90143279 -0.01717567 0.02609433 0.04327 Hypothetical ORFNA YDL036C
6685_at 0.88664304 -0.016904 0.026434 0.043338 Hypothetical ORFNA YDL180W
5311_at 0.88844278 -0.01828 0.02561333 0.04389333 Hypothetical ORFNA YFR057W
5079_at 0.93389474 -0.01309667 0.03086033 0.043957 HSF1
heat shock transcription factor YGL073W
7253_g_at 0.91488375 -0.04113367 0.00311333 0.044247 similar
transketolase, TKL2 to TKL1 YBR116C
10910_at 0.85254621 -0.00815433 0.03638833 0.04454267 STE24
zinc metallo-protease YJR117W
11258_at 0.88803959 -0.00713767 0.03757467 0.04471233 hexose permease HXT8 YJL214W
3338_f_at 0.95084914 -0.15528 -0.110289 0.044991 NA NA YERCSIGMA2
6137_at 0.93512499 -0.08234233 -0.037327 0.04501533 SBE2
Required for bud growth YDR351W
9089_at 0.92207763 -0.03788067 0.007173 0.04505367 PEX17 YNL214W
23 kDa peroxisome associated protein, binds Pex14p
6596_at 0.92139947 -0.01758667 0.02749733 0.045084 CDC53 YDL132W
Cullin, structural protein of SCF complexes (which also contain Skp
10889_at 0.90983232 -0.044968 0.00015933 0.04512733 NA YJR141W
Protein required for cell viability
5198_at 0.91876109 -0.06200867 -0.016712 0.04529667 NA NA YGL182C
10802_at 0.94745264 -0.05135867 -0.00580167 0.045557 UBA1
ubiquitin activating enzyme e1 YKL210W
7997_at 0.90061634 -0.014502 0.031148 0.04565 YAH1 YPL252C
iron-sulfur protein similar to human adrenodoxin
4831_at 0.94627308 -0.131873 -0.08609267 0.04578033 NA NA YGR176W
8267_at 0.82437552 -0.00277967 0.043004 0.04578367 Hypothetical ORFNA YOR291W
5734_at 0.92434788 -0.06689833 -0.02109967 0.04579867 NA NA YEL013W
4550_at 0.91615647 -0.032896 0.013165 0.046061 Hypothetical ORFNA YHL012W
7220_at 0.90305505 -0.03334833 0.013271 0.04661933 NA NA YBR129C
9422_at 0.95201809 -0.183104 -0.136351 0.046753 ICY1 cytoskeleton
Protein that interacts with theYMR195W and is involved in chrom
8519_at 0.83489864 -0.00593867 0.04130733 0.047246 RNA helicase DBP5 YOR046C
5031_at 0.86354699 -0.00019333 0.04724233 0.04743567 RPL24A YGL031C
ribosomal protein L24A (rp29) (YL21) (L30A)
5105_at 0.9199352 -0.01420067 0.0333 0.04750067 NUP145
nuclear pore complex subunit YGL092W
9674_at 0.87528993 -0.01709533 0.030796 0.04789133 NA NA YML035C-A
5093_at 0.89048916 -0.01383667 0.03412067 0.04795733 NA VPS73 YGL104C
3375_f_at 0.88995202 -0.009246 0.038898 0.048144 NA YERCSIGMA1
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
8963_at 0.85112485 -0.006977 0.041168 0.048145 RPC19 YNL113W
RNA polymerases I (A) and III (C) subunit
11060_at 0.9483765 -0.00800267 0.04017967 0.04818233 TDH1 dehydrogenase 1
glyceraldehyde-3-phosphate YJL052W
7931_at 0.90817151 -0.00106367 0.04714367 0.04820733 NA NA YPL183W-A
9093_at 0.86421171 -0.009511 0.039267 0.048778 MER1 YNL210W
RNA-binding motif protein required for MRE2-dependent mRNA spl
11092_at 0.89610129 -0.036112 0.01309167 0.04920367 DLS1 YJL065C
Subunit of ISW2/yCHRAC chromatin accessibility complex along wi
4493_at 0.85348888 -0.00861433 0.04113733 0.04975167 NA YHR020W
Protein required for cell viability
4553_at 0.79084492 -0.001738 0.048063 0.049801 YAP3 YHL009C
bZIP protein; transcription factor
6474_at 0.92445146 -0.03967167 0.01026733 0.049939 PSF1
subunit of the GINS complexYDR013W
6300_g_at 0.89640913 -0.02050233 0.029594 0.05009633 CPR1 YDR154C
cyclophilin|peptidyl-prolyl cis-trans isomerase (PPIase)
6013_at 0.89289347 -0.01603033 0.03438833 0.05041867 guanylate kinaseGUK1 YDR454C
5006_at 0.93084387 -0.08092567 -0.030457 0.05046867 NA NA YGL011C
3590_f_at 0.82943211 -0.00561933 0.04496533 0.05058467 NA YPLWDELTA4
Identified by expression profiling and mass spectrometry /// TyA Ga
11294_g_at 0.94581393 -0.05320433 -0.00242533 0.050779 PRM8 /// PRM9 AR031W
Y
Pheromone-regulated protein with 2 predicted transmembrane segm
7919_at 0.81628123 -0.00399767 0.04703467 0.05103233 PRP46
pre-mRNA splicing factor YPL151C
8384_f_at 0.85762355 -0.006031 0.04517467 0.05120567 NA NA YOR182C
7406_at 0.93696618 -0.00887833 0.042374 0.05125233 Hypothetical ORF NA YBL046W
7906_at 0.90806317 -0.01764267 0.033963 0.05160567 Mutl Homolog MLH3 YPL164C
9310_at 0.95493805 -0.14299233 -0.09101267 0.05197967 UBP15 YMR304W
Ubiquitin-specific protease that may play a role in ubiquitin precurso
4952_at 0.85381793 -0.001501 0.05070833 0.05220933 Hypothetical ORF NA YGR071C
6204_at 0.81728565 -0.00340467 0.049234 0.05263867 DPP1
diacylglycerol pyrophosphateYDR284Cphosphatase
3461_f_at 0.80570121 -0.00145833 0.05150633 0.05296467 NA YCRWDELTA10
Identified by expression profiling and mass spectrometry /// Similar
6704_at 0.95911508 -0.21261267 -0.15956767 0.053045 NA NA YDL204W
6710_at 0.90599067 -0.003828 0.04946167 0.05328967 AAD4 YDL243C
aryl-alcohol dehydrogenase (putative)
4774_at 0.86493318 -0.00279167 0.05057933 0.053371 thioredoxin|ECTRX21.8.4.8 YGR209C
8140_at 0.91947448 -0.002307 0.05120767 0.05351467 photolyase PHR1 YOR386W
11031_s_at 0.86688621 -0.01257767 0.040948 0.05352567 TDH2 dehydrogenase
glyceraldehyde 3-phosphate YJR009C
5123_at 0.92651765 -0.06261667 -0.00890133 0.05371533 ABC1 YGL119W
Protein required for ubiquinone (coenzyme Q) biosynthesis, which i
9393_at 0.90316902 -0.011537 0.04261533 0.05415233 NA NA YMR254C
6675_at 0.90818043 -0.021116 0.03313667 0.05425267 RBS1
R3H-domain protein YDL189W
3793_f_at 0.86909036 -0.01223267 0.042213 0.05444567 MAG1 YLLCDELTA1
3-methyladenine DNA glycosylase /// Identified by expression profili
8202_at 0.92773463 -0.06015067 -0.00566367 0.054487 HAP5 factor component (along with Hap2p a
CCAAT-binding transcription YOR358W
5084_at 0.93394035 -0.151348 -0.09679367 0.05455433 MNP1 YGL068W
Putative mitochondrial-nucleoid specific ribosomal protein
8954_at 0.90398064 -0.03139133 0.02331567 0.054707 NA NIS1 YNL078W
6524_at 0.89409688 -0.044644 0.01065233 0.05529633 MPS1 YDL028C
Dual-specificity kinase required for spindle pole body (SPB) duplica
6228_at 0.83279278 -0.000633 0.054705 0.055338 DIN7 YDR263C
Mitochondrial nuclease functioning in DNA repair and replication, m
8702_at 0.88500219 -0.03235467 0.02307033 0.055425 GAS4 YOL132W
Putative 1,3-beta-glucanosyltransferase, has similarity to Gas1p; lo
8379_at 0.94018421 -0.13459 -0.07915733 0.05543267 the meiotic outer plaque, a membrane-organizing ce
Component of MPC54 YOR177C
10201_at 0.87794907 -0.03218067 0.02327733 0.055458 APC2 YLR127C
anaphase promoting complex (APC) subunit
10947_at 0.85926821 -0.00910467 0.04663933 0.055744 RPA12
RNA polymerase I A12.2 subunit YJR063W
3389_f_at 0.80146084 -0.003205 0.052602 0.055807 NA YDRWDELTA25
Identified by expression profiling and mass spectrometry /// Similar
8818_at 0.90555462 -0.06104567 -0.005203 0.05584267 MNT4
mannosyltransferase (putative) YNR059W
6592_at 0.86969875 -0.02665133 0.030055 0.05670633 NA NA YDL094C
7775_at 0.8132191 -0.00660633 0.05023733 0.05684367 MET12 YPL023C
methylenetetrahydrofolate reductase (mthfr) (putative)
7991_at 0.92306136 -0.01544633 0.04162133 0.05706767 Component of LEA1 YPL213W
U2 snRNP; disruption causes reduced U2 snRNP lev
9736_at 0.8608231 -0.019695 0.03788567 0.05758067 URA5 YML106W
orotate phosphoribosyltransferase 1
8220_at 0.89903248 -0.02605533 0.031615 0.05767033 MIP1 YOR330C
mitochondrial DNA polymerase catalytic subunit
5273_at 0.92638819 -0.020389 0.03754567 0.05793467 DOC1 YGL240W
Processivity factor required for the ubiquitination activity of the anap
8027_at 0.79285764 -0.00469533 0.053397 0.05809233 PLC1 YPL268W
phosphoinositide-specific phospholipase C
9166_at 0.90158582 -0.06869033 -0.010309 0.05838133 HXT14
hexose transporter YNL318C
10729_at 0.86488055 -0.014679 0.04414433 0.05882333 RPC25
RNA polymerase III subunit YKL144C
8257_at 0.85460622 -0.004828 0.05454667 0.05937467 NA NA YOR281C
3343_i_at 0.92088439 -0.08900033 -0.02930867 0.05969167 NA NA YERCDELTA15
3575_f_at 0.85310575 -0.00857467 0.051303 0.05987767 NA YORWSIGMA3
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
9354_at 0.84460616 -0.00631567 0.05393667 0.06025233 TIF11 YMR260C
translation initiation factor eIF1A
4818_at 0.84815283 -0.00672933 0.053534 0.06026333 phosphoserineSER2 phosphatase YGR208W
5947_at 0.86733571 -0.01190433 0.04837233 0.06027667 SPS1 YDR523C
dispensable for mitosis, involved in middle/late stage of meiosis, req
10381_at 0.86413082 -0.00087733 0.059413 0.06029033 Hypothetical ORF NA YLL049W
3656_f_at 0.85245659 -0.008892 0.05164433 0.06053633 HAP1 YNLWDELTA3
Identified by expression profiling and mass spectrometry /// TyA Ga
4899_at 0.9336509 -0.05362333 0.007126 0.06074933 B-type cyclin CLB6 YGR109C
7749_at 0.93764717 -0.023618 0.03730167 0.06091967 LSP1 inhibitor of
Long chain base-responsive YPL004C protein kinases Phk1p and
6091_at 0.81080811 -0.003358 0.05771633 0.06107433 RPT3 YDR394W
probable 26S protease subunit and member of the CDC48/PAS1/S
3694_at 0.83227933 -0.01230633 0.048836 0.06114233 NA YMR326C
Identified by gene-trapping, microarray-based expression analysis,
10484_at 0.89229561 -0.01585433 0.04534233 0.06119667 NFT1 YKR103W
Putative MRP-type ABC transporter
10634_at 0.93144299 -0.11239967 -0.05091433 0.06148533 MSN4
zinc finger protein YKL062W
7238_at 0.88102974 -0.03489067 0.02682167 0.06171233 EXO84 YBR102C
exocyst complex component|spliceosome assembly protein
5409_at 0.90689918 -0.047074 0.015008 0.062082 activator with GATA-1-type Zn finger DNA-binding m
transcriptional GAT1 YFL021W
6331_at 0.86239309 -0.01227167 0.05010067 0.06237233 NA YDR140W
Putative S-adenosylmethionine-dependent methyltransferase of the
7381_at 0.80745546 -0.008583 0.05445367 0.06303667 LSM2 YBL026W
snRNA-associated protein, Sm class
7668_at 0.85960965 -0.01294267 0.05018667 0.06312933 NA NA YPR092W
9031_at 0.82422956 -0.009539 0.05375333 0.06329233 homolog
protein kinase NPR1 YNL183C
10654_at 0.89733655 -0.04533667 0.018362 0.06369867 MDH1
malate dehydrogenase YKL085W
3696_at 0.8949237 -0.059988 0.003734 0.063722 NA NA YMLCDELTA1
10041_at 0.90847785 -0.07351767 -0.00933367 0.064184 NA NA YLR282C
5016_at 0.77403323 -0.00023133 0.064005 0.06423633 ERG26
C-3 sterol dehydrogenase YGL001C
7730_at 0.76604065 -0.00102133 0.06346433 0.06448567 EAF3 YPR023C
Esa1p-associated factor, nonessential component of the NuA4 ace
10445_s_at 0.91886185 -0.12681967 -0.061441 0.06537867 MNN4 mannosylphosphate transferase (Mnn
Putative positive regulator of YKL201C
10573_at 0.89691245 -0.068753 -0.00326067 0.06549233 TOF2 YKR010C
topoisomerase I interacting factor 2
4865_at 0.80075013 -0.01000367 0.05550933 0.065513 the conservedYGR120C Golgi complex
Component of COG2 oligomeric
4287_s_at 0.93941213 -0.20657567 -0.14084533 0.06573033 NA YHR209W
Putative S-adenosylmethionine-dependent methyltransferase of the
10517_at 0.90483273 -0.08466033 -0.01873067 0.06592967 Hypothetical ORFNA YKR045C
6028_at 0.8679541 -0.00824067 0.057772 0.06601267 CAD1 /// SIP1 YDR422C
basic leucine zipper transcription factor /// protein kinase complex c
6682_at 0.87608805 -0.03795233 0.02809733 0.06604967 LYS20 /// LYS21YDL182W
YDL131W (LYS21) homolog|homocitrate synthase /// YDL182W (LY
3785_f_at 0.82924449 -0.01072267 0.05552467 0.06624733 HAP1 YLRWDELTA13
Identified by expression profiling and mass spectrometry /// TyA Ga
8394_at 0.83104062 -0.005897 0.06088533 0.06678233 MDM32 YOR147W
Mitochondrial Distribution and Morphology
5165_at 0.88674229 -0.01977167 0.04719633 0.066968 the meiotic outer plaque of the spindle pole body, inv
Component of SPO74 YGL170C
7125_at 0.90198279 -0.01528733 0.05187633 0.06716367 basic
highly chargedHPC2 protein YBR215W
4109_at 0.87800549 -0.01855433 0.04873733 0.06729167 BAR1 YIL015W
protease|synthesized in a-cells; cleaves and inactivates alpha facto
6016_at 0.80608139 -0.00859933 0.05871833 0.06731767 TOM1 YDR457W
hect-domain-containing protein, containing kinase motifs|similar to R
10694_at 0.90689142 -0.076337 -0.00901 0.067327 1-Oct YKL134C
intermediate peptidase|possesses octapeptidyl amino-peptidase ac
10048_at 0.85169791 -0.024102 0.043348 0.06745 MEC3 YLR288C
Involved in checkpoint control and DNA repair; forms a clamp with R
8262_at 0.86471739 -0.011598 0.05592567 0.06752367 non-tagged protein was localized to the mitochondria
The authentic, NA YOR286W
11257_at 0.87950067 -0.02096633 0.04670367 0.06767 NA NA YJL215C
7332_at 0.89276062 -0.03871833 0.02897967 0.067698 GAL10
UDP-glucose 4-epimerase YBR019C
5625_at 0.81479147 -0.00853267 0.059404 0.06793667 PUP3
20S proteasome subunit beta3_scYER094C
3347_s_at 0.90880273 -0.06338667 0.00461533 0.068002 NA NA YERWDELTA17
10059_at 0.77145267 -0.00642433 0.06211033 0.06853467 Hypothetical ORFNA YLR257W
10331_at 0.89906045 -0.075979 -0.007243 0.068736 Hypothetical ORFNA YLL012W
7483_at 0.86004433 -0.00673433 0.06205233 0.06878667 R
phosphoprotein TG3 YBL103C
4823_at 0.83588576 -0.004662 0.06429867 0.06896067 Hypothetical ORFNA YGR168C
9136_at 0.82548046 -0.001026 0.06796433 0.06899033 DSL1 YNL258C
Endoplasmic reticulum (ER)-localized peripheral membrane protein
6310_at 0.78652826 -0.001144 0.06806933 0.06921333 SEC1 YDR164C
SNARE docking complex subunit (putative)
6920_at 0.89708341 -0.05798933 0.01135967 0.069349 PRD1 YCL057W
Zinc metalloendopeptidase, found in the cytoplasm and intermembr
9454_at 0.91997553 -0.108673 -0.03888633 0.06978667 Hypothetical ORFNA YMR184W
5389_at 0.92202008 -0.05574167 0.014079 0.06982067 NA
deubiquitinating enzyme YFL044C
5754_at 0.86762559 -0.030831 0.03915867 0.06998967 NA NA YEL036C
7958_at 0.84171329 -0.02759333 0.04292267 0.070516 CSM4 chromosome segregation during meio
Protein required for accurate YPL200W
7337_at 0.88152311 -0.033019 0.037959 0.070978 SCO2 YBR024W
Originally identified as a multicopy suppressor of a respiratory defec
10077_at 0.86701234 -0.026039 0.045463 0.071502 loss of cohesionYCS4 YLR272C
5238_at 0.76268865 -0.00026867 0.071426 0.07169467 Hypothetical ORFNA YGL231C
5530_at 0.88241539 -0.05993767 0.011762 0.07169967 NA NA YER181C
4249_at 0.81964589 -0.00662567 0.06531133 0.071937 Hypothetical ORFNA YIL152W
8558_at 0.82039694 -7.27E-05 0.07200067 0.07207337 SIN3 in transcriptional regulation
DNA binding protein|involvedYOL004W
5580_at 0.89818641 -0.01043833 0.06176867 0.072207 Hypothetical ORFNA YER140W
3777_f_at 0.86517785 -0.03925333 0.03297733 0.07223067 NA NA YLRCDELTA9
4921_i_at 0.78707079 -0.00960933 0.06271267 0.072322 NA NA YGR085C
7162_at 0.84130255 -0.00638 0.06674867 0.07312867 NA NA YBR206W
10761_at 0.85344275 -0.00481667 0.06912967 0.07394633 exportin-t LOS1 YKL205W
8195_at 0.8037791 -0.016473 0.05750433 0.07397733 MEK1 YOR351C
meiosis-specific serine/threonine protein kinase
7647_at 0.84567676 -0.03189733 0.04241267 0.07431 Hypothetical ORFNA YPR115W
8286_at 0.76065272 -0.00054167 0.073787 0.07432867 cofactor
tubulin folding RBL2 A YOR265W
10678_at 0.92134621 -0.18550867 -0.11105933 0.07444933 AAT1
aspartate aminotransferase YKL106W
4081_at 0.92091809 -0.05517167 0.019762 0.07493367 Hypothetical ORFNA YIL001W
6880_at 0.82279407 -0.021304 0.05379967 0.07510367 septin CDC10 YCR002C
5131_at 0.85735922 -0.01430233 0.06096033 0.07526267 NSA1
ribosome biogenesis YGL111W
9547_at 0.93899867 -0.103471 -0.028102 0.075369 PGM2
phosphoglucomutase YMR105C
8776_at 0.76630689 -0.001776 0.07420467 0.07598067 NA
Hypothetical ORF YNR064C
10388_at 0.86854089 -0.02397833 0.052452 0.07643033 FPS1
glycerol channel protein YLL043W
7260_at 0.77122548 -0.003532 0.07306467 0.07659667 UBC4 e2
ubiquitin conjugating enzymeYBR082C
6180_i_at 0.92709006 -0.14191767 -0.06516333 0.07675433 HNT2 YDR305C
Dinucleoside triphosphate hydrolase; has similarity to the tumor sup
4840_at 0.86044411 -0.04600267 0.03111567 0.07711833 NA NA YGR185C
6838_at 0.92840841 -0.102549 -0.025399 0.07715 NA NA YCR050C
6512_at 0.77749383 -0.000303 0.07699533 0.07729833 NA NA YDL040C
4331_at 0.8897522 -0.01774533 0.05984567 0.077591 NA NA YHR070c-a
7608_at 0.81297357 -0.02227233 0.05553767 0.07781 AXL1 YPR122W
Haploid specific endoprotease that performs one of two N-terminal
10313_at 0.82347679 -0.022618 0.055434 0.078052 MEU1 YLR017W
Protein that regulates ADH2 gene expression
6103_at 0.84471517 -0.02105433 0.05739267 0.078447 TFC6 YDR362C
91 kDa tau91 subunit of transcription factor IIIC (TFIIIC)
6453_at 0.86922611 -0.038653 0.039884 0.078537 ENA1 YDR038C
P-type ATPase Na+ pump|plasma membrane ATPase
10317_at 0.84524628 -0.043433 0.03522333 0.07865633 NA
Hypothetical ORF YLR021W
9647_at 0.83884001 -0.04375433 0.03500167 0.078756 PSP2 YML017W
Polymerase suppressor 2; Suppressors of group II intron-splicing d
10469_at 0.83945756 -0.03597767 0.04345733 0.079435 PXL1 YKR090W
LIM domain-containing protein that localizes to sites of polarized gro
6104_at 0.86345442 -0.034334 0.045113 0.079447 ESC2 YDR363W
Protein involved in mating-type locus silencing, interacts with Sir2p;
8498_at 0.805364 -0.00542767 0.074174 0.07960167 NA
Hypothetical ORF YOR071C
8685_at 0.76876974 -0.00366867 0.07609533 0.079764 DCP1 YOL149W
Decapping enzyme, essential phosphoprotein component of mRNA
4142_at 0.84780134 -0.02185733 0.05806733 0.07992467 NA
Hypothetical ORF YIL029C
10917_at 0.79416558 -0.012827 0.06712767 0.07995467 NA
Hypothetical ORF YJR124C
8244_i_at 0.83900089 -0.00158067 0.07878733 0.080368 NOP58
U3 snoRNP protein YOR309C
9487_at 0.89670722 -0.03532367 0.045416 0.08073967 NA YMR134W
Protein required for cell viability
6930_at 0.84149922 -0.00310467 0.07765767 0.08076233 NA
Hypothetical ORF YCL045C
6230_at 0.820748 -0.02106933 0.060174 0.08124333 PEX10 YDR265W
C3HC4 zinc-binding integral peroxisomal membrane protein
4343_at 0.74297517 -0.002942 0.07841233 0.08135433 GND1 YHR183W
6-phosphogluconate dehydrogenase, decarboxylating; converts 6-p
9012_at 0.87012532 -0.02876867 0.05266633 0.081435 NA potential
Protein of unknown function, YNL156Chomolog of mammalian Insig
3539_f_at 0.83947141 -0.025022 0.05649067 0.08151267 NA YPRWSIGMA4
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
7848_at 0.93283064 -0.21276133 -0.13096767 0.08179367 YDC1 YPL087W
alkaline dihydroceramidase with minor reverse activity
4248_at 0.85570255 -0.02642233 0.055395 0.08181733 RRD1
Resistant to Rapamycin DeletionYIL153W
8993_at 0.85031535 -0.03898367 0.04299667 0.08198033 NRK1
nicotinamide riboside kinase YNL129W
10495_at 0.84389051 -0.03364667 0.04879633 0.082443 NA
Hypothetical ORF YKR070W
9515_at 0.93610446 -0.33342 -0.250882 0.082538 NA
Hypothetical ORF YMR118C
4117_at 0.8890009 -0.00493567 0.077719 0.08265467 EST3
20.5 kDa 181aa protein YIL009C-A
10095_at 0.84035877 -0.00366367 0.079233 0.08289667 NA
Hypothetical ORF YLR247C
9976_at 0.87182976 -0.00334 0.07971567 0.08305567 NA
Hypothetical ORF YLR352W
10104_at 0.87478587 -0.03203 0.05124433 0.08327433 gamma tubulinTUB4 YLR212C
11250_s_at 0.79329868 -0.003324 0.08053267 0.08385667 VTH2 YJL222W
potential membrane glycoprotein|strong similarity to Vth1 and Pep1
8214_at 0.80122617 -0.01102633 0.07285067 0.083877 endoplasmic reticulum membrane protein that is a su
Tail-anchored FRT1 YOR324C
8860_at 0.80965818 -0.01781033 0.06611567 0.083926 uridine kinase URK1 YNR012W
8254_at 0.80817437 -0.02253467 0.06172633 0.084261 HEM4
uroporphyrinogen III synthase YOR278W
10739_f_at 0.76579852 -0.00401933 0.08075333 0.08477267 RPL17A YKL180W
ribosomal protein L17A (L20A) (YL17)
6529_at 0.86883146 -0.017887 0.06713033 0.08501733 CBS1 YDL069C
translational activator of cytochrome B
6211_at 0.77353047 -0.00933567 0.07586767 0.08520333 of 23 kDa
Trapp subunit TRS23 YDR246W
7922_at 0.60775425 -2.83E-05 0.08533467 0.08536297 PPT2 YPL148C
phosphopantetheine:protein transferase (PPTase)
7859_at 0.82268811 -0.039512 0.04586167 0.08537367 required for synapsis and meiotic recombination
Meiotic proteinMEI5 YPL121C
4121_at 0.84752632 -0.04323167 0.04240233 0.085634 NA YIL006W
Pvruvate transporter of the mitochondrial inner membrane, member
7217_at 0.88819804 -0.043853 0.04184367 0.08569667 TPS1 YBR126C
trehalose-6-phosphate synthase/phosphatase complex 56 kDa synt
8029_at 0.85890506 -0.0622 0.023801 0.086001 DIM1
dimethyladenosine transferase YPL266W
10364_at 0.85158993 -0.04897133 0.03714733 0.08611867 component of YLL022C histone acetyltransferase co
Non-essential HIF1 the HAT-B
8424_at 0.73003457 -0.00016733 0.08624733 0.08641467 VPS17 YOR132W
Peripheral membrane protein required for vacuolar protein sorting
11170_at 0.87043579 -0.05746533 0.02918033 0.08664567 SET2 YJL168C
Histone methyltransferase with a role in transcriptional elongation, m
3801_f_at 0.7929731 -0.017544 0.069224 0.086768 NA NA YLRCDELTA5
5208_at 0.82249188 -0.017979 0.06885433 0.08683333 NA NA YGL217C
9475_at 0.87440647 -0.061404 0.025482 0.086886 NA green fluorescent protein (GFP)-fusion
Protein of unknown function; YMR163C
8300_f_at 0.78090755 -0.00043833 0.086512 0.08695033 RPL33A YOR234C
ribosomal protein L33A (L37A) (YL37) (rp47)
6348_at 0.88783944 -0.06688833 0.020117 0.08700533 PDS1
42 kDa nuclear securin YDR113C
7204_at 0.68546245 -0.003025 0.083983 0.087008 AMN1 YBR158W
Involved in daughter cell separation and Chromosome STability
6494_at 0.59727862 -0.000683 0.08635133 0.08703433 HEX3 YDL013W
Ring finger protein involved in the DNA damage response with poss
3782_f_at 0.80146768 -0.014528 0.07306867 0.08759667 NA YLRWDELTA11
Identified by expression profiling and mass spectrometry /// TyA Ga
3680_i_at 0.81063267 -0.00348533 0.084334 0.08781933 NA NA YMRWDELTA15
11055_at 0.76579191 -0.01257967 0.07533867 0.08791833 MAD3 YJL013C
spindle checkpoint complex subunit
4885_at 0.86225742 -0.05781833 0.03021 0.08802833 NA NA YGR139W
11119_at 0.76683205 -0.00028933 0.088033 0.08832233 Hypothetical ORFNA YJL083W
9472_at 0.86059856 -0.02688267 0.06183567 0.08871833 Hypothetical ORFNA YMR160W
5777_at 0.77029853 -0.01622033 0.07260433 0.08882467 PCM1
phosphoacetylglucosamine mutase YEL058W
3634_f_at 0.8452977 -0.041017 0.048017 0.089034 NA YOLCDELTA3
Identified by expression profiling and mass spectrometry /// TyA Ga
5712_at 0.87691867 -0.07030867 0.01880033 0.089109 PRE1
22.6 kDa proteasome subunit YER012W
7128_at 0.62396641 -0.00057333 0.08882433 0.08939767 PYC2
pyruvate carboxylase YBR218C
4376_at 0.84418989 -0.025992 0.063757 0.089749 autophagy ATG7 YHR171W
6908_at 0.81755786 -0.017425 0.07321133 0.09063633 NA NA YCL023C
6784_at 0.86004598 -0.045498 0.045369 0.090867 cell wall protein (putative)
GPI-anchored FIG2 YCR089W
10791_at 0.83213266 -0.02974333 0.06119267 0.090936 MCH2 YKL221W
monocarboxylate permease homologue
5224_at 0.83069867 -0.00067733 0.090343 0.09102033 Member of theMCM6 YGL201C
MCM/P1 family of proteins involved in DNA replicatio
9943_at 0.83725168 -0.00177867 0.089298 0.09107667 Hypothetical ORFNA YLR364W
7159_at 0.90900112 -0.12988067 -0.03834533 0.09153533 Hypothetical ORFNA YBR204C
5122_at 0.78368827 -0.01440033 0.077339 0.09173933 RNA helicase PRP43 YGL120C
4037_at 0.73272081 -0.00040067 0.091375 0.09177567 NA NA YIL071w-a
8898_at 0.92178399 -0.14667667 -0.05484233 0.09183433 NA NA YNL043C
5598_at 0.73396313 -0.00995167 0.08192067 0.09187233 Hypothetical ORFNA YER113C
7149_at 0.62581446 -0.00111467 0.09131433 0.092429 MED8 YBR193C
RNA polymerase II holoenzyme/mediator subunit
10191_at 0.84029368 -0.01870033 0.07395533 0.09265567 SEC10
exocyst complex component YLR166C
9678_at 0.78748075 -0.01189767 0.08104133 0.092939 NA NA YML032C-A
9463_at 0.71413558 -0.00766 0.08537533 0.09303533 NUP53 YMR153W
karyopherin docking complex component of the nuclear pore compl
7112_at 0.83771246 -0.061533 0.03176533 0.09329833 with YBR247C
57 kDa proteinENP1an apparent MW of 70 kDa by SDS-PAGE (puta
8164_at 0.84697594 -0.042249 0.05117833 0.09342733 Hypothetical ORFNA YOR365C
10854_at 0.80251524 -0.03597933 0.05766233 0.09364167 DAL5
allantoate permease YJR152W
3458_f_at 0.74462699 -0.002555 0.091327 0.093882 NA NA YCRWDELTA8
9576_at 0.81413075 -0.000843 0.093544 0.094387 MCM1 YMR043W
contains the 56 amino-acid MADS (MCM1, AG, DEFAm SRF)-box m
7379_i_at 0.8482743 -0.07997067 0.01455633 0.094527 LSM2 YBL026W
snRNA-associated protein, Sm class
9666_at 0.6996715 -0.00295967 0.091648 0.09460767 PRP39 YML046W
RNA splicing factor|U1 snRNP protein
9330_at 0.675215 -0.003962 0.09067967 0.09464167 GPI12 YMR281W
N-acetylglucosaminylphosphatidylinositol de-N-acetylase
6656_at 0.86225545 -0.03276567 0.06204833 0.094814 DNA ligase CDC9 YDL164C
9720_at 0.74923192 -0.01052167 0.084372 0.09489367 Hypothetical ORFNA YML079W
9914_at 0.94031689 -0.47852533 -0.38330033 0.095225 ATG17 YLR423C
required for activation of Apg1 protein kinase
3771_f_at 0.6228602 -0.000879 0.09440833 0.09528733 NA YLRCDELTA7
Identified by expression profiling and mass spectrometry /// TyA Ga
9424_at 0.78136908 -0.00012267 0.095362 0.09548467 NA NA YMR197C
3425_f_at 0.69346157 -0.00740667 0.088363 0.09576967 HAP1 YDRCTY1-3
Identified by expression profiling and mass spectrometry /// TyB Ga
9722_at 0.68371401 -0.000534 0.09539133 0.09592533 TRAPP 18kDaBET5 component YML077W
6173_at 0.83180168 -0.01229267 0.08438167 0.09667433 BFR2 YDR299W
involved in protein transport step at the Brefeldin A blocks
3597_at 0.89484063 -0.06605967 0.03063367 0.09669333 NA NA YOLCDELTA8
10102_at 0.78971858 -0.024281 0.07253133 0.09681233 B-type cyclin CLB4 YLR210W
3319_f_at 0.60351753 -0.00121133 0.095627 0.09683833 NA YERCDELTA24
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
6699_at 0.86974407 -0.02813067 0.06892 0.09705067 CWC2 YDL209C
Protein involved in pre-mRNA splicing, component of a complex con
4460_i_at 0.87048845 -0.13663967 -0.03954867 0.097091 SAE3 YHR079C-A
Protein involved in DNA repair, meiotic recombination, and chromos
5572_at 0.80362557 -0.00536333 0.09195133 0.09731467 Paralog of MDS3 PMD1 YER132C
9609_at 0.77739943 -0.0034 0.09436567 0.09776567 NA NA YMR031W-A
7809_at 0.89128345 -0.03154567 0.066758 0.09830367 Hypothetical ORFNA YPL034W
5202_at 0.82659373 -0.060285 0.038221 0.098506 NA NA YGL177W
7760_at 0.86028012 -0.01167733 0.08699833 0.09867567 activator involved in the transcription of TPO2, HSP3
TranscriptionalHAA1 YPR008W
4990_at 0.80725101 -0.026565 0.07217733 0.09874233 Hypothetical ORFNA YGR017W
4227_at 0.79383265 -0.008456 0.09095367 0.09940967 TAO3 YIL129C
Identified in a hunt for mutants that activate OCH1 transcription
7632_i_at 0.71314388 -0.000188 0.09960667 0.09979467 NA NA YPR102C
6801_at 0.85721165 -0.01707 0.08307767 0.10014767 NA NA YCL022C
5302_at 0.78846322 -0.00850267 0.09198867 0.10049133 RMD8 sporulation
Cytosolic protein required forYFR048W
9557_at 0.77289431 -0.001175 0.09946433 0.10063933 HMG-1 homolog ABF2 YMR072W
10983_at 0.86592475 -0.108197 -0.00751567 0.10068133 NA function; potential Cdc28p substrate
Vacuolar protein of unknown YJR054W
3169_f_at 0.69282014 -0.00988733 0.09082 0.10070733 NA YHRCDELTA10
Hypothetical ORF /// Identified by expression profiling and mass spe
8304_at 0.67326848 -0.007188 0.093542 0.10073 NA
Hypothetical ORF YOR238W
6558_i_at 0.80165348 -0.007592 0.093193 0.100785 RPS16A
ribosomal protein S16A (rp61R) YDL083C
7636_at 0.85312555 -0.02734767 0.07349067 0.10083833 the conservedYPR105C Golgi complex
Component of COG4 oligomeric
8437_at 0.76419941 -0.00878233 0.09212333 0.10090567 CRC1
carnitine transporter YOR100C
5633_at 0.94040357 -0.56863 -0.467721 0.100909 NA NA YER062C
4036_at 0.75315446 -0.01049667 0.090578 0.10107467 NA NA YIL100c-a
11057_at 0.70206239 -0.003917 0.097376 0.101293 NA
Hypothetical ORF YJL055W
10518_at 0.9049505 -0.13534267 -0.03386567 0.101477 PET10 YKR046C
Protein of unknown function that co-purifies with lipid particles; expr
8670_at 0.80177553 -0.038435 0.06326967 0.10170467 NA NA YOL118C
9742_at 0.8978347 -0.09368733 0.00812533 0.10181267 CUE4 has a CUE
Protein of unknown function; YML101C domain that binds ubiquitin
8446_at 0.78215699 -0.028268 0.07447667 0.10274467 INP53 YOR109W
inositol polyphosphate 5-phosphatase
4582_at 0.86967519 -0.11218567 -0.00935167 0.102834 NA
Hypothetical ORF YHL026C
6523_at 0.73187004 -0.00350633 0.09935967 0.102866 ARP2
actin related protein YDL029W
7293_at 0.83134073 -0.061808 0.041153 0.102961 NA YBR070C
Protein required for cell viability
10221_at 0.78928929 -0.029389 0.07359067 0.10297967 APC9 YLR102C
anaphase promoting complex (APC) subunit
7667_at 0.76409729 -0.00389867 0.099626 0.10352467 NA
Hypothetical ORF YPR091C
10703_at 0.80990663 -0.039394 0.06483233 0.10422633 RRN3 YKL125W
DNA independent RNA polymerase I transcription factor
6931_at 0.6768926 -0.00164767 0.10260733 0.104255 NA NA YCL046W
10231_at 0.82614427 -0.01714667 0.08740133 0.104548 NA NA YLR112W
3511_f_at 0.67742411 -0.00611433 0.09858733 0.10470167 NA YBLWDELTA9
Identified by expression profiling and mass spectrometry /// TyA Ga
8673_at 0.8508673 -0.03960467 0.065312 0.10491667 TRF4
DNA polymerase sigma YOL115W
6397_at 0.87841663 -0.02402767 0.081113 0.10514067 SNF11 activator complex component
SWI/SNF global transcriptionYDR073W
7347_at 0.76570397 -0.02012 0.08507567 0.10519567 protein of unknown function
Non-essential NA YBR033W
5118_at 0.63140038 -0.00344933 0.10235267 0.105802 MON1 cvt-vesicles
Protein required for fusion of YGL124C and autophagosomes with
10702_at 0.72744218 -0.011367 0.094485 0.105852 YPK1 YKL126W
76.5 kDa serine/threonine protein kinase|similarity to protein kinase
6417_at 0.74440672 -0.01470967 0.091518 0.10622767 NA NA YDR048C
4326_at 0.87499274 -0.09218567 0.01411133 0.106297 NA NA YHL030w-a
4413_at 0.84282975 -0.08239033 0.02405867 0.106449 mutS homologMSH1 YHR120W
7423_at 0.68617921 -0.00242533 0.10453933 0.10696467 the U5 YBL074C
Component of AAR2 snRNP, required for splicing of U3 precursors
8854_at 0.73903579 -0.014 0.09304 0.10704 VPS27 YNR006W
cysteine rich putative zinc finger essential for function|hydrophilic pr
3673_f_at 0.65983427 -0.00196267 0.105322 0.10728467 NA YMRCDELTA10
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
4443_at 0.72868282 -0.005507 0.10179267 0.10729967 YPT35
Hypothetical ORF YHR105W
6655_at 0.79906665 -0.01974667 0.08762933 0.107376 CDC36 YDL165W
basal transcription inhibitor|transcriptional regulator
7879_at 0.82024657 -0.024953 0.082428 0.107381 NA YPL146C
Protein required for cell viability
10089_at 0.62323047 -0.00013033 0.10748933 0.10761967 NA
Hypothetical ORF YLR241W
7715_at 0.77615218 -0.007988 0.09985267 0.10784067 NA NA YPR050C
11138_at 0.63568569 -0.003098 0.10489167 0.10798967 UTP10
U3 snoRNP protein YJL109C
6878_at 0.81918873 -0.06198833 0.04631333 0.10830167 NA
Hypothetical ORF YCL001W-A
5944_at 0.79489589 -0.02529167 0.08326067 0.10855233 NA
Hypothetical ORF YDR520C
6216_at 0.72274653 -0.00282967 0.106006 0.10883567 PAM1 YDR251W
multicopy suppressor of protein phosphatase 2A
4353_at 0.63323662 -0.00552833 0.103329 0.10885733 NA NA YHR193C
6437_at 0.86546657 -0.10761667 0.00136867 0.10898533 CIS1
Involved in microtubule assemblyYDR022C
9008_at 0.93717901 -0.17813567 -0.06909467 0.109041 YGP1 YNL160W
gp37, a glycoprotein synthesized in response to nutrient limitation w
7307_at 0.79467039 -0.045169 0.06391167 0.10908067 gamma
ATP synthase ATP3 subunit YBR039W
6893_at 0.76193555 -0.01462333 0.09445967 0.109083 GID7 involved in
Protein of unknown function, YCL039W proteasome-dependent cat
6525_at 0.85133915 -0.062102 0.04700667 0.10910867 NA
Hypothetical ORF YDL027C
10723_at 0.9093288 -0.093898 0.015246 0.109144 MCR1
NADH-cytochrome b5 reductase YKL150W
9558_at 0.76859384 -0.02218267 0.087336 0.10951867 NA
Hypothetical ORF YMR073C
8967_at 0.78550277 -0.014833 0.094897 0.10973 NOP15
ribosome biogenesis YNL110C
3230_f_at 0.6571675 -0.00296733 0.10679167 0.109759 NA YGRWDELTA31
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
9731_at 0.74622523 -0.004393 0.10539967 0.10979267 ITT1 YML068W
Protein that modulates the efficiency of translation termination, inter
11365_at 0.85440925 -0.08706067 0.02277567 0.10983633 PTA1 YAL043C
cleavage factor II (CF II) component|polyadenylation factor I (PF I)
7539_at 0.72516659 -0.01583833 0.09417633 0.11001467 RPO26 YPR187W
RNA polymerases I, II, and III subunit
6222_at 0.85737988 -0.02605333 0.08397267 0.110026 SET7 a SET-domain, which have been show
Nuclear protein that containsYDR257C
3864_i_at 0.89044001 -0.09153667 0.018686 0.11022267 NA NA YJLCDELTA6
8983_s_at 0.81695273 -0.061558 0.04869433 0.11025233 RLR1 YNL140C
Required for LacZ RNA expression from certain plasmids; suppress
3898_s_at 0.85684684 -0.10636333 0.00447967 0.110843 NA YJLWTY4-1
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
6024_at 0.83381014 -0.04921133 0.06181967 0.111031 SPP41 YDR464W
negative transcriptional regulator of prp spliceosome genes
11169_at 0.65566278 -0.00118467 0.110203 0.11138767 NIT2 YJL126W
Nit protein, one of two proteins in S. cerevisiae with similarity to the
4480_at 0.85267715 -0.06948867 0.041922 0.11141067 SMF2 copy suppressor of a temperature sen
SMF2 was isolated as a highYHR050W
6924_at 0.72978137 -0.003908 0.10784533 0.11175333 PBN1 form
protease B nonderepressibleYCL052C
9522_at 0.84873221 -0.01460167 0.09767167 0.11227333 Killer YMR123W
Pichia farinosaPKR1 toxin Resistance
6891_at 0.65385155 -0.00507267 0.10728167 0.11235433 POL4
DNA polymerase IV YCR014C
5529_at 0.65033937 -0.006792 0.10571233 0.11250433 ISC10 YER180C
Protein required for sporulation, transcript is induced 7.5 hours afte
4373_at 0.87928673 -0.11232067 0.00039933 0.11272 GTPase NA YHR168W
10238_at 0.69069767 -0.012735 0.100234 0.112969 BUD20 YLR074C
Protein involved in bud-site selection; diploid mutants display a rand
3370_f_at 0.81191611 -0.058564 0.05478633 0.11335033 NA NA YERWDELTA7
4803_at 0.72411557 -0.00233133 0.11133067 0.113662 PDX1 YGR193C
pyruvate dehydrogenase complex protein X component
9649_at 0.7364943 -0.02390367 0.08985367 0.11375733 TFIID subunit TAF11 YML015C
4891_at 0.74610261 -0.00262567 0.111338 0.11396367 PCP1
rhomboid protease YGR101W
11058_at 0.74076615 -0.023015 0.09099933 0.11401433 TIM54 YJL054W
translocase for the insertion of proteins into the mitochondrial inner
6483_at 0.81951605 -0.05846833 0.055586 0.11405433 DIA3 involved in
Protein of unknown function, YDL024C invasive and pseudohypha
7753_at 0.52489814 -0.00012167 0.114347 0.11446867 C
citrate synthase IT3 YPR001W
7207_at 0.62155283 -0.004261 0.11044267 0.11470367 CSH1 a mannosylinositol phosphorylceramid
Probable catalytic subunit of YBR161W
7453_at 0.71929591 -0.018112 0.09660867 0.11472067 TEL1 YBL088C
Protein kinase, primarily involved in telomere length regulation; con
3860_f_at 0.69116472 -0.00845133 0.10630767 0.114759 NAM2 YJLCDELTA4
Identified by expression profiling and mass spectrometry /// TyA Ga
9756_at 0.82945673 -0.041929 0.073198 0.115127 NA NA YML089C
8927_at 0.71352902 -0.008344 0.10717467 0.11551867 90 kDa proteinNOP2 YNL061W
homologous to a human proliferation-associated nuc
3268_f_at 0.79721329 -0.034081 0.08158667 0.11566767 NA YGLWDELTA7
Identified by expression profiling and mass spectrometry /// TyA Ga
11118_at 0.76281722 -0.00256933 0.11396733 0.11653667 NA YJL084C
Cytoplasmic protein of unknown function that interacts with Pcl7p, p
6330_at 0.68506102 -0.006065 0.110679 0.116744 RUB1
ubiquitin-like protein YDR139C
4093_at 0.73502 -0.00564033 0.111431 0.11707133 SQT1 ribosomal
Involved in a late step of 60SYIR012W subunit assembly or modifi
4338_at 0.68710553 -3.43E-05 0.11731567 0.11734997 two-hybrid assay
binds Sin3p in STB5 YHR178W
7353_at 0.84454846 -0.11596767 0.00154933 0.117517 HIR1 YBL008W
contains nuclear targeting signal|repressor protein (putative)|similar
9531_at 0.85489853 -0.08531533 0.03296133 0.11827667 YTA12 YMR089C
ATPase|CDC48/PAS1/SEC18 (AAA) family
3671_f_at 0.58334469 -0.00067567 0.11798167 0.11865733 NA YMRCDELTA9
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
8544_at 0.69116012 -0.003254 0.11596267 0.11921667 BUB3 arrest in response to loss of microtub
Protein required for cell cycleYOR026W
4079_at 0.79218938 -0.04092867 0.07850133 0.11943 CFD1 YIL003W
Highly conserved, putative P-loop ATPase localized in the cytoplasm
6788_at 0.80059841 -0.022131 0.09762733 0.11975833 CDC39 YCR093W
basal transcription inhibitor|transcriptional regulator
4064_at 0.79186041 -0.04789333 0.071969 0.11986233 DAL4
allantoin permease YIR028W
8869_at 0.78989148 -0.05267833 0.06724 0.11991833 SAM50 YNL026W
Essential component of the Sorting and Assembly Machinery (SAM
6198_at 0.84282788 -0.05516167 0.065044 0.12020567 NA NA YDR278C
10982_at 0.64729415 -0.005961 0.11472367 0.12068467 Byr four alike BFA1 YJR053W
9533_at 0.67027799 -0.008291 0.112682 0.120973 NPL6 YMR091C
Nuclear protein that may have a role in nuclear protein import
7699_at 0.70467229 -0.008229 0.11306933 0.12129833 VMA13 YPR036W
vacuolar H(+) ATPase V1 sector 54 kDa subunit
4433_at 0.75371249 -0.03590633 0.08546167 0.121368 Hypothetical ORFNA YHR097C
5248_at 0.84731691 -0.10587567 0.01555067 0.12142633 EDC1 YGL222C
RNA-binding protein, activates mRNA decapping directly by binding
10921_at 0.79808438 -0.03724767 0.084179 0.12142667 EAF6 YJR082C
Esa1p-associated factor, subunit of the NuA4 acetyltransferase com
7464_at 0.65248765 -0.000796 0.12104667 0.12184267 a microtubule-associated protein from rat
similar to LC3,ATG8 YBL078C
10228_at 0.91581034 -0.25147467 -0.12938967 0.122085 AHP1
alkyl hydroperoxide reductase YLR109W
5945_at 0.61151614 -0.003651 0.11848167 0.12213267 NA NA YDR521W
9480_at 0.79349321 -0.02839233 0.093751 0.12214333 CEP3 YMR168C
Cbf3 kinetochore protein complex subunit b
3490_f_at 0.83328592 -0.076465 0.04578267 0.12224767 NA NA YCLWOMEGA2
3564_f_at 0.71426961 -0.00911733 0.11323267 0.12235 NA YPRWSIGMA2
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
8323_at 0.76918581 -0.03068567 0.09172767 0.12241333 subunit|coupled to mating factor receptor
G protein beta STE4 YOR212W
8602_at 0.72967752 -0.00282933 0.11974433 0.12257367 NA NA YOL050C
11098_at 0.68829249 -0.01622533 0.10682 0.12304533 YHC3 YJL059W
Homolog of human CLN3. vacuolar/lysosomal membrane protein.
3871_at 0.72988978 -0.032796 0.090569 0.123365 NA NA YJRWTAU3
7606_at 0.81413135 -0.002242 0.12125033 0.12349233 ORC4 YPR162C
origin recognition complex (ORC) 56 kDa subunit
8635_at 0.61409336 -0.00162567 0.12211033 0.123736 APM4 YOL062C
clathrin associated protein complex medium subunit
8427_at 0.81268482 -0.03147567 0.092339 0.12381467 NA NA YOR135C
10023_at 0.7071539 -0.02236167 0.10151067 0.12387233 CDA2
chitin deacetylase YLR308W
3360_at 0.82846542 -0.06876667 0.05524567 0.12401233 NA YELWDELTA1
Identified by expression profiling and mass spectrometry
7335_at 0.87258771 -0.03910633 0.08522933 0.12433567 Hypothetical ORF NA YBR022W
9082_at 0.75577564 -0.020026 0.10451067 0.12453667 POP1 YNL221C
Nuclear RNase P subunit|RNase MRP subunit
4565_at 0.79228819 -0.04363967 0.08107567 0.12471533 protein YHL043W
Non-essential ECM34 of unknown function
6129_f_at 0.71004847 -0.00063733 0.124149 0.12478633 HXT6
hexose transporter YDR343C
11137_at 0.64761674 -0.00847633 0.116466 0.12494233 GZF3 YJL110C
GATA zinc finger protein 3 homologous to Dal80 in structure and fu
6424_at 0.87424045 -0.03626633 0.08879133 0.12505767 PST1 YDR055W
the gene product has been detected among the proteins secreted b
11374_at 0.69997856 -0.02017567 0.105231 0.12540667 97 kDa proteinFUN12 YAL035W
3922_f_at 0.68864243 -0.01495867 0.11052967 0.12548833 NA YARCDELTA5
Identified by expression profiling and mass spectrometry /// TyA Ga
11068_at 0.79308248 -0.00759333 0.118003 0.12559633 Similar to SDH1 NA YJL045W
5314_at 0.78177996 -0.05236933 0.07369433 0.12606367 NA NA YFL021c-a
3404_f_at 0.69553075 -0.01472433 0.11140067 0.126125 NA NA YDRWDELTA10
3879_f_at 0.57015979 -0.002247 0.12464567 0.12689267 NA YJRWDELTA11
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
6609_at 0.83965908 -0.006465 0.12123733 0.12770233 UBP1
ubiquitin-specific protease YDL122W
9385_at 0.83641028 -0.05840833 0.069493 0.12790133 NA NA YMR245W
9168_at 0.67493053 -0.00992 0.118257 0.128177 PHA2
prephenate dehydratase YNL316C
6333_at 0.69114415 -0.011461 0.11677033 0.12823133 PEX7 YDR142C
beta-transducin-related (WD-40) protein family
8210_at 0.62837962 -0.00142 0.127069 0.128489 GNT1
N-acetylglucosaminyltransferase YOR320C
6156_at 0.72735763 -0.01300633 0.11552067 0.128527 U3 snoRNP proteinUTP4 YDR324C
4317_at 0.79391925 -0.046838 0.08200333 0.12884133 mannosidase like MNL1 YHR204W
6177_at 0.73530559 -0.01018033 0.118916 0.12909633 RSC3
Zinc cluster protein YDR303C
9918_at 0.83793506 -0.08612 0.043133 0.129253 RHC18 YLR383W
Protein involved in recombination repair, homologous to S. pombe r
7673_at 0.82309123 -0.002971 0.12631133 0.12928233 Hypothetical ORF NA YPR097W
4424_at 0.65012907 -0.01319967 0.11614733 0.129347 RPF1 the assembly of the large ribosomal su
Nucleolar protein involved in YHR088W
7677_at 0.80483454 -0.02108633 0.10852433 0.12961067 BRR1
spliceosomal snRNP component YPR057W
5104_at 0.70983721 -0.002635 0.12717367 0.12980867 SPC105
spindle pole component YGL093W
6416_at 0.66005236 -0.01723633 0.11266933 0.12990567 HEM12
uroporphyrinogen decarboxylase YDR047W
9137_at 0.69955553 -0.00238633 0.12770633 0.13009267 activator (putative)
transcriptional SIP3 YNL257C
9549_at 0.89463666 -0.194986 -0.06487733 0.13010867 NA YMR107W
Protein required for survival at high temperature during stationary p
4455_at 0.64844171 -0.01264633 0.117731 0.13037733 QNS1 YHR074W
glutamine-dependent NAD synthetase
9389_at 0.67943112 -0.015857 0.114544 0.130401 Hypothetical ORF NA YMR251W
7401_at 0.74962198 -0.018311 0.11210567 0.13041667 PIN4 YBL051C
Protein involved in G2/M phase progression and response to DNA d
7259_at 0.7930129 -0.02491467 0.105569 0.13048367 TFC1 YBR123C
95 kDa|transcription factor tau (TFIIIC) subunit
10918_at 0.70345535 -0.01106467 0.119564 0.13062867 ENT3 YJR125C
Protein containing an N-terminal epsin-like domain involved in clath
5386_at 0.72612263 -0.00972033 0.12096067 0.130681 SPB4
ATP dependent RNA helicase YFL002C
7303_at 0.77321754 -0.05431133 0.076389 0.13070033 RPG1 YBR079C
translation initiation factor eIF3 subunit
9033_at 0.72489599 -0.02157767 0.109132 0.13070967 NA YNL181W
Protein required for cell viability
7097_at 0.82035337 -0.03279367 0.09798367 0.13077733 PAF1 YBR279W
RNA polymerase II-associated protein, defines a large complex tha
4181_at 0.6910919 -0.01580633 0.11509967 0.130906 KTR7 YIL085C
Putative mannosyltransferase of the KRE2 family
10382_at 0.68626386 -0.022347 0.10865267 0.13099967 YBT1 YLL048C
Yeast bile transporter, similar to mammalian bile transporter
10316_at 0.49462452 -0.00192567 0.129212 0.13113767 Hypothetical ORF NA YLR020C
7634_at 0.75049195 -0.026629 0.10556467 0.13219367 PRE2
proteasome subunit YPR103W
5726_at 0.68212736 -0.00548367 0.127128 0.13261167 MMS21
Protein involved in DNA repair YEL019C
3226_f_at 0.51164611 -0.000452 0.13299733 0.13344933 NA YGRCDELTA30
Similar to probable membrane protein YDR340W and to yeast CYC
6146_at 0.79303484 -0.02777567 0.106057 0.13383267 IPK1 YDR315C
inositol 1,3,4,5,6-pentakisphosphate 2-kinase
5189_at 0.71900915 -0.02036433 0.11364833 0.13401267 CDC55 YGL190C
protein phosphatase 2A regulatory subunit B
10597_at 0.53547182 -0.003843 0.13024333 0.13408633 UFD4
ubiquitin ligase e3 YKL010C
8033_at 0.70086841 -0.00660233 0.12841433 0.13501667 FUM1
fumarase (fumarate hydralase) YPL262W
3792_s_at 0.76115248 -0.00425333 0.13104033 0.13529367 YRF1-7 YLL066C
Hypothetical ORF /// Y'-helicase protein 1
10131_at 0.76787304 -0.031152 0.10436567 0.13551767 PWP1 YLR196W
Protein with periodic trytophan residues that resembles members o
10066_s_at 0.66939284 -0.00632933 0.12949033 0.13581967 NA
Similar to C. elegans protein YLR262C-A
9525_at 0.81210222 -0.04363667 0.092771 0.13640767 NA deletion causes sensitivity to thermal s
Protein of unknown function, YMR126C
4345_at 0.70189797 -0.02678367 0.109943 0.13672667 PFS1 YHR185C
Prospore Formation at Selected spindle poles
7736_at 0.73043402 -0.028234 0.10852533 0.13675933 Protein. YPR028W
Ypt InteractingYOP1 Regulates vesicular traffic in stressed cells
8872_at 0.62522988 -0.01219767 0.12457267 0.13677033 FAP1 similarity
transcription factor homolog; YNL023C to Drosophila melanogaster
7725_at 0.78936497 -0.01742767 0.11949933 0.136927 RLF2 YPR018W
chromatin assembly factor-I (CAF-I) p90 subunit
8456_at 0.80450526 -0.03756867 0.09941233 0.136981 kinase
Protein serine RIO1 YOR119C
3854_f_at 0.80019383 -0.050942 0.08623933 0.13718133 by YKL225W
--- /// IdentifiedNA fungal homology and RT-PCR /// Identified by gen
4182_at 0.79474689 -0.07471633 0.06274833 0.13746467 SDS3 YIL084C
Functions are similar to those of SIN3 and RPD3
10698_at 0.68371449 -0.020816 0.116705 0.137521 SHE2 YKL130C
RNA-binding protein that binds specific mRNAs and interacts with S
4253_i_at 0.6740524 -0.00203733 0.135612 0.13764933 RPL40B YIL148W
ribosomal protein L40B|also encodes a ubiquitin protein
10858_s_at 0.81603697 -0.05911367 0.078828 0.13794167 THI12 of the thiamine precursor hydroxymeth
Protein involved in synthesis YJR156C
4809_at 0.55007419 -0.00023967 0.13770267 0.13794233 PMT6 YGR199W
dolichyl phosphate-D-mannose:protein O-D-mannosyltransferase
5338_at 0.62466231 -0.01201733 0.12595867 0.137976 Hypothetical ORF NA YFR039C
10531_at 0.7174165 -0.01432433 0.12366033 0.13798467 UTP30 involved in
Possible U3 snoRNP protein YKR060W maturation of pre-18S rRN
4241_at 0.77280958 -0.01968333 0.11846967 0.138153 3-oxoacyl CoAPOT1 thiolase YIL160C
6336_at 0.77713794 -0.02894833 0.10937533 0.13832367 TFIID subunit TAF12 YDR145W
3805_f_at 0.57931579 -0.00337533 0.13497833 0.13835367 NA NA YLRWDELTA6
7680_at 0.73845903 -0.02225767 0.11622967 0.13848733 chorismate mutase ARO7 YPR060C
3388_f_at 0.50825141 -0.00024967 0.13841133 0.138661 NA YDRWDELTA24
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
9902_at 0.83699801 -0.08996867 0.04882833 0.138797 copper transporterCTR3 YLR411W
9657_i_at 0.75632966 -0.031854 0.10715733 0.13901133 SPT5
transcription factor YML010W-A
5627_at 0.85389573 -0.020562 0.11855167 0.13911367 SHC1 of Chs3p
Sporulation-specific activatorYER096W(chitin synthase III), required
4374_at 0.78358429 -0.014882 0.12470733 0.13958933 dead box protein DBP8 YHR169W
7870_at 0.80126736 -0.077758 0.06199967 0.13975767 Hypothetical ORF NA YPL110C
6041_at 0.8174204 -0.07617967 0.06382567 0.14000533 GPI17 YDR434W
GPI transamidase component, human PIG-S homologue
6614_at 0.57388392 -0.006321 0.13415633 0.14047733 CYK3 YDL117W
SH3-domain protein located in the mother-bud neck and the cytokin
9128_at 0.63356394 -0.01248 0.12853033 0.14101033 NA NA YNL266W
10585_at 0.78727485 -0.07638967 0.06488133 0.141271 CDC16 YKL022C
metal-binding nucleic acid-binding protein, interacts with Cdc23p an
10776_at 0.709047 -0.01754633 0.12412067 0.141667 Hypothetical ORF NA YKL187C
4119_at 0.6871899 -0.01643233 0.12534867 0.141781 URM1
ubiquitin-like protein YIL008W
8475_at 0.81476015 -0.05215533 0.089783 0.14193833 Hypothetical ORF NA YOR093C
5557_at 0.71527005 -0.018246 0.123941 0.142187 regulator
transcriptional CHD1 YER164W
10628_at 0.60424318 -0.002824 0.13945167 0.14227567 NUP100
nuclear pore complex subunit YKL068W
8183_at 0.71157281 -0.02131167 0.121233 0.14254467 UBC11 YOR339C
Ubiquitin-conjugating enzyme most similar in sequence to Xenopus
4163_at 0.71687609 -0.02235433 0.12029467 0.142649 NA NA YIL054W
9957_at 0.59551472 -0.00362667 0.13914233 0.142769 PSY3 deletion results in sensitivity to antican
Protein of unknown function; YLR376C
6068_at 0.87650838 -0.15304267 -0.01022467 0.142818 NA NA YDR417C
10305_at 0.67507389 -0.00255567 0.14058167 0.14313733 RLP24
part of a pre-60S complex YLR009W
10219_at 0.70540266 -0.014456 0.12870833 0.14316433 ERG27
3-keto sterol reductase YLR100W
9065_at 0.79406374 -0.01132 0.13210433 0.14342433 Hypothetical ORF NA YNL194C
11188_at 0.74126965 -0.04549333 0.09819467 0.143688 NA YJL150W
Hypothetical ORF; has similarity to F-box proteins
5265_at 0.76930229 -0.01061033 0.133844 0.14445433 PDE1 YGL248W
3',5'-cyclic-nucleotide phosphodiesterase, low affinity
3837_f_at 0.45635588 -5.43E-05 0.14470067 0.14475497 NA YJRWDELTA13
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
7886_at 0.65349474 -0.01366167 0.13109333 0.144755 modulator
transcriptional UME1 YPL139C
7079_at 0.70827313 -0.01317833 0.131723 0.14490133 Hypothetical ORF NA YBR259W
3843_at 0.65085871 -0.011829 0.13361167 0.14544067 NA NA YJLWDELTA16
3417_f_at 0.72474554 -0.019358 0.12635967 0.14571767 NA YDRCSIGMA3
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
6562_at 0.61781117 -0.003026 0.14271367 0.14573967 THI3 YDL080C
alpha-ketoisocaproate decarboxylase
9932_at 0.7271595 -0.026469 0.11927833 0.14574733 AFG2 YLR397C
similar to the CDC48 gene product
9705_at 0.59366981 -0.008559 0.13815967 0.14671867 regulator
transcriptional GAL80 YML051W
8521_at 0.73164324 -0.02180267 0.12508267 0.14688533 RAT1
5'-3' exoribonuclease YOR048C
3715_f_at 0.62441696 -0.006146 0.14074833 0.14689433 NA YMRCDELTA8
Identified by expression profiling and mass spectrometry /// TyA Ga
10375_at 0.80272642 -0.06303767 0.08429167 0.14732933 Hypothetical ORF NA YLL055W
3260_f_at 0.68340103 -0.00426467 0.14312 0.14738467 NA YGLCSIGMA1
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
10609_at 0.88717182 -0.38770367 -0.240263 0.14744067 PHD1
transcription factor (putative) YKL043W
5755_at 0.69901034 -0.03186567 0.11608 0.14794567 NA NA YEL035C
8295_at 0.64721962 -0.008807 0.13956567 0.14837267 MOD5 YOR274W
transfer RNA isopentenyl transferase
8426_at 0.9028234 -0.053611 0.095382 0.148993 BAG7
GTPase activating protein (GAP) YOR134W
3390_at 0.75830423 -0.00397833 0.14504467 0.149023 NA YDRCSIGMA6
Similar to probable membrane protein YLR334C and ORF YOL106W
5562_at 0.82597852 -0.06790233 0.08138167 0.149284 binds to PHR1RPH1 YER169W
URS|transcriptional repressor
7200_at 0.60297419 -0.00026833 0.14916 0.14942833 RPB5 YBR154C
25 kDa RNA polymerase subunit (common to polymerases I, II and
11093_at 0.6935534 -0.02303167 0.12666633 0.149698 NA NA YJL064W
3513_f_at 0.52336538 -0.00036333 0.14954667 0.14991 NA YBLWDELTA10
Identified by expression profiling and mass spectrometry /// TyA Ga
10136_at 0.68498215 -0.003419 0.14671967 0.15013867 The authentic, NA YLR201C
non-tagged protein was localized to the mitochondria
3534_f_at 0.4487777 -0.00085667 0.14997167 0.15082833 NA YPRCDELTA24
TyA Gag protein; the main structural constituent of virus-like particle
10298_at 0.65693716 -0.007868 0.142983 0.150851 NA YLR046C
Putative membrane protein, transcription is activated by paralogous
8684_at 0.82674435 -0.013613 0.137385 0.150998 NA NA YOL150C
3415_i_at 0.81822545 -0.09091167 0.06032733 0.151239 NA NA YDRWDELTA12
10070_at 0.75443844 -0.04717567 0.10486867 0.15204433 NEJ1 YLR265C
Mating-type regulated component of NHEJ
7446_at 0.81782282 -0.13159533 0.02058833 0.15218367 NA NA YBL094C
3757_f_at 0.67004317 -0.017975 0.134279 0.152254 NA NA YLRWDELTA20
3595_at 0.701729 -0.041384 0.11099567 0.15237967 NA NA YPLWDELTA7
7427_at 0.79508053 -0.02114567 0.13140067 0.15254633 NA NA YBL070C
9092_at 0.57053508 -0.004605 0.14803933 0.15264433 Hypothetical ORFNA YNL211C
8020_s_at 0.70523139 -0.02138767 0.13135133 0.152739 FDH1 YPL276W
NAD(+)-dependent formate dehydrogenase, may protect cells from
4375_at 0.78394131 -0.01931133 0.13427 0.15358133 for a YHR170W
factor requiredNMD3late assembly step of the 60S subunit
5124_at 0.79275131 -0.05448067 0.09941867 0.15389933 NA NA YGL118C
10090_at 0.65162536 -0.02069933 0.13341233 0.15411167 ARV1 YLR242C
Protein involved in sterol distribution
6551_at 0.61592308 -0.01749533 0.137961 0.15545633 RAM1 YDL090C
farnesyltransferase beta subunit
11127_at 0.75527123 -0.01954133 0.13656767 0.156109 Hypothetical ORFNA YJL122W
10014_at 0.55015287 -0.00484533 0.151383 0.15622833 ECM38 YLR299W
gamma-glutamyltransferase homolog
4767_at 0.81626214 -0.00592233 0.15088333 0.15680567 CPD1 YGR247W
2',3'-cyclic nucleotide 3'-phosphodiesterase
3396_f_at 0.72158556 -0.05085733 0.106186 0.15704333 HAP1 YDRWDELTA28
Identified by expression profiling and mass spectrometry /// TyA Ga
9631_at 0.82285975 -0.05638533 0.10073633 0.15712167 Hypothetical ORFNA YMR009W
4558_at 0.80017611 -0.06383267 0.093568 0.15740067 MRP4 YHL004W
mitochondrial ribosomal protein|mitochondrial ribosome 37 S subun
10176_at 0.69959353 -0.00494367 0.152721 0.15766467 SPE4
spermine synthase YLR146C
7486_at 0.74931447 -0.001442 0.156353 0.157795 NA NA YBL100C
4749_at 0.72920889 -0.04847233 0.10941167 0.157884 Hypothetical ORFNA YGR273C
3518_f_at 0.48128785 -0.00208167 0.155824 0.15790567 NA YBRWDELTA13
Similar to probable membrane protein YDR340W and to yeast CYC
10088_at 0.66124673 -0.00667733 0.15137733 0.15805467 VPS34
phosphatidylinositol 3-kinaseYLR240W
10341_at 0.74487002 -0.03381 0.124331 0.158141 RTT109 YLL002W
Regulator of Ty1 Transposition; Regulation of mitochondrial networ
8971_at 0.75726306 -0.013636 0.14456133 0.15819733 INP52 YNL106C
inositol polyphosphate 5-phosphatase
9482_g_at 0.80077413 -0.04935767 0.10894733 0.158305 ALD3 /// ALD2YMR169C
aldehyde dehydrogenase /// aldeyhde dehydrogenase
10011_at 0.64396319 -0.01036467 0.14804533 0.15841 NA NA YLR296W
7621_at 0.66762603 -0.01372 0.14509433 0.15881433 Translocase ofTOM5 YPR133W-A
the Outer Mitochondrial membrane
11202_at 0.62079075 -0.00238933 0.15666567 0.159055 ATG27 YJL178C
Type II membrane protein that binds phosphatidylinositol 3-phospha
5120_at 0.69438214 -0.00699333 0.15252433 0.15951767 NAB2 protein
polyadenylated RNA binding YGL122C
3467_f_at 0.52911654 -0.009242 0.150434 0.159676 NA NA YCRWDELTA13
6442_at 0.66605201 -0.01619133 0.14358733 0.15977867 REG1
Glc7p regulatory subunit YDR028C
5020_at 0.56624771 -0.01116733 0.14873233 0.15989967 CUL3 YGR003W
Ubiquitin-protein ligase, member of the cullin family with similarity to
5326_at 0.7156548 -0.023381 0.136663 0.160044 Component of PTR3 YFR029W
the SPS plasma membrane amino acid sensor syste
8625_at 0.75874804 -0.043099 0.11733333 0.16043233 NA THP1 YOL072W
3606_f_at 0.37521893 -0.00039367 0.16011833 0.160512 NA YORWDELTA13
Similar to probable membrane protein YDR340W and to yeast CYC
11289_at 0.67325079 -0.014179 0.14651533 0.16069433 UIP3 YAR027W
Putative integral membrane protein of unknown function; interacts w
8204_at 0.84820203 -0.27474 -0.11355767 0.16118233 PDE2 YOR360C
high affinity cAMP phosphodiesterase
10017_at 0.51051039 -0.007195 0.15413267 0.16132767 NA NA YLR302C
4836_at 0.65950139 -0.02028167 0.14108433 0.161366 TIM13 YGR181W
mitochondrial protein import machinery subunit
11033_at 0.83139559 -0.118963 0.04305567 0.16201867 signal YJR010C-A
Subunit of the SPC1 peptidase complex (SPC), which cleaves the s
6928_at 0.71690946 -0.06226333 0.10009433 0.16235767 Hypothetical ORFNA YCL048W
10707_at 0.55079553 -0.00906467 0.15329667 0.16236133 SRP21 YKL122C
signal recognition particle component
7543_at 0.86500843 -0.17066333 -0.008222 0.16244133 QCR2 YPR191W
40 kDa ubiquinol cytochrome-c reductase core protein 2
7057_at 0.64932463 -0.02813433 0.13437467 0.162509 Hypothetical ORFNA YBR284W
7136_at 0.66559806 -0.01765233 0.14486767 0.16252 NA NA YBR226C
6755_i_at 0.74596663 -0.01303933 0.15026533 0.16330467 NA YCR018C-A
Similar to probable membrane protein YLR334C and ORF YOL106W
9154_at 0.49985773 -0.00679067 0.15653167 0.16332233 NA NA YNL285W
6083_at 0.7896548 -0.05841767 0.10490667 0.16332433 MUS81 YDR386W
Mms and UV Sensitive; Mus81p and Rad54p are found together in
7710_at 0.74444235 -0.023025 0.140583 0.163608 Hypothetical ORFNA YPR045C
4110_at 0.68466998 -0.03842067 0.12526233 0.163683 Hypothetical ORFNA YIL015C-A
7143_at 0.76371555 -0.01486667 0.14895433 0.163821 PBP2 YBR233W
RNA binding protein with similarity to mammalian heterogeneous nu
6181_r_at 0.78730674 -0.11182833 0.05218533 0.16401367 HNT2 YDR305C
Dinucleoside triphosphate hydrolase; has similarity to the tumor sup
7443_at 0.75929831 -0.07210967 0.09194533 0.164055 BRN1 YBL097W
BaRreN, a gene with sequence similarity to Drosophila barren and X
3699_f_at 0.49531624 -0.002756 0.161413 0.164169 NA YMLWDELTA3
Similar to probable membrane protein YDR340W and to yeast CYC
7179_at 0.8560587 -0.17489433 -0.010561 0.16433333 EHT1
alcohol acyl transferase YBR177C
9737_at 0.67366205 -0.035269 0.12940033 0.16466933 SEC65 YML105C
signal recognition particle subunit, homologue of mammalian SRP1
8989_at 0.8418832 -0.08997 0.07517033 0.16514033 FYV6 required for
Protein of unknown function, YNL133C survival upon exposure to
5587_at 0.54637222 -0.01060633 0.15478567 0.165392 SCC4 YER147C
a major role for the Scc2p/Scc4p complex appears to be to facilitate
3899_s_at 0.71949201 -0.015032 0.150459 0.165491 NA YJLWTY4-1
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
3445_f_at 0.63235312 -0.00540633 0.16036333 0.16576967 NA YDRCSIGMA1
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
9853_at 0.60343395 -0.01926 0.14652633 0.16578633 cis-trans isomerase (PPIase)
peptidyl-prolyl FPR4 YLR449W
8629_at 0.63571104 -0.01124133 0.154955 0.16619633 Homolog of SIR2 HST1 YOL068C
9447_at 0.70758715 -0.028895 0.137467 0.166362 MMT1 YMR177W
mitochondrial metal transporter (putative)
6141_at 0.57431892 -0.01323067 0.15319367 0.16642433 TFB1 YDR311W
transcription initiation factor IIb, 75 kDa subunit component
8859_at 0.72744224 -0.00564567 0.16096067 0.16660633 PRP2 YNR011C
RNA splicing factor RNA-dependent NTPase with DEAD-box motif
10943_at 0.75945355 -0.06224033 0.10442433 0.16666467 PTK2 YJR059W
Putative serine/threonine protein kinase that enhances spermine up
6023_at 0.4320815 -6.37E-05 0.16692167 0.16698537 STP1
zinc finger motif protein YDR463W
4456_at 0.6285742 -0.00997767 0.15718367 0.16716133 PPE1 YHR075C
Protein with carboxyl methyl esterase activity that may have a role i
9611_at 0.6699969 -0.01950167 0.14768 0.16718167 ARP9 YMR033W
actin related protein|chromatin remodeling Snf/Swi complex subunit
6288_at 0.6578564 -0.002639 0.16468833 0.16732733 Hypothetical ORFNA YDR186C
9538_at 0.65488305 -0.03148067 0.13591033 0.167391 SNZ1 YMR096W
highly conserved 35 kDa protein that shows increased expression a
5983_at 0.71597953 -0.01756133 0.149942 0.16750333 SDC1 YDR469W
compass (complex proteins associated with Set1p) component
4059_at 0.76166808 -0.04539067 0.122219 0.16760967 activator YIR023W
transcriptional DAL81 for allantoin and GABA catabolic genes, co
4932_at 0.71627057 -0.041398 0.126306 0.167704 TPC1 YGR096W
mitochondrial thiamine pyrophosphate transporter
7327_at 0.53491072 -0.00253533 0.165191 0.16772633 AKL1 YBR059C
Ark-family kinase-like protein. This protein is the third member (Afte
3582_f_at 0.4174667 -0.00162133 0.166148 0.16776933 NA YORCDELTA25
Identified by expression profiling and mass spectrometry /// TyA Ga
10618_at 0.71514836 -0.00707667 0.16074233 0.167819 RING-domain TUL1 YKL034W
E3 ubiquitin ligase
5367_at 0.54907866 -0.00327967 0.16461267 0.16789233 NA NA YFL018C
8261_at 0.78520975 -0.048225 0.11995367 0.16817867 Hypothetical ORFNA YOR285W
6421_at 0.7463164 -0.02189433 0.14689767 0.168792 DBF4 YDR052C
Cdc7p-Dbf4p kinase complex regulatory subunit
3317_f_at 0.48214392 -0.006004 0.16293633 0.16894033 NA NA YERCDELTA23
10592_at 0.64742951 -0.00282433 0.166169 0.16899333 PUT3 YKL015W
zinc finger transcription factor of the Zn(2)-Cys(6) binuclear cluster
7389_at 0.77680289 -0.08801133 0.08139833 0.16940967 POP8 YBL018C
Nuclear RNase P subunit|RNase MRP subunit
4463_at 0.80279809 -0.030196 0.13931167 0.16950767 LRP1 YHR081W
Like an rRNA Processing protein. Homolog of mammalian C1D, wh
8460_at 0.61826921 -0.015446 0.154109 0.169555 ATX2
manganese-trafficking protein YOR079C
3253_f_at 0.57660715 -0.01461 0.15495867 0.16956867 NA YGRWTY3-1
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
11197_at 0.59876894 -0.01477833 0.15496633 0.16974467 MNN11 YJL183W
mannosyltransferase complex component
9698_at 0.6036137 -0.00915067 0.16076833 0.169919 CMP2
calcineurin subunit A YML057W
9747_at 0.62686932 -0.00571733 0.16441967 0.170137 VPS9 YML097C
Required for Golgi to vacuole trafficking, shares similarity to mamm
8416_at 0.64394876 -0.01736267 0.15346233 0.170825 UBP2
ubiquitin-specific protease YOR124C
10275_at 0.63046014 -7.27E-05 0.17144867 0.17152137 SPC3
signal peptidase subunit YLR066W
3824_f_at 0.64990606 -0.00448867 0.16708333 0.171572 NA YKRCDELTA8
Identified by expression profiling and mass spectrometry /// TyA Ga
7575_at 0.73976809 -0.02784067 0.14397067 0.17181133 NA NA YPR177C
5182_at 0.71476997 -0.02407033 0.147899 0.17196933 NA NA YGL152C
6822_at 0.77791483 -0.075207 0.09686933 0.17207633 thioredoxin TRX3 YCR083W
4532_at 0.58092375 -0.00643133 0.16577267 0.172204 ARD1 YHR013C
N alpha-acetyltransferase major subunit|complexes with Nat1p
8317_at 0.52579106 -0.01100433 0.16125567 0.17226 CLP1 YOR250C
cleavage and polyadenylation factor CF I component involved in pre
8880_at 0.77667049 -0.08961467 0.08268433 0.172299 PBI2
proteinase inhibitor I2B (PBI2) YNL015W
11216_at 0.73737978 -0.01876 0.15453333 0.17329333 PEX2 YJL210W
CH3HC4 zinc-binding integral peroxisomal membrane protein
3290_f_at 0.72109751 -0.06336167 0.109937 0.17329867 NA NA YFRWDELTA7
10128_at 0.62449554 -0.025173 0.14812933 0.17330233 Hypothetical ORFNA YLR193C
7839_at 0.77998237 -0.042446 0.13114833 0.17359433 PNG1
peptide:N-glycanase YPL096W
8219_at 0.52181234 -0.00484067 0.16875467 0.17359533 SCD5 YOR329C
Multicopy suppressor of clathrin deficiency and of ts mutants of IPL
5163_at 0.67610152 -0.011974 0.16169667 0.17367067 NUP49
nuclear pore complex subunit YGL172W
9601_at 0.70549071 -0.05621 0.117721 0.173931 MRPL3 YMR024W
Mitochondrial ribosomal protein of the large subunit
6122_at 0.76293368 -0.011668 0.162273 0.173941 Hypothetical ORFNA YDR336W
10760_at 0.6285 -0.017182 0.15683033 0.17401233 Hypothetical ORFNA YKL206C
3528_f_at 0.43773066 -0.00013733 0.17443 0.17456733 NA YPRWDELTA20
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
7283_at 0.60258865 -0.00714367 0.16754467 0.17468833 ORC2 YBR060C
origin recognition complex subunit 2
5100_at 0.74895518 -0.04402533 0.130743 0.17476833 SRM1 YGL097W
pheromone response pathway suppressor
11066_at 0.55877059 -0.00947633 0.16534867 0.174825 RTT101 YJL047C
Cullin family member; subunit of a complex containing ubiquitin liga
3855_s_at 0.73403537 -0.09366667 0.08132967 0.17499633 NA YKL223W
Hypothetical ORF /// Hypothetical ORF
10258_at 0.86280387 -0.301159 -0.126111 0.175048 GIS3
Protein of unknown function YLR094C
3950_at 0.71965012 -0.00127767 0.173911 0.17518867 rho GTPase RHO5 YNL180C
10337_at 0.59189267 -0.00930067 0.16591433 0.175215 MMM1 YLL006W
mitochondrial outer membrane protein
3172_f_at 0.6502827 -0.02323167 0.15251367 0.17574533 NA NA YHRCDELTA11
3608_f_at 0.37211674 -0.00038167 0.17620367 0.17658533 NA YORWDELTA14
Similar to probable membrane protein YDR340W and to yeast CYC
7450_at 0.68055061 -0.03626333 0.14042567 0.176689 MAP2
methionine aminopeptidase 2 YBL091C
4120_at 0.73911424 -0.02603367 0.15110567 0.17713933 NAS2 YIL007C
Protein with similarity to the p27 subunit of mammalian proteasome
4914_at 0.6909032 -0.035626 0.141623 0.177249 PAC10 YGR078C
bovine NABC complex component homolog|non-native actin bindin
7813_at 0.71642857 -0.039684 0.137651 0.177335 NA
Hypothetical ORF YPL077C
10151_at 0.6280591 -0.02954033 0.14789667 0.177437 NA NA YLR171W
8940_at 0.74013747 -0.056246 0.121213 0.177459 NA YNL092W
Putative S-adenosylmethionine-dependent methyltransferase of the
7456_at 0.70100452 -0.05308933 0.12447267 0.177562 BOI1 YBL085W
Protein implicated in polar growth, functionally redundant with Boi2p
8573_at 0.54926837 -0.00579 0.172215 0.178005 SMC5 YOL034W
Structural maintenance of chromosomes (SMC) protein
5012_at 0.79147054 -0.09140967 0.08664467 0.17805433 the conservedYGL005C Golgi complex
Component of COG7 oligomeric
9119_at 0.60433607 -0.008316 0.16990633 0.17822233 transporter NA YNL275W
10534_at 0.58111431 -0.002396 0.17596633 0.17836233 NA
Hypothetical ORF YKR017C
10577_at 0.68451805 -0.01835233 0.16011967 0.178472 YPT52 vacuolar
rab5-like GTPase involved inYKR014Cprotein sorting and endocyto
6199_at 0.67963088 -0.01317533 0.16572467 0.1789 RNH202 YDR279W
Ribonuclease H2 subunit, required for RNase H2 activity
3925_f_at 0.45117756 -0.00139533 0.17791 0.17930533 NA NC_001133
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
6386_at 0.78465663 -0.13139033 0.04827233 0.17966267 ARP10
actin-related protein YDR106W
6632_at 0.60775705 -2.73E-05 0.17967767 0.17970497 cytosolic chaperonin Cct ring complex, related to Tcp
Subunit of the CCT4 YDL143W
11303_s_at 0.77900257 -0.04396333 0.13574967 0.179713 NA NA YAR060C
10991_at 0.54323554 -0.01373333 0.166324 0.18005733 NA
Hypothetical ORF YJR014W
9059_at 0.83235661 -0.018008 0.16207167 0.18007967 NA YNL200C
Hypothetical ORF; similarity to human TGR-CL10C, thyroidal recep
3391_f_at 0.45740549 -0.00198267 0.17814667 0.18012933 NA YDRWDELTA26
Identified by expression profiling and mass spectrometry /// TyA Ga
9402_at 0.73689177 -0.042687 0.13758033 0.18026733 ERG8
48 kDa phosphomevalonate kinase YMR220W
8839_at 0.77035635 -0.05775667 0.12253467 0.18029133 NA YNR036C
Putative mitochondrial ribosomal protein of the small subunit, has s
10596_at 0.68846577 -0.00951467 0.17085367 0.18036833 CCE1
cruciform cutting endonuclease YKL011C
6707_at 0.65652536 -0.01282367 0.16901767 0.18184133 TRM8 YDL201W
Subunit of a tRNA methyltransferase complex composed of Trm8p
4467_at 0.72007681 -0.01110967 0.170767 0.18187667 IPI1 essential for
Protein of unknown function, YHR085W viability, may be involved
8568_at 0.65499357 -0.04329167 0.13861533 0.181907 cytoplasmic protein of unknown function, contains te
Glutamine-richSGT2 YOR007C
5762_at 0.65080256 -0.01258533 0.16933267 0.181918 NA NA YEL028W
11042_at 0.72405169 -0.00797767 0.17423033 0.182208 RRN7 YJL025W
yeast Pol I core factor (CF) also composed of Rrn11p, Rrn6p and T
6574_at 0.64260549 -0.00823967 0.17397067 0.18221033 TRM3
tRNA (Gm18) ribose methylase YDL112W
4458_at 0.41358936 -0.00389467 0.179012 0.18290667 NA
Hypothetical ORF YHR078W
3355_s_at 0.81016686 -0.15953567 0.02340267 0.18293833 NA NA YERWDELTA18
5420_s_at 0.83863486 -0.20568433 -0.022609 0.18307533 NA
Hypothetical ORF YFL068W
6405_at 0.75167373 -0.05739567 0.12587667 0.18327233 PDC2 YDR081C
asparagine and serine-rich protein
9019_at 0.54028524 -0.00725333 0.17607467 0.183328 NA YNL149C
Protein required for cell viability
11155_at 0.50408632 -0.002308 0.18143567 0.18374367 YUR1
mannosyltransferase YJL139C
8944_at 0.66044959 -0.04015733 0.14383867 0.183996 TOP2
topoisomerase II YNL088W
7221_at 0.52879525 -0.010101 0.17396233 0.18406333 SHE3 YBR130C
Protein that acts as an adaptor between Myo4p and the She2p-mRN
5981_at 0.54887579 -0.01538267 0.16927167 0.18465433 NA NA YDR467C
5089_at 0.69472363 -0.03092333 0.153761 0.18468433 synthase
pseudouridine PUS2 YGL063W
8912_at 0.81776272 -0.07143433 0.11326967 0.184704 KTR5
mannosyltransferase (putative) YNL029C
9138_at 0.52781746 -0.01268567 0.17234333 0.185029 FOL1 YNL256W
dihydro-6-hydroxymethylpterin pyrophosphokinase|dihydroneopterin
6247_at 0.59631285 -0.016703 0.16868933 0.18539233 FMN1
riboflavin kinase YDR236C
7216_at 0.70190717 -0.05578633 0.129681 0.18546733 PTC4
type 2C protein phosphataseYBR125C
5980_at 0.64096789 -0.00821267 0.17741533 0.185628 with similarity YDR466W
Protein kinasePKH3 to mammalian phosphoinositide-depen
9005_at 0.6623943 -0.03448033 0.151204 0.18568433 GTPase RIA1 YNL163C
7904_at 0.49661218 -0.006465 0.17943633 0.18590133 NA green fluorescent protein (GFP)-fusion
Protein of unknown function; YPL166W
10280_at 0.7325376 -0.04795967 0.13809567 0.18605533 RGR1 YLR071C
RNA polymerase II holoenzyme/mediator subunit|interacts with Sin4
9340_at 0.61432062 -0.01222 0.17388667 0.18610667 NA NA YMR290W-A
8968_at 0.51451964 -0.00653433 0.179787 0.18632133 NA NA YNL109W
8540_at 0.60617559 -0.03126033 0.15523333 0.18649367 Hypothetical ORFNA YOR022C
4193_at 0.75290569 -0.05009433 0.13665033 0.18674467 RHO3
GTP-binding protein|ras homolog YIL118W
10710_at 0.64162477 -0.00711567 0.17981367 0.18692933 VPH2 YKL119C
25.2 kDa protein involved in assembly of vacuolar H(+) ATPase
6498_at 0.47993337 -0.00742467 0.179784 0.18720867 NA NA YDL009C
9025_at 0.52806685 -0.00105533 0.18625367 0.187309 NA NA YNL143C
10035_at 0.53845458 -0.00837833 0.17901433 0.18739267 YSH1 YLR277C
cleavage factor II (CF II) component|polyadenylation factor I (PF I)
4453_at 0.67195075 -0.033751 0.15370733 0.18745833 ERG7 cyclase
2,3-oxidosqualene-lanosterolYHR072W
5653_at 0.67230436 -0.038271 0.14947533 0.18774633 The authentic, NA YER080W
non-tagged protein was localized to the mitochondria
3883_f_at 0.54626615 -0.015061 0.172743 0.187804 HAP1 YJRWDELTA12
Identified by expression profiling and mass spectrometry /// TyA Ga
6217_at 0.57886106 -0.02007767 0.16824933 0.188327 BTT1 YDR252W
beta subunit of the nascent-polypeptide-associated complex (NAC)
6012_at 0.72095657 -0.00859567 0.18023467 0.18883033 TSA2 YDR453C
thioredoxin-peroxidase (TPx); reduces H2O2 and alkyl hydroperoxid
10639_at 0.59198986 -0.01421 0.17472733 0.18893733 NUP120 YKL057C
100 kDa protein (predicted molecular weight is 120 kDa) with two le
4364_at 0.75115681 -0.028754 0.16043067 0.18918467 NA YHR159W
Protein of unknown function that localizes to the cytoplasm, potentia
5148_at 0.76500586 -0.028953 0.16081067 0.18976367 HUL5
ubiquitin ligase (E3) YGL141W
6629_at 0.52658928 -0.00193267 0.187946 0.18987867 NA green fluorescent protein (GFP)-fusion
Protein of unknown function; YDL146W
3797_f_at 0.53499123 -0.00184367 0.18813 0.18997367 NA YLRCDELTA2
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
9505_at 0.23666436 -6.23E-05 0.18996167 0.19002397 IMP1
inner membrane protease YMR150C
9559_at 0.34980694 -0.00182867 0.188255 0.19008367 Hypothetical ORFNA YMR074C
6903_at 0.68248841 -0.01886933 0.171509 0.19037833 BIK1 YCL029C
Microtubule-associated protein required for microtubule function du
5167_at 0.7364568 -0.036525 0.15385667 0.19038167 HUR1 YGL168W
Protein required for hydroxyurea resistance; functions in DNA replic
7164_at 0.71786081 -0.063427 0.12695567 0.19038267 DUR1,2 YBR208C
urea amidolyase (contains urea carboxylase and allophanate hydro
11063_at 0.69030315 -0.04392567 0.14706 0.19098567 RNA helicase MTR4 YJL050W
7323_at 0.80031365 -0.006851 0.18431033 0.19116133 PRP6
RNA splicing factor YBR055C
4378_at 0.70345246 -0.05687367 0.134443 0.19131667 ARP1 YHR129C
actin-related protein of the dynactin complex
9107_at 0.70229894 -0.02964367 0.16181333 0.191457 ATG2
peripheral membrane proteinYNL242W
4430_at 0.75456279 -0.13050133 0.06149533 0.19199667 HXT1
hexose transporter YHR094C
4844_at 0.62912451 -0.04156067 0.15049167 0.19205233 THI4 YGR144W
biosynthetic pathway component producing the thiazole precursor o
9022_at 0.64436345 -0.03452933 0.15757633 0.19210567 Hypothetical ORFNA YNL146W
4514_at 0.50260703 -0.00721667 0.18508767 0.19230433 NA NA YHR039C-B
6347_at 0.6295263 -0.00302367 0.18940467 0.19242833 NA NA YDR112W
7767_at 0.73167344 -0.07406633 0.11862667 0.192693 PHO85
cyclin-dependent protein kinase YPL031C
6208_at 0.36318876 -2.63E-05 0.19268633 0.19271263 NA YDR288W
Protein required for cell viability
3859_i_at 0.64747416 -0.02198367 0.171093 0.19307667 NAM2 YJLCDELTA4
Identified by expression profiling and mass spectrometry /// TyA Ga
11142_at 0.67651329 -0.07055967 0.12265833 0.193218 NA SET4 YJL105W
6317_at 0.76874687 -0.04888533 0.14435767 0.193243 HSP42 YDR171W
Small cytosolic stress-induced chaperone that forms barrel-shaped
10686_at 0.65254872 -0.02202833 0.17155367 0.193582 Hypothetical ORFNA YKL098W
6570_at 0.67453756 -0.001312 0.192273 0.193585 BRE1 YDL074C
E3 ubiquitin ligase for Rad6p, required for the ubiquitination of histo
4254_at 0.68064414 -0.02125967 0.17285833 0.194118 SLN1 that regulates an osmosensing MAP k
histidine kinase osmosensor YIL147C
5019_at 0.5838845 -0.00465667 0.191023 0.19567967 SWC4 component
Protein of unknown function, YGR002C of the Swr1p complex that
3536_f_at 0.52814244 -0.010591 0.18527267 0.19586367 NA YPRWSIGMA3
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
6345_at 0.50432695 -0.01283433 0.18310967 0.195944 CPR1 YDR154C
cyclophilin|peptidyl-prolyl cis-trans isomerase (PPIase)
6043_at 0.77066857 -0.11330033 0.08374767 0.197048 PPZ2 YDR436W
Serine/threonine protein phosphatase Z, isoform of Ppz1p; involved
9102_at 0.64718251 -0.02449233 0.17272967 0.197222 NA YNL247W
Protein required for cell viability
11148_at 0.56245296 -0.01958533 0.17781133 0.19739667 Sec14p homolog SFH5 YJL145W
4942_at 0.70943229 -0.01931433 0.17811967 0.197434 ADE6 YGR061C
5'-phosphoribosylformyl glycinamidine synthetase
9106_at 0.52654199 -0.01896233 0.17880633 0.19776867 SLA2
transmembrane protein YNL243W
5560_at 0.44039653 -0.00445133 0.193481 0.19793233 serine YER167W
Protein rich in BCK2 and threonine residues involved in protein kina
6189_at 0.7309429 -0.088425 0.10962367 0.19804867 NA NA YDR269C
5396_at 0.52996283 -0.01160633 0.18688433 0.19849067 RPL22B (rp4) (YL31)
ribosomal protein L22B (L1c)YFL034C-A
3669_f_at 0.38726889 -0.00053133 0.198058 0.19858933 NA NA YNRCDELTA7
10105_at 0.6534266 -0.011976 0.18675267 0.19872867 CRR1 YLR213C
Protein with similarity to Crh1p, which is a putative glycosidase of th
4796_at 0.4174885 -0.00572033 0.19325067 0.198971 BNS1 YGR230W
Protein with some similarity to Spo12p; overexpression bypasses n
9769_g_at 0.67234809 -0.03526233 0.16377567 0.199038 Hypothetical ORFNAB6 YML117W
10411_f_at 0.78571949 -0.11940233 0.08011633 0.19951867 NA YLL065W
Identified by fungal homology and RT-PCR /// Identified by gene-tra
9927_at 0.57623955 -0.00523967 0.194624 0.19986367 Hypothetical ORFNA YLR392C
7384_at 0.63265948 -0.00272333 0.19715433 0.19987767 MCM2 at ARS's
Member of complex that actsYBL023C to initiate replication
7722_at 0.73162433 -0.104954 0.094938 0.199892 Hypothetical ORFNA YPR015C
6648_at 0.58565977 -0.022143 0.17786933 0.20001233 NA NA YDL172C
3778_f_at 0.63668856 -0.044543 0.15559333 0.20013633 HAP1 YLRWDELTA10
Identified by expression profiling and mass spectrometry /// TyA Ga
6102_at 0.56473926 -0.02439467 0.17577667 0.20017133 BCP1 YDR361C
Essential protein involved in nuclear export of Mss4p, which is a lipi
8401_at 0.66086554 -0.032663 0.16753367 0.20019667 Hypothetical ORFNA YOR154W
5379_at 0.58335405 -0.00202833 0.19849633 0.20052467 CDC4
ubiquitin ligase subunit YFL009W
11335_at 0.55710374 -0.02597833 0.17467067 0.200649 FUN21 YAL031C
Cytoplasmic protein of unknown function, potential Cdc28p substrat
10202_at 0.6884634 -0.05488133 0.14613633 0.20101767 Hypothetical ORFNA YLR128W
6351_at 0.69278099 -0.07364567 0.12742633 0.201072 MRPL1 YDR116C
Mitochondrial ribosomal protein of the large subunit
7830_at 0.55647483 -0.02526167 0.17585433 0.201116 glutaredoxin GRX5 YPL059W
8001_at 0.72987955 -0.09299933 0.108523 0.20152233 GYP5
GTPase-activating protein YPL249C
7315_at 0.52166934 -0.00607867 0.195459 0.20153767 The authentic, NA YBR047W
non-tagged protein was localized to the mitochondria
5024_at 0.5796173 -0.00630367 0.19574067 0.20204433 OCH1
alpha-1,6-mannosyltransferase YGL038C
8146_at 0.50788058 -0.00186467 0.20025467 0.20211933 NA NA YOR392W
7120_at 0.65305058 -0.01223 0.190018 0.202248 NA required for
Protein of unknown function, YBR255W normal growth rate at 15 d
10586_at 0.70000113 -0.04296767 0.159335 0.20230267 MAK11 YKL021C
essential for cell growth and replication of M dsRNA virus; contains
5743_at 0.63641887 -0.01575533 0.18656367 0.202319 GIM4 YEL003W
bovine prefoldin subunit 2 homolog (putative)
7402_at 0.60517898 -0.02180167 0.18057967 0.20238133 SEC17 YBL050W
Peripheral membrane protein required for vesicular transport betwe
7744_at 0.48952863 -0.00087067 0.20190333 0.202774 Hypothetical ORFNA YPL009C
6684_at 0.78959468 -0.066617 0.13656967 0.20318667 ATPase inhibitorINH1 YDL181W
5158_at 0.4957019 -0.00315367 0.20041067 0.20356433 CEG1 YGL130W
mRNA capping enzyme alpha subunit|mRNA guanylyltransferase
6389_at 0.75935683 -0.02565633 0.178249 0.20390533 Hypothetical ORFNA YDR109C
4423_at 0.83473675 -0.02166567 0.18279367 0.20445933 Hypothetical ORFNA YHR087W
8934_at 0.65454905 -0.03826767 0.16672133 0.204989 MSG5
protein tyrosine phosphataseYNL053W
7704_at 0.66030867 -0.00106167 0.20394967 0.20501133 obserwed null YPR040W was Sporulation DeFicienc
SDF1 the first TIP41 phenotype
9462_at 0.46255389 -0.00303767 0.20242833 0.205466 YIM1 YMR152W
protease|similar to E. coli leader peptidase
3848_f_at 0.46491255 -0.00419567 0.201711 0.20590667 NA YJRWDELTA18
Identified by expression profiling and mass spectrometry /// Similar
8457_at 0.47718696 -0.01066867 0.195529 0.20619767 SKI7
GTPase (putative) YOR076C
4727_s_at 0.62536838 -0.03127233 0.17518167 0.206454 ERV1
sulfhydryl oxidase YGR029W
6052_at 0.4949089 -0.014036 0.192489 0.206525 DIT2 YDR402C
catalyzes oxidation of N-formyl tyrosine to N,N-bisformyl dityrosine
6715_at 0.6074983 -0.00239567 0.20442833 0.206824 NA
guanine deaminase YDL238C
10733_at 0.59054497 -0.013216 0.193989 0.207205 TGL1 YKL140W
cholesterol esterase|triglyceride lipase
9471_at 0.59403847 -0.02616067 0.18108133 0.207242 ATG16 Atg12p-Atg5p conjugate during forma
Protein that interacts with theYMR159C
3532_f_at 0.3414189 -0.00082833 0.20653133 0.20735967 NA YPRCDELTA23
TyA Gag protein; the main structural constituent of virus-like particle
7964_at 0.68182223 -0.00224967 0.205141 0.20739067 OXR1 YPL196W
Protein of unknown function required for normal levels of resistance
3433_i_at 0.7175382 -0.09448367 0.11291767 0.20740133 NA NA YDRCDELTA6A
11233_at 0.50131971 -0.008268 0.199915 0.208183 Hypothetical ORFNA YJL193W
5402_at 0.69224812 -0.033578 0.174976 0.208554 ABC ATPase CAF16 YFL028C
8638_at 0.63834934 -0.03133 0.17757467 0.20890467 cysteine YOL105C
contains novelWSC3 motif|integral membrane protein (putative)|s
8035_at 0.68075542 -0.02761933 0.18136067 0.20898 Hypothetical ORFNA YPL260W
3701_f_at 0.38110927 -0.00582833 0.20334233 0.20917067 NA YMLWDELTA4
Similar to probable membrane protein YDR340W and to yeast CYC
10338_at 0.55169199 -0.01834467 0.191307 0.20965167 SPO75 YLL005C
Meiosis-specific protein of unknown function, required for spore wal
9529_at 0.40863402 -0.00427767 0.205809 0.21008667 Hypothetical ORFNA YMR130W
4228_at 0.61377599 -0.016631 0.19345867 0.21008967 M
TFIIH regulator ET18 YIL128W
4444_at 0.48726142 -0.00015633 0.210756 0.21091233 TRR2
thioredoxin reductase YHR106W
10254_at 0.6750135 -0.070526 0.140538 0.211064 coli DnaJ, closely related to Ydj1p
Homolog of E. XDJ1 YLR090W
6456_at 0.61804685 -0.032448 0.17870533 0.21115333 RSM10 YDR041W
mitochondrial ribosome small subunit component
3711_f_at 0.4464545 -0.00124733 0.21000933 0.21125667 NA YMRCDELTA7
Identified by expression profiling and mass spectrometry /// TyA Ga
4490_at 0.68534258 -0.06002733 0.15133733 0.21136467 RPP1 YHR062C
Nuclear RNase P subunit|RNase MRP subunit
10724_at 0.54893219 -0.022073 0.189439 0.211512 DBR1
RNA lariat debranching enzyme YKL149C
3829_f_at 0.30209329 -0.000977 0.210815 0.211792 NA YKRCDELTA12
Identified by expression profiling and mass spectrometry /// TyA Ga
7156_at 0.66373382 -0.05685633 0.15510533 0.21196167 BEM1 YBR200W
Protein containing SH3-domains, involved in establishing cell polari
10510_at 0.53160077 -0.00263 0.20937533 0.21200533 KAE1 YKR038C
Putative O-sialo-glycoprotein-endopeptidase A1
10648_at 0.75797998 -0.01793933 0.194081 0.21202033 Sec14p homolog NA YKL091C
4583_at 0.5724225 -0.02759933 0.18493867 0.212538 SNF6 YHL025W
chromatin remodeling Snf/Swi complex subunit
8318_at 0.65216931 -0.03381667 0.17901133 0.212828 NA YOR251C
catalyzes transfer of the sulfane atom of thiosulfate to cyanide to fo
8515_at 0.60381782 -0.020261 0.19322267 0.21348367 CUE5 YOR042W
Protein containing a CUE domain that binds ubiquitin, which may fa
5940_at 0.70587875 -0.06470967 0.14933433 0.214044 protein YDR516C
Non-essential EMI2 of unknown function required for transcription
10978_at 0.5501311 -0.03072867 0.18333233 0.214061 UTR1 YJR049C
NAD kinase, active as a hexamer; enhances the activity of ferric red
6610_at 0.4620045 -0.00184333 0.21438367 0.216227 Hypothetical ORFNA YDL121C
3427_at 0.75610932 -0.088434 0.128062 0.216496 NA NA YDRCDELTA2
8196_at 0.54171505 -0.016641 0.20049967 0.21714067 Hypothetical ORFNA YOR352W
5345_at 0.62629117 -0.004201 0.21296767 0.21716867 YPI1
PP1 phosphatase inhibitor YFR003C
4161_at 0.46506251 -0.00111167 0.216161 0.21727267 Hypothetical ORFNA YIL056W
7331_at 0.61119981 -0.00963767 0.20776833 0.217406 GAL7 transferase
galactose-1-phosphate uridylYBR018C
10734_at 0.5013813 -0.003461 0.21402133 0.21748233 of RNA YKL139W
kinase subunitCTK1 polymerase II carboxy-terminal domain kinas
7918_at 0.3128648 -0.00334433 0.21414933 0.21749367 RRD2 YPL152W
Resistant to Rapamycin Deletion 2
6654_at 0.64698624 -0.02252333 0.19501567 0.217539 FAP7 YDL166C
Essential nuclear protein, involved in the oxidative stress response
11237_at 0.38707183 -0.001163 0.216662 0.217825 RPL39 YJL189W
ribosomal protein L39 (L46) (YL40)
6033_at 0.49320803 -0.018096 0.19977567 0.21787167 RPN9 YDR427W
proteasome regulatory particle subunit
6802_at 0.64632358 -0.02547233 0.19318333 0.21865567 NA NA YCL022C
4923_at 0.61601838 -0.047111 0.171595 0.218706 PDC6
pyruvate decarboxylase isozymeYGR087C
9167_at 0.54467727 -0.003205 0.215536 0.218741 PFS2 YNL317W
polyadenylation factor I (PF I)
9535_at 0.51735044 -0.00926467 0.20959233 0.218857 UTP15
U3 snoRNP protein YMR093W
3342_f_at 0.64380375 -0.02970233 0.18929067 0.218993 NA YERCSIGMA3
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
7388_at 0.51268736 -0.00403967 0.215239 0.21927867 AP endonuclease APN2 YBL019W
6601_at 0.76882531 -0.15754833 0.06177333 0.21932167 Hypothetical ORFNA YDL129W
3530_f_at 0.32903877 -0.00150167 0.21788133 0.219383 NA YPRWDELTA21
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
6455_s_at 0.45840049 -0.01056867 0.20905833 0.219627 ENA1 YDR039C
P-type ATPase Na+ pump|plasma membrane ATPase
9372_at 0.43856302 -0.004132 0.215611 0.219743 NA YMR233W
Interacts with Top1p in 2-hybrid assay.
7659_at 0.65277344 -0.04064133 0.17971367 0.220355 MDM36 YPR083W
Mitochondrial Distribution and Morphology
7671_at 0.73052764 -0.07227133 0.14874033 0.22101167 Ypt3
Suppressor of SYT1 YPR095C
6058_at 0.61009726 -0.02356233 0.19774633 0.22130867 TRS120 YDR407C
targeting complex (TRAPP) component involved in ER to Golgi mem
5952_at 0.80605999 -0.046309 0.17499967 0.22130867 HLR1 of cell wall
Protein involved in regulationYDR528W composition and integrity a
11299_at 0.57584618 -0.03369267 0.18929033 0.222983 SWH1 YAR044W
Similar to mammalian oxysterol-binding protein
6434_at 0.71404959 -0.07287567 0.150441 0.22331667 Hypothetical ORFNA YDR065W
7846_at 0.62571267 -0.05736933 0.166301 0.22367033 RLM1 YPL089C
serum response factor-like protein that may function downstream of
3802_f_at 0.45563754 -0.00160533 0.22210933 0.22371467 NA YLRWSIGMA2
Identified by expression profiling and mass spectrometry /// TyB Ga
4755_at 0.32552204 -0.00115067 0.22271333 0.223864 Hypothetical ORFNA YGR235C
8557_at 0.74363258 -0.069316 0.15527367 0.22458967 RPB11
RNA polymerase II core subunitYOL005C
8721_at 0.4411457 -0.010894 0.21370767 0.22460167 NA NA YOL160W
9334_at 0.67445525 -0.02555567 0.19946667 0.22502233 RNase NGL2 YMR285C
9518_at 0.50231892 -0.00764333 0.21741233 0.22505567 ASI1 YMR119W-A
Putative integral membrane E3 ubiquitin ligase; genetic interactions
8451_at 0.69935483 -0.01090833 0.21468167 0.22559 Hypothetical ORFNA YOR114W
6116_at 0.51810857 -0.02642667 0.19927933 0.225706 Hypothetical ORFNA YDR374C
6548_at 0.7898293 -0.159684 0.066152 0.225836 NA NA YDL050C
4533_at 0.62148886 -0.03756967 0.18844233 0.226012 SPO13 YHR014W
Meiosis-specific protein of unknown function, involved in maintainin
6690_at 0.698378 -0.11654467 0.109767 0.22631167 Hypothetical ORFNA YDL218W
3233_f_at 0.27718004 -0.001894 0.22453 0.226424 NA YGRWDELTA32
Identified by expression profiling and mass spectrometry /// TyA Ga
8777_at 0.5442829 -0.02078867 0.20589733 0.226686 NA YNR065C
Sortilin homolog, interacts with proteins of the endocytic machinery
4775_at 0.56913834 -0.015194 0.21152767 0.22672167 Hypothetical ORFNA YGR210C
8888_at 0.74458626 -0.07639167 0.150395 0.22678667 SIS1
HSP40 family chaperone YNL007C
5042_at 0.59334203 -0.02125533 0.20567967 0.226935 MDM39 YGL020C
Protein involved in determination of mitochondrial structure
6791_s_at 0.5888925 -0.037162 0.18981767 0.22697967 HMRA1
homeobox transcription factor YCR097W
6681_at 0.72985328 -0.07627067 0.15192967 0.22820033 Hypothetical ORFNA YDL183C
3559_f_at 0.39021267 -0.002628 0.22575 0.228378 NA YPRWDELTA12
Identified by expression profiling and mass spectrometry /// TyA Ga
3731_s_at 0.63146494 -0.07353033 0.15490167 0.228432 YRF1-7
Y'-helicase protein 1 YLR462W
10038_i_at 0.58069869 -0.01007367 0.218537 0.22861067 NA NA YLR280C
10133_at 0.73949045 -0.109884 0.11876667 0.22865067 NA NA YLR198C
3799_f_at 0.46306505 -0.000185 0.22849267 0.22867767 NA YLRCDELTA3
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
3457_f_at 0.37865041 -0.00373367 0.22500267 0.22873633 NA NA YCRCDELTA7
10480_at 0.65979027 -0.060474 0.16841 0.228884 BAS1
transcription factor YKR099W
6563_at 0.55372732 -0.00364 0.22525933 0.22889933 MRK1
MDS1 related protein kinase YDL079C
11226_at 0.51580476 -0.01504433 0.21419167 0.229236 Hypothetical ORF NA YJL200C
11327_at 0.45771206 -0.00774967 0.221706 0.22945567 RPA YAR007C
heterotrimeric RFA1(RF-A) single-stranded DNA binding protein 69
9693_at 0.62811322 -0.030258 0.199261 0.229519 5'-3' DNA helicasePIF1 YML061C
11088_at 0.537571 -0.00937733 0.22026967 0.229647 UTP18 YJL069C
U3 snoRNP protein|U3 snoRNA associated protein
9018_at 0.66897414 -0.05696667 0.17268967 0.22965633 NA NA YNL150W
8520_at 0.53120818 -0.02613167 0.20422667 0.23035833 MTH1 homolog STD1 YOR047C
3644_f_at 0.62256755 -0.06419467 0.16671833 0.230913 NA NA YOLCDELTA7
6519_at 0.5781642 -0.02698367 0.204747 0.23173067 NA YDL033C
Mitochondrial protein with a potential role in protein synthesis; the b
10487_at 0.34291558 -0.00576833 0.226215 0.23198333 TFA2 YKR062W
transcription factor TFIIE subunit
10903_at 0.62435993 -0.00324433 0.22922433 0.23246867 YMR1 YJR110W
Myotubularin-like protein; active site identical to human myotubulari
9412_at 0.54492342 -0.023602 0.20893833 0.23254033 U3 snoRNP protein RRP5 YMR229C
3651_f_at 0.44957361 -0.000896 0.23239633 0.23329233 NA YNLCDELTA1
Identified by expression profiling and mass spectrometry /// TyA Ga
7282_at 0.29959226 -0.002492 0.23107567 0.23356767 FES1
Hsp70 nucleotide exchange factorYBR101C
4545_at 0.47444599 -0.00809667 0.22554567 0.23364233 Hypothetical ORF NA YHL017W
3133_f_at 0.63063565 -0.01176033 0.221892 0.23365233 NA YILCDELTA1
Identified by expression profiling and mass spectrometry /// Similar
4783_at 0.49206218 -0.01070267 0.22360567 0.23430833 CCH1
calcium channel (putative) YGR217W
8418_at 0.57016317 -0.01336467 0.22131567 0.23468033 IAH1 YOR126C
isoamyl acetate-hydrolyzing esterase
10774_at 0.43380143 -0.01551833 0.21919433 0.23471267 Component of HYM1 YKL189W
the RAM signaling network that is involved in regulat
10861_s_at 0.61958021 -0.04101433 0.193722 0.23473633 SOR1 YJR159W
sorbitol dehydrogenase, sorbitol-induced
3367_f_at 0.5372628 -0.012714 0.22228167 0.23499567 NA YELWDELTA6
Identified by expression profiling and mass spectrometry /// TyA Ga
6495_at 0.63752961 -0.03938367 0.19601133 0.235395 NA unknown
Plasma membrane protein ofYDL012C function
7183_at 0.78327504 -0.22139167 0.01419867 0.23559033 SMP1 YBR182C
Transcription factor of the MADS (Mcm1p, Agamous, Deficiens, SR
7611_at 0.7054752 -0.10329333 0.13236067 0.235654 Hypothetical ORF NA YPR125W
10799_at 0.70687245 -0.00639067 0.229272 0.23566267 DOA1 YKL213C
regulatory component of the proteasome pathway
7110_at 0.65147614 -0.057792 0.178276 0.236068 ISW1
ATPase component of a fourYBR245Csubunit chromatin remodeling comple
8878_s_at 0.46690363 -0.00172467 0.23448667 0.23621133 NA NA YNL017C
10928_at 0.6525848 -0.06013967 0.17654067 0.23668033 BIR1 regulation
Protein involved in cell cycle YJR089W and chromosome segregati
4520_at 0.46227463 -0.00753633 0.22917333 0.23670967 Hypothetical ORF NA YHR003C
4388_at 0.5469522 -0.02313433 0.21377133 0.23690567 SPS100 YHR139C
sporulation-specific cell wall maturation protein
5081_at 0.64703071 -0.047642 0.189569 0.237211 NA NA YGL071W
7377_at 0.58453478 -0.02316967 0.21412633 0.237296 Hypothetical ORF NA YBL028C
10719_at 0.44727904 -0.00643833 0.23101367 0.237452 SRP102 YKL154W
Signal recognition particle receptor beta subunit
6203_at 0.55616807 -0.000581 0.23689633 0.23747733 GCN2 YDR283C
eukaryotic initiation factor 2 alpha (eIF2-alpha) kinase
5714_at 0.57504186 -0.02232233 0.21528233 0.23760467 HEM14
protoporphyrinogen oxidase YER014W
8223_at 0.55955035 -0.01430667 0.22357433 0.237881 NA NA YOR333C
7090_at 0.65653183 -0.07538467 0.16257233 0.237957 HSM3 involved in
Protein of unknown function, YBR272C DNA mismatch repair durin
5502_at 0.74623559 -0.09760833 0.14063067 0.238239 NA NA YER145c-a
4180_at 0.64237428 -0.05157967 0.18727733 0.238857 NA NA YIL086C
7281_at 0.47769939 -0.00420133 0.23497867 0.23918 endonuclease MMS4 YBR100W
4564_at 0.68614064 -0.08216467 0.15703867 0.23920333 NA YHL044W
Putative integral membrane protein, member of DUP240 gene fami
7745_at 0.59498142 -0.01898567 0.22067167 0.23965733 CHL1 protein
deah box protein|kinetochoreYPL008W
10173_at 0.64052345 -0.022695 0.21710167 0.23979667 Hypothetical ORF NA YLR143W
7909_at 0.52651335 -0.001569 0.23832333 0.23989233 BEM4 YPL161C
Involved in polarity establishment and bud emergence; interacts wit
4072_at 0.7045977 -0.04633233 0.19361767 0.23995 Hypothetical ORF NA YIR036C
4511_at 0.81540414 -0.280368 -0.040388 0.23998 PUT2 YHR037W
delta-1-pyrroline-5-carboxylate dehydrogenase
5524_at 0.6791278 -0.02740267 0.21268933 0.240092 E
DNA helicase I CM32 YER176W
5023_at 0.74003684 -0.00505367 0.235065 0.24011867 PRP18 YGR006W
RNA splicing factor|U5 snRNP protein
10532_at 0.73942338 -0.07573533 0.16447167 0.240207 KTR2 YKR061W
mannosyltransferase (putative)|type 2 membrane protein
9116_at 0.27429267 -0.003625 0.236897 0.240522 exosome, which is an essential complex present in b
Subunit of the CSL4 YNL232W
6666_at 0.59217265 -0.047836 0.19272933 0.24056533 ASF2 YDL197C
anti-silencing protein that causes depression of silent loci when ove
6914_at 0.48218253 -0.01168033 0.22890967 0.24059 contains RNA GBP2 YCL011C
recognition motifs
7939_at 0.35500002 -0.00247033 0.23843133 0.24090167 Hypothetical ORF NA YPL176C
7664_at 0.50094172 -0.01695733 0.22401033 0.24096767 SRP54 YPR088C
Signal recognition particle subunit (homolog of mammalian SRP54)
6886_at 0.5791681 -0.02817467 0.21290633 0.241081 RVS161 YCR009C
Protein required for viability after N, C, or S starvation. The BAR ad
10803_at 0.64666364 -0.08086033 0.16026 0.24112033 STE6
ABC transporter|glycoproteinYKL209C
11266_f_at 0.75536094 -0.20780933 0.03339367 0.241203 by YAL069W
--- /// IdentifiedNA fungal homology and RT-PCR /// Identified by gen
7138_at 0.42547765 -0.00576 0.23568967 0.24144967 SLX1 YBR228W
Subunit of a complex, with Slx4p, that hydrolyzes 5' branches from
9318_at 0.60395611 -0.01105267 0.23042833 0.241481 Hypothetical ORF NA YMR310C
5027_at 0.6607028 -0.01029833 0.23175333 0.24205167 MIG1 resembles
C2H2 zinc finger protein that YGL035C the mammalian Egr and W
3356_f_at 0.80111799 -0.239046 0.00301133 0.24205733 by YDR543C
--- /// IdentifiedNA fungal homology and RT-PCR /// Identified by gen
6860_at 0.39921904 -0.00924967 0.23286367 0.24211333 Hypothetical ORF NA YCR026C
5106_at 0.37692727 -0.00917567 0.23309433 0.24227 NBP35
35 kDa nucleotide binding proteinYGL091C
9461_at 0.62109933 -0.05011867 0.192187 0.24230567 SGS1 YMR190C
Nucleolar DNA helicase of the RecQ family, involved in maintenanc
7098_at 0.613384 -0.00867467 0.233844 0.24251867 Hypothetical ORF NA YBR280C
3635_f_at 0.39317677 -0.00384967 0.23881833 0.242668 NA YOLWDELTA4
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
6207_at 0.5429755 -0.03621467 0.206457 0.24267167 NA
inositol monophosphatase YDR287W
5992_at 0.50474342 -0.028286 0.214747 0.243033 RNase MRP subunit SNM1 YDR478W
5237_at 0.50479945 -0.004837 0.23861167 0.24344867 Putative tRNA TAN1 YGL232W
acetyltransferase, RNA-binding protein required for t
4439_at 0.76008568 -0.137374 0.10652733 0.24390133 or big
bad in glucoseBIG1 cells YHR101C
11324_at 0.44739196 -0.003895 0.240084 0.243979 NUP60
nuclear pore complex subunit YAR002W
4765_at 0.67329638 -0.03415 0.21018467 0.24433467 SDA1
Severe Depolymerization of Actin YGR245C
7103_at 0.54840646 -0.03582167 0.20852233 0.244344 Hypothetical ORF NA YBR238C
8870_at 0.58718373 -0.01157633 0.23292833 0.24450467 SSN8 the Ssn3p
C-type cyclin|associates withYNL025C cyclin-dependent kinase
7836_at 0.36547976 -0.00209433 0.242802 0.24489633 The authentic, NA YPL099C
non-tagged protein was localized to the mitochondria
3567_r_at 0.72870619 -0.163579 0.081394 0.244973 NA NA YPRCDELTA15
9619_at 0.82015053 -0.06886067 0.177147 0.24600767 Hypothetical ORF NA YMR041C
8397_at 0.73169631 -0.07634767 0.169749 0.24609667 MRPL23 YOR150W
Mitochondrial ribosomal protein of the large subunit
3492_f_at 0.50850673 -0.015533 0.23092233 0.24645533 NA YCLCDELTA1
TyA Gag protein; the main structural constituent of virus-like particle
9992_at 0.48650316 -0.00526967 0.241296 0.24656567 CWC24
Essential protein, componentYLR323Cof a complex containing Cef1p; has s
10307_at 0.39294662 -0.00474033 0.24201467 0.246755 LOT6 gene expression increases in cultures
Protein of unknown function; YLR011W
8581_at 0.62618311 -0.04331767 0.20417433 0.247492 MIM1 YOL026C
Protein of unknown function proposed to be involved in mitochondri
7099_at 0.52281799 -0.02589333 0.22180233 0.24769567 Hypothetical ORF NA YBR281C
8608_at 0.52093811 -0.01199967 0.23581867 0.24781833 PEX15 YOL044W
44 kDa phosphorylated integral peroxisomal membrane protein
6834_at 0.42245327 -0.01512867 0.23280333 0.247932 IMG1
mitochondrial ribosomal protein YCR046C
10279_at 0.68765504 -0.02269933 0.225845 0.24854433 XYL2
Xylitol Dehydrogenase YLR070C
6205_at 0.6761872 -0.06408767 0.18450867 0.24859633 SynaptonemalZIP1 protein that
complex (SC) YDR285W connects homologous chr
3775_f_at 0.5289487 -0.03673033 0.21189533 0.24862567 NA YLRCDELTA8
Identified by expression profiling and mass spectrometry /// TyA Ga
8653_at 0.71326026 -0.09643633 0.15232633 0.24876267 mutS homologMSH2 YOL090W
3702_f_at 0.51734618 -0.032517 0.21638333 0.24890033 NA YMLWDELTA5
Identified by expression profiling and mass spectrometry /// TyA Ga
9642_at 0.3806914 -0.00520733 0.243729 0.24893633 FMS1
putatitive amine oxidase YMR020W
4954_at 0.68906213 -0.044256 0.205232 0.249488 NA NA YGR073C
7686_at 0.59876338 -0.005178 0.24486633 0.25004433 UBA3 YPR066W
ubiquitin-like protein activating enzyme
6420_at 0.54577525 -0.03744467 0.212946 0.25039067 Hypothetical ORF NA YDR051C
3516_f_at 0.29247041 -0.00324233 0.24745733 0.25069967 NA YBRWDELTA12
Similar to probable membrane protein YDR340W and to yeast CYC
10856_at 0.56829529 -0.00856 0.24225067 0.25081067 Hypothetical ORF NA YJR154W
7421_at 0.53582925 -0.01561433 0.23521433 0.25082867 ILS1
isoleucine-tRNA synthetase YBL076C
4788_at 0.67605305 -0.027778 0.22345867 0.25123667 PET54 YGR222W
Protein required for splicing of the COX1 intron AI5 beta; also speci
10568_at 0.65360197 -0.04127667 0.21002633 0.251303 Hypothetical ORF NA YKR005C
4125_at 0.53359945 -0.017501 0.233974 0.251475 F-box protein MET30 YIL046W
3161_f_at 0.52838221 -0.00826333 0.243314 0.25157733 NA YHRCSIGMA2
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
10474_s_at 0.49458632 -0.010564 0.24124667 0.25181067 RPL40B YKR094C
ribosomal protein L40B|also encodes a ubiquitin protein
4523_at 0.54005435 -0.03742367 0.21440767 0.25183133 MRS11 YHR005C-A
May act cooperatively with Mrs5p in mitochondrial protein import or
4769_at 0.73933992 -0.02354167 0.22829933 0.251841 shock YGR249W
similar to heat MGA1 transcription factor
3332_i_at 0.78470986 -0.23451267 0.01742833 0.251941 NA NA YERWDELTA11
8926_at 0.43198014 -0.01961833 0.23280267 0.252421 GCD10 of tRNA(1-methyladenosine) methyltra
RNA-binding protein|subunit YNL062C
8554_at 0.29568264 -0.002014 0.25041667 0.25243067 Hypothetical ORF NA YOL008W
3616_f_at 0.71263834 -0.156306 0.096246 0.252552 NA NA YORWDELTA19
7761_at 0.57528023 -0.053212 0.19958233 0.25279433 SUT2 YPR009W
Involved in sterol uptake; homologous to SUT1
8294_at 0.78177686 -0.096314 0.15664467 0.25295867 TPO4
Polyamine transport protein YOR273C
7858_at 0.63678302 -0.02004033 0.23304233 0.25308267 TFIIH subunit TFB2 YPL122C
10158_at 0.83590401 -0.22155567 0.03230533 0.253861 TFS1 YLR178C
lipid binding protein (putative)|supressor of a cdc25 mutation
7155_at 0.32741345 -0.003413 0.25053 0.253943 KTR4 YBR199W
alpha-1,2-mannosyltransferase (putative)
10290_at 0.6806383 -0.018316 0.237129 0.255445 COX12
cytochrome c oxidase subunit VIb YLR038C
4071_at 0.52716204 -0.020598 0.234942 0.25554 Hypothetical ORF NA YIR035C
5201_at 0.69423099 -0.04372733 0.212078 0.25580533 TOS3 YGL179C
Putative protein kinase, related to and redundant with Elm1p and P
9952_at 0.42054783 -0.01434 0.24149167 0.25583167 ROM2 YLR371W
GDP/GTP exchange protein (GEP) for Rho1p and Rho2p; mutation
10862_s_at 0.28166711 -8.17E-05 0.25610233 0.25618403 MPH2
alpha-glucoside permease YJR160C
7576_at 0.27763163 -0.002593 0.25367467 0.25626767 PRP4
associates with the U4/U6 snRNP YPR178W
4894_at 0.42179765 -0.01314633 0.243406 0.25655233 SRB5 YGR104C
RNA polymerase II holoenzyme/mediator subunit
10504_at 0.66759074 -0.05936567 0.197451 0.25681667 NA YKR079C
tRNA 3' processing endoribonuclease
6220_at 0.37737796 -0.00217733 0.25527967 0.257457 RMD5 sporulation;
Cytosolic protein required forYDR255C also required for the ubiq
9669_at 0.43475243 -0.02132533 0.236202 0.25752733 VPS71 component
Protein of unknown function, YML041C of the Swr1p complex that
10067_at 0.46523647 -0.01801433 0.23966333 0.25767767 RED1 YLR263W
meiosis-specific protein involved in similar chromosome synapsis a
3685_f_at 0.43750324 -0.01600133 0.241889 0.25789033 NA YMRWDELTA17
Similar to probable membrane protein YDR340W and to yeast CYC
7241_at 0.77839548 -0.32749033 -0.069339 0.25815133 VID24 protein
peripheral vesicle membraneYBR105C
10225_at 0.56389056 -0.03120433 0.22714833 0.25835267 midasin MDN1 YLR106C
10506_at 0.54514053 -0.01545033 0.24302 0.25847033 NA RPF2 YKR081C
8218_at 0.41628104 -0.00338267 0.255116 0.25849867 PDR10 YOR328W
ABC transporter (putative)|highly similar to Pdr5p
4795_at 0.69158537 -0.069764 0.18892733 0.25869133 SMI1
57 kDa nuclear protein YGR229C
8005_at 0.57107878 -0.03985 0.21945267 0.25930267 Hypothetical ORFNA YPL245W
6785_at 0.42349953 -0.001511 0.25863833 0.26014933 Hypothetical ORFNA YCR090C
8923_at 0.82572366 -0.39094367 -0.13074267 0.260201 AQR1
multidrug resistance transporterYNL065W
6468_at 0.41153316 -0.00261 0.257771 0.260381 TRP1 YDR007W
N-(5'-phosphoribosyl)-anthranilate isomerase
7951_at 0.57644703 -0.05160033 0.20895867 0.260559 NA YPL207W
Hypothetical ORF /// Identified by expression profiling and mass spe
6604_at 0.59475101 -0.05054367 0.21067033 0.261214 nuclear YDL126C
ATPase in ER,CDC48 membrane and cytosol with homology to ma
6644_at 0.64641484 -0.04597867 0.215373 0.26135167 Hypothetical ORFNA YDL176W
3428_f_at 0.48978059 -0.01889733 0.24250633 0.26140367 NA YDRCDELTA3
Identified by expression profiling and mass spectrometry /// TyA Ga
10552_at 0.64284375 -0.01924633 0.24224367 0.26149 DID2 YKR035W-A
class E vacuolar-protein sorting and endocytosis factor
7078_at 0.72721832 -0.16411467 0.09738067 0.26149533 Hypothetical ORFNA YBR085c-a
9141_at 0.31521106 -0.00201833 0.259813 0.26183133 CLA4
Ste20p homolog|protein kinase YNL298W
9178_at 0.70516979 -0.15881667 0.10319767 0.26201433 MRPS18 YNL306W
Mitochondrial ribosomal protein of the small subunit; essential for vi
5554_at 0.70381637 -0.04912333 0.213095 0.26221833 SPT2
non-specific DNA binding proteinYER161C
3739_f_at 0.43742272 -0.02309967 0.23953067 0.26263033 COS1 member of
Protein of unknown function, YML132W a family of conserved, ofte
11357_at 0.59669156 -0.07085033 0.19190667 0.262757 NA green fluorescent protein (GFP)-fusion
Protein of unknown function; YAL053W
7326_at 0.44709552 -0.009454 0.25335967 0.26281367 UBP14
ubiquitin-specific protease YBR058C
4947_at 0.56856187 -0.00320833 0.259627 0.26283533 Hypothetical ORFNA YGR066C
7397_at 0.48186929 -0.00204967 0.26121967 0.26326933 Hypothetical ORFNA YBL010C
5769_at 0.60707114 -0.020316 0.24319467 0.26351067 permease
ferrioxamine BSIT1 YEL065W
7819_at 0.60392954 -0.03328467 0.23028633 0.263571 Hypothetical ORFMUK1 YPL070W
6848_at 0.65848168 -0.027446 0.236216 0.263662 Hypothetical ORFNA YCR016W
3812_at 0.56195321 -0.04159267 0.222288 0.26388067 NA NA YKLCDELTA2
4074_at 0.61715661 -0.030567 0.23331733 0.26388433 GTT1
glutathione transferase YIR038C
9305_at 0.45107971 -0.01237133 0.25211667 0.264488 NA YMR299C
Light intermediate chain of dynein
5339_at 0.50218848 -0.03398833 0.230686 0.26467433 SAP155 with the Sit4p protein phosphatase an
Protein that forms a complexYFR040W
6341_at 0.56664159 -0.02787467 0.23711333 0.264988 NUM1 YDR150W
Protein required for nuclear migration, localizes to the mother cell c
9638_at 0.6389892 -0.07376367 0.192002 0.26576567 SOK2
transcription factor (putative) YMR016C
9170_at 0.51195322 -0.029255 0.23652367 0.26577867 DAL82 YNL314W
positive transcriptional regulator
10897_at 0.61380829 -0.016351 0.24948633 0.26583733 SOD1
Cu, Zn superoxide dismutase YJR104C
8278_at 0.41054 -0.00087567 0.26514067 0.26601633 CDC31 YOR257W
nuclear pore complex subunit|spindle pole body calcium-binding pro
7442_at 0.56138051 -0.041614 0.224758 0.266372 Hypothetical ORFNA YBL055C
5996_at 0.6847985 -0.09323967 0.17320433 0.266444 a complex YDR482C
Component of CWC21 containing Cef1p, putatively involved in pr
5644_at 0.50027715 -0.037577 0.22898533 0.26656233 NA green fluorescent protein (GFP)-fusion
Protein of unknown function; YER071C
8037_at 0.42334088 -0.01319267 0.25357467 0.26676733 THI21 YPL258C
Hydroxymethylpyrimidine phosphate kinase, involved in the last ste
8390_at 0.52728053 -0.034581 0.23272033 0.26730133 THI80
thiamin pyrophosphokinase YOR143C
8181_at 0.54606799 -0.02692233 0.24040433 0.26732667 FIT2 YOR382W
Cell wall protein involved in iron transport
7613_at 0.62893425 -0.02576767 0.24179633 0.267564 Hypothetical ORFNA YPR127W
11147_at 0.56860464 -0.05614667 0.211453 0.26759967 IDS2 YJL146W
Protein involved in modulation of Ime2p activity during meiosis, app
3653_f_at 0.37897433 -0.00189667 0.26618433 0.268081 NA YNLCDELTA2
Identified by expression profiling and mass spectrometry /// TyA Ga
8528_at 0.41255969 -0.016048 0.25228433 0.26833233 AUS1 family
ATP-binding cassette (ABC) YOR011W
7111_at 0.49020146 -0.01272267 0.25579167 0.26851433 Hypothetical ORFNA YBR246W
10004_at 0.55684178 -0.025534 0.24353867 0.26907267 NA NA YLR334C
11124_at 0.49606985 -0.006769 0.26255933 0.26932833 GCD14 YJL125C
subunit of tRNA(1-methyladenosine) methyltransferase, along with
4160_at 0.4499149 -0.02499067 0.24434867 0.26933933 Hypothetical ORF NA YIL057C
8142_s_at 0.33753678 -0.009678 0.26004067 0.26971867 FDH1 YOR388C
NAD(+)-dependent formate dehydrogenase, may protect cells from
9038_at 0.55654792 -0.04227833 0.22775433 0.27003267 NOP13 localizes
Protein of unknown function, YNL175Cto the nucleolus and nucleop
7893_at 0.51064643 -0.03638967 0.23371067 0.27010033 COX11 YPL132W
Mitochondrial membrane protein required for assembly of active cyt
9701_at 0.36146009 -0.01241133 0.257801 0.27021233 SPC2 YML055W
signal peptidase complex subunit|similar to mammalian protein SPC
8816_at 0.69432026 -0.06138267 0.20913067 0.27051333 BIO4
dethiobiotin synthetase YNR057C
11191_at 0.5783563 -0.03957433 0.23099833 0.27057267 Hypothetical ORF NA YJL147C
3826_at 0.57756657 -0.07415833 0.19652 0.27067833 NA NA YKRWDELTA10
7623_at 0.4676458 -0.00738967 0.26366533 0.271055 CTF4 YPR135W
DNA polymerase alpha binding protein
7087_at 0.7108105 -0.01739867 0.253965 0.27136367 The authentic, NA YBR269C
non-tagged protein was localized to the mitochondria
9160_at 0.40332422 -0.00118733 0.270341 0.27152833 PRM1 YNL279W
Pheromone-regulated multispanning membrane protein involved in
9081_at 0.40454011 -0.00959033 0.26286 0.27245033 SSU72 YNL222W
functionally related to TFIIB, affects start site selection in vivo
9648_at 0.57983185 -0.06304533 0.20995267 0.272998 PPZ1 YML016C
Serine/threonine protein phosphatase Z, isoform of Ppz2p; involved
7968_at 0.52836122 -0.02089067 0.252536 0.27342667 PRM3 YPL192C
Pheromone-regulated protein required for karyogamy; localizes to t
7235_at 0.53638047 -0.029467 0.24434133 0.27380833 NA NA YBR144C
5133_at 0.48199085 -0.026166 0.24777833 0.27394433 NA NA YGL109W
8905_at 0.56042703 -0.05656467 0.21763267 0.27419733 NA NA YNL036W
10756_at 0.82190928 -0.14143667 0.13325467 0.27469133 PIR3 YKL163W
Protein containing tandem internal repeats
5710_at 0.35366645 -0.00050467 0.27443967 0.27494433 Hypothetical ORF NA YER010C
3277_f_at 0.60448247 -0.070587 0.20453867 0.27512567 NA NA YGRCDELTA12
3452_f_at 0.34343654 -0.00150133 0.27364133 0.27514267 NA YCRCDELTA6
Identified by expression profiling and mass spectrometry /// TyA Ga
11329_at 0.42549804 -0.01296467 0.262375 0.27533967 BUD14 YAR014C
Protein involved in bud-site selection; diploid mutants display a rand
9577_at 0.48947537 -0.0048 0.27108133 0.27588133 IOC4 YMR044W
Member of a complex (Isw1b) with Isw1p and Ioc2p that exhibits nu
9730_at 0.43399356 -0.00968133 0.26626767 0.275949 POB3 YML069W
DNA polymerase delta binding protein
11214_at 0.51190893 -0.04390433 0.23217367 0.276078 NA NA YJL169W
9442_s_at 0.74342823 -0.15343133 0.122988 0.27641933 DDR48
flocculent specific protein YMR173W
5564_at 0.49159378 -0.02525767 0.25173767 0.27699533 RAD3 YER171W
5' to 3' DNA helicase, involved in nucleotide excision repair and tran
6698_at 0.60018868 -0.02514933 0.25190033 0.27704967 GABA-specificUGA4 YDL210W
transport protein
7885_at 0.5205792 -0.04557967 0.232511 0.27809067 protein kinase MKK2 YPL140C
3522_f_at 0.40588363 -0.019052 0.25961667 0.27866867 NA NA YBRWDELTA15
11311_at 0.27398065 -0.001189 0.27788733 0.27907633 MDM10 YAL010C
mitochondrial outer membrane protein
4502_at 0.60681672 -0.08552667 0.194277 0.27980367 DAP2 (DPAP B)|dipeptidyl aminopeptidase y
dipeptidyl aminopeptidase B YHR028C
6588_at 0.6101004 -0.03148733 0.24835467 0.279842 SNU23 YDL098C
RNA binding zinc finger protein (putative)
10520_at 0.51299956 -0.034327 0.245565 0.279892 NAP1
nucleosome assembly protein I YKR048C
6045_at 0.56516383 -0.005411 0.274889 0.2803 Hypothetical ORF NA YDR438W
5217_at 0.30431492 -0.00893633 0.27208933 0.28102567 SIP2 YGL208W
Member of a family of proteins, including Sip1p and Gal83p, that int
10580_at 0.43877315 -0.00985033 0.27148067 0.281331 Hypothetical ORF NA YKL027W
10203_at 0.54000358 -0.043862 0.23757367 0.28143567 U3 snoRNP protein DIP2 YLR129W
10237_at 0.17476083 -0.00170667 0.279831 0.28153767 NA NA YLR118C
6763_at 0.48043794 -0.03668733 0.24522067 0.281908 STP22
putative ubiquitin receptor YCL008C
3648_f_at 0.36892506 -0.011724 0.27018633 0.28191033 COS1 member of
Protein of unknown function, YNL336W a family of conserved, ofte
8845_at 0.50744196 -0.028912 0.253035 0.281947 HRB1
hypothetical RNA-binding protein YNL004W
10728_at 0.22966695 -0.00210267 0.27998667 0.28208933 RPT1 YKL145W
26S protease subunit component (putative)|ATPase
11126_at 0.31972858 -0.00029967 0.28192333 0.282223 Hypothetical ORF NA YJL123C
10969_at 0.68454673 -0.06052367 0.22196333 0.282487 GEF1 YJR040W
transport protein involved in intracellular iron metabolism (putative)
6617_at 0.44800584 -0.01110067 0.271502 0.28260267 Hypothetical ORF NA YDL114W
6197_at 0.70759282 -0.153331 0.129332 0.282663 MTH1
Msn3p homolog (61% identical) YDR277C
6093_at 0.56078032 -0.07444233 0.20922433 0.28366667 NA NA YDR396W
10134_at 0.64628003 -0.029914 0.25375633 0.28367033 Hypothetical ORF NA YLR199C
3325_f_at 0.73127644 -0.176156 0.10768367 0.28383967 by YER188c-a
--- /// IdentifiedNA fungal homology and RT-PCR /// Identified by gen
7739_at 0.52850319 -0.039329 0.244654 0.283983 NA
HAT complex component YPR031W
9553_at 0.6302281 -0.01745 0.26687333 0.28432333 Component of AVO2 YMR068W
a complex containing the Tor2p kinase and other pro
7620_at 0.50631398 -0.00539667 0.27946533 0.284862 IWS1 YPR133C
involved in transcriptional elongation
11141_at 0.40587458 -0.01342967 0.271438 0.28486767 IME2 YJL106W
Serine/threonine protein kinase involved in activation of meiosis, as
7720_at 0.50915647 -0.047214 0.23773067 0.28494467 MAP kinase SMK1 YPR054W
3676_f_at 0.61598203 -0.05568333 0.22970967 0.285393 NA NA YMRCDELTA11
4580_at 0.8699182 -1.247697 -0.962004 0.285693 cysteine YHL028W
contains novelWSC4 motif|integral membrane protein (putative)|s
11361_at 0.49821754 -0.038561 0.24781867 0.28637967 SPC72 YAL047C
Spc72p interacts with Stu2p in the two-hybrid assay; Spc72p localiz
7140_at 0.62186702 -0.08902433 0.19738233 0.28640667 Hypothetical ORF NA YBR230C
8345_at 0.60519008 -0.07081633 0.215707 0.28652333 IES4 YOR189W
Protein that associates with the INO80 chromatin remodeling comp
11217_at 0.62440623 -0.06694067 0.220159 0.28709967 CBP1 YJL209W
Protein required for COB mRNA stability or 5' processing. required
5043_at 0.41496404 -0.01264767 0.274477 0.28712467 CK2 beta subunit
protein kinase CKB1 YGL019W
5011_at 0.52253445 -0.02472733 0.26271267 0.28744 Ca2+ ATPase PMC1 (putative) YGL006W
6897_at 0.56912787 -0.01706533 0.27039767 0.287463 GRX1
glutaredoxin|EC 1.20.4.1 YCL035C
11296_s_at 0.63573502 -0.09219033 0.195341 0.28753133 MST27
protein with COPI and COPIIYAR033Wbindng motifs
6231_at 0.52770172 -0.03937667 0.248288 0.28766467 Hypothetical ORF NA YDR266C
6212_at 0.73345326 -0.009461 0.27871033 0.28817133 VHS1 suppresses
Gene whose overexpression YDR247W the synthetic lethality of th
4851_i_at 0.57353045 -0.058836 0.229428 0.288264 RSR1 YGR151C
Gtp-binding protein of the ras superfamily involved in bud site selec
5652_at 0.6036363 -0.05032433 0.23842933 0.28875367 Hypothetical ORF NA YER079W
11022_at 0.53768762 -0.03318233 0.25636933 0.28955167 PRE3
20S proteasome subunit YJL001W
9614_at 0.56232526 -0.040432 0.24949467 0.28992667 MIH1
protein phosphatase YMR036C
10507_at 0.38929009 -0.00552167 0.28444067 0.28996233 NUP133
nuclear pore complex subunit YKR082W
10646_at 0.38784539 -0.000633 0.28954733 0.29018033 MBR1 YKL093W
Involved in mitochondrial biogenesis
9930_at 0.63629478 -0.00796667 0.28253433 0.290501 NA NA YLR395C
7625_at 0.57582185 -0.032691 0.258102 0.290793 U3 snoRNP proteinRRP9 YPR137W
7206_at 0.41478012 -0.00310067 0.28778467 0.29088533 CDC28
cyclin-dependent protein kinase YBR160W
6645_at 0.50464845 -0.03561467 0.25534333 0.290958 AIR2 YDL175C
RING finger protein that interacts with the arginine methyltransferas
10444_at 0.53413085 -0.066595 0.22501567 0.29161067 NA NA YKR035C
10589_at 0.2962974 -0.00751567 0.284122 0.29163767 SWD2 YKL018W
compass (complex proteins associated with Set1p) component
8024_at 0.44895799 -0.021684 0.27053967 0.29222367 epsilon
ATP synthase ATP15 subunit YPL271W
6478_at 0.53291187 -0.022808 0.26956167 0.29236967 KCS1
Inositol polyphosphate kinase YDR017C
8946_at 0.47608247 -0.02493633 0.267608 0.29254433 Hypothetical ORF NA YNL086W
11370_at 0.54623833 -0.05433633 0.23842433 0.29276067 CYC3
cytochrome c heme lyase (CCHL) YAL039C
6826_at 0.62883108 -0.10097167 0.19179967 0.29277133 ribokinase RBK1 YCR036W
4579_at 0.20672692 -0.00090867 0.29202 0.29292867 Hypothetical ORF NA YHL029C
4882_g_at 0.48871746 -0.02928033 0.26410667 0.293387 LAs17 BindingLSB1 protein YGR136W
8826_at 0.50480571 -0.028627 0.26478267 0.29340967 SNF12 YNR023W
RSC chromatin remodeling complex Rsc6p subunit homolog|SWI/S
4092_at 0.47997783 -0.01803267 0.27574433 0.293777 STS1 YIR011C
restores protein transport when overexpressed and rRNA stability to
5965_at 0.51075367 -0.02382633 0.269951 0.29377733 PUF
member of thePUF6 protein familyYDR496C
6628_at 0.66531982 -0.14481833 0.148971 0.29378933 RPN5 YDL147W
proteasome regulatory particle subunit
8406_at 0.5005416 -0.00645467 0.28754167 0.29399633 protein
human E core SME1 homolog YOR159C
5307_at 0.52248077 -0.03096033 0.263055 0.29401533 NA NA YFR053C
11367_at 0.53143609 -0.01980367 0.274472 0.29427567 ERV46 YAL042W
ER-Golgi transport vesicle protein
6269_at 0.31530891 -0.002164 0.292344 0.294508 TCP1
chaperonin subunit alpha YDR212W
4170_at 0.37604668 -0.01758467 0.27697067 0.29455533 Hypothetical ORF NA YIL096C
9725_at 0.30213415 -0.00630967 0.28891567 0.29522533 cis-trans isomerase (PPIase)
peptidyl-prolyl FPR3 YML074C
3642_at 0.48334831 -0.00737833 0.287984 0.29536233 NA NA YOLWDELTA6
8804_at 0.57044096 -0.04442867 0.251504 0.29593267 NA YNR046W
Protein required for cell viability
6373_g_at 0.64738467 -0.06787833 0.22806667 0.295945 DNF2 translocase
Potential aminophospholipid YDR093W
4483_s_at 0.42343366 -0.03088733 0.26540967 0.296297 metallothionein
copper bindingCUP1-2 YHR053C
10681_at 0.82295537 -0.150864 0.14552667 0.29639067 LAP4
vacuolar aminopeptidase ysc1 YKL103C
8407_at 0.45159666 -0.02697767 0.26951567 0.29649333 MTR10 YOR160W
Protein involved in mRNA transport from nucleus to cytoplasm
6510_at 0.42998627 -0.01519833 0.28186867 0.297067 SIR2 YDL042C
nuclear NAD-dependent deacetylase
4573_at 0.71461515 -0.14994967 0.147226 0.29717567 ABC transporter NA YHL035C
8722_at 0.5794037 -0.01325 0.283978 0.297228 Hypothetical ORF NA YOL159C
6794_at 0.42155347 -0.01794267 0.27938333 0.297326 NA YCR099C
Hypothetical ORF /// Hypothetical ORF
8205_at 0.5651635 -0.01099733 0.286394 0.29739133 PRT1 YOR361C
translation initiation factor eIF3 subunit
8533_at 0.28638056 -0.00074333 0.29668167 0.297425 NA NA YOR015W
7971_at 0.63619706 -0.075233 0.22227033 0.29750333 NSL1 YPL233W
Protein required for cell viability
5674_at 0.63959238 -0.01504267 0.28248433 0.297527 PHO85 cyclin PCL6 YER059W
4217_at 0.41224649 -0.010647 0.28691967 0.29756667 REV7 YIL139C
DNA polymerase zeta (pol-zeta) subunit
5085_at 0.36026973 -0.00074 0.296909 0.297649 NPY1
NADH pyrophosphatase 1 YGL067W
3406_f_at 0.28900985 -0.00368067 0.29418667 0.29786733 HIF1 YDRWDELTA11
Identified by expression profiling and mass spectrometry /// Non-ess
11372_at 0.5500968 -0.019008 0.27916467 0.29817267 Hypothetical ORFNA YAL037W
8802_at 0.43265341 -0.024568 0.273639 0.298207 AGA1
a-agglutinin anchorage subunit YNR044W
4390_at 0.76373631 -0.20985367 0.08875533 0.298609 Hypothetical ORFNA YHR140W
5677_at 0.57089572 -0.05922267 0.239508 0.29873067 synthase homolog
beta-keto-acyl CEM1 YER061C
7944_at 0.57069872 -0.028451 0.270516 0.298967 OYE3
NADPH dehydrogenase YPL171C
6258_at 0.41712079 -0.02044633 0.278561 0.29900733 SPC19
spindle pole component YDR201W
5421_i_at 0.5457339 -0.01816967 0.28092467 0.29909433 Hypothetical ORFNA YFL067W
9043_at 0.27943031 -0.00647033 0.29278633 0.29925667 NA NA YNL170W
6018_at 0.45362578 -0.01733267 0.281929 0.29926167 in outside Ras
likely functionsNA pathway(s)YDR459C
9892_at 0.57902532 -0.03484433 0.26451633 0.29936067 protein YLR443W
Non-essential ECM7 of unknown function
6607_at 0.75868905 -0.17848233 0.12090067 0.299383 Hypothetical ORFNA YDL124W
11006_at 0.48928367 -0.01247367 0.28704433 0.299518 CPR7 YJR032W
cyclophilin 40|peptidyl-prolyl cis-trans isomerase (PPIase)
6594_at 0.35140796 -0.00710967 0.29251933 0.299629 SRP14 YDL092W
Signal recognition particle subunit
11368_at 0.28804866 -0.00569033 0.29396467 0.299655 CDC24 YAL041W
guanine nucleotide exchange factor (a.k.a. GDP-release factor) for
6813_at 0.53227055 -0.04197533 0.25768767 0.299663 NA YCR072C
Protein required for cell viability
7983_at 0.46295662 -0.01321467 0.28658267 0.29979733 NA overproduction suppresses a pam1 slv
Protein of unknown function, YPL221W
7804_at 0.32986225 -0.007364 0.292824 0.300188 Hypothetical ORFNA YPL039W
6094_at 0.51113944 -0.052591 0.247976 0.300567 NCB2 YDR397C
Negative Cofactor B2 is the beta subunit of a negative regulator of R
8186_at 0.47328079 -0.02853867 0.27241267 0.30095133 Hypothetical ORFNA YOR342C
5059_at 0.23532286 -0.00627467 0.295411 0.30168567 ATPase RPT6 YGL048C
11225_at 0.60317118 -0.05966 0.242416 0.302076 protein YJL201W
Non-essential ECM25 of unknown function; promoter contains a con
6143_f_at 0.61599438 -0.03740667 0.26488333 0.30229 SSF2 YDR312W
high copy suppressor of G beta subunit temperature sensitive muta
9589_at 0.37368953 -0.00526367 0.297569 0.30283267 SEN15 YMR059W
tetrameric tRNA splicing endonuclease 15kDa subunit
11166_at 0.43568592 -0.005603 0.29734333 0.30294633 TRK1 YJL129C
180 kDa high affinity potassium transporter
10622_at 0.75681623 -0.25007533 0.05323533 0.30331067 NA NA YKL030W
5341_at 0.61786972 -0.11420133 0.189444 0.30364533 NA YFR042W
Protein required for cell viability
7084_at 0.48533833 -0.01470033 0.28917167 0.303872 proteins YBR264C
similar to Rab YPT10 and other small GTP-binding proteins
9064_at 0.60714766 -0.010053 0.29448333 0.30453633 Hypothetical ORFNA YNL195C
4311_at 0.59944907 -0.02770967 0.27684033 0.30455 RIbosome eXport RIX1 YHR197W
5101_at 0.69172946 -0.07272867 0.23183933 0.304568 Target of SBF TOS8 YGL096W
4819_at 0.4878818 -0.04723233 0.25741267 0.304645 NA NA YGR164W
5026_at 0.35915264 -0.01167433 0.293461 0.30513533 NA
Mtf1 Two Hybrid Clone 2 YGL036W
5373_at 0.47860303 -0.01822467 0.28693333 0.305158 INO80 YFL013C
Subunit of the IES1 chromatin remodeling complex
8511_at 0.51913241 -0.028332 0.277035 0.305367 HIR2 YOR038C
contains nuclear targeting signal|repressor protein (putative)
7580_at 0.6966493 -0.090723 0.21499167 0.30571467 snRNP proteinSMX3 YPR182W
3181_f_at 0.62465562 -0.03121633 0.274663 0.30587933 NA YHRCDELTA16
Similar to probable membrane protein YDR340W and to yeast CYC
10673_at 0.65212675 -0.05689567 0.24936667 0.30626233 NA NA YKL111C
10792_at 0.54663941 -0.00987467 0.29640333 0.306278 F
ferric reductase RE2 YKL220C
9580_at 0.48772335 -0.02877967 0.278585 0.30736467 ERB1 YMR049C
Protein required for maturation of the 25S and 5.8S ribosomal RNA
9597_at 0.43557264 -0.01474167 0.29285067 0.30759233 Hypothetical ORFUBX4 YMR067C
8454_at 0.43475539 -0.025683 0.282045 0.307728 RPT5 YOR117W
Probable 26S protease subunit and member of the CDC48/PAS1/S
9074_at 0.40669287 -0.01685267 0.29104833 0.307901 URE2 YNL229C
glutathione transferase (putative)|transcriptional regulator|prion
8674_at 0.62665991 -0.04289067 0.26563 0.30852067 Hypothetical ORFNA YOL114C
6179_at 0.48290002 -0.01918833 0.29020733 0.30939567 HNT2 YDR305C
Dinucleoside triphosphate hydrolase; has similarity to the tumor sup
7146_at 0.36847304 -0.006339 0.30327 0.309609 ABD1 YBR236C
RNA (guanine-7-)methyltransferase (cap methyltransferase)
7988_at 0.35239324 -0.02044033 0.28939133 0.30983167 Hypothetical ORFNA YPL216W
3453_at 0.51683212 -0.057465 0.25259967 0.31006467 NA YCR007C
Putative integral membrane protein, member of DUP240 gene fami
5164_at 0.52650697 -0.01386333 0.296543 0.31040633 ROK1 YGL171W
ATP-dependent RNA helicase of the DEAD box family; required for
6404_at 0.4895063 -0.016564 0.294675 0.311239 VPS41
vacuolar protein sorting YDR080W
5597_at 0.25536868 -0.007893 0.303765 0.311658 LSM4
U6 snRNA associated protein YER112W
4828_at 0.45368837 -0.00895633 0.30275533 0.31171167 NA YGR173W
Protein with similarity to mammalian developmentally regulated GTP
10107_at 0.51458746 -0.01564733 0.29619133 0.31183867 NA
Protein of unknown function YLR215C
8917_at 0.41191638 -0.01816167 0.29405933 0.312221 the outer mitochondrial membrane
translocase of TOM7 YNL070W
4234_at 0.44534917 -0.00408867 0.308183 0.31227167 POG1
transcription factor (putative) YIL122W
7417_at 0.39826856 -0.010194 0.302089 0.312283 POL12 YBL035C
DNA polymerase alpha-primase complex B subunit
3505_s_at 0.55182115 -0.04219467 0.27017133 0.312366 NA NA YBLWDELTA6
5115_at 0.30974369 -0.01043067 0.30205033 0.312481 SOH1 similarity
Soh1p has limited sequence YGL127Cto RNA polymerases and inte
8781_at 0.31821858 -0.016425 0.29611367 0.31253867 BSC5 YNR069C
Transcript encoded by this ORF shows a high level of stop codon b
6597_at 0.540561 -0.01958967 0.29300667 0.31259633 LYS20 /// LYS21YDL131W
YDL131W (LYS21) homolog|homocitrate synthase /// YDL182W (LY
6115_at 0.43402961 -0.019821 0.29325233 0.31307333 FRQ1 YDR373W
N-myristoylated calcium-binding protein that may have a role in intra
3926_f_at 0.28967271 -0.003045 0.310039 0.313084 NA YARWDELTA6
Identified by expression profiling and mass spectrometry /// TyA Ga
10952_at 0.17446902 -0.003633 0.30989 0.313523 RFC2 YJR068W
replication factor C subunit 2|similar to human RFC 37 kDa subunit
3187_s_at 0.75693502 -0.12516033 0.18841267 0.313573 YRF1-7
Y'-helicase protein 1 YHL050C
3877_at 0.51066085 -0.00169933 0.311916 0.31361533 NA NA YJLWDELTA10
10984_at 0.6596027 -0.13576333 0.178332 0.31409533 HIT1 required for
Protein of unknown function, YJR055W growth at high temperatur
6427_at 0.64946262 -0.11790333 0.19620867 0.314112 TGL2
triglyceride lipase YDR058C
9003_at 0.47099948 -0.036117 0.27883 0.314947 invasive
plays a role in NCS2 growth YNL119W
4886_at 0.48259178 -0.05335233 0.2617 0.31505233 CBF2 YGR140W
centromere binding factor CBF3 110 kDa subunit
11149_at 0.64581873 -0.020127 0.295148 0.315275 Hypothetical ORFNA YJL144W
11144_at 0.64329498 -0.07847633 0.236991 0.31546733 Hypothetical ORFNA YJL103C
7199_at 0.36277405 -0.00948467 0.30613567 0.31562033 RIB7 YBR153W
Protein involved in the biosynthesis of riboflavin, second step in the
9634_at 0.55821583 -0.059617 0.256426 0.316043 CLU1 YMR012W
Sometimes copurifies with translation initiation factor eIF3, but appa
6827_at 0.59367055 -0.007335 0.30880767 0.31614267 PHO87
phosphate permease YCR037C
6282_at 0.56419513 -0.01083033 0.30567233 0.31650267 SCC2 YDR180W
Sister chromatid cohesion protein
8179_at 0.48390589 -0.03177667 0.28486033 0.316637 RDR1
Repressor of drug resistanceYOR380W
6326_at 0.54097822 -0.07872267 0.23845133 0.317174 NA NA YDR136C
7640_at 0.43710091 -0.02608967 0.29123 0.31731967 Hypothetical ORFNA YPR109W
9984_at 0.48919598 -0.02381233 0.29362333 0.31743567 VPS38 YLR360W
involved in vacuolar protein targeting
5713_at 0.4674415 -0.00624333 0.31123267 0.317476 PRP22
helicase-like protein YER013W
4771_at 0.48184565 -0.035502 0.282093 0.317595 NA YGR251W
Protein required for cell viability
7605_at 0.49974767 -0.00677033 0.31085 0.31762033 SGV1 YPR161C
CDC28/cdc2 related protein kinase
10116_at 0.46629375 -0.03257667 0.285366 0.31794267 Hypothetical ORFNA YLR224W
5388_at 0.45155255 -0.004522 0.313545 0.318067 LOC1 YFR001W
Nuclear protein involved in asymmetric localization of ASH1 mRNA
6701_at 0.53135749 -0.00365533 0.31490133 0.31855667 GLE1 YDL207W
nuclear pore complex subunit|nuclear-export-signal (NES)-containin
10572_at 0.50028755 -0.053628 0.26512067 0.31874867 NA NA YKR009C
10314_at 0.39649078 -0.00726633 0.31199067 0.319257 POM34 YLR018C
integral membrane protein|nuclear pore complex subunit
9850_at 0.56753757 -0.04721967 0.272224 0.31944367 Hypothetical ORFNA YLR446W
10635_at 0.43840495 -0.031104 0.28865467 0.31975867 Hypothetical ORFNA YKL061W
3570_f_at 0.3071387 -0.00143367 0.31894667 0.32038033 NA YPRWDELTA17
TyA Gag protein; the main structural constituent of virus-like particle
7285_at 0.351564 -0.00793 0.312808 0.320738 Hypothetical ORFNA YBR062C
3474_f_at 0.40545399 -0.00016267 0.32061633 0.320779 NA NA YDLCDELTA1
4226_at 0.49588414 -0.002057 0.31873867 0.32079567 Hypothetical ORFNA YIL130W
5161_at 0.50194625 -0.00161233 0.31926367 0.320876 BUD13 YGL174W
Protein involved in bud-site selection; diploid mutants display a unip
8296_at 0.34764681 -0.01567667 0.305281 0.32095767 Unknown functionRIM20 YOR275C
8930_at 0.21558536 -0.005672 0.31538333 0.32105533 NA NA YNL057W
7104_at 0.34633482 -0.016698 0.305752 0.32245 Hypothetical ORFNA YBR239C
9057_at 0.51617676 -0.01545167 0.30718433 0.322636 SPS19
2,4-dienoyl-CoA reductase YNL202W
7899_at 0.46146629 -0.022804 0.30022333 0.32302733 NAN1
U3 snoRNP protein YPL126W
7776_at 0.40329247 -0.01512233 0.30804733 0.32316967 UV endonuclease RAD1 YPL022W
8631_at 0.50503482 -0.01914333 0.30417233 0.32331567 RIB2 YOL066C
DRAP deaminase|pseudouridine synthase
9319_at 0.27504381 -0.010728 0.31259133 0.32331933 GLC8 YMR311C
protein phosphatase 1 (Glc7p) regulator
11306_at 0.52911333 -0.03578833 0.28865133 0.32443967 NA YAR064W
Identified by gene-trapping, microarray-based expression analysis,
9396_at 0.54680244 -0.08886433 0.23568633 0.32455067 DnaJ homologSCJ1 YMR214W
10178_at 0.31455187 -0.014496 0.310132 0.324628 PEP3
vacuolar membrane protein YLR148W
9581_at 0.28076988 -0.01274 0.31246867 0.32520867 FAR3 YMR052W
Protein involved in G1 cell cycle arrest in response to pheromone, i
4852_s_at 0.50423639 -0.04215633 0.283759 0.32591533 RSR1 YGR151C
Gtp-binding protein of the ras superfamily involved in bud site selec
5708_at 0.27597451 -0.00553667 0.32108467 0.32662133 SEC3
exocyst complex component YER008C
11102_at 0.48057083 -0.04805133 0.27882033 0.32687167 LAs17 BindingLSB6 protein YJL100W
5097_at 0.43867229 -0.01590267 0.31106433 0.326967 SEH1
nuclear pore complex subunit YGL100W
4816_at 0.23380413 -0.005746 0.32124767 0.32699367 Hypothetical ORFNA YGR206W
10924_at 0.59998151 -0.03307367 0.294374 0.32744767 Hypothetical ORFNA YJR085C
8615_at 0.67852358 -0.105004 0.22275433 0.32775833 Hypothetical ORFNA YOL083W
6099_at 0.55262758 -0.02117767 0.30672533 0.327903 GGA1
ARF-binding protein YDR358W
8370_at 0.33610728 -0.00672067 0.321284 0.32800467 GLN4
glutamine-tRNA ligase YOR168W
4140_at 0.53948477 -0.027687 0.30062733 0.32831433 Peptidase thatULP2 Smt3/SUMO-1 peptides from proteins,
deconjugates YIL031W
7615_at 0.52760198 -0.057201 0.27138333 0.32858433 SCD6 YPR129W
Protein containing an Lsm domain, may bind RNA and have a role i
10753_at 0.51632356 -0.00888667 0.31992233 0.328809 TPK3 YKL166C
cAMP-dependent protein kinase catalytic subunit
6074_at 0.54059639 -0.07266633 0.25616067 0.328827 subunit
ATP synthase ATP17 f YDR377W
6440_at 0.33889699 -8.77E-05 0.32971067 0.32979837 Hypothetical ORF NA YDR026C
4474_at 0.31430085 -0.01761567 0.31271967 0.33033533 Hypothetical ORF NA YHR045W
4205_at 0.34381183 -0.01381333 0.31691733 0.33073067 NA mutation
Protein of unknown function; YIL105C is synthetically lethal with an
7553_at 0.44617105 -0.03180233 0.299009 0.33081133 ARR2 for arsenate
Arsenate reductase required YPR200C resistance; converts arse
6402_at 0.49217072 -0.03817 0.29282833 0.33099833 Suppressor of SHU2 YDR078C
hydroxy-urea sensitivity
3228_at 0.54529771 -0.06436267 0.267101 0.33146367 NA NA YGRWSIGMA7
4315_at 0.254473 -0.002573 0.328951 0.331524 exopolyphosphatasePPX1 YHR201C
9421_s_at 0.25408448 -0.00418533 0.32739533 0.33158067 RPL36A (L39)YMR194W
(YL39)
ribosomal protein L36A /// RPL36B /// ribosomal protein L36B (L39
3735_f_at 0.29177289 -0.014436 0.31730267 0.33173867 YRF1-7 YLR466W
Hypothetical ORF /// Y'-helicase protein 1
7399_at 0.51794201 -0.03172433 0.30003767 0.331762 NA NA YBL053W
10633_at 0.26671091 -0.00131933 0.33055533 0.33187467 Hypothetical ORF NA YKL063C
4414_at 0.21855246 -0.000267 0.33172667 0.33199367 LSM12 YHR121W
Protein containing an Lsm domain and an AD domain; may bind RN
9740_at 0.51929699 -0.04908633 0.283036 0.33212233 CAC2 YML102W
chromatin assembly factor-I (CAF-I) p60 subunit
7289_at 0.70826066 -0.243441 0.08896067 0.33240167 NRG1 homolog RG2 N YBR066C
8938_at 0.30675955 -0.016376 0.317175 0.333551 APP1 interacts with Rvs161p and Rvs167p;
Protein of unknown function, YNL094W
3323_i_at 0.65265069 -0.09094567 0.24318467 0.33413033 NA NA YERCOMEGA1
6262_at 0.55274783 -0.01635967 0.31817133 0.334531 cation YDR205W
Member of theMSC2 diffusion facilitator family, localizes to the end
7637_at 0.65086704 -0.113039 0.221563 0.334602 protein kinase ISR1 YPR106W
6469_at 0.41440073 -0.022037 0.313411 0.335448 NA NA YDR008C
6857_at 0.4732189 -0.047688 0.28788233 0.33557033 Hypothetical ORF NA YCR024C
5103_at 0.54344512 -0.08081433 0.25482733 0.33564167 PAN2 YGL094C
poly(A) ribonuclease 135 kDa subunit
3647_f_at 0.7045653 -0.176417 0.159456 0.335873 by YNL337W
--- /// IdentifiedNA fungal homology and RT-PCR /// Identified by gen
4126_at 0.57305158 -0.03456067 0.30134133 0.335902 30% identity toPIG2YER054C/GIP2 YIL045W
6108_at 0.5361833 -0.006527 0.32940933 0.33593633 Hypothetical ORF NA YDR366C
9760_at 0.47110279 -0.03832067 0.29805 0.33637067 NA YML125C
Protein required for cell viability
7805_at 0.52980425 -0.05458633 0.281823 0.33640933 MET31 YPL038W
highly homologous to Met32p|transcriptional regulator of sulfur amin
10024_at 0.4898142 -0.063113 0.273482 0.336595 IMH1 YLR309C
Protein involved in vesicular transport, mediates transport between
4901_at 0.35416489 -0.02642767 0.31064567 0.33707333 Hypothetical ORF NA YGR111W
6056_at 0.58368304 -0.06415067 0.27329233 0.337443 MRP20 YDR405W
Mitochondrial ribosomal protein of the large subunit
4927_at 0.32779296 -0.01185933 0.32611267 0.337972 PRP31
pre-mRNA splicing protein YGR091W
10888_at 0.38516068 -0.01233567 0.32568133 0.338017 TranscriptionalHIR3 YJR140C
corepressor involved in the cell cycle-regulated tran
4410_at 0.27846781 -0.01491633 0.32316733 0.33808367 TOM71 YHR117W
protein translocase 71 kDa component of the outer membrane of m
9594_at 0.32527156 -0.01528067 0.322986 0.33826667 AEP1 YMR064W
Protein required for expression of the mitochondrial OLI1 gene enco
9690_at 0.15704468 -0.000032 0.33835967 0.33839167 TEM1
GTP-binding protein|ras family YML064C
3366_at 0.43166139 -0.05235933 0.28631367 0.338673 NA NA YELWDELTA5
5431_at 0.5120659 -0.03607533 0.30289567 0.338971 Hypothetical ORF NA YFL049W
7390_at 0.3914792 -0.03247 0.30650467 0.33897467 membrane protein 166aa cytoplasmic tail, 1300 aa lu
Type I integral PEP1 YBL017C
10142_at 0.50389337 -0.028333 0.31106867 0.33940167 QRI5 YLR204W
Mitochondrial protein of unknown function
5358_at 0.55612361 -0.053921 0.285607 0.339528 Hypothetical ORF NA YFR016C
7151_at 0.39955436 -0.00736133 0.332334 0.33969533 MSI1 YBR195C
chromatin assembly factor-I (CAF-I) p50 subunit|negative regulator
10211_at 0.29197936 -5.63E-05 0.33986467 0.33992097 Hypothetical ORF NA YLR137W
7277_at 0.46435301 -0.06701633 0.27308333 0.34009967 Hypothetical ORF NA YBR096W
4219_at 0.47987001 -0.00042333 0.340201 0.34062433 Hypothetical ORF NA YIL137C
8523_at 0.42501498 -0.025958 0.31485033 0.34080833 NA NA YOR050C
5212_at 0.32508954 -0.01927667 0.32168367 0.34096033 NA NA YGL213C
8209_at 0.39627576 -0.01801067 0.32298733 0.340998 HSH49 YOR319W
mammalian splicing factor/U2 snRNP protein homolog
6622_at 0.52653165 -0.02187133 0.31913067 0.341002 NA NA YDL153C
7318_at 0.58723892 -0.071482 0.26989233 0.34137433 REG2
Glc7p regulatory subunit YBR050C
6439_at 0.3543034 -0.01559067 0.326187 0.34177767 NA NA YDR024W
6067_at 0.46169648 -0.04075467 0.30315467 0.34390933 SYF1
SYnthetic lethal with cdcForty YDR416W
7965_at 0.63158868 -0.01801167 0.325977 0.34398867 APL5 YPL195W
clathrin assembly complex AP-3 adaptin component delta-like subu
10990_at 0.24746953 -0.004804 0.33918667 0.34399067 NA YJR013W
Protein required for cell viability
11151_at 0.44877589 -0.05202667 0.29206833 0.344095 YAK1
Serine-threonine protein kinase YJL142C
5963_at 0.50731906 -0.029511 0.31465533 0.34416633 NA YDR494W
Mitochondrial ribosomal small subunit protein
6246_at 0.39356408 -0.00861733 0.33556733 0.34418467 PRP42 YDR235W
U1 snRNP protein|shares 50% sequence similarity with Prp39p U1
9375_at 0.24715797 -0.00213967 0.34329767 0.34543733 TFIID subunit TAF9 YMR236W
9417_at 0.41950492 -0.03024667 0.31523733 0.345484 APP2 interacts with
Protein of unknown function, YMR192W Rvs161p and Rvs167p;
3610_f_at 0.55740162 -0.08277933 0.262906 0.34568533 NA NA YORCDELTA15
3164_f_at 0.62940199 -0.154369 0.19150967 0.34587867 NA NA YHRCDELTA8
11348_at 0.52516211 -0.03612067 0.31012333 0.346244 overexpression affects chromosome stability, potent
Protein whose FUN30 YAL019W
5641_at 0.17555247 -0.00218067 0.34407333 0.346254 MOT2
zinc finger protein (putative) YER068W
3327_f_at 0.39367705 -0.026934 0.31939967 0.34633367 COS1 member of
Protein of unknown function, YFL062W a family of conserved, ofte
3196_f_at 0.4646207 -0.04349233 0.303665 0.34715733 NA YHLWTAU1
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
8955_at 0.51866537 -0.07902833 0.268429 0.34745733 APJ1 YNL077W
J-protein co-chaperone family 20 kDa
5127_at 0.4193876 -0.04610933 0.30144233 0.34755167 SNF4
associates with Snf1p YGL115W
4244_at 0.24742463 -0.011712 0.336081 0.347793 The authentic, NA YIL157C
non-tagged protein was localized to the mitochondria
8895_at 0.2364467 -0.00553867 0.34255167 0.34809033 NA mutation
Protein of unknown function; YNL047Cis synthetically lethal with an
4902_at 0.57598009 -0.09033933 0.25860233 0.34894167 SHY1 YGR112W
similar to the mammalian SURF-1 gene
4815_at 0.39953374 -0.030934 0.31804633 0.34898033 NA YGR205W
Protein that binds ATP; crystal structure resembles that of E.coli pa
7727_at 0.43136726 -0.03849 0.31103667 0.34952667 subunit
ATP synthase ATP20 g homolog YPR020W
3759_f_at 0.19709787 -0.00211933 0.348021 0.35014033 NA NA YLRCDELTA21
11328_at 0.32204476 -0.00224167 0.348058 0.35029967 SEN34 YAR008W
tetrameric tRNA splicing endonuclease 34 kDa subunit
3142_f_at 0.24900289 -0.00381933 0.34704267 0.350862 NA NA YILCDELTA3
5144_at 0.35993293 -0.02440033 0.32651133 0.35091167 TIP20 YGL145W
transport protein that interacts with Sec20p; required for protein tran
10234_at 0.4378658 -0.041578 0.30973867 0.35131667 CFT2 YLR115W
105 kDa protein associated with polyadenylation factor 1 (PF I)|clea
5007_at 0.4473706 -0.02588233 0.32565733 0.35153967 Hypothetical ORFNA YGL010W
8844_at 0.25761346 -0.00960167 0.342028 0.35162967 COQ2 YNR041C
para hydroxybenzoate: polyprenyl transferase
7343_at 0.60756392 -0.048445 0.304369 0.352814 Hypothetical ORFNA YBR030W
4150_at 0.4963206 -0.043191 0.30972567 0.35291667 SEC6
exocyst complex component YIL068C
8856_at 0.38685735 -0.00456733 0.34872067 0.353288 LRO1 YNR008W
phospholipid:diacylglycerol acyltransferase
9987_at 0.36538211 -0.00295033 0.35166567 0.354616 EST2
telomerase reverse transcriptaseYLR318W
10497_at 0.53648568 -0.06241933 0.29341067 0.35583 cycle YKR072C
Involved in cellSIS2 control and ion homeostasis
8810_at 0.40013906 -0.014543 0.34144733 0.35599033 POP2
transcription factor (putative) YNR052C
8402_at 0.25869567 -0.01176267 0.34483333 0.356596 ISN1
IMP 5'-Nucleotidase YOR155C
8371_at 0.36146872 -0.01267333 0.34474467 0.357418 NA NA YOR169C
8682_at 0.32176708 -0.02778033 0.32969367 0.357474 NA NA YOL106W
10851_at 0.51968211 -0.07507567 0.28242867 0.35750433 Hypothetical ORFNA YJR149W
5002_at 0.44666265 -0.044304 0.31332767 0.35763167 Hypothetical ORFNA YGL015C
6271_at 0.73516134 -0.36437567 -0.00634667 0.358029 Hsp90 system AHA1 Aha1 binds
cochaperone; YDR214W to the middle domain of H
8545_at 0.73465921 -0.33606567 0.02204433 0.35811 STI1 YOR027W
heat shock protein also induced by canavanine and entry into statio
6150_at 0.30255753 -0.01366667 0.34480233 0.358469 Hypothetical ORFNA YDR319C
7896_at 0.56100484 -0.014032 0.345075 0.359107 TAF14 YPL129W
transcription initiation factor TFIIF small subunit
9574_at 0.26388383 -0.00204933 0.35709367 0.359143 Hypothetical ORFNA YMR087W
9931_at 0.24103227 -0.001937 0.35755133 0.35948833 NA NA YLR396C
10732_at 0.17887133 -0.00646 0.353202 0.359662 SDH3 YKL141W
succinate dehydrogenase cytochrome b
7821_at 0.58542263 -0.046254 0.31343067 0.35968467 Hypothetical ORFNA YPL068C
6291_at 0.28721035 -0.01084633 0.349703 0.36054933 SLY1 YDR189W
t-SNARE-interacting protein that functions in ER-to-Golgi traffic
9333_at 0.44426935 -0.02188767 0.33909667 0.36098433 YKU70
DNA binding protein YMR284W
3245_f_at 0.18287085 -0.00284033 0.35837067 0.361211 NA NA YGRWDELTA19
9353_at 0.4897288 -0.013026 0.34820833 0.36123433 Hypothetical ORFNA YMR259C
3144_f_at 0.31756159 -0.02430167 0.33693733 0.361239 NA YILWDELTA4
Identified by expression profiling and mass spectrometry /// TyA Ga
10740_at 0.26728963 -0.01002467 0.351331 0.36135567 COY1 similarity
Golgi membrane protein withYKL179C to mammalian CASP; geneti
4038_at 0.43603532 -0.01786067 0.34395733 0.361818 NA NA YIL068w-a
10020_at 0.4440547 -0.020857 0.34104933 0.36190633 STT4 YLR305C
phosphatidylinositol-4-kinase|similar to VPC34
7607_at 0.56922545 -0.08994567 0.272013 0.36195867 THI22 YPR121W
Protein with similarity to hydroxymethylpyrimidine phosphate kinase
7923_at 0.22841264 -0.00854067 0.35411167 0.36265233 PXA1 YPL147W
ABC transporter of long-chain fatty acids
3629_f_at 0.64849486 -0.10787233 0.25493567 0.362808 NA YNR077C
Identified by fungal homology and RT-PCR
3333_f_at 0.13586792 -0.00014633 0.36281067 0.362957 NA NA YERWDELTA11
11171_at 0.41320166 -0.03500867 0.328126 0.36313467 ERG20 YJL167W
farnesyl diphosphate synthetase (FPP synthetase)
9174_at 0.26079507 -0.000731 0.36285167 0.36358267 The authentic, NA YNL310C
non-tagged protein was localized to the mitochondria
8559_at 0.45855503 -0.01298867 0.35107733 0.364066 DHHC-CRD proteinNA YOL003C
3141_i_at 0.45316338 -0.03342233 0.33093767 0.36436 NA NA YILCDELTA3
7948_at 0.31927343 -0.00523333 0.359689 0.36492233 SRP72 YPL210C
signal recognition particle component
6760_g_at 0.48221871 -0.010577 0.354431 0.365008 NA YCL057c-a
Hypothetical ORF, has similarity to proteins in S. pombe, C. elegan
5235_at 0.38181139 -0.00684567 0.35827033 0.365116 SEC15
exocyst complex component YGL233W
9404_at 0.58054581 -0.08889967 0.276274 0.36517367 FSH2 YMR222C
Serine hydrolase that localizes to both the nucleus and cytoplasm.
8652_at 0.23934152 -0.010342 0.35523267 0.36557467 the meiotic outer plaque of the spindle pole body, inv
Component of SPO21 YOL091W
10523_at 0.46399951 -0.063985 0.30214133 0.36612633 Hypothetical ORFNA YKR051W
9149_at 0.47627098 -0.05108633 0.31537533 0.36646167 RFC3 YNL290W
replication factor C subunit 3|similar to human RFC 36 kDa subunit
6566_at 0.31311899 -0.018328 0.348248 0.366576 VAM6 YDL077C
Required for the vacuolar morphogenesis in yeast
7541_at 0.56867726 -0.03379767 0.33332733 0.367125 SKI3 YPR189W
antiviral protein that blocks translation of un-polyadenylated mRNAs
7644_at 0.47871131 -0.03436367 0.332971 0.36733467 MRD1 YPR112C
Essential conserved protein that associates with 35S precursor rRN
9607_at 0.41961202 -0.05128767 0.31613733 0.367425 RSF1 YMR030W
Protein localized to both the nucleus and mitochondrion; mutant dis
10770_at 0.24907405 -0.01531467 0.352388 0.36770267 ACP1
acyl carrier protein YKL192C
7966_at 0.49422918 -0.099886 0.26812433 0.36801033 DDC1 YPL194W
DNA damage checkpoint protein, part of a PCNA-like complex requ
10923_at 0.17123152 -0.002073 0.36633033 0.36840333 CSN12
COP9 signalosome (CSN) subunit YJR084W
7661_at 0.32679187 -0.01872267 0.350004 0.36872667 NA YPR085C
Protein required for cell viability
5070_at 0.25286665 -0.00410867 0.36537967 0.36948833 Hypothetical ORFNA YGL081W
6112_at 0.5156091 -0.008356 0.36116867 0.36952467 Hypothetical ORFNA YDR370C
5692_at 0.59354342 -0.043075 0.326669 0.369744 PHM8 expression
Protein of unknown function, YER037W is induced by low phospha
4141_at 0.36837155 -0.01561367 0.35433133 0.369945 SSM4
integral membrane protein YIL030C
6486_at 0.62904325 -0.18259733 0.18761167 0.370209 GPM2 YDL021W
Similar to GPM1 (phosphoglycerate mutase); converts 3-phosphogl
4171_at 0.48820231 -0.018635 0.35229367 0.37092867 NA NA YIL095W
7630_at 0.57035746 -0.048885 0.32213 0.371015 MRPL51 YPR100W
Mitochondrial ribosomal protein of the large subunit
11007_at 0.39558879 -0.008059 0.363001 0.37106 RAV1 vacuolar
Regulator of (H+)-ATPase in YJR033Cmembrane
3267_f_at 0.50039933 -0.02600767 0.345217 0.37122467 NA YGLWSIGMA2
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
7979_at 0.3990265 -0.04677333 0.32459867 0.371372 Hypothetical ORFNA YPL225W
6845_at 0.32085002 -0.004742 0.36693833 0.37168033 Hypothetical ORFNA YCR060W
7288_at 0.36654308 -0.007203 0.36449967 0.37170267 ECM2 YBR065C
Pre-mRNA splicing factor, facilitates the cooperative formation of U
11255_at 0.62655756 -0.03129967 0.340577 0.37187667 Hypothetical ORFNA YJL217W
8376_at 0.24044456 -0.004302 0.367841 0.372143 MED4 YOR174W
RNA polymerase II holoenzyme/mediator subunit
9915_at 0.50392426 -0.09040367 0.282803 0.37320667 NA YLR424W
Essential protein present in native splicing complexes; identified as
8603_at 0.30134068 -0.017429 0.356156 0.373585 GSH2
glutathione synthetase YOL049W
7145_at 0.16379873 -0.00679267 0.36687833 0.373671 Hypothetical ORFNA YBR235W
8817_at 0.31811565 -0.02733733 0.34646367 0.373801 BIO3 YNR058W
7,8-diamino-pelargonic acid aminotransferase (DAPA) aminotransfe
11129_at 0.47206847 -0.03249267 0.34135267 0.37384533 NA NA YJL120W
6200_at 0.4259706 -0.007339 0.36706933 0.37440833 RRP45
3'->5' exoribonuclease YDR280W
4504_at 0.63738695 -0.20715667 0.167296 0.37445267 lyt2
Suppressor of SLT2 YHR030C
7937_at 0.36927651 -0.016723 0.357931 0.374654 NA NA YPL178W
9048_at 0.50872522 -0.04652 0.328269 0.374789 Hypothetical ORFNA YNL165W
3593_f_at 0.23237516 -0.008275 0.36656567 0.37484067 NA YPLWDELTA6
Identified by expression profiling and mass spectrometry /// Similar
6896_at 0.46070971 -0.05381067 0.321317 0.37512767 GFD2 identified
Protein of unknown function, YCL036Was a high-copy suppressor o
6190_at 0.4270316 -0.00744833 0.367718 0.37516633 CCC2 YDR270W
copper-transporting P-type ATPase with similarity to human Menkes
10019_at 0.63557365 -0.10377033 0.27157967 0.37535 aconitase ACO1 YLR304C
4354_at 0.12911215 -0.00051867 0.37513133 0.37565 MDM31 YHR194W
Mitochondrial Distribution and Morphology
9583_at 0.25262895 -0.01499333 0.36202467 0.377018 two-hybrid assay and is part of large protein complex
binds Sin3p in STB2 YMR053C
9474_at 0.2939356 -0.020396 0.357092 0.377488 DNF3 translocase
Potential aminophospholipid YMR162C
6381_at 0.39889743 -0.03503433 0.34272033 0.37775467 NA ARX1 YDR101C
8779_at 0.35122607 -0.00171667 0.37636933 0.378086 DSE4 YNR067C
Daughter cell-specific secreted protein with similarity to glucanases
7398_at 0.48097158 -0.080747 0.297777 0.378524 Hypothetical ORFNA YBL054W
5357_at 0.60825808 -0.169014 0.20964633 0.37866033 GSY1 YFR015C
glycogen synthase (UDP-glucose-starch glucosyltransferase)
3271_i_at 0.55795762 -0.089942 0.28893533 0.37887733 NA NA YGLCSIGMA3
5630_at 0.54673014 -0.05061867 0.32844067 0.37905933 PRS2 YER099C
ribose-phosphate pyrophosphokinase
4330_at 0.45210176 -0.04125133 0.33794467 0.379196 NA NA YHR063w-a
5964_at 0.11646965 -0.00343733 0.37640467 0.379842 VPS3
vacuolar sorting protein YDR495C
10365_at 0.47126781 -0.04680967 0.333147 0.37995667 Component of SPA2 YLL021W
the polarisome, which functions in actin cytoskeletal
10607_at 0.30386535 -0.02272033 0.35739167 0.380112 PRI2
DNA primase p58 polypeptide YKL045W
8851_at 0.34011188 -0.01494067 0.36526533 0.380206 RPC34 YNR003C
RNA polymerase III (C) 34 kDa subunit
10735_at 0.47157527 -0.07889967 0.30144533 0.380345 MRPL31 YKL138C
Mitochondrial ribosomal protein of the large subunit
10468_at 0.43604065 -0.04050567 0.33991567 0.38042133 NA YKR089C
Protein of unknown function found in lipid particles; potential Cdc28
11201_at 0.27740397 -0.00434167 0.37665033 0.380992 PFD1 YJL179W
bovine prefoldin subunit 1 homolog (putative)
9724_at 0.52638626 -0.02463167 0.35638667 0.38101833 HMG1 YML075C
3-hydroxy-3-methylglutaryl-coenzyme A (HMG-CoA) reductase isoz
8497_at 0.19115361 -0.004387 0.376688 0.381075 GYP1
GTPase activating protein (GAP)YOR070C
7957_at 0.6338876 -0.09823333 0.283707 0.38194033 Hypothetical ORFNA YPL201C
4555_at 0.22864042 -0.00920067 0.37278433 0.381985 STE20 the PAK (p21-activated kinase) family,
Signal transducing kinase of YHL007C
5655_n_at 0.62112429 -0.18164367 0.20064533 0.382289 NA NA YER044C-A
7786_at 0.39332874 -0.01482533 0.367519 0.38234433 RRP12 YPL012W
Required for normal pre-rRNA Processing. Member of a group of se
10551_at 0.6313187 -0.17214867 0.21117767 0.38332633 DAL80 YKR034W
GATA family transcriptional repressor
9869_at 0.34305134 -0.005 0.37862667 0.38362667 NA
Identified by SAGE YLR264c-a
4706_at 0.49388851 -0.04388733 0.33974767 0.383635 ribonuclease H RNH70 YGR276C
7593_at 0.21798786 -0.00126333 0.38257133 0.38383467 NA NA YPR150W
4931_at 0.26831511 -0.00670067 0.37768 0.38438067 RRP46
3'->5' exoribonuclease YGR095C
7622_at 0.23063407 -0.00611367 0.37842933 0.384543 MSS18 YPR134W
Protein involved in splicing intron a15beta of COX1
3201_r_at 0.66766444 -0.17033467 0.21437333 0.384708 NA NA YHLWDELTA2
6081_at 0.38198862 -0.00891733 0.37582533 0.38474267 NA NKP1 YDR383C
6209_at 0.42868772 -0.00634333 0.378493 0.38483633 containing tetratricopeptide repeat (TPR)
69 kDa proteinPEX5 YDR244W
4407_at 0.34046185 -0.02818467 0.35691867 0.38510333 BZZ1
Associated with LAS17p/Bee1p YHR114W
5185_at 0.41052275 -0.015779 0.36947533 0.38525433 HOS2 YGL194C
Histone deacetylase required for gene activation via specific deace
5738_at 0.49421891 -0.02278333 0.362736 0.38551933 NA NA YEL008W
9311_at 0.34192045 -0.01277167 0.372896 0.38566767 SCW10
soluble cell wall protein YMR304C-A
9051_at 0.40252765 -0.03448667 0.35151967 0.38600633 RIO2 YNL207W
Protein required for cell viability
8298_at 0.3893094 -0.04041833 0.34571567 0.386134 GrpE homologMGE1 YOR232W
10938_at 0.4970198 -0.111759 0.27449367 0.38625267 YUH1
ubiquitin hydrolase YJR099W
9689_at 0.32173803 -0.017158 0.369228 0.386386 ORC1 YML065W
origin recognition complex (ORC) 120 kDa (largest) subunit|similar
4462_at 0.16810748 -0.00243333 0.383984 0.38641733 Hypothetical ORFNA YHR080C
6270_at 0.69640851 -0.15606467 0.23095133 0.387016 UPC2 YDR213W
zinc finger transcription factor of the Zn(2)-Cys(6) binuclear cluster
5153_at 0.11290074 -0.003582 0.383446 0.387028 MRM2
2'O-ribose methyltransferaseYGL136C
7181_at 0.1914556 -0.00534067 0.38185433 0.387195 FZO1 YBR179C
Drosophila melanogaster fuzzy onions gene homolog|integral prote
11384_at 0.44440269 -0.06715933 0.320155 0.38731433 Hypothetical ORFNA YAL064W
7787_at 0.19643036 -0.004297 0.38306167 0.38735867 TAF3
TAF(II) complex component YPL011C
9544_at 0.34026209 -0.00890667 0.378478 0.38738467 NA transcription
Protein of unknown function, YMR102C is activated by paralogou
10242_at 0.3386512 -0.01061167 0.37752833 0.38814 v-SNARE BOS1 YLR078C
8998_at 0.33411469 -0.022195 0.366611 0.388806 NAF1
Nuclear Assembly Factor YNL124W
5731_at 0.51369472 -0.07666033 0.312224 0.38888433 Hypothetical ORFNA YEL016C
4088_at 0.40461167 -0.01560433 0.373355 0.38895933 Hypothetical ORFNA YIR007W
10061_at 0.57169597 -0.11689033 0.27233467 0.389225 HSP60
chaperonin|groEL homolog YLR259C
5098_at 0.57716694 -0.03360733 0.35593633 0.38954367 LSG1
Killer toxin REsistant YGL099W
9021_at 0.3510583 -0.00632967 0.38350767 0.38983733 snRNP proteinLSM7 YNL147W
9068_at 0.42021473 -0.01658833 0.37336367 0.389952 Hypothetical ORFNA YNL191W
5503_at 0.48324891 -0.015135 0.37494433 0.39007933 NA NA YER148w-a
8948_at 0.22650567 -0.00413333 0.38597433 0.39010767 END3 YNL084C
EH domain-containing protein involved in endocytosis, actin cytoske
4973_at 0.41409204 -0.004065 0.38604667 0.39011167 TFC4 YGR047C
131 kDa|transcription factor tau (TFIIIC) subunit
6187_at 0.3717797 -0.023639 0.36652033 0.39015933 NA YDR267C
Protein required for cell viability
8580_at 0.42383638 -0.058664 0.33166933 0.39033333 MDM38 YOL027C
Mitochondrial Distribution and Morphology
6311_at 0.18162676 -0.00378267 0.38733767 0.39112033 TRM82 YDR165W
Subunit of a tRNA methyltransferase complex composed of Trm8p
5783_at 0.318926 -0.00190267 0.389558 0.39146067 NA NA YEL052W
5959_at 0.46729885 -0.085866 0.30563567 0.39150167 Kinase
Pkb-activating PKH1 Homologue YDR490C
6352_at 0.43153764 -0.00323367 0.38843567 0.39166933 Hypothetical ORFNA YDR117C
11052_at 0.09281741 -0.00210633 0.39062033 0.39272667 Hypothetical ORFNA YJL016W
10759_at 0.2332471 -0.00359 0.38963833 0.39322833 NA NA YKL160W
6314_at 0.2546646 -0.00357367 0.38967367 0.39324733 CDC37 YDR168W
Essential Hsp90p co-chaperone; necessary for passage through th
3190_f_at 0.24760095 -0.01752733 0.37579167 0.393319 COS8 YHL048W
Nuclear membrane protein, member of a family of conserved, often
7752_at 0.46731477 -0.06732167 0.326218 0.39353967 HAT1
histone acetyltransferase YPL001W
8170_at 0.22677319 -0.013443 0.380166 0.393609 subunit
Proposed betaGPB1 of theYOR371C heterotrimeric G protein that interacts
6695_at 0.53294706 -0.05452067 0.339519 0.39403967 NOP6 YDL213C
Protein with similarity to hydrophilins, which are involved in the adap
8727_at 0.35849158 -0.01433767 0.38023967 0.39457733 Hypothetical ORF NA YOL153C
6185_at 0.26709498 -0.01507933 0.37992633 0.39500567 SRB7 YDR308C
RNA polymerase II holoenzyme/mediator subunit
10260_at 0.34836035 -0.01477033 0.380446 0.39521633 NA YLR051C
Protein required for cell viability
10968_at 0.1672115 -0.00402933 0.39145833 0.39548767 Hypothetical ORF NA YJR039W
4479_at 0.5127077 -0.02048833 0.375149 0.39563733 NA NA YHR049C-A
3853_f_at 0.65803179 -0.15114033 0.244896 0.39603633 by YJR162C
--- /// IdentifiedNA fungal homology and RT-PCR /// Identified by gen
7237_at 0.55381142 -0.10075267 0.29529133 0.396044 MRPS9
ribosomal protein S9 (putative) YBR146W
6647_at 0.22556276 -0.010943 0.385416 0.396359 Hypothetical ORF NA YDL173W
6461_at 0.34528507 -0.02072433 0.37576167 0.396486 RMD1 for sporulation
Cytoplasmic protein requiredYDL001W
11015_at 0.37445725 -0.04208267 0.35460967 0.39669233 CTK2 YJL006C
RNA polymerase II C-terminal domain kinase beta subunit, similar t
5497_at 0.30281823 -0.00809333 0.38906433 0.39715767 BUD25 YER014c-a
Protein involved in bud-site selection; diploid mutants display a rand
6007_at 0.12591187 -0.00273633 0.39452467 0.397261 protein YDR446W
Non-essential ECM11 of unknown function, GFP fusion protein is pr
8264_at 0.68984308 -0.32983767 0.06755667 0.39739433 MPD1 YOR288C
disulfide isomerase related protein
9350_at 0.685703 -0.056694 0.340726 0.39742 COX7
cytochrome c oxidase subunit VII YMR256C
4107_at 0.42254809 -0.06147767 0.33616733 0.397645 VID28
Vacuole import and degradation YIL017C
7652_at 0.28008106 -0.001336 0.39680833 0.39814433 B-type cyclin CLB5 YPR120C
6555_at 0.18072481 -0.00916667 0.389952 0.39911867 Hypothetical ORF NA YDL086W
5567_at 0.61865206 -0.05667233 0.34269233 0.39936467 LCP5 YER127W
Essential protein involved in maturation of 18S rRNA; depletion lead
10050_at 0.39221391 -0.001326 0.398082 0.399408 Hypothetical ORF NA YLR290C
4189_at 0.36632499 -0.03383967 0.36570133 0.399541 26S proteasome, substrate of the N-acetyltransferas
Subunit of the RPN2 YIL075C
3928_f_at 0.29221743 -0.02809967 0.37148067 0.39958033 NA NA YARCDELTA8
5322_at 0.29064996 -0.01935367 0.38172833 0.401082 HIS2
histidinolphosphatase YFR025C
5923_at 0.26476841 -0.01292733 0.388195 0.40112233 Hypothetical ORF NA YDL085c-a
6621_at 0.40613177 -0.00470267 0.39644233 0.401145 mutS homologMSH5 YDL154W
8391_at 0.37042982 -0.03553633 0.365797 0.40133333 ELG1 progression
Protein required for S phase YOR144C and telomere homeostasis
10519_at 0.62016457 -0.17390433 0.22752233 0.40142667 NA NA YKR047W
4747_at 0.27996579 -0.01988367 0.382077 0.40196067 SKI2-like helicaseSLH1 YGR271W
9874_at 0.37701147 -0.048922 0.35307533 0.40199733 Hypothetical ORF MAG2 YLR427W
4991_at 0.55118817 -0.06420533 0.337949 0.40215433 NA NA YGR018C
5528_at 0.25311784 -0.003189 0.399554 0.402743 DMC1 YER179W
meiosis-specific protein related to RecA and Rad51p. Dmc1p coloc
6154_at 0.33227474 -0.00116967 0.40173833 0.402908 TIM11 YDR322C-A
mitochondrial F1F0-ATPase subunit e
4136_at 0.31416246 -0.011162 0.39221367 0.40337567 protein kinase CKA1 YIL035C
CK2 alpha subunit
4969_at 0.59935209 -0.182304 0.22146567 0.40376967 Hypothetical ORF NA YGR043C
5782_at 0.36889879 -0.01046 0.39448367 0.40494367 NA NA YEL053C
6283_at 0.19354951 -0.00111467 0.40394 0.40505467 SAS4 YDR181C
Involved in silencing at telomeres, HML and HMR
4560_at 0.16233293 -0.00027167 0.405102 0.40537367 endosomal Vps27p-Hse1p complex required for sorti
Subunit of the HSE1 YHL002W
7828_at 0.72678272 -0.31658 0.088825 0.405405 ALD6
aldehyde dehydrogenase YPL061W
10542_at 0.39768138 -0.03068933 0.37486033 0.40554967 RPC37
RNA polymerase III subunit YKR025W
11313_at 0.58075641 -0.05590433 0.34998933 0.40589367 FUN14
Protein of unknown function YAL008W
11350_at 0.43591552 -0.010485 0.395488 0.405973 PSK1 YAL017W
contains serine/threonine protein kinase domain and shows homolo
10312_at 0.36628614 -0.01801333 0.38825133 0.40626467 Hypothetical ORF NA YLR016C
7711_at 0.30965698 -0.00451933 0.402408 0.40692733 MCM16 YPR046W
Involved in a nonessential role that governs the kinetochore-microtu
4794_at 0.44373236 -0.02122633 0.385977 0.40720333 NA NA YGR228W
3605_f_at 0.30526974 -0.006608 0.40104933 0.40765733 NA YORWDELTA12
Similar to probable membrane protein YDR340W and to yeast CYC
7666_at 0.30322598 -0.01230267 0.39546967 0.40777233 Hypothetical ORF NA YPR090W
10240_at 0.57725538 -0.11840433 0.29115133 0.40955567 NA NA YLR076C
8975_at 0.43755385 -0.04396667 0.36564567 0.40961233 POL1 YNL102W
DNA polymerase I alpha subunit p180
5066_at 0.33547316 -0.022136 0.387533 0.409669 NA NA YGL041C
5636_at 0.38962766 -0.015102 0.39521833 0.41032033 isocitrate lyase ICL1 YER065C
4758_at 0.36387287 -0.00918167 0.40181733 0.410999 KEL2 YGR238C
Protein that functions in a complex with Kel1p to negatively regulate
4066_at 0.17845678 -0.006316 0.40490567 0.41122167 DCG1 expression
Protein of unknown function, YIR030C is sensitive to nitrogen cata
8327_at 0.3968078 -0.028926 0.38234367 0.41126967 RUD3 YOR216C
Novel matrix protein that is involved in the structural organization of
9734_at 0.45549176 -0.06522433 0.34645333 0.41167767 defines a new NA YML108W
subfamily of the split beta-alpha-beta sandwiches.
9053_at 0.6236366 -0.07968333 0.33234733 0.41203067 RTT106 /// SPS18
YNL205C
Regulator of Ty1 Transposition - same phenotype as RTT101 - RTT
6781_at 0.53136983 -0.04449533 0.36762867 0.412124 NA NA YCR087W
10353_at 0.30202921 -0.021273 0.39181767 0.41309067 NA NA YLL033W
4708_at 0.53332498 -0.08098733 0.332197 0.41318433 CWC22 of a complex containing Cef1p, has s
Essential protein, componentYGR278W
8884_at 0.17999643 -0.00913467 0.40438933 0.413524 Hypothetical ORFNA YNL011C
8395_at 0.41496024 -0.010699 0.40286333 0.41356233 SPP2 YOR148C
Required for final stages of splicesome maturation; promotes step 1
6319_at 0.60332479 -0.12245033 0.29118033 0.41363067 inositol YDR173C
dual specificityARG82 1,4,5-trisphosphate 6-kinase/inositol 1,4,5,6-
7935_at 0.49852784 -0.08636033 0.32741767 0.413778 TCO89
Tor Complex One, 89 kDa subunit YPL180W
6066_at 0.20795866 -0.00775167 0.40629833 0.41405 Hypothetical ORFNA YDR415C
7815_at 0.31632366 -0.02140933 0.392703 0.41411233 AAA ATPase YTA6 YPL074W
4135_at 0.28275798 -0.02892367 0.38558967 0.41451333 CST6 YIL036W
basic leucine zipper (bZIP) transcription factor
3866_at 0.30150366 -0.03171967 0.38282767 0.41454733 NA NA YJLCDELTA7
8868_at 0.31217168 -0.00078567 0.41397733 0.414763 CRZ1
transcription factor YNL027W
9004_at 0.37943065 -0.02277 0.392003 0.414773 DCP2 YNL118C
Protein required for the decapping of mRNAs, functions to allow the
6168_at 0.24329353 -0.01164733 0.40365067 0.415298 DPL1 YDR294C
dihydrosphingosine phosphate lyase (also known as sphingosine p
10941_at 0.29254236 -0.00010233 0.41584833 0.41595067 VPS25 YJR102C
vacuolar protein sorting (putative)
8015_at 0.36530267 -0.033308 0.382807 0.416115 regulator
transcriptional RVB2 YPL235W
5340_at 0.39001474 -0.05433667 0.36192967 0.41626633 ERJ5 YFR041C
Endoplasmic reticulum protein that may function as a cochaperone,
10339_at 0.38763995 -0.01503567 0.40148667 0.41652233 ORC3 YLL004W
origin recognition complex subunit
6911_at 0.4592154 -0.03282933 0.38407233 0.41690167 DCC1 Cohesion
Defective in sister ChromatidYCL016C
5534_at 0.45742782 -0.07512567 0.34201233 0.417138 Hypothetical ORFNA YER185W
4106_at 0.60191743 -0.04469767 0.372853 0.41755067 FAF1 YIL019W
Protein required for pre-rRNA processing and 40S ribosomal subun
4369_at 0.42111527 -0.010133 0.407518 0.417651 DNA2
DNA replication helicase YHR164C
7041_s_at 0.33341909 -0.03312567 0.38460867 0.41773433 REI1 YBR267W
Protein of unknown function involved in bud growth in the mitotic sig
5706_at 0.29932563 -0.002438 0.416003 0.418441 cofactor
tubulin folding PAC2 E YER007W
9935_at 0.59997157 -0.07604067 0.34246033 0.418501 NA NA YLR400W
7763_at 0.14799153 -0.006742 0.41234 0.419082 Hypothetical ORFNA YPR011C
9870_s_at 0.40894483 -0.06619067 0.35291933 0.41911 MRPL15 YLR312W-A
Mitochondrial ribosomal protein of the large subunit
7222_at 0.47063959 -0.099122 0.32003033 0.41915233 CCZ1 YBR131W
Calcium Caffeine Zinc sensitivity
8423_at 0.24522518 -0.01493133 0.40436467 0.419296 Hypothetical ORFNA YOR131C
8509_at 0.16385783 -0.006241 0.41327033 0.41951133 PEP12 YOR036W
c-terminal TMD|integral membrane protein
8979_at 0.28348444 -0.01988633 0.399813 0.41969933 RAS2
small GTP-binding protein YNL098C
10303_at 0.20789907 -0.01249133 0.407227 0.41971833 Hypothetical ORFNA YLR049C
9608_at 0.29900351 -0.01747467 0.40232233 0.419797 NA green fluorescent protein (GFP)-fusion
Protein of unknown function; YMR031C
9660_at 0.32737526 -0.03126433 0.38855467 0.419819 MRPL39 YML009C
Mitochondrial ribosomal protein of the large subunit
4246_at 0.56504523 -0.10406133 0.31584367 0.419905 GUT2 YIL155C
glycerol-3-phosphate dehydrogenase
10741_at 0.53669252 -0.04969 0.37086733 0.42055733 STE3
a-factor receptor YKL178C
9545_at 0.71024804 -0.15306833 0.267507 0.42057533 NA NA YMR103C
8831_at 0.42732227 -0.051688 0.368916 0.420604 CPR8 YNR028W
cyclophilin|peptidyl-prolyl cis-trans isomerase (PPIase)
4111_at 0.22930588 -0.00968 0.411006 0.420686 MNT3
alpha-1,3-mannosyltransferase YIL014W
7655_at 0.32647499 -0.03511867 0.38566533 0.420784 MRL1 YPR079W
Mannose 6-phosphate Receptor Like
4531_at 0.26085921 -0.022531 0.398834 0.421365 VPS29
vacuolar protein sorting YHR012W
6872_at 0.62050798 -0.08326933 0.338171 0.42144033 NA NA YCL007C
5334_at 0.43122007 -0.06007867 0.36162567 0.42170433 Hypothetical ORFNA YFR035C
5586_at 0.51669534 -0.066602 0.35526267 0.42186467 snRNP proteinLSM5 YER146W
11336_at 0.28726408 -0.02104767 0.40087067 0.42191833 SNC1 YAL030W
Snc2p homolog|synaptobrevin homolog
10182_at 0.52316515 -0.09258133 0.33014067 0.422722 Hypothetical ORFNA YLR152C
3938_at 0.490057 -0.07620533 0.34664567 0.422851 AST1 YBL069W
Peripheral membrane protein that interacts with the plasma membra
9196_s_at 0.19861577 -0.009267 0.41366333 0.42293033 Hypothetical ORFNA YNL335W
7726_at 0.29304301 -0.00056333 0.42277033 0.42333367 CDC54 YPR019W
Essential helicase component of heterohexameric MCM2-7 comple
9606_at 0.15697172 -0.000897 0.422468 0.423365 FAR8 YMR029C
Protein involved in G1 cell cycle arrest in response to pheromone, i
3831_s_at 0.51608485 -0.06707333 0.35658133 0.42365467 NA YKR106W
Protein of unconfirmed function; displays a topology characteristic o
10866_at 0.1017053 -0.00363967 0.42060733 0.424247 TIM8 YJR135w-a
mitochondrial protein import machinery subunit
4873_at 0.17960672 -0.00908667 0.41525233 0.424339 UTP8
U3 snoRNP protein YGR128C
10344_at 0.4138895 -0.04679833 0.37792233 0.42472067 NOC3 YLR002C
Protein that forms a nuclear complex with Noc2p that binds to 66S r
10034_at 0.30435738 -0.01149633 0.413405 0.42490133 DBP9
Dead-Box Protein 9 YLR276C
10006_at 0.26561337 -0.010659 0.41443467 0.42509367 Glycerol
Suppressor of SGD1 Defect YLR336C
7943_at 0.42719551 -0.064527 0.36060667 0.42513367 COX10
farnesyl transferase (putative) YPL172C
4804_at 0.45114242 -0.027909 0.39782833 0.42573733 xylulokinase XKS1 YGR194C
4759_at 0.53625781 -0.03241367 0.39399033 0.426404 peroxin PEX21 YGR239C
7157_at 0.42502019 -0.05333767 0.37335167 0.42668933 the hexamericYBR202W
Component of CDC47 MCM complex, which is important for
8858_at 0.22666604 -0.01043667 0.41668067 0.42711733 CSE2 subcomplex
RNA polymerase II mediator YNR010W component
10546_at 0.2253449 -0.00501233 0.42237767 0.42739 NA SET3 YKR029C
4535_at 0.61062068 -0.05231333 0.37507767 0.427391 C-terminus YHR016C
SH3 domain inYSC84
7435_at 0.48067353 -0.07402833 0.353437 0.42746533 SKT5 YBL061C
Activator of Chs3p (chitin synthase III), recruits Chs3p to the bud ne
7733_at 0.53700986 -0.029801 0.39771767 0.42751867 acid trehalase ATH1 YPR026W
5045_at 0.37933046 -0.03705133 0.39086733 0.42791867 ATE1 YGL017W
arginyl-tRNA-protein transferase
4956_at 0.45480392 -0.08081733 0.34712333 0.42794067 MSP1 ATPase
40 kDa membrane-spanning YGR028W
5184_at 0.20295779 -0.00388933 0.42409267 0.427982 GCN1 YGL195W
translational activator of GCN4 through activation of GCN2 in respo
10603_at 0.30493679 -0.015931 0.41230933 0.42824033 CSE4 YKL049C
similar to histone H3 and to human centromere protein CENP-A
8977_at 0.65696946 -0.059133 0.36913767 0.42827067 Hypothetical ORFNA YNL100W
5610_at 0.37933023 -0.04289933 0.38563933 0.42853867 UTP7
U3 snoRNP protein YER082C
8482_at 0.39881491 -0.034672 0.39414667 0.42881867 VHS3 suppresses
Gene whose overexpression YOR054C the synthetic lethality of th
6308_at 0.36106374 -0.04256733 0.38715767 0.429725 NBP2 involved in
interacts with Nap1, which is YDR162C histone assembly
5299_at 0.2074243 -0.00341667 0.426562 0.42997867 Hypothetical ORFNA YFR045W
3303_f_at 0.36939371 -0.060651 0.36951867 0.43016967 NA NA YGLWDELTA2
6467_at 0.5506516 -0.116052 0.31452033 0.43057233 SOK1 the conditional growth defect of severa
gene dosage suppressors of YDR006C
10149_at 0.47467336 -0.03283233 0.39787267 0.430705 NA NA YLR169W
10662_at 0.42241188 -0.06786267 0.36288367 0.43074633 DHR2 YKL078W
Required for 18S ribosomal RNA synthesis
8960_at 0.548385 -0.09083367 0.340398 0.43123167 S.
Homologue of NApombe DMA1 YNL116W
5083_at 0.43548343 -0.00158767 0.42979667 0.43138433 NA NA YGL069C
4792_at 0.51456026 -0.08596333 0.34552433 0.43148767 NA NA YGR226C
8467_at 0.37510419 -0.02481467 0.40695867 0.43177333 calcium and lipid binding domains; green fluorescen
Contains threeTCB1 YOR086C
11189_at 0.25235204 -0.00570933 0.426169 0.43187833 NA YJL149W
Hypothetical ORF; has similarity to F-box proteins
8626_at 0.6331397 -0.166284 0.26602267 0.43230667 protein YOL071W
Non-essential EMI5 of unknown function required for transcription
6338_at 0.52381145 -0.04196233 0.39067233 0.43263467 EKI1
ethanolamine kinase YDR147W
7849_at 0.31991534 -0.01128767 0.42149233 0.43278 ELP3 YPL086C
histone acetyltransferase|RNA polymerase II Elongator subunit
5199_at 0.40430816 -0.060186 0.373969 0.434155 GTS1 YGL181W
Contains a zinc-finger in the N-terminus and a long Gln-rich region
5186_at 0.59852824 -0.05926833 0.375327 0.43459533 NA NA YGL193C
9650_at 0.41946756 -0.037156 0.39747467 0.43463067 TRM9 YML014W
mcm5U/mcm5s2U tRNA carboxyl methyltransferase
9877_at 0.39884287 -0.029795 0.404877 0.434672 NA NA YLR430W
8541_at 0.30551054 -0.030128 0.40468167 0.43480967 AHC1 YOR023C
Ada histone acetyltransferase complex component
6589_at 0.27969918 -0.03351867 0.401326 0.43484467 RPN6 YDL097C
proteasome regulatory particle subunit
10945_at 0.23460187 -0.01291967 0.422221 0.43514067 Hypothetical ORFNA YJR061W
4409_at 0.58122532 -0.224671 0.21091933 0.43559033 COX23 YHR116W
Protein that functions in mitochondrial copper homeostasis and is e
10352_at 0.3657324 -0.04692433 0.38891667 0.435841 RIX7 family, required for export of pre-riboso
Putative ATPase of the AAA YLL034C
8279_at 0.13417987 -0.008672 0.42723867 0.43591067 third YOR258W
Member of theHNT3branch of the histidine triad (HIT) superfamily o
6017_at 0.39419062 -0.07809367 0.35798967 0.43608333 NA green fluorescent protein (GFP)-fusion
Protein of unknown function; YDR458C
5622_at 0.36053914 -0.02217967 0.41407267 0.43625233 TSC11
Binding Protein of TOR YER093C
4983_g_at 0.32283029 -0.02065433 0.41612833 0.43678267 NMA2 YGR010W
nicotinamide/nicotinic acid mononucleotide adenylyltransferase
5065_at 0.20812221 -0.018588 0.418446 0.437034 NA NA YGL042C
8243_at 0.37165972 -0.05004833 0.38712433 0.43717267 SNU66 YOR308C
66kD U4/U6.U5 snRNP associated protein
11152_g_at 0.60949095 -0.07381867 0.36370133 0.43752 YAK1 YJL142C
Serine-threonine protein kinase
4751_at 0.36778922 -0.052725 0.38513167 0.43785667 PHB2 YGR231C
mammalian BAP37 and S. cerevisiae Phb1p homolog|prohibitin hom
9491_at 0.19209212 -0.00290767 0.43529733 0.438205 PSO2 YMR137C
interstrand crosslink repair protein
8935_at 0.5787668 -0.15853733 0.27971067 0.438248 COX5A
cytochrome c oxidase chain Va YNL052W
10798_at 0.30722002 -0.03887433 0.399781 0.43865533 REF YKL214C
Member of theYRA2(RNA and export factor binding proteins) family
6329_at 0.24498322 -0.02895333 0.409998 0.43895133 RUB1
ubiquitin-like protein YDR139C
11349_at 0.29690726 -0.01372867 0.42523367 0.43896233 Hypothetical ORFNA YAL018C
9908_at 0.24342741 -0.003973 0.435596 0.439569 VPS36 sorting
Defective in vacuolar protein YLR417W
8180_at 0.42636447 -0.08977267 0.349802 0.43957467 FRE3 YOR381W
ferric reductase transmembrane component
10087_at 0.39032112 -0.05124833 0.388415 0.43966333 Lipoyl ligase LIP2 YLR239C
6507_at 0.24271711 -0.02329133 0.417221 0.44051233 FAD synthetase FAD1 YDL045C
4237_at 0.21455448 -0.01342367 0.42766067 0.44108433 nitrilase NIT1 YIL165C
3139_f_at 0.7175868 -0.10549933 0.335666 0.44116533 NA YILCDELTA2
Similar to probable membrane protein YLR334C and ORF YOL106W
7540_at 0.33088501 -0.05090967 0.39029733 0.441207 MLC2
light chain for Myo1p YPR188C
5364_at 0.45467534 -0.02899 0.41269533 0.44168533 Hypothetical ORFNA YFR022W
8380_at 0.7035697 -0.24391233 0.198034 0.44194633 GAC1
Glc7p regulatory subunit YOR178C
9532_at 0.43952267 -0.086309 0.355953 0.442262 Hypothetical ORFNA YMR090W
8374_at 0.32985841 -0.01751767 0.42753367 0.44505133 YRM1
zinc finger transcription factor YOR172W
3200_i_at 0.59080452 -0.09590267 0.34933267 0.44523533 NA NA YHLWDELTA2
8198_at 0.44963418 -0.088967 0.357262 0.446229 MSC6 green fluorescent protein (GFP)-fusion
Protein of unknown function, YOR354C
6049_at 0.42249418 -0.056638 0.39002133 0.44665933 UTP5
U3 snoRNP protein YDR398W
8161_at 0.34975053 -0.05407033 0.39273867 0.446809 NA NA YOR362C
10074_at 0.55864988 -0.178851 0.26804133 0.44689233 NA NA YLR269C
7748_at 0.2677523 -0.016033 0.43096467 0.44699767 AEP3 YPL005W
Peripheral mitochondrial inner membrane protein, located on the m
4789_at 0.43512682 -0.01899 0.42828233 0.44727233 HSV2 YGR223C
Phosphatidylinositol 3,5-bisphosphate-binding protein, predicted to
8194_at 0.05764601 -0.00035533 0.44698133 0.44733667 MNE1 YOR350C
similar to Lucilia illustris mitochondria cytochrome oxidase
8311_at 0.24739258 -0.025917 0.42171533 0.44763233 DGA1 YOR245C
Acyl-CoA : diacylglycerol acyltransferase
9878_at 0.46778107 -0.05517133 0.39249133 0.44766267 ATG23 YLR431C
Peripheral membrane protein, required for autophagy and for the cy
10335_at 0.43591613 -0.08962367 0.358083 0.44770667 DRS1 YLL008W
ATP dependent RNA helicase (putative)
7812_at 0.37050541 -0.05795633 0.38976267 0.447719 ATP4
F(1)F(0)-ATPase complex subunit bYPL078C
10764_at 0.35846103 -0.04104767 0.40682833 0.447876 NA NA YKL202W
5249_at 0.26429362 -0.029444 0.418541 0.447985 NIF3 YGL221C
similar to Listeria monocytogenes major sigma factor (rpoD gene pr
5262_at 0.24244389 -0.02848267 0.420857 0.44933967 DNA-binding protein of low sequence specificity in vit
C4 zinc finger HFM1 YGL251C
10730_at 0.39925718 -0.05916933 0.390242 0.44941133 LTV1 YKL143W
Protein required for viability at low temperature
10135_at 0.36831995 -0.017178 0.43233067 0.44950867 YKE2 YLR200W
bovine NABC complex component homolog|non-native actin bindin
9281_at 0.45468966 -0.00175633 0.44810733 0.44986367 NA NA YMR316C-B
10374_at 0.30604195 -0.01793733 0.43214733 0.45008467 NA transcription is activated by paralogou
Protein of unknown function, YLL056C
7038_s_at 0.44957052 -0.093158 0.35693133 0.45008933 DER1 YBR201W
Endoplasmic reticulum membrane protein, required for the protein d
10346_at 0.1980982 -0.01171133 0.43876467 0.450476 Hypothetical ORFNA YLR004C
5395_at 0.31834971 -0.02074233 0.43009 0.45083233 RPO41
mitochondrial RNA polymerase YFL036W
10249_at 0.39775945 -0.04792133 0.40295133 0.45087267 ARP6 YLR085C
Actin-related protein. Part of the carboxypeptidase Y pathway.
11253_s_at 0.34665215 -0.040766 0.41027967 0.45104567 glucose permeaseHXT11 YJL219W
6702_at 0.41834083 -0.10061067 0.350464 0.45107467 Hypothetical ORFNA YDL206W
8562_at 0.32436369 -0.021223 0.430009 0.451232 RRP6 YOR001W
Exonuclease component of the nuclear exosome; contributes to the
8614_at 0.19300945 -0.01030167 0.44160833 0.45191 PRE6
20S proteasome alpha-type subunitYOL038W
5211_at 0.44167066 -0.07842067 0.37350067 0.45192133 NA NA YGL214W
7276_at 0.38329277 -0.00112533 0.45093967 0.452065 Hypothetical ORFNA YBR095C
7480_at 0.45315985 -0.068379 0.383935 0.452314 of the YBL106C
yeast homologSRO77Drosophila tumor suppressor, lethal giant larv
9949_at 0.312941 -0.01689033 0.435694 0.45258433 MDM30 YLR368W
Protein involved in determination of mitochondrial structure
8028_at 0.26622158 -0.01092067 0.442908 0.45382867 NA potential Cdc28p substrate
Protein of unknown function, YPL267W
4399_at 0.50158377 -0.05573567 0.398243 0.45397867 NA YHR149C
Protein of unknown function found in the bud tip and bud neck, pote
8914_at 0.49376421 -0.09306933 0.361395 0.45446433 MSK1
lysine-tRNA ligase YNL073W
8282_at 0.45774067 -0.07916333 0.37589967 0.455063 RPN8 YOR261C
proteasome regulatory particle subunit
10046_at 0.37016401 -0.04975033 0.40542967 0.45518 Hypothetical ORFNA YLR287C
10931_at 0.32176079 -0.01316333 0.442139 0.45530233 FIP1
polyadenylation factor I (PF I) YJR093C
9359_at 0.1815072 -0.01008467 0.44528267 0.45536733 Hypothetical ORFNA YMR265C
6261_at 0.30276898 -0.00658167 0.448794 0.45537567 COQ4 YDR204W
encodes component of the coenzyme Q biosynthetic pathway
7602_at 0.47707805 -0.04257967 0.412985 0.45556467 Hypothetical ORFNA YPR158W
5543_at 0.11729291 -0.00755833 0.44812333 0.45568167 PEA2
coiled-coil domain YER149C
7357_at 0.49482273 -0.03092767 0.42503233 0.45596 UTP20
U3 snoRNP protein YBL004W
7280_at 0.20167869 -0.00523833 0.45098733 0.45622567 NA NA YBR099C
7949_at 0.46574884 -0.028455 0.42785867 0.45631367 protein kinase IPL1 YPL209C
9539_at 0.23702494 -0.02345 0.433133 0.456583 GTPase MTG1 YMR097C
8903_at 0.3927228 -0.031303 0.42532067 0.45662367 GPI15 YNL038W
human Pig-H homolog (functional and sequence homolog)
4153_at 0.38004306 -0.03122033 0.425674 0.45689433 NA YIL064W
Putative S-adenosylmethionine-dependent methyltransferase of the
8538_at 0.59542663 -0.23568467 0.22125133 0.456936 HSP10
heat shock protein 10 YOR020C
3876_at 0.11161497 -0.00430133 0.45296867 0.45727 NA NA YJLWTAU4
9776_at 0.25369113 -0.000664 0.45694933 0.45761333 BUL2
a homologue of BUL1 YML111W
6578_at 0.38184826 -0.01792067 0.43981033 0.457731 KIN28 YDL108W
serine-threonine kinase, subunit of transcription factor TFIIK, a subc
6723_at 0.25993478 -0.03080533 0.426943 0.45774833 PTP1 YDL230W
phosphotyrosine-specific protein phosphatase
5387_at 0.33172598 -0.00881433 0.449087 0.45790133 tRNA:pseudouridine synthase, introduces pseudourid
Non-essential DEG1 YFL001W
5162_at 0.26383507 -0.02715433 0.431016 0.45817033 KEM1
5'-3' exonuclease YGL173C
5154_at 0.2388784 -0.02206333 0.43694367 0.459007 PHO85 cyclin PCL10 YGL134W
10736_at 0.15728561 -0.00586567 0.45369067 0.45955633 Hypothetical ORFNA YKL137W
5213_at 0.52191666 -0.08015767 0.37977 0.45992767 motif|hydrophilic protein
heptad repeat VAM7 YGL212W
3506_s_at 0.40077328 -0.04963033 0.41114867 0.460779 NA YBLWTAU1
Identified by expression profiling and mass spectrometry
7995_at 0.41396179 -0.01775567 0.44331767 0.46107333 HFI1 YPL254W
Ada/Gcn5 protein complex member|transcription factor
4912_at 0.15842225 -0.00382833 0.45729867 0.461127 MRPL25 YGR076C
Mitochondrial ribosomal protein of the large subunit
5247_at 0.06911271 -0.00013733 0.46101233 0.46114967 the conservedYGL223C Golgi complex; interacts w
Component of COG1 oligomeric
5170_at 0.394427 -0.04677367 0.414508 0.46128167 NA NA YGL165C
9626_at 0.15932894 -0.004909 0.45638233 0.46129133 MVP1 YMR004W
Protein required for sorting proteins to the vacuole
9710_at 0.33315654 -0.03997733 0.42193033 0.46190767 PRM6 YML047C
Pheromone-regulated protein, predicted to have 2 transmembrane
10284_at 0.42007223 -0.06738933 0.395563 0.46295233 RAD5 YLR032W
ATPase (putative)|DNA helicase (putative)
5346_at 0.1303417 -0.010538 0.45317667 0.46371467 RPN11 YFR004W
Metalloprotease subunit of the 19S regulatory particle of the 26S pr
10055_at 0.39182496 -0.07533633 0.38862867 0.463965 Hypothetical ORFNA YLR253W
7105_at 0.46470003 -0.110686 0.35370933 0.46439533 THI2 YBR240C
Zinc finger protein of the Zn(II)2Cys6 type, probable transcriptional
7094_at 0.27673731 -0.044122 0.420467 0.464589 protein YBR276C
dual specificityPPS1 phosphatase
10975_at 0.22614988 -0.00801133 0.456624 0.46463533 TAH11 YJR046W
DNA replication licensing factor, required for pre-replication comple
6224_at 0.17901743 -0.00825567 0.456407 0.46466267 bZIP protein YAP6 YDR259C
7148_at 0.2611376 -0.035411 0.42932767 0.46473867 RIM2 YBR192W
Protein of the mitochondrial carrier (MCF) family that is required for
5377_at 0.34367974 -0.015976 0.449648 0.465624 AUA1 YFL011W-A
Protein required for the negative regulation by ammonia of Gap1p,
9329_at 0.18958114 -0.01930233 0.44660133 0.46590367 CAT8 YMR280C
zinc-cluster protein involved in activating gluconeogenic genes; rela
9748_at 0.27658188 -0.039573 0.42642167 0.46599467 Hypothetical ORFNA YML096W
10108_at 0.60884777 -0.21887967 0.24721133 0.466091 NA NA YLR216C
10490_at 0.2017384 -0.01692033 0.44934567 0.466266 non-tagged protein was localized to the mitochondria
The authentic, NA YKR065C
6489_at 0.34888656 -0.04413133 0.42240333 0.46653467 ERP3 YDL018C
p24 protein involved in membrane trafficking
4957_at 0.14715231 -0.00815067 0.45839433 0.466545 POP6 YGR030C
Nuclear RNase P subunit|RNase MRP subunit
3274_at 0.4297738 -0.03726 0.42935067 0.46661067 NA NA YGLWDELTA10
9561_at 0.25166492 -0.02287467 0.44401067 0.46688533 NA NA YMR075C-A
8995_at 0.23216558 -0.01760467 0.44967033 0.467275 FAR11 YNL127W
Protein involved in G1 cell cycle arrest in response to pheromone, i
5159_at 0.30381921 -0.04152433 0.42580433 0.46732867 RSM23 YGL129C
ATPase (putative)|mitochondrial ribosome small subunit componen
9343_at 0.16164692 -0.00200633 0.46590467 0.467911 to YMR293C
protein similar NAbacterial glutamyl-tRNA amidotransferases
4259_at 0.26773486 -0.03080533 0.43721467 0.46802 CCT2 chaperonin
Subunit beta of the cytosolic YIL142W Cct ring complex, related t
9719_at 0.46102327 -0.05407867 0.414251 0.46832967 DUS1
tRNA dihydrouridine synthase YML080W
7714_at 0.31500379 -0.03725267 0.43158033 0.468833 ATG11 YPR049C
Oligomeric, coiled-coil, peripheral membrane protein required for st
4576_at 0.51940843 -0.05220967 0.41671433 0.468924 GUT1 YHL032C
converts glycerol to glycerol-3-phosphate|glyerol kinase
9023_at 0.40019472 -0.047864 0.42115333 0.46901733 NA NA YNL145W
4940_at 0.16827215 -0.00269833 0.46642433 0.46912267 septin SPR3 YGR059W
10501_at 0.51461283 -0.12412733 0.345112 0.46923933 protein YKR076W
Non-essential ECM4 of unknown function; similar to Ygr154cp
3816_f_at 0.19364561 -0.005558 0.46418567 0.46974367 NA NA YKLWDELTA3
9511_at 0.16908028 -0.00059867 0.46916967 0.46976833 non-tagged protein was localized to the mitochondria
The authentic, NA YMR115W
8696_at 0.21103474 -0.01690033 0.45381433 0.47071467 Hypothetical ORFNA YOL138C
9962_at 0.41152549 -0.06864333 0.40219667 0.47084 CTF3 YLR381W
Outer kinetochore protein that forms a complex with Mcm16p and M
4133_at 0.33946072 -0.02200733 0.44932433 0.47133167 NOT3 YIL038C
CCR4 transcriptional complex component
3401_f_at 0.4262501 -0.044123 0.42749133 0.47161433 NA NA YDRWDELTA30
9135_at 0.25190456 -0.027935 0.44414133 0.47207633 copper chaperoneATX1 YNL259C
10746_at 0.21707252 -0.027845 0.444648 0.472493 SNU114 YKL173W
U5 snRNP-specific protein related to EF-2
10294_at 0.3412004 -0.051943 0.42150867 0.47345167 Hypothetical ORFNA YLR042C
4900_at 0.46036398 -0.05988033 0.41385067 0.473731 Hypothetical ORFNA YGR110W
8283_at 0.40933772 -0.01325467 0.46051033 0.473765 NA YOR262W
Protein required for cell viability
6576_at 0.46586364 -0.058798 0.41533533 0.47413333 Hypothetical ORFNA YDL110C
7860_at 0.37967822 -0.02329967 0.450865 0.47416467 VPS30 YPL120W
Required for sorting and delivery of soluble hydrolases to the vacuo
10330_at 0.22984151 -0.019627 0.454556 0.474183 PUF YLL013C
member of thePUF3 protein family, which is named for the founding
7627_at 0.11692339 -0.00077567 0.47368733 0.474463 NA VPS66 YPR139C
5426_at 0.28681058 -0.01004767 0.464724 0.47477167 Hypothetical ORFNA YFL054C
9763_at 0.47739387 -0.14002567 0.33515967 0.47518533 NA NA YML122C
4841_at 0.32128954 -0.00907233 0.466141 0.47521333 TFG1 YGR186W
transcription factor TFIIF large subunit
10884_at 0.08050077 -0.00225533 0.47324133 0.47549667 Hypothetical ORFNA YJR136C
8476_at 0.09396416 -0.00293433 0.472767 0.47570133 NA NA YOR094W
11322_at 0.3309067 -0.02163067 0.454313 0.47594367 TFC3 YAL001C
transcription factor tau (TFIIIC) subunit
11184_at 0.24827175 -0.01504 0.46103967 0.47607967 VPS35
retromer complex component YJL154C
10537_at 0.32443486 -0.02506167 0.451137 0.47619867 function unknownVPS51 YKR020W
11059_at 0.33041391 -0.045448 0.43114067 0.47658867 PEP8 YJL053W
vacuolar protein similar to mouse gene H58
9371_at 0.18639722 -0.00830567 0.46868667 0.47699233 FUS2 YMR232W
Cytoplasmic protein localized to the shmoo tip; required for the align
4880_at 0.27146737 -0.038362 0.43890367 0.47726567 PRE9
proteasome component Y13 YGR135W
3258_f_at 0.37734079 -0.05869167 0.41864533 0.477337 NA NA YGLWDELTA4
4342_at 0.34843331 -0.03558233 0.441834 0.47741633 NA green fluorescent protein (GFP)-fusion
Protein of unknown function; YHR182W
7286_at 0.33003345 -0.03622867 0.44128533 0.477514 Hypothetical ORFNA YBR063C
3746_at 0.56322713 -0.091743 0.38586133 0.47760433 NA NA YLRWDELTA15
10699_at 0.23824694 -0.00552567 0.472185 0.47771067 myosin I MYO3 YKL129C
7150_at 0.30991009 -0.04722133 0.431827 0.47904833 Old
Synthetic with NA Yellow EnzymeYBR194W
7573_at 0.41342093 -0.01966367 0.45943767 0.47910133 DPB2 YPR175W
DNA polymerase epsilon subunit B
5261_at 0.24541835 -0.00613 0.47318467 0.47931467 RTG2 YGL252C
Sensor of mitochondrial dysfunction; regulates the subcellular locat
10905_at 0.48053702 -0.08846533 0.39153533 0.48000067 NNF1 YJR112W
Essential component of the MIND kinetochore complex (Mtw1p Incl
10064_s_at 0.19657577 -0.020887 0.46024067 0.48112767 YPT6 YLR261C
similar to the human GTPase, Rab6
6321_at 0.45418398 -0.07667233 0.40465033 0.48132267 RSM24 YDR175C
mitochondrial ribosome small subunit component
5025_at 0.55004188 -0.146219 0.33564267 0.48186167 PNC1
nicotinamidase|pyrazinamidase YGL037C
9967_at 0.3661723 -0.054753 0.42715133 0.48190433 GAS2 YLR343W
Putative 1,3-beta-glucanosyltransferase, has similarity to Gas1p
5355_at 0.36741086 -0.04391133 0.43802467 0.481936 IOC3 YFR013W
Member of a complex (Isw1a) with Isw1p that has nucleosome-stim
8343_at 0.44671602 -0.11141067 0.37128567 0.48269633 TUF1 YOR187W
translation elongation factor Tu, mitochondrial
4552_at 0.18377964 -0.01951 0.46363667 0.48314667 Hypothetical ORFNA YHL010C
11084_at 0.56885148 -0.187996 0.29584833 0.48384433 JEM1 YJL073W
DnaJ-like chaperone required for nuclear membrane fusion during m
4821_at 0.39166592 -0.03808767 0.446021 0.48410867 KRE11 YGR166W
Involved in biosynthetic pathway for cell wall beta-glucans
11256_at 0.25091347 -0.01118633 0.47316833 0.48435467 NA transcriptionally activated by Yrm1p al
Protein of unknown function, YJL216C
9916_at 0.31165526 -0.017953 0.46689233 0.48484533 TUS1 YLR425W
Guanine nucleotide exchange factor (GEF) that functions to modula
10026_at 0.1499856 -0.00772733 0.47795767 0.485685 NA NA YLR311C
4534_at 0.16986594 -0.002805 0.48289067 0.48569567 MIP6 YHR015W
RNA-binding protein, interacts with MEX67
4204_at 0.40244649 -0.06621 0.41964233 0.48585233 PFK26
6-phosphofructose-2-kinase YIL107C
8228_at 0.73859004 -0.761357 -0.27541567 0.48594133 Hypothetical ORFNA YOR338W
3725_at 0.41203936 -0.034998 0.45112067 0.48611867 NA NA YLRCDELTA24
5264_at 0.13166084 -0.00420033 0.481931 0.48613133 ZIP2 YGL249W
Required for 'ZIPpering' up meiotic chromosomes during chromoso
9287_s_at 0.23967811 -0.01739467 0.46875 0.48614467 SNO4 YMR322C
Possible chaperone and cysteine protease with similarity to E. coli H
11363_at 0.56051286 -0.10503067 0.38111967 0.48615033 NA NA YAL045C
7798_at 0.28642117 -0.00875633 0.47759167 0.486348 VPS16
vacuolar sorting protein YPL045W
10078_at 0.32483539 -0.006617 0.48001433 0.48663133 PIG1 YLR273C
similar to Gac1p, a putative type 1 protein phosphatase targeting su
7093_at 0.25220034 -0.03875133 0.44804833 0.48679967 RIF1
RAP1-interacting factor YBR275C
5651_at 0.36940715 -0.01243467 0.47452433 0.486959 Hypothetical ORFNA YER078C
9586_at 0.43254155 -0.07634933 0.41061067 0.48696 AAC1
ADP/ATP translocator YMR056C
9200_at 0.198013 -0.00964767 0.47790233 0.48755 RPD3
histone deacetylase YNL330C
6513_at 0.66184124 -0.35768233 0.129872 0.48755433 PRM7 YDL039C
Hypothetical ORF /// Pheromone-regulated protein, predicted to hav
6487_at 0.46403596 -0.08820867 0.39942733 0.487636 RPN4 YDL020C
Transcription factor that stimulates expression of proteasome genes
10667_at 0.2662248 -0.02976933 0.45817867 0.487948 MUD2 YKL074C
Involved in early pre-mRNA splicing
7175_at 0.25290922 -0.02971033 0.45826533 0.48797567 UMP1 YBR173C
20S proteasome maturation factor
9446_at 0.29682411 -0.02362133 0.46544433 0.48906567 protein YMR176W
Non-essential ECM5 of unknown function, contains ATP/GTP-bind
10261_at 0.21814923 -0.02451767 0.46467967 0.48919733 INO80 YLR052W
Subunit of the IES3 chromatin remodeling complex
11094_at 0.30340782 -0.057274 0.43198767 0.48926167 MRPL8 YJL063C
Mitochondrial ribosomal protein of the large subunit
4210_at 0.3105554 -0.01471667 0.47472633 0.489443 NA NA YIL100W
8351_at 0.41988527 -0.02308667 0.46637667 0.48946333 TOA1 YOR194C
transcription factor IIA subunit alpha
6787_at 0.14239798 -0.01123333 0.47884433 0.49007767 MSH3 to repair insertion-deletion mispairs; re
forms a complex with Msh2p YCR092C
10777_at 0.15834826 -0.00563433 0.48453233 0.49016667 MTR2
mRNA transport regulator YKL186C
8310_at 0.23642821 -0.01503567 0.47519133 0.490227 ESA1 gene family|NuA4 complex componen
acetyltransferase in the SAS YOR244W
6817_at 0.13436069 -0.01179067 0.479408 0.49119867 Hypothetical ORFNA YCR076C
4710_at 0.2517967 -0.03381567 0.457404 0.49121967 NA NA YGR280C
10693_at 0.0787934 -0.001665 0.48957667 0.49124167 APL2 YKL135C
beta-adaptin|clathrin associated protein complex large subunit
3177_f_at 0.41315973 -0.009622 0.48170567 0.49132767 NA NA YHRCSIGMA3
5169_at 0.18208791 -0.02274467 0.469418 0.49216267 activator
transcriptional CUP2 YGL166W
8238_at 0.22713729 -0.017344 0.47501433 0.49235833 ISW2 subunit chromatin remodeling complex
ATPase component of a two YOR304W
6391_at 0.09093796 -0.00690167 0.48566233 0.492564 Hypothetical ORFNA YDR067C
4910_at 0.4222638 -0.06334367 0.42924 0.49258367 NUP57 YGR119C
nuclear pore protein (nucleoporin)
10981_at 0.24923976 -0.04066267 0.452443 0.49310567 RAD7 YJR052W
nucleotide excision NEF4 component
10929_at 0.16830706 -0.00336133 0.49038533 0.49374667 GRR1 YJR090C
F-box protein component of the SCF ubiquitin-ligase complex, requ
7697_i_at 0.65923539 -0.32698533 0.167388 0.49437333 Hypothetical ORFNA YPR077C
10804_at 0.1869619 -0.01316233 0.48213367 0.495296 CBT1 YKL208W
Subunit of complex involved in processing of the 3' end of cytochrom
3334_at 0.25019721 -0.00621433 0.48918033 0.49539467 NA NA YERWDELTA12
3483_f_at 0.10989691 -0.00175033 0.493919 0.49566933 COS1 member of
Protein of unknown function, YBR302C a family of conserved, ofte
10906_at 0.15347336 -0.00154133 0.49424133 0.49578267 RSM7 YJR113C
mitochondrial ribosome small subunit component
9658_r_at 0.2003814 -0.005159 0.49073433 0.49589333 NA NA YML010W-A
3576_f_at 0.5167679 -0.08588867 0.41029933 0.496188 NA NA YORWSIGMA4
4571_at 0.25590158 -0.03184033 0.464842 0.49668233 NA NA YHL037C
3189_i_at 0.16706383 -0.00746633 0.489476 0.49694233 COS8 YHL048W
Nuclear membrane protein, member of a family of conserved, often
8899_at 0.25228431 -0.033229 0.463938 0.497167 NA potential Cdc28p substrate; overprodu
Protein of unknown function, YNL042W
10092_at 0.30863209 -0.022588 0.475386 0.497974 NA NA YLR244C
9900_at 0.3729134 -0.034714 0.46331067 0.49802467 UTP21
U3 snoRNP protein YLR409C
9969_at 0.3364409 -0.00199733 0.49633267 0.49833 Hypothetical ORFNA YLR345W
3553_f_at 0.26500371 -0.03652 0.46207 0.49859 NA YPLCTAU1
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
9146_at 0.31757409 -0.067595 0.431518 0.499113 MSB3 YNL293W
GTPase activating protein (GAP) for Ypt6
4826_at 0.21023291 -0.02910433 0.47028867 0.499393 MSM1
methionine-tRNA ligase YGR171C
10533_at 0.4843409 -0.060005 0.439588 0.499593 The authentic, NA YKR016W
non-tagged protein was localized to the mitochondria
9113_at 0.27521624 -0.03869267 0.46168433 0.500377 NA NA YNL235C
9384_at 0.46896579 -0.139079 0.361826 0.500905 Hypothetical ORFNA YMR244C-A
5173_at 0.09214591 -0.005987 0.495136 0.501123 SUT1
Involved in sterol uptake YGL162W
4919_at 0.36526794 -0.02910267 0.47204233 0.501145 GCD2 YGR083C
71 kDa subunit (delta)|translation initiation factor eIF2B subunit|tran
5570_at 0.27834966 -0.04459 0.45664 0.50123 Hypothetical ORFNA YER130C
6276_at 0.34565789 -0.05172367 0.44970133 0.501425 Hypothetical ORFNA YDR219C
11359_at 0.10699725 -0.00814233 0.49332367 0.501466 Hypothetical ORFNA YAL049C
6031_at 0.04064764 -0.00180067 0.499972 0.50177267 Snx4p, YDR425W
sorting nexins SNX41 Snx41p, and Snx42p mediate distinct retrieva
6133_at 0.42389456 -0.091999 0.409922 0.501921 MRP1 YDR347W
37 kDa mitochondrial ribosomal protein
5376_at 0.13150015 -0.00135933 0.50056733 0.50192667 HXT10 YFL011W
high affinity hexose transporter
10748_at 0.09536063 -0.00734433 0.49468633 0.50203067 Hypothetical ORFNA YKL171W
6814_at 0.43331605 -0.08400333 0.41805267 0.502056 SSK22 YCR073C
functionally redundant with, and homologous to, SSK2
7942_at 0.36096587 -0.06382933 0.439286 0.50311533 MRPL40 YPL173W
Mitochondrial ribosomal protein of the large subunit
5356_at 0.49536012 -0.16403333 0.33948433 0.50351767 CMK1 YFR014C
calmodulin-dependent protein kinase
10720_at 0.69926452 -0.25039167 0.25321 0.50360167 NA NA YKL153W
10593_at 0.33226123 -0.03849933 0.46557267 0.504072 URB1 YKL014C
Nucleolar protein required for the normal accumulation of 25S and 5
9468_at 0.41413638 -0.09433433 0.40986767 0.504202 The authentic, NA YMR157C
non-tagged protein was localized to the mitochondria
3296_at 0.57450994 -0.246617 0.25765933 0.50427633 NA NA YFRWDELTA10
8501_at 0.23156572 -0.000809 0.503614 0.504423 t-SNARE (ER)UFE1 YOR075W
4817_at 0.30663942 -0.04572133 0.458837 0.50455833 Hypothetical ORFNA YGR207C
9596_at 0.21700544 -0.00502967 0.499714 0.50474367 Synthesis Of VarNA YMR066W
10057_at 0.46263007 -0.08081467 0.42420833 0.505023 NA NA YLR255C
10482_at 0.25803186 -0.002484 0.50296033 0.50544433 SIR1
silent mating loci repressor YKR101W
11218_at 0.23018685 -0.01249333 0.49295933 0.50545267 nuclease NUC1 YJL208C
5175_at 0.51371281 -0.20140133 0.304149 0.50555033 Hypothetical ORFNA YGL160W
6011_at 0.12408699 -0.00472867 0.500936 0.50566467 PPN1
vacuolar endopolyphosphatase YDR452W
6921_at 0.09783582 -0.00478867 0.50200767 0.50679633 NA green fluorescent protein (GFP)-fusion
Protein of unknown function; YCL056C
10521_at 0.47812809 -0.049141 0.45767367 0.50681467 The authentic, NA YKR049C
non-tagged protein was localized to the mitochondria
4757_at 0.23905654 -0.026294 0.48127167 0.50756567 Hypothetical ORFNA YGR237C
10747_at 0.43179744 -0.05420067 0.45367267 0.50787333 EBP2
nucleolar protein YKL172W
10215_at 0.26602296 -0.04554233 0.46312767 0.50867 KIN2 YLR096W
Serine/threonine protein kinase
6374_at 0.39631426 -0.011335 0.49738933 0.50872433 NA NA YDR094W
6677_at 0.50041875 -0.11038133 0.39905667 0.509438 NA NA YDL187C
8233_g_at 0.3803816 -0.01510667 0.494373 0.50947967 BUD7 YOR299W
Protein involved in bud-site selection; diploid mutants display an ax
5095_at 0.52795753 -0.13918267 0.37054167 0.50972433 NA NA YGL102C
9180_at 0.26979376 -0.01762633 0.49232033 0.50994667 on mitochondrial distribution toward the bud.
acts positively YPT11 YNL304W
9449_at 0.21162986 -0.003039 0.50737067 0.51040967 SPT21 YMR179W
non-specific DNA binding protein
6727_at 0.21091445 -0.02155933 0.489136 0.51069533 septin SHS1 YDL225W
10553_at 0.25135271 -0.00509233 0.50658567 0.511678 CAF4 YKR036C
CCR4 transcriptional complex component
6703_at 0.44511602 -0.05279467 0.45899033 0.511785 HEM3 (uroporphyrinogen synthase)
phorphobilinogen deaminaseYDL205C
4937_at 0.32642824 -0.030857 0.48107667 0.51193367 RSC1
RSC complex member YGR056W
6482_at 0.0662261 -0.00258067 0.50949933 0.51208 NA potentially
Protein of unknown function, YDL025C phosphorylated by Cdc28p
4546_at 0.22661986 -0.03802967 0.47430867 0.51233833 DUR3 YHL016C
Plasma membrane urea transporter, expression is highly sensitive t
9379_at 0.4079081 -0.02370667 0.48869533 0.512402 U2 snRNP proteinCUS1 YMR240C
10389_at 0.28524711 -0.00173067 0.51067833 0.512409 ATG10
protein-conjugating enzyme YLL042C
10287_at 0.092599 -0.00188333 0.51072433 0.51260767 Mutl Homolog MLH2 YLR035C
11316_r_at 0.57066715 -0.11670267 0.396119 0.51282167 SSA1 family
heat shock protein of HSP70YAL005C
5241_at 0.20475802 -0.01561533 0.49758967 0.513205 SHE10 YGL228W
Putative glycosylphosphatidylinositol (GPI)-anchored protein of unk
9860_at 0.12734054 -0.0027 0.510788 0.513488 Hypothetical ORFNA YLR456W
8649_at 0.28503772 -0.01239567 0.50268467 0.51508033 RFC4 YOL094C
replication factor C subunit 4|similar to human RFC 40 kDa subunit
10541_at 0.37170306 -0.04743567 0.46784967 0.51528533 DBP7
RNA helicase (putative) YKR024C
10939_at 0.21633401 -0.02275167 0.49281667 0.51556833 Hypothetical ORFNA YJR100C
6564_at 0.54410696 -0.04788633 0.46794067 0.515827 MRK1
MDS1 related protein kinase YDL079C
3783_at 0.14418121 -0.00558933 0.510381 0.51597033 NA NA YLRWDELTA12
9362_at 0.35715741 -0.00487767 0.51128133 0.516159 PRP24
U4/U6 snRNP-associated protein YMR268C
8487_at 0.15691321 -0.010813 0.505364 0.516177 Hypothetical ORFNA YOR059C
5968_at 0.35386452 -0.027171 0.489627 0.516798 LCD1 the DNA integrity checkpoint pathway
Essential protein required forYDR499W
10665_g_at 0.17984992 -0.008767 0.50830867 0.51707567 Hypothetical ORFNA YKL076C
10114_at 0.32162801 -0.037885 0.479456 0.517341 UTP13
U3 snoRNP protein YLR222C
6825_at 0.33962067 -0.06822367 0.44913067 0.51735433 exoribonuclease complex component with Rrp4p, Rr
exosome 3->5RRP43 YCR035C
9357_at 0.37419498 -0.062516 0.45486867 0.51738467 NA SAP30 YMR263W
11347_at 0.32272917 -0.04777 0.469809 0.517579 ATS1 YAL020C
Protein with a potential role in regulatory interactions between micro
4985_at 0.24529631 -0.02820167 0.48992067 0.51812233 Hypothetical ORFNA YGR012W
8815_at 0.42699745 -0.054264 0.46487567 0.51913967 BIO5 YNR056C
transmembrane regulator of KAPA/DAPA transport
6631_at 0.27145075 -0.02934667 0.489844 0.51919067 Hypothetical ORFNA YDL144C
9735_at 0.30004046 -0.035388 0.48388433 0.51927233 NA green fluorescent protein (GFP)-fusion
Protein of unknown function; YML107C
7089_at 0.3113727 -0.04325833 0.47615967 0.519418 NA YBR271W
Putative S-adenosylmethionine-dependent methyltransferase of the
8417_at 0.15055267 -0.00536367 0.51413567 0.51949933 NA NA YOR125C
9770_at 0.25472515 -0.03809767 0.482567 0.52066467 NA NA YML117W-A
9998_at 0.18105692 -0.01210733 0.50862533 0.52073267 containing a putative leucine zipper|meiosis specific
23 kDa proteinREC102 YLR329W
7989_at 0.3555833 -0.08648933 0.43432833 0.52081767 CBP3 YPL215W
Protein required for assembly of ubiquinol cytochrome-c reductase
8667_at 0.25017229 -0.04080467 0.480219 0.52102367 SMF1 YOL122C
plasma membrane/mitochondrial membrane protein
5722_at 0.19650543 -0.034201 0.48690667 0.52110767 RPN3 YER021W
26S proteasome regulatory module component
5017_at 0.25697453 -0.00226633 0.519935 0.52220133 NA YGR001C
Putative methyltransferase, based on sequence similarity to methyl
3165_at 0.08119368 -0.004871 0.51738767 0.52225867 NA NA YHRCTAU4
4883_at 0.35242309 -0.05797 0.46434467 0.52231467 LAs17 BindingLSB1protein YGR137W
5397_at 0.33490129 -0.01526133 0.50849567 0.523757 Hypothetical ORFNA YFL034W
9285_at 0.21537112 -0.003789 0.520387 0.524176 NA NA YMR320W
9291_at 0.18846065 -0.02044767 0.50394867 0.52439633 associated protein
ATP synthase ATP18 YML081C-A
8716_s_at 0.16526224 -0.01808767 0.506453 0.52454067 AAD3 YOL165C
aryl-alcohol dehydrogenase (putative)
10027_at 0.35984529 -0.072208 0.45243867 0.52464667 Hypothetical ORFNA YLR312C
9145_at 0.27723798 -0.05213333 0.47276233 0.52489567 Unknown functionRIM21 YNL294C
6120_at 0.21240684 -0.019754 0.50523433 0.52498833 SWR1 YDR334W
Swi2/Snf2-related ATPase, component of the SWR1 complex; requ
3632_at 0.46376395 -0.08180867 0.443227 0.52503567 NA NA YOLCDELTA2
4152_at 0.25681958 -0.04335667 0.48173167 0.52508833 FIS1 YIL065C
Mitochondrial outer membrane protein involved in membrane fission
6346_at 0.32645021 -0.071164 0.453977 0.525141 NA YDR111C
putative alanine transaminase (glutamyc pyruvic transaminase)
8513_at 0.19489445 -0.03282633 0.492717 0.52554333 glyoxylase-II GLO4 YOR040W
10360_at 0.61861804 -0.23252233 0.293057 0.52557933 HSP104
heat shock protein 104 YLL026W
6573_at 0.26048519 -0.04726167 0.47833933 0.525601 ATG20 YDL113C
PX domain-containing protein that binds Apg17 and Cvt13, and is re
9739_at 0.36876812 -0.03285833 0.493533 0.52639133 NUP188
nuclear pore complex subunit YML103C
7178_at 0.1281749 -0.002892 0.523682 0.526574 ECM31 YBR176W
Ketopantoate hydroxymethyltransferase, required for pantothenic a
7434_at 0.26558051 -0.01736633 0.50955467 0.526921 NA NA YBL062W
8586_at 0.35740119 -0.05851233 0.46856767 0.52708 DIS3 YOL021C
3'-5' exoribonuclease complex subunit
7400_at 0.43506507 -0.08659367 0.44051 0.52710367 SAS3 YBL052C
SAS3 for Something about silencing, gene 3. Influences silencing a
7137_at 0.21721427 -0.000929 0.52623267 0.52716167 MCX1 YBR227C
ATP-binding protein|similar to ClpX
8461_at 0.22561521 -0.03076333 0.49682233 0.52758567 DIA2 involved in
Protein of unknown function, YOR080W invasive and pseudohypha
10196_g_at 0.37108245 -0.01990567 0.507781 0.52768667 NA NA YLR122C
6296_at 0.46619779 -0.14804767 0.379662 0.52770967 MSS116
RNA helicase DEAD box YDR194C
7212_at 0.35310691 -0.043016 0.48486233 0.52787833 UBS1 YBR165W
Ubiquitin-conjugating enzyme suppressor that functions as a gener
4196_at 0.31750791 -0.034868 0.49359067 0.52845867 NUP159 YIL115C
contains coiled-coil domain and repeated motifs typical of nucleopo
8974_at 0.26929245 -0.022459 0.506474 0.528933 family|transcriptional activator
leucine zipper MET4 YNL103W
4366_at 0.17593439 -0.02906767 0.49991833 0.528986 YAP1801 member
Yeast Assembly Polypeptide,YHR161Cof AP180 protein family, bind
4488_at 0.30184416 -0.03920933 0.49009433 0.52930367 VMA22 YHR060W
Required for V-ATPase activity. Required for the biogenesis of a fun
11018_at 0.36179281 -0.058736 0.47061367 0.52934967 COX16 YJL003W
Required for assembly of cytochrome oxidase
5685_at 0.41499418 -0.062605 0.467076 0.529681 Hypothetical ORFNA YER030W
9112_at 0.03009272 -0.00123767 0.528466 0.52970367 SIN4 YNL236W
RNA polymerase II holoenzyme/mediator subunit
6029_at 0.38547696 -0.05415467 0.47579 0.52994467 CAD1 YDR423C
basic leucine zipper transcription factor
11173_at 0.32458822 -0.03665233 0.49353233 0.53018467 NA NA YJL165C
4540_at 0.45174161 -0.10253333 0.42797967 0.530513 SPO11 YHL022C
early meiosis-specific recombination protein
7932_at 0.3730731 -0.03098633 0.499556 0.53054233 Hypothetical ORFNA YPL183C
4450_at 0.38459622 -0.057948 0.47274333 0.53069133 RRP4 YHR069C
3'-5' exoribonuclease|3'-5' exoribonuclease complex component wit
8609_at 0.13342803 -0.01703433 0.51368433 0.53071867 III DNA YOL043C
endonuclease NTG2 base excision repair N-glycosylase
6786_at 0.29394555 -0.00268067 0.52806 0.53074067 KIN82 YCR091W
serine/threonine kinase (putative)|similar to cyclic nucleotide-depen
6030_at 0.26656937 -0.03187767 0.49923833 0.531116 CAD1 YDR424C
basic leucine zipper transcription factor
6409_at 0.510299 -0.15199033 0.37944467 0.531435 AFR1 arrestins
cytoskeletal protein|similar toYDR085C
4810_at 0.32832292 -0.016759 0.51476533 0.53152433 ELP2 subunit
RNA polymerase II ElongatorYGR200C
8959_at 0.27189605 -0.04213 0.48991433 0.53204433 MLS1 YNL117W
carbon-catabolite sensitive malate synthase
9288_s_at 0.28031835 -0.00841533 0.52375267 0.532168 Hypothetical ORFNA YMR323W
6522_at 0.2843431 -0.02507433 0.507377 0.53245133 PRP9
RNA splicing factor YDL030W
6303_at 0.40616886 -0.02852167 0.504026 0.53254767 RPA14
RNA polymerase I subunit YDR157W
7061_at 0.17677276 -0.00418433 0.52870033 0.53288467 APM3 YBR288C
clathrin associated protein complex medium subunit
6322_at 0.37500334 -0.020374 0.51259267 0.53296667 NGG1 suggest that
genetic and mutant analysesYDR176W Ngg1p (Ada3p) is part of
5353_at 0.4621661 -0.15696067 0.37632633 0.533287 Hypothetical ORFNA YFR011C
9543_at 0.15933139 -0.01350733 0.519918 0.53342533 SRT1
cis-prenyltransferase YMR101C
6637_at 0.29160755 -0.004193 0.52923633 0.53342933 glucose receptorRGT2 YDL138W
9181_at 0.32511708 -0.02209167 0.51151167 0.53360333 on mitochondrial distribution toward the bud.
acts positively YPT11 YNL303W
3650_f_at 0.20087549 -0.03408967 0.499663 0.53375267 NA NA YNLWTAU1
3670_f_at 0.19978301 -0.02616567 0.50768333 0.533849 NA YNRCTAU3
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
6218_at 0.37855142 -0.017464 0.517055 0.534519 MET32 YDR253C
highly homologous to Met31p|transcriptional regulator of sulfur amin
3551_f_at 0.2428831 -0.03257667 0.50196733 0.534544 NA NA YPLCDELTA10
10395_at 0.25220888 -0.009619 0.52492667 0.53454567 PRP19
RNA splicing factor YLL036C
3744_i_at 0.46910565 -0.128365 0.40698733 0.53535233 NA NA YLRWSIGMA3
11104_at 0.33031134 -0.06555533 0.47011833 0.53567367 SAP185 with the Sit4p protein phosphatase an
Protein that forms a complexYJL098W
4746_at 0.11056021 -0.010533 0.52553833 0.53607133 YTA7 member of
Protein of unknown function, YGR270W CDC48/PAS1/SEC18 fami
9965_at 0.14229113 -0.01523033 0.52094633 0.53617667 SPO77 YLR341W
Meiosis-specific protein of unknown function, required for spore wal
7729_at 0.17179236 -0.00692067 0.52944933 0.53637 Hypothetical ORFNA YPR022C
6169_at 0.1190594 -0.010442 0.52649633 0.53693833 HDA2 YDR295C
Subunit of a possibly tetrameric trichostatin A-sensitive class II histo
3446_i_at 0.39189911 -0.13285333 0.404211 0.53706433 NA NA YDRCDELTA9
9995_at 0.38417135 -0.01456633 0.52316333 0.53772967 Hypothetical ORFNA YLR326W
3820_f_at 0.18397202 -0.001016 0.53681933 0.53783533 NA YKLCDELTA5
Similar to probable membrane protein YDR340W and to yeast CYC
7920_at 0.26586767 -0.01540167 0.52244167 0.53784333 Hypothetical ORFNA YPL150W
6155_at 0.36770071 -0.040325 0.49752 0.537845 PEP7 YDR323C
three zinc fingers; cysteine rich regions of amino acids are essentia
9707_at 0.20437441 -0.01014933 0.528331 0.53848033 RSE1 YML049C
RNA splicing and ER to Golgi transport
5188_at 0.41657009 -0.06134233 0.47744567 0.538788 COX13 YGL191W
cytochrome c oxidase subunit VIa|may specifically interact with ATP
6134_at 0.33550577 -0.04066467 0.498734 0.53939867 NA green fluorescent protein (GFP)-fusion
Protein of unknown function; YDR348C
10883_at 0.25687838 -0.006422 0.533406 0.539828 MCM22 chromosomes and minichromosomes
Required for maintenance of YJR135C
6470_at 0.35933847 -0.09142367 0.44959933 0.541023 regulator involved in activation of the GAL genes in
TranscriptionalGAL3 YDR009W
10544_at 0.38689932 -0.07516833 0.46607233 0.54124067 The authentic, NA YKR027W
non-tagged protein was localized to the mitochondria
5937_at 0.23052821 -0.033779 0.507603 0.541382 TTR1 YDR513W
glutaredoxin|thioltransferase/glutathione reductase|EC 1.20.4.1
6922_at 0.29224823 -0.025917 0.51562367 0.54154067 KAR4 YCL055W
involved in karyogamy|transcription factor
5269_at 0.30050873 -0.019794 0.52235467 0.54214867 nuclear protein RTF1 YGL244W
7373_at 0.14754835 -0.02031033 0.52445767 0.544768 Hypothetical ORFNA YBR014C
8961_at 0.45542466 -0.107308 0.43746433 0.54477233 Hypothetical ORFNA YNL115C
5231_at 0.21426486 -0.03741133 0.50744733 0.54485867 activator protein of CYC1 (component of HAP2/HAP3
transcriptional HAP2 YGL237C
10865_at 0.26631592 -0.053564 0.49239 0.545954 NA NA YJR025c-a
4943_at 0.07899779 -0.00331933 0.542718 0.54603733 COX18 YGR062C
Mitochondrial inner membrane protein, required for export of the Co
8604_at 0.3072001 -0.026286 0.52008133 0.54636733 Hypothetical ORFNA YOL048C
4834_at 0.40216497 -0.05782767 0.48872867 0.54655633 OKP1 YGR179C
Outer kinetochore protein, required for accurate mitotic chromosom
3834_s_at 0.52902636 -0.13048567 0.41627533 0.546761 YRF1-7
Y'-helicase protein 1 YLL067C
6567_at 0.18024149 -0.00124567 0.54582933 0.547075 Hypothetical ORFRXT3 YDL076C
4486_at 0.25288879 -0.029544 0.51777767 0.54732167 NA NA YHR058C
8399_at 0.29429845 -0.060545 0.48707467 0.54761967 Hypothetical ORFNA YOR152C
4108_at 0.30446983 -0.02497533 0.52281267 0.547788 SNL1 protein
18.3 kDa integral membrane YIL016W
11194_at 0.33294215 -0.04642533 0.50193767 0.548363 MNN5 YJL186W
golgi alpha-1,2-mannosyltransferase (putative)
7591_at 0.33196362 -0.06019633 0.48872967 0.548926 NA green fluorescent protein (GFP)-fusion
Protein of unknown function; YPR148C
6087_at 0.3168972 -0.04326467 0.50589633 0.549161 UBA2 YDR390C
Nuclear protein that acts as a heterodimer with Aos1p to activate Sm
10715_at 0.48325228 -0.07749767 0.47199933 0.549497 APE2
aminopeptidase yscII YKL158W
8173_at 0.68011321 -0.42031067 0.12920233 0.549513 ALD4
aldehyde dehydrogenase YOR374W
7440_at 0.2092097 -0.018533 0.53174133 0.55027433 hydrolase
peptidyl-tRNA PTH2 YBL057C
10569_at 0.23164705 -0.03025267 0.52146467 0.55171733 MRPL13 YKR006C
Mitochondrial ribosomal protein of the large subunit, not essential fo
4101_at 0.16951944 -0.01663133 0.535159 0.55179033 Hypothetical ORFNA YIL024C
9571_at 0.09285165 -0.009271 0.542863 0.552134 Hypothetical ORFNA YMR085W
3708_at 0.16693777 -0.016878 0.53529367 0.55217167 NA NA YMRCTAU1
5014_at 0.37956214 -0.032348 0.51998933 0.55233733 CDH1 YGL003C
required for Clb2 and Ase1 degradation
10492_at 0.21824016 -0.023839 0.528739 0.552578 GPT2 YKR067W
Glycerol-3-phosphate acyltransferase located in both lipid particles
6392_at 0.13737666 -0.01109967 0.54188433 0.552984 DOS2 green fluorescent protein (GFP)-fusion
Protein of unknown function, YDR068W
7857_at 0.69034234 -0.28530067 0.26845733 0.553758 RNY1
ribonuclease, T2 family YPL123C
5967_at 0.34582897 -0.08449433 0.46963267 0.554127 v-SNARE SEC20 YDR498C
3306_i_at 0.26541329 -0.02766533 0.52654267 0.554208 NA NA YGLWDELTA4
3402_at 0.63626808 -0.39118 0.16312567 0.55430567 NA NA YDRWDELTA31
7604_at 0.63626155 -0.036016 0.51982233 0.55583833 GPH1
glycogen phosphorylase YPR160W
4312_at 0.21589834 -0.001162 0.55478367 0.55594567 non-tagged protein was localized to the mitochondria
The authentic, NA YHR198C
10321_at 0.22194238 -0.014618 0.54178033 0.55639833 SNF7 YLR025W
Involved in derepression of SUC2 in response to glucose limitation
4144_at 0.21658204 -0.006339 0.55051533 0.55685433 KRE27
Killer toxin REsistant YIL027C
6253_at 0.18526145 -0.019181 0.53865967 0.55784067 AMD2
amidase (putative) YDR242W
11086_at 0.23951219 -0.01245333 0.545807 0.55826033 ARG2
acetylglutamate synthase YJL071W
3475_f_at 0.07242028 -0.00607733 0.55220567 0.558283 NA YDLWTAU1
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
8372_at 0.3403229 -0.05944133 0.49912633 0.55856767 NA NA YOR170W
8506_at 0.15020894 -0.00376167 0.55592033 0.559682 exonuclease EXO1 YOR033C
8876_i_at 0.07646502 -0.006259 0.55355033 0.55980933 NA NA YNL017C
6430_at 0.17189365 -0.01385067 0.54634567 0.56019633 NA YDR061W
Mitochondrial protein, member of the ATP-binding cassette (ABC) t
3646_s_at 0.42673435 -0.037015 0.523212 0.560227 YRF1-7
Y'-helicase protein 1 YNL339C
11362_at 0.12696746 -0.016043 0.54426133 0.56030433 Hypothetical ORFNA YAL046C
7063_at 0.24767422 -0.02865567 0.53200767 0.56066333 BSD2 YBR290W
metal homeostasis protein; putative membrane protein
7778_at 0.20807157 -0.00313167 0.55756467 0.56069633 ULP1
Smt3-specific protease YPL020C
6005_at 0.31046155 -0.03768167 0.524537 0.56221867 Hypothetical ORFNA YDR444W
5521_at 0.3038689 -0.00049233 0.562344 0.56283633 RAD24 YER173W
cell cycle exonuclease (putative)
10214_at 0.35155457 -0.015156 0.54772733 0.56288333 RRN5 YLR140W
UAF member (upstream activation factor) along with Rrn9p and Rrn
7214_at 0.16251482 -0.01952833 0.54389033 0.56341867 POP7 YBR167C
Nuclear RNase P subunit|RNase MRP subunit
9618_at 0.55128284 -0.28004667 0.283673 0.56371967 NA
homolog of mammalian BAP31 YMR040W
8576_at 0.64027577 -0.540704 0.02349167 0.56419567 SIL1
Nucleotide exchange factor YOL031C
10668_at 0.43291037 -0.151036 0.41366667 0.56470267 Hsp70 family LHS1 YKL073W
6612_at 0.26993991 -0.06846 0.49694 0.5654 Hypothetical ORFNA YDL119C
5166_at 0.30051407 -0.049335 0.516354 0.565689 SUA5 YGL169W
Protein required for respiratory growth; null mutation suppresses the
6307_at 0.42039528 -0.06123467 0.505291 0.56652567 NA
interacts with PP2C YDR161W
10383_at 0.40977974 -0.00690767 0.559967 0.56687467 NA NA YLL047W
11312_at 0.08669315 -0.00834467 0.55860233 0.566947 SPO7 YAL009W
Integral nuclear/ER membrane protein of unknown function, require
9443_at 0.24604871 -0.021977 0.545356 0.567333 NA NA YMR173W-A
4418_at 0.21881552 -0.04055933 0.526787 0.56734633 NDT80 YHR124W
DNA binding transcription factor that activates middle sporulation ge
5382_at 0.1247664 -0.01916067 0.548504 0.56766467 BLM3 against bleomycin damage
involved in protecting the cellYFL006W
6121_at 0.25513264 -0.01248733 0.55579033 0.56827767 NA NA YDR335W
3301_f_at 0.15436046 -0.00975967 0.55862333 0.568383 NA YGLWTAU1
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
7482_at 0.26835935 -0.03057 0.53792833 0.56849833 Hypothetical ORFNA YBL104C
6251_at 0.45846768 -0.00731133 0.56181933 0.56913067 U1 snRNP proteinSNU56 YDR240C
9738_at 0.33816859 -0.044153 0.526093 0.570246 MDM1
intermediate filament protein YML104C
7186_at 0.34657435 -0.10311133 0.46722533 0.57033667 MBA1 YBR185C
involved in assembly of mitochondrial respiratory complexes
5790_at 0.44723508 -0.060614 0.50975733 0.57037133 NA NA YEL045C
10611_at 0.48472616 -0.030632 0.53986367 0.57049567 VPS24
involved in secretion YKL041W
10418_at 0.28312348 -0.03781 0.533312 0.571122 Hypothetical ORFNA YLL058W
7247_at 0.11852316 -0.02062333 0.55139967 0.572023 YSA1 YBR111C
Protein with weak homology to D. melanogaster serendipity protein
4097_at 0.25223555 -0.02732033 0.54492733 0.57224767 Hypothetical ORFNA YIR016W
5657_at 0.40985454 -0.01498033 0.557297 0.57227733 SPO73 YER046W
Meiosis-specific protein of unknown function, required for spore wal
8699_at 0.39526574 -0.06106033 0.51164833 0.57270867 MED7 YOL135C
RNA polymerase II holoenzyme/mediator subunit
8551_at 0.33657413 -0.10202367 0.47130833 0.573332 phospholipasePLB3 YOL011W
B (lysophospholipase)
4355_at 0.20675766 -0.01720967 0.55640633 0.573616 NVJ1 YHR195W
Nuclear envelope protein that interacts with the vacuolar membrane
8578_at 0.17821213 -0.00562367 0.56814067 0.57376433 Hypothetical ORFNA YOL029C
7177_at 0.20264985 -0.00565967 0.56821967 0.57387933 SWD3 YBR175W
compass (complex proteins associated with Set1p) component
9122_at 0.21665601 -0.03793867 0.53606067 0.57399933 SEC2
GDP/GTP exchange factor YNL272C
9508_at 0.15763583 -0.02536867 0.54868167 0.57405033 MED11 YMR112C
RNA polymerase II holoenzyme/mediator subunit 14 kDa
9667_at 0.57419557 -0.25772367 0.31649467 0.57421833 RRN11 YML043C
rDNA transcription factor component
9367_at 0.44146172 -0.08701067 0.48781167 0.57482233 ZDS1 YMR273C
Protein that interacts with silencing proteins at the telomere, involve
6426_at 0.11313161 -0.00145133 0.57391333 0.57536467 YOS9
membrane-associated glycoproteinYDR057W
6436_at 0.24657037 -0.02439233 0.55181367 0.576206 FAL1 YDR021W
RNA helicase (putative)|dead box protein
6583_at 0.27946785 -0.05154 0.52524067 0.57678067 QRI1 YDL103C
UDP-N-acetylglucosamine pyrophosphorylase
7913_at 0.3665271 -0.021825 0.55544733 0.57727233 TGS1
TrimethylGuanosine Synthase YPL157W
4820_at 0.06095773 -0.00747533 0.57010833 0.57758367 MRPS35 YGR165W
Mitochondrial ribosomal protein of the small subunit
4806_at 0.22193213 -0.032281 0.545589 0.57787 FYV8 required for
Protein of unknown function, YGR196C survival upon exposure to
9778_at 0.25549195 -0.00848133 0.569699 0.57818033 ZDS2 YML109W
Protein that interacts with silencing proteins at the telomere, involve
10233_at 0.3295726 -0.04341533 0.53626833 0.57968367 PHO85 Requiring NA YLR114C
3822_f_at 0.1973314 -0.00309967 0.57704467 0.58014433 NA NA YKLCDELTA6
9099_at 0.0771793 -0.006413 0.573808 0.580221 RAD50 YNL250W
Mre11-Rad50-Xrs2 protein complex member involved in joining dou
6297_at 0.33383067 -0.06546467 0.51490467 0.58036933 REF2 in cleavage
RNA-binding protein involvedYDR195W step of mRNA 3'-end form
11388_at 0.42656752 -0.12557433 0.455057 0.58063133 BDH1 YAL060W
NAD-dependent (2R,3R)-2,3-butanediol dehydrogenase, a zinc-con
3143_f_at 0.25906721 -0.04398733 0.53675533 0.58074267 NA NA YILWSIGMA3
9925_at 0.34902126 -0.019756 0.56100033 0.58075633 protein YLR390W
Non-essential ECM19 of unknown function
9523_at 0.28755721 -0.07499033 0.50594 0.58093033 NA green fluorescent protein (GFP)-fusion
Protein of unknown function; YMR124W
6107_at 0.32747486 -0.04616867 0.53524267 0.58141133 ESF1 pre-rRNA
Nucleolar protein involved in YDR365C processing; depletion cause
4104_at 0.14634944 -0.00815733 0.57347567 0.581633 RPB3
RNA polymerase II 45 kDa subunitYIL021W
10989_at 0.17531431 -0.02138533 0.56039567 0.581781 NA NA YJR012C
5109_at 0.39117094 -0.03019467 0.55160333 0.581798 NA NA YGL088W
9556_at 0.0541681 -0.00353633 0.57834633 0.58188267 NA
integral membrane protein YMR071C
8656_at 0.14804142 -0.02462067 0.557269 0.58188967 Hypothetical ORFNA YOL087C
8632_at 0.0834411 -0.004158 0.577733 0.581891 INP54 YOL065C
inositol polyphosphate 5-phosphatase
10349_at 0.13383687 -0.00701033 0.575358 0.58236833 NSE1 YLR007W
Essential nuclear protein required for DNA repair; forms a complex
9718_at 0.2110639 -0.00865133 0.573997 0.58264833 Hypothetical ORFNA YML081W
9052_at 0.25875597 -0.037845 0.54485533 0.58270033 RTT106 YNL206C
Regulator of Ty1 Transposition - same phenotype as RTT101 - RTT
5723_at 0.2141357 -0.00883167 0.57392167 0.58275333 SRB4 YER022W
RNA polymerase II holoenzyme/mediator subunit
5380_at 0.24344855 -0.02879567 0.554048 0.58284367 SMC1 YFL008W
SMC chromosomal ATPase family member
3456_i_at 0.55627623 -0.19258233 0.39128 0.58386233 NA NA YCRCDELTA7
10752_at 0.24423276 -0.05590533 0.52799167 0.583897 MRP49 YKL167C
16 kDa mitochondrial ribosomal large subunit protein
11172_at 0.32245591 -0.040967 0.54299333 0.58396033 QCR8 YJL166W
ubiquinol cytochrome C reductase subunit 8 (11 kDa)
5215_at 0.15505642 -0.02823567 0.555833 0.58406867 YPT32
GTPase|YPT31 homolog|ras YGL210Whomolog
8485_at 0.24904291 -0.05561433 0.528601 0.58421533 SGT1 YOR057W
Probable cochaperone, regulates activity of Cyr1p (adenylyl cyclase
9467_at 0.15248734 -0.02315867 0.56125 0.58440867 TPP1
DNA 3' phosphatase YMR156C
10561_at 0.14929755 -0.02477767 0.55989533 0.584673 MRP17
ribosomal protein MRP17 YKL003C
9729_at 0.19469369 -0.039959 0.545204 0.585163 DAK1
dihydroxyacetone kinase YML070W
7361_at 0.08010808 -0.00476167 0.580463 0.58522467 NTH2
neutral trehalase YBR001C
8472_at 0.08253473 -0.00875633 0.576557 0.58531333 PTC5
type 2C Protein Phosphatase YOR090C
5742_at 0.1870883 -0.039862 0.54551 0.585372 YEA4 GOG5, a
Shows sequence similarity toYEL004W gene involved in vanadate r
3603_at 0.2317132 -0.03289567 0.55251267 0.58540833 NA NA YORCDELTA11
3546_f_at 0.31007652 -0.05423133 0.53129533 0.58552667 NA NA YBLWDELTA1
5325_at 0.40685325 -0.038228 0.54732367 0.58555167 CDC14
protein phosphatase YFR028C
6090_at 0.4073697 -0.159531 0.42683233 0.58636333 SHE9 YDR393W
Mitochondrial inner membrane protein required for normal mitochon
10565_at 0.13082641 -0.00049567 0.58616967 0.58666533 PAP1
poly(A) polymerase YKR002W
10965_at 0.27461205 -0.00088367 0.58587167 0.58675533 HUL4
ubiquitin ligase (E3) YJR036C
7351_at 0.21782213 -0.00255833 0.58467033 0.58722867 SCO1
inner membrane protein YBR037C
6643_at 0.28134459 -0.00680533 0.58107533 0.58788067 Hypothetical ORFNA YDL177C
5583_at 0.03300459 -0.00297 0.584955 0.587925 DDI1 YER143W
DNA damage-inducible v-SNARE binding protein, contains a ubiqui
7876_at 0.40181288 -0.12702333 0.46137033 0.58839367 synthetase YPL104W
aspartyl-tRNA MSD1
5656_at 0.33000214 -0.073447 0.515086 0.588533 ACA1 YER045C
Basic leucine zipper (bZIP) transcription factor of the ATF/CREB fam
3416_s_at 0.20980117 -0.02967167 0.56022867 0.58990033 NA NA YDRWDELTA12
9060_at 0.13437021 -0.01485967 0.57518133 0.590041 GCR2
transcription factor YNL199C
4911_at 0.18967391 -0.04517833 0.544921 0.59009933 PRP38
RNA splicing factor YGR075C
8807_at 0.36188529 -0.066324 0.52387333 0.59019733 MSO1 YNR049C
Probable component of the secretory vesicle docking complex, acts
7774_at 0.21515555 -0.02425967 0.56607933 0.590339 separation YPL024W
involved in cellNCE4
4847_at 0.19599813 -0.03988167 0.550499 0.59038067 NAT2
N alpha-acetyltransferase YGR147C
5336_at 0.30411683 -0.074234 0.51628967 0.59052367 RSC8 YFR037C
8th largest subunit of RSC. Rsc8p mediates multiple RSC complex
6642_at 0.34470709 -0.11477033 0.47618633 0.59095667 DLD2 YDL178W
D-lactate dehydrogenase, located in the mitochondrial matrix
3825_at 0.45791602 -0.08852867 0.50267067 0.59119933 NA NA YKRCDELTA9
7258_at 0.37480047 -0.147951 0.44347433 0.59142533 MRPL36 YBR122C
Mitochondrial ribosomal protein of the large subunit; overproduction
3573_f_at 0.17970292 -0.02242633 0.569489 0.59191533 NA NA YORWTAU3
7439_at 0.0681792 -0.00381667 0.58839133 0.592208 SHP1 YBL058W
Putative regulator of Glc7p (protein phosphatase I), localizes to the
4222_at 0.28600745 -0.084139 0.50898767 0.59312667 FLX1
FAD carrier protein YIL134W
5561_at 0.1519204 -0.001957 0.59141533 0.59337233 CCA1 YER168C
tRNA nucleotidyltransferase (tRNA CCA-pyrophosphorylase)
4352_at 0.24999589 -0.00407767 0.589667 0.59374467 Hypothetical ORFNA YHR192W
7669_at 0.26543995 -0.055356 0.53891733 0.59427333 Hypothetical ORFNA YPR093C
10271_at 0.65054866 -0.28852733 0.30581467 0.594342 NA NA YLR062C
5156_at 0.18018212 -0.03536733 0.55933067 0.594698 NA NA YGL132W
9668_at 0.27351842 -0.00191367 0.593815 0.59572867 CAT2
carnitine O-acetyltransferaseYML042W
4461_r_at 0.33614231 -0.075096 0.52093033 0.59602633 SAE3 YHR079C-A
Protein involved in DNA repair, meiotic recombination, and chromos
7118_at 0.06272972 -3.67E-05 0.59638133 0.59641803 SRB6 YBR253W
part of Srb/Mediator complex|transcription factor
10071_at 0.13366824 -0.01836933 0.578978 0.59734733 PDR8 YLR266C
zinc finger transcription factor
4206_at 0.40900746 -0.03771733 0.55998867 0.597706 SHQ1 YIL104C
Essential nuclear protein, required for accumulation of box H/ACA s
8897_at 0.08107321 -0.006152 0.59173767 0.59788967 NA YNL045W
Similar to human LTA4 hydrolase but in vivo substrates not yet defi
10333_at 0.3808834 -0.088453 0.509555 0.598008 PSR1 YLL010C
Plasma membrane Sodium Response 1
7462_at 0.39547071 -0.02776533 0.570729 0.59849433 62 kDa proteinPET112 YBL080C
5725_at 0.23302374 -0.028517 0.570055 0.598572 Hypothetical ORFNA YEL020C
9121_at 0.22311328 -0.038189 0.56041233 0.59860133 TOF1 YNL273W
topoisomerase I interacting factor 1
5679_at 0.23380062 -0.04360533 0.555215 0.59882033 YAT2
carnitine acetyltransferase YER024W
11076_at 0.27845661 -0.04550333 0.55335033 0.59885367 Sorting NeXin SNX4 YJL036W
7818_at 0.21117528 -0.05561933 0.54354367 0.599163 Hypothetical ORFNA YPL071C
6879_at 0.14196099 -0.00522333 0.59423333 0.59945667 NA NA YCR001W
6165_at 0.1739446 -0.01120833 0.589029 0.60023733 Hypothetical ORFNA YDR291W
6019_at 0.08729887 -0.00835367 0.59237267 0.60072633 TFIIH subunit TFB3 YDR460W
10001_at 0.29637635 -0.089587 0.511447 0.601034 MID2
Protein required for mating YLR332W
11385_s_at 0.14565406 -0.01388567 0.58749233 0.601378 FLO1 /// FLO5YAL063C
Lectin-like protein involved in flocculation, cell wall protein that bind
11077_at 0.31120053 -0.08513867 0.51684867 0.60198733 TAD2 YJL035C
tRNA-specific adenosine deaminase subunit
5266_at 0.07132323 -0.01149767 0.59055733 0.602055 BRR6
nuclear envelope protein YGL247W
4737_at 0.03269649 -0.002975 0.599287 0.602262 APL6 YGR261C
clathrin assembly complex beta adaptin component (putative)
3183_f_at 0.24108488 -0.02044367 0.58205733 0.602501 YRF1-7 YIL177C
Hypothetical ORF /// Y'-helicase protein 1
11338_at 0.16837021 -0.02084633 0.58169033 0.60253667 MYO4
myosin V heavy chain YAL029C
11186_at 0.55749722 -0.21996733 0.38259267 0.60256 NA NA YJL152W
4731_at 0.35967792 -0.10438433 0.498288 0.60267233 monooxygenase COQ6 YGR255C
8813_at 0.32697543 -0.06457567 0.53861767 0.60319333 NA YNR054C
Protein required for cell viability
8828_at 0.23021407 -0.01372433 0.58970033 0.60342467 NA NA YNR025C
11390_at 0.08223429 -0.01382133 0.590483 0.60430433 CNE1 YAL058W
calnexin and calreticulin homolog
7386_at 0.1973608 -0.03370633 0.57062267 0.604329 activator protein of CYC1 (component of HAP2/HAP3
transcriptional HAP3 YBL021C
7189_at 0.25879384 -0.04110333 0.563361 0.60446433 splicing factor NTC20 YBR188C
7102_at 0.15085915 -0.01443233 0.59021167 0.604644 RNA helicase PRP5 YBR237W
7227_at 0.26230519 -0.06514933 0.53958 0.60472933 MEC1 YBR136W
Central regulator of the Mec1p/Tel1p signaling network; required fo
11315_i_at 0.46369826 -0.11071133 0.49469333 0.60540467 SSA1 family
heat shock protein of HSP70YAL005C
5370_at 0.47855454 -0.183107 0.422822 0.605929 MDJ1 YFL016C
DnaJ homolog|involved in mitochondrial biogenesis and protein fold
10685_at 0.16750858 -0.00170533 0.6058 0.60750533 UTP11
U3 snoRNP protein YKL099C
7732_at 0.18860642 -0.00270167 0.60484033 0.607542 a subcomplex YPR025C
TFIIK subunit, CCL1 of transcription factor TFIIH|cyclin
10156_at 0.01780189 -0.000961 0.606586 0.607547 RFX1 YLR176C
DNA binding protein, homologous to a family of mammalian RFX1-4
5775_at 0.11311858 -0.016018 0.59274333 0.60876133 SOM1 YEL059C-A
high copy suppressor of imp1 mutation, may be required for the fun
9401_at 0.18126299 -0.02960733 0.57933067 0.608938 ESC1 YMR219W
Protein localizesd to the nuclear periphery, involved in telomeric sile
6344_at 0.13846418 -0.017482 0.591509 0.608991 ENT5 YDR153C
Protein containing an N-terminal epsin-like domain involved in clath
8169_at 0.19884671 -0.02876833 0.58038033 0.60914867 MRS6 YOR370C
rab geranylgeranyltransferase regulatory subunit
9308_at 0.31237582 -0.07405167 0.535319 0.60937067 PRP12
integral membrane protein YMR302C
9802_at 0.55603567 -0.436031 0.173352 0.609383 ERO1 YML130C
Glycoprotein required for oxidative protein folding in the endoplasm
7628_at 0.25862313 -0.06808633 0.54163967 0.609726 TAZ1 YPR140W
Putative acyltransferase, required for normal phospholipid content o
9680_at 0.12027634 -0.00906567 0.600783 0.60984867 Hypothetical ORFNA YML030W
11199_at 0.3211121 -0.08165333 0.52905267 0.610706 Hypothetical ORFNA YJL181W
6305_at 0.13300462 -0.00286933 0.607935 0.61080433 SAC3 YDR159W
A component of the nuclear pore that is involved in the nuclear expo
10126_at 0.18626148 -0.007381 0.60365933 0.61104033 PEX13 YLR191W
contains Src homology 3 (SH3) domain
5953_at 0.18871182 -0.035401 0.57595733 0.61135833 QCR7 YDR529C
ubiquinol cytochrome C oxidoreductase subunit 7 (14 kDa)
7252_at 0.17246476 -0.00496733 0.60658733 0.61155467 NA NA YBR116C
5741_at 0.17132103 -0.00197133 0.61144133 0.61341267 VAB2 YEL005C
Protein with a potential role in vacuolar function, as suggested by its
3663_f_at 0.08035212 -0.01087667 0.60260033 0.613477 NA YNLWTAU2
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
7769_at 0.42655573 -0.04548333 0.56867733 0.61416067 SUV3 YPL029W
ATP-dependent RNA helicase, component of the mitochondrial deg
4408_at 0.27421992 -0.032221 0.581987 0.614208 S.
Homologue of NApombe DMA1 YHR115C
3909_f_at 0.24512515 -0.059688 0.55454267 0.61423067 NA NA YALWDELTA1
3309_s_at 0.43502703 -0.127638 0.48664133 0.61427933 NA NA YERWDELTA18
8375_at 0.48281327 -0.06374967 0.550576 0.61432567 protein YOR173W
Non-essential DCS2 containing a HIT (histidine triad) motif; regula
8357_at 0.2174218 -0.04673167 0.567696 0.61442767 NA NA YOR200W
5785_at 0.28310886 -0.08216433 0.53257433 0.61473867 RML2 YEL050C
mitochondrial ribosomal protein L2 of the large subunit
6828_at 0.16371765 -0.027489 0.587331 0.61482 BUD5 YCR038C
GTP/GDP exchange factor for Rsr1 protein
6706_at 0.30821695 -0.08742633 0.52758833 0.61501467 MRPL11 YDL202W
Mitochondrial ribosomal protein of the large subunit
6280_at 0.27505779 -0.04131933 0.57381967 0.615139 CSN9
COP9 signalosome (CSN) subunit YDR179C
6842_at 0.31462204 -0.07397633 0.54137267 0.615349 CTR86 function
Essential protein of unknownYCR054C
8862_at 0.54670201 -0.19009267 0.42574467 0.61583733 Hypothetical ORFNA YNR014W
6076_at 0.15861444 -0.00111033 0.61496567 0.616076 RGA2
Rho-GTPase Activating Protein YDR379W
8259_at 0.29324246 -0.07027267 0.546252 0.61652467 Hypothetical ORFNA YOR283W
10343_at 0.08913394 -0.01372967 0.60298333 0.616713 Hypothetical ORFNA YLR001C
3468_i_at 0.27357961 -0.00697333 0.609913 0.61688633 NA NA YCRCDELTA14
10377_at 0.45537541 -0.119639 0.49759 0.617229 AQY2 YLL053C
Hypothetical ORF; maybe continuous with YLL052C (AQY2) in som
6298_at 0.02827549 -0.002883 0.61489367 0.61777667 NA YDR196C
predicted to catalyze the final step in synthesis of Coenzyme A
4091_at 0.31394532 -0.072616 0.545298 0.617914 DSN1 YIR010W
Protein required for cell viability
4174_at 0.17325882 -0.018297 0.599742 0.618039 Hypothetical ORFNA YIL092W
5171_at 0.34669012 -0.00567267 0.61301867 0.61869133 YRB30 YGL164C
Competes with yeast RanBP1 (Yrb1p) for binding to the GTP-bound
6429_at 0.27575754 -0.01343333 0.605436 0.61886933 MAK21 YDR060W
essential for 60s ribosome biogenesis; involved in nuclear export of
6490_at 0.15778898 -0.03099867 0.58808167 0.61908033 CDC7 YDL017W
Cdc7p-Dbf4p kinase complex catalytic subunit
7273_at 0.12009845 -0.00797767 0.61126167 0.61923933 acid phosphatasePHO3 YBR092C
6852_at 0.09470628 -0.006003 0.61333467 0.61933767 PET18 YCR020C
Protein required for respiratory growth and stability of the mitochond
8193_at 0.17528039 -0.03012633 0.59039667 0.620523 cofactor D
tubulin folding CIN1 YOR349W
5328_at 0.25712192 -0.04738867 0.57340833 0.620797 SMC2 YFR031C
SMC chromosomal ATPase family member|similar to ScII (chicken)
9444_at 0.3925128 -0.08458567 0.536798 0.62138367 PAI3
inhibitor of proteinase Pep4pYMR174C
6151_at 0.34162404 -0.11952533 0.50190633 0.62143167 SWA2
auxilin-like protein YDR320C
5407_at 0.36982647 -0.05338567 0.56832133 0.621707 BUD27 YFL023W
Protein involved in bud-site selection, nutrient signaling, and gene e
4892_at 0.17218221 -0.031994 0.58974967 0.62174367 Hypothetical ORFNA YGR102C
7928_at 0.52502637 -0.05941033 0.56310567 0.622516 UIP4
Ulp1 Interacting Protein 4 YPL186C
6662_at 0.29636604 -0.047599 0.575214 0.622813 NA NA YDL158C
3558_f_at 0.2131602 -0.06303433 0.56015 0.62318433 NA YPLCTAU2
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
8470_at 0.05873432 -0.001442 0.62206233 0.62350433 YVC1 YOR088W
Vacuolar cation channel, mediates release of Ca(2+) from the vacu
8819_at 0.28876973 -0.09220933 0.531343 0.62355233 FRE4 YNR060W
Ferric reductase, reduces a specific subset of siderophore-bound ir
9000_at 0.06779963 -0.01189033 0.612063 0.62395333 Hypothetical ORFNA YNL122C
9205_at 0.05461568 -0.00536733 0.61881433 0.62418167 FIG4 YNL325C
Protein required for efficient mating, member of a family of eukaryot
9627_at 0.11859991 -0.01966067 0.605026 0.62468667 TFIID subunit TAF4 YMR005W
10139_i_at 0.17782623 -0.034614 0.59010667 0.62472067 NA NA YLR202C
6221_at 0.19630882 -0.01436967 0.61047367 0.62484333 catalase A CTA1 YDR256C
6861_at 0.16475279 -0.03002267 0.59505467 0.62507733 RHB1 YCR027C
GTP-binding protein|ras family|Rheb
4705_at 0.24131236 -0.037339 0.58813133 0.62547033 RTT102
Regulator of Ty1 Transposition YGR275W
8449_at 0.18656754 -0.034074 0.59203167 0.62610567 Hypothetical ORFNA YOR112W
6242_at 0.09789746 -0.00651767 0.620099 0.62661667 COX20 YDR231C
required for maturation and assembly of cytochrome oxidase subun
4214_at 0.20360555 -0.040546 0.586081 0.626627 FYV10 required
Protein of unknown function, YIL097Wfor survival upon exposure to
5520_at 0.12019526 -0.00239133 0.62452233 0.62691367 DEIH-box ATPase BRR2 YER172C
9605_at 0.20359738 -0.04320567 0.584523 0.62772867 that physically associates with the PP2A and SIT4 p
42 kDa proteinTAP42 YMR028W
9706_at 0.23319579 -0.01270733 0.61561967 0.628327 Hypothetical ORFNA YML050W
9548_at 0.33090525 -0.06518933 0.56356333 0.62875267 Ku80 homologYKU80 YMR106C
6008_at 0.14801527 -0.00580433 0.623679 0.62948333 ADA2
transcription factor YDR448W
3849_f_at 0.63375673 -0.09955233 0.53042533 0.62997767 NA NA YJLWDELTA19
9076_at 0.36486257 -0.05618833 0.574111 0.63029933 NA NA YNL228W
8459_at 0.19216575 -0.01387733 0.61655933 0.63043667 BUD21
U3 snoRNP protein YOR078W
3307_s_at 0.43663815 -0.08845767 0.542167 0.63062467 NA NA YERWDELTA18
11352_at 0.18477208 -0.03716367 0.59382867 0.63099233 DNA glycosylase NTG1 YAL015C
9989_at 0.21922638 -0.01274433 0.618308 0.63105233 NA MMS22 YLR320W
4397_at 0.11959999 -0.01691 0.61517633 0.63208633 MRPL6 YHR147C
Mitochondrial ribosomal protein of the large subunit
9941_at 0.06048471 -0.01101833 0.621203 0.63222133 STE11 YLR362W
Signal transducing MEK kinase involved in pheromone response an
4732_at 0.56778081 -0.26847633 0.36419267 0.632669 GND2
6-phosphogluconate dehydrogenaseYGR256W
6900_at 0.08974392 -0.00330433 0.62947333 0.63277767 (sterile
contains SAM STE50 alpha motif) YCL032W
6191_at 0.17321016 -0.00590267 0.62846867 0.63437133 NA NA YDR271C
3617_f_at 0.12880777 -0.028102 0.606782 0.634884 NA NA YORWTAU2
5033_at 0.35823028 -0.01805867 0.61691067 0.63496933 CGR1
coiled-coil protein YGL029W
8848_at 0.28422778 -0.03908533 0.596115 0.63520033 DOM34 YNL001W
Probable RNA-binding protein, functions in protein translation to pro
3641_f_at 0.31508198 -0.07849833 0.55688633 0.63538467 NA NA YOLWSIGMA1
6021_f_at 0.2079585 -0.02417867 0.61225533 0.636434 MFA1 YDR461W
a-factor mating pheromone precursor
9950_at 0.22986508 -0.024174 0.61263467 0.63680867 SSQ1
HSP70 family chaperone YLR369W
6411_at 0.26764462 -0.01503867 0.62183133 0.63687 RRP1 precursor
involved in processing rRNA YDR087C species to mature rRNAs
9507_at 0.04191454 -0.00057033 0.63632167 0.636892 Hypothetical ORFNA YMR111C
9509_at 0.06643203 -0.00952267 0.62745033 0.636973 FOL3
dihydrofolate synthetase YMR113W
10644_at 0.3537151 -0.07213833 0.565355 0.63749333 NA NA YKL053W
6616_at 0.1531452 -0.02125167 0.616833 0.63808467 IWR1
Interacts with RNA Polymerase IIYDL115C
9176_at 0.19136604 -0.037944 0.60017733 0.63812133 KRI1
Krr1p binding protein YNL308C
4872_at 0.04882151 -0.00598433 0.63396567 0.63995 Hypothetical ORFNA YGR127W
4363_at 0.22284418 -0.01491367 0.62550767 0.64042133 KEL1 YHR158C
Protein required for proper cell fusion and cell morphology; function
11053_at 0.14828796 -0.006887 0.633602 0.640489 NA NA YJL015C
10878_at 0.17387267 -0.03721567 0.603529 0.64074467 STR2
cystathionine gamma-synthase YJR130C
8887_at 0.0378907 -0.00337667 0.638327 0.64170367 ASI3 YNL008C
Putative integral membrane E3 ubiquitin ligase; genetic interactions
10652_at 0.35040967 -0.095547 0.546898 0.642445 heme
cytochrome c1CYT2 lyase (CC1HL) YKL087C
10119_at 0.21594309 -0.02084467 0.62206367 0.64290833 Component of ADY4 YLR227C
the meiotic outer plaque, a membrane-organizing ce
8836_at 0.17865728 -0.04679433 0.59624267 0.643037 ABZ1
aminodeoxychorismate synthase YNR033W
5434_at 0.22606237 -0.011965 0.63129167 0.64325667 The authentic, NA YFL046W
non-tagged protein was localized to the mitochondria
7838_at 0.36641295 -0.09494133 0.54864667 0.643588 ligase
tyrosine-tRNA MSY1 YPL097W
5062_at 0.14950713 -0.031028 0.61256767 0.64359567 RIM8 YGL045W
Involved in proteolytic processing of Rim1p
8567_at 0.30782146 -0.028617 0.615137 0.643754 Hypothetical ORFNA YOR006C
3336_f_at 0.1223207 -0.025972 0.61791833 0.64389033 NA YERCTAU2
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
9765_at 0.50272722 -0.097571 0.54638033 0.64395133 NDI1
NADH dehydrogenase (ubiquinone) YML120C
9996_at 0.64938002 -0.31863267 0.325447 0.64407967 Hypothetical ORFNA YLR327C
6428_at 0.23780569 -0.060968 0.58319533 0.64416333 UBC5
ubiquitin-conjugating enzyme YDR059C
9654_at 0.08869203 -0.01487533 0.63022067 0.645096 Hypothetical ORFNA YML011C
6552_at 0.07569244 -0.01433067 0.631888 0.64621867 NA interacts with meiotic division protein C
Protein of unknown function; YDL089W
7062_at 0.43818278 -0.111252 0.53541967 0.64667167 SNF5 YBR289W
chromatin remodeling Snf/Swi complex subunit
10244_at 0.5058452 -0.224542 0.422137 0.646679 EMP46 Emp47p
homolog of the Golgi protein YLR080W
7122_at 0.21011737 -0.027599 0.61941733 0.64701633 POP4 YBR257W
Nuclear RNase P subunit|RNase MRP subunit
10340_at 0.06989137 -0.01297033 0.63444833 0.64741867 NA SFI1 YLL003W
11064_at 0.23400315 -0.00277033 0.64508167 0.647852 Hypothetical ORFNA YJL049W
3841_at 0.36594052 -0.083306 0.56470633 0.64801233 NA NA YJLWDELTA15
8647_at 0.03328003 -0.00244733 0.645586 0.64803333 COQ3 YOL096C
3,4-dihydroxy-5-hexaprenylbenzoate methyltransferase
7764_at 0.30918398 -0.019002 0.629076 0.648078 NA NA YPR012W
4387_at 0.17872809 -0.00438933 0.643863 0.64825233 NA
Homologous to PBI2 YHR138C
3447_f_at 0.11730404 -0.00463933 0.643879 0.64851833 NA NA YDRCDELTA9
5022_at 0.1543726 -0.02046933 0.628309 0.64877833 TFG2 YGR005C
transcription initiation factor TFIIF middle subunit
7578_at 0.13699079 -0.00698467 0.64180267 0.64878733 AOS1 YPR180W
Nuclear protein that acts as a heterodimer with Uba2p to activate S
8510_at 0.07279469 -0.00689267 0.64200167 0.64889433 CYC2 YOR037W
Mitochondrial protein required for normal abundance of mitochondri
7109_at 0.13751987 -0.02629367 0.62266333 0.648957 GPX2 YBR244W
Phospholipid hydroperoxide glutathione peroxidase induced by gluc
6571_at 0.31609515 -0.037195 0.611807 0.649002 Hypothetical ORFNA YDL073W
6036_at 0.32035535 -0.09054467 0.56043967 0.65098433 Metalloprotease CYM1 YDR430C
4884_i_at 0.23815892 -0.05470067 0.596531 0.65123167 NA NA YGR138C
8925_at 0.12089043 -0.003838 0.647476 0.651314 NA NA YNL063W
9169_at 0.09671118 -0.02058933 0.63184267 0.652432 ATP11 YNL315C
Molecular chaperone, required for the assembly of alpha and beta s
4786_at 0.26861109 -0.07570767 0.576788 0.65249567 MRPL9 YGR220C
Mitochondrial ribosomal protein of the large subunit
8280_at 0.18135831 -0.05922233 0.59341733 0.65263967 RPT4
26S proteasome cap subunitYOR259C component|ATPase
7902_at 0.06920301 -0.00963367 0.64343467 0.65306833 Hypothetical ORFNA YPL168W
7954_at 0.16090986 -0.03228433 0.62110433 0.65338867 HRR25
casein kinase I isoform YPL204W
5206_at 0.18960382 -0.024198 0.629279 0.653477 MDM34 YGL219C
Mitochondrial outer membrane protein, colocalizes with mtDNA nuc
11192_at 0.23184293 -0.05417233 0.59957733 0.65374967 NA NA YJL188C
4427_at 0.04149751 -0.00149133 0.652969 0.65446033 MSR1
arginyl-tRNA synthetase YHR091C
3523_at 0.26914162 -0.085095 0.570514 0.655609 NA NA YBRWDELTA16
4402_at 0.24200201 -0.01860833 0.63704533 0.65565367 CTM1
cytochrome c methyltransferase YHR109W
4347_at 0.23857097 -0.02070333 0.63645633 0.65715967 Elp4p-Iki1p-Elp6p-subcomplex of RNA polymerase II
Subunit of the IKI1 YHR187W
5312_s_at 0.06217775 -0.01237967 0.64489967 0.65727933 NA YFL043C
Due to a sequence change (deletion of G at 46151), YFL043C is no
6257_at 0.18902984 -0.035278 0.62248067 0.65775867 NA VPS64 YDR200C
3900_f_at 0.09732801 -0.00760333 0.65187333 0.65947667 NA YJLWTY4-1
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
4768_at 0.63296777 -0.23356067 0.42596133 0.659522 SOL4
6-phosphogluconolactonase YGR248W
8597_at 0.14421786 -0.01937267 0.64017867 0.65955133 NA YOL054W
Nuclear protein, putative RNA polymerase II elongation factor; isola
10328_at 0.06235041 -0.012995 0.64687733 0.65987233 BPT1 YLL015W
ABC transporter|highly homologous to human MRP1 and to C. eleg
9326_at 0.24125134 -0.05748733 0.60256867 0.660056 FCP1 of CTD phosphatase
TFIIF interacting component YMR277W
3901_f_at 0.13910149 -0.03283567 0.62775967 0.66059533 NA YJLWTAU2
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
10222_at 0.16841819 -0.00570667 0.65516267 0.66086933 CDC45 YLR103C
chromosomal DNA replication initiation protein
9078_at 0.26411226 -0.01128367 0.65019433 0.661478 CNM67 YNL225C
chaotic nuclear migration; predicted mass is 67kDa
9621_at 0.1743886 -0.038267 0.62325867 0.66152567 Hypothetical ORFNA YML002W
7360_at 0.16995938 -0.03476033 0.62711333 0.66187367 protein YBL001C
Non-essential ECM15 of unknown function, likely exists as tetramer,
6929_at 0.35422817 -0.17198967 0.490138 0.66212767 Hypothetical ORFNA YCL047C
9560_at 0.25672685 -0.02234567 0.64000433 0.66235 Hypothetical ORFNA YMR075W
5727_at 0.28083194 -0.01487967 0.64757533 0.662455 EAF5 YEL018W
Esa1p-associated factor, subunit of the NuA4 acetyltransferase com
3232_f_at 0.11532853 -0.012818 0.649672 0.66249 NA YGRCTAU3
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
8167_at 0.19363186 -0.01473267 0.65068767 0.66542033 RAD17
3'-5'exonuclease (putative) YOR368W
8988_at 0.39322953 -0.05199667 0.61370467 0.66570133 NA NA YNL134C
8690_at 0.22455998 -0.035021 0.63088933 0.66591033 NOP8 YOL144W
Nucleolar protein required for 60S ribosomal subunit biogenesis
4187_at 0.23183607 -0.032857 0.63317 0.666027 Hypothetical ORFNA YIL077C
4925_at 0.23836121 -0.02336333 0.64287867 0.666242 NNF2 and genetic
Protein that exhibits physical YGR089W interactions with Rpb8p, w
5658_at 0.33792789 -0.03936833 0.627482 0.66685033 AAA ATPase SAP1 YER047C
8434_at 0.04327028 -0.00066267 0.66671967 0.66738233 Hypothetical ORFNA YOR097C
8873_at 0.30020295 -0.05944033 0.60916233 0.66860267 Non-essential NA YNL022C
protein with similarity to S. pombe hypothetical protei
9337_at 0.14843717 -0.024632 0.64425833 0.66889033 HSH155 YMR288W
U2-snRNP associated splicing factor that forms extensive associati
9612_at 0.04389438 -0.00885733 0.66015033 0.66900767 Hypothetical ORFNA YMR034C
7065_at 0.0974573 -0.009073 0.66073767 0.66981067 NA NA YBR292C
6254_at 0.18869527 -0.030371 0.639912 0.670283 RNA helicase PRP28 YDR243C
5155_at 0.21421517 -0.04182633 0.62932667 0.671153 Component of ITC1 YGL133W
the ATP-dependent Isw2p-Itc1p chromatin remodelin
9331_at 0.31772393 -0.11481133 0.55672333 0.67153467 AEP2 YMR282C
Mitochondrial protein, likely involved in translation of the mitochond
5733_at 0.37027491 -0.05945933 0.612623 0.67208233 NA NA YEL014C
3904_f_at 0.09590518 -0.010857 0.66136333 0.67222033 NA YJLWDELTA2
Identified by expression profiling and mass spectrometry /// Similar
4890_at 0.11954772 -0.00831033 0.66424133 0.67255167 MDR1 YGR100W
GTPase activating protein (GAP) for Ypt6
7987_at 0.23633747 -0.02254033 0.65002433 0.67256467 BMS1 for processing of 35S pre-rRNA at site
GTP-binding protein requiredYPL217C
6148_at 0.17552192 -0.03279733 0.64064267 0.67344 Hypothetical ORFNA YDR317W
10706_at 0.12875185 -0.03654767 0.63716667 0.67371433 SHR3; YKL123W
Suppressor of SSH4 confers leflunomide resistance when overexp
3263_i_at 0.32652458 -0.10889 0.56495367 0.67384367 NA NA YGLWDELTA6
6403_at 0.23224773 -0.07261267 0.60146633 0.674079 PET100 YDR079W
cytochrome c oxidase-specific assembly factor
3887_f_at 0.06429968 -0.01243133 0.66179833 0.67422967 NA YJLWTAU1
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
6285_at 0.24444949 -0.04032167 0.634064 0.67438567 PLP1 YDR183W
Protein with a possible role in folding of beta-tubulin; has similarity t
8452_at 0.12155399 -0.01919967 0.65524467 0.67444433 of 33 kDa
Trapp subunit TRS33 YOR115C
7598_at 0.14601671 -0.04182933 0.63278433 0.67461367 NCA2 of subunits
Regulates proper expressionYPR155C 6 (Atp6p) and 8 (Atp8p) of
10536_at 0.24914837 -0.05753367 0.618375 0.67590867 IRS4 YKR019C
Protein involved in rDNA silencing, contains a C-terminal Eps15 hom
11011_at 0.31695822 -0.049208 0.62698633 0.67619433 NA YJL010C
Protein required for cell viability
5663_at 0.05900789 -0.00206033 0.67448533 0.67654567 Hypothetical ORFNA YER051W
6542_at 0.25685884 -0.02619733 0.65037433 0.67657167 MBP1
transcription factor YDL056W
6500_at 0.16389076 -0.040461 0.63616167 0.67662267 RPT2 YDL007W
one of the ATPase subunits of the proteasome
4543_at 0.09282566 -0.006355 0.67066667 0.67702167 homologous toAPM2 YHL019C
the medium chain of mammalian clathrin-associated
6725_at 0.21653126 -0.04524667 0.63213267 0.67737933 HO YDL227C
homothallic switching endonuclease
4838_at 0.4000146 -0.17749733 0.50018633 0.67768367 QCR9 YGR183C
ubiquinol cytochrome c oxidoreductase complex 7.3 kDa subunit 9
8273_at 0.197633 -0.01472567 0.66348233 0.678208 Hypothetical ORFNA YOR296W
8803_at 0.12552203 -0.01056 0.667662 0.678222 PET494 YNR045W
translational activator of cytochrome C oxidase
5684_at 0.26774568 -0.07998667 0.598316 0.67830267 SMB1 YER029C
associated with U1, U2, U4, and U5 snRNPs as part of the Sm-core
4766_at 0.08591636 -0.00887833 0.66972633 0.67860467 BRF1 YGR246C
RNA polymerase III transcription factor|similar to TFIIB
8950_at 0.169126 -0.02012967 0.65933933 0.679469 PMS1 YNL082W
mutL homolog|similar to Mlh1p, associates with Mlh1p, possibly form
7759_at 0.18031099 -0.01755667 0.66215433 0.679711 REC8 YPR007C
Meoisis-specific component of sister chromatid cohesion complex;
8488_at 0.41713615 -0.177097 0.502616 0.679713 NA YOR060C
Protein required for cell viability
9563_at 0.34660526 -0.08266333 0.59721067 0.679874 VPS20 YMR077C
vaculolar protein sorting (putative)
5272_at 0.22974163 -0.038454 0.64181267 0.68026667 KAP114 nuclear import of Spt15p, histones H2A
Karyopherin, responsible for YGL241W
6250_at 0.35898012 -0.04546833 0.63567833 0.68114667 Hypothetical ORFNA YDR239C
7797_at 0.08176704 -0.01615333 0.66564767 0.681801 ELC1 YPL046C
elongin C transcription elongation factor
5506_s_at 0.19831025 -0.0243 0.65807933 0.68237933 UBC8
ubiquitin-conjugating enzyme YEL012W
3941_at 0.18074102 -0.01230167 0.67048 0.68278167 KCC4 YCL024W
S. pombe Nim1 homolog|protein kinase
4951_at 0.18873041 -0.01653467 0.66643233 0.682967 ROM1 YGR070W
GDP/GTP exchange protein (GEP) for Rho1p; mutations are synthe
6782_at 0.38454455 -0.05972767 0.62323967 0.68296733 Hypothetical ORFNA YCR087C-A
4095_at 0.40270347 -0.046476 0.63734467 0.68382067 Hypothetical ORFNA YIR014W
11067_at 0.11464642 -0.01483067 0.669001 0.68383167 Hypothetical ORFNA YJL046W
3828_f_at 0.40110003 -0.13751667 0.54636067 0.68387733 NA NA YKRCDELTA11
5060_at 0.28332977 -0.076649 0.607245 0.683894 NA YGL047W
Protein required for cell viability
6625_at 0.25238804 -0.018144 0.666311 0.684455 RPC53
RNA polymerase III subunit YDL150W
10964_at 0.13057902 -0.03534067 0.64954 0.68488067 The authentic, NA YJR080C
non-tagged protein was localized to the mitochondria
7479_at 0.32763271 -0.14927833 0.536355 0.68563333 Hypothetical ORFNA YBL107C
8634_at 0.1275328 -0.009517 0.676721 0.686238 NA NA YOL063C
6843_at 0.33676587 -0.077993 0.60837033 0.68636333 PWP2
U3 snoRNP protein YCR057C
3354_s_at 0.58732302 -0.14324367 0.54312 0.68636367 NA YERWDELTA18
Hypothetical ORF /// Identified by gene-trapping, microarray-based
8200_at 0.42319259 -0.22184767 0.465342 0.68718967 Hypothetical ORFNA YOR356W
7912_at 0.19277252 -0.015966 0.67135967 0.68732567 Hypothetical ORFNA YPL158C
3691_f_at 0.11031878 -0.03227233 0.65507833 0.68735067 NA YMRCTAU3
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
7567_at 0.18157442 -0.015422 0.67216833 0.68759033 NA YPR169W
Nucleolar protein of unknown function, exhibits a physical interactio
3216_at 0.37982545 -0.199264 0.48879167 0.68805567 NA NA YGRCDELTA25
10184_at 0.20389646 -0.063707 0.62441767 0.68812467 RNH203 YLR154C
Ribonuclease H2 subunit, required for RNase H2 activity
8904_at 0.52334726 -0.37364767 0.31474767 0.68839533 IDH1 YNL037C
isocitrate dehydrogenase 1 alpha-4-beta-4 subunit
5623_at 0.06303265 -0.009918 0.67893333 0.68885133 Hypothetical ORFNA YER093C-A
10318_at 0.11055353 -0.02803533 0.66085233 0.68888767 NA YLR022C
Protein required for cell viability
5629_at 0.16528957 -0.04444133 0.64468367 0.689125 UBP9 YER098W
ubiquitin carboxyl-terminal hydrolase
9387_at 0.05266247 -0.00917867 0.68042067 0.68959933 Hypothetical ORFNA YMR247C
7934_at 0.17101675 -0.01176667 0.67798667 0.68975333 CTI6 YPL181W
Protein that relieves transcriptional repression by binding to the Cyc
7437_at 0.23712616 -0.09216333 0.597972 0.69013533 Hypothetical ORFNA YBL059W
8208_at 0.30168621 -0.02230433 0.66850433 0.69080867 NA NA YOR318C
6406_at 0.17531637 -0.046851 0.644923 0.691774 STN1 YDR082W
involved in telomere length regulation, function in telomere metabol
5936_at 0.32300504 -0.104782 0.587669 0.692451 protein YDR512C
Non-essential EMI1 of unknown function required for transcription
5368_at 0.21775353 -0.03052 0.662752 0.693272 SMX2 YFL017W-A
snRNP G protein (human Sm-G homolog)
10795_at 0.12757856 -0.02460933 0.66880667 0.693416 transporter protein homolog
carboxylic acidJEN1 YKL217W
9963_at 0.33625993 -0.118468 0.574982 0.69345 NAM2
leucine-tRNA ligase|LeuRS YLR382C
7432_at 0.56617609 -0.404074 0.289676 0.69375 PRX1 YBL064C
Mitochondrial peroxiredoxin (1-Cys Prx) with thioredoxin peroxidase
3173_i_at 0.2148054 -0.01758333 0.67632233 0.69390567 NA NA YHRCDELTA12
6383_at 0.22286415 -0.03614533 0.65811633 0.69426167 STE5 YDR103W
Scaffold protein that, in response to pheromone, shuttles from the n
10987_at 0.06277477 -0.00354967 0.691353 0.69490267 APS2 YJR058C
clathrin associated protein complex small subunit
3287_s_at 0.10334858 -0.02239 0.67314267 0.69553267 NA NA YFLWTAU1
9440_at 0.28869967 -0.037844 0.65784467 0.69568867 nuclear protein HOT1 YMR172W
9728_at 0.07104202 -0.00760967 0.68865367 0.69626333 Component of COG8 oligomeric
the conservedYML071C Golgi complex, dependent
8671_at 0.14343413 -0.044849 0.65154867 0.69639767 RRI2
COP9 signalosome (CSN) subunit YOL117W
8531_at 0.26630454 -0.020546 0.67612467 0.69667067 NA NA YOR013W
4487_at 0.22634937 -0.07994733 0.61682567 0.696773 FYV4 required for
Protein of unknown function, YHR059W survival upon exposure to
7185_at 0.34904632 -0.060678 0.636177 0.696855 Hypothetical ORFNA YBR184W
7296_at 0.17822297 -0.05550667 0.64182333 0.69733 RDH54 YBR073W
helicase (putative)|similar to RAD54
8428_at 0.37826708 -0.19016 0.50811533 0.69827533 IDH2 YOR136W
NAD-dependent isocitrate dehydrogenase
8326_at 0.31964964 -0.05861167 0.64009633 0.698708 Hypothetical ORFNA YOR215C
8994_at 0.25599451 -0.10158633 0.59720567 0.698792 TEP1
tyrosine phosphatase (putative) YNL128W
10750_at 0.09852031 -0.01286233 0.68598133 0.69884367 NA NA YKL169C
9886_at 0.18798794 -0.04080167 0.658974 0.69977567 snRNP proteinLSM3 YLR438C-A
11339_at 0.13559451 -0.02932833 0.67049133 0.69981967 endoplasmic reticulum membrane protein, interacts w
Tail-anchored FRT2 YAL028W
7201_at 0.2690368 -0.06491733 0.634991 0.69990833 CNS1
cyclophilin seven suppressorYBR155W
8405_at 0.35290172 -0.148052 0.55286967 0.70092167 PET123 YOR158W
mitochondrial ribosomal protein of small subunit
10530_at 0.33322517 -0.17957833 0.52378867 0.703367 GLG1
glycogen synthesis initiator YKR058W
6462_at 0.20653017 -0.05950833 0.64396233 0.70347067 NTH1
neutral trehalase YDR001C
9766_at 0.32169736 -0.127745 0.57593467 0.70367967 NA potential Cdc28p substrate
Protein of unknown function, YML119W
9483_at 0.21533444 -0.07632933 0.62756767 0.703897 ALD2
aldeyhde dehydrogenase YMR170C
5080_at 0.24497889 -0.02098667 0.68364067 0.70462733 NA NA YGL072C
6521_at 0.24044177 -0.05686233 0.648034 0.70489633 DBP10
Dead box protein 10 YDL031W
4320_at 0.20488818 -0.012595 0.692938 0.705533 NA SET5 YHR207C
11083_at 0.41267853 -0.16854 0.537088 0.705628 SMC3 YJL074C
SMC chromosomal ATPase family member
9097_at 0.28206859 -0.11047533 0.59528667 0.705762 MRPL17 YNL252C
Mitochondrial ribosomal protein of the large subunit
5013_at 0.09357959 -0.01271 0.694454 0.707164 Hypothetical ORFRPN14 YGL004C
6803_at 0.48106248 -0.208449 0.49879267 0.70724167 NA green fluorescent protein (GFP)-fusion
Protein of unknown function; YCR062W
9899_at 0.0451459 -0.00633267 0.70157167 0.70790433 Hypothetical ORFNA YLR408C
5637_at 0.26066216 -0.07196767 0.63621267 0.70818033 Hypothetical ORFNA YER066W
7174_at 0.29193577 -0.13410333 0.57443067 0.708534 SMY2
partial suppressor of myo2-66 YBR172C
4855_at 0.11805827 -0.010908 0.69767167 0.70857967 Hypothetical ORFNA YGR154C
10488_at 0.06540659 -0.015275 0.69333733 0.70861233 LAS1 YKR063C
Essential nuclear protein possibly involved in bud formation and mo
9887_at 0.15190839 -0.05162033 0.65714667 0.708767 MRPL4 YLR439W
Mitochondrial ribosomal protein of the large subunit
9464_at 0.16316031 -0.00936567 0.70047433 0.70984 NA NA YMR153C-A
6501_at 0.24912291 -0.05040967 0.662377 0.71278667 PTC1 YDL006W
serine-threonine protein phosphatase
4371_at 0.2900728 -0.02682367 0.68622033 0.713044 anaphase-promoting complex/cyclosome (APC/C), w
Subunit of the CDC23 YHR166C
3335_at 0.34049655 -0.050876 0.662358 0.713234 NA YERWDELTA13
Identified by expression profiling and mass spectrometry
5760_at 0.21770611 -0.00479733 0.708519 0.71331633 ECM10 YEL030W
Heat shock protein of the Hsp70 family, localized in mitochondrial n
10054_at 0.01359011 -0.001618 0.71189533 0.71351333 subunit
ATP synthase ATP14 h YLR294C
5998_at 0.11309357 -0.03127767 0.68231067 0.71358833 VPS52 YDR484W
May interact with actin as a component or controller of the assembl
3815_i_at 0.19750875 -0.04852667 0.665688 0.71421467 NA NA YKLWDELTA3
10032_at 0.24147436 -0.00703567 0.70719767 0.71423333 the hexamericYLR274W
Component of CDC46 MCM complex, which is important for
9036_at 0.26767464 -0.10924933 0.605586 0.71483533 MRPL22 YNL177C
Mitochondrial ribosomal protein of the large subunit
4984_at 0.1532506 -0.01090533 0.703979 0.71488433 NMA2 YGR011W
nicotinamide/nicotinic acid mononucleotide adenylyltransferase
10332_at 0.24777359 -0.03644633 0.67846 0.71490633 SOF1
U3 snoRNP protein YLL011W
7163_at 0.07511405 -0.00136833 0.714361 0.71572933 FTH1 YBR207W
Putative high affinity iron transporter involved in transport of intrava
4485_at 0.11741498 -0.03052333 0.68566533 0.71618867 CPR2 YHR057C
cyclophilin|peptidyl-prolyl cis-trans isomerase (PPIase)
5701_at 0.39302913 -0.05717833 0.65926733 0.71644567 NOP16
ribosome biogenesis YER002W
10751_at 0.05313444 -0.00163833 0.715298 0.71693633 KKQ8 YKL168C
Serine/threonine protein kinase of unknown function
8980_at 0.30306954 -0.09345967 0.62420467 0.71766433 PHO23 YNL097C
Probable component of the Rpd3 histone deacetylase complex, inv
8197_at 0.1725242 -0.01710967 0.70106033 0.71817 SOG2 YOR353C
Protein required for cell viability
9171_at 0.30950243 -0.093773 0.62514267 0.71891567 NA YNL313C
Protein required for cell viability
6418_at 0.181693 -0.021355 0.69897467 0.72032967 NA
Hypothetical ORF YDR049W
6274_at 0.31438349 -0.078101 0.64240867 0.72050967 RAD9
cell cycle arrest protein YDR217C
5628_at 0.17047608 -0.05180033 0.66876933 0.72056967 UBP9 YER097W
ubiquitin carboxyl-terminal hydrolase
4733_at 0.15983915 -0.01765967 0.70345267 0.72111233 MTM1 protein
putative mitochondrial carrierYGR257C
8224_at 0.09289882 -0.024574 0.69676867 0.72134267 MRS2
magnesium ion transporter YOR334W
5591_at 0.1913458 -0.01985267 0.701805 0.72165767 Monopolin MAM1 YER106W
6118_at 0.13293889 -0.03210533 0.689632 0.72173733 NA
Hypothetical ORF YDR332W
5135_at 0.34644047 -0.05603333 0.66600767 0.722041 RMD9 YGL107C
Mitochondrial protein required for sporulation
4116_at 0.08149076 -0.00734667 0.71598833 0.723335 EST3
20.5 kDa 181aa protein YIL009C-A
6540_at 0.22043833 -0.02906467 0.69431633 0.723381 USO1
integrin analogue gene YDL058W
8316_at 0.07418631 -0.00611067 0.717404 0.72351467 APC5 YOR249C
anaphase promoting complex (APC) subunit
6892_at 0.06790662 -0.014541 0.70899333 0.72353433 NA
Hypothetical ORF YCR015C
6299_at 0.07223987 -0.00746667 0.71636467 0.72383133 CBS2 YDR197W
cytochrome b translational activator
9325_at 0.24069691 -0.03235367 0.691853 0.72420667 NA NA YMR316C-A
8473_at 0.18726783 -0.04857133 0.67700767 0.725579 NA
Hypothetical ORF YOR091W
10695_at 0.21473164 -0.06977267 0.65587933 0.725652 NA
Hypothetical ORF YKL133C
9922_at 0.05221901 -0.008791 0.71739933 0.72619033 REH1 similar to
Protein of unknown function, YLR387C Rei1p but not involved in bud
4145_at 0.22717034 -0.05530133 0.67234133 0.72764267 IRR1
cohesin complex subunit YIL026C
8659_at 0.28086684 -0.02998267 0.69805 0.72803267 PHM7 expression
Protein of unknown function, YOL084W is regulated by phosphate
11044_at 0.14221617 -0.04332233 0.68554333 0.72886567 PET130 YJL023C
Protein required for respiratory growth
9363_at 0.27139833 -0.045657 0.68352533 0.72918233 NA YMR269W
protein possibly involved in protein synthesis
6659_at 0.0606805 -0.00463333 0.72473533 0.72936867 ENT1 endocytosis
Epsin-like protein involved in YDL161W and actin patch assembly
8886_at 0.09841121 -0.012158 0.71740267 0.72956067 IDP3 YNL009W
NADP-dependent isocitrate dehydrogenase
6113_at 0.21604201 -0.06762167 0.66215167 0.72977333 CTS2
Sporulation-specific chitinase YDR371W
10392_at 0.51955412 -0.376805 0.353881 0.730686 UBI4
ubiquitin|poly-ubiquitin YLL039C
8552_at 0.34132627 -0.15477733 0.578554 0.73333133 RCL1 YOL010W
RNA terminal phosphate cyclase-like protein involved in rRNA proc
6073_at 0.19217949 -0.05929833 0.67430767 0.733606 ARH1 homolog
adrenodoxin oxidoreductase YDR376W
6313_at 0.19830674 -0.052625 0.68128367 0.73390867 TFIID subunit TAF10 YDR167W
8951_at 0.06693974 -0.01920433 0.71509133 0.73429567 NA YNL081C
Putative mitochondrial ribosomal protein of the small subunit, has s
6162_at 0.04190466 -0.001293 0.73302433 0.73431733 UBX5
Hypothetical ORF YDR330W
8620_at 0.2320915 -0.05177167 0.68279133 0.734563 a membrane-bound complex containing the Tor2p ki
Component of AVO1 YOL078W
3542_f_at 0.14877342 -0.05097333 0.683606 0.73457933 YRF1-7 YPR204W
Hypothetical ORF /// Y'-helicase protein 1
6356_at 0.27636208 -0.046211 0.68869667 0.73490767 DPB4 4th subunit
DNA polymerase II (epsilon) YDR121W
10306_at 0.09943997 -0.010762 0.72496067 0.73572267 TEN1 pathways
protein involved in TelomericYLR010C in association with Stn1
6255_at 0.08969995 -0.01928333 0.71806233 0.73734567 NA
Hypothetical ORF YDR198C
8561_at 0.12360871 -0.001349 0.737628 0.738977 Pho80p cyclin PHO80 YOL001W
10936_at 0.34479943 -0.09669767 0.64281933 0.739517 JJJ3 YJR097W
Protein that may function as a cochaperone, as suggested by the p
7451_at 0.15652513 -0.051151 0.68893467 0.74008567 MRP21 YBL090W
mitochondrial ribosome small subunit component
9757_at 0.60885735 -0.261706 0.479313 0.741019 MSC1 green fluorescent protein (GFP)-fusion
Protein of unknown function, YML128C
6390_at 0.32756873 -0.067747 0.67370967 0.74145667 FOB1 protein
DNA replication fork blockingYDR110W
7058_at 0.13684064 -0.03243933 0.70907567 0.741515 NA
Hypothetical ORF YBR285W
6491_at 0.25151884 -0.01639667 0.72512667 0.74152333 NA NA YDL016C
8319_at 0.32283912 -0.11176833 0.62996933 0.74173767 Hypothetical ORFNA YOR252W
11334_at 0.22879213 -0.01111633 0.73092033 0.74203667 PRP45
pre-mRNA splicing factor YAL032C
8263_at 0.35102802 -0.03731533 0.70485633 0.74217167 NA YOR287C
Protein required for cell viability
4968_at 0.10194356 -0.01812767 0.72447833 0.742606 Hypothetical ORFNA YGR042W
11337_at 0.04432009 -0.00705267 0.73589467 0.74294733 SNC1 YAL030W
Snc2p homolog|synaptobrevin homolog
7449_at 0.07266519 -0.013081 0.73008633 0.74316733 SCS2 homologue NA YBL091C-A
7569_at 0.23022035 -0.00545533 0.73791633 0.74337167 BSP1 YPR171W
Binding protein of Synaptojanin Polyphosphoinositide phosphatase
5132_at 0.1171491 -0.02043633 0.72369067 0.744127 CUE3 has a CUE
Protein of unknown function; YGL110C domain that binds ubiquitin
9492_at 0.21169618 -0.04651967 0.69814167 0.74466133 CIN4
GTP-binding protein YMR138W
9579_at 0.31240082 -0.12583933 0.61893867 0.744778 CSM3 chromosome segregation during meio
Protein required for accurate YMR048W
8150_s_at 0.28195909 -0.09259933 0.652373 0.74497233 VPS5
simialr to sorting nexin I YOR069W
7800_at 0.29358849 -0.07063833 0.67454067 0.745179 NOP4
RNA binding protein (putative) YPL043W
10912_at 0.23418199 -0.01299067 0.73321133 0.746202 Hypothetical ORFNA YJR119C
8624_at 0.24120473 -0.050635 0.69622433 0.74685933 Hypothetical ORFNA YOL073C
7967_at 0.16482776 -0.00639733 0.74112967 0.747527 RSA1
RiboSome Assembly YPL193W
11000_at 0.0749438 -0.01332133 0.73437167 0.747693 snRNP proteinLSM8 YJR022W
9049_at 0.19842562 -0.020619 0.72711567 0.74773467 Component of IBD2 YNL164C
the BUB2-dependent spindle checkpoint pathway, in
9071_at 0.26431797 -0.02771567 0.72079533 0.748511 KAR1 YNL188W
Essential protein involved in karyogamy during mating and in spindl
4845_at 0.26850579 -0.06349933 0.68539867 0.748898 NA function
Essential protein of unknownYGR145W
9564_at 0.24968023 -0.09419667 0.65479233 0.748989 CTF18 YMR078C
Subunit of a complex with Ctf8p that shares some subunits with Re
11065_at 0.37410966 -0.023455 0.72579033 0.74924533 UBX6 green fluorescent protein (GFP)-fusion
Protein of unknown function; YJL048C
3756_i_at 0.34558474 -0.13417367 0.61597367 0.75014733 NA NA YLRWDELTA20
6072_at 0.11814344 -0.03158567 0.719079 0.75066467 ATPase (AAA BCS1family) YDR375C
4310_at 0.28241639 -0.03277133 0.71798433 0.75075567 UTP9
U3 snoRNP protein YHR196W
6759_at 0.14631712 -0.04530467 0.705778 0.75108267 NA YCL057c-a
Hypothetical ORF, has similarity to proteins in S. pombe, C. elegan
9066_at 0.08999488 -0.002114 0.74910067 0.75121467 Hypothetical ORFNA YNL193W
10259_at 0.12629494 -0.02801933 0.72355067 0.75157 IOC2 YLR095C
Member of a complex (Isw1b) with Isw1p and Ioc4p that exhibits nu
7465_at 0.36902443 -0.077953 0.67423733 0.75219033 NA NA YBL077W
3550_i_at 0.29966651 -0.12302067 0.62948233 0.752503 NA NA YPLCDELTA10
10745_at 0.0992488 -0.01887167 0.73380833 0.75268 Hypothetical ORFNA YKL174C
5194_at 0.126354 -0.01642067 0.73659033 0.753011 TPN1 YGL186C
plasma membrane pyridoxine transport protein
10661_at 0.14068609 -0.03252667 0.720533 0.75305967 SMY1
kinesin heavy chain homologYKL079W
9893_at 0.17518127 -0.015867 0.737584 0.753451 NA NA YLR444C
3192_f_at 0.36798605 -0.02016333 0.73380867 0.753972 NA NA YHLCOMEGA1
5615_at 0.08312391 -0.019658 0.73502633 0.75468433 Hypothetical ORFNA YER087W
6899_at 0.20646645 -0.02909967 0.725887 0.75498667 Hypothetical ORFNA YCL033C
3244_i_at 0.11147798 -0.035894 0.72070433 0.75659833 NA NA YGRWDELTA19
10076_at 0.09414979 -0.02634967 0.73050333 0.756853 Hypothetical ORFNA YLR271W
5545_at 0.22620033 -0.06293667 0.69397433 0.756911 UBP3
ubiquitin-specific protease YER151C
5138_at 0.14972973 -0.01519033 0.74207 0.75726033 Component of NUT1 YGL151W
the RNA polymerase II mediator complex, which is re
8827_at 0.19854902 -0.06197767 0.69604567 0.75802333 Hypothetical ORFNA YNR024W
9595_at 0.03520943 -0.00715933 0.75173267 0.758892 KAR5
coiled-coil membrane proteinYMR065W
9042_at 0.19141605 -0.05513167 0.704106 0.75923767 NA NA YNL171C
6851_at 0.13405378 -0.02857667 0.73089967 0.75947633 MAK32 YCR019W
Protein necessary for structural stability of L-A double-stranded RN
5987_at 0.11744515 -0.01269733 0.747162 0.75985933 PRP3
snRNP from U4/U6 and U5 snRNPs YDR473C
4154_at 0.15075561 -0.05156433 0.70831667 0.759881 YRB2 with Gsp1p and Crm1p
nuclear protein that interacts YIL063C
5683_at 0.28435946 -0.058697 0.701306 0.760003 MIG3 YER028C
DNA binding transcription co-repressor
8385_at 0.13971441 -0.03134667 0.72912933 0.760476 FYV12 required for
Protein of unknown function, YOR183W survival upon exposure to
10857_at 0.26524808 -0.07630967 0.68461433 0.760924 AAD10 YJR155W
aryl-alcohol dehydrogenase (putative)
4286_s_at 0.13415817 -0.035133 0.726438 0.761571 Component of NMD2 YHR077C
the nonsense-mediated mRNA decay (NMD) pathwa
5556_at 0.15896833 -0.06543767 0.69616767 0.76160533 Hypothetical ORFNA YER163C
3178_f_at 0.1667785 -0.051942 0.71066133 0.76260333 NA NA YHRCDELTA14
10555_at 0.13825944 -0.00899667 0.75428533 0.763282 v-SNARE SFT1 YKL006C-A
9663_at 0.15455447 -0.03281767 0.73065467 0.76347233 GIS4
CAAX box containing proteinYML006C
8909_at 0.06030895 -0.01332633 0.75080633 0.76413267 SIW14
tyrosine phosphatase YNL032W
6502_at 0.20851838 -0.01416933 0.750431 0.76460033 MED2 YDL005C
RNA polymerase II holoenzyme/mediator subunit
5527_at 0.58474637 -0.43170567 0.33317933 0.764885 DMC1 YER179W
meiosis-specific protein related to RecA and Rad51p. Dmc1p coloc
8277_at 0.09833753 -0.009926 0.754998 0.764924 NA YOR256C
Protein required for cell viability
7193_at 0.06255318 -0.022428 0.74249733 0.76492533 Hypothetical ORFNA YBR147W
9332_at 0.14636006 -0.05370767 0.711327 0.76503467 RIT1 YMR283C
initiator methionine tRNA 2'-O-ribosyl phosphate transferase
4839_at 0.09498833 -0.029889 0.73659267 0.76648167 UBR1
ubiquitin-protein ligase YGR184C
11135_at 0.13659548 -0.04632133 0.72061867 0.76694 MDV1 YJL112W
WD repeat protein that regulates steps in the Dnm1p-dependent pr
7903_at 0.10056179 -0.03534167 0.732531 0.76787267 REV3
DNA polymerase zeta subunit YPL167C
3554_f_at 0.03720474 -0.00927933 0.75951833 0.76879767 NA YPLCTY4-1
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
9602_at 0.07610802 -0.01321733 0.756236 0.76945333 COP9 YMR025W
Interactor with CSI1 signalosome (CSN) complex
8556_at 0.15602983 -0.02094867 0.74896467 0.76991333 topoisomerase I TOP1 YOL006C
9745_at 0.08535651 -0.02055067 0.74946633 0.770017 ARG81 YML099C
zinc finger transcription factor of the Zn(2)-Cys(6) binuclear cluster
10922_at 0.13992525 -0.03199667 0.73856433 0.770561 ACF4 computational analysis of large-scale
Protein of unknown function, YJR083C
5538_at 0.18086697 -0.039854 0.73080767 0.77066167 inner YEL020W-A
Translocase inTIM9 membrane of mitochondria involved in mitocho
11341_at 0.13796388 -0.036689 0.734374 0.771063 DRS2 YAL026C
P-type ATPase, potential aminophospholipid translocase
10696_at 0.17401472 -0.03315033 0.73795333 0.77110367 RMA1 synthetase
probable folyl-polyglutamate YKL132C
9479_at 0.1839272 -0.00749733 0.76364067 0.771138 MLH1 and Msh2p
forms a complex with Pms1pYMR167W to repair mismatched DNA
8825_at 0.18531311 -0.084308 0.687499 0.771807 MRPL50 YNR022C
Mitochondrial ribosomal protein of the large subunit, not essential fo
5157_at 0.15090002 -0.02796467 0.74395333 0.771918 SNT2 YGL131C
22% sequence identity with S. pombe Snt2
7571_at 0.16125459 -0.012406 0.75990767 0.77231367 AAA ATPase VPS4 YPR173C
11034_at 0.24253226 -0.094813 0.677905 0.772718 HCA4
RNA helicase (putative) YJL033W
10925_at 0.17484395 -0.055982 0.71737867 0.77336067 STE18 YJR086W
G protein gamma subunit|coupled to mating factor receptor
11080_at 0.22698494 -0.02720067 0.746783 0.77398367 ICS3
Protein of unknown function YJL077C
11332_at 0.14400016 -0.02995467 0.74492433 0.774879 domain
protein kinase CDC15 YAR019C
4770_at 0.34142966 -0.01279733 0.76223 0.77502733 Hypothetical ORFNA YGR250C
8643_at 0.02430372 -0.00510933 0.77025233 0.77536167 Kinase
Pkb-activating PKH2 Homologue YOL100W
4042_at 0.23124063 -0.057791 0.7177 0.775491 NA NA YIR023c-a
10143_at 0.18953075 -0.028068 0.748837 0.776905 HMX1 YLR205C
ER localized, heme-binding peroxidase involved in the degradation
11028_at 0.22239979 -0.030594 0.74681667 0.77741067 HYS2 YJR006W
DNA polymerase delta 55 kDa subunit
10236_at 0.14262897 -0.04489067 0.733784 0.77867467 CLF1
pre-mRNA splicing factor YLR117C
7325_at 0.24598602 -0.022422 0.75696367 0.77938567 Muddled Meiosis MUM2 YBR057C
10021_at 0.05657618 -0.01629967 0.76339533 0.779695 UBC12 YLR306W
Enzyme that mediates the conjugation of Rub1p, a ubiquitin-like pro
5735_at 0.39282214 -0.13173567 0.64825733 0.779993 GLC3 YEL011W
1,4-glucan-6-(1,4-glucano)-transferase
10595_at 0.1379876 -0.03682533 0.74441867 0.781244 U1 snRNP proteinPRP40 YKL012W
6098_at 0.06119303 -0.01120867 0.77013867 0.78134733 NA green fluorescent protein (GFP)-fusion
Protein of unknown function; YDR357C
4075_at 0.39363411 -0.17650767 0.60512533 0.781633 aspartic
GPI-anchored YPS6 protease YIR039C
4475_at 0.05082994 -0.01813533 0.76395567 0.782091 INM1 YHR046C
Inositol monophosphatase, involved in biosynthesis of inositol and i
3684_f_at 0.11540198 -0.04025533 0.741895 0.78215033 NA YMRWTAU2
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
11037_at 0.10048603 -0.034176 0.74934567 0.78352167 MAD2 YJL030W
spindle checkpoint complex subunit
10413_at 0.38058815 -0.24499167 0.53881 0.78380167 AYT1 YLL063C
Acetyltransferase; catalyzes trichothecene 3-O-acetylation, suggest
10291_at 0.05073481 -0.01738267 0.766429 0.78381167 Rgp1p, Golgi, and
Ric1p binds toRIC1 on theYLR039C the complex catalyzes nuc
6182_f_at 0.57203865 -0.48483933 0.29918567 0.784025 NA NA YDR305C
9080_at 0.08275113 -0.014636 0.769883 0.784519 ATG4 YNL223W
anchor protein|mediates attachment of autophagosomes to microtu
11220_at 0.02460564 -0.001905 0.78278233 0.78468733 Hypothetical ORFNA YJL206C
4864_at 0.27575226 -0.01873767 0.76602167 0.78475933 GTR2 (putative)
similar to Gtr1|small GTPaseYGR163W
5242_at 0.07599359 -0.01081067 0.77399867 0.78480933 and degradation (VID); TOR inhibitor (TIN)
vacuole importVID30 YGL227W
8928_at 0.22017983 -0.06174433 0.723151 0.78489533 ARP5
actin related protein YNL059C
9993_at 0.19045668 -0.04966467 0.735651 0.78531567 PEX30 YLR324W
Peroxisomal integral membrane protein, involved in negative regula
7840_at 0.09985636 -0.025955 0.75941433 0.78536933 Hypothetical ORFNA YPL095C
10479_at 0.24944576 -0.129321 0.65624467 0.78556567 UBP11
ubiquitin-specific protease YKR098C
7862_at 0.21696514 -0.09800967 0.68804867 0.78605833 MRP51 YPL118W
mitochondrial ribosome small subunit component
3857_at 0.24127243 -0.02385367 0.762994 0.78684767 NA NA YKLWDELTA1
4351_at 0.09850491 -0.01923567 0.76852767 0.78776333 CTF8 YHR191C
Subunit of a complex with Ctf18p that shares some subunits with R
3510_s_at 0.32730402 -0.05101133 0.73698867 0.788 NA NA YBLWDELTA8
7803_at 0.18162961 -0.04744333 0.74106667 0.78851 ISM1
isoleucine-tRNA ligase YPL040C
10162_at 0.13076564 -0.03160567 0.75756367 0.78916933 VTA1 YLR181C
Protein involved in endosomal protein sorting; binds to Vps20 and V
11012_at 0.27843899 -0.037064 0.75417433 0.79123833 NA NA YJL009W
11342_at 0.28456304 -0.01300633 0.779116 0.79212233 MAK16
nuclear protein (putative) YAL025C
5091_at 0.17709001 -0.035918 0.75640167 0.79231967 DUO1 YGL061C
Essential mitotic spindle protein required to maintain spindle integri
9741_at 0.39146789 -0.094322 0.69900367 0.79332567 NA NA YML102C-A
5696_at 0.0800145 -0.01332733 0.78018067 0.793508 YEN1 has similarity to endonuclease Rth1p;
Protein of unknown function, YER041W
3305_at 0.28781982 -0.03643667 0.758002 0.79443867 NA NA YGLWTAU2
10692_at 0.06584529 -0.027313 0.76831067 0.79562367 NA NA YKL136W
7746_at 0.054083 -0.01246433 0.78331333 0.79577767 60 kDa
TFIIIC (tau60) TFC8 subunit YPL007C
4057_at 0.11589442 -0.03957167 0.756407 0.79597867 MRS1 YIR021W
Protein required for the splicing of two mitochondrial group I introns
7096_at 0.16263923 -0.052892 0.74319 0.796082 DPB3 subunits
DNA polymerase II C and C' YBR278W
6188_at 0.2960671 -0.15243967 0.64564667 0.79808633 MSW1
tryptophan-tRNA ligase YDR268W
5403_at 0.03792553 -0.00400167 0.795082 0.79908367 GYP8
GTPase-activating protein YFL027C
4084_at 0.066537 -0.01422767 0.7849 0.79912767 Hypothetical ORFNA YIR003W
9540_at 0.1339325 -0.050771 0.74853333 0.79930433 Hypothetical ORFNA YMR098C
10262_at 0.18973776 -0.044853 0.75471433 0.79956733 Hypothetical ORFNA YLR053C
6223_at 0.62387526 -0.76448567 0.035388 0.79987367 HSP78
heat shock protein 78 YDR258C
9888_at 0.19696178 -0.05601733 0.74459367 0.800611 SEC39 YLR440C
Protein of unknown function proposed to be involved in protein secr
3308_s_at 0.44921152 -0.11742233 0.68333467 0.800757 NA NA YERWDELTA18
11387_at 0.62701554 -0.01436133 0.78660567 0.800967 putative polyolNAdehydrogenase YAL061W
4875_at 0.21584785 -0.04546967 0.75560967 0.80107933 NA green fluorescent protein (GFP)-fusion
Protein of unknown function; YGR130C
4383_at 0.19875429 -0.05357467 0.749409 0.80298367 WSS1
weak suppressor of smt3 YHR134W
10624_at 0.22980103 -0.003625 0.79949167 0.80311667 two-hybrid assay
binds Sin3p in STB6 YKL072W
4974_at 0.061039 -0.02234567 0.78112667 0.80347233 UFD1 YGR048W
Protein that interacts with Cdc48p and Npl4p, involved in recognitio
10394_at 0.20334507 -0.01807833 0.78541533 0.80349367 NA NA YLL037W
6692_at 0.13897706 -0.04086233 0.76288633 0.80374867 RRI1
COP9 signalosome (CSN) subunit YDL216C
11145_at 0.06478871 -0.011859 0.79247567 0.80433467 MEF2 YJL102W
mitochondrial elongation factor G-like protein
4085_at 0.16932927 -0.055724 0.74945233 0.80517633 DJP1 YIR004W
Cytosolic J-domain-containing protein, required for peroxisomal pro
6626_at 0.05577406 -0.02048633 0.78475033 0.80523667 ATG9
integral membrane protein YDL149W
5993_at 0.06614218 -0.01798633 0.78816633 0.80615267 peroxin PEX29 YDR479C
9335_at 0.1903421 -0.07009167 0.736316 0.80640767 MRPL33 YMR286W
Mitochondrial ribosomal protein of the large subunit
8832_at 0.14670395 -0.05167567 0.75669967 0.80837533 Hypothetical ORFNA YNR029C
6350_at 0.1419624 -0.06541967 0.743752 0.80917167 NA YDR115W
Putative mitochondrial ribosomal protein of the large subunit, has si
6192_at 0.17259699 -0.072054 0.73714333 0.80919733 glyoxylase-II GLO2 YDR272W
9032_at 0.20945117 -0.04280467 0.766935 0.80973967 IPI3 YNL182C
Protein required for cell viability; computational analysis of large-sca
11393_at 0.02751009 -0.007973 0.80179567 0.80976867 PEX22 YAL055W
Putative peroxisomal membrane protein required for import of perox
4519_at 0.08759222 -0.01822033 0.79239833 0.81061867 LEU5 YHR002W
Mitochondrial carrier protein involved in the accumulation of CoA in
9029_at 0.1183927 -0.042947 0.76793967 0.81088667 MRPL19 YNL185C
Mitochondrial ribosomal protein of the large subunit
6792_s_at 0.14085125 -0.02288033 0.78932667 0.812207 HMRA1
homeobox transcription factor YCR097W
7255_at 0.06226995 -0.007981 0.80524667 0.81322767 MUD1
U1 snRNP A protein YBR119W
7883_at 0.53974508 -0.34693933 0.46629333 0.81323267 NA NA YPL142C
6111_at 0.23079765 -0.05884233 0.75495433 0.81379667 XRS2
DNA repair protein YDR369C
7974_at 0.51454681 -0.39820867 0.416067 0.81427567 Up in StarVationNA YPL230W
6020_r_at 0.14678058 -0.01103367 0.803905 0.81493867 MFA1 YDR461W
a-factor mating pheromone precursor
9013_at 0.26933072 -0.192976 0.62262833 0.81560433 Hypothetical ORFNA YNL155W
9803_at 0.12529391 -0.05763767 0.75891367 0.81655133 COX14
mitochondrial membrane protein YML129C
5172_at 0.08964669 -0.02085 0.79656633 0.81741633 RAD54 YGL163C
DNA-dependent ATPase, stimulates strand exchange by modifying
4199_at 0.14067933 -0.045954 0.77149333 0.81744733 Set3 complex,YIL112W a meiotic-specific repressor o
Subunit of the HOS4 which is
11310_at 0.05934623 -0.009061 0.80889267 0.81795367 SWC3 component
Protein of unknown function, YAL011W of the Swr1p complex that
9144_at 0.16252139 -0.06959267 0.74846567 0.81805833 Hypothetical ORFNA YNL295W
7305_at 0.1309129 -0.03855667 0.78036867 0.81892533 SPT7 YBR081C
histone acetyltransferase SAGA complex member|transcription fact
9109_at 0.31808962 -0.17046533 0.64865133 0.81911667 Component of NAR1 YNL240C
the cytosolic iron-sulfur (FeS) protein assembly mach
10241_at 0.06769807 -0.02849467 0.79114667 0.81964133 The authentic, NA YLR077W
non-tagged protein was localized to the mitochondria
9800_s_at 0.27497838 -0.162573 0.657521 0.820094 YRF1-7
Y'-helicase protein 1 YML133C
10775_at 0.04710937 -0.01687167 0.80472267 0.82159433 PXA2
ABC transporter 2 YKL188C
7657_at 0.06764094 -0.02181533 0.799871 0.82168633 GRS2 YPR081C
Protein with sequence similarity to Grs1p, which is a glycyl-tRNA sy
6579_at 0.22764443 -0.09597467 0.726287 0.82226167 MSS2
cox2 pre-mRNA splicing factor YDL107W
10988_at 0.04918349 -0.01029733 0.81309467 0.823392 Hypothetical ORFNA YJR011C
10220_at 0.16635472 -0.017509 0.806425 0.823934 NA NA YLR101C
10226_at 0.18955373 -0.08895467 0.735087 0.82404167 REX3
RNA EXonuclease; member YLR107W of 3'->5' exonuclease family. See Mose
10177_at 0.16894254 -0.02862667 0.79551933 0.824146 SMD3
core snRNP protein YLR147C
10283_at 0.07497425 -0.03135 0.79293767 0.82428767 Hypothetical ORFNA YLR031W
7346_at 0.56273601 -0.51253433 0.31183833 0.82437267 NA NA YBR032W
7436_at 0.19362569 -0.08137067 0.74318467 0.82455533 Hypothetical ORFNA YBL060W
6159_at 0.17046456 -0.025881 0.798675 0.824556 NA NA YDR327W
4229_at 0.16311919 -0.04342633 0.78176167 0.825188 Hypothetical ORFNA YIL127C
6105_at 0.11902651 -0.04871433 0.776674 0.82538833 NA NA YDR363W-A
8553_at 0.07030556 -0.03259767 0.79494233 0.82754 MDM12 YOL009C
mitochondrial outer membrane protein. An Mdm12p homolog exists
5693_at 0.2440379 -0.017263 0.81103333 0.82829633 KRE29
Killer toxin REsistant YER038C
10137_at 0.06362637 -0.004216 0.82505267 0.82926867 non-tagged protein was localized to the mitochondria
The authentic, NA YLR202C
10570_at 0.15390175 -0.037561 0.79190433 0.82946533 NA NA YKR007W
9434_at 0.1243963 -0.03798367 0.79271667 0.83070033 HFA1 YMR207C
Mitochondrial acetyl-coenzyme A carboxylase, catalyzes the produc
6867_at 0.03897652 -0.002901 0.827829 0.83073 BPH1 YCR032W
Protein homologous to human Chediak-Higashi syndrome protein a
11302_at 0.14279625 -0.05220833 0.77876233 0.83097067 NA NA YAR053W
11196_at 0.08614624 -0.00994333 0.82139267 0.831336 GON7 proposed
Protein of unknown function, YJL184W to be involved in the transfer
11112_at 0.09200476 -0.014131 0.81812633 0.83225733 DPB11
DNA polymerase II complex YJL090C
7088_at 0.11319733 -0.045216 0.787076 0.832292 Hypothetical ORFNA YBR270C
6724_at 0.23299737 -0.09376233 0.73887933 0.83264167 NA NA YDL228C
4917_at 0.13243956 -0.02880033 0.804411 0.83321133 SLX9 deletion mutant has synthetic fitness d
Protein of unknown function; YGR081C
10500_at 0.18565004 -0.09195867 0.74125767 0.83321633 NA similar to
Protein of unknown function; YKR075CYOR062Cp and Reg1p; expr
3850_at 0.14867929 -0.01773333 0.816529 0.83426233 NA NA YJRWDELTA20
6088_at 0.04123448 -0.00482233 0.83030167 0.835124 Hypothetical ORFNA YDR391C
6821_at 0.22384516 -0.108871 0.726983 0.835854 NA acetyltransferase complex
component of the yeast ADAYCR082W
9469_at 0.05892111 -0.021648 0.815611 0.837259 MRPS8 YMR158W
Mitochondrial ribosomal protein of the small subunit
7312_at 0.09081528 -0.02804267 0.80939667 0.83743933 TCM62
chaperone (putative) YBR044C
7873_at 0.17273058 -0.064059 0.77407467 0.83813367 Hypothetical ORFNA YPL107W
3202_f_at 0.17580581 -0.04717433 0.79147833 0.83865267 NA NA YHLWDELTA2
5134_at 0.1480192 -0.02220467 0.81891733 0.841122 NA green fluorescent protein (GFP)-fusion
Protein of unknown function; YGL108C
11154_at 0.07472146 -0.01338167 0.828751 0.84213267 RPB4 YJL140W
RNA polymerase II fourth largest subunit
3304_f_at 0.29514951 -0.100232 0.74248233 0.84271433 NA YGLWDELTA3
Similar to probable membrane protein YDR340W and to yeast CYC
6435_at 0.08380198 -0.03101 0.81214633 0.84315633 Hypothetical ORFNA YDR066C
10649_at 0.10496455 -0.05032633 0.794292 0.84461833 CUE2 has two CUE domains that bind ubiqu
Protein of unknown function; YKL090W
3872_i_at 0.05828645 -0.02670733 0.81902067 0.845728 NA NA YJLWDELTA8
4065_at 0.14289482 -0.04311233 0.803383 0.84649533 allantoicase DAL2 YIR029W
6360_at 0.30318093 -0.10942933 0.73723133 0.84666067 ECM18 similar to
Protein of unknown function, YDR125CRlp24p
11391_at 0.37729111 -0.081202 0.767129 0.848331 NA NA YAL058C-A
9752_at 0.19310969 -0.060101 0.79082667 0.85092767 UTP14
U3 snoRNP protein YML093W
10464_at 0.07658962 -0.02508167 0.82619267 0.85127433 MRPL20 YKR085C
Mitochondrial ribosomal protein of the large subunit
8611_at 0.36321139 -0.15745367 0.69445033 0.851904 NOP12 YOL041C
Nucleolar protein, required for pre-25S rRNA processing; contains a
9423_at 0.38398824 -0.12401433 0.72886033 0.85287467 Hypothetical ORFNA YMR196W
6327_at 0.05074441 -0.01789567 0.83502267 0.85291833 RGP1 factor, and
Ric1p-Rgp1p is an exchangeYDR137W peripheral membrane prot
4156_at 0.18664236 -0.049738 0.80568133 0.85541933 protein
U1snRNP 70KSNP1 homolog YIL061C
7564_at 0.19097073 -0.11270167 0.74292333 0.855625 MRP2 YPR166C
14 kDa mitochondrial ribosomal protein|similar to E. coli S14 protein
8566_at 0.11773059 -0.06329833 0.79355267 0.856851 DNL4
ATP dependent DNA ligase YOR005C
11288_at 0.12363539 -0.019491 0.837439 0.85693 NA YAR023C
Putative integral membrane protein, member of DUP240 gene fami
7086_at 0.14775582 -0.077482 0.77954467 0.85702667 MRPL37 YBR268W
Mitochondrial ribosomal protein of the large subunit
9773_at 0.02751088 -0.005498 0.85270033 0.85819833 TFIID subunit TAF8 YML114C
8287_at 0.12751007 -0.05875933 0.79973433 0.85849367 PNT1 YOR266W
Involved in targeting of proteins to the mitochondrial inner membran
11200_at 0.18900828 -0.101676 0.75726533 0.85894133 ATP12 YJL180C
Molecular chaperone, required for the assembly of alpha and beta s
11117_at 0.29302135 -0.01748767 0.841912 0.85939967 EXO70
exocyst complex component YJL085W
10986_at 0.16835671 -0.066881 0.792593 0.859474 CDC8
thymidylate kinase YJR057W
9591_at 0.19233397 -0.01117633 0.84875633 0.85993267 RNA14 YMR061W
cleavage and polyadenylation factor CF I component involved in pre
8387_at 0.50644971 -0.38717633 0.473806 0.86098233 GSP2 YOR185C
GTP-binding protein|Gsp1p homolog
5111_at 0.09903161 -0.00735167 0.853889 0.86124067 MAD1 spindle-assembly checkpoint
coiled-coil protein involved inYGL086W
5222_at 0.22239704 -0.023033 0.83863667 0.86166967 KEX1 YGL203C
protease|similar to carboxypeptidase B
8010_i_at 0.53228636 -0.45089433 0.41113433 0.86202867 HSP82 YPL240C
heat shock protein 90|mammalian Hsp90 homolog
5044_at 0.09819981 -0.04885167 0.813401 0.86225267 JAC1 YGL018C
E. coli Hsc20 co-chaperone protein homolog|J-protein co-chaperon
5145_at 0.16821861 -0.04590167 0.81648367 0.86238533 ROG1 YGL144C
Protein with putative serine active lipase domain
6161_at 0.16989689 -0.06968467 0.79289 0.86257467 PEX3 YDR329C
48 kDa peroxisomal integral membrane protein
7107_at 0.09187393 -0.03902867 0.823715 0.86274367 Hypothetical ORFNA YBR242W
10768_at 0.14932434 -0.07733833 0.78550867 0.862847 NA NA YKL194C
7835_at 0.116342 -0.03824333 0.82490267 0.863146 ATG21 YPL100W
Phosphatidylinositol 3,5-bisphosphate-binding protein required for m
6412_at 0.19159211 -0.04841533 0.816006 0.86442133 SLU7 YDR088C
Involved in 3' splice site choices and acts in concert with Prp18 duri
9199_at 0.04561695 -0.01611533 0.84890767 0.865023 AAD14 YNL331C
aryl-alcohol dehydrogenase (putative)
3784_at 0.46259199 -0.08735433 0.77791033 0.86526467 NA NA YLRCTAU1
10881_at 0.04975878 -0.02310267 0.84238867 0.86549133 XPT1 YJR133W
xanthine phosphoribosyl transferase
10932_at 0.02644009 -0.01194467 0.853942 0.86588667 IME1 YJR094C
Master regulator of meiosis that is active only during meiotic events
5195_at 0.05448972 -0.02729433 0.83932233 0.86661667 NA
Putative hydroxyacid dehydrogenaseYGL185C
8494_at 0.15180508 -0.07924933 0.78844033 0.86768967 NA potential Cdc28p substrate
Protein of unknown function; YOR066W
10590_at 0.03486573 -0.01566533 0.85436433 0.87002967 H
DNA helicase A CS1 YKL017C
3251_s_at 0.29364765 -0.110076 0.76070633 0.87078233 NA YGRWTY3-1
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
3681_s_at 0.06454075 -0.01784267 0.85346733 0.87131 NA NA YMRWDELTA15
5270_at 0.0787989 -0.04509867 0.826376 0.87147467 TAD1 YGL243W
tRNA-specific adenosine deaminase subunit
6709_i_at 0.05083234 -0.01944633 0.852944 0.87239033 MPH2
alpha-glucoside permease YDL247W
10188_at 0.06999661 -0.03391567 0.839042 0.87295767 MAS1 YLR163C
mitochondrial processing protease subunit
10951_at 0.07112969 -0.017055 0.85734267 0.87439767 YAE1
Essential protein of unknownYJR067Cfunction
8590_at 0.18392755 -0.058061 0.81635433 0.87441533 ESC8 and mating-type locus silencing, intera
Protein involved in telomeric YOL017W
10875_at 0.30873286 -0.19581267 0.678957 0.87476967 ZMS1 YJR127C
Zinc-finger protein that localizes to the nucleus, putative transcriptio
4924_at 0.18118271 -0.020293 0.85497367 0.87526667 catalase T CTT1 YGR088W
10140_r_at 0.14308813 -0.07348167 0.80286967 0.87635133 NA NA YLR202C
6923_at 0.27387324 -0.072338 0.80478633 0.87712433 SPB1
methyltransferase (putative) YCL054W
7408_at 0.3009816 -0.00909733 0.868301 0.87739833 Hypothetical ORFNA YBL044W
7750_at 0.33187249 -0.14954767 0.72804367 0.87759133 ULA1 YPL003W
Protein that acts together with Uba3p to activate Rub1p before its c
5137_at 0.17095126 -0.04533467 0.832293 0.87762767 PEX14 YGL153W
Peroxisomal peripheral membrane protein (peroxin) involved in imp
5332_at 0.1362404 -0.06226433 0.81537567 0.87764 QCR6 YFR033C
ubiquinol cytochrome C oxidoreductase subunit 6 (17 kDa)
3565_at 0.35243097 -0.197453 0.68135933 0.87881233 NA NA YPRWDELTA14
9114_at 0.14925404 -0.024792 0.85538033 0.88017233 NA YNL234W
Similar to globins and has a functional heme-binding domain; involv
4739_at 0.08940408 -0.03719567 0.84309133 0.880287 presents weakNA putative E.
similarity to a YGR263C coli protein defined as a lip
4953_at 0.18829219 -0.02211333 0.85818367 0.880297 Component of UPF3 YGR072W
the nonsense-mediated mRNA decay (NMD) pathwa
6032_at 0.07506492 -0.01717133 0.863183 0.88035433 NA NA YDR426C
7171_at 0.38055903 -0.244359 0.63677033 0.88112933 NA NA YBR169C
6829_at 0.16965969 -0.019831 0.86166467 0.88149567 regulation of YCR041W
involved in theMATALPHA1 alpha-specific genes|transcription facto
7612_at 0.21256082 -0.10980033 0.77188467 0.881685 NA NA YPR126C
11036_at 0.12481136 -0.05530333 0.82644733 0.88175067 BET4 YJL031C
geranylgeranyltransferase type II alpha subunit (PGGTase-II, alpha
8835_at 0.02177625 -0.00168567 0.88042767 0.88211333 PPG1 YNR032W
Putative serine/threonine protein phosphatase, required for glycoge
8415_at 0.18486679 -0.06921533 0.81313733 0.88235267 Component of LEO1 YOR123C
the Paf1 complex, which associates with RNA polym
8584_at 0.31473497 -0.22624733 0.65719967 0.883447 IFM1 2
mitochondrial initiation factor YOL023W
3464_at 0.52081606 -0.36464933 0.51880467 0.883454 NA NA YCRWDELTA12
4086_at 0.00600784 -0.00156933 0.88297 0.88453933 IST3
U2 snRNP associated protein YIR005W
7320_at 0.1184658 -0.046758 0.838189 0.884947 NA green fluorescent protein (GFP)-fusion
Protein of unknown function; YBR052C
8265_at 0.31987986 -0.24072 0.64466367 0.88538367 Hypothetical ORFNA YOR289W
6259_at 0.03531955 -0.01792667 0.867984 0.88591067 RAV2 Vacuolar
Regulator of (H+)-ATPase in YDR202Cmembrane
7455_at 0.20111301 -0.08367233 0.80228467 0.885957 NA green fluorescent protein (GFP)-fusion
Protein of unknown function; YBL086C
11100_at 0.08810206 -0.02988333 0.85631667 0.8862 NA
probable serine/threonine kinase YJL057C
8201_at 0.07074839 -0.013787 0.874872 0.888659 GRD19 YOR357C
Grd19p contains the PX domain found in human SNX1 (Sorting Nex
11082_at 0.23377876 -0.08594733 0.802743 0.88869033 NA NA YJL075C
5962_at 0.17934343 -0.107591 0.78112033 0.88871133 The authentic, NA YDR493W
non-tagged protein was localized to the mitochondria
9307_at 0.19183708 -0.065101 0.82383633 0.88893733 ABC transporter ATM1 YMR301C
7589_at 0.22428968 -0.01474967 0.87453433 0.889284 Hypothetical ORFNA YPR146C
4777_at 0.08474171 -0.01267933 0.87689667 0.889576 SLI1 resistance
N-acetyltransferase, confers YGR212W to the sphingolipid biosynth
8598_at 0.04196157 -0.02193467 0.867888 0.88982267 Hypothetical ORFNA YOL053W
9090_at 0.10897376 -0.04375067 0.84760767 0.89135833 Hypothetical ORFNA YNL213C
4522_at 0.09947779 -0.00162 0.89078667 0.89240667 GPA1 YHR005C
G protein alpha subunit|coupled to mating factor receptor
6343_at 0.17419824 -0.05576633 0.836712 0.89247833 GIR2 YDR152W
RWD domain containing protein of unknown function
8447_at 0.07372596 -0.00976667 0.88326033 0.893027 55 kDa
TFIIIC (tau55) TFC7 subunit YOR110W
3602_at 0.09083854 -0.008314 0.88507967 0.89339367 NA NA YOLWDELTA10
8490_at 0.09483834 -0.02905767 0.86510733 0.894165 NA similar to
Protein of unknown function; YOR062CYKR075Cp and Reg1p; expr
5349_at 0.08106439 -0.00774467 0.88700067 0.89474533 Hypothetical ORF NA YFR007W
6925_at 0.14753829 -0.019786 0.875387 0.895173 LRE1 YCL051W
involved in laminarase resistance
5927_at 0.12544102 -0.06462633 0.83125167 0.895878 STP4 and in uptake of branched-chain amin
Involved in pre-tRNA splicingYDL048C
6881_at 0.10512215 -0.06176967 0.83481467 0.89658433 MRPL32
ribosomal protein (YmL32) YCR003W
10022_at 0.03767298 -0.00495467 0.891669 0.89662367 chitin deacetylaseCDA1 YLR307W
6145_at 0.09564256 -0.00719 0.89053467 0.89772467 Hypothetical ORF NA YDR314C
3592_i_at 0.20790349 -0.08565267 0.814172 0.89982467 NA YPLWDELTA6
Identified by expression profiling and mass spectrometry /// Similar
5809_i_at 0.29559785 -0.122358 0.77785667 0.90021467 by YEL074W
--- /// IdentifiedNA fungal homology and RT-PCR /// Identified by gen
6471_at 0.3220236 -0.027199 0.87342367 0.90062267 NA NA YDR010C
9754_at 0.10115252 -0.03808733 0.86394667 0.902034 RPM2
mitochondrial RNase P subunit YML091C
10508_at 0.14104044 -0.02163133 0.88088233 0.90251367 DAD2 of the DASH complex; involved in spin
Essential protein, componentYKR083C
4980_at 0.2786024 -0.054402 0.84838433 0.90278633 STF2
ATPase stabilizing factor YGR008C
9361_at 0.18641271 -0.12252567 0.780624 0.90314967 PPA2
inorganic pyrophosphatase YMR267W
11229_at 0.13521595 -0.06555067 0.838382 0.90393267 UBP12 YJL197W
ubiquitin carboxyl-terminal hydrolase
9155_at 0.06024167 -0.03455633 0.86968433 0.90424067 MRPL10 YNL284C
Mitochondrial ribosomal protein of the large subunit; appears as two
9336_at 0.2440354 -0.149036 0.75617133 0.90520733 MSU1 YMR287C
3'-5' exonuclease complex component
7299_at 0.33767701 -0.23174533 0.674095 0.90584033 protein YBR076W
Non-essential ECM8 of unknown function
9204_at 0.06825735 -0.01869533 0.887379 0.90607433 in outside Ras; not essential for vegetive
likely functionsNA pathway(s)YNL326C
10708_at 0.07892476 -0.01522033 0.89125433 0.90647467 Hypothetical ORF NA YKL121W
11213_at 0.08238579 -0.00306033 0.903606 0.90666633 ASG7 YJL170C
an a-specific gene that is induced to a higher expression level by al
6722_at 0.13623022 -0.02190633 0.884871 0.90677733 BRE4 YDL231C
contains several putative trans-membrane domains
7887_at 0.10398682 -0.01524933 0.892451 0.90770033 SPP1 YPL138C
compass (complex proteins associated with Set1p) component
10763_at 0.0537031 -0.00439667 0.90371333 0.90811 TOR2 YKL203C
putative protein/phosphatidylinositol kinase involved in signaling ac
5650_at 0.23078042 -0.13815633 0.770681 0.90883733 Hypothetical ORF NA YER077C
11221_at 0.13256362 -0.04178933 0.868667 0.91045633 NA NA YJL206C-A
10940_at 0.13126258 -0.08159233 0.82904033 0.91063267 RSM26 YJR101W
mitochondrial ribosome small subunit component
6640_at 0.0842152 -0.010523 0.90015967 0.91068267 PPH21 YDL134C
Catalytic subunit of protein phosphatase 2A, functionally redundant
4469_at 0.22002197 -0.09828967 0.81296833 0.911258 BCD1 the accumulation of box C/D snoRNA
Essential protein required forYHR040W
5030_at 0.05814372 -0.029962 0.88222333 0.91218533 AGA2
a-agglutinin adhesion subunit YGL032C
5385_at 0.0588297 -0.03160067 0.881037 0.91263767 MSH4 YFL003C
meiosis specific protein, E.coli MutS protein, localizes to discrete si
9858_at 0.29973645 -0.15842867 0.754279 0.91270767 The authentic, NA YLR454W
non-tagged protein was localized to the mitochondria
5107_at 0.03120602 -0.01057067 0.90518067 0.91575133 LIF1 YGL090W
Protein involved in DNA double-strand break repair; physically inter
3682_i_at 0.20767685 -0.12674367 0.789991 0.91673467 NA NA YMRWDELTA16
3326_at 0.26402884 -0.11752367 0.799874 0.91739767 NA NA YFL063W
9500_at 0.45910847 -0.490341 0.42785 0.918191 NA NDE1 YMR145C
9636_at 0.25144917 -0.04004033 0.87868033 0.91872067 BUD22 YMR014W
Protein involved in bud-site selection; diploid mutants display a rand
8719_at 0.09791254 -0.017716 0.90233 0.920046 NA YOL162W
Hypothetical ORF, member of the Dal5p subfamily of the major faci
9685_at 0.14463509 -0.09446433 0.825823 0.92028733 YML6 YML025C
Mitochondrial ribosomal protein of the large subunit, has similarity t
9567_at 0.5727798 -0.53066633 0.38980967 0.920476 ISF1 YMR081C
Serine-rich, hydrophilic protein with similarity to Mbr1p; overexpress
4242_at 0.19670109 -0.06767033 0.853829 0.92149933 BNR1 YIL159W
Formin, nucleates the formation of linear actin filaments, involved in
9410_at 0.08832806 -0.02579933 0.89736033 0.92315967 TFIID subunit TAF7 YMR227C
6206_at 0.04654963 -0.00994833 0.913394 0.92334233 Hypothetical ORF NA YDR286C
7663_at 0.17414083 -0.019922 0.905128 0.92505 NA NA YPR087W
4134_at 0.06517437 -0.01834333 0.90911467 0.927458 PRM2 YIL037C
Pheromone-regulated protein, predicted to have 4 transmembrane
8165_at 0.09877243 -0.00767 0.920367 0.928037 NA NA YOR366W
6047_at 0.13209456 -0.06008833 0.86933033 0.92941867 DOT1 YDR440W
Nucleosomal histone H3-Lys79 methylase, associates with transcrip
8650_at 0.11593756 -0.035862 0.89360367 0.92946567 TRM10 YOL093W
tRNA methyltransferase, methylates the the N-1 position of guanos
9395_at 0.19944865 -0.08467667 0.845005 0.92968167 CEF1 YMR213W
protein complex component associated with the splicing factor Prp1
6123_at 0.20725981 -0.08072967 0.849479 0.93020867 MRPS28
ribosomal protein (E. coli S15) YDR337W
10581_at 0.15351875 -0.048138 0.88346933 0.93160733 GPX1 YKL026C
Phospholipid hydroperoxide glutathione peroxidase induced by gluc
7422_at 0.04609795 -0.02354633 0.90901133 0.93255767 SSA3 family
heat shock protein of HSP70YBL075C
10749_at 0.10662156 -0.06272 0.869876 0.932596 MRPL38 YKL170W
Mitochondrial ribosomal protein of the large subunit; appears as two
3624_at 0.09748499 -0.01641133 0.91914067 0.935552 NA NA YNRCDELTA9
8574_at 0.15448195 -0.106848 0.83045967 0.93730767 MSE1
glutamine-tRNA ligase YOL033W
10145_at 0.06735828 -0.03433333 0.90389033 0.93822367 HRD3 YLR207W
HMG-CoA Reductase Degradation--the HRD complex is responsibl
6556_at 0.34323161 -0.17090233 0.76742633 0.93832867 NA NDE2 YDL085W
7941_at 0.0862468 -0.04013467 0.899838 0.93997267 NIP100 YPL174C
large subunit of dynactin complex (putative)
8285_at 0.23030488 -0.02844133 0.91264667 0.941088 DSE3 YOR264W
Daughter cell-specific protein, may help establish daughter fate
7670_at 0.0935169 -0.04946767 0.891984 0.94145167 RDS3 YPR094W
Well-conserved 12-kDa protein with five CxxC zinc fingers that has
6353_at 0.18388895 -0.01968433 0.92289733 0.94258167 APC4 YDR118W
anaphase promoting complex (APC) subunit
5372_at 0.41166807 -0.415399 0.528281 0.94368 HSP12
heat shock protein 12 YFL014W
4829_at 0.02728118 -0.01688633 0.92693667 0.943823 CBP4 YGR174C
Essential for the expression and activity of ubiquinol-cytochrome c r
8843_at 0.17795086 -0.12424967 0.81991333 0.944163 Hypothetical ORFNA YNR040W
4162_at 0.07966447 -0.014129 0.93057 0.944699 Hypothetical ORFNA YIL055C
9408_at 0.24612859 -0.19195167 0.75498167 0.94693333 MRPL44 YMR225C
Mitochondrial ribosomal protein of the large subunit
9441_at 0.17659016 -0.08907933 0.85799167 0.947071 NA NA YMR172C-A
11099_at 0.11838984 -0.051667 0.897054 0.948721 BIT61 YJL058C
Cytoplasmic protein that binds Tor2p
5957_at 0.08484348 -0.01288867 0.938096 0.95098467 HSP31 YDR533C
Possible chaperone and cysteine protease with similarity to E. coli H
8892_at 0.13694256 -0.02915533 0.92237867 0.951534 Hypothetical ORFNA YNL050C
11087_at 0.01894753 -0.007682 0.94528367 0.95296567 Hypothetical ORFNA YJL070C
10013_at 0.10143907 -0.02477167 0.93090433 0.955676 YHC1 YLR298C
U1 snRNP protein required for pre-mRNA splicing
4548_at 0.08759114 -0.03449567 0.92219433 0.95669 YLF2 YHL014C
Protein with weak similarity to B. subtilis GTP-binding protein and to
4362_at 0.09416125 -0.00380833 0.952988 0.95679633 REC104
meiosis-specific protein YHR157W
10963_at 0.14265608 -0.065731 0.891303 0.957034 BNA2 YJR079W
Hypothetical ORF /// Tryptophan 2,3-dioxygenase
6720_at 0.15107603 -0.05288967 0.905204 0.95809367 Hypothetical ORFNA YDL233W
10956_at 0.14566826 -0.087574 0.87220767 0.95978167 NPA3 for cell viability, identified by associati
Cytoplasmic protein requiredYJR072C
9590_at 0.01308799 -0.00249733 0.957619 0.96011633 TOM37 YMR060C
mitochondrial SAM complex constituent
4198_at 0.20226089 -0.04333933 0.91930433 0.96264367 NA SDP1 YIL113W
10243_at 0.05672194 -0.02324567 0.939412 0.96265767 SIC1 protein kinase complex
P40 inhibitor of Cdc28p-Clb5YLR079W
6804_at 0.18576505 -0.044269 0.91980167 0.96407067 NA NA YCR064C
9775_at 0.12944305 -0.019006 0.94613167 0.96513767 CTK3 YML112W
RNA polymerase II C-terminal domain kinase gamma subunit, simil
5342_at 0.03914053 -0.01566467 0.95025333 0.965918 Hypothetical ORFNA YFR043C
11376_at 0.16073026 -0.07168833 0.89465133 0.96633967 MTW1 YAL034W-A
Essential component of the MIND kinetochore complex (Mtw1p Incl
6248_at 0.08905979 -0.061664 0.905026 0.96669 MRPL7 YDR237W
Mitochondrial ribosomal protein of the large subunit
4251_at 0.11246135 -0.031645 0.93530467 0.96694967 MCM10 (DNA synthesis) initiation or completio
Protein required for S-phase YIL150C
6006_at 0.12828714 -0.04676033 0.92108267 0.967843 NA NA YDR445C
6915_at 0.26085459 -0.18281533 0.78527867 0.968094 CHA1 YCL064C
catabolic serine (threonine) dehydratase
11143_at 0.13926318 -0.08082533 0.88736267 0.968188 the mitochondrial import motor associated with the p
Constituent of PAM16 YJL104W
11035_at 0.09363368 -0.03698133 0.93254267 0.969524 NA NA YJL032W
11267_at 0.16961644 -0.12364667 0.846534 0.97018067 NA
Identified by SAGE YAL037c-a
7872_at 0.10970713 -0.05087933 0.91937233 0.97025167 Hypothetical ORFNA YPL108W
5177_at 0.1618209 -0.121932 0.849351 0.971283 RCK1
Serine/threonine protein kinaseYGL158W
10705_g_at 0.05443865 -0.01407633 0.95810133 0.97217767 SHR3; YKL124W
Suppressor of SSH4 confers leflunomide resistance when overexp
5956_at 0.13164774 -0.031632 0.94236167 0.97399367 NA YDR532C
Protein of unknown function that localizes to the nuclear side of the
3176_f_at 0.09677504 -0.02731233 0.946739 0.97405133 NA NA YHRWDELTA13
6027_at 0.05399981 -0.02217367 0.95213267 0.97430633 ARO80 YDR421W
Zinc finger transcriptional activator of the Zn2Cys6 family; activates
6349_at 0.13501397 -0.096616 0.87836167 0.97497767 NA NA YDR114C
9767_at 0.16943289 -0.110632 0.86486767 0.97549967 NGL3 YML118W
RNase (putative)|DNase (putative)
7250_at 0.24717392 -0.20992433 0.766161 0.97608533 RAD16 YBR114W
Protein that recognizes and binds damaged DNA in an ATP-depend
7577_at 0.06643705 -0.011193 0.96508133 0.97627433 HDA3 YPR179C
Subunit of a possibly tetrameric trichostatin A-sensitive class II histo
3374_at 0.04646742 -0.00410533 0.97303433 0.97713967 NA NA YERWDELTA9
4837_at 0.04388576 -0.02054433 0.958603 0.97914733 NA NA YGR182C
7321_at 0.29925492 -0.27206967 0.708622 0.98069167 Hypothetical ORFNA YBR053C
3755_f_at 0.10302195 -0.02237333 0.95865533 0.98102867 NA NA YLRWSIGMA4
7599_i_at 0.30861898 -0.08080933 0.90060033 0.98140967 TPO2 /// TPO3YPR156C
Polyamine transport protein /// Polyamine transport protein
9100_at 0.13982698 -0.04660433 0.935016 0.98162033 MPA43 YNL249C
Overexpression leads to increased levels of the lyase PDC1
5146_at 0.18417651 -0.132035 0.84999233 0.98202733 MRF1 YGL143C
mitochondrial polypeptide chain release factor
9153_at 0.0584244 -0.02477833 0.95744733 0.98222567 CUS2 YNL286W
Protein that binds to U2 snRNA and Prp11p, may be involved in U2
9088_at 0.16429096 -0.02370867 0.958711 0.98241967 IES2 YNL215W
Protein that associates with the INO80 chromatin remodeling comp
10042_at 0.00658307 -0.00279367 0.98030933 0.983103 Hypothetical ORFNA YLR283W
4734_at 0.24682748 -0.21434467 0.77005167 0.98439633 RAD2 YGR258C
xeroderma pigmentosum group G (XPG) protein homolog
10192_at 0.01934181 -0.011022 0.97413367 0.98515567 rna1-1
Suppressor of SRN2 mutation YLR119W
4211_at 0.10303925 -0.01898767 0.96655067 0.98553833 glucoamylase SGA1 YIL099W
6651_at 0.11157884 -0.041202 0.945458 0.98666 UGX2
Protein of unknown function YDL169C
4284_at 0.08339698 -0.01344333 0.97552533 0.98896867 SDL1
L-serine dehydratase YIL167W
10915_at 0.13264465 -0.099687 0.88978333 0.98947033 CAF17 YJR122W
CCR4 transcriptional complex component
8726_at 0.11336533 -0.00497233 0.98520167 0.990174 ZPS1 YOL154W
Putative GPI-anchored protein; transcription is induced under low-z
10391_at 0.032736 -0.02162233 0.97315933 0.99478167 human
homologous toVPS13 COH1 YLL040C
9428_at 0.09254734 -0.063399 0.93160967 0.99500867 RAD14 YMR201C
human xeroderma pigmentosum group A DNA repair gene homolog
3170_i_at 0.1090735 -0.030454 0.964999 0.995453 NA NA YHRCDELTA11
6790_at 0.108553 -0.00926 0.98621233 0.99547233 Hypothetical ORFNA YCR095C
9407_at 0.14702723 -0.09232233 0.90370867 0.996031 MRPL44 YMR225C
Mitochondrial ribosomal protein of the large subunit
5055_at 0.16497138 -0.014473 0.982293 0.996766 MST27 bindng motifs
protein with COPI and COPIIYGL052W
3137_s_at 0.05740226 -0.02733033 0.971012 0.99834233 NA YILWTY3-1
TyB Gag-Pol protein; proteolytically processed to make the Gag, RT
10946_at 0.11666076 -0.02750933 0.97201433 0.99952367 NTA1 YJR062C
52 kDa amidase specific for N-terminal asparagine and glutamine
11331_at 0.08226177 -0.02223833 0.97795433 1.00019267 protein kinase KIN3 YAR018C
7785_at 0.14119562 -0.10069867 0.90151733 1.002216 MRPS16 YPL013C
Mitochondrial ribosomal protein of the small subunit
6587_at 0.02818385 -0.00339 0.999493 1.002883 NA green fluorescent protein (GFP)-fusion
Protein of unknown function; YDL099W
11163_at 0.07054885 -0.04454567 0.95871367 1.00325933 Hypothetical ORFNA YJL132W
8505_at 0.27196388 -0.12261733 0.88208233 1.00469967 HMS1 YOR032C
myc-family transcription factor homolog
4578_at 0.23133528 -0.19158667 0.814087 1.00567367 ECM29 YHL030W
Major component of the proteasome; tethers the proteasome core p
11134_at 0.17102226 -0.06055967 0.94650367 1.00706333 ASF1 YJL115W
anti-silencing protein that causes depression of silent loci when ove
7082_at 0.10597625 -0.05966067 0.947752 1.00741267 The authentic, NA YBR262C
non-tagged protein was localized to the mitochondria
7829_at 0.00820969 -0.000174 1.00866033 1.00883433 LPE10 YPL060W
Mitochondrial inner membrane magnesium transporter, involved in
6582_at 0.04267622 -0.02599233 0.98326267 1.009255 QRI7 YDL104C
similar to H.influenzae sialoglycoprotease
5303_at 0.10119722 -0.053078 0.95748567 1.01056367 YMR31
mitochondrial ribosomal proteinYFR049W
4220_at 0.17171074 -0.08888833 0.92563133 1.01451967 OM45 YIL136W
45 kDa mitochondrial outer membrane protein
6163_at 0.09970697 -0.01792533 0.99856167 1.016487 RTT103
Regulator of Ty1 Transposition YDR289C
6376_at 0.1828576 -0.133144 0.88581667 1.01896067 GIS1
zinc finger protein (putative) YDR096W
8956_at 0.22808046 -0.13825767 0.880857 1.01911467 MKS1 YNL076W
negative transcriptional regulator
5935_at 0.07147068 -0.05080567 0.96863967 1.01944533 ACN9 YDR511W
Protein of the mitochondrial intermembrane space, required for ace
6664_at 0.03284481 -0.00840033 1.01165233 1.02005267 Hypothetical ORFNA YDL199C
5499_at 0.14722673 -0.06007567 0.96034833 1.020424 NA NA YER046w-a
5232_at 0.23516289 -0.20082933 0.82078 1.02160933 MTO1 YGL236C
Mitochondrial Translation Optimization; Strong similarity to E. coli G
6506_at 0.08373369 -0.06122133 0.96263 1.02385133 MRP10 subunit component
mitochondrial ribosome 37 S YDL045W-A
7982_at 0.07829976 -0.05934833 0.96485867 1.024207 The authentic, NA YPL222W
non-tagged protein was localized to the mitochondria
10637_at 0.09333883 -0.034855 0.989875 1.02473 MPE1 YKL059C
Protein required for cell viability
9702_at 0.52000614 -0.38780667 0.63846633 1.026273 CYB2 YML054C
L-lactate cytochrome c oxidoreductase|cytochrome b2
4934_at 0.15618349 -0.04098867 0.98830333 1.029292 Hypothetical ORFNA YGR053C
6089_at 0.04589949 -0.027478 1.003058 1.030536 SPT3 YDR392W
histone acetyltransferase SAGA complex member|transcription fact
9445_at 0.04161955 -0.01196633 1.01878067 1.030747 SIP18
Salt-Induced Protein YMR175W
9970_at 0.02907491 -0.02036933 1.01197867 1.032348 NA expression
Protein of unknown function; YLR346C regulated by PDR1
6384_at 0.14989001 -0.04420633 0.990586 1.03479233 SPO71 YDR104C
Meiosis-specific protein of unknown function, required for spore wal
10591_at 0.08792677 -0.07084833 0.96406967 1.034918 ATP synthase ATP7d subunit YKL016C
7141_at 0.10426704 -0.00206767 1.03501033 1.037078 SWC5 component
Protein of unknown function, YBR231C of the Swr1p complex that
10100_at 0.06670352 -0.00618967 1.03091667 1.03710633 SYM1 YLR252W
Protein homologous to mammalian peroxisomal membrane protein
6807_at 0.14947326 -0.04033633 0.99678467 1.037121 RAD18 protein
ATPase (putative)|zinc fingerYCR066W
4344_at 0.00545691 -0.00338833 1.034758 1.03814633 control YHR184W
Involved in theSSP1 of meiotic nuclear divisions & spore formatio
9716_at 0.10145946 -0.06880133 0.96977067 1.038572 Hypothetical ORFNA YML083C
6961_g_at 0.07455662 -0.010523 1.031247 1.04177 regulation of YCL065W
involved in theMATALPHA1 alpha-specific genes|transcription facto
5536_at 0.23215225 -0.11908 0.92285633 1.04193633 Hypothetical ORFNA YER187W
11224_at 0.15824916 -0.04446733 0.99929467 1.043762 NA NA YJL202C
8840_at 0.14421708 -0.112223 0.93210067 1.04432367 RSM19 YNR037C
mitochondrial ribosome small subunit component
10650_at 0.13640857 -0.07423033 0.97063233 1.04486267 MIF2 YKL089W
Kinetochore protein with homology to human CENP-C, required for
8823_at 0.08420356 -0.04009833 1.00477567 1.044874 Hypothetical ORFNA YNR020C
9495_at 0.09707134 -0.000756 1.044612 1.045368 NA NA YMR141C
7414_at 0.13011191 -0.05794467 0.988095 1.04603967 MRPL16
ribosomal protein YBL038W
8715_at 0.17527601 -0.016102 1.030152 1.046254 NA NA YOL166C
3191_i_at 0.27093328 -0.066594 0.980664 1.047258 NA NA YHLCOMEGA1
4240_at 0.1541175 -0.04526433 1.00298667 1.048251 Hypothetical ORFNA YIL161W
10043_at 0.05701947 -0.041838 1.00665 1.048488 ECI1
d3,d2-Enoyl-CoA Isomerase YLR284C
6213_at 0.07220412 -0.06002067 0.98900467 1.04902533 Hypothetical ORFNA YDR248C
6812_at 0.05936212 -0.036342 1.01276367 1.04910567 IMG2 YCR071C
Mitochondrial ribosomal protein of the small subunit
3693_f_at 0.24441484 -0.00839833 1.04323267 1.051631 NA NA YMRWDELTA21
6445_at 0.09783515 -0.05881467 0.99309033 1.051905 Hypothetical ORFNA YDR031W
5606_at 0.06208267 -0.01766167 1.035239 1.05290067 NA NA YER121W
7709_at 0.1336104 -0.02570933 1.027251 1.05296033 NA NA YPR044C
6598_at 0.29671786 -0.25028467 0.80288267 1.05316733 STF1
ATPase stabilizing factor YDL130W-A
7123_at 0.11571223 -0.07478167 0.97964767 1.05442933 SHG1 YBR258C
compass (complex proteins associated with Set1p) component
7478_s_at 0.31582043 -0.24488433 0.811541 1.05642533 NA YBL109W
Identified by gene-trapping, microarray-based expression analysis,
7167_at 0.12911141 -0.07782333 0.97917633 1.05699967 AME1
microtubule stability regulator YBR211C
8504_at 0.17117248 -0.104678 0.95509867 1.05977667 CRS5
metallothionein-like protein YOR031W
9587_at 0.26611902 -0.02972367 1.03017933 1.059903 NA NA YMR057C
10643_at 0.04779694 -0.03635433 1.025854 1.06220833 MDM35 YKL053C-A
Mitochondrial Distribution and Morphology
8842_at 0.09487724 -0.02310133 1.03980433 1.06290567 ZRG17 YNR039C
Endoplasmic reticulum protein of unknown function, transcription is
6366_at 0.04646191 -0.029295 1.03531467 1.06460967 Hypothetical ORFNA YDR131C
9749_at 0.08153398 -0.037378 1.03039033 1.06776833 RAD10
ssDNA endonuclease YML095C
7256_at 0.07149187 -0.04385967 1.02423433 1.068094 CBP6 YBR120C
translational activator of COB mRNA
4981_at 0.12836905 -0.05175133 1.01833 1.07008133 SEC9
t-SNARE (putative) YGR009C
6479_at 0.21928454 -0.179832 0.89029767 1.07012967 Hypothetical ORFNA YDR018C
8784_s_at 0.10532446 -0.095253 0.97559133 1.07084433 Hypothetical ORFNA YNR073C
10767_at 0.13593207 -0.08337333 0.98791933 1.07129267 The authentic, NA YKL195W
non-tagged protein was localized to the mitochondria
11030_at 0.0113213 -0.00351933 1.06818033 1.07169967 Hypothetical ORFNA YJR008W
6663_at 0.0819609 -0.03708833 1.03827067 1.075359 MGT1
6-O-methylguanine-DNA methylase YDL200C
10630_at 0.01227335 -0.00409167 1.071318 1.07540967 NA NA YKL066W
7272_at 0.11393527 -0.07551633 1.00182167 1.077338 MRS5 YBR091C
Involved in mitochondrial biogenesis, may share a common function
9124_at 0.03530186 -0.034976 1.04297067 1.07794667 ALP1
basic amino acid permease YNL270C
8572_at 0.14716971 -0.04293633 1.035946 1.07888233 NA NA YOL035C
9075_at 0.11740625 -0.037259 1.04193333 1.07919233 JJJ1 YNL227C
Protein that may function as a cochaperone, as suggested by the p
11248_s_at 0.28004962 -0.11923233 0.960615 1.07984733 YRF1-7
Y'-helicase protein 1 YJL225C
5324_at 0.16504427 -0.033091 1.04743167 1.08052267 ECO1 YFR027W
Acetyltransferase required for the establishment of sister chromatid
10859_at 0.14001389 -0.002016 1.079655 1.081671 NA NA YJR157W
8481_at 0.1797422 -0.168024 0.91402933 1.08205333 NA NA YOR053W
10212_at 0.06133544 -0.01474767 1.068157 1.08290467 NHA1
Putative Na+/H+ antiporter YLR138W
3939_at 0.1477004 -0.120462 0.963398 1.08386 UGA2 YBR006W
succinate semialdehyde dehydrogenase
10718_at 0.05773357 -0.05057967 1.03509767 1.08567733 RSM22 YKL155C
mitochondrial ribosome small subunit component
8234_at 0.21906153 -0.02155267 1.064804 1.08635667 BUD7 YOR300W
Protein involved in bud-site selection; diploid mutants display an ax
4508_at 0.08328594 -0.03710533 1.049965 1.08707033 NA YHR034C
Protein possibly involved in protein synthesis
3540_at 0.04596258 -0.013163 1.074079 1.087242 NA NA YPRCTAU3
3686_f_at 0.0503861 -0.01381467 1.08106333 1.094878 NA YMRCDELTA18
Similar to probable membrane protein YDR340W and to yeast CYC
5359_at 0.34974629 -0.19696333 0.8993 1.09626333 Hypothetical ORFNA YFR017C
4252_at 0.12897066 -0.05445167 1.04592667 1.10037833 MLP2 similar to
coiled-coil protein (putative), YIL149C myosin and TPR
11091_at 0.26285922 -0.16476533 0.93564533 1.10041067 MPM1
mitochondrial membrane protein YJL066C
7712_at 0.26154049 -0.308533 0.793699 1.102232 MSF1 YPR047W
phenylalanyl-tRNA synthetase alpha subunit
9536_at 0.05540179 -0.02293933 1.08112133 1.10406067 CBF3 YMR094W
Subunit of the CTF13complex, which binds to the CDE III element o
4361_at 0.05808093 -0.05457367 1.050975 1.10554867 LIN1 YHR156C
Nuclear protein that physically interacts with Irr1p, a component of t
3377_at 0.21815337 -0.09661967 1.012416 1.10903567 NA NA YERCDELTA10
6550_at 0.01189816 -0.00407867 1.10583067 1.10990933 UBX3 green fluorescent protein (GFP)-fusion
Protein of unknown function; YDL091C
6508_at 0.04361778 -0.02405833 1.086918 1.11097633 MTF2 YDL044C
Mitochondrial matrix protein that interacts with an N-terminal region
4151_at 0.11439637 -0.04222167 1.06883633 1.111058 Hypothetical ORFNA YIL067C
3463_at 0.10398999 -0.07814267 1.03317967 1.11132233 NA NA YCRWDELTA11
10311_at 0.10496029 -0.054667 1.05669867 1.11136567 BRE2 YLR015W
compass (complex proteins associated with Set1p) component
9411_at 0.10097275 -0.081724 1.03013133 1.11185533 MTF1 YMR228W
mitochondrial RNA polymerase specificity factor
10063_i_at 0.13772064 -0.076693 1.03573533 1.11242833 NA NA YLR261C
10277_at 0.18678672 -0.08240633 1.03043467 1.112841 FYV7 required for
Protein of unknown function, YLR068W survival upon exposure to
3577_at 0.19897649 -0.05534867 1.05845333 1.113802 NA NA YORWDELTA22
11009_at 0.0680951 -0.053564 1.06461867 1.11818267 RAD26 YJR035W
DNA dependent ATPase|human Cockayne syndrome B gene ERCC
8686_at 0.04018623 -0.030444 1.08806767 1.11851167 SPT20 YOL148C
histone acetyltransferase SAGA complex member|transcription fact
5938_at 0.14266214 -0.09573367 1.02305733 1.118791 Hypothetical ORFNA YDR514C
8596_at 0.12917673 -0.12062233 1.001387 1.12200933 THI20 YOL055C
Hydroxymethylpyrimidine phosphate kinase, involved in the last ste
5531_at 0.06971361 -0.05915533 1.064199 1.12335433 The authentic, NA YER182W
non-tagged protein was localized to the mitochondria
6694_at 0.10321973 -0.01109833 1.115304 1.12640233 protein kinase PRR2 YDL214C
9573_at 0.10311443 -0.05256433 1.078116 1.13068033 NA NA YMR086C-A
4173_at 0.12893098 -0.09366333 1.03843733 1.13210067 RSM25 YIL093C
mitochondrial ribosome small subunit component
9140_at 0.16850018 -0.07975667 1.05257367 1.13233033 TRF5
DNA polymerase sigma YNL299W
10502_at 0.06055652 -0.04147433 1.092353 1.13382733 Hypothetical ORFNA YKR077W
9459_at 0.1658911 -0.17672267 0.957248 1.13397067 MRPS17 YMR188C
Mitochondrial ribosomal protein of the small subunit
5088_at 0.15098863 -0.06357467 1.07288033 1.136455 MRH4 YGL064C
mitochondrial DEAD box RNA helicase
6022_at 0.01887904 -0.01275967 1.12586367 1.13862333 MRPL28 YDR462W
Mitochondrial ribosomal protein of the large subunit
10154_at 0.03017766 -0.012023 1.12956367 1.14158667 IDP2 YLR174W
NADP-dependent isocitrate dehydrogenase
4781_at 0.15079325 -0.125063 1.022275 1.147338 RSM27 YGR215W
mitochondrial ribosome small subunit component
8149_at 0.14764601 -0.125701 1.02292467 1.14862567 NA
Identified by SAGE YOL038c-a
3448_s_at 0.0530688 -0.043405 1.105389 1.148794 PPT1 YDRCSIGMA2
Protein serine/threonine phosphatase with similarity to human phos
9929_at 0.04740988 -0.01171467 1.13764633 1.149361 CST9 YLR394W
Protein required for synaptonemal complex formation, may have a r
6919_at 0.09642745 -0.05982033 1.09056633 1.15038667 FYV5 required for
Protein of unknown function, YCL058C survival upon exposure to
5244_at 0.09250318 -0.06504433 1.08561 1.15065433 Hypothetical ORFNA YGL226W
10985_at 0.10011887 -0.03194733 1.12196033 1.15390767 Hypothetical ORFNA YJR056C
7339_at 0.10507257 -0.115891 1.03809167 1.15398267 ETR1 YBR026C
2-enoyl thioester reductase, E.C. 1.3.1.-
10175_at 0.1783906 -0.03217633 1.12347933 1.15565567 NA
Protein component of RNaseYLR145W MRP complex
7817_at 0.07756521 -0.06818267 1.088216 1.15639867 UBP16 YPL072W
deubiquitinating enzyme (putative)
7426_at 0.13896754 -0.08314167 1.07524367 1.15838533 NA NA YBL071C
8023_at 0.05374231 -0.03158967 1.127402 1.15899167 Hypothetical ORFNA YPL272C
4874_at 0.07470109 -0.026513 1.132528 1.159041 SYF2
SYnthetic lethal with cdcForty YGR129W
5544_at 0.36133067 -0.045632 1.11501267 1.16064467 SPI1 YER150W
strongly expressed during stationary phase, and trancription is depe
6193_at 0.16165629 -0.032984 1.12887433 1.16185833 DON1 YDR273W
Meiosis-specific component of the spindle pole body, part of the lea
5400_at 0.0345163 -0.027589 1.134957 1.162546 AGX1 YFL030W
Alanine : glyoxylate aminotransferase, catalyzes the synthesis of gl
10110_at 0.24591805 -0.15981933 1.00584633 1.16566567 Hypothetical ORFNA YLR218C
8308_at 0.08286494 -0.00748733 1.16216367 1.169651 SSP2
Sporulation SPecific YOR242C
6636_at 0.10308736 -0.06831933 1.10438333 1.17270267 Suppressor of NA YDL139C
chromosome missegregation
8986_at 0.0756356 -0.011242 1.16160733 1.17284933 NuA4 YNL136W
Subunit of the NA histone acetyltransferase complex
9664_at 0.08896258 -0.05559833 1.11853633 1.17413467 NA
tRNA methyltransferase YML005W
6170_at 0.0521802 -0.05093033 1.126098 1.17702833 MHR1 YDR296W
Involved in mitochondrial homologous DNA recombination. Binds to
11292_at 0.13913626 -0.042004 1.13541133 1.17741533 NA NA YAR030C
9418_at 0.06496262 -0.066881 1.11391633 1.18079733 MRPL24 YMR193W
Mitochondrial ribosomal protein of the large subunit
8025_at 0.03261275 -0.018756 1.16319433 1.18195033 MDL2 transporter
ATP-binding cassette (ABC) YPL270W family member
10653_at 0.1014851 -0.11150867 1.07142233 1.182931 SRX1 YKL086W
ATP-dependent cysteine sulfinic acid reductase
6256_at 0.09038329 -0.112488 1.07061333 1.18310133 NA NA YDR199W
3477_at 0.12744745 -0.10870867 1.075242 1.18395067 NA NA YBRWDELTA17
4484_s_at 0.10554495 -0.107187 1.077362 1.184549 RSC30
RSC complex component YHR054C
7681_at 0.15580455 -0.17932467 1.01053933 1.189864 JID1 YPR061C
Probable Hsp40p co-chaperone, has a DnaJ-like domain and appe
7100_at 0.03662237 -0.02799033 1.16472467 1.192715 MRPL27 YBR282W
Mitochondrial ribosomal protein of the large subunit
5662_at 0.06849017 -0.05860567 1.13478333 1.193389 RSM18 YER050C
mitochondrial ribosome small subunit component
11164_at 0.05250148 -0.01956067 1.17493267 1.19449333 Hypothetical ORFNA YJL131C
10266_at 0.03960424 -0.03962733 1.15534667 1.194974 Hypothetical ORFNA YLR057W
3264_f_at 0.10165726 -0.001263 1.19445867 1.19572167 NA NA YGLWDELTA6
9040_at 0.29301838 -0.33667133 0.86687767 1.203549 MDG1 YNL173C
multicopy suppressor of bem1 mutation, may be involved in G-prote
6240_at 0.04431664 -0.037186 1.16688233 1.20406833 IVY1 that interacts with both Ypt7p and Vps
Phospholipid-binding protein YDR229W
10675_at 0.23380084 -0.08921733 1.115537 1.20475433 activator protein of CYC1 (component of HAP2/HAP3
transcriptional HAP4 YKL109W
10281_at 0.05040991 -0.03974567 1.16673067 1.20647633 NA green fluorescent protein (GFP)-fusion
Protein of unknown function; YLR072W
4379_at 0.12453437 -0.03552933 1.17256533 1.20809467 NA NA YHR130C
3931_f_at 0.10448773 -0.009538 1.19923967 1.20877767 NA NA YJLWDELTA1
11008_at 0.0322945 -0.04215533 1.167236 1.20939133 PET191 YJR034W
Protein required for assembly of cytochrome c oxidase
5500_at 0.52664454 -0.52571233 0.68405467 1.209767 NA NA YER067c-a
10935_at 0.07441946 -0.015289 1.19552633 1.21081533 NA YJR096W
Protein with similarity to aldo-keto reductases
7706_at 0.12845226 -0.01528367 1.19751333 1.212797 mRNA bindingPUF2 protein YPR042C
4539_at 0.06977283 -0.01004967 1.203575 1.21362467 RMD11 YHL023C
Protein required for sporulation
10190_at 0.03077571 -0.01626267 1.20087967 1.21714233 NA PUS5 YLR165C
3289_i_at 0.08617453 -0.08506267 1.13286867 1.21793133 NA NA YFRWDELTA7
5666_at 0.12553108 -0.07137167 1.14669333 1.218065 GIP2 YER054C
Putative regulatory subunit of the protein phosphatase Glc7p, propo
3262_at 0.05888702 -0.00730967 1.21203133 1.219341 NA NA YGLCTAU3
7324_at 0.12938062 -0.13992233 1.07947133 1.21939367 Hypothetical ORFNA YBR056W
9510_at 0.05389391 -0.02248567 1.19709633 1.219582 Hypothetical ORFNA YMR114C
10086_at 0.03063967 -0.00046267 1.222746 1.22320867 FAR10 YLR238W
Protein involved in G1 cell cycle arrest in response to pheromone, i
9388_at 0.30398613 -0.13383433 1.090589 1.22442333 GAD1
glutamate decarboxylase YMR250W
6239_at 0.08297281 -0.02681267 1.20075467 1.22756733 PCF11 YDR228C
cleavage and polyadenylation factor CF I component involved in pre
8492_at 0.05576208 -0.04138433 1.18627633 1.22766067 YNG1 YOR064C
histone acetyltransferase complex component
6153_at 0.09148332 -0.08841133 1.13952067 1.227932 MRPL35 YDR322W
Mitochondrial ribosomal protein of the large subunit
9600_at 0.06641369 -0.01381333 1.21714867 1.230962 MSS1
GTPase (putative) YMR023C
5401_at 0.03651334 -0.03742233 1.19376967 1.231192 CAK1 YFL029C
cyclin-dependent kinase-activating kinase
9120_at 0.22771599 -0.10047367 1.13320267 1.23367633 NA dehydrogenase
Putative hydroxyisocaproate YNL274C
9744_at 0.07215896 -0.03918367 1.196628 1.23581167 NA NA YML100W-A
4850_at 0.12507018 -0.13529767 1.10566033 1.240958 Hypothetical ORFNA YGR150C
7810_at 0.0463902 -0.04958233 1.19168367 1.241266 Hypothetical ORFNA YPL033C
3678_at 0.12784901 -0.05051467 1.19217 1.24268467 NA NA YMRCDELTA13
7545_at 0.20710583 -0.28528267 0.96746667 1.25274933 HPA2
histone acetyltransferase YPR193C
10757_at 0.05028171 -0.06738367 1.189685 1.25706867 Hypothetical ORFNA YKL162C
4061_at 0.06939452 -0.03428767 1.22330733 1.257595 MND2 YIR025W
needed for Meiotic Nuclear Division
7963_at 0.21481524 -0.157654 1.10031067 1.25796467 NA NA YPL197C
4512_at 0.13266994 -0.17430333 1.08442333 1.25872667 RRF1 YHR038W
mitochondrial ribosome recycling factor
10278_at 0.10442589 -0.13962667 1.12059967 1.26022633 MEF1 YLR069C
mitochondrial elongation factor G-like protein
8788_at 0.18441893 -0.00653933 1.256511 1.26305033 Hypothetical ORFNA YNR034w-a
4961_at 0.09850798 -0.01960367 1.24603633 1.26564 NA potential Cdc28p substrate; transcripti
Protein of unknown function, YGR035C
7219_at 0.00444032 -0.00559567 1.26118967 1.26678533 ATG14
Required for autophagy YBR128C
4411_at 0.06949792 -0.03392067 1.24383233 1.277753 ORC6
ORC 50 kDa subunit YHR118C
4750_at 0.07859516 -0.037893 1.24315433 1.28104733 TAF1 YGR274C
TFIID subunit (145 kDa), involved in RNA polymerase II transcriptio
10049_at 0.07192329 -0.10617 1.176905 1.283075 GTPase GUF1 YLR289W
3148_s_at 0.04087939 -0.02840733 1.254694 1.28310133 BUD5 factor for Rsr1 protein /// Homeobox-domain c
GTP/GDP exchange /// MATALPHA2 YCR096C
8412_at 0.13717666 -0.04814567 1.23637733 1.284523 GCY1 YOR120W
Putative NADP(+) coupled glycerol dehydrogenase, proposed to be
11113_at 0.05242722 -0.06049767 1.224726 1.28522367 SIP4 YJL089W
Possibly involved in Snf1p regulated transcriptional activation
6293_at 0.04943579 -0.014514 1.27150767 1.28602167 Homolog of SIR2 HST4 YDR191W
7261_at 0.01985015 -0.02781567 1.25821233 1.286028 TEC1 YBR083W
TEA/ATTS DNA-binding domain family, regulator of Ty1 expression
5335_at 0.05703563 -0.052458 1.23598267 1.28844067 Anaphase-Promoting Complex/Cyclosome (APC/C),
Subunit of the CDC26 YFR036W
5555_at 0.11164312 -0.04241 1.250904 1.293314 RAD4 YER162C
Protein that recognizes and binds damaged DNA (with Rad23p) dur
9639_at 0.0336169 -0.050617 1.24430467 1.29492167 SNAP 25 homolog SPO20 YMR017W
10540_at 0.08978442 -0.047811 1.24814233 1.29595333 Hypothetical ORFNA YKR023W
6241_at 0.03958114 -0.04098867 1.25554467 1.29653333 NA NA YDR230W
6533_at 0.05100652 -0.04103467 1.25655333 1.297588 PEX19 YDL065C
40 kDa farnesylated protein associated with peroxisomes
4920_at 0.08903399 -0.10184933 1.19688833 1.29873767 MRP13 YGR084C
35 kDa mitochondrial ribosomal small subunit protein
10676_at 0.12319068 -0.100501 1.200014 1.300515 SLD2 YKL108W
Protein required for DNA replication, phosphorylated in S phase by
8982_i_at 0.15545454 -0.202302 1.10193667 1.30423867 RLR1 YNL140C
Required for LacZ RNA expression from certain plasmids; suppress
10664_at 0.06830496 -0.054125 1.251565 1.30569 Hypothetical ORFNA YKL076C
9692_at 0.07046818 -0.03939633 1.268572 1.30796833 MFT1
mitochondrial targeting proteinYML062C
4060_at 0.08626046 -0.116801 1.19231967 1.30912067 NA YIR024C
(putative) involved in cell cycle control
6147_at 0.0732724 -0.08188867 1.23293033 1.314819 NA NA YDR316W
11090_at 0.18243971 -0.004864 1.31424067 1.31910467 NA NA YJL067W
7925_at 0.08161874 -0.113476 1.205775 1.319251 transporter (putative)
active glycerol GUP2 YPL189W
10503_at 0.03158247 -0.019433 1.30003667 1.31946967 NA YKR078W
Cytoplasmic protein of unknown function, has similarity to Vps5p; p
10276_at 0.17037254 -0.160679 1.16007533 1.32075433 PET309 YLR067C
Specific translational activator for the COX1 mRNA, also influences
5665_at 0.04551394 -0.00606533 1.316371 1.32243633 PIC2 YER053C
Mitochondrial phosphate carrier, imports inorganic phosphate into m
8575_at 0.07180384 -0.03316767 1.29206067 1.32522833 NA
Hypothetical ORF YOL032W
11133_at 0.14929296 -0.16953467 1.156908 1.32644267 NCA3 expression
With NCA2, regulates properYJL116C of subunits 6 (Atp6p) and
9344_at 0.0423703 -0.05108167 1.28914033 1.340222 the yeast dynactin complex, consisting of Nip100p, J
Component of JNM1 YMR294W
3174_f_at 0.04532928 -0.024191 1.319304 1.343495 NA NA YHRCDELTA12
10012_at 0.09302744 -0.02457167 1.33269867 1.35727033 NA
Hypothetical ORF YLR297W
3552_f_at 0.13292151 -0.11073167 1.24727533 1.358007 NA NA YPLWDELTA11
8644_at 0.02452597 -0.01878567 1.35188633 1.370672 NA NA YOL099C
3255_at 0.05470019 -0.02264467 1.360827 1.38347167 NA NA YGRCDELTA20
6757_i_at 0.13815994 -0.153961 1.23203133 1.38599233 HMRA1
homeobox transcription factor YCR097W-A
4518_at 0.20072602 -0.41683167 0.96981633 1.386648 QCR10 YHR001W-A
ubiqunol-cytochrome c oxidoreductase complex 8.5 kDa subunit
10977_at 0.3455952 -0.794243 0.60066467 1.39490767 CYC1
iso-1-cytochrome c YJR048W
11074_at 0.08990415 -0.13910667 1.25978367 1.39889033 NA
Hypothetical ORF YJL038C
8255_at 0.14827147 -0.12089767 1.28049667 1.40139433 RFM1
DNA-binding protein YOR279C
5365_at 0.0353766 -0.04131067 1.36191967 1.40323033 PES4
poly(A) binding protein YFR023W
3324_at 0.23768916 -0.25720867 1.15221667 1.40942533 NA NA YERWOMEGA2
4078_i_at 0.04658135 -0.02966667 1.379868 1.40953467 NA NA YIR043C
6905_at 0.03822269 -0.00917167 1.40637233 1.415544 FUS1 YCL027W
Membrane protein localized to the shmoo tip, required for cell fusion
10056_at 0.06783241 -0.07490967 1.34391733 1.418827 NA
Hypothetical ORF YLR254C
4842_at 0.01975277 -0.00336333 1.41748833 1.42085167 BTN2 YGR142W
Gene/protein whose expression is elevated in a btn1 minus/Btn1p la
5924_at 0.17289356 -0.13462433 1.286337 1.42096133 NA
Identified by SAGE YDR524w-a
3184_s_at 0.19404379 -0.047216 1.37396533 1.42118133 YRF1-7
Y'-helicase protein 1 YIL177C
4032_f_at 0.04323709 -0.02533367 1.39629767 1.42163133 NA
Hypothetical ORF YIR043C
10148_at 0.17671055 -0.19940467 1.24502467 1.44442933 NA YLR168C
possibly involved in intramitochondrial sorting
6444_at 0.03359453 -0.05201033 1.39389567 1.445906 RAD28 YDR030C
Protein involved in transcription-coupled repair nucleotide exicision
9582_at 0.10361302 -0.07236633 1.37805067 1.450417 two-hybrid assay and is part of large protein complex
binds Sin3p in STB2 YMR052C-A
11075_at 0.02333433 -0.054265 1.40085067 1.45511567 NA
Hypothetical ORF YJL037W
7116_at 0.08793657 -0.093048 1.36323833 1.45628633 MRPS5
ribosomal protein S5 (putative)YBR251W
7295_at 0.32766603 -0.56358333 0.89609467 1.459678 HSP26
heat shock protein 26 YBR072W
11291_at 0.09655025 -0.08584267 1.37884833 1.464691 NA YAR029W
Member of DUP240 gene family but contains no transmembrane do
10195_at 0.15358726 -0.04003067 1.43012633 1.470157 NA NA YLR122C
8413_at 0.01372574 -0.01156267 1.46572833 1.477291 profilin PFY1 YOR121C
8362_at 0.08260725 -0.112455 1.37087067 1.48332567 non-tagged protein was localized to the mitochondria
The authentic, NA YOR205C
8599_at 0.24508236 -0.26906633 1.2161 1.48516633 DDR2 expression
Multistress response protein,YOL053C-A is activated by a variety of
4785_at 0.07591072 -0.04810767 1.44755167 1.49565933 NA NA YGR219W
11001_at 0.06334967 -0.081766 1.41589133 1.49765733 NA NA YJR023C
3679_at 0.06019211 -0.05104233 1.44752967 1.498572 NA NA YMRCDELTA14
3259_at 0.07220254 -0.148105 1.35288567 1.50099067 NA NA YGLCDELTA5
4530_at 0.05678396 -0.121578 1.38394 1.505518 DIA4 YHR011W
Probable mitochondrial seryl-tRNA synthetase, mutant displays incr
4978_at 0.32368247 -0.07643267 1.42985733 1.50629 non-tagged protein was localized to the mitochondria
The authentic, NA YGR052W
3541_at 0.05123283 -0.05126733 1.45840267 1.50967 NA NA YPRWTAU4
6830_at 0.01779562 -0.02483033 1.485785 1.51061533 TAF2 YCR042C
TATA binding protein-associated factor
10085_at 0.10060688 -0.177201 1.336678 1.513879 THI7
thiamine transporter YLR237W
7409_at 0.19325855 -0.415035 1.09956933 1.51460433 protein YBL043W
Non-essential ECM13 of unknown function
5673_at 0.2432979 -0.473838 1.04357333 1.51741133 PET117 YER058W
Protein required for assembly of cytochrome c oxidase
6669_at 0.09305227 -0.049711 1.469037 1.518748 S
glucose sensor NF3 YDL194W
11254_at 0.02739847 -0.035467 1.48770533 1.52317233 NA
Hypothetical ORF YJL218W
5640_at 0.49247733 -0.88676933 0.64754333 1.53431267 NA
Hypothetical ORF YER067W
4386_at 0.00442765 -0.00731367 1.527825 1.53513867 ARO9 YHR137W
aromatic amino acid aminotransferase II
3930_i_at 0.27346481 -0.08421233 1.45753667 1.541749 NA NA YJLWDELTA1
3683_f_at 0.11219153 -0.07425467 1.467857 1.54211167 NA NA YMRWDELTA16
9712_at 0.02260928 -0.06143433 1.481476 1.54291033 NA
Hypothetical ORF YML087C
3163_i_at 0.05286018 -0.02343667 1.52741233 1.550849 NA NA YHRCDELTA8
5767_at 0.01771205 -0.019301 1.55537933 1.57468033 NA
Hypothetical ORF YEL023C
3730_at 0.01532327 -0.00084233 1.57539733 1.57623967 NA NA YLRCDELTA27
8268_at 0.00969172 -0.01438 1.59505733 1.60943733 NA
Hypothetical ORF YOR292C
3847_i_at 0.07021253 -0.158872 1.45313467 1.61200667 NA YJRWDELTA18
Identified by expression profiling and mass spectrometry /// Similar
5588_at 0.12658344 -0.22099367 1.39965533 1.620649 HSP70 family SSA4 YER103W
6142_i_at 0.0938801 -0.178441 1.44238533 1.62082633 SSF2 YDR312W
high copy suppressor of G beta subunit temperature sensitive muta
4213_at 0.05787667 -0.12734 1.50970867 1.63704867 FMC1 YIL098C
Assembly factor of ATP synthase in heat stress
4447_at 0.12989103 -0.15220467 1.49691 1.64911467 Ssf2p homolog SSF1 YHR066W
5578_at 0.06375601 -0.07997433 1.57795067 1.657925 Hypothetical ORFNA YER137C
5582_at 0.14443283 -0.350049 1.309327 1.659376 MAG1 YER142C
3-methyladenine DNA glycosylase
9481_at 0.02143183 -0.074386 1.59119333 1.66557933 ALD3
aldehyde dehydrogenase YMR169C
7438_at 0.03085714 -0.048146 1.62616667 1.67431267 Hypothetical ORFNA YBL059W
4994_at 0.0701845 -0.189701 1.48930867 1.67900967 Hypothetical ORFNA YGR021W
3908_i_at 0.04405854 -0.06454067 1.64405467 1.70859533 NA NA YALWDELTA1
10334_at 0.11859515 -0.31964833 1.40168567 1.721334 copper chaperoneCOX17 YLL009C
3631_s_at 0.01088613 -0.016449 1.70637767 1.72282667 NA NA YOLWTAU1
5751_at 0.0781674 -0.04096133 1.704982 1.74594333 CYC7
iso-2-cytochrome c YEL039C
3736_s_at 0.14838502 -0.17418333 1.587652 1.76183533 YRF1-7
Y'-helicase protein 1 YLR467W
8359_at 0.00512109 -0.02189767 1.75637967 1.77827733 HIS3 dehydratase
imidazoleglycerol-phosphate YOR202W
3175_i_at 0.04447835 -0.01700767 1.80312233 1.82013 NA NA YHRWDELTA13
7601_at 0.13043187 -0.171561 1.67984367 1.85140467 Hypothetical ORFNA YPR157W
4763_at 0.04863867 -0.12007567 1.76429467 1.88437033 The authentic, NA YGR243W
non-tagged protein was localized to mitochondria
7594_at 0.14329159 -0.305812 1.581714 1.887526 NA SUE1 YPR151C
5192_at 0.02095529 -0.09157133 1.875416 1.96698733 NA NA YGL188C
7867_at 0.02466122 -0.06057 1.92241533 1.98298533 NA
Putative dehydrogenase YPL113C
3145_at 0.04547085 -0.05117033 1.95035433 2.00152467 NA NA YILCDELTA5
3328_at 0.02424449 -0.06803233 1.962087 2.03011933 NA NA YFLWDELTA1
7610_at 0.20246532 -0.69383333 1.342975 2.03680833 CTR1
copper transport protein YPR124W
3791_s_at 0.0499138 -0.101271 1.95229467 2.05356567 YRF1-7
Y'-helicase protein 1 YLL067C
8360_at 0.02776391 -0.044349 2.073241 2.11759 DED1 /// HIS3 YOR203W
ATP-dependent DEAD (Asp-Glu-Ala-Asp)-box RNA helicase, requir
9024_at 0.12646941 -0.266559 1.91179467 2.17835367 Hypothetical ORFNA YNL144C
7075_at 0.08990166 -0.01980633 2.209358 2.22916433 Hypothetical ORFNA YBR219C
6077_at 0.00705308 -0.02287067 2.267723 2.29059367 ARO10 YDR380W
Phenylpyruvate decarboxylase, catalyzes decarboxylation of pheny
6854_at 0.29254202 -0.750955 1.57468433 2.32563933 HSP30 YCR021C
Hydrophobic plasma membrane localized, stress-responsive protein
10575_at 0.00864499 -0.01163033 2.53123333 2.54286367 NA NA YKR012C
3545_i_at 0.01484768 -0.002829 2.55217133 2.55500033 NA NA YBLWDELTA1
8728_at 0.13171503 -0.841381 1.953558 2.794939 reductase withYOL152Wto Fre2p; expression induce
Putative ferric FRE7 similarity
10742_at 0.00244257 -0.040298 3.063397 3.103695 NA NA YKL177W
Gene Ontology Annotation
molecular function| phosphatidyl-N-methylethanolamine N-methyltransferase activity | traceable author statement|GO:0000773//cellular com
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic small ribosom
cellular component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277//cellular component| bud tip | inferred from direct assay
molecular function| 5-methyltetrahydropteroyltriglutamate-homocysteine S-methyltransferase activity | inferred from mutant phenotype|GO:0
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic small ribosom
NA
molecular function| RAN protein binding | inferred from physical interaction|GO:0008536//cellular component| nucleus | inferred from direct a
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic small ribosom
cellular component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277//biological process| microtubule cytoskeleton organizati
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| alpha-1,3-mannosyltransferase activity | inferred from mutant phenotype|GO:0000033//molecular function| alpha-1,3-ma
molecular function| mannose transporter activity | traceable author statement|GO:0015578//molecular function| glucose transporter activity |
molecular function| ornithine carbamoyltransferase activity | inferred from direct assay|GO:0004585//cellular component| cytosol | inferred fr
molecular function| acid phosphatase activity | inferred from sequence similarity|GO:0003993//cellular component| vacuole (sensu Fungi) | i
cellular component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277
molecular function| argininosuccinate synthase activity | inferred from direct assay|GO:0004055//cellular component| cytosol | inferred from
NA
molecular function| cystathionine beta-lyase activity | inferred from sequence similarity|GO:0004121//molecular function| cystathionine beta-
NA
molecular function| methionine adenosyltransferase activity | traceable author statement|GO:0004478//biological process| methionine metab
molecular function| 6-phosphofructokinase activity | inferred from mutant phenotype|GO:0003872//cellular component| 6-phosphofructokina
molecular function| hydrogen-exporting ATPase activity, phosphorylative mechanism | traceable author statement|GO:0008553//cellular com
molecular function| phosphopyruvate hydratase activity | inferred from mutant phenotype|GO:0004634//cellular component| soluble fraction
molecular function| DNA binding | traceable author statement|GO:0003677//cellular component| nuclear nucleosome | traceable author state
cellular component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277//cellular component| vacuole (sensu Fungi) | inferred fro
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic small ribosom
molecular function| DNA binding | inferred from physical interaction|GO:0003677//cellular component| nucleus | inferred from direct assay|G
molecular function| specific RNA polymerase II transcription factor activity | inferred from physical interaction|GO:0003704//molecular functio
molecular function| methionine adenosyltransferase activity | traceable author statement|GO:0004478//molecular function| methionine aden
NA
molecular function| helicase activity | inferred from sequence similarity|GO:0004386//molecular function| DNA helicase activity | inferred from
molecular function| 1,3-beta-glucan synthase activity | inferred from direct assay|GO:0003843//cellular component| actin cap (sensu Fungi)
molecular function| thymidylate synthase activity | inferred from direct assay|GO:0004799//cellular component| nucleus | inferred from direct
molecular function| signal transducer activity | inferred from physical interaction|GO:0004871//biological process| signal transduction | inferre
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
cellular component| vacuole (sensu Fungi) | inferred from direct assay|GO:0000324
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| cell cycle arrest | inferred from mutant phenotyp
molecular function| actin filament binding | inferred from direct assay|GO:0051015//molecular function| protein binding, bridging | inferred fro
cellular component| vacuole (sensu Fungi) | inferred from direct assay|GO:0000324
molecular function| sulfite reductase (NADPH) activity | non-traceable author statement|GO:0004783//cellular component| sulfite reductase
molecular function| glucosidase activity | inferred from sequence similarity|GO:0015926//cellular component| cell wall (sensu Fungi) | inferre
molecular function| helicase activity | inferred from sequence similarity|GO:0004386//molecular function| DNA helicase activity | inferred from
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| IMP dehydrogenase activity | inferred from sequence similarity|GO:0003938//cellular component| cytoplasm | inferred fro
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//molecular function| RNA binding | inferred
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic small ribosom
molecular function| hydroxymethylglutaryl-CoA synthase activity | traceable author statement|GO:0004421//cellular component| endoplasmi
molecular function| specific RNA polymerase II transcription factor activity | inferred from physical interaction|GO:0003704//molecular functio
molecular function| structural constituent of cell wall | inferred from physical interaction|GO:0005199//cellular component| cell wall (sensu Fu
molecular function| nucleic acid binding | traceable author statement|GO:0003676//cellular component| heterogeneous nuclear ribonucleopr
molecular function| IMP dehydrogenase activity | traceable author statement|GO:0003938//cellular component| cytoplasm | inferred from dir
molecular function| phosphoribosyl-ATP diphosphatase activity | traceable author statement|GO:0004636//molecular function| phosphoribos
molecular function| structural constituent of cell wall | inferred from direct assay|GO:0005199//cellular component| cell wall (sensu Fungi) | in
molecular function| amino acid permease activity | inferred from direct assay|GO:0015359//molecular function| amino acid transporter activit
molecular function| enzyme regulator activity | inferred from mutant phenotype|GO:0030234//cellular component| membrane | inferred from
molecular function| lipase activity | inferred from sequence similarity|GO:0016298//molecular function| structural constituent of cell wall | infe
molecular function| oxysterol binding | inferred from sequence similarity|GO:0008142//cellular component| extrinsic to membrane | inferred f
NA
cellular component| nuclear membrane | inferred from direct assay|GO:0005635
molecular function| hydrogen-transporting ATPase activity, rotational mechanism | traceable author statement|GO:0046961//molecular func
molecular function| cysteine synthase activity | inferred from direct assay|GO:0004124//molecular function| O-acetylhomoserine aminocarbo
NA
molecular function| cystathionine gamma-lyase activity | inferred from sequence similarity|GO:0004123//cellular component| mitochondrion
molecular function| translation elongation factor activity | traceable author statement|GO:0003746//cellular component| ribosome | traceable
molecular function| receptor activity | inferred from physical interaction|GO:0004872//cellular component| vacuolar membrane | inferred from
cellular component| contractile ring (sensu Saccharomyces) | traceable author statement|GO:0000142//biological process| axial budding | tr
molecular function| 1,3-beta-glucanosyltransferase activity | inferred from sequence similarity|GO:0042124//cellular component| cell wall (se
molecular function| glucose-6-phosphate isomerase activity | inferred from mutant phenotype|GO:0004347//cellular component| cytosol | tra
NA
molecular function| alpha-1,3-mannosyltransferase activity | inferred from mutant phenotype|GO:0000033//molecular function| alpha-1,3-ma
molecular function| C-4 methyl sterol oxidase activity | inferred from direct assay|GO:0000254//cellular component| plasma membrane | infe
molecular function| glucosidase activity | inferred from sequence similarity|GO:0015926//molecular function| glucosidase activity | inferred fr
cellular component| vacuole (sensu Fungi) | inferred from direct assay|GO:0000324
molecular function| neutral amino acid transporter activity | inferred from sequence similarity|GO:0015175//molecular function| neutral amino
cellular component| plasma membrane | inferred from direct assay|GO:0005886//biological process| cell wall organization and biogenesis |
molecular function| GTPase activity | traceable author statement|GO:0003924//cellular component| nucleolus | inferred from direct assay|GO
molecular function| nucleotide-sugar transporter activity | inferred from sequence similarity|GO:0005338//molecular function| nucleotide-sug
molecular function| specific RNA polymerase II transcription factor activity | traceable author statement|GO:0003704//cellular component| nu
molecular function| fatty acid elongase activity | traceable author statement|GO:0009922//molecular function| fatty acid elongase activity | in
molecular function| aspartic-type endopeptidase activity | inferred from direct assay|GO:0004190//cellular component| cell wall (sensu Fung
molecular function| acetolactate synthase activity | inferred from sequence similarity|GO:0003984//molecular function| acetolactate synthase
molecular function| transferase activity, transferring glycosyl groups | inferred from sequence similarity|GO:0016757//molecular function| dol
molecular function| adenylyl-sulfate kinase activity | traceable author statement|GO:0004020//cellular component| cell | inferred from direct a
cellular component| vacuole (sensu Fungi) | inferred from direct assay|GO:0000324
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| transcriptional activator activity | traceable author statement|GO:0016563//molecular function| specific RNA polymerase
cellular component| plasma membrane | inferred from direct assay|GO:0005886//biological process| cell wall organization and biogenesis |
molecular function| ATPase activity, coupled to transmembrane movement of ions, phosphorylative mechanism | inferred from sequence sim
molecular function| helicase activity | inferred from sequence similarity|GO:0004386//molecular function| DNA helicase activity | inferred from
molecular function| ferrochelatase activity | inferred from sequence similarity|GO:0004325//molecular function| ferrochelatase activity | inferr
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic small ribosom
molecular function| protein phosphatase type 2A activity | traceable author statement|GO:0000158//cellular component| cytoplasm | inferred
molecular function| lysophospholipase activity | inferred from sequence similarity|GO:0004622//molecular function| lysophospholipase activi
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783
NA
molecular function| mannose-6-phosphate isomerase activity | inferred from direct assay|GO:0004476//cellular component| cytoplasm | infe
molecular function| specific RNA polymerase II transcription factor activity | inferred from direct assay|GO:0003704//cellular component| nuc
molecular function| basic amino acid transporter activity | inferred from direct assay|GO:0015174//molecular function| lysine permease activ
molecular function| glucan 1,3-beta-glucosidase activity | inferred from sequence similarity|GO:0004338//cellular component| cell wall (sens
molecular function| threonine aldolase activity | inferred from direct assay|GO:0004793//cellular component| cytosol | inferred from direct as
molecular function| structural constituent of cell wall | inferred from sequence similarity|GO:0005199//cellular component| cell wall (sensu Fu
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| structural constituent of cell wall | inferred from direct assay|GO:0005199//cellular component| cell wall (sensu Fungi) | in
molecular function| RNA helicase activity | inferred from sequence similarity|GO:0003724//cellular component| cytoplasm | inferred from dire
molecular function| small GTPase regulatory/interacting protein activity | traceable author statement|GO:0005083//cellular component| actin
molecular function| cyclin-dependent protein kinase regulator activity | traceable author statement|GO:0016538//cellular component| cyclin-d
cellular component| vacuolar membrane (sensu Fungi) | inferred from direct assay|GO:0000329
molecular function| acetylglutamate kinase activity | inferred from direct assay|GO:0003991//molecular function| N-acetyl-gamma-glutamyl-p
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| DASH complex | inferr
molecular function| structural molecule activity | traceable author statement|GO:0005198//cellular component| clathrin vesicle coat | traceab
cellular component| bud neck | inferred from direct assay|GO:0005935//biological process| bud site selection | inferred from genetic interact
molecular function| peptidyl-prolyl cis-trans isomerase activity | inferred from sequence similarity|GO:0003755//cellular component| membra
molecular function| cytosine-purine permease activity | inferred from sequence similarity|GO:0015392//cellular component| integral to memb
molecular function| xenobiotic-transporting ATPase activity | traceable author statement|GO:0008559//cellular component| plasma membran
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| sulfate adenylyltransferase (ATP) activity | traceable author statement|GO:0004781//cellular component| cytoplasm | infe
molecular function| transcription corepressor activity | inferred from direct assay|GO:0003714//cellular component| nucleus | inferred from di
molecular function| transcription corepressor activity | inferred from direct assay|GO:0003714//cellular component| nucleus | inferred from di
molecular function| phospholipase C activity | inferred from direct assay|GO:0004629//biological process| sphingolipid catabolism | inferred
molecular function| protein transporter activity | traceable author statement|GO:0008565//cellular component| integral to endoplasmic reticul
molecular function| transcriptional activator activity | inferred from direct assay|GO:0016563//cellular component| cytoplasm | inferred from d
cellular component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277//cellular component| bud tip | inferred from direct assay
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| translation elongation factor activity | traceable author statement|GO:0003746//cellular component| ribosome | traceable
cellular component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277
cellular component| bud | inferred from direct assay|GO:0005933
molecular function| 2-isopropylmalate synthase activity | inferred from direct assay|GO:0003852//cellular component| mitochondrion | inferre
cellular component| nucleus | inferred from direct assay|GO:0005634
molecular function| serine-type endopeptidase activity | traceable author statement|GO:0004252//cellular component| vacuole (sensu Fungi
molecular function| alcohol O-acetyltransferase activity | inferred from direct assay|GO:0004026//cellular component| endomembrane system
molecular function| methionine adenosyltransferase activity | inferred from sequence similarity|GO:0004478//molecular function| methionine
molecular function| Pol II transcription elongation factor activity | inferred from physical interaction|GO:0016944//molecular function| Pol II tra
molecular function| ornithine decarboxylase activity | inferred from direct assay|GO:0004586//cellular component| cytoplasm | inferred from d
molecular function| structural constituent of cytoskeleton | traceable author statement|GO:0005200//cellular component| cytoplasmic microtu
molecular function| squalene monooxygenase activity | traceable author statement|GO:0004506//cellular component| lipid particle | inferred
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
molecular function| nicotinamide mononucleotide permease activity | inferred from mutant phenotype|GO:0015664//molecular function| nico
cellular component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277//cellular component| vacuole (sensu Fungi) | inferred fro
molecular function| poly(A) binding | inferred from mutant phenotype|GO:0008143//molecular function| poly(A) binding | inferred from direct
cellular component| bud neck | inferred from direct assay|GO:0005935//cellular component| bud | inferred from direct assay |GO:0005933//c
molecular function| UTP-glucose-1-phosphate uridylyltransferase activity | inferred from sequence similarity|GO:0003983//molecular functio
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
molecular function| D-lactate dehydrogenase (cytochrome) activity | inferred from direct assay|GO:0004458//cellular component| cytoplasm
molecular function| glucan 1,3-beta-glucosidase activity | traceable author statement|GO:0004338//cellular component| cell wall (sensu Fun
molecular function| phosphoribosylaminoimidazolecarboxamide formyltransferase activity | inferred from direct assay|GO:0004643//molecul
molecular function| specific RNA polymerase II transcription factor activity | inferred from direct assay|GO:0003704//molecular function| DNA
molecular function| RNA binding | inferred from direct assay|GO:0003723//cellular component| transcription export complex | inferred from p
molecular function| phosphatidylinositol transporter activity | inferred from direct assay|GO:0008526//cellular component| cytosol | inferred fr
molecular function| oxidoreductase activity | inferred from sequence similarity|GO:0016491//cellular component| lipid particle | inferred from
molecular function| ribonucleoside-diphosphate reductase activity | inferred from physical interaction|GO:0004748//molecular function| ribon
molecular function| 1,3-beta-glucanosyltransferase activity | inferred from direct assay|GO:0042124//cellular component| plasma membrane
molecular function| hydrogen-transporting ATPase activity, rotational mechanism | traceable author statement|GO:0046961//cellular compon
molecular function| chromatin binding | inferred from physical interaction|GO:0003682//molecular function| chromatin binding | inferred from
molecular function| citrate (Si)-synthase activity | traceable author statement|GO:0004108//cellular component| peroxisome | inferred from d
molecular function| ethanolaminephosphotransferase activity | traceable author statement|GO:0004307//cellular component| endoplasmic re
molecular function| L-methionine porter activity | inferred from direct assay|GO:0000102//cellular component| integral to plasma membrane
cellular component| nuclear membrane | inferred from direct assay|GO:0005635//cellular component| vacuole (sensu Fungi) | inferred from
molecular function| structural constituent of cell wall | inferred from mutant phenotype|GO:0005199//molecular function| structural constituen
molecular function| dihydrokaempferol 4-reductase activity | inferred from sequence similarity|GO:0045552//molecular function| oxidoreduct
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//biological process| proteasomal ubiquitin-dependent p
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic small ribosom
molecular function| transferase activity, transferring glycosyl groups | inferred from sequence similarity|GO:0016757//molecular function| ma
molecular function| 3'-5'-exoribonuclease activity | traceable author statement|GO:0000175//cellular component| CCR4-NOT core complex |
molecular function| glycerol transporter activity | inferred from sequence similarity|GO:0015168//molecular function| glycerol transporter acti
molecular function| transcription factor activity | traceable author statement|GO:0003700//cellular component| cytoplasm | inferred from direc
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| GTPase activator activity | inferred from direct assay|GO:0005096//cellular component| COPII vesicle coat | traceable au
NA
molecular function| ferroxidase activity | inferred from direct assay|GO:0004322//cellular component| plasma membrane | inferred from direc
biological process| sporulation (sensu Fungi) | inferred from expression pattern|GO:0030437//biological process| meiosis | inferred from exp
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//cellular component| nuclear membrane | inferred from
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//molecular function| RNA binding | inferred
molecular function| metal ion binding | inferred from sequence similarity|GO:0046872//cellular component| integral to membrane | inferred fr
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| argininosuccinate lyase activity | inferred from direct assay|GO:0004056//cellular component| cytosol | inferred from dire
cellular component| integral to membrane | inferred from sequence similarity|GO:0016021
NA
NA
molecular function| cytosine-purine permease activity | inferred from sequence similarity|GO:0015392//cellular component| integral to memb
molecular function| poly(A) binding | inferred from direct assay|GO:0008143//molecular function| mRNA binding | inferred from direct assay
molecular function| cytosine-purine permease activity | inferred from sequence similarity|GO:0015392//molecular function| cytosine-purine p
molecular function| copper uptake transporter activity | inferred from sequence similarity|GO:0015088//molecular function| copper uptake tra
molecular function| hydrolase activity, acting on glycosyl bonds | inferred from direct assay|GO:0016798//cellular component| cytoplasm | in
NA
cellular component| extracellular | inferred from direct assay|GO:0005576//cellular component| vacuole (sensu Fungi) | inferred from direct a
molecular function| 6-phosphofructokinase activity | inferred from mutant phenotype|GO:0003872//cellular component| 6-phosphofructokina
cellular component| vacuolar membrane | inferred from direct assay|GO:0005774//biological process| vacuole fusion, non-autophagic | infer
molecular function| t-SNARE activity | traceable author statement|GO:0005486//cellular component| integral to plasma membrane | traceabl
molecular function| acetate-CoA ligase activity | inferred from direct assay|GO:0003987//cellular component| cytosol | inferred from direct as
molecular function| glucosidase activity | inferred from sequence similarity|GO:0015926//cellular component| cell wall (sensu Fungi) | inferre
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
cellular component| membrane | inferred from sequence similarity|GO:0016020//biological process| membrane organization and biogenesis
molecular function| general RNA polymerase II transcription factor activity | inferred from sequence similarity|GO:0016251//molecular functio
molecular function| acid phosphatase activity | traceable author statement|GO:0003993//cellular component| periplasmic space (sensu Fung
molecular function| transcription coactivator activity | inferred from direct assay|GO:0003713//cellular component| nucleus | inferred from cu
molecular function| general RNA polymerase II transcription factor activity | traceable author statement|GO:0016251//cellular component| tra
molecular function| GTPase activator activity | inferred from direct assay|GO:0005096//cellular component| plasma membrane | inferred from
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//cellular component| cytoplasm | inferred from direct as
molecular function| protein binding | traceable author statement|GO:0005515//molecular function| DNA binding | inferred from direct assay |
molecular function| ATPase activity, coupled to transmembrane movement of substances | inferred from sequence similarity|GO:0042626//c
molecular function| dolichyl-diphosphooligosaccharide-protein glycotransferase activity | inferred from physical interaction|GO:0004579//mo
molecular function| arylformamidase activity | traceable author statement|GO:0004061//cellular component| mitochondrion | inferred from di
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
molecular function| sphingosine N-acyltransferase activity | inferred from mutant phenotype|GO:0050291//cellular component| endoplasmic
molecular function| inositol-3-phosphate synthase activity | inferred from mutant phenotype|GO:0004512//cellular component| cytoplasm | in
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| ubiquitin-protein ligase activity | inferred from direct assay|GO:0004842//cellular component| ubiquitin ligase complex | in
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//molecular function| RNA binding | inferred
cellular component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277//biological process| siderochrome transport | inferred fro
molecular function| GTPase activity | traceable author statement|GO:0003924//molecular function| GTPase activity | inferred from sequence
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
molecular function| dolichyl-diphosphooligosaccharide-protein glycotransferase activity | inferred from physical interaction|GO:0004579//cell
molecular function| fatty acid elongase activity | traceable author statement|GO:0009922//molecular function| fatty acid elongase activity | in
cellular component| vacuole (sensu Fungi) | inferred from direct assay|GO:0000324
cellular component| mitochondrion | inferred from direct assay|GO:0005739
NA
molecular function| protein transporter activity | inferred from mutant phenotype|GO:0008565//cellular component| mitochondrial outer mem
molecular function| translation initiation factor activity | traceable author statement|GO:0003743//cellular component| ribosome | traceable a
cellular component| COPII vesicle coat | traceable author statement|GO:0030127//cellular component| extrinsic to plasma membrane | trace
cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| regulation of DNA replication | inferred from genet
molecular function| cyclin-dependent protein kinase regulator activity | traceable author statement|GO:0016538//cellular component| nucleu
molecular function| RNA polymerase I transcription factor activity | traceable author statement|GO:0003701//molecular function| ribosomal D
cellular component| integral to endoplasmic reticulum membrane | inferred from direct assay|GO:0030176//cellular component| cytoplasm |
molecular function| mRNA binding | inferred from sequence similarity|GO:0003729//biological process| mRNA catabolism, deadenylation-de
molecular function| Pol I transcription termination factor activity | traceable author statement|GO:0003716//molecular function| RNA polymer
molecular function| adenylosuccinate lyase activity | traceable author statement|GO:0004018//biological process| purine nucleotide biosynth
molecular function| cyclin-dependent protein kinase regulator activity | traceable author statement|GO:0016538//cellular component| nucleu
molecular function| aspartate-semialdehyde dehydrogenase activity | traceable author statement|GO:0004073//cellular component| cytoplas
molecular function| oxysterol binding | inferred from sequence similarity|GO:0008142//biological process| steroid biosynthesis | inferred from
molecular function| ATPase activity, coupled to transmembrane movement of substances | inferred from sequence similarity|GO:0042626//c
NA
molecular function| basic amino acid transporter activity | inferred from direct assay|GO:0015174//cellular component| plasma membrane | i
molecular function| enzyme inhibitor activity | traceable author statement|GO:0004857//cellular component| cytoplasm | inferred from direct
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
cellular component| membrane | inferred from sequence similarity|GO:0016020
NA
molecular function| chitin synthase activity | inferred from direct assay|GO:0004100//cellular component| contractile ring (sensu Saccharomy
molecular function| carboxy-lyase activity | inferred from direct assay|GO:0016831//cellular component| mitochondrion | inferred from direct
molecular function| phosphatidylinositol transporter activity | inferred from direct assay|GO:0008526//cellular component| cytoplasm | inferre
molecular function| lysophospholipase activity | inferred from sequence similarity|GO:0004622//molecular function| lysophospholipase activi
molecular function| myosin binding | inferred from direct assay|GO:0017022//cellular component| cytoplasm | inferred from direct assay|GO:
molecular function| palmitoyltransferase activity | inferred from direct assay|GO:0016409//cellular component| extrinsic to endoplasmic reticu
molecular function| glucose-6-phosphate 1-dehydrogenase activity | inferred from sequence similarity|GO:0004345//cellular component| cyt
molecular function| --- | inferred from sequence similarity|GO:0051082//cellular component| nucleolus | inferred from direct assay|GO:00057
cellular component| cytoplasm | inferred from direct assay|GO:0005737
NA
molecular function| protein serine/threonine kinase activity | inferred from direct assay|GO:0004674//cellular component| nucleus | inferred f
molecular function| ethanolaminephosphotransferase activity | traceable author statement|GO:0004307//cellular component| endoplasmic re
molecular function| C-22 sterol desaturase activity | traceable author statement|GO:0000249//cellular component| endoplasmic reticulum | tr
NA
cellular component| nucleus | inferred from sequence similarity|GO:0005634//biological process| telomerase-dependent telomere maintenan
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic small ribosom
molecular function| 1,3-beta-glucan synthase activity | inferred from direct assay|GO:0003843//cellular component| actin cap (sensu Fungi)
molecular function| protein kinase inhibitor activity | inferred from mutant phenotype|GO:0004860//cellular component| mitochondrion | inferr
molecular function| phosphoglycerate dehydrogenase activity | inferred from mutant phenotype|GO:0004617//cellular component| cytoplasm
molecular function| structural constituent of cytoskeleton | inferred from physical interaction|GO:0005200//cellular component| condensed nu
molecular function| RNA polymerase II transcription factor activity | inferred from sequence similarity|GO:0003702//cellular component| nucl
NA
cellular component| mitochondrial matrix | inferred from direct assay|GO:0005759//biological process| iron-sulfur cluster assembly | inferred
NA
cellular component| bud neck | inferred from direct assay|GO:0005935//cellular component| bud | inferred from direct assay |GO:0005933//c
cellular component| vacuole (sensu Fungi) | inferred from direct assay|GO:0000324
molecular function| cystathionine gamma-lyase activity | inferred from direct assay|GO:0004123//cellular component| cytoplasm | inferred fro
cellular component| actin cortical patch (sensu Fungi) | inferred from direct assay|GO:0030479//cellular component| integral to membrane |
molecular function| glucosidase activity | inferred from sequence similarity|GO:0015926//cellular component| cell wall (sensu Fungi) | inferre
molecular function| hydrogen-transporting ATPase activity, rotational mechanism | traceable author statement|GO:0046961//cellular compon
molecular function| fatty acid elongase activity | traceable author statement|GO:0009922//molecular function| fatty acid elongase activity | in
molecular function| serine C-palmitoyltransferase activity | inferred from direct assay|GO:0004758//cellular component| serine C-palmitoyltra
molecular function| transmembrane receptor activity | inferred from sequence similarity|GO:0004888//molecular function| transmembrane re
molecular function| aromatic-amino-acid transaminase activity | inferred from sequence similarity|GO:0008793//molecular function| aromatic
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
NA
NA
NA
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
molecular function| SNAP receptor activity | inferred from direct assay|GO:0005484//cellular component| endosome | traceable author statem
molecular function| RNA polymerase I transcription factor activity | traceable author statement|GO:0003701//molecular function| ribosomal D
molecular function| DNA binding | traceable author statement|GO:0003677//cellular component| nuclear nucleosome | traceable author state
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| uracil permease activity | inferred from direct assay|GO:0015505//cellular component| plasma membrane | inferred from
NA
molecular function| alpha-1,6-mannosyltransferase activity | inferred from sequence similarity|GO:0000009//molecular function| alpha-1,6-m
molecular function| glutamine-fructose-6-phosphate transaminase (isomerizing) activity | inferred from direct assay|GO:0004360//biological
cellular component| COPII-coated vesicle | inferred from direct assay|GO:0030138//biological process| ER to Golgi transport | inferred from
NA
cellular component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277
molecular function| hydrogen ion transporter activity | traceable author statement|GO:0015078//cellular component| hydrogen-transporting A
molecular function| tRNA dihydrouridine synthase activity | inferred from sequence similarity|GO:0017150//cellular component| cytoplasm | i
molecular function| oligopeptide transporter activity | inferred from mutant phenotype|GO:0015198//cellular component| integral to plasma m
molecular function| transporter activity | inferred from sequence similarity|GO:0005215//cellular component| endosome | traceable author sta
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783
molecular function| ribonucleoside-diphosphate reductase activity | inferred from direct assay|GO:0004748//cellular component| cytoplasm |
cellular component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277
molecular function| phosphoglycerate kinase activity | inferred from direct assay|GO:0004618//cellular component| cytosol | traceable autho
molecular function| tRNA (guanine) methyltransferase activity | inferred from sequence similarity|GO:0016423//molecular function| tRNA (gu
molecular function| mRNA binding | inferred from direct assay|GO:0003729//cellular component| cytoplasm | inferred from direct assay|GO:0
molecular function| sterol O-acyltransferase activity | inferred from direct assay|GO:0004772//cellular component| endoplasmic reticulum | in
molecular function| RNA binding | inferred from direct assay|GO:0003723//cellular component| commitment complex | inferred from direct as
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| protein phosphatase type 1 activity | traceable author statement|GO:0000163//molecular function| protein phosphatase t
molecular function| alpha-1,2-mannosyltransferase activity | inferred from mutant phenotype|GO:0000026//molecular function| alpha-1,2-ma
molecular function| ammonium transporter activity | inferred from sequence similarity|GO:0008519//molecular function| ammonium transpor
molecular function| glutamate 5-kinase activity | inferred from sequence similarity|GO:0004349//molecular function| glutamate 5-kinase activ
NA
NA
molecular function| mRNA binding | inferred from physical interaction|GO:0003729//molecular function| RNA binding | inferred from physical
molecular function| lipase activity | inferred from sequence similarity|GO:0016298//cellular component| peroxisomal matrix | inferred from dir
molecular function| transporter activity | inferred from sequence similarity|GO:0005215//cellular component| mitochondrial inner membrane |
molecular function| amino acid permease activity | inferred from direct assay|GO:0015359//molecular function| amino acid transporter activit
molecular function| protein-methionine-S-oxide reductase activity | inferred from sequence similarity|GO:0008113//cellular component| cytop
molecular function| aspartic-type endopeptidase activity | inferred from sequence similarity|GO:0004190//cellular component| cell wall (sens
molecular function| general RNA polymerase II transcription factor activity | traceable author statement|GO:0016251//cellular component| SW
molecular function| phosphoribosylaminoimidazole carboxylase activity | traceable author statement|GO:0004638//cellular component| cytop
cellular component| vacuole (sensu Fungi) | inferred from direct assay|GO:0000324
molecular function| ATP:ADP antiporter activity | inferred from sequence similarity|GO:0005471//cellular component| mitochondrial inner me
molecular function| motor activity | traceable author statement|GO:0003774//cellular component| cytoplasmic microtubule | traceable author
cellular component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277//cellular component| incipient bud site | inferred from di
molecular function| IMP dehydrogenase activity | traceable author statement|GO:0003938//cellular component| cytoplasm | inferred from dir
molecular function| phosphopyruvate hydratase activity | inferred from mutant phenotype|GO:0004634//cellular component| soluble fraction
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//molecular function| RNA binding | inferred
NA
cellular component| vacuolar membrane (sensu Fungi) | inferred from direct assay|GO:0000329
molecular function| --- | inferred from physical interaction|GO:0051082//molecular function| --- | inferred from mutant phenotype |GO:005108
molecular function| carrier activity | inferred from sequence similarity|GO:0005386//molecular function| iron ion transporter activity | inferred
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| DNA-directed RNA polymerase activity | traceable author statement|GO:0003899//cellular component| DNA-directed RN
NA
molecular function| phosphate transporter activity | inferred from sequence similarity|GO:0015114//molecular function| phosphate transporte
molecular function| peptidyl-prolyl cis-trans isomerase activity | inferred from sequence similarity|GO:0003755//molecular function| peptidyl-p
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//molecular function| RNA binding | inferred
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
cellular component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277//cellular component| bud tip | inferred from direct assay
molecular function| homocysteine S-methyltransferase activity | inferred from direct assay|GO:0008898//cellular component| cytoplasm | infe
molecular function| general RNA polymerase II transcription factor activity | traceable author statement|GO:0016251//cellular component| tra
molecular function| high affinity zinc uptake transporter activity | inferred from sequence similarity|GO:0000006//molecular function| high affi
molecular function| S-adenosylmethionine-dependent methyltransferase activity | inferred from sequence similarity|GO:0008757//cellular co
molecular function| protein transporter activity | traceable author statement|GO:0008565//cellular component| mitochondrial inner membrane
molecular function| RNA binding | inferred from sequence similarity|GO:0003723//molecular function| single-stranded DNA binding | inferred
molecular function| 5-aminolevulinate synthase activity | inferred from direct assay|GO:0003870//cellular component| mitochondrial matrix |
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
molecular function| dihydroxy-acid dehydratase activity | traceable author statement|GO:0004160//cellular component| mitochondrion | trace
molecular function| transcription factor activity | traceable author statement|GO:0003700//molecular function| DNA binding | inferred from ph
NA
cellular component| COPII-coated vesicle | inferred from direct assay|GO:0030138//biological process| ER to Golgi transport | inferred from
molecular function| single-stranded DNA binding | traceable author statement|GO:0003697//cellular component| nuclear telomere cap comp
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| single-stranded DNA binding | inferred from sequence similarity|GO:0003697//cellular component| mitochondrion | inferr
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| DASH complex | inferr
molecular function| nitrilase activity | inferred from sequence similarity|GO:0000257
cellular component| plasma membrane | inferred from direct assay|GO:0005886
molecular function| ornithine-oxo-acid transaminase activity | traceable author statement|GO:0004587//cellular component| cytoplasm | infer
molecular function| general amino acid permease activity | inferred from mutant phenotype|GO:0005281//cellular component| integral to pla
molecular function| glycerol-3-phosphate O-acyltransferase activity | inferred from mutant phenotype|GO:0004366//molecular function| glyce
molecular function| ATPase activity | traceable author statement|GO:0016887//molecular function| ATP-dependent helicase activity | traceab
molecular function| ammonium transporter activity | inferred from mutant phenotype|GO:0008519//cellular component| plasma membrane |
molecular function| hydrogen-transporting ATPase activity, rotational mechanism | inferred from mutant phenotype|GO:0046961//molecular
molecular function| RAB-protein geranylgeranyltransferase activity | inferred from direct assay|GO:0004663//cellular component| Rab-protei
molecular function| cyclin-dependent protein kinase regulator activity | traceable author statement|GO:0016538//cellular component| cyclin-d
NA
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783
molecular function| chromatin binding | inferred from physical interaction|GO:0003682//molecular function| chromatin binding | inferred from
molecular function| adenylosuccinate synthase activity | inferred from direct assay|GO:0004019//cellular component| cytoplasm | inferred fro
cellular component| cytosolic small ribosomal subunit (sensu Eukarya) | inferred from direct assay|GO:0005843//cellular component| cytopla
NA
molecular function| protein binding | traceable author statement|GO:0005515//cellular component| peroxisomal membrane | traceable autho
molecular function| 3-isopropylmalate dehydrogenase activity | inferred from sequence similarity|GO:0003862//molecular function| 3-isoprop
molecular function| RNA binding | inferred from direct assay|GO:0003723//cellular component| nucleus | inferred from physical interaction|G
biological process| meiosis | inferred from expression pattern|GO:0007126//biological process| DNA metabolism | inferred from genetic inter
molecular function| ribonucleoside-diphosphate reductase activity | inferred from sequence similarity|GO:0004748//molecular function| ribon
molecular function| oxidoreductase activity, acting on NADH or NADPH | inferred from direct assay|GO:0016651//cellular component| endop
molecular function| RNA polymerase II transcription mediator activity | traceable author statement|GO:0016455//cellular component| transcr
molecular function| specific transcriptional repressor activity | inferred from direct assay|GO:0016566//molecular function| DNA binding | infe
NA
molecular function| adenosylhomocysteinase activity | inferred from sequence similarity|GO:0004013//cellular component| cytoplasm | inferr
molecular function| isocitrate dehydrogenase (NADP+) activity | traceable author statement|GO:0004450//cellular component| mitochondrion
molecular function| general transcriptional repressor activity | inferred from physical interaction|GO:0016565//molecular function| general tra
NA
molecular function| structural constituent of cytoskeleton | inferred from physical interaction|GO:0005200//cellular component| spindle pole b
molecular function| carbamoyl-phosphate synthase (glutamine-hydrolyzing) activity | inferred from sequence similarity|GO:0004088//molecu
molecular function| L-histidine transporter activity | inferred from sequence similarity|GO:0005290//molecular function| L-histidine transporte
cellular component| vacuolar membrane | inferred from direct assay|GO:0005774//biological process| vacuole fusion, non-autophagic | infer
molecular function| protein binding | inferred from direct assay|GO:0005515//cellular component| actin cortical patch (sensu Fungi) | inferred
molecular function| coproporphyrinogen oxidase activity | traceable author statement|GO:0004109//molecular function| coproporphyrinogen
molecular function| structural constituent of cell wall | inferred from physical interaction|GO:0005199//cellular component| cell wall (sensu Fu
cellular component| vacuole (sensu Fungi) | inferred from direct assay|GO:0000324
NA
cellular component| integral to membrane | inferred from sequence similarity|GO:0016021//biological process| conjugation with cellular fusio
biological process| autophagy | inferred from mutant phenotype|GO:0006914//biological process| autophagy | inferred from genetic interacti
molecular function| translation elongation factor activity | traceable author statement|GO:0003746//cellular component| ribosome | traceable
molecular function| RAB GDP-dissociation inhibitor activity | inferred from direct assay|GO:0005093//cellular component| soluble fraction | in
molecular function| inorganic phosphate transporter activity | inferred from direct assay|GO:0005315//cellular component| mitochondrial mem
molecular function| transcriptional repressor activity | inferred from mutant phenotype|GO:0016564//cellular component| cytoplasm | inferred
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| membrane organization and biogenesis | inferre
molecular function| C-5 sterol desaturase activity | traceable author statement|GO:0000248//cellular component| endoplasmic reticulum | tra
molecular function| glucan 1,3-beta-glucosidase activity | inferred from sequence similarity|GO:0004338//cellular component| cell wall (sens
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| response to oxidative stress | inferred from dire
NA
molecular function| hydrogen-transporting ATPase activity, rotational mechanism | traceable author statement|GO:0046961//cellular compon
biological process| glutathione metabolism | traceable author statement|GO:0006749
molecular function| ubiquitin conjugating enzyme activity | traceable author statement|GO:0004840//cellular component| endoplasmic reticu
molecular function| cyclin-dependent protein kinase regulator activity | traceable author statement|GO:0016538//cellular component| cytopla
molecular function| phosphoribosylformylglycinamidine cyclo-ligase activity | traceable author statement|GO:0004641//molecular function| p
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| oxidoreductase activity | inferred from sequence similarity|GO:0016491//molecular function| oxidoreductase activity | infe
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic small ribosom
molecular function| glutamate-ammonia ligase activity | inferred from sequence similarity|GO:0004356//molecular function| glutamate-ammo
molecular function| D-lactaldehyde dehydrogenase activity | inferred from direct assay|GO:0019170//molecular function| oxidoreductase act
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| 3-hydroxyanthranilate 3,4-dioxygenase activity | traceable author statement|GO:0000334//molecular function| 3-hydroxy
molecular function| enzyme regulator activity | inferred from genetic interaction|GO:0030234//cellular component| integral to membrane | inf
NA
molecular function| RNA binding | inferred from direct assay|GO:0003723//cellular component| cytoplasm | inferred from direct assay|GO:00
molecular function| poly(A) binding | inferred from direct assay|GO:0008143//molecular function| mRNA binding | inferred from direct assay
NA
NA
molecular function| glucosidase activity | inferred from sequence similarity|GO:0015926//molecular function| glucosidase activity | inferred fr
cellular component| nuclear envelope-endoplasmic reticulum network | inferred from direct assay|GO:0042175//cellular component| endopla
molecular function| ubiquitin-protein ligase activity | inferred from sequence similarity|GO:0004842//molecular function| ubiquitin-protein liga
molecular function| ATPase activity, coupled to transmembrane movement of ions, phosphorylative mechanism | inferred from direct assay|
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783
molecular function| glutamate-cysteine ligase activity | inferred from direct assay|GO:0004357//cellular component| intracellular | traceable a
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| threonine ammonia-lyase activity | traceable author statement|GO:0004794//cellular component| mitochondrion | inferred
molecular function| RNA polymerase II transcription mediator activity | inferred from direct assay|GO:0016455//cellular component| mediato
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//biological process| cell wall organization and biogenes
molecular function| protein phosphatase type 2A activity | traceable author statement|GO:0000158//cellular component| bud neck | inferred
molecular function| MAP kinase activity | traceable author statement|GO:0004707//cellular component| cytoplasm | inferred from direct assa
cellular component| mitochondrial inner membrane | inferred from direct assay|GO:0005743//biological process| cytochrome c oxidase biog
molecular function| 4-aminobutyrate transaminase activity | traceable author statement|GO:0003867//cellular component| intracellular | infer
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic small ribosom
molecular function| sterol O-acyltransferase activity | inferred from direct assay|GO:0004772//cellular component| endoplasmic reticulum | in
NA
molecular function| DNA binding | traceable author statement|GO:0003677//cellular component| nuclear nucleosome | traceable author state
molecular function| guanine nucleotide transporter activity | inferred from direct assay|GO:0001409//cellular component| mitochondrial inner
NA
molecular function| adenine phosphoribosyltransferase activity | inferred from direct assay|GO:0003999//cellular component| cytoplasm | inf
molecular function| transcription regulator activity | traceable author statement|GO:0030528//cellular component| DNA-directed RNA polyme
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//cellular component| cytoplasm | inferred from direct as
NA
molecular function| DNA-directed RNA polymerase activity | traceable author statement|GO:0003899//cellular component| DNA-directed RN
molecular function| uroporphyrin-III C-methyltransferase activity | inferred from sequence similarity|GO:0004851//molecular function| uroporp
molecular function| transcription factor activity | inferred from sequence similarity|GO:0003700//cellular component| nucleus | inferred from s
molecular function| protein phosphatase type 2C activity | inferred from direct assay|GO:0015071//cellular component| cytoplasm | inferred f
molecular function| guanyl-nucleotide exchange factor activity | inferred from sequence similarity|GO:0005085//cellular component| bud | tra
molecular function| metal ion binding | inferred from sequence similarity|GO:0046872//cellular component| membrane | traceable author sta
molecular function| aryl-alcohol dehydrogenase activity | inferred from sequence similarity|GO:0018456//biological process| aldehyde metab
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic small ribosom
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
cellular component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277//biological process| response to dessication | inferred fr
molecular function| chromatin binding | inferred from sequence similarity|GO:0003682//molecular function| chromatin binding | inferred from
molecular function| 1,3-beta-glucanosyltransferase activity | inferred from sequence similarity|GO:0042124//cellular component| cell wall (se
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic small ribosom
cellular component| COPI vesicle coat | inferred from sequence similarity|GO:0030126//cellular component| COPI vesicle coat | inferred from
cellular component| vacuole (sensu Fungi) | inferred from direct assay|GO:0000324
molecular function| DNA clamp loader activity | inferred from direct assay|GO:0003689//cellular component| DNA replication factor C comple
cellular component| vacuolar membrane (sensu Fungi) | inferred from direct assay|GO:0000329//biological process| hemolysis | inferred fro
cellular component| integral to membrane | inferred from sequence similarity|GO:0016021
molecular function| transcription factor activity | inferred from sequence similarity|GO:0003700//molecular function| transcription factor activi
cellular component| membrane | inferred from sequence similarity|GO:0016020
molecular function| ATPase activity, coupled to transmembrane movement of substances | inferred from sequence similarity|GO:0042626//c
molecular function| alkaline phosphatase activity | inferred from sequence similarity|GO:0004035//molecular function| alkaline phosphatase
molecular function| protein kinase activity | inferred from sequence similarity|GO:0004672//cellular component| cytoplasm | inferred from dire
molecular function| 3-deoxy-7-phosphoheptulonate synthase activity | inferred from direct assay|GO:0003849//cellular component| cytoplasm
molecular function| protein kinase activity | inferred from direct assay|GO:0004672//cellular component| bud neck | inferred from direct assa
molecular function| homoserine O-acetyltransferase activity | inferred from direct assay|GO:0004414//cellular component| cytoplasm | inferre
cellular component| lipid particle | inferred from direct assay|GO:0005811
molecular function| IMP dehydrogenase activity | traceable author statement|GO:0003938//cellular component| cytoplasm | inferred from dir
NA
cellular component| membrane | inferred from sequence similarity|GO:0016020//biological process| sterol metabolism | inferred from mutan
molecular function| transmembrane receptor activity | inferred from sequence similarity|GO:0004888//molecular function| transmembrane re
molecular function| transcription factor activity | traceable author statement|GO:0003700//molecular function| DNA binding | traceable autho
cellular component| cell wall (sensu Fungi) | non-traceable author statement|GO:0009277//cellular component| extracellular | inferred from d
molecular function| actin filament binding | inferred from direct assay|GO:0051015//molecular function| protein binding, bridging | inferred fro
molecular function| H3/H4 histone acetyltransferase activity | inferred from direct assay|GO:0004406//cellular component| cytoplasm | inferre
molecular function| phosphoprotein phosphatase activity | inferred from sequence similarity|GO:0004721//cellular component| plasma memb
molecular function| peptide transporter activity | inferred from sequence similarity|GO:0015197//molecular function| peptide transporter activ
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
cellular component| integral to membrane | inferred from sequence similarity|GO:0016021
molecular function| ribonuclease P activity | inferred from direct assay|GO:0004526//molecular function| ribonuclease MRP activity | inferred
molecular function| dolichyl-phosphate-mannose-protein mannosyltransferase activity | inferred from sequence similarity|GO:0004169//mole
molecular function| transaminase activity | inferred from sequence similarity|GO:0008483//cellular component| mitochondrion | inferred from
molecular function| actin lateral binding | traceable author statement|GO:0003786//cellular component| actin cable (sensu Fungi) | inferred f
cellular component| extrinsic to membrane | traceable author statement|GO:0019898//biological process| protein-membrane targeting | infer
molecular function| cyclin-dependent protein kinase regulator activity | traceable author statement|GO:0016538//cellular component| cytopla
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//molecular function| RNA binding | inferred
molecular function| ATPase activity, coupled to transmembrane movement of substances | inferred from sequence similarity|GO:0042626//m
NA
molecular function| glycine hydroxymethyltransferase activity | traceable author statement|GO:0004372//cellular component| cytoplasm | tra
NA
molecular function| oxidoreductase activity | inferred from sequence similarity|GO:0016491//molecular function| oxidoreductase activity | infe
cellular component| cell wall (sensu Fungi) | inferred from sequence similarity|GO:0009277//biological process| response to stress | inferred
cellular component| plasma membrane | inferred from direct assay|GO:0005886//biological process| response to dessication | inferred from
molecular function| translation elongation factor activity | inferred from sequence similarity|GO:0003746//cellular component| cytosolic riboso
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783
molecular function| enzyme regulator activity | inferred from direct assay|GO:0030234//molecular function| acetolactate synthase activity | in
molecular function| UDP-N-acetylglucosamine-dolichyl-phosphate N-acetylglucosaminephosphotransferase activity | traceable author statem
cellular component| mitochondrion | inferred from direct assay|GO:0005739
molecular function| protein phosphatase type 2C activity | inferred from direct assay|GO:0015071//cellular component| cytoplasm | inferred f
NA
molecular function| galactokinase activity | traceable author statement|GO:0004335//biological process| galactose metabolism | traceable au
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic small ribosom
molecular function| structural constituent of cytoskeleton | inferred from physical interaction|GO:0005200//cellular component| outer plaque
molecular function| transcription factor activity | traceable author statement|GO:0003700//cellular component| nucleus | traceable author sta
molecular function| di-, tri-valent inorganic cation transporter activity | inferred from sequence similarity|GO:0015082//molecular function| zin
molecular function| ketol-acid reductoisomerase activity | traceable author statement|GO:0004455//cellular component| mitochondrion | trac
molecular function| sterol 3-beta-glucosyltransferase activity | inferred from direct assay|GO:0016906//cellular component| cytoplasm | inferr
molecular function| specific RNA polymerase II transcription factor activity | traceable author statement|GO:0003704//cellular component| cy
molecular function| mannose-1-phosphate guanylyltransferase activity | inferred from mutant phenotype|GO:0004475//molecular function| m
molecular function| purine nucleotide binding | inferred from sequence similarity|GO:0017076//molecular function| phosphopantothenoylcyst
NA
molecular function| delta24(24-1) sterol reductase activity | traceable author statement|GO:0000246//cellular component| endoplasmic reticu
molecular function| actin filament binding | inferred from direct assay|GO:0051015//molecular function| protein binding, bridging | inferred fro
molecular function| structural constituent of nuclear pore | inferred from physical interaction|GO:0017056//molecular function| structural cons
molecular function| beta-fructofuranosidase activity | inferred from mutant phenotype|GO:0004564//cellular component| cytoplasm | inferred
molecular function| malic enzyme activity | traceable author statement|GO:0004470//cellular component| cytosol | traceable author statemen
cellular component| nuclear envelope-endoplasmic reticulum network | inferred from direct assay|GO:0042175//cellular component| integral
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic small ribosom
molecular function| glycerol-3-phosphate dehydrogenase (NAD+) activity | inferred from mutant phenotype|GO:0004367//cellular componen
cellular component| vacuolar membrane (sensu Fungi) | inferred from direct assay|GO:0000329
molecular function| phosphopyruvate hydratase activity | inferred from mutant phenotype|GO:0004634//cellular component| soluble fraction
molecular function| microtubule binding | traceable author statement|GO:0008017//molecular function| microtubule binding | inferred from di
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| metabolism | traceable author statement|GO:00
molecular function| thioredoxin peroxidase activity | inferred from sequence similarity|GO:0008379//molecular function| thioredoxin peroxida
molecular function| ubiquitin-specific protease activity | traceable author statement|GO:0004843
cellular component| nucleoplasm | inferred from direct assay|GO:0005654//cellular component| nuclear membrane | inferred from direct ass
molecular function| phosphoadenylyl-sulfate reductase (thioredoxin) activity | inferred from direct assay|GO:0004604//cellular component| in
cellular component| mitochondrion | inferred from direct assay|GO:0005739
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
molecular function| glycogenin glucosyltransferase activity | inferred from sequence similarity|GO:0008466//molecular function| glycogenin g
molecular function| protein carrier activity | inferred from direct assay|GO:0008320//cellular component| cytoplasm | inferred from direct assa
molecular function| protein kinase activity | inferred from sequence similarity|GO:0004672
molecular function| histone acetyltransferase activity | inferred from direct assay|GO:0004402//cellular component| nucleus | traceable autho
molecular function| transferase activity, transferring alkyl or aryl (other than methyl) groups | inferred from direct assay|GO:0016765//cellula
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
cellular component| COPII-coated vesicle | inferred from direct assay|GO:0030138//biological process| ER to Golgi transport | inferred from
cellular component| membrane | inferred from direct assay|GO:0016020//biological process| protein-ER retention | inferred from mutant phe
cellular component| vacuole (sensu Fungi) | inferred from direct assay|GO:0000324
molecular function| protein binding | traceable author statement|GO:0005515//molecular function| protein binding | inferred from direct assay
cellular component| bud neck | inferred from direct assay|GO:0005935//cellular component| bud | inferred from direct assay |GO:0005933//c
molecular function| RNA binding | inferred from direct assay|GO:0003723//cellular component| cytoplasm | inferred from direct assay|GO:00
molecular function| fumarate reductase (NADH) activity | inferred from direct assay|GO:0016156//cellular component| cytoplasm | inferred fr
NA
molecular function| sulfate porter activity | inferred from direct assay|GO:0008271//molecular function| oxaloacetate carrier activity | inferred
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic small ribosom
molecular function| sphingosine hydroxylase activity | inferred from sequence similarity|GO:0000170//molecular function| sphingosine hydro
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
molecular function| GTPase activity | traceable author statement|GO:0003924//cellular component| actin cap (sensu Fungi) | inferred from d
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| protein kinase activity | inferred from sequence similarity|GO:0004672//cellular component| cytoplasm | inferred from dire
molecular function| protein-arginine N-methyltransferase activity | inferred from sequence similarity|GO:0016274//molecular function| protein
molecular function| dolichyl-phosphate-mannose-protein mannosyltransferase activity | traceable author statement|GO:0004169//cellular co
molecular function| protein serine/threonine phosphatase activity | traceable author statement|GO:0004722//cellular component| cytoplasm
molecular function| amino acid transporter activity | inferred from sequence similarity|GO:0015171//molecular function| amino acid transport
molecular function| SUMO ligase activity | inferred from physical interaction|GO:0019789//molecular function| SUMO ligase activity | inferred
NA
molecular function| transketolase activity | inferred from sequence similarity|GO:0004802//molecular function| transketolase activity | inferred
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic small ribosom
cellular component| mitochondrion | inferred from direct assay|GO:0005739
NA
molecular function| calcium-transporting ATPase activity | inferred from sequence similarity|GO:0005388//molecular function| phospholipid-t
NA
biological process| invasive growth (sensu Saccharomyces) | inferred from mutant phenotype|GO:0001403
molecular function| translation initiation factor activity | inferred from direct assay|GO:0003743//cellular component| eukaryotic translation in
cellular component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| actin cortical patch assembly | traceable author
molecular function| cyclin-dependent protein kinase regulator activity | inferred from sequence similarity|GO:0016538//molecular function| cy
biological process| meiotic recombination | inferred from mutant phenotype|GO:0007131
molecular function| ubiquitin-protein ligase activity | traceable author statement|GO:0004842//molecular function| ubiquitin conjugating enzy
molecular function| aldehyde dehydrogenase activity | inferred from direct assay|GO:0004028//cellular component| mitochondrion | inferred
cellular component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277
molecular function| di-, tri-valent inorganic cation transporter activity | inferred from sequence similarity|GO:0015082//molecular function| di-
cellular component| nucleus | inferred from direct assay|GO:0005634
molecular function| conjugate transporter activity | inferred from direct assay|GO:0015431//molecular function| bilirubin transporter activity |
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| actin cytoskeleton organization and biogenesis
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
NA
molecular function| aspartate-tRNA ligase activity | inferred from sequence similarity|GO:0004815//cellular component| cytoplasm | inferred
cellular component| cytoplasm | inferred from direct assay|GO:0005737
cellular component| integral to membrane | inferred from direct assay|GO:0016021//cellular component| half bridge of spindle pole body | tra
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783
molecular function| dolichyl-diphosphooligosaccharide-protein glycotransferase activity | inferred from physical interaction|GO:0004579//cell
molecular function| methyltransferase activity | inferred from sequence similarity|GO:0008168//molecular function| methyltransferase activity
molecular function| 3'-5' exonuclease activity | inferred from direct assay|GO:0008408//molecular function| protein binding | inferred from ph
molecular function| DNA topoisomerase type I activity | inferred from direct assay|GO:0003917//cellular component| nucleus | inferred from
molecular function| intracellular transporter activity | inferred from genetic interaction|GO:0005478//molecular function| RNA binding | inferre
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| glucokinase activity | inferred from mutant phenotype|GO:0004340//cellular component| cytosol | traceable author statem
molecular function| glucosidase activity | inferred from sequence similarity|GO:0015926//cellular component| cell wall (sensu Fungi) | inferre
molecular function| glycerophosphodiester transporter activity | inferred from mutant phenotype|GO:0001406//cellular component| plasma m
molecular function| xenobiotic-transporting ATPase activity | traceable author statement|GO:0008559//cellular component| plasma membran
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
molecular function| 3,4 dihydroxy-2-butanone-4-phosphate synthase activity | inferred from mutant phenotype|GO:0008686//cellular compon
molecular function| protein kinase CK2 activity | inferred from direct assay|GO:0004682//cellular component| protein kinase CK2 complex | i
molecular function| ATPase activity | inferred from direct assay|GO:0016887//molecular function| DNA helicase activity | inferred from seque
molecular function| microtubule motor activity | traceable author statement|GO:0003777//cellular component| cytoplasmic microtubule | infer
NA
molecular function| specific RNA polymerase II transcription factor activity | inferred from direct assay|GO:0003704//cellular component| nuc
biological process| meiotic recombination | inferred from mutant phenotype|GO:0007131
molecular function| aspartic-type endopeptidase activity | inferred from sequence similarity|GO:0004190//molecular function| aspartic-type e
cellular component| CCR4-NOT complex | inferred from physical interaction|GO:0030014//biological process| regulation of transcription from
molecular function| RNA polymerase I transcription factor activity | inferred from direct assay|GO:0003701//molecular function| single-strand
molecular function| Rho GTPase activator activity | inferred from direct assay|GO:0005100//molecular function| signal transducer activity | in
NA
molecular function| structural molecule activity | inferred from physical interaction|GO:0005198//cellular component| COPII vesicle coat | trac
molecular function| Rho GDP-dissociation inhibitor activity | inferred from direct assay|GO:0005094//molecular function| signal transducer ac
cellular component| mitochondrion | inferred from direct assay|GO:0005739
molecular function| phosphoglucomutase activity | inferred from sequence similarity|GO:0004614//molecular function| phosphoglucomutase
molecular function| RNA polymerase II transcription factor activity | inferred from sequence similarity|GO:0003702//molecular function| RNA
cellular component| actin cortical patch (sensu Fungi) | inferred from direct assay|GO:0030479//cellular component| bud neck | inferred from
molecular function| serine-type peptidase activity | inferred from sequence similarity|GO:0008236
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| transporter activity | inferred from sequence similarity|GO:0005215//cellular component| endoplasmic reticulum | non-tra
molecular function| transcriptional elongation regulator activity | inferred from sequence similarity|GO:0003711//cellular component| transcrip
molecular function| uracil phosphoribosyltransferase activity | inferred from direct assay|GO:0004845//biological process| pyrimidine salvage
molecular function| casein kinase I activity | inferred from sequence similarity|GO:0004681//molecular function| casein kinase I activity | infe
molecular function| chromatin binding | inferred from sequence similarity|GO:0003682//cellular component| cytoplasm | inferred from direct a
molecular function| Rho GTPase activator activity | inferred from direct assay|GO:0005100//cellular component| bud neck | inferred from dire
molecular function| chromatin binding | inferred from physical interaction|GO:0003682//molecular function| chromatin binding | inferred from
molecular function| pyruvate dehydrogenase (acetyl-transferring) activity | inferred from mutant phenotype|GO:0004739//cellular component
NA
cellular component| contractile ring (sensu Saccharomyces) | traceable author statement|GO:0000142//biological process| axial budding | tr
molecular function| triacylglycerol lipase activity | inferred from mutant phenotype|GO:0004806//molecular function| triacylglycerol lipase act
cellular component| integral to membrane | inferred from sequence similarity|GO:0016021//biological process| vesicle-mediated transport | i
cellular component| Golgi trans face | inferred from direct assay|GO:0005802//biological process| Golgi to vacuole transport | inferred from p
cellular component| plasma membrane | inferred from direct assay|GO:0005886//biological process| filamentous growth | inferred from direc
molecular function| asparaginase activity | traceable author statement|GO:0004067//cellular component| periplasmic space (sensu Fungi) |
molecular function| glycine hydroxymethyltransferase activity | traceable author statement|GO:0004372//cellular component| mitochondrion
molecular function| RNA binding | inferred from sequence similarity|GO:0003723//cellular component| cytoplasm | inferred from direct assay
molecular function| histone acetyltransferase activity | traceable author statement|GO:0004402//cellular component| Ada2/Gcn5/Ada3 trans
NA
molecular function| mannosyltransferase activity | inferred from sequence similarity|GO:0000030//cellular component| membrane | traceable
cellular component| nucleus | inferred from direct assay|GO:0005634
molecular function| cleavage/polyadenylation specificity factor activity | inferred from direct assay|GO:0030364//molecular function| RNA bin
cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| protein-vacuolar targeting | inferred from mutant p
molecular function| actin binding | inferred from direct assay|GO:0003779//cellular component| actin cortical patch (sensu Fungi) | inferred fr
molecular function| translation initiation factor activity | traceable author statement|GO:0003743//cellular component| ribosome | traceable a
molecular function| oligopeptide transporter activity | inferred from sequence similarity|GO:0015198//molecular function| oligopeptide transp
molecular function| transcriptional activator activity | inferred from direct assay|GO:0016563//cellular component| Sin3 complex | inferred fro
molecular function| ribose-5-phosphate isomerase activity | inferred from sequence similarity|GO:0004751//molecular function| ribose-5-pho
cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| transcription, DNA-dependent | inferred from gene
molecular function| protein binding | inferred from physical interaction|GO:0005515//molecular function| ubiquitin-protein ligase activity | trac
NA
molecular function| myo-inositol transporter activity | inferred from sequence similarity|GO:0005365//molecular function| myo-inositol transpo
molecular function| protein binding | inferred from direct assay|GO:0005515//cellular component| integral to membrane | inferred from direct
molecular function| protein carrier activity | traceable author statement|GO:0008320//cellular component| cytoplasm | inferred from direct as
NA
molecular function| structural constituent of cytoskeleton | inferred from physical interaction|GO:0005200//cellular component| central plaque
cellular component| vacuole (sensu Fungi) | inferred from direct assay|GO:0000324
NA
cellular component| bud | inferred from direct assay|GO:0005933
molecular function| cytoskeletal protein binding | inferred from sequence similarity|GO:0008092//molecular function| cytoskeletal protein bind
molecular function| inositol/phosphatidylinositol phosphatase activity | inferred from direct assay|GO:0004437//cellular component| integral t
molecular function| dihydroorotate dehydrogenase activity | inferred from direct assay|GO:0004152//cellular component| cytoplasm | inferred
molecular function| RNA binding | traceable author statement|GO:0003723//cellular component| cytoplasm | inferred from direct assay|GO:0
molecular function| methylenetetrahydrofolate dehydrogenase (NADP+) activity | inferred from mutant phenotype|GO:0004488//molecular fu
molecular function| sodium:inorganic phosphate symporter activity | inferred from sequence similarity|GO:0015319//molecular function| sodi
molecular function| alcohol dehydrogenase (NADP+) activity | inferred from direct assay|GO:0008106//cellular component| soluble fraction |
molecular function| tubulin binding | inferred from direct assay|GO:0015631//cellular component| prefoldin complex | inferred from sequence
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic small ribosom
molecular function| phosphatidylinositol transporter activity | inferred from direct assay|GO:0008526//cellular component| cytosol | inferred fr
cellular component| bud neck | inferred from direct assay|GO:0005935//biological process| mRNA polyadenylation | inferred from mutant ph
molecular function| sterol 14-demethylase activity | traceable author statement|GO:0008398//cellular component| endoplasmic reticulum | tr
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//cellular component| cytoplasm | inferred from direct as
molecular function| prenyl-dependent CAAX protease activity | inferred from direct assay|GO:0008487//cellular component| integral to endop
cellular component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277//cellular component| septin ring (sensu Saccharomyces
NA
molecular function| alcohol dehydrogenase activity | inferred from sequence similarity|GO:0004022//cellular component| cytoplasm | inferred
molecular function| acetate transporter activity | inferred from mutant phenotype|GO:0015123//molecular function| transporter activity | inferr
NA
molecular function| sirohydrochlorin dehydrogenase activity | inferred from direct assay|GO:0043115//molecular function| ferrochelatase act
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| cytoskeletal regulatory protein binding | inferred from physical interaction|GO:0005519//cellular component| shmoo tip | i
molecular function| adenosylmethionine decarboxylase activity | inferred from direct assay|GO:0004014//cellular component| cytoplasm | inf
cellular component| integral to membrane | inferred from direct assay|GO:0016021//cellular component| half bridge of spindle pole body | tra
molecular function| myo-inositol transporter activity | inferred from sequence similarity|GO:0005365//molecular function| myo-inositol transpo
molecular function| mannosyltransferase activity | inferred from sequence similarity|GO:0000030//molecular function| mannosyltransferase a
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//biological process| protein catabolism | inferred from
molecular function| dolichyl-diphosphooligosaccharide-protein glycotransferase activity | traceable author statement|GO:0004579//molecula
molecular function| transporter activity | inferred from sequence similarity|GO:0005215//cellular component| membrane | inferred from seque
cellular component| COPI vesicle coat | inferred from sequence similarity|GO:0030126//cellular component| COPI vesicle coat | inferred from
molecular function| dolichyl-diphosphooligosaccharide-protein glycotransferase activity | inferred from direct assay|GO:0004579//cellular com
cellular component| cytosol | inferred from direct assay|GO:0005829
biological process| establishment and/or maintenance of chromatin architecture | inferred from genetic interaction|GO:0006325
NA
NA
molecular function| calcium ion binding | inferred from direct assay|GO:0005509//molecular function| transporter activity | inferred from sequ
molecular function| malate dehydrogenase (oxaloacetate-decarboxylating) activity | inferred from sequence similarity|GO:0016619//molecula
cellular component| membrane | inferred from direct assay|GO:0016020//biological process| cation transport | inferred from genetic interacti
molecular function| protein kinase activity | inferred from sequence similarity|GO:0004672//biological process| polyamine transport | inferred
molecular function| protein binding | inferred from mutant phenotype|GO:0005515//cellular component| COPI vesicle coat | inferred from seq
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| oligosaccharide transporter activity | inferred from mutant phenotype|GO:0015157//cellular component| endoplasmic reti
molecular function| pre-mRNA cleavage factor activity | inferred from sequence similarity|GO:0030363//molecular function| pre-mRNA cleav
NA
molecular function| glucosidase activity | inferred from sequence similarity|GO:0015926//cellular component| cell wall (sensu Fungi) | inferre
molecular function| structural constituent of cytoskeleton | inferred from physical interaction|GO:0005200//molecular function| structural cons
molecular function| protein binding | inferred from direct assay|GO:0005515//cellular component| integral to membrane | inferred from direct
cellular component| nucleolus | inferred from direct assay|GO:0005730//cellular component| nuclear membrane | inferred from direct assay
molecular function| signal transducer activity | inferred from sequence similarity|GO:0004871//molecular function| GTPase activity | inferred
molecular function| actin lateral binding | traceable author statement|GO:0003786//cellular component| actin cable (sensu Fungi) | inferred f
cellular component| vacuole (sensu Fungi) | inferred from direct assay|GO:0000324
molecular function| hydrogen-transporting ATPase activity, rotational mechanism | traceable author statement|GO:0046961//cellular compon
cellular component| endoplasmic reticulum membrane | inferred from physical interaction|GO:0005789//biological process| cotranslational m
NA
molecular function| protein serine/threonine kinase activity | inferred from direct assay|GO:0004674//molecular function| endoribonuclease a
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
NA
cellular component| COPII-coated vesicle | inferred from direct assay|GO:0030138//cellular component| COPI-coated vesicle | inferred from
molecular function| lipase activity | inferred from sequence similarity|GO:0016298//molecular function| lipase activity | inferred from mutant p
molecular function| specific transcriptional repressor activity | inferred from direct assay|GO:0016566//cellular component| nucleus | inferred
cellular component| nuclear membrane | inferred from direct assay|GO:0005635//biological process| response to unfolded protein | inferred
molecular function| homocitrate synthase activity | inferred from sequence similarity|GO:0004410//molecular function| homocitrate synthase
molecular function| calcium:hydrogen antiporter activity | traceable author statement|GO:0015369//molecular function| calcium ion transport
molecular function| protein binding | inferred from direct assay|GO:0005515//cellular component| mitochondrial matrix | inferred from direct a
molecular function| v-SNARE activity | traceable author statement|GO:0005485//cellular component| integral to membrane | inferred from di
molecular function| ATP-dependent peptidase activity | traceable author statement|GO:0004176//cellular component| mitochondrial inner me
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| positive regulation of transcription from Pol II pr
NA
molecular function| kynurenine 3-monooxygenase activity | traceable author statement|GO:0004502//cellular component| mitochondrion | in
NA
molecular function| pyrroline-5-carboxylate reductase activity | inferred from sequence similarity|GO:0004735//molecular function| pyrroline-
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic small ribosom
molecular function| ribonucleoside-diphosphate reductase activity | inferred from mutant phenotype|GO:0004748//cellular component| cytop
molecular function| specific RNA polymerase II transcription factor activity | inferred from physical interaction|GO:0003704//cellular compone
molecular function| biotin synthase activity | traceable author statement|GO:0004076//cellular component| mitochondrion | inferred from dire
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic small ribosom
molecular function| GPI-anchor transamidase activity | inferred from physical interaction|GO:0003923//molecular function| GPI-anchor trans
NA
NA
molecular function| protein kinase activity | inferred from direct assay|GO:0004672//cellular component| cytoplasm | inferred from direct assa
NA
molecular function| sphingosine N-acyltransferase activity | inferred from mutant phenotype|GO:0050291//cellular component| endoplasmic
molecular function| recombinase activity | inferred from direct assay|GO:0000150//cellular component| condensed nuclear chromosome | in
cellular component| vacuole (sensu Fungi) | inferred from direct assay|GO:0000324
molecular function| RNA binding | inferred from direct assay|GO:0003723//cellular component| nuclear envelope-endoplasmic reticulum net
molecular function| enzyme inhibitor activity | inferred from sequence similarity|GO:0004857//cellular component| cytoplasm | inferred from d
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| sporulation | inferred from mutant phenotype|GO
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| cytoskeletal protein binding | inferred from direct assay|GO:0008092//cellular component| actin cortical patch (sensu Fun
molecular function| hydrolase activity | inferred from sequence similarity|GO:0016787//molecular function| serine esterase activity | inferred
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| DNA helicase activity | inferred from direct assay|GO:0003678//cellular component| nucleus | inferred from curator|GO:0
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| saccharopine dehydrogenase (NAD+, L-lysine-forming) activity | traceable author statement|GO:0004754//cellular comp
molecular function| DNA-directed RNA polymerase activity | traceable author statement|GO:0003899//cellular component| DNA-directed RN
molecular function| 3'-5' exonuclease activity | inferred from sequence similarity|GO:0008408//molecular function| 3'-5' exonuclease activity
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| uridine transporter activity | inferred from mutant phenotype|GO:0015213//molecular function| uridine transporter activity
cellular component| peroxisomal membrane | traceable author statement|GO:0005778//biological process| peroxisome organization and bio
molecular function| protein kinase activity | inferred from direct assay|GO:0004672//cellular component| cytoplasm | inferred from direct assa
molecular function| dolichyl-phosphate-glucose-glycolipid alpha-glucosyltransferase activity | inferred from direct assay|GO:0004583//cellula
molecular function| microtubule motor activity | inferred from sequence similarity|GO:0003777//cellular component| cell | non-traceable auth
molecular function| protein kinase activity | inferred from sequence similarity|GO:0004672//cellular component| vacuolar membrane (sensu F
NA
cellular component| integral to membrane | inferred from sequence similarity|GO:0016021
molecular function| GTPase activity | inferred from sequence similarity|GO:0003924//molecular function| GTPase activity | inferred from gen
molecular function| amino acid transporter activity | inferred from direct assay|GO:0015171//cellular component| plasma membrane | inferre
molecular function| cAMP-dependent protein kinase inhibitor activity | inferred from mutant phenotype|GO:0004862//cellular component| cyt
cellular component| anaphase-promoting complex | inferred from direct assay|GO:0005680//cellular component| nucleus | inferred from dire
molecular function| X-Pro aminopeptidase activity | inferred from sequence similarity|GO:0008451//cellular component| cytoplasm | inferred
molecular function| small GTPase regulatory/interacting protein activity | inferred from mutant phenotype|GO:0005083//cellular component|
molecular function| succinate-CoA ligase (ADP-forming) activity | inferred from sequence similarity|GO:0004775//molecular function| succina
cellular component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277
cellular component| mRNA cap complex | inferred from physical interaction|GO:0005845//biological process| negative regulation of translati
molecular function| phosphoserine transaminase activity | inferred from sequence similarity|GO:0004648//molecular function| phosphoserine
cellular component| TRAPP | inferred from direct assay|GO:0030008//biological process| ER to Golgi transport | inferred from mutant pheno
molecular function| ARF GTPase activator activity | inferred from direct assay|GO:0008060//cellular component| ER-Golgi intermediate com
molecular function| adenine phosphoribosyltransferase activity | inferred from direct assay|GO:0003999//cellular component| cytoplasm | inf
molecular function| protein transporter activity | traceable author statement|GO:0008565//cellular component| mitochondrial outer membrane
molecular function| prephenate dehydrogenase activity | inferred from sequence similarity|GO:0008977//cellular component| cytoplasm | infe
molecular function| protein kinase activity | inferred from sequence similarity|GO:0004672//cellular component| shmoo tip | traceable author
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
molecular function| transcription factor activity | inferred from sequence similarity|GO:0003700//cellular component| nucleus | inferred from d
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//molecular function| RNA binding | inferred
molecular function| protein transporter activity | traceable author statement|GO:0008565//cellular component| mitochondrial matrix | traceab
molecular function| oxysterol binding | inferred from sequence similarity|GO:0008142//cellular component| bud neck | inferred from direct as
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
cellular component| mitochondrion | inferred from direct assay|GO:0005739
molecular function| 3-isopropylmalate dehydratase activity | traceable author statement|GO:0003861//cellular component| cytosol | traceable
molecular function| ferric-chelate reductase activity | inferred from sequence similarity|GO:0000293//cellular component| vacuole (sensu Fun
molecular function| acetyltransferase activity | inferred from direct assay|GO:0016407//molecular function| H3/H4 histone acetyltransferase
molecular function| dicarboxylic acid transporter activity | inferred from sequence similarity|GO:0005310//molecular function| dicarboxylic ac
molecular function| protein phosphatase type 1 activity | traceable author statement|GO:0000163//molecular function| protein phosphatase t
molecular function| translation initiation factor activity | inferred from mutant phenotype|GO:0003743//molecular function| translation initiation
molecular function| 6-phosphogluconolactonase activity | inferred from sequence similarity|GO:0017057//cellular component| cytoplasm | inf
molecular function| inositol phosphoceramide synthase activity | inferred from direct assay|GO:0045140//cellular component| Golgi apparatu
molecular function| methylenetetrahydrofolate reductase (NADPH) activity | inferred from sequence similarity|GO:0004489//molecular functi
NA
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| tyrosyl-DNA phosophodiesterase activity | inferred from direct assay|GO:0017005//cellular component| nucleus | inferred
NA
molecular function| multidrug transporter activity | inferred from sequence similarity|GO:0015239//molecular function| multidrug transporter a
molecular function| phosphoethanolamine N-methyltransferase activity | inferred from mutant phenotype|GO:0000234//cellular component| e
molecular function| structural constituent of cell wall | traceable author statement|GO:0005199//cellular component| cell wall (sensu Fungi) |
molecular function| translation initiation factor activity | traceable author statement|GO:0003743//cellular component| ribosome | traceable a
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| vacuolar membrane (sensu Fungi) | inferred fro
molecular function| protein-S-isoprenylcysteine O-methyltransferase activity | traceable author statement|GO:0004671//molecular function| p
molecular function| metal ion binding | inferred from sequence similarity|GO:0046872//cellular component| membrane | traceable author sta
NA
NA
molecular function| ATP phosphoribosyltransferase activity | traceable author statement|GO:0003879//cellular component| cell | traceable a
molecular function| transporter activity | inferred from sequence similarity|GO:0005215//cellular component| plasma membrane | inferred fro
NA
molecular function| hydrogen-transporting ATPase activity, rotational mechanism | traceable author statement|GO:0046961//molecular func
molecular function| translation initiation factor activity | inferred from direct assay|GO:0003743//cellular component| eukaryotic translation in
NA
molecular function| transcription factor activity | traceable author statement|GO:0003700//molecular function| transcription factor activity | inf
cellular component| microtubule cytoskeleton | inferred from direct assay|GO:0015630
molecular function| protein transporter activity | inferred from physical interaction|GO:0008565//cellular component| mitochondrial inner mem
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//biological process| ER to Golgi transport | inferred from
NA
NA
molecular function| bis(5'-nucleosyl)-tetraphosphatase activity | traceable author statement|GO:0008796//cellular component| cytoplasm | in
molecular function| biotin transporter activity | inferred from direct assay|GO:0015225//cellular component| plasma membrane | inferred from
cellular component| integral to membrane | inferred from sequence similarity|GO:0016021
NA
molecular function| intracellular transporter activity | inferred from direct assay|GO:0005478//molecular function| organic acid transporter act
cellular component| SAGA complex | inferred from direct assay|GO:0000124//biological process| histone acetylation | inferred from physical
molecular function| phosphomannomutase activity | inferred from direct assay|GO:0004615//cellular component| cytosol | inferred from direc
molecular function| transcription factor activity | inferred from physical interaction|GO:0003700//molecular function| transcription factor activi
molecular function| dolichyl-diphosphooligosaccharide-protein glycotransferase activity | inferred from physical interaction|GO:0004579//cell
molecular function| RNA polymerase II transcription mediator activity | inferred from direct assay|GO:0016455//cellular component| mediato
molecular function| protein carrier activity | inferred from direct assay|GO:0008320//cellular component| nucleus | inferred from direct assay|
cellular component| mitochondrion | inferred from direct assay|GO:0005739
molecular function| carbamoyl-phosphate synthase (glutamine-hydrolyzing) activity | inferred from sequence similarity|GO:0004088//molecu
cellular component| vacuole (sensu Fungi) | inferred from direct assay|GO:0000324
NA
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic small ribosom
molecular function| RNA binding | inferred from direct assay|GO:0003723//cellular component| nuclear envelope-endoplasmic reticulum net
NA
molecular function| pre-mRNA splicing factor activity | traceable author statement|GO:0008248//molecular function| nucleic acid binding | inf
molecular function| structural molecule activity | traceable author statement|GO:0005198//cellular component| nuclear pore | inferred from d
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic small ribosom
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic small ribosom
molecular function| cellulase activity | traceable author statement|GO:0008810//cellular component| cell wall (sensu Fungi) | inferred from di
molecular function| protein binding | inferred from direct assay|GO:0005515//cellular component| COPII vesicle coat | traceable author state
cellular component| plasma membrane | inferred from direct assay|GO:0005886//biological process| cation transport | inferred from mutant p
cellular component| COPI vesicle coat | inferred from sequence similarity|GO:0030126//cellular component| COPI vesicle coat | inferred from
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
NA
molecular function| sulfite reductase (NADPH) activity | inferred from sequence similarity|GO:0004783//cellular component| sulfite reductase
molecular function| long-chain fatty acid transporter activity | inferred from sequence similarity|GO:0005324//molecular function| long-chain f
NA
molecular function| Rab interactor activity | inferred from physical interaction|GO:0017137//cellular component| membrane | inferred from se
molecular function| dolichyl-phosphate-mannose-protein mannosyltransferase activity | inferred from mutant phenotype|GO:0004169//molec
molecular function| palmitoyltransferase activity | inferred from direct assay|GO:0016409//cellular component| integral to endoplasmic reticu
molecular function| pantothenate transporter activity | inferred from mutant phenotype|GO:0015233//molecular function| pantothenate transp
molecular function| protein kinase CK2 activity | inferred from direct assay|GO:0004682//cellular component| protein kinase CK2 complex | i
molecular function| translation regulator activity | inferred from physical interaction|GO:0045182//molecular function| translation regulator ac
molecular function| snoRNA binding | inferred from sequence similarity|GO:0030515//cellular component| small nuclear ribonucleoprotein co
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
NA
molecular function| GPI-anchor transamidase activity | inferred from physical interaction|GO:0003923//molecular function| GPI-anchor trans
NA
molecular function| myosin I binding | inferred from direct assay|GO:0017024//cellular component| actin cortical patch (sensu Fungi) | inferre
cellular component| COPII-coated vesicle | inferred from direct assay|GO:0030138//biological process| ER to Golgi transport | inferred from
molecular function| thiol-disulfide exchange intermediate activity | inferred from sequence similarity|GO:0030508//molecular function| thiol-d
cellular component| cytoplasm | inferred from direct assay|GO:0005737
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783
cellular component| integral to membrane | inferred from sequence similarity|GO:0016021//cellular component| plasma membrane | inferred
molecular function| translation initiation factor activity | traceable author statement|GO:0003743//cellular component| ribosome | traceable a
NA
cellular component| integral to membrane | inferred from direct assay|GO:0016021//cellular component| half bridge of spindle pole body | tra
cellular component| COPII-coated vesicle | inferred from direct assay|GO:0030138//cellular component| endoplasmic reticulum membrane |
cellular component| COPII-coated vesicle | inferred from direct assay|GO:0030138//biological process| ER to Golgi transport | inferred from
molecular function| SNF1A/AMP-activated protein kinase activity | inferred from direct assay|GO:0004679//cellular component| cytoplasm | i
NA
molecular function| 3-deoxy-7-phosphoheptulonate synthase activity | inferred from direct assay|GO:0003849//cellular component| cytoplasm
molecular function| polygalacturonase activity | inferred from direct assay|GO:0004650//cellular component| extracellular | inferred from dire
cellular component| vacuolar membrane (sensu Fungi) | inferred from direct assay|GO:0000329//biological process| manganese ion homeo
biological process| phospholipid metabolism | inferred from mutant phenotype|GO:0006644//biological process| regulation of transcription fr
molecular function| threo-3-hydroxyaspartate ammonia-lyase activity | inferred from direct assay|GO:0030848//molecular function| serine rac
molecular function| lipoic acid synthase activity | inferred from sequence similarity|GO:0017140//cellular component| mitochondrion | inferred
molecular function| CDP-diacylglycerol-serine O-phosphatidyltransferase activity | traceable author statement|GO:0003882//cellular compon
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737
NA
molecular function| alpha-1,2-mannosyltransferase activity | inferred from mutant phenotype|GO:0000026//cellular component| endoplasmic
molecular function| 6-phosphofructo-2-kinase activity | inferred from sequence similarity|GO:0003873//cellular component| cytoplasm | inferr
molecular function| protein serine/threonine phosphatase activity | inferred from sequence similarity|GO:0004722//molecular function| protei
molecular function| dolichyl-phosphate-mannose-protein mannosyltransferase activity | inferred from sequence similarity|GO:0004169//mole
molecular function| DNA binding | traceable author statement|GO:0003677//cellular component| nuclear nucleosome | traceable author state
cellular component| TRAPP | inferred from direct assay|GO:0030008//biological process| ER to Golgi transport | inferred from mutant pheno
cellular component| peroxisomal membrane | inferred from direct assay|GO:0005778//biological process| peroxisome organization and biog
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783
NA
molecular function| poly(A) binding | inferred from direct assay|GO:0008143//cellular component| nucleus | inferred from direct assay|GO:00
molecular function| rRNA binding | inferred from direct assay|GO:0019843//molecular function| translation initiation factor activity | inferred fr
molecular function| metal ion binding | inferred from sequence similarity|GO:0046872//cellular component| integral to membrane | inferred fr
molecular function| ARF GTPase activator activity | inferred from sequence similarity|GO:0008060//molecular function| ARF GTPase activat
molecular function| aminopeptidase activity | inferred from sequence similarity|GO:0004177//cellular component| cytoplasm | inferred from d
NA
cellular component| bud | inferred from direct assay|GO:0005933//cellular component| plasma membrane | inferred from direct assay |GO:0
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
NA
cellular component| condensed nuclear chromosome | inferred from direct assay|GO:0000794//biological process| meiotic recombination | in
molecular function| ATPase activity, coupled | inferred from direct assay|GO:0042623//cellular component| cytoplasm | inferred from direct a
molecular function| translation initiation factor activity | traceable author statement|GO:0003743//cellular component| ribosome | traceable a
molecular function| glycerol-3-phosphate dehydrogenase (NAD+) activity | inferred from mutant phenotype|GO:0004367//cellular componen
molecular function| Ras guanyl-nucleotide exchange factor activity | traceable author statement|GO:0005088//molecular function| guanyl-nu
cellular component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277//cellular component| vacuole (sensu Fungi) | inferred fro
molecular function| RNA binding | traceable author statement|GO:0003723//cellular component| cytoplasm | inferred from direct assay|GO:0
molecular function| transcriptional activator activity | inferred from physical interaction|GO:0016563//molecular function| transcriptional activa
NA
cellular component| COPII-coated vesicle | inferred from direct assay|GO:0030138//biological process| ER to Golgi transport | inferred from
molecular function| chitinase activity | inferred from direct assay|GO:0004568//cellular component| cell wall (sensu Fungi) | traceable author
molecular function| lipase activity | inferred from sequence similarity|GO:0016298//molecular function| lipase activity | inferred from mutant p
cellular component| bud neck | inferred from direct assay|GO:0005935//cellular component| bud tip | inferred from direct assay |GO:0005934
molecular function| dihydroorotase activity | inferred from sequence similarity|GO:0004151//molecular function| dihydroorotase activity | infe
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic small ribosom
cellular component| nucleus | inferred from direct assay|GO:0005634
cellular component| integral to membrane | inferred from sequence similarity|GO:0016021//biological process| secretory pathway | inferred f
molecular function| adenylate kinase activity | inferred from direct assay|GO:0004017//cellular component| mitochondrial inner membrane |
molecular function| transcription factor activity | inferred from sequence similarity|GO:0003700//molecular function| transcription factor activi
cellular component| clathrin-coated vesicle | inferred from direct assay|GO:0030136
molecular function| protein serine/threonine phosphatase activity | inferred from sequence similarity|GO:0004722//cellular component| cytop
NA
molecular function| azole transporter activity | inferred from mutant phenotype|GO:0045118//cellular component| plasma membrane | inferre
molecular function| translation initiation factor activity | traceable author statement|GO:0003743//cellular component| ribosome | traceable a
molecular function| clathrin binding | inferred from sequence similarity|GO:0030276//cellular component| actin cortical patch (sensu Fungi) |
cellular component| lipid particle | inferred from direct assay|GO:0005811
molecular function| protein binding | inferred from physical interaction|GO:0005515//molecular function| structural molecule activity | traceab
cellular component| cell wall (sensu Fungi) | inferred from sequence similarity|GO:0009277
NA
molecular function| shikimate kinase activity | inferred from direct assay|GO:0004765//molecular function| shikimate 5-dehydrogenase activi
NA
NA
NA
cellular component| nuclear cohesin complex | traceable author statement|GO:0000798//biological process| mitotic chromosome condensat
molecular function| RNA cap binding | traceable author statement|GO:0000339//molecular function| RNA cap binding | inferred from physica
cellular component| TRAPP | inferred from direct assay|GO:0030008//biological process| ER to Golgi transport | inferred from mutant pheno
NA
molecular function| hydrolase activity | inferred from direct assay|GO:0016787//molecular function| nucleotide binding | inferred from sequen
cellular component| membrane | inferred from direct assay|GO:0016020//cellular component| Golgi apparatus | inferred from direct assay |G
molecular function| branched-chain-amino-acid transaminase activity | inferred from sequence similarity|GO:0004084//molecular function| b
molecular function| multidrug transporter activity | inferred from sequence similarity|GO:0015239//cellular component| integral to plasma me
molecular function| tryptophan synthase activity | inferred from sequence similarity|GO:0004834//molecular function| tryptophan synthase ac
NA
cellular component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277//biological process| siderochrome transport | inferred fro
molecular function| eta DNA polymerase activity | inferred from direct assay|GO:0015999//cellular component| replication fork | inferred from
cellular component| histone acetyltransferase complex | inferred from physical interaction|GO:0000123//biological process| chromatin modif
cellular component| integral to membrane | inferred from sequence similarity|GO:0016021//cellular component| mitochondrion | inferred from
molecular function| cleavage/polyadenylation specificity factor activity | inferred from direct assay|GO:0030364//cellular component| mRNA c
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| pseudouridylate synthase activity | inferred from direct assay|GO:0004730//cellular component| mitochondrion | inferred
cellular component| bud | inferred from direct assay|GO:0005933//cellular component| cytoplasm | inferred from direct assay |GO:0005737
molecular function| hydroxymethylglutaryl-CoA reductase (NADPH) activity | traceable author statement|GO:0004420//cellular component| e
molecular function| cell adhesion molecule binding | traceable author statement|GO:0050839//molecular function| cell adhesion molecule bi
molecular function| alpha-glucosidase activity | traceable author statement|GO:0004558//biological process| maltose catabolism | traceable
molecular function| serine hydrolase activity | inferred from direct assay|GO:0017171//cellular component| cytoplasm | inferred from direct a
NA
NA
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//cellular component| cytoplasm | inferred from direct as
molecular function| oxidoreductase activity, oxidizing metal ions | traceable author statement|GO:0016722
molecular function| transcription factor activity | traceable author statement|GO:0003700//molecular function| chromatin binding | traceable a
molecular function| hydrogen-exporting ATPase activity, phosphorylative mechanism | inferred from direct assay|GO:0008553//cellular comp
molecular function| specific transcriptional repressor activity | inferred from mutant phenotype|GO:0016566//molecular function| DNA bendin
cellular component| cell cortex | inferred from direct assay|GO:0005938//cellular component| shmoo tip | inferred from direct assay |GO:000
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
NA
cellular component| spindle pole body | inferred from direct assay|GO:0005816//cellular component| nucleus | inferred from direct assay |GO
molecular function| transcriptional activator activity | inferred from direct assay|GO:0016563//molecular function| DNA binding | inferred from
molecular function| structural constituent of cytoskeleton | inferred from physical interaction|GO:0005200//cellular component| spindle pole b
cellular component| mitochondrion | inferred from direct assay|GO:0005739
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| ARF guanyl-nucleotide exchange factor activity | traceable author statement|GO:0005086//cellular component| Golgi ves
molecular function| helicase activity | inferred from sequence similarity|GO:0004386
NA
molecular function| small GTPase regulatory/interacting protein activity | traceable author statement|GO:0005083//cellular component| actin
molecular function| GTPase activity | inferred from mutant phenotype|GO:0003924//cellular component| plasma membrane | inferred from d
molecular function| transaldolase activity | traceable author statement|GO:0004801//cellular component| cytoplasm | inferred from sequence
NA
molecular function| neutral amino acid transporter activity | inferred from sequence similarity|GO:0015175//molecular function| neutral amino
NA
molecular function| succinate dehydrogenase (ubiquinone) activity | traceable author statement|GO:0008177//cellular component| respirator
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| transferase activity, transferring glycosyl groups | inferred from sequence similarity|GO:0016757//molecular function| alp
molecular function| poly(A) binding | inferred from direct assay|GO:0008143//cellular component| cytoplasm | inferred from direct assay|GO:
NA
molecular function| amino acid transporter activity | inferred from direct assay|GO:0015171//cellular component| plasma membrane | inferre
molecular function| structural constituent of cytoskeleton | inferred from physical interaction|GO:0005200//cellular component| DASH comple
cellular component| integral to membrane | inferred from sequence similarity|GO:0016021//cellular component| cytoplasm | inferred from dir
molecular function| translation regulator activity | inferred from mutant phenotype|GO:0045182//cellular component| mitochondrial inner mem
NA
molecular function| dolichyl-phosphate beta-glucosyltransferase activity | inferred from direct assay|GO:0004581//cellular component| endop
molecular function| L-methionine transporter activity | inferred from sequence similarity|GO:0015191//molecular function| L-methionine trans
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737
NA
molecular function| protein binding | traceable author statement|GO:0005515//molecular function| ubiquitin-protein ligase activity | traceable
molecular function| specific RNA polymerase II transcription factor activity | traceable author statement|GO:0003704//cellular component| nu
molecular function| orotidine-5'-phosphate decarboxylase activity | inferred from direct assay|GO:0004590//biological process| pyrimidine ba
molecular function| specific RNA polymerase II transcription factor activity | inferred from direct assay|GO:0003704//cellular component| nuc
cellular component| nucleus | inferred from direct assay|GO:0005634
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| structural constituent of cytoskeleton | inferred from physical interaction|GO:0005200//cellular component| spindle pole b
molecular function| guanyl-nucleotide exchange factor activity | inferred from direct assay|GO:0005085//cellular component| integral to endo
molecular function| ribonuclease H activity | inferred from direct assay|GO:0004523//cellular component| cell | traceable author statement|G
molecular function| enzyme regulator activity | inferred from direct assay|GO:0030234//cellular component| nucleus | inferred from physical i
molecular function| poly(A)-specific ribonuclease activity | inferred from direct assay|GO:0004535//cellular component| cytoplasm | inferred f
biological process| protein processing | inferred from mutant phenotype|GO:0016485//biological process| meiosis | inferred from mutant phe
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| protein binding | inferred from sequence similarity|GO:0005515//molecular function| RNA binding | inferred from sequenc
molecular function| Pol II transcription elongation factor activity | inferred from physical interaction|GO:0016944//molecular function| Pol II tra
molecular function| stearoyl-CoA 9-desaturase activity | inferred from sequence similarity|GO:0004768//molecular function| stearoyl-CoA 9-d
cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| ribosome biogenesis | inferred from mutant pheno
cellular component| mitochondrion | inferred from direct assay|GO:0005739
molecular function| protein serine/threonine kinase activity | inferred from direct assay|GO:0004674//cellular component| cytoplasm | inferre
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| pyruvate kinase activity | inferred from mutant phenotype|GO:0004743//molecular function| pyruvate kinase activity | infe
NA
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
molecular function| leucyl aminopeptidase activity | inferred from mutant phenotype|GO:0004178//cellular component| periplasmic space (se
cellular component| integral to membrane | inferred from sequence similarity|GO:0016021
molecular function| phosphoglycerate dehydrogenase activity | inferred from mutant phenotype|GO:0004617//cellular component| cytoplasm
molecular function| channel regulator activity | inferred from sequence similarity|GO:0016247//molecular function| channel regulator activity
molecular function| monocarboxylic acid transporter activity | inferred from mutant phenotype|GO:0008028//molecular function| monocarbox
cellular component| nucleus | inferred from direct assay|GO:0005634
molecular function| alpha-1,2-mannosyltransferase activity | inferred from sequence similarity|GO:0000026//molecular function| alpha-1,2-m
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| viral life cycle | inferred from mutant phenotype|
NA
biological process| thiamin biosynthesis | inferred from mutant phenotype|GO:0009228//biological process| pyridoxine metabolism | inferred
cellular component| vacuolar membrane (sensu Fungi) | inferred from direct assay|GO:0000329
NA
molecular function| t-SNARE activity | traceable author statement|GO:0005486//cellular component| Golgi cis-face | inferred from direct assa
molecular function| protein serine/threonine kinase activity | inferred from sequence similarity|GO:0004674//cellular component| nucleus | in
molecular function| adenine deaminase activity | inferred from mutant phenotype|GO:0000034//cellular component| cytoplasm | inferred from
cellular component| bud tip | inferred from direct assay|GO:0005934//cellular component| incipient bud site | inferred from direct assay |GO:
molecular function| phosphatidylserine decarboxylase activity | traceable author statement|GO:0004609//cellular component| mitochondrial
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
molecular function| GTPase activity | inferred from sequence similarity|GO:0003924//molecular function| GTPase activity | inferred from dire
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| vacuolar membrane (sensu Fungi) | inferred fro
NA
NA
NA
molecular function| general RNA polymerase II transcription factor activity | traceable author statement|GO:0016251//cellular component| tra
molecular function| acetyl-CoA C-acetyltransferase activity | inferred from direct assay|GO:0003985//cellular component| cytosol | traceable
molecular function| long-chain fatty acid transporter activity | inferred from mutant phenotype|GO:0005324//molecular function| acyl-CoA bin
molecular function| aminopeptidase activity | inferred from mutant phenotype|GO:0004177//molecular function| aminopeptidase activity | infe
molecular function| glycogen synthase kinase 3 activity | inferred from sequence similarity|GO:0004696//molecular function| glycogen synth
cellular component| integral to membrane | inferred from sequence similarity|GO:0016021
molecular function| chromatin binding | inferred from sequence similarity|GO:0003682//cellular component| cytoplasm | inferred from direct a
NA
NA
molecular function| signal transducer activity | inferred from physical interaction|GO:0004871//molecular function| signal transducer activity |
molecular function| DNA helicase activity | inferred from sequence similarity|GO:0003678//molecular function| DNA helicase activity | inferre
molecular function| glyceraldehyde-3-phosphate dehydrogenase (phosphorylating) activity | inferred from direct assay|GO:0004365//cellular
cellular component| cytoplasm | inferred from direct assay|GO:0005737
NA
molecular function| NAD-dependent histone deacetylase activity | inferred from direct assay|GO:0017136//cellular component| cytoplasm | in
molecular function| transporter activity | inferred from sequence similarity|GO:0005215//molecular function| transporter activity | inferred from
molecular function| protein serine/threonine kinase activity | inferred from sequence similarity|GO:0004674//molecular function| protein serin
molecular function| protein transporter activity | inferred from physical interaction|GO:0008565//molecular function| protein transporter activit
molecular function| protein kinase activity | inferred from sequence similarity|GO:0004672//cellular component| cytoplasm | inferred from dire
molecular function| protein binding | traceable author statement|GO:0005515//cellular component| nucleus | inferred from direct assay|GO:0
molecular function| diacylglycerol cholinephosphotransferase activity | traceable author statement|GO:0004142//cellular component| endopl
cellular component| cytoplasm | inferred from physical interaction|GO:0005737//biological process| cellular response to glucose starvation |
cellular component| membrane fraction | inferred from sequence similarity|GO:0005624
molecular function| protein-tyrosine kinase activity | inferred from mutant phenotype|GO:0004713//molecular function| protein-tyrosine kinas
NA
molecular function| casein kinase I activity | inferred from sequence similarity|GO:0004681//cellular component| plasma membrane | inferred
molecular function| transcription regulator activity | inferred from sequence similarity|GO:0030528//molecular function| transcription regulato
molecular function| GPI-anchor transamidase activity | inferred from sequence similarity|GO:0003923//cellular component| endoplasmic reti
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783
cellular component| small nuclear ribonucleoprotein complex | traceable author statement|GO:0030532//cellular component| small nucleolar
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
NA
molecular function| protein binding | traceable author statement|GO:0005515//molecular function| protein binding | inferred from physical int
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| meiosis | inferred from expression pattern|GO:0
molecular function| phospholipid-translocating ATPase activity | inferred from sequence similarity|GO:0004012//cellular component| plasma
NA
NA
molecular function| lactoylglutathione lyase activity | inferred from genetic interaction|GO:0004462//cellular component| cytoplasm | inferred
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| nucleobase, nucleoside, nucleotide and nucleic
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
molecular function| potassium channel activity | inferred from sequence similarity|GO:0005267//molecular function| potassium channel activ
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| protein serine/threonine phosphatase activity | inferred from sequence similarity|GO:0004722//cellular component| cytop
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783
molecular function| arginine-tRNA ligase activity | inferred from direct assay|GO:0004814//cellular component| cytoplasm | inferred from cura
molecular function| poly(A) binding | inferred from direct assay|GO:0008143//molecular function| mRNA binding | inferred from direct assay
molecular function| thioredoxin-disulfide reductase activity | traceable author statement|GO:0004791//cellular component| cytoplasm | tracea
molecular function| glucokinase activity | inferred from mutant phenotype|GO:0004340//cellular component| cytosol | traceable author statem
molecular function| ureidoglycolate hydrolase activity | traceable author statement|GO:0004848//cellular component| membrane | inferred fr
molecular function| hydrogen-transporting ATPase activity, rotational mechanism | traceable author statement|GO:0046961//cellular compon
NA
molecular function| 3'(2'),5'-bisphosphate nucleotidase activity | traceable author statement|GO:0008441//cellular component| cytoplasm | in
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| mRNA catabolism, nonsense-mediated | inferre
biological process| regulation of budding | inferred from sequence similarity|GO:0007116//biological process| regulation of budding | inferred
molecular function| biotin-[propionyl-CoA-carboxylase (ATP-hydrolyzing)] ligase activity | non-traceable author statement|GO:0004080//mole
NA
molecular function| aromatic amino acid transporter activity | inferred from direct assay|GO:0015173//cellular component| plasma membrane
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//cellular component| cytoplasm | inferred from direct as
molecular function| general RNA polymerase II transcription factor activity | traceable author statement|GO:0016251//molecular function| DN
cellular component| mitochondrion | inferred from direct assay|GO:0005739
molecular function| kinase regulator activity | inferred from direct assay|GO:0019207//cellular component| bud neck | traceable author statem
molecular function| RNA polymerase I transcription factor activity | traceable author statement|GO:0003701//molecular function| ribosomal D
molecular function| sulfate transporter activity | inferred from mutant phenotype|GO:0015116//cellular component| plasma membrane | inferr
NA
molecular function| cAMP-dependent protein kinase activity | traceable author statement|GO:0004691//molecular function| protein serine/thr
cellular component| mitochondrion | inferred from direct assay|GO:0005739//cellular component| cytoplasm | inferred from direct assay |GO
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
cellular component| COPII vesicle coat | inferred from physical interaction|GO:0030127//biological process| ER to Golgi transport | inferred f
molecular function| cyclin-dependent protein kinase regulator activity | traceable author statement|GO:0016538//cellular component| cytopla
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| homoaconitate hydratase activity | traceable author statement|GO:0004409//cellular component| peroxisome | inferred fr
molecular function| specific RNA polymerase II transcription factor activity | inferred from sequence similarity|GO:0003704//molecular functio
molecular function| protein kinase activity | inferred from sequence similarity|GO:0004672//cellular component| cytoplasm | inferred from dire
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
NA
molecular function| glucokinase activity | inferred from mutant phenotype|GO:0004340//cellular component| cytosol | traceable author statem
cellular component| mitochondrion | inferred from direct assay|GO:0005739
molecular function| cyclin-dependent protein kinase regulator activity | traceable author statement|GO:0016538//molecular function| cyclin-d
molecular function| tRNA (cytosine-5-)-methyltransferase activity | inferred from direct assay|GO:0016428//cellular component| nucleus | infe
molecular function| amino acid binding | inferred from mutant phenotype|GO:0016597//molecular function| amino acid binding | inferred from
NA
NA
NA
molecular function| DNA binding | traceable author statement|GO:0003677//cellular component| DNA replication factor A complex | traceabl
molecular function| intracellular transporter activity | inferred from mutant phenotype|GO:0005478//molecular function| intracellular transport
cellular component| extracellular | inferred from direct assay|GO:0005576//biological process| cell wall organization and biogenesis | inferred
molecular function| calcium channel activity | inferred from direct assay|GO:0005262//cellular component| plasma membrane | inferred from
molecular function| transcription coactivator activity | inferred from direct assay|GO:0003713//cellular component| cytoplasm | inferred from
cellular component| integral to membrane | inferred from sequence similarity|GO:0016021//cellular component| plasma membrane | inferred
cellular component| cytosol | inferred from direct assay|GO:0005829//cellular component| cytoplasm | inferred from direct assay |GO:000573
NA
cellular component| integral to membrane | inferred from sequence similarity|GO:0016021//biological process| actin cytoskeleton organizatio
molecular function| protein kinase activity | inferred from sequence similarity|GO:0004672//biological process| polyamine transport | inferred
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| mitotic spindle checkpoint | inferred from mutan
molecular function| methyltransferase activity | inferred from sequence similarity|GO:0008168//cellular component| cytoplasm | inferred from
cellular component| integral to membrane | inferred from sequence similarity|GO:0016021//biological process| conjugation with cellular fusio
molecular function| alcohol dehydrogenase activity | inferred from direct assay|GO:0004022//cellular component| cytoplasm | inferred from d
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
cellular component| mitochondrion | inferred from direct assay|GO:0005739
cellular component| endoplasmic reticulum membrane | inferred from direct assay|GO:0005789//biological process| ER to Golgi transport | i
cellular component| mitochondrial membrane | inferred from direct assay|GO:0005740//biological process| RNA processing | inferred from m
molecular function| Ras GTPase activator activity | traceable author statement|GO:0005099//molecular function| GTPase activator activity |
molecular function| pre-mRNA splicing factor activity | inferred from physical interaction|GO:0008248//molecular function| mRNA binding | in
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//biological process| response to unfolded protein | infer
molecular function| transcriptional repressor activity | inferred from direct assay|GO:0016564//molecular function| DNA binding | inferred from
molecular function| endopeptidase activity | traceable author statement|GO:0004175//cellular component| proteasome core complex, beta-s
molecular function| NAD-independent histone deacetylase activity | inferred from physical interaction|GO:0045129//molecular function| NAD
molecular function| clathrin binding | inferred from sequence similarity|GO:0030276//molecular function| clathrin binding | inferred from phys
cellular component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277
molecular function| protein transporter activity | traceable author statement|GO:0008565//cellular component| endoplasmic reticulum membr
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| formaldehyde dehydrogenase (glutathione) activity | inferred from direct assay|GO:0004327//cellular component| cytopla
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//biological process| cell wall organization and biogenes
molecular function| ribose-phosphate diphosphokinase activity | traceable author statement|GO:0004749//cellular component| cytoplasm | in
molecular function| cyclin-dependent protein kinase regulator activity | traceable author statement|GO:0016538//cellular component| cyclin-d
molecular function| 1-(5-phosphoribosyl)-5-[(5-phosphoribosylamino)methylideneamino]imidazole-4-carboxamide isomerase activity | tracea
NA
molecular function| structural molecule activity | traceable author statement|GO:0005198//cellular component| nuclear pore | inferred from d
NA
molecular function| mannosyltransferase activity | inferred from sequence similarity|GO:0000030//molecular function| mannosyltransferase a
molecular function| S-adenosylmethionine-dependent methyltransferase activity | inferred from sequence similarity|GO:0008757//cellular co
cellular component| vacuolar membrane (sensu Fungi) | inferred from direct assay|GO:0000329//biological process| late endosome to vacuo
NA
cellular component| integral to Golgi membrane | inferred from direct assay|GO:0030173//biological process| vesicle organization and bioge
molecular function| GTPase activity | traceable author statement|GO:0003924//cellular component| nucleolus | inferred from direct assay|GO
molecular function| inositol-polyphosphate 5-phosphatase activity | inferred from direct assay|GO:0004445//cellular component| membrane
NA
molecular function| protein transporter activity | traceable author statement|GO:0008565//cellular component| endoplasmic reticulum membr
molecular function| transporter activity | inferred from sequence similarity|GO:0005215//cellular component| membrane | inferred from seque
molecular function| transcriptional activator activity | traceable author statement|GO:0016563//molecular function| transcription factor activity
molecular function| RNA binding | inferred from direct assay|GO:0003723//cellular component| nucleolus | inferred from direct assay|GO:000
NA
molecular function| protein transporter activity | traceable author statement|GO:0008565//cellular component| translocon | traceable author s
molecular function| alpha-1,3-mannosyltransferase activity | inferred from direct assay|GO:0000033//biological process| O-linked glycosylati
molecular function| alcohol O-acetyltransferase activity | inferred from direct assay|GO:0004026//cellular component| endoplasmic reticulum
molecular function| chitin synthase activity | traceable author statement|GO:0004100//cellular component| contractile ring (sensu Saccharom
molecular function| general transcriptional repressor activity | inferred from physical interaction|GO:0016565//molecular function| general tra
cellular component| COPI-coated vesicle | inferred from direct assay|GO:0030137//cellular component| clathrin-coated vesicle | inferred from
molecular function| enzyme regulator activity | traceable author statement|GO:0030234//molecular function| protein phosphatase type 1 reg
molecular function| transcription factor activity | inferred from sequence similarity|GO:0003700//cellular component| cytoplasm | inferred from
cellular component| bud neck | inferred from direct assay|GO:0005935//cellular component| bud tip | inferred from direct assay |GO:0005934
molecular function| nicotinamide N-methyltransferase activity | inferred from sequence similarity|GO:0008112//cellular component| cytoplasm
NA
NA
cellular component| mitochondrion | inferred from direct assay|GO:0005739
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
molecular function| transcription factor activity | inferred from sequence similarity|GO:0003700//molecular function| transcription factor activi
molecular function| alcohol dehydrogenase activity, zinc-dependent | inferred from direct assay|GO:0004024//cellular component| mitochond
molecular function| ATPase activity | inferred from direct assay|GO:0016887//cellular component| extrinsic to plasma membrane | inferred fr
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
NA
NA
NA
NA
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
NA
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
cellular component| bud neck | traceable author statement|GO:0005935//cellular component| bud tip | traceable author statement |GO:0005
NA
molecular function| --- | inferred from sequence similarity|GO:0051087//cellular component| mitochondrial inner membrane | inferred from di
molecular function| protein binding | inferred from physical interaction|GO:0005515//cellular component| spindle pole body | inferred from dir
cellular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//cellular component| nucle
molecular function| translation initiation factor activity | traceable author statement|GO:0003743//cellular component| ribosome | traceable a
molecular function| transcriptional activator activity | inferred from sequence similarity|GO:0016563//cellular component| plasma membrane
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
cellular component| COPI-coated vesicle | inferred from direct assay|GO:0030137//cellular component| Golgi apparatus | inferred from direc
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
molecular function| microtubule binding | inferred from mutant phenotype|GO:0008017//molecular function| structural constituent of cytoskel
molecular function| alpha-1,2-mannosyltransferase activity | traceable author statement|GO:0000026//molecular function| alpha-1,2-mannos
cellular component| Golgi apparatus | inferred from direct assay|GO:0005794
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| phosphatidylinositol binding | inferred from direct assay|GO:0005545//molecular function| structural constituent of cytosk
cellular component| mitochondrion | inferred from direct assay|GO:0005739
molecular function| 6,7-dimethyl-8-ribityllumazine synthase activity | inferred from sequence similarity|GO:0000906//molecular function| 6,7-
molecular function| holo-[acyl-carrier protein] synthase activity | traceable author statement|GO:0008897//molecular function| 3-oxoacyl-[acy
molecular function| mannosyl-oligosaccharide 1,2-alpha-mannosidase activity | inferred from direct assay|GO:0004571//cellular component|
molecular function| protein binding | inferred from direct assay|GO:0005515//cellular component| mitochondrial outer membrane | inferred fr
molecular function| protein tyrosine phosphatase activity | traceable author statement|GO:0004725//cellular component| nucleus | inferred fr
molecular function| tRNA 2'-phosphotransferase activity | traceable author statement|GO:0000215//cellular component| nucleus | traceable
molecular function| GTP cyclohydrolase I activity | inferred from mutant phenotype|GO:0003934//cellular component| cytoplasm | inferred fro
molecular function| transcription factor activity | inferred from physical interaction|GO:0003700//cellular component| nucleus | traceable auth
molecular function| specific RNA polymerase II transcription factor activity | inferred from sequence similarity|GO:0003704//molecular functio
molecular function| general RNA polymerase II transcription factor activity | traceable author statement|GO:0016251//molecular function| RN
molecular function| transcription factor activity | traceable author statement|GO:0003700//molecular function| transcription factor activity | inf
molecular function| mRNA binding | inferred from sequence similarity|GO:0003729//cellular component| cytoplasm | inferred from direct ass
biological process| microtubule-based process | traceable author statement|GO:0007017
molecular function| telomeric DNA binding | traceable author statement|GO:0042162//cellular component| nuclear chromosome, telomeric re
NA
molecular function| general RNA polymerase II transcription factor activity | traceable author statement|GO:0016251//cellular component| SW
molecular function| transcriptional activator activity | traceable author statement|GO:0016563//molecular function| DNA binding | traceable a
NA
molecular function| phosphoric monoester hydrolase activity | inferred from sequence similarity|GO:0016791//molecular function| protein tyr
molecular function| spermine transporter activity | inferred from mutant phenotype|GO:0000297//cellular component| plasma membrane | inf
molecular function| NADH kinase activity | inferred from direct assay|GO:0042736//cellular component| mitochondrial matrix | inferred from d
molecular function| sulfate transporter activity | inferred from mutant phenotype|GO:0015116//molecular function| sulfate transporter activity
NA
molecular function| ATP:ADP antiporter activity | inferred from direct assay|GO:0005471//cellular component| mitochondrial inner membrane
molecular function| enzyme regulator activity | inferred from direct assay|GO:0030234//cellular component| alpha,alpha-trehalose-phosphate
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| cyclin-dependent protein kinase inhibitor activity | traceable author statement|GO:0004861//cellular component| cytoplas
molecular function| acetylornithine transaminase activity | inferred from direct assay|GO:0003992//cellular component| mitochondrial matrix
molecular function| ATPase activity, coupled | inferred from direct assay|GO:0042623//cellular component| cytoplasm | inferred from direct a
cellular component| mitochondrion | inferred from direct assay|GO:0005739
molecular function| translation regulator activity | inferred from direct assay|GO:0045182//cellular component| cytosol | inferred from curator
molecular function| pantoate-beta-alanine ligase activity | inferred from sequence similarity|GO:0004592//molecular function| pantoate-beta-
molecular function| GTPase activity | traceable author statement|GO:0003924//cellular component| mitochondrial outer membrane | inferred
molecular function| structural constituent of cell wall | inferred from direct assay|GO:0005199//cellular component| cell wall (sensu Fungi) | in
molecular function| DNA binding | traceable author statement|GO:0003677//molecular function| DNA binding | inferred from direct assay |GO
cellular component| vacuolar membrane (sensu Fungi) | inferred from direct assay|GO:0000329//biological process| protein-vacuolar targeti
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| transcription coactivator activity | inferred from direct assay|GO:0003713//cellular component| cytoplasm | inferred from
cellular component| vacuolar membrane (sensu Fungi) | inferred from direct assay|GO:0000329
molecular function| adenine nucleotide transporter activity | inferred from mutant phenotype|GO:0000295//molecular function| adenine nucle
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| protein serine/threonine kinase activity | inferred from sequence similarity|GO:0004674//biological process| protein amin
NA
NA
molecular function| dUTP diphosphatase activity | inferred from mutant phenotype|GO:0004170//cellular component| cytoplasm | inferred fro
molecular function| RNA polymerase II transcription factor activity | inferred from direct assay|GO:0003702//cellular component| nucleus | in
molecular function| thiol-disulfide exchange intermediate activity | inferred from sequence similarity|GO:0030508//cellular component| cytoso
molecular function| Ras guanyl-nucleotide exchange factor activity | traceable author statement|GO:0005088//cellular component| plasma m
cellular component| nucleus | inferred from direct assay|GO:0005634
cellular component| cytoplasm | inferred from direct assay|GO:0005737
biological process| cell wall organization and biogenesis | inferred from mutant phenotype|GO:0007047
molecular function| iron ion transporter activity | traceable author statement|GO:0005381//cellular component| vacuolar membrane (sensu F
molecular function| cytosine-purine permease activity | inferred from direct assay|GO:0015392//cellular component| plasma membrane | infe
molecular function| specific transcriptional repressor activity | inferred from direct assay|GO:0016566//cellular component| nuclear chromoso
cellular component| mitochondrial nucleoid | inferred from direct assay|GO:0042645//cellular component| mitochondrial matrix | non-traceab
molecular function| --- | traceable author statement|GO:0051082//cellular component| cytoskeleton | traceable author statement|GO:000585
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| fructose-bisphosphate aldolase activity | inferred from mutant phenotype|GO:0004332//molecular function| fructose-bisp
NA
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
NA
molecular function| aryl-alcohol dehydrogenase activity | inferred from sequence similarity|GO:0018456//biological process| aldehyde metab
cellular component| COPI-coated vesicle | inferred from direct assay|GO:0030137
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//cellular component| --- | inferred from physical interact
molecular function| alanine-tRNA ligase activity | inferred from sequence similarity|GO:0004813//molecular function| alanine-tRNA ligase ac
cellular component| vacuole (sensu Fungi) | inferred from direct assay|GO:0000324
NA
molecular function| hydrogen-transporting ATP synthase activity, rotational mechanism | inferred from sequence similarity|GO:0046933//mo
molecular function| hydrolase activity | traceable author statement|GO:0016787//molecular function| ubiquitin-specific protease activity | trac
NA
NA
molecular function| tryptophan-tRNA ligase activity | inferred from direct assay|GO:0004830//cellular component| cytoplasm | traceable auth
cellular component| bud neck | inferred from direct assay|GO:0005935//cellular component| bud | inferred from direct assay |GO:0005933//c
NA
cellular component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277//cellular component| mitochondrial outer membrane | tr
molecular function| D-lactate dehydrogenase (cytochrome) activity | inferred from sequence similarity|GO:0004458//molecular function| D-la
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| structural constituent of cytoskeleton | inferred from direct assay|GO:0005200//cellular component| microtubule | inferred
NA
molecular function| translation elongation factor activity | traceable author statement|GO:0003746//cellular component| ribosome | traceable
molecular function| centromeric DNA binding | inferred from direct assay|GO:0019237//molecular function| DNA binding | inferred from direc
biological process| cell growth and/or maintenance | inferred from mutant phenotype|GO:0008151//biological process| cell growth and/or ma
NA
NA
molecular function| alpha-1,3-mannosyltransferase activity | inferred from mutant phenotype|GO:0000033//cellular component| Golgi appara
molecular function| phosphatidate cytidylyltransferase activity | inferred from direct assay|GO:0004605//cellular component| endoplasmic re
molecular function| nucleic acid binding | inferred from direct assay|GO:0003676//cellular component| THO complex | inferred from physical
NA
NA
NA
NA
NA
molecular function| asparaginase activity | inferred from sequence similarity|GO:0004067//cellular component| cytosol | traceable author sta
molecular function| lipase activity | non-traceable author statement|GO:0016298//biological process| lipid metabolism | inferred from sequen
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic small ribosom
molecular function| protein kinase activity | inferred from sequence similarity|GO:0004672//biological process| polyamine transport | inferred
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| CDP-diacylglycerol-inositol 3-phosphatidyltransferase activity | traceable author statement|GO:0003881//cellular compon
cellular component| cytoplasm | inferred from direct assay|GO:0005737
cellular component| COPI vesicle coat | inferred from direct assay|GO:0030126//biological process| retrograde transport, Golgi to ER | inferr
molecular function| protein binding | inferred from physical interaction|GO:0005515//molecular function| protein binding | inferred from mutan
molecular function| CTP synthase activity | inferred from sequence similarity|GO:0003883//molecular function| CTP synthase activity | inferre
molecular function| specific RNA polymerase II transcription factor activity | inferred from physical interaction|GO:0003704//molecular functio
molecular function| ATPase activity, coupled to transmembrane movement of ions, phosphorylative mechanism | inferred from mutant phen
NA
NA
molecular function| alkaline phosphatase activity | inferred from direct assay|GO:0004035//molecular function| 4-nitrophenylphosphatase ac
cellular component| integral to membrane | inferred from sequence similarity|GO:0016021//biological process| GPI anchor biosynthesis | inf
molecular function| amidophosphoribosyltransferase activity | traceable author statement|GO:0004044//cellular component| cytoplasm | infe
molecular function| S-adenosylmethionine-dependent methyltransferase activity | inferred from sequence similarity|GO:0008757//cellular co
cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| nuclear mRNA splicing, via spliceosome | traceab
NA
molecular function| siderochrome-iron transporter activity | inferred from mutant phenotype|GO:0015343//cellular component| cytoplasmic v
biological process| sporulation | inferred from mutant phenotype|GO:0030435
molecular function| transcription factor activity | inferred from direct assay|GO:0003700//cellular component| nucleus | inferred from curator|
molecular function| voltage-dependent ion-selective channel activity | inferred from sequence similarity|GO:0008308//molecular function| vo
NA
molecular function| protein binding | inferred from physical interaction|GO:0005515//molecular function| protein binding | inferred from mutan
cellular component| bud | inferred from direct assay|GO:0005933
molecular function| DNA binding | inferred from direct assay|GO:0003677//cellular component| nucleus | inferred from curator|GO:0005634
cellular component| membrane | traceable author statement|GO:0016020//cellular component| membrane | inferred from sequence similarit
cellular component| nucleus | inferred from mutant phenotype|GO:0005634//biological process| response to DNA damage stimulus | inferred
molecular function| NADPH dehydrogenase activity | inferred from sequence similarity|GO:0003959//molecular function| NADPH dehydroge
molecular function| transcription factor activity | inferred from sequence similarity|GO:0003700//cellular component| nucleus | inferred from s
molecular function| DNA-directed RNA polymerase activity | traceable author statement|GO:0003899//cellular component| DNA-directed RN
molecular function| diphosphoinositol-polyphosphate diphosphatase activity | inferred from direct assay|GO:0008486//cellular component| c
NA
NA
NA
cellular component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| autophagy | inferred from mutant phenotype|GO
cellular component| endoplasmic reticulum membrane | inferred from direct assay|GO:0005789//cellular component| endoplasmic reticulum
cellular component| mitochondrion | inferred from direct assay|GO:0005739
molecular function| transcription regulator activity | inferred from mutant phenotype|GO:0030528//molecular function| transcription regulator
NA
molecular function| ubiquitin-specific protease activity | inferred from direct assay|GO:0004843//cellular component| nucleus | inferred from d
molecular function| aspartate transaminase activity | inferred from direct assay|GO:0004069//cellular component| peroxisome | traceable au
molecular function| translation regulator activity | inferred from mutant phenotype|GO:0045182//cellular component| mitochondrial inner mem
cellular component| nucleolus | inferred from direct assay|GO:0005730
molecular function| AMP deaminase activity | inferred from direct assay|GO:0003876//cellular component| cytoplasm | inferred from direct a
NA
cellular component| nucleolus | inferred from direct assay|GO:0005730//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| protein disulfide isomerase activity | traceable author statement|GO:0003756//molecular function| protein disulfide isome
molecular function| protein binding, bridging | inferred from direct assay|GO:0030674//molecular function| dolichyl-diphosphooligosaccharide
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| drug transporter activity | inferred from sequence similarity|GO:0015238//molecular function| drug transporter activity | in
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| 3-oxoacyl-[acyl-carrier protein] reductase activity | inferred from sequence similarity|GO:0004316//molecular function| 3-
molecular function| ATPase activity | traceable author statement|GO:0016887//molecular function| DNA replication origin binding | traceable
molecular function| Pol II transcription elongation factor activity | inferred from physical interaction|GO:0016944//molecular function| transcri
molecular function| RNA binding | inferred from direct assay|GO:0003723//cellular component| snRNP U1 | traceable author statement|GO:0
molecular function| RNA polymerase II transcription factor activity | inferred from direct assay|GO:0003702//cellular component| nucleus | in
molecular function| Pol II transcription elongation factor activity | inferred from physical interaction|GO:0016944//cellular component| Cdc73/
molecular function| ubiquitin conjugating enzyme activity | inferred from mutant phenotype|GO:0004840//molecular function| ubiquitin conjug
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| protein biosynthesis | inferred from physical inte
NA
NA
molecular function| histone acetyltransferase activity | inferred from direct assay|GO:0004402//cellular component| histone acetyltransferase
cellular component| COPII-coated vesicle | inferred from direct assay|GO:0030138//cellular component| integral to membrane | inferred from
molecular function| ribonuclease P activity | inferred from direct assay|GO:0004526//cellular component| nucleolar ribonuclease P complex
molecular function| signal transducer activity | traceable author statement|GO:0004871//molecular function| GTPase activity | inferred from d
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic small ribosom
NA
molecular function| transcription regulator activity | inferred from direct assay|GO:0030528//molecular function| cysteine-type peptidase activ
molecular function| glucan 1,3-beta-glucosidase activity | traceable author statement|GO:0004338//cellular component| intracellular | tracea
cellular component| endosome | inferred from direct assay|GO:0005768
NA
NA
molecular function| protein binding | inferred from direct assay|GO:0005515//cellular component| integral to membrane | inferred from direct
cellular component| COPII vesicle coat | inferred from sequence similarity|GO:0030127//cellular component| COPII vesicle coat | inferred fro
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//molecular function| RNA binding | inferred
molecular function| protein binding | inferred from physical interaction|GO:0005515//cellular component| nucleus | inferred from physical inte
molecular function| DNA-directed RNA polymerase activity | traceable author statement|GO:0003899//cellular component| DNA-directed RN
cellular component| extrinsic to plasma membrane, GPI-anchored | inferred from direct assay|GO:0046658//biological process| cell wall bios
molecular function| structural constituent of nuclear pore | inferred from direct assay|GO:0017056//molecular function| protein binding | infer
molecular function| structural molecule activity | traceable author statement|GO:0005198//cellular component| nuclear pore | inferred from d
molecular function| homoserine kinase activity | inferred from sequence similarity|GO:0004413//molecular function| homoserine kinase activ
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| GTPase activity | inferred from sequence similarity|GO:0003924//cellular component| cytosol | traceable author statemen
molecular function| glutamate N-acetyltransferase activity | inferred from direct assay|GO:0004358//molecular function| amino-acid N-acetyl
molecular function| structural molecule activity | traceable author statement|GO:0005198//cellular component| nuclear pore | inferred from d
biological process| nuclear mRNA splicing, via spliceosome | inferred from physical interaction|GO:0000398
molecular function| translation initiation factor activity | traceable author statement|GO:0003743//molecular function| translation initiation fac
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| aminopeptidase activity | inferred from direct assay|GO:0004177//cellular component| Golgi trans face | inferred from dir
molecular function| aspartate carbamoyltransferase activity | inferred from direct assay|GO:0004070//cellular component| cytoplasm | inferre
NA
cellular component| mitochondrial inner membrane | inferred from direct assay|GO:0005743//biological process| ethanol metabolism | inferre
molecular function| ATP-dependent DNA helicase activity | inferred from direct assay|GO:0004003//molecular function| DNA helicase activit
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| cytochrome-c oxidase activity | inferred from direct assay|GO:0004129//cellular component| respiratory chain complex IV
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
molecular function| succinate:fumarate antiporter activity | inferred from direct assay|GO:0005469//cellular component| mitochondrial inner m
molecular function| phosphate transporter activity | traceable author statement|GO:0015114//molecular function| phosphate transporter activ
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| ubiquitin-specific protease activity | traceable author statement|GO:0004843//cellular component| cytoplasm | inferred fro
molecular function| ATPase activity | traceable author statement|GO:0016887//molecular function| protein binding | inferred from physical in
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| DNA polymerase processivity factor activity | traceable author statement|GO:0030337//cellular component| replication fo
molecular function| SUMO ligase activity | inferred from direct assay|GO:0019789//cellular component| cytoplasm | inferred from direct assa
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| transcription factor activity | inferred from sequence similarity|GO:0003700//cellular component| nucleus | inferred from c
molecular function| protein transporter activity | traceable author statement|GO:0008565//cellular component| nuclear envelope-endoplasmi
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic small ribosom
molecular function| glutamate dehydrogenase activity | inferred from sequence similarity|GO:0004352//molecular function| glutamate dehyd
molecular function| transcription factor binding | inferred from direct assay|GO:0008134//cellular component| nucleus | traceable author state
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
molecular function| CDP-diacylglycerol-glycerol-3-phosphate 3-phosphatidyltransferase activity | inferred from mutant phenotype|GO:00084
molecular function| GTPase activity | traceable author statement|GO:0003924//cellular component| COPII vesicle coat | traceable author sta
molecular function| transcription factor activity | traceable author statement|GO:0003700
molecular function| spermidine synthase activity | inferred from sequence similarity|GO:0004766//molecular function| spermidine synthase a
cellular component| cytoplasmic mRNA processing body | inferred from direct assay|GO:0000932//biological process| deadenylation-depen
molecular function| manganese ion transporter activity | inferred from mutant phenotype|GO:0005384//molecular function| inorganic phosph
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| ferric-enterobactin transporter activity | inferred from mutant phenotype|GO:0015620//cellular component| cytoplasmic v
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic small ribosom
molecular function| phosphatidylinositol 3-kinase activity | traceable author statement|GO:0016303//molecular function| protein binding | infe
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic small ribosom
molecular function| protein kinase activity | inferred from sequence similarity|GO:0004672//cellular component| bud neck | inferred from dire
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
cellular component| extrinsic to plasma membrane, GPI-anchored | inferred from direct assay|GO:0046658//cellular component| membrane
NA
NA
molecular function| protein kinase activity | inferred from sequence similarity|GO:0004672//biological process| cation homeostasis | inferred
molecular function| amino acid binding | inferred from mutant phenotype|GO:0016597//molecular function| amino acid binding | inferred from
NA
molecular function| peptidyl-prolyl cis-trans isomerase activity | inferred from direct assay|GO:0003755//cellular component| histone deacety
NA
molecular function| GTPase activity | inferred from sequence similarity|GO:0003924//cellular component| nucleolus | inferred from direct ass
molecular function| nicotinate-nucleotide adenylyltransferase activity | inferred from sequence similarity|GO:0004515//molecular function| nic
molecular function| protein kinase activity | inferred from sequence similarity|GO:0004672//cellular component| cytoplasm | inferred from dire
molecular function| manganese-transporting ATPase activity | inferred from direct assay|GO:0015410//molecular function| calcium-transport
molecular function| homoserine dehydrogenase activity | inferred from sequence similarity|GO:0004412//molecular function| homoserine de
molecular function| phosphoglycerate mutase activity | inferred from mutant phenotype|GO:0004619//cellular component| cytosol | traceable
NA
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic small ribosom
molecular function| mRNA binding | inferred from direct assay|GO:0003729//cellular component| cytoplasm | inferred from direct assay|GO:0
molecular function| IMP dehydrogenase activity | traceable author statement|GO:0003938//cellular component| cytoplasm | inferred from dir
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
biological process| sporulation (sensu Fungi) | inferred from expression pattern|GO:0030437
molecular function| dihydrokaempferol 4-reductase activity | inferred from sequence similarity|GO:0045552
NA
molecular function| ATPase activity | inferred from sequence similarity|GO:0016887//cellular component| endoplasmic reticulum | inferred fro
cellular component| cytoplasm | inferred from direct assay|GO:0005737
cellular component| integral to plasma membrane | inferred from direct assay|GO:0005887//biological process| vacuolar protein catabolism
molecular function| carnitine O-acetyltransferase activity | inferred from sequence similarity|GO:0004092//cellular component| mitochondrion
molecular function| adenosine kinase activity | inferred from mutant phenotype|GO:0004001//molecular function| adenosine kinase activity |
biological process| sporulation (sensu Fungi) | inferred from mutant phenotype|GO:0030437
molecular function| protein binding | traceable author statement|GO:0005515//molecular function| DNA binding | inferred from direct assay |
cellular component| spliceosome complex | inferred from physical interaction|GO:0005681
molecular function| structural constituent of cytoskeleton | inferred from physical interaction|GO:0005200//cellular component| outer plaque
molecular function| glutamate dehydrogenase activity | inferred from sequence similarity|GO:0004352//molecular function| glutamate dehyd
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| cell wall organization and biogenesis | inferred f
cellular component| small nuclear ribonucleoprotein complex | traceable author statement|GO:0030532//cellular component| small nucleolar
NA
molecular function| spermidine transporter activity | inferred from mutant phenotype|GO:0015606//molecular function| spermine transporter
molecular function| RNA polymerase II transcription factor activity | inferred from sequence similarity|GO:0003702//molecular function| RNA
NA
NA
molecular function| specific RNA polymerase II transcription factor activity | inferred from direct assay|GO:0003704//cellular component| nuc
molecular function| RNA helicase activity | inferred from sequence similarity|GO:0003724//cellular component| cytoplasm | inferred from dire
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| DNA binding | traceable author statement|GO:0003677//cellular component| nuclear nucleosome | traceable author state
NA
molecular function| caspase activity | inferred from direct assay|GO:0030693//cellular component| nucleus | inferred from direct assay|GO:0
NA
cellular component| mitochondrion | inferred from direct assay|GO:0005739//biological process| cell cycle | inferred from genetic interaction|
molecular function| Pol II transcription elongation factor activity | inferred from physical interaction|GO:0016944//molecular function| Pol II tra
molecular function| oligosaccharyl transferase activity | inferred from mutant phenotype|GO:0004576//cellular component| endoplasmic retic
molecular function| cytoskeletal protein binding | inferred from physical interaction|GO:0008092//cellular component| contractile ring (sensu
molecular function| electron transporter activity | traceable author statement|GO:0005489//cellular component| microsome | inferred from dir
molecular function| C-terminal protein carboxyl methyltransferase activity | inferred from sequence similarity|GO:0003880//cellular compone
NA
NA
molecular function| enzyme regulator activity | inferred from direct assay|GO:0030234//cellular component| DNA-directed RNA polymerase I
NA
cellular component| membrane fraction | inferred from direct assay|GO:0005624
NA
NA
molecular function| cystathionine beta-synthase activity | inferred from direct assay|GO:0004122//cellular component| cytoplasm | inferred fr
molecular function| glycolipid mannosyltransferase activity | traceable author statement|GO:0004376//cellular component| endoplasmic retic
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| bud site selection | inferred from mutant phenotyp
molecular function| ubiquinone biosynthesis methyltransferase activity | inferred from sequence similarity|GO:0008425//molecular function| u
cellular component| lipid particle | inferred from direct assay|GO:0005811
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
cellular component| integral to membrane | inferred from direct assay|GO:0016021//cellular component| endoplasmic reticulum | inferred fro
molecular function| alpha DNA polymerase activity | traceable author statement|GO:0003889//cellular component| alpha DNA polymerase:p
molecular function| ubiquitin-protein ligase activity | inferred from direct assay|GO:0004842//molecular function| ubiquitin conjugating enzym
molecular function| structural constituent of cytoskeleton | inferred from mutant phenotype|GO:0005200//cellular component| spindle pole bo
molecular function| MAP kinase activity | traceable author statement|GO:0004707//cellular component| shmoo tip | inferred from direct assa
NA
cellular component| endoplasmic reticulum membrane | inferred from direct assay|GO:0005789//cellular component| endoplasmic reticulum
NA
molecular function| amino acid transporter activity | inferred from direct assay|GO:0015171//cellular component| plasma membrane | inferre
molecular function| flavin reductase activity | inferred from direct assay|GO:0042602//molecular function| chorismate synthase activity | trace
cellular component| nucleolus | traceable author statement|GO:0005730//biological process| regulation of meiosis | traceable author statem
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//cellular component| nuclear membrane | inferred from
molecular function| transcriptional activator activity | traceable author statement|GO:0016563//molecular function| transcription corepressor
molecular function| arsenite transporter activity | inferred from sequence similarity|GO:0015105//molecular function| arsenite transporter act
molecular function| oxysterol binding | inferred from sequence similarity|GO:0008142//biological process| steroid biosynthesis | inferred from
cellular component| cytoplasm | inferred from direct assay|GO:0005737
NA
cellular component| mitochondrion | inferred from direct assay|GO:0005739
molecular function| ATPase activity | inferred from sequence similarity|GO:0016887//cellular component| peroxisome | inferred from direct a
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783
molecular function| transferase activity | inferred from mutant phenotype|GO:0016740//cellular component| integral to endoplasmic reticulum
molecular function| GTPase activity | inferred from sequence similarity|GO:0003924//molecular function| GTPase activity | inferred from mut
molecular function| protein binding | inferred from direct assay|GO:0005515//cellular component| actin cortical patch (sensu Fungi) | inferred
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
NA
NA
molecular function| pheromone activity | traceable author statement|GO:0005186//cellular component| extracellular | traceable author statem
molecular function| protein tyrosine phosphatase activity | inferred from direct assay|GO:0004725//cellular component| cytoplasm | inferred
cellular component| cytoplasmic microtubule | inferred from direct assay|GO:0005881//cellular component| cytoplasm | inferred from direct a
biological process| sporulation (sensu Fungi) | inferred from mutant phenotype|GO:0030437
NA
molecular function| telomeric DNA binding | inferred from direct assay|GO:0042162//cellular component| nuclear telomere cap complex | inf
cellular component| cell cortex | inferred from direct assay|GO:0005938//biological process| actin filament organization | inferred from physic
molecular function| peptide alpha-N-acetyltransferase activity | inferred from physical interaction|GO:0004596//molecular function| peptide a
NA
molecular function| phosphoinositide binding | inferred from direct assay|GO:0035091//cellular component| cytosol | inferred from direct ass
molecular function| Rab GTPase activator activity | inferred from direct assay|GO:0005097//cellular component| bud tip | inferred from direct
molecular function| thymidylate synthase activity | inferred from direct assay|GO:0004799//cellular component| nucleus | inferred from direct
NA
NA
cellular component| mitochondrial membrane | traceable author statement|GO:0005740//biological process| protein complex assembly | trac
molecular function| URM1 activating enzyme activity | inferred from direct assay|GO:0042292//cellular component| cytoplasm | inferred from
molecular function| dihydrokaempferol 4-reductase activity | inferred from sequence similarity|GO:0045552//molecular function| oxidoreduct
cellular component| soluble fraction | inferred from direct assay|GO:0005625
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
cellular component| cytoplasm | inferred from direct assay|GO:0005737
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| superoxide dismutase copper chaperone activity | inferred from sequence similarity|GO:0016532//molecular function| su
molecular function| transferase activity, transferring hexosyl groups | inferred from mutant phenotype|GO:0016758//cellular component| end
molecular function| protein binding | inferred from direct assay|GO:0005515//cellular component| endosome | inferred from physical interact
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| protein kinase activator activity | inferred from direct assay|GO:0030295//cellular component| cytoplasm | inferred from d
molecular function| RNA polymerase II transcription factor activity | inferred from direct assay|GO:0003702//cellular component| nucleus | in
molecular function| enzyme activator activity | inferred from mutant phenotype|GO:0008047//cellular component| vacuole | inferred from dire
molecular function| ATPase activity, coupled to transmembrane movement of substances | inferred from sequence similarity|GO:0042626//c
cellular component| nucleolus | inferred from direct assay|GO:0005730
NA
NA
molecular function| endopeptidase activity | traceable author statement|GO:0004175//cellular component| proteasome core complex, alpha-
molecular function| phospholipid-translocating ATPase activity | inferred from sequence similarity|GO:0004012//cellular component| plasma
cellular component| transcription export complex | inferred from physical interaction|GO:0000346//biological process| mRNA-nucleus export
NA
molecular function| GTP binding | inferred from sequence similarity|GO:0005525//cellular component| cytoplasm | inferred from direct assay
cellular component| cytoplasm | inferred from direct assay|GO:0005737
NA
molecular function| endonuclease activity | inferred from direct assay|GO:0004519//molecular function| transcription coactivator activity | infe
molecular function| glutamate-5-semialdehyde dehydrogenase activity | inferred from genetic interaction|GO:0004350//molecular function| g
molecular function| RNA binding | inferred from direct assay|GO:0003723//cellular component| transcription export complex | inferred from p
molecular function| sphingosine-1-phosphate phosphatase activity | inferred from direct assay|GO:0042392//cellular component| endoplasm
NA
molecular function| uracil DNA N-glycosylase activity | inferred from direct assay|GO:0004844//cellular component| mitochondrion | inferred
molecular function| voltage-dependent ion-selective channel activity | inferred from sequence similarity|GO:0008308//molecular function| vo
NA
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
biological process| cell wall organization and biogenesis | inferred from mutant phenotype|GO:0007047
molecular function| microtubule motor activity | traceable author statement|GO:0003777//cellular component| spindle microtubule | traceable
molecular function| D-arabinose 1-dehydrogenase [NAD(P)+] activity | inferred from direct assay|GO:0045290//molecular function| aldo-keto
NA
molecular function| protein serine/threonine kinase activity | inferred from sequence similarity|GO:0004674//cellular component| nucleus | in
molecular function| succinate-semialdehyde dehydrogenase [NAD(P)+] activity | inferred from sequence similarity|GO:0009013//molecular f
molecular function| structural molecule activity | inferred from mutant phenotype|GO:0005198//cellular component| proteasome regulatory p
molecular function| snoRNA binding | inferred from physical interaction|GO:0030515//cellular component| small nucleolar ribonucleoprotein
molecular function| nicotinate phosphoribosyltransferase activity | inferred from direct assay|GO:0004516//cellular component| nucleus | infe
NA
cellular component| vacuolar membrane (sensu Fungi) | inferred from direct assay|GO:0000329
molecular function| endopeptidase activity | traceable author statement|GO:0004175//cellular component| proteasome core complex, beta-s
NA
molecular function| S-methylmethionine transporter activity | inferred from sequence similarity|GO:0000100//molecular function| S-methylme
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| structural constituent of cytoskeleton | inferred from physical interaction|GO:0005200//molecular function| microtubule m
molecular function| pseudouridylate synthase activity | inferred from direct assay|GO:0004730//cellular component| mitochondrion | inferred
NA
NA
molecular function| pyruvate kinase activity | inferred from mutant phenotype|GO:0004743//cellular component| cytosol | traceable author st
molecular function| ATPase activity, coupled to transmembrane movement of substances | inferred from sequence similarity|GO:0042626//c
molecular function| translation initiation factor activity | traceable author statement|GO:0003743//cellular component| eukaryotic translation i
NA
molecular function| succinate dehydrogenase (ubiquinone) activity | traceable author statement|GO:0008177//molecular function| succinate
molecular function| MAP kinase activity | inferred from sequence similarity|GO:0004707//cellular component| nucleus | inferred from direct a
NA
molecular function| phosphoribosylaminoimidazolesuccinocarboxamide synthase activity | inferred from direct assay|GO:0004639//cellular c
NA
cellular component| vacuolar membrane | inferred from direct assay|GO:0005774//biological process| vacuole fusion, non-autophagic | infer
cellular component| late endosome | inferred from direct assay|GO:0005770//biological process| late endosome to vacuole transport | inferre
molecular function| histone deacetylase activity | traceable author statement|GO:0004407//molecular function| histone deacetylase activity |
cellular component| integral to peroxisomal membrane | inferred from direct assay|GO:0005779//biological process| peroxisome organizatio
NA
molecular function| trans-hexaprenyltranstransferase activity | inferred from mutant phenotype|GO:0000010//cellular component| mitochond
molecular function| structural constituent of cytoskeleton | inferred from physical interaction|GO:0005200//cellular component| condensed nu
NA
molecular function| phosphoribosylglycinamide formyltransferase activity | traceable author statement|GO:0004644//cellular component| cyt
cellular component| nucleosome remodeling complex | inferred from physical interaction|GO:0005679//biological process| chromatin remode
NA
NA
NA
molecular function| cytochrome-c peroxidase activity | inferred from mutant phenotype|GO:0004130//cellular component| mitochondrial inter
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| vacuole (sensu Fungi) | inferred from direct as
molecular function| signal transducer activity | inferred from sequence similarity|GO:0004871//molecular function| GTPase activity | inferred
cellular component| cytoplasm | inferred from direct assay|GO:0005737
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//cellular component| cytoplasm | inferred from direct as
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| transcriptional activator activity | traceable author statement|GO:0016563//molecular function| DNA binding | inferred fro
cellular component| peroxisome | inferred from direct assay|GO:0005777
molecular function| phospholipid binding | inferred from sequence similarity|GO:0005543//cellular component| bud neck | inferred from direc
cellular component| soluble fraction | inferred from direct assay|GO:0005625
cellular component| small nuclear ribonucleoprotein complex | traceable author statement|GO:0030532//cellular component| small nucleolar
molecular function| protein-tyrosine kinase activity | inferred from mutant phenotype|GO:0004713//molecular function| protein-tyrosine kinas
molecular function| protein binding | inferred from sequence similarity|GO:0005515//cellular component| ubiquitin ligase complex | inferred fr
molecular function| transporter activity | inferred from sequence similarity|GO:0005215//cellular component| membrane | inferred from seque
molecular function| actin monomer binding | traceable author statement|GO:0003785//cellular component| actin cap (sensu Fungi) | inferred
molecular function| rRNA binding | inferred from sequence similarity|GO:0019843//cellular component| nucleolus | inferred from direct assay
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| phosphate transporter activity | traceable author statement|GO:0015114//molecular function| phosphate transporter activ
molecular function| chromatin binding | inferred from direct assay|GO:0003682//cellular component| nuclear chromatin | inferred from direct
cellular component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277
cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| negative regulation of transcription from Pol III pro
molecular function| cystathionine beta-lyase activity | inferred from sequence similarity|GO:0004121//cellular component| cytoplasm | inferre
cellular component| Golgi transport complex | inferred from physical interaction|GO:0017119//biological process| intra-Golgi transport | infer
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
NA
NA
molecular function| dolichyl-diphosphooligosaccharide-protein glycotransferase activity | inferred from physical interaction|GO:0004579//cell
NA
NA
cellular component| mitochondrion | inferred from direct assay|GO:0005739//cellular component| cytoplasm | inferred from direct assay |GO
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| general RNA polymerase II transcription factor activity | traceable author statement|GO:0016251//cellular component| tra
molecular function| structural constituent of cytoskeleton | traceable author statement|GO:0005200//cellular component| Arp2/3 protein com
NA
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//molecular function| RNA binding | inferred
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
cellular component| plasma membrane | inferred from mutant phenotype|GO:0005886//cellular component| plasma membrane | inferred fro
cellular component| mitochondrion | inferred from direct assay|GO:0005739
molecular function| anthranilate phosphoribosyltransferase activity | inferred from sequence similarity|GO:0004048//cellular component| cyto
NA
molecular function| transcription regulator activity | inferred from sequence similarity|GO:0030528//molecular function| transcription regulato
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783
cellular component| vacuolar membrane (sensu Fungi) | inferred from direct assay|GO:0000329
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| mitochondrial processing peptidase activity | inferred from direct assay|GO:0004240//cellular component| mitochondrial
cellular component| integral to membrane | inferred from sequence similarity|GO:0016021
molecular function| thiol oxidase activity | inferred from direct assay|GO:0016972//cellular component| microsome | inferred from direct assa
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| chromatin binding | inferred from physical interaction|GO:0003682//cellular component| chromatin remodeling complex |
molecular function| hydrogen-transporting ATPase activity, rotational mechanism | traceable author statement|GO:0046961//cellular compon
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| spore wall assembly (sensu Fungi) | inferred fro
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| protein carrier activity | traceable author statement|GO:0008320//cellular component| cytoplasm | inferred from direct as
NA
molecular function| ATP-dependent RNA helicase activity | traceable author statement|GO:0004004//cellular component| nucleolar preribos
molecular function| alpha-1,2-mannosyltransferase activity | inferred from genetic interaction|GO:0000026//cellular component| membrane |
molecular function| signal sequence binding | inferred from sequence similarity|GO:0005048
molecular function| DNA binding | inferred from direct assay|GO:0003677//cellular component| nucleus | inferred from physical interaction|G
cellular component| endosome | inferred from direct assay|GO:0005768
molecular function| structural constituent of cell wall | inferred from physical interaction|GO:0005199//cellular component| cell wall (sensu Fu
molecular function| protein binding, bridging | inferred from physical interaction|GO:0030674//molecular function| protein binding, bridging | i
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| leucine-tRNA ligase activity | inferred from direct assay|GO:0004823//cellular component| cytoplasm | inferred from direc
molecular function| structural constituent of cytoskeleton | traceable author statement|GO:0005200//cellular component| actin cable (sensu
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
cellular component| condensed nuclear chromosome kinetochore | inferred from physical interaction|GO:0000778//biological process| chrom
cellular component| cell wall (sensu Fungi) | inferred from sequence similarity|GO:0009277
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//molecular function| RNA binding | inferred
molecular function| glutamate dehydrogenase (NADP+) activity | inferred from direct assay|GO:0004354//cellular component| cytoplasm | in
molecular function| amino acid transporter activity | inferred from direct assay|GO:0015171//cellular component| plasma membrane | inferre
molecular function| electron transporter activity | inferred from sequence similarity|GO:0005489//cellular component| cytoplasm | inferred fro
NA
molecular function| pyrophosphatase activity | inferred from direct assay|GO:0016462//cellular component| integral to endoplasmic reticulum
NA
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic small ribosom
molecular function| AMP binding | inferred from sequence similarity|GO:0016208//cellular component| peroxisomal matrix | inferred from dire
molecular function| 3'-5'-exoribonuclease activity | traceable author statement|GO:0000175//cellular component| cytoplasmic exosome (RNa
molecular function| phosphopantothenate-cysteine ligase activity | inferred from sequence similarity|GO:0004632//cellular component| cytop
cellular component| nucleolus | inferred from direct assay|GO:0005730//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| uridine diphosphatase activity | inferred from direct assay|GO:0045134//molecular function| guanosine-diphosphatase ac
molecular function| structural constituent of ribosome | inferred from sequence similarity|GO:0003735//cellular component| mitochondrial rib
molecular function| pyridoxal phosphate binding | inferred from direct assay|GO:0030170//molecular function| alanine racemase activity | inf
molecular function| protein transporter activity | traceable author statement|GO:0008565//molecular function| protein binding | inferred from
molecular function| nucleoside transporter activity | inferred from direct assay|GO:0005337//cellular component| membrane | inferred from d
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| peptide alpha-N-acetyltransferase activity | inferred from sequence similarity|GO:0004596//cellular component| cytoplas
molecular function| phosphatase activator activity | inferred from physical interaction|GO:0019211//molecular function| phosphatase activato
molecular function| metal ion transporter activity | inferred from sequence similarity|GO:0046873//cellular component| cytosol | inferred from
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//biological process| phospholipid metabolism | inferred
NA
molecular function| amino-acid N-acetyltransferase activity | inferred from direct assay|GO:0004042//biological process| host-pathogen inter
molecular function| cytoskeletal regulatory protein binding | inferred from physical interaction|GO:0005519//cellular component| actin cap (se
molecular function| choline transporter activity | inferred from mutant phenotype|GO:0015220//cellular component| integral to plasma memb
molecular function| cytoskeletal protein binding | inferred from physical interaction|GO:0008092//cellular component| contractile ring (sensu
cellular component| integral to membrane | inferred from sequence similarity|GO:0016021//cellular component| cell cortex | inferred from dir
molecular function| ubiquitin conjugating enzyme activity | inferred from physical interaction|GO:0004840//molecular function| ubiquitin conju
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| dolichyl-diphosphooligosaccharide-protein glycotransferase activity | inferred from physical interaction|GO:0004579//cell
cellular component| membrane | non-traceable author statement|GO:0016020
molecular function| transcription factor activity | inferred from sequence similarity|GO:0003700//cellular component| nucleus | inferred from s
molecular function| structural constituent of cytoskeleton | inferred from physical interaction|GO:0005200//cellular component| condensed nu
cellular component| mitochondrion | inferred from direct assay|GO:0005739
molecular function| hydrogen-transporting ATPase activity, rotational mechanism | traceable author statement|GO:0046961//cellular compon
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
cellular component| integral to membrane | inferred from sequence similarity|GO:0016021//biological process| ubiquitin-dependent protein c
molecular function| RNA helicase activity | inferred from direct assay|GO:0003724//cellular component| cytoplasm | inferred from curator|GO
NA
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic small ribosom
cellular component| septin ring | traceable author statement|GO:0005940//cellular component| bud neck | traceable author statement |GO:0
biological process| DNA repair | inferred from mutant phenotype|GO:0006281//biological process| DNA repair | inferred from genetic interac
NA
NA
NA
molecular function| GTPase activity | traceable author statement|GO:0003924//biological process| sporulation (sensu Fungi) | inferred from
biological process| cell cycle arrest in response to pheromone | inferred from physical interaction|GO:0000751//biological process| cell cycle
NA
molecular function| hydrogen-transporting ATPase activity, rotational mechanism | traceable author statement|GO:0046961//cellular compon
NA
cellular component| membrane | inferred from sequence similarity|GO:0016020//cellular component| bud neck | inferred from direct assay |G
NA
NA
cellular component| mitochondrial intermembrane space | inferred from direct assay|GO:0005758//biological process| iron ion transport | infe
molecular function| NAD-independent histone deacetylase activity | inferred from physical interaction|GO:0045129//molecular function| NAD
molecular function| RNA binding | inferred from direct assay|GO:0003723//cellular component| nucleolus | inferred from direct assay|GO:000
cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| rRNA processing | inferred from mutant phenotype
molecular function| monocarboxylic acid transporter activity | inferred from mutant phenotype|GO:0008028//molecular function| monocarbox
molecular function| nicotinamide-nucleotide adenylyltransferase activity | inferred from direct assay|GO:0000309//cellular component| cytop
molecular function| biotin carboxylase activity | inferred from sequence similarity|GO:0004075//molecular function| biotin carboxylase activity
molecular function| translation initiation factor activity | inferred from direct assay|GO:0003743//cellular component| eukaryotic translation in
NA
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| clathrin binding | traceable author statement|GO:0030276//cellular component| actin cortical patch (sensu Fungi) | inferre
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| pre-mRNA splicing factor activity | traceable author statement|GO:0008248//molecular function| ATP-dependent RNA he
molecular function| 3-hydroxyisobutyryl-CoA hydrolase activity | inferred from direct assay|GO:0003860//cellular component| mitochondrion
molecular function| GTP binding | inferred from sequence similarity|GO:0005525//cellular component| contractile ring (sensu Saccharomyce
molecular function| osmosensor activity | inferred from mutant phenotype|GO:0005034//cellular component| integral to plasma membrane |
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
NA
molecular function| phenylalanine-tRNA ligase activity | inferred from sequence similarity|GO:0004826//molecular function| phenylalanine-tR
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//molecular function| peptidyltransferase acti
molecular function| structural constituent of cytoskeleton | traceable author statement|GO:0005200//molecular function| actin binding | trace
cellular component| clathrin-coated vesicle | inferred from direct assay|GO:0030136//biological process| bud site selection | inferred from mu
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| monocarboxylic acid transporter activity | inferred from mutant phenotype|GO:0008028//molecular function| monocarbox
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic small ribosom
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
NA
NA
molecular function| nonselective cation channel activity | inferred from direct assay|GO:0015281//molecular function| sodium channel activit
molecular function| ARF GTPase activator activity | inferred from sequence similarity|GO:0008060//molecular function| ARF GTPase activat
NA
cellular component| membrane fraction | inferred from direct assay|GO:0005624//biological process| autophagy | inferred from mutant phen
molecular function| mevalonate kinase activity | traceable author statement|GO:0004496//cellular component| cytosol | traceable author stat
cellular component| small nuclear ribonucleoprotein complex | traceable author statement|GO:0030532//cellular component| small nucleolar
molecular function| cystathionine beta-lyase activity | inferred from sequence similarity|GO:0004121//biological process| copper ion homeos
molecular function| Rho GTPase activator activity | inferred from direct assay|GO:0005100//molecular function| signal transducer activity | in
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| pseudohyphal growth | inferred from mutant phe
NA
molecular function| nonselective cation channel activity | inferred from direct assay|GO:0015281//molecular function| sodium channel activit
molecular function| tRNA-intron endonuclease activity | traceable author statement|GO:0000213//cellular component| mitochondrial outer m
NA
NA
molecular function| transporter activity | inferred from sequence similarity|GO:0005215//cellular component| mitochondrial inner membrane |
molecular function| mannose transporter activity | inferred from genetic interaction|GO:0015578//molecular function| glucose transporter act
cellular component| mitochondrial inner membrane | inferred from direct assay|GO:0005743//biological process| protein complex assembly
cellular component| cytoplasm | inferred from direct assay|GO:0005737
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| importin-alpha export receptor activity | inferred from sequence similarity|GO:0008262//molecular function| importin-alph
cellular component| chromatin remodeling complex | inferred from physical interaction|GO:0016585//cellular component| nucleus | inferred f
NA
molecular function| protein serine/threonine kinase activity | traceable author statement|GO:0004674//cellular component| bud neck | inferre
NA
molecular function| trehalose-phosphatase activity | inferred from mutant phenotype|GO:0004805//cellular component| alpha,alpha-trehalos
cellular component| plasma membrane | inferred from direct assay|GO:0005886//biological process| response to drug | inferred from mutan
molecular function| zinc ion transporter activity | inferred from sequence similarity|GO:0005385//molecular function| zinc ion transporter activ
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| general RNA polymerase II transcription factor activity | traceable author statement|GO:0016251//cellular component| tra
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| protein binding, bridging | inferred from physical interaction|GO:0030674//molecular function| cytoskeletal protein binding
cellular component| AP-3 adaptor complex | inferred from sequence similarity|GO:0030123//biological process| Golgi to vacuole transport | i
molecular function| carboxylic ester hydrolase activity | inferred from genetic interaction|GO:0016789//cellular component| integral to membr
NA
cellular component| integral to membrane | inferred from sequence similarity|GO:0016021//biological process| conjugation with cellular fusio
molecular function| cysteine-type endopeptidase activity | inferred from direct assay|GO:0004197//cellular component| spindle | inferred from
molecular function| ATP binding | traceable author statement|GO:0005524//molecular function| asparagine-tRNA ligase activity | inferred fro
molecular function| 6-phosphogluconolactonase activity | inferred from sequence similarity|GO:0017057//cellular component| cytoplasm | inf
molecular function| kinase activity | inferred from sequence similarity|GO:0016301//molecular function| kinase activity | inferred from direct a
cellular component| COPI-coated vesicle | inferred from direct assay|GO:0030137//cellular component| Golgi apparatus | inferred from direc
NA
molecular function| DNA binding | inferred from direct assay|GO:0003677//cellular component| nuclear chromosome | inferred from physical
molecular function| adenylate kinase activity | traceable author statement|GO:0004017//cellular component| mitochondrial intermembrane s
cellular component| mitochondrion | inferred from direct assay|GO:0005739
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| long-chain-fatty-acid-CoA ligase activity | inferred from direct assay|GO:0004467//biological process| lipid metabolism | i
NA
molecular function| --- | traceable author statement|GO:0051082//cellular component| cytoskeleton | traceable author statement|GO:000585
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//molecular function| RNA binding | inferred
molecular function| protein-tyrosine kinase activity | inferred from mutant phenotype|GO:0004713//molecular function| protein-tyrosine kinas
molecular function| zinc ion binding | inferred from direct assay|GO:0008270//molecular function| guanyl-nucleotide exchange factor activity
NA
molecular function| protein binding | inferred from physical interaction|GO:0005515//molecular function| protein kinase activity | inferred from
NA
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic small ribosom
cellular component| nucleus | inferred from direct assay|GO:0005634
molecular function| hydrogen-transporting ATP synthase activity, rotational mechanism | inferred from sequence similarity|GO:0046933//mo
molecular function| ammonium transporter activity | inferred from sequence similarity|GO:0008519//molecular function| ammonium transpor
NA
molecular function| transcriptional activator activity | inferred from mutant phenotype|GO:0016563//cellular component| endoplasmic reticulu
molecular function| 1-phosphatidylinositol-3-phosphate 5-kinase activity | inferred from direct assay|GO:0000285//cellular component| vacuo
molecular function| DNA binding | inferred from direct assay|GO:0003677//cellular component| condensed nuclear chromosome kinetochore
cellular component| nucleolar preribosome, large subunit precursor | inferred from direct assay|GO:0030687//cellular component| nucleolus
molecular function| peroxisome targeting sequence binding | non-traceable author statement|GO:0000268//cellular component| peroxisoma
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
cellular component| mitochondrion | inferred from direct assay|GO:0005739
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//molecular function| RNA binding | inferred
cellular component| nucleosome remodeling complex | inferred from physical interaction|GO:0005679//biological process| sister chromatid c
molecular function| DNA-directed RNA polymerase activity | traceable author statement|GO:0003899//cellular component| DNA-directed RN
cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| negative regulation of DNA transposition | inferred
molecular function| histone deacetylase activity | inferred from direct assay|GO:0004407//cellular component| bud neck | inferred from direc
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783
cellular component| clathrin-coated vesicle | inferred from direct assay|GO:0030136
molecular function| alcohol dehydrogenase activity | traceable author statement|GO:0004022//cellular component| cytosol | traceable author
cellular component| CCR4-NOT complex | inferred from physical interaction|GO:0030014//biological process| regulation of transcription from
molecular function| ATPase activity | inferred from direct assay|GO:0016887//molecular function| translation elongation factor activity | inferr
cellular component| clathrin-coated vesicle | inferred from direct assay|GO:0030136
molecular function| cytidine deaminase activity | inferred from direct assay|GO:0004126//cellular component| cytoplasm | inferred from direc
cellular component| nucleus | inferred from direct assay|GO:0005634
NA
molecular function| carnitine transporter activity | inferred from direct assay|GO:0015226//molecular function| amino acid transporter activity
molecular function| SNAP receptor activity | inferred from sequence similarity|GO:0005484//molecular function| SNAP receptor activity | infe
molecular function| aspartic-type endopeptidase activity | inferred from sequence similarity|GO:0004190//cellular component| endoplasmic r
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783
NA
molecular function| protein transporter activity | traceable author statement|GO:0008565//cellular component| mitochondrial inner membrane
molecular function| phosphatidylinositol binding | inferred from direct assay|GO:0005545//molecular function| structural constituent of cytosk
NA
molecular function| specific RNA polymerase II transcription factor activity | inferred from mutant phenotype|GO:0003704//cellular componen
cellular component| membrane | inferred from direct assay|GO:0016020//biological process| membrane organization and biogenesis | inferr
molecular function| protein-tyrosine kinase activity | inferred from mutant phenotype|GO:0004713//molecular function| protein-tyrosine kinas
NA
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
cellular component| cytoplasm | inferred from direct assay|GO:0005737
NA
molecular function| RNA polymerase II transcription mediator activity | inferred from physical interaction|GO:0016455//cellular component| m
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737
NA
molecular function| 2-deoxyglucose-6-phosphatase activity | inferred from direct assay|GO:0003850//cellular component| cytoplasm | inferre
NA
molecular function| serine-type endopeptidase activity | inferred from direct assay|GO:0004252//cellular component| Golgi trans face | inferr
NA
molecular function| mannosyltransferase activity | inferred from sequence similarity|GO:0000030//molecular function| mannosyltransferase a
NA
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//molecular function| RNA binding | inferred
molecular function| ribose-phosphate diphosphokinase activity | traceable author statement|GO:0004749//cellular component| cytoplasm | in
molecular function| peptidyl-prolyl cis-trans isomerase activity | inferred from direct assay|GO:0003755//cellular component| mitochondrion |
cellular component| mitochondrial inner membrane | traceable author statement|GO:0005743
molecular function| DNA binding | inferred from direct assay|GO:0003677//cellular component| mitochondrial chromosome | inferred from di
molecular function| ribosomal DNA (rDNA) binding | inferred from direct assay|GO:0000182//cellular component| nucleolus | traceable autho
molecular function| RNA ligase (ATP) activity | inferred from direct assay|GO:0003972//cellular component| nucleoplasm | inferred from dire
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| RNA polymerase II transcription mediator activity | inferred from direct assay|GO:0016455//cellular component| mediato
NA
NA
molecular function| RNA binding | inferred from sequence similarity|GO:0003723//cellular component| cytoplasm | inferred from direct assay
molecular function| DNA-directed RNA polymerase activity | traceable author statement|GO:0003899//cellular component| DNA-directed RN
molecular function| translation elongation factor activity | traceable author statement|GO:0003746//cellular component| ribosome | traceable
cellular component| vacuole (sensu Fungi) | inferred from direct assay|GO:0000324
molecular function| transcription factor activity | inferred from sequence similarity|GO:0003700//cellular component| nucleus | inferred from s
cellular component| coated vesicle | inferred from sequence similarity|GO:0030135//cellular component| COPI vesicle coat | inferred from se
molecular function| transcriptional activator activity | traceable author statement|GO:0016563//cellular component| nucleus | traceable autho
molecular function| general RNA polymerase II transcription factor activity | traceable author statement|GO:0016251//cellular component| SW
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| acylglycerone-phosphate reductase activity | inferred from mutant phenotype|GO:0000140//cellular component| lipid par
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| vacuolar membrane (sensu Fungi) | inferred fro
molecular function| casein kinase I activity | inferred from sequence similarity|GO:0004681//molecular function| casein kinase I activity | infe
molecular function| DNA binding | inferred from direct assay|GO:0003677//cellular component| synaptonemal complex | traceable author sta
cellular component| mitochondrion | inferred from direct assay|GO:0005739//biological process| mitochondrial matrix protein import | inferred
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
NA
NA
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic small ribosom
cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| polar budding | inferred from genetic interaction|G
cellular component| plasma membrane | inferred from direct assay|GO:0005886//biological process| signal transduction | inferred from muta
molecular function| ceramidase activity | inferred from direct assay|GO:0017040//cellular component| endoplasmic reticulum | inferred from
cellular component| mitochondrion | inferred from direct assay|GO:0005739
molecular function| phospholipid binding | inferred from sequence similarity|GO:0005543//cellular component| cytoplasm | inferred from dire
molecular function| --- | traceable author statement|GO:0051082//molecular function| ATPase activity | inferred from direct assay |GO:00168
molecular function| polynucleotide 5'-phosphatase activity | traceable author statement|GO:0004651//cellular component| nucleus | inferred
NA
NA
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//biological process| response to unfolded protein | infer
molecular function| endopeptidase activity | traceable author statement|GO:0004175//cellular component| proteasome core complex, beta-s
NA
molecular function| transcriptional activator activity | traceable author statement|GO:0016563//molecular function| transcriptional activator ac
molecular function| pyruvate decarboxylase activity | traceable author statement|GO:0004737//cellular component| cytoplasm | inferred from
NA
NA
molecular function| ferroxidase activity | inferred from sequence similarity|GO:0004322//molecular function| ferroxidase activity | inferred from
NA
molecular function| ubiquinol-cytochrome-c reductase activity | inferred from direct assay|GO:0008121//cellular component| respiratory chai
NA
molecular function| specific RNA polymerase II transcription factor activity | traceable author statement|GO:0003704//cellular component| nu
molecular function| water channel activity | inferred from sequence similarity|GO:0015250//molecular function| water channel activity | inferre
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| protein binding | inferred from physical interaction|GO:0005515//molecular function| transcription coactivator activity | tra
molecular function| GTPase activator activity | inferred from direct assay|GO:0005096//cellular component| clathrin-coated vesicle | inferred
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//cellular component| integral to membrane of membran
molecular function| protein kinase activity | inferred from sequence similarity|GO:0004672//cellular component| cytoplasm | inferred from dire
NA
molecular function| pseudouridine synthase activity | inferred from direct assay|GO:0009982//cellular component| nucleus | inferred from dir
molecular function| palmitoyltransferase activity | inferred from direct assay|GO:0016409//cellular component| membrane | inferred from dire
NA
NA
molecular function| transcription factor activity | inferred from physical interaction|GO:0003700//molecular function| transcription factor activi
molecular function| Ras guanyl-nucleotide exchange factor activity | traceable author statement|GO:0005088//molecular function| guanyl-nu
biological process| signal transduction | inferred from mutant phenotype|GO:0007165
NA
cellular component| plasma membrane | inferred from direct assay|GO:0005886//cellular component| cytoplasm | inferred from direct assay
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
NA
molecular function| prenyltransferase activity | inferred from sequence similarity|GO:0004659//cellular component| lipid particle | inferred fro
molecular function| histidinol-phosphate transaminase activity | traceable author statement|GO:0004400//cellular component| cell | traceable
NA
molecular function| Pol II transcription elongation factor activity | inferred from physical interaction|GO:0016944//molecular function| Pol II tra
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
cellular component| integral to membrane | inferred from sequence similarity|GO:0016021//biological process| secretory pathway | inferred f
molecular function| protein serine/threonine kinase activity | inferred from direct assay|GO:0004674//cellular component| cytoplasm | inferre
cellular component| bud neck | inferred from direct assay|GO:0005935//biological process| cell wall organization and biogenesis | inferred fr
molecular function| translation initiation factor activity | traceable author statement|GO:0003743//cellular component| eukaryotic translation i
molecular function| phosphatidylserine decarboxylase activity | traceable author statement|GO:0004609//cellular component| vacuolar mem
molecular function| protein tyrosine phosphatase activity | inferred from sequence similarity|GO:0004725//cellular component| cytoplasm | in
cellular component| integral to endoplasmic reticulum membrane | inferred from direct assay|GO:0030176//cellular component| integral to m
NA
molecular function| cobalt ion transporter activity | inferred from mutant phenotype|GO:0015087//molecular function| di-, tri-valent inorganic
cellular component| cytoplasm | inferred from direct assay|GO:0005737
NA
molecular function| receptor signaling protein serine/threonine kinase activity | inferred from sequence similarity|GO:0004702//molecular fun
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| transcriptional activator activity | inferred from mutant phenotype|GO:0016563//molecular function| DNA binding | inferre
molecular function| L-ornithine transporter activity | inferred from direct assay|GO:0000064//cellular component| mitochondrial membrane | i
molecular function| phosphatidate phosphatase activity | inferred from direct assay|GO:0008195//cellular component| membrane | inferred f
biological process| meiosis | inferred from expression pattern|GO:0007126//biological process| DNA metabolism | inferred from genetic inter
NA
NA
molecular function| multidrug transporter activity | inferred from sequence similarity|GO:0015239//molecular function| multidrug transporter a
molecular function| hydrolase activity, acting on carbon-nitrogen (but not peptide) bonds | inferred from sequence similarity|GO:0016810//ce
molecular function| peptidase activity | inferred from direct assay|GO:0008233//cellular component| mitochondrial inner membrane peptidas
molecular function| riboflavin synthase activity | inferred from sequence similarity|GO:0004746//molecular function| riboflavin synthase activi
molecular function| DNA strand annealing activity | inferred from direct assay|GO:0000739//cellular component| nucleus | inferred from direc
molecular function| v-SNARE activity | traceable author statement|GO:0005485//cellular component| vacuolar membrane | traceable author
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//molecular function| RNA binding | inferred
cellular component| mRNA cleavage and polyadenylation specificity factor complex | inferred from physical interaction|GO:0005847//cellular
molecular function| helicase activity | inferred from sequence similarity|GO:0004386//molecular function| DNA helicase activity | inferred from
biological process| meiotic recombination | inferred from mutant phenotype|GO:0007131
molecular function| DNA binding | traceable author statement|GO:0003677//cellular component| nuclear nucleosome | traceable author state
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| delta DNA polymerase activity | traceable author statement|GO:0003891//cellular component| delta DNA polymerase co
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| RNA binding | inferred from sequence similarity|GO:0003723//molecular function| RNA binding | inferred from mutant ph
molecular function| asparagine synthase (glutamine-hydrolyzing) activity | inferred from sequence similarity|GO:0004066//molecular function
molecular function| pre-mRNA splicing factor activity | inferred from mutant phenotype|GO:0008248//cellular component| nucleus | inferred f
cellular component| bud | inferred from direct assay|GO:0005933
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783
NA
molecular function| protein binding, bridging | inferred from physical interaction|GO:0030674//cellular component| actin cortical patch (sensu
NA
NA
molecular function| HDEL sequence binding | inferred from physical interaction|GO:0045015//molecular function| HDEL sequence binding |
molecular function| porphobilinogen synthase activity | inferred from mutant phenotype|GO:0004655//cellular component| cytoplasm | inferre
molecular function| DNA-directed RNA polymerase activity | traceable author statement|GO:0003899//cellular component| DNA-directed RN
molecular function| transketolase activity | inferred from sequence similarity|GO:0004802//cellular component| cytoplasm | inferred from dire
molecular function| protein transporter activity | inferred from direct assay|GO:0008565//cellular component| vesicle coat | inferred from dire
NA
molecular function| protein kinase activity | inferred from sequence similarity|GO:0004672//cellular component| cytoplasm | inferred from dire
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| structural molecule activity | inferred from sequence similarity|GO:0005198//cellular component| mitochondrion | inferred
molecular function| histone lysine N-methyltransferase activity (H3-K4 specific) | inferred from sequence similarity|GO:0042800//molecular f
molecular function| specific RNA polymerase II transcription factor activity | inferred from direct assay|GO:0003704//cellular component| nuc
molecular function| structural molecule activity | traceable author statement|GO:0005198//cellular component| nuclear pore | inferred from d
NA
molecular function| transcription factor binding | inferred from direct assay|GO:0008134//cellular component| nucleus | traceable author state
molecular function| S-adenosylmethionine transporter activity | inferred from sequence similarity|GO:0000095//molecular function| S-adenos
molecular function| cyclin-dependent protein kinase regulator activity | traceable author statement|GO:0016538//cellular component| cyclin-d
molecular function| structural molecule activity | inferred from sequence similarity|GO:0005198//cellular component| condensed nuclear chro
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783
molecular function| cardiolipin synthase activity | inferred from mutant phenotype|GO:0008808//molecular function| cardiolipin synthase activ
NA
molecular function| arginase activity | traceable author statement|GO:0004053//cellular component| cytosol | traceable author statement|GO
molecular function| --- | inferred from physical interaction|GO:0051082//molecular function| --- | inferred from direct assay |GO:0051082//cell
molecular function| translation initiation factor activity | traceable author statement|GO:0003743//cellular component| eukaryotic translation i
molecular function| S-adenosylmethionine-dependent methyltransferase activity | inferred from sequence similarity|GO:0008757//cellular co
molecular function| structural constituent of cytoskeleton | inferred from physical interaction|GO:0005200//cellular component| DASH comple
molecular function| protein binding | inferred from physical interaction|GO:0005515//cellular component| cytoplasm | inferred from direct ass
NA
molecular function| protein kinase activity | inferred from sequence similarity|GO:0004672//molecular function| protein kinase activity | inferre
molecular function| trehalose transporter activity | inferred from direct assay|GO:0015574//molecular function| maltose:hydrogen symporter
molecular function| phosphoglycerate mutase activity | inferred from mutant phenotype|GO:0004619//cellular component| cytosol | traceable
NA
cellular component| septin ring | traceable author statement|GO:0005940//cellular component| bud neck | traceable author statement |GO:0
molecular function| ferric-chelate reductase activity | inferred from sequence similarity|GO:0000293
NA
molecular function| transcription regulator activity | inferred from genetic interaction|GO:0030528//cellular component| late endosome | inferr
cellular component| mitochondrion | inferred from direct assay|GO:0005739
NA
molecular function| sterol 24-C-methyltransferase activity | traceable author statement|GO:0003838//cellular component| lipid particle | infer
molecular function| protein binding, bridging | inferred from physical interaction|GO:0030674//molecular function| protein binding, bridging | i
molecular function| general RNA polymerase II transcription factor activity | traceable author statement|GO:0016251//cellular component| SW
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic small ribosom
molecular function| allantoinase activity | inferred from sequence similarity|GO:0004038//molecular function| allantoinase activity | inferred fr
molecular function| uridine kinase activity | inferred from direct assay|GO:0004849//cellular component| cytoplasm | inferred from direct assa
molecular function| RNA polymerase II transcription mediator activity | inferred from direct assay|GO:0016455//cellular component| nucleus
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| cell wall organization and biogenesis | inferred f
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
cellular component| bud neck | inferred from direct assay|GO:0005935//biological process| bud site selection | inferred from mutant phenoty
NA
molecular function| pre-mRNA splicing factor activity | inferred from physical interaction|GO:0008248//cellular component| small nuclear ribo
NA
molecular function| structural molecule activity | traceable author statement|GO:0005198//cellular component| nuclear pore | inferred from d
cellular component| AP-2 adaptor complex | inferred from sequence similarity|GO:0030122//biological process| vesicle-mediated transport |
NA
NA
NA
NA
molecular function| protein transporter activity | traceable author statement|GO:0008565//cellular component| mitochondrial inner membrane
cellular component| nucleus | inferred from direct assay|GO:0005634
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic small ribosom
cellular component| nucleolus | inferred from direct assay|GO:0005730//cellular component| nuclear membrane | inferred from direct assay
molecular function| peptidyl-prolyl cis-trans isomerase activity | inferred from sequence similarity|GO:0003755//cellular component| endopla
molecular function| mannose transporter activity | traceable author statement|GO:0015578//molecular function| glucose transporter activity |
cellular component| spliceosome complex | inferred from physical interaction|GO:0005681//biological process| nuclear mRNA splicing, via s
molecular function| UDP-galactose transporter activity | inferred from sequence similarity|GO:0005459//biological process| UDP-galactose t
molecular function| transcription coactivator activity | inferred from sequence similarity|GO:0003713//molecular function| transcription coactiv
NA
NA
NA
molecular function| C-8 sterol isomerase activity | traceable author statement|GO:0000247//cellular component| endoplasmic reticulum | trac
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
cellular component| nucleus | inferred from direct assay|GO:0005634
NA
molecular function| structural molecule activity | traceable author statement|GO:0005198//cellular component| clathrin vesicle coat | traceab
cellular component| integral to membrane | inferred from sequence similarity|GO:0016021
molecular function| alpha-1,6-mannosyltransferase activity | inferred from direct assay|GO:0000009//cellular component| mannosyltransfera
molecular function| cytochrome-b5 reductase activity | inferred from direct assay|GO:0004128//cellular component| microsome | inferred fro
molecular function| phosphoric monoester hydrolase activity | inferred from sequence similarity|GO:0016791//cellular component| vacuole (s
NA
NA
NA
molecular function| protein serine/threonine kinase activity | inferred from direct assay|GO:0004674//cellular component| Golgi membrane |
NA
molecular function| t-SNARE activity | traceable author statement|GO:0005486//cellular component| integral to plasma membrane | traceabl
molecular function| ubiquitin-protein ligase activity | inferred from physical interaction|GO:0004842//molecular function| ubiquitin-protein liga
molecular function| v-SNARE activity | traceable author statement|GO:0005485//cellular component| membrane | inferred from direct assay|
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| signal recognition particle binding | inferred from sequence similarity|GO:0005047//molecular function| signal recognition
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| GTPase activator activity | traceable author statement|GO:0005096//cellular component| spindle pole body | inferred from
NA
molecular function| transcriptional activator activity | inferred from mutant phenotype|GO:0016563//cellular component| endoplasmic reticulu
NA
cellular component| TRAPP | inferred from direct assay|GO:0030008//biological process| ER to Golgi transport | inferred from mutant pheno
cellular component| spindle pole body | inferred from direct assay|GO:0005816//cellular component| kinetochore | inferred from direct assay
cellular component| peroxisomal membrane | inferred from direct assay|GO:0005778//biological process| peroxisome organization and biog
molecular function| serine-tRNA ligase activity | inferred from direct assay|GO:0004828//cellular component| cytoplasm | inferred from direct
molecular function| RNA ligase (ATP) activity | inferred from direct assay|GO:0003972//cellular component| nucleoplasm | inferred from dire
cellular component| nucleus | inferred from direct assay|GO:0005634
NA
molecular function| DNA helicase activity | inferred from direct assay|GO:0003678//cellular component| nucleus | inferred from curator|GO:0
molecular function| transcriptional repressor activity | inferred from direct assay|GO:0016564//molecular function| transcriptional activator ac
molecular function| cyclin-dependent protein kinase inhibitor activity | inferred from direct assay|GO:0004861//cellular component| cytoplasm
molecular function| triose-phosphate isomerase activity | inferred from sequence similarity|GO:0004807//molecular function| triose-phospha
molecular function| farnesyl-diphosphate farnesyltransferase activity | traceable author statement|GO:0004310//cellular component| endopla
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| mitochondrial large rib
NA
molecular function| transcription factor activity | traceable author statement|GO:0003700//cellular component| cytoplasm | inferred from direc
molecular function| serine hydrolase activity | inferred from direct assay|GO:0017171//cellular component| lipid particle | inferred from direct
molecular function| sulfite transporter activity | inferred from direct assay|GO:0000319//cellular component| plasma membrane | inferred from
molecular function| specific RNA polymerase II transcription factor activity | inferred from direct assay|GO:0003704//cellular component| nuc
molecular function| osmosensor activity | traceable author statement|GO:0005034//cellular component| shmoo tip | inferred from direct assa
NA
molecular function| actin filament binding | inferred from direct assay|GO:0051015//molecular function| protein binding, bridging | inferred fro
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
cellular component| COPII-coated vesicle | inferred from direct assay|GO:0030138//biological process| ER to Golgi transport | inferred from
cellular component| mitochondrial nucleoid | inferred from direct assay|GO:0042645//cellular component| integral to membrane | inferred fro
molecular function| ATPase activity | inferred from sequence similarity|GO:0016887//cellular component| peroxisome | inferred from sequen
molecular function| Pol II transcription elongation factor activity | inferred from sequence similarity|GO:0016944//molecular function| Pol II tra
NA
cellular component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277//biological process| cell wall organization and biogenes
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
NA
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737
cellular component| vacuolar membrane (sensu Fungi) | inferred from direct assay|GO:0000329
molecular function| transporter activity | inferred from sequence similarity|GO:0005215//cellular component| membrane | inferred from seque
molecular function| DNA-directed RNA polymerase activity | traceable author statement|GO:0003899//cellular component| DNA-directed RN
NA
cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| ribosomal large subunit biogenesis | inferred from
molecular function| 3'-5'-exoribonuclease activity | traceable author statement|GO:0000175//cellular component| cytoplasmic exosome (RNa
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| cleavage/polyadenylation specificity factor activity | traceable author statement|GO:0030364//molecular function| cleava
cellular component| cytoplasm | inferred from direct assay|GO:0005737
NA
molecular function| thiol-disulfide exchange intermediate activity | inferred from sequence similarity|GO:0030508//molecular function| thiol-d
molecular function| rRNA primary transcript binding | inferred from physical interaction|GO:0042134//cellular component| small nuclear ribon
NA
molecular function| glycine dehydrogenase (decarboxylating) activity | inferred from sequence similarity|GO:0004375//molecular function| gl
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
NA
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic small ribosom
cellular component| nuclear envelope-endoplasmic reticulum network | inferred from direct assay|GO:0042175//cellular component| membra
NA
cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| DNA repair | inferred from physical interaction|GO
cellular component| mitochondrial inner membrane | traceable author statement|GO:0005743//cellular component| mitochondrion | inferred
molecular function| Rab interactor activity | inferred from physical interaction|GO:0017137//cellular component| membrane | inferred from se
NA
cellular component| bud tip | inferred from direct assay|GO:0005934
NA
molecular function| cytochrome-c oxidase activity | inferred from direct assay|GO:0004129//cellular component| respiratory chain complex IV
cellular component| bud neck | inferred from direct assay|GO:0005935//cellular component| cytoplasm | inferred from direct assay |GO:0005
NA
molecular function| pyridoxamine-phosphate oxidase activity | inferred from sequence similarity|GO:0004733//molecular function| pyridoxam
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| cyclohydrolase activity | inferred from mutant phenotype|GO:0019238//molecular function| cyclohydrolase activity | inferr
NA
molecular function| transcriptional activator activity | inferred from mutant phenotype|GO:0016563//molecular function| transcriptional activat
NA
molecular function| --- | inferred from direct assay|GO:0051082//molecular function| ATPase activity | inferred from direct assay |GO:001688
NA
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//molecular function| RNA binding | inferred
cellular component| SAGA complex | inferred from direct assay|GO:0000124//biological process| histone acetylation | inferred from physical
molecular function| mannosyltransferase activity | inferred from sequence similarity|GO:0000030//molecular function| mannosyltransferase a
molecular function| transferase activity, transferring phosphorus-containing groups | inferred from direct assay|GO:0016772//cellular compo
cellular component| vacuole (sensu Fungi) | inferred from direct assay|GO:0000324
molecular function| long-chain-fatty-acid-CoA ligase activity | inferred from direct assay|GO:0004467//cellular component| lipid particle | infe
cellular component| cytoplasm | inferred from direct assay|GO:0005737
NA
molecular function| acetyltransferase activity | inferred from direct assay|GO:0016407//molecular function| H3/H4 histone acetyltransferase
molecular function| glycine dehydrogenase (decarboxylating) activity | inferred from sequence similarity|GO:0004375//molecular function| gl
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| cellular morphogenesis | inferred from sequenc
NA
NA
molecular function| peptide alpha-N-acetyltransferase activity | inferred from direct assay|GO:0004596//cellular component| cytoplasm | infe
molecular function| enoyl-[acyl-carrier protein] reductase (NADH) activity | inferred from mutant phenotype|GO:0004318//molecular function|
NA
molecular function| oxoglutarate dehydrogenase (succinyl-transferring) activity | traceable author statement|GO:0004591//cellular componen
molecular function| transcription factor activity | inferred from sequence similarity|GO:0003700//molecular function| transcription factor activi
cellular component| AP-2 adaptor complex | inferred from sequence similarity|GO:0030122//biological process| vesicle-mediated transport |
cellular component| cytosolic ribosome (sensu Eukarya) | inferred from direct assay|GO:0005830//cellular component| cytosol | inferred from
molecular function| oxidoreductase activity | inferred from direct assay|GO:0016491//molecular function| aldo-keto reductase activity | inferre
molecular function| transporter activity | inferred from sequence similarity|GO:0005215//cellular component| mitochondrial outer membrane
molecular function| tetrahydrofolylpolyglutamate synthase activity | inferred from direct assay|GO:0004326//cellular component| mitochondri
cellular component| nucleus | inferred from sequence similarity|GO:0005634//biological process| response to radiation | inferred from mutan
cellular component| vacuole (sensu Fungi) | inferred from direct assay|GO:0000324
NA
NA
NA
NA
NA
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic small ribosom
NA
molecular function| protein disulfide isomerase activity | traceable author statement|GO:0003756//molecular function| protein disulfide isome
molecular function| --- | traceable author statement|GO:0051082//molecular function| --- | inferred from sequence similarity |GO:0051082//m
molecular function| microtubule motor activity | inferred from sequence similarity|GO:0003777//cellular component| kinesin complex | inferre
molecular function| peptidyl-prolyl cis-trans isomerase activity | inferred from sequence similarity|GO:0003755//cellular component| endopla
cellular component| nucleolus | inferred from direct assay|GO:0005730//biological process| ribosome biogenesis | inferred from mutant phen
NA
molecular function| alpha-tubulin binding | inferred from physical interaction|GO:0043014//molecular function| microtubule binding | inferred
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| v-SNARE activity | traceable author statement|GO:0005485//cellular component| integral to membrane | non-traceable a
molecular function| phosphatidylethanolamine N-methyltransferase activity | traceable author statement|GO:0004608//cellular component| e
molecular function| DNA-directed RNA polymerase activity | traceable author statement|GO:0003899//cellular component| DNA-directed RN
NA
molecular function| protein binding | inferred from mutant phenotype|GO:0005515//cellular component| COPI vesicle coat | inferred from seq
NA
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic small ribosom
molecular function| dodecenoyl-CoA delta-isomerase activity | inferred from direct assay|GO:0004165//cellular component| peroxisomal mat
biological process| cell wall organization and biogenesis | inferred from mutant phenotype|GO:0007047
molecular function| ribonucleoprotein binding | inferred from direct assay|GO:0043021//cellular component| cytoplasm | inferred from direct
molecular function| pseudouridylate synthase activity | inferred from direct assay|GO:0004730//cellular component| nucleus | inferred from p
molecular function| DNA helicase activity | inferred from direct assay|GO:0003678//cellular component| nucleus | inferred from curator|GO:0
NA
molecular function| aspartic-type signal peptidase activity | inferred from direct assay|GO:0009049//cellular component| cell wall (sensu Fun
NA
NA
cellular component| nucleus | inferred from direct assay|GO:0005634
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nuclear pore | inferred from direct assay |GO:0
molecular function| nucleotidase activity | inferred from direct assay|GO:0008252//biological process| pyrimidine base metabolism | inferred
molecular function| protein binding | inferred from physical interaction|GO:0005515//molecular function| protein binding | inferred from genet
NA
molecular function| pantothenate kinase activity | inferred from sequence similarity|GO:0004594//cellular component| cytoplasm | inferred fro
molecular function| diphthine synthase activity | inferred from direct assay|GO:0004164//cellular component| cytoplasm | inferred from direct
cellular component| membrane fraction | inferred from direct assay|GO:0005624
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| ATPase activity | inferred from direct assay|GO:0016887//cellular component| chromatin remodeling complex | inferred f
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//molecular function| RNA binding | inferred
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//biological process| meiotic recombination | inferred fro
molecular function| indole-3-glycerol-phosphate synthase activity | inferred from sequence similarity|GO:0004425//molecular function| indole
NA
molecular function| protein binding | inferred from physical interaction|GO:0005515//cellular component| cytoplasm | inferred from direct ass
cellular component| TRAPP | inferred from direct assay|GO:0030008//biological process| meiosis | inferred from mutant phenotype|GO:0007
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
molecular function| DNA-directed RNA polymerase activity | traceable author statement|GO:0003899//cellular component| DNA-directed RN
molecular function| histone binding | traceable author statement|GO:0042393//molecular function| structural constituent of chromatin | tracea
NA
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| thiol oxidase activity | traceable author statement|GO:0016972//cellular component| mitochondrial intermembrane space
NA
molecular function| structural molecule activity | traceable author statement|GO:0005198//cellular component| nuclear pore | inferred from d
molecular function| ATPase activity | inferred from direct assay|GO:0016887//cellular component| nuclear chromosome | inferred from direct
molecular function| multidrug transporter activity | inferred from sequence similarity|GO:0015239
cellular component| mitochondrial matrix | inferred from direct assay|GO:0005759//biological process| iron ion homeostasis | inferred from s
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| glycogen synthase kinase 3 activity | inferred from sequence similarity|GO:0004696//molecular function| glycogen synth
molecular function| protein transporter activity | traceable author statement|GO:0008565//cellular component| Golgi transport complex | infer
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| transcriptional activator activity | inferred from direct assay|GO:0016563//cellular component| cytosol | traceable author s
cellular component| condensed nuclear chromosome | inferred from direct assay|GO:0000794//biological process| synapsis | inferred from m
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic small ribosom
molecular function| AT DNA binding | inferred from direct assay|GO:0003680//cellular component| nucleus | inferred from direct assay|GO:0
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
molecular function| alpha-mannosidase activity | inferred from sequence similarity|GO:0004559//cellular component| vacuolar membrane | in
molecular function| phosphatidylinositol binding | inferred from direct assay|GO:0005545//molecular function| structural constituent of cytosk
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| Gly-X carboxypeptidase activity | traceable author statement|GO:0004226//molecular function| Gly-X carboxypeptidase a
NA
NA
molecular function| glutathione transferase activity | inferred from sequence similarity|GO:0004364//molecular function| glutathione transfera
molecular function| transporter activity | inferred from sequence similarity|GO:0005215//cellular component| mitochondrial inner membrane |
molecular function| 3'-5' exonuclease activity | inferred from sequence similarity|GO:0008408//molecular function| 3'-5' exonuclease activity
NA
cellular component| membrane fraction | inferred from direct assay|GO:0005624
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| structural constituent of cytoskeleton | traceable author statement|GO:0005200//cellular component| Arp2/3 protein com
molecular function| threonine synthase activity | inferred from direct assay|GO:0004795//cellular component| cytoplasm | inferred from direc
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| sulfonate dioxygenase activity | inferred from direct assay|GO:0000907//biological process| sulfur metabolism | inferred
molecular function| tRNA guanylyltransferase activity | inferred from direct assay|GO:0008193//cellular component| cytoplasm | inferred from
NA
NA
molecular function| histone deacetylase activity | traceable author statement|GO:0004407//molecular function| histone deacetylase activity |
NA
NA
molecular function| transporter activity | inferred from sequence similarity|GO:0005215//cellular component| membrane | inferred from seque
NA
cellular component| shmoo tip | inferred from direct assay|GO:0005937//biological process| cellular morphogenesis during conjugation with
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
NA
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//molecular function| RNA binding | inferred
molecular function| GTPase activity | traceable author statement|GO:0003924//cellular component| endoplasmic reticulum membrane | infer
molecular function| protein kinase activator activity | inferred from direct assay|GO:0030295//cellular component| shmoo tip | traceable autho
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| protein deubiquitination | inferred from mutant p
molecular function| glucan 1,3-beta-glucosidase activity | inferred from sequence similarity|GO:0004338//cellular component| cell wall (sens
NA
molecular function| neutral amino acid transporter activity | inferred from sequence similarity|GO:0015175//molecular function| neutral amino
NA
cellular component| mitochondrion | inferred from direct assay|GO:0005739
molecular function| clathrin binding | inferred from sequence similarity|GO:0030276//molecular function| clathrin binding | inferred from phys
NA
molecular function| tricarboxylate carrier activity | inferred from direct assay|GO:0005371//cellular component| mitochondrial inner membran
NA
molecular function| acetate-CoA ligase activity | inferred from direct assay|GO:0003987//cellular component| cytosol | inferred from direct as
molecular function| glucan 1,3-beta-glucosidase activity | inferred from direct assay|GO:0004338//cellular component| cell wall (sensu Fung
molecular function| calcium ion binding | traceable author statement|GO:0005509//cellular component| shmoo tip | inferred from direct assay
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
cellular component| cytoplasm | inferred from direct assay|GO:0005737
NA
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
NA
molecular function| RNA polymerase I transcription factor activity | traceable author statement|GO:0003701//molecular function| ribosomal D
molecular function| xenobiotic-transporting ATPase activity | inferred from mutant phenotype|GO:0008559//cellular component| integral to pl
NA
NA
molecular function| Rho GTPase activator activity | inferred from sequence similarity|GO:0005100//molecular function| Rho GTPase activato
NA
NA
molecular function| --- | inferred from mutant phenotype|GO:0051082//molecular function| --- | inferred from direct assay |GO:0051082//cellu
cellular component| vacuole (sensu Fungi) | inferred from direct assay|GO:0000324
cellular component| clathrin-coated vesicle | inferred from direct assay|GO:0030136//cellular component| cytoplasm | inferred from direct as
molecular function| purine-specific oxidized base lesion DNA N-glycosylase activity | inferred from direct assay|GO:0008534//cellular compo
molecular function| tubulin binding | inferred from direct assay|GO:0015631//cellular component| prefoldin complex | inferred from sequence
molecular function| malate synthase activity | traceable author statement|GO:0004474//cellular component| cytoplasm | inferred from direct
NA
molecular function| ribonuclease III activity | traceable author statement|GO:0004525//cellular component| nucleolus | traceable author state
molecular function| protein serine/threonine kinase activity | inferred from sequence similarity|GO:0004674//cellular component| cytoplasm |
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic small ribosom
NA
molecular function| di-, tri-valent inorganic cation transporter activity | inferred from sequence similarity|GO:0015082//molecular function| di-
NA
NA
NA
molecular function| protein transporter activity | traceable author statement|GO:0008565//molecular function| protein transporter activity | inf
NA
molecular function| ATPase activity | inferred from direct assay|GO:0016887//molecular function| helicase activity | inferred from sequence s
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
cellular component| signalosome complex | traceable author statement|GO:0008180//cellular component| signalosome complex | inferred fr
cellular component| septin ring | traceable author statement|GO:0005940//cellular component| bud neck | traceable author statement |GO:0
molecular function| aldo-keto reductase activity | inferred from sequence similarity|GO:0004033//molecular function| aldehyde reductase act
molecular function| GPI-anchor transamidase activity | inferred from physical interaction|GO:0003923//molecular function| GPI-anchor trans
molecular function| --- | inferred from sequence similarity|GO:0051082//molecular function| protein transporter activity | inferred from physica
molecular function| mannose transporter activity | inferred from genetic interaction|GO:0015578//molecular function| glucose transporter act
NA
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic small ribosom
molecular function| RAN protein binding | inferred from physical interaction|GO:0008536//cellular component| nuclear membrane | inferred f
molecular function| GTPase activity | inferred from sequence similarity|GO:0003924//molecular function| GTPase activity | inferred from phy
NA
cellular component| nucleolus | inferred from direct assay|GO:0005730//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| DNA binding | inferred from physical interaction|GO:0003677//cellular component| GINS complex | inferred from physica
NA
molecular function| protein serine/threonine phosphatase activity | inferred from physical interaction|GO:0004722//cellular component| cytop
NA
molecular function| v-SNARE activity | inferred from mutant phenotype|GO:0005485//cellular component| COPII-coated vesicle | inferred fro
NA
molecular function| alcohol dehydrogenase activity | inferred from direct assay|GO:0004022//cellular component| mitochondrial matrix | infer
molecular function| ribulose-phosphate 3-epimerase activity | inferred from sequence similarity|GO:0004750//molecular function| ribulose-ph
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| hydrogen-transporting ATP synthase activity, rotational mechanism | inferred from physical interaction|GO:0046933//mo
NA
NA
NA
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic small ribosom
molecular function| DNA-directed RNA polymerase activity | traceable author statement|GO:0003899//cellular component| DNA-directed RN
cellular component| nucleus | traceable author statement|GO:0005634
cellular component| vacuolar membrane (sensu Fungi) | inferred from direct assay|GO:0000329
NA
molecular function| transcriptional elongation regulator activity | inferred from genetic interaction|GO:0003711//cellular component| nucleus
NA
molecular function| hydrogen-transporting ATPase activity, rotational mechanism | traceable author statement|GO:0046961//cellular compon
cellular component| mitochondrion | inferred from direct assay|GO:0005739
cellular component| cytoplasm | inferred from direct assay|GO:0005737
cellular component| Golgi membrane | inferred from direct assay|GO:0000139//biological process| Golgi to endosome transport | inferred fro
NA
molecular function| ribonuclease P activity | inferred from direct assay|GO:0004526//molecular function| ribonuclease MRP activity | inferred
NA
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//molecular function| RNA binding | inferred
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| ferric-chelate reductase activity | inferred from direct assay|GO:0000293//cellular component| plasma membrane | inferr
molecular function| hydrolase activity, acting on ester bonds | inferred from direct assay|GO:0016788//cellular component| cytoplasm | inferr
cellular component| mitochondrial matrix | inferred from direct assay|GO:0005759//biological process| aerobic respiration | inferred from mu
molecular function| ubiquitin conjugating enzyme activity | traceable author statement|GO:0004840//cellular component| proteasome comple
molecular function| protein phosphatase type 2A activity | traceable author statement|GO:0000158//cellular component| shmoo tip | inferred
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| ATPase activity | inferred from sequence similarity|GO:0016887//cellular component| nuclear condensin complex | trace
molecular function| transporter activity | inferred from sequence similarity|GO:0005215//cellular component| mitochondrial inner membrane |
molecular function| Ras GTPase activator activity | traceable author statement|GO:0005099//cellular component| membrane | inferred from
NA
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic small ribosom
molecular function| helicase activity | inferred from sequence similarity|GO:0004386//cellular component| cytoplasm | inferred from direct as
molecular function| trans-aconitate 3-methyltransferase activity | inferred from direct assay|GO:0046547//cellular component| cytosol | inferr
biological process| cell wall mannoprotein biosynthesis | inferred from mutant phenotype|GO:0000032
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
NA
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| signal peptidase activity | inferred from sequence similarity|GO:0009003//molecular function| signal peptidase activity | in
molecular function| Rho GTPase activator activity | inferred from direct assay|GO:0005100//cellular component| actin cortical patch (sensu F
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737
NA
NA
cellular component| mitochondrion | inferred from direct assay|GO:0005739//cellular component| cytoplasm | inferred from direct assay |GO
NA
molecular function| pre-mRNA splicing factor activity | traceable author statement|GO:0008248//molecular function| protein binding | inferred
cellular component| lipid particle | inferred from direct assay|GO:0005811//cellular component| endosome | inferred from direct assay |GO:0
molecular function| structural constituent of cytoskeleton | inferred from physical interaction|GO:0005200//cellular component| cytoplasmic m
molecular function| transcription factor activity | traceable author statement|GO:0003700//cellular component| cytoplasm | inferred from direc
NA
NA
molecular function| Ras guanyl-nucleotide exchange factor activity | traceable author statement|GO:0005088//biological process| RAS prote
molecular function| Rho GTPase activator activity | inferred from direct assay|GO:0005100//cellular component| bud neck | inferred from dire
NA
NA
cellular component| integral to membrane | inferred from sequence similarity|GO:0016021//biological process| secretory pathway | inferred f
molecular function| protein tyrosine phosphatase activity | inferred from direct assay|GO:0004725//cellular component| cytoplasm | inferred
NA
NA
cellular component| RSC complex | inferred from direct assay|GO:0016586//biological process| regulation of cell cycle | inferred from physic
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
NA
NA
molecular function| D-erythro-sphingosine kinase activity | inferred from direct assay|GO:0017050//cellular component| Golgi apparatus | inf
molecular function| enzyme activator activity | inferred from direct assay|GO:0008047//cellular component| microsome | inferred from direct
molecular function| --- | inferred from mutant phenotype|GO:0051082//cellular component| nascent polypeptide-associated complex | inferre
NA
NA
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
NA
molecular function| phosphatidylinositol transporter activity | inferred from direct assay|GO:0008526//cellular component| lipid particle | infer
molecular function| low-affinity zinc ion transporter activity | inferred from sequence similarity|GO:0000007//molecular function| low-affinity z
molecular function| anthranilate synthase activity | inferred from sequence similarity|GO:0004049//molecular function| anthranilate synthase
NA
NA
NA
molecular function| protein geranylgeranyltransferase activity | inferred from direct assay|GO:0004661//molecular function| protein farnesyltr
cellular component| integral to plasma membrane | inferred from sequence similarity|GO:0005887//biological process| cell wall organization
NA
molecular function| snoRNA binding | traceable author statement|GO:0030515//cellular component| cytoplasm | inferred from direct assay|G
molecular function| structural constituent of cytoskeleton | inferred from direct assay|GO:0005200//cellular component| DASH complex | infe
molecular function| oxysterol binding | inferred from sequence similarity|GO:0008142//cellular component| cytoplasm | inferred from direct a
molecular function| xenobiotic-transporting ATPase activity | traceable author statement|GO:0008559//cellular component| plasma membran
cellular component| integral to Golgi membrane | inferred from direct assay|GO:0030173//biological process| transport | inferred from physic
cellular component| mitochondrion | inferred from direct assay|GO:0005739
molecular function| nucleoside-diphosphate kinase activity | inferred from sequence similarity|GO:0004550//cellular component| cytosol | inf
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
NA
molecular function| actin filament binding | inferred from direct assay|GO:0051015//molecular function| protein binding, bridging | inferred fro
NA
molecular function| amylo-alpha-1,6-glucosidase activity | inferred from sequence similarity|GO:0004135//molecular function| amylo-alpha-1
molecular function| MAP kinase kinase activity | traceable author statement|GO:0004708//cellular component| shmoo tip | inferred from dire
biological process| replicative cell aging | inferred from mutant phenotype|GO:0001302
NA
NA
molecular function| oxidoreductase activity, acting on NADH or NADPH, disulfide as acceptor | inferred from sequence similarity|GO:001665
molecular function| protein transporter activity | traceable author statement|GO:0008565//molecular function| protein transporter activity | inf
molecular function| DNA binding | inferred from sequence similarity|GO:0003677
molecular function| saccharopine dehydrogenase (NADP+, L-glutamate-forming) activity | traceable author statement|GO:0004755//cellular
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737
NA
molecular function| L-aspartate transporter activity | inferred from direct assay|GO:0015183//molecular function| L-glutamate transporter act
molecular function| ARF guanyl-nucleotide exchange factor activity | inferred from direct assay|GO:0005086//cellular component| cytosol | in
molecular function| ubiquitin-protein ligase activity | inferred from direct assay|GO:0004842//cellular component| late endosome | inferred fro
molecular function| pyruvate decarboxylase activity | traceable author statement|GO:0004737//cellular component| cytoplasm | inferred from
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| potassium ion transporter activity | inferred from sequence similarity|GO:0015079//molecular function| potassium ion tran
molecular function| ATPase activity, coupled to transmembrane movement of substances | inferred from sequence similarity|GO:0042626//c
molecular function| glyceraldehyde-3-phosphate dehydrogenase (phosphorylating) activity | inferred from direct assay|GO:0004365//cellular
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| protein serine/threonine kinase activity | inferred from sequence similarity|GO:0004674//molecular function| protein serin
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
NA
NA
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
NA
molecular function| calcium/calmodulin-dependent protein kinase activity | inferred from direct assay|GO:0004685//cellular component| cyto
molecular function| telomeric DNA binding | inferred from direct assay|GO:0042162//cellular component| nuclear telomere cap complex | inf
molecular function| transcription corepressor activity | inferred from mutant phenotype|GO:0003714//molecular function| transcription corepr
molecular function| dolichol kinase activity | inferred from mutant phenotype|GO:0004168//cellular component| membrane | inferred from dir
molecular function| multidrug efflux pump activity | inferred from mutant phenotype|GO:0015559//cellular component| plasma membrane | in
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783
molecular function| v-SNARE activity | traceable author statement|GO:0005485//cellular component| transport vesicle | traceable author stat
NA
molecular function| Ras GTPase activator activity | inferred from direct assay|GO:0005099//cellular component| cytoplasm | inferred from dir
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737
biological process| protein-vacuolar targeting | inferred from mutant phenotype|GO:0006623
molecular function| saccharopepsin activity | traceable author statement|GO:0004196//molecular function| endopeptidase activity | traceable
molecular function| GTPase activity | traceable author statement|GO:0003924//cellular component| vacuole | inferred from direct assay|GO:
NA
NA
molecular function| phospholipase D activity | inferred from direct assay|GO:0004630//cellular component| endosome | inferred from direct a
NA
molecular function| specific RNA polymerase II transcription factor activity | inferred from direct assay|GO:0003704//cellular component| nuc
molecular function| threonine-tRNA ligase activity | inferred from sequence similarity|GO:0004829//cellular component| cytoplasm | inferred
NA
NA
cellular component| vacuole (sensu Fungi) | inferred from direct assay|GO:0000324//biological process| cell wall organization and biogenes
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
NA
cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| metabolism | traceable author statement|GO:0008
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
NA
molecular function| homoisocitrate dehydrogenase activity | traceable author statement|GO:0047984//cellular component| mitochondrion | in
molecular function| sphingolipid transporter activity | inferred from mutant phenotype|GO:0046624//cellular component| vacuolar membrane
NA
NA
molecular function| oxysterol binding | inferred from sequence similarity|GO:0008142//biological process| steroid biosynthesis | inferred from
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
cellular component| bud neck | inferred from direct assay|GO:0005935//cellular component| mitochondrion | inferred from direct assay |GO:0
cellular component| soluble fraction | inferred from direct assay|GO:0005625
molecular function| cleavage/polyadenylation specificity factor activity | traceable author statement|GO:0030364//molecular function| RNA b
NA
molecular function| microfilament motor activity | traceable author statement|GO:0000146//cellular component| actin cable (sensu Fungi) | in
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
NA
molecular function| RNA binding | inferred from direct assay|GO:0003723//molecular function| single-stranded DNA binding | inferred from d
molecular function| phosphatidylinositol binding | inferred from sequence similarity|GO:0005545//cellular component| late endosome | tracea
cellular component| cytoplasm | inferred from direct assay|GO:0005737
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//molecular function| RNA binding | inferred
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| DASH complex | inferr
molecular function| DNA helicase activity | inferred from direct assay|GO:0003678//cellular component| nucleus | inferred from curator|GO:0
molecular function| transporter activity | inferred from sequence similarity|GO:0005215//cellular component| integral to membrane | inferred
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| S-adenosylmethionine transporter activity | inferred from mutant phenotype|GO:0000095//molecular function| S-adenosy
molecular function| pseudouridylate synthase activity | traceable author statement|GO:0004730//cellular component| small nucleolar ribonuc
NA
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic small ribosom
molecular function| DNA-directed RNA polymerase activity | traceable author statement|GO:0003899//cellular component| DNA-directed RN
molecular function| general RNA polymerase II transcription factor activity | traceable author statement|GO:0016251//cellular component| tra
molecular function| beta-1,4-mannosyltransferase activity | inferred from direct assay|GO:0019187//cellular component| integral to membran
NA
molecular function| histidine-tRNA ligase activity | traceable author statement|GO:0004821//cellular component| mitochondrion | inferred fro
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| ubiquitin conjugating enzyme activity | inferred from physical interaction|GO:0004840//cellular component| cytoplasm | in
molecular function| translation initiation factor activity | inferred from direct assay|GO:0003743//cellular component| eukaryotic translation in
cellular component| bud neck | inferred from direct assay|GO:0005935//cellular component| septin ring (sensu Saccharomyces) | inferred fro
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| cytochrome-c oxidase activity | inferred from direct assay|GO:0004129//cellular component| respiratory chain complex IV
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
cellular component| integral to membrane | inferred from sequence similarity|GO:0016021//biological process| axial budding | inferred from s
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| alpha-glucoside:hydrogen symporter activity | inferred from sequence similarity|GO:0005352//cellular component| memb
cellular component| anaphase-promoting complex | inferred from physical interaction|GO:0005680//biological process| sporulation (sensu F
molecular function| transcription regulator activity | inferred from sequence similarity|GO:0030528//molecular function| transcription regulato
molecular function| phosphoprotein phosphatase activity | traceable author statement|GO:0004721//cellular component| mitochondrion | infe
molecular function| methionyl-tRNA formyltransferase activity | inferred from direct assay|GO:0004479//cellular component| mitochondrion |
cellular component| cytoplasm | inferred from direct assay|GO:0005737
NA
molecular function| transcription coactivator activity | traceable author statement|GO:0003713//cellular component| nucleus | traceable autho
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| monovalent inorganic cation transporter activity | inferred from sequence similarity|GO:0015077//molecular function| mo
molecular function| 1-acylglycerol-3-phosphate O-acyltransferase activity | inferred from direct assay|GO:0003841//cellular component| lipid
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
cellular component| cytoplasm | inferred from direct assay|GO:0005737
cellular component| cytoplasm | inferred from direct assay|GO:0005737
NA
molecular function| Rab GTPase activator activity | inferred from sequence similarity|GO:0005097//molecular function| Rab GTPase activato
molecular function| RNA helicase activity | inferred from sequence similarity|GO:0003724//cellular component| cytoplasm | inferred from dire
molecular function| pre-mRNA splicing factor activity | inferred from physical interaction|GO:0008248//cellular component| small nuclear ribo
molecular function| chromatin binding | inferred from sequence similarity|GO:0003682//cellular component| nuclear chromatin | inferred from
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| specific RNA polymerase II transcription factor activity | traceable author statement|GO:0003704//cellular component| nu
molecular function| ethanolamine-phosphate cytidylyltransferase activity | inferred from sequence similarity|GO:0004306//molecular function
molecular function| transcriptional activator activity | traceable author statement|GO:0016563//molecular function| DNA binding | traceable a
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic small ribosom
NA
NA
cellular component| spliceosome complex | inferred from direct assay|GO:0005681//biological process| nuclear mRNA splicing, via spliceos
molecular function| 1,3-beta-glucan synthase activity | inferred from sequence similarity|GO:0003843
NA
NA
molecular function| lipase activity | inferred from sequence similarity|GO:0016298//molecular function| lipase activity | inferred from mutant p
NA
NA
molecular function| endopeptidase activity | traceable author statement|GO:0004175//cellular component| proteasome core complex, alpha-
NA
molecular function| acyltransferase activity | inferred from sequence similarity|GO:0008415//cellular component| lipid particle | inferred from
NA
NA
molecular function| GTPase activity | traceable author statement|GO:0003924//cellular component| nucleolus | inferred from direct assay|GO
molecular function| RNA binding | inferred from direct assay|GO:0003723//cellular component| snRNP U2 | inferred from direct assay|GO:00
molecular function| microfilament motor activity | traceable author statement|GO:0000146//cellular component| contractile ring (sensu Sacch
molecular function| L-cystine transporter activity | inferred from sequence similarity|GO:0015184//cellular component| integral to membrane
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| proline dehydrogenase activity | traceable author statement|GO:0004657//cellular component| mitochondrion | traceable
cellular component| mitochondrion | inferred from direct assay|GO:0005739
cellular component| cytoplasm | inferred from direct assay|GO:0005737
NA
biological process| microtubule cytoskeleton organization and biogenesis | inferred from mutant phenotype|GO:0000226
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| thiol oxidase activity | traceable author statement|GO:0016972//cellular component| mitochondrial intermembrane space
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| hydrogen-transporting ATP synthase activity, rotational mechanism | inferred from sequence similarity|GO:0046933//mo
molecular function| methionine-tRNA ligase activity | inferred from direct assay|GO:0004825//cellular component| methionyl glutamyl tRNA s
NA
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
cellular component| integral to membrane | inferred from sequence similarity|GO:0016021//biological process| conjugation with cellular fusio
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic small ribosom
NA
cellular component| soluble fraction | inferred from direct assay|GO:0005625//cellular component| vacuole (sensu Fungi) | inferred from dire
cellular component| nucleus | inferred from curator|GO:0005634//biological process| meiotic DNA double-strand break formation | traceable
molecular function| tRNA binding | inferred from physical interaction|GO:0000049//molecular function| tRNA binding | inferred from mutant p
NA
molecular function| asparagine synthase (glutamine-hydrolyzing) activity | inferred from sequence similarity|GO:0004066//molecular function
molecular function| ubiquitin-specific protease activity | traceable author statement|GO:0004843//cellular component| SAGA complex | inferr
molecular function| protein kinase activity | inferred from sequence similarity|GO:0004672//molecular function| protein kinase activity | inferre
molecular function| ATPase activity, coupled to transmembrane movement of substances | inferred from sequence similarity|GO:0042626//c
NA
molecular function| transcription factor activity | inferred from sequence similarity|GO:0003700//molecular function| transcription factor activi
molecular function| electron carrier activity | non-traceable author statement|GO:0009055//cellular component| mitochondrion | inferred from
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
cellular component| nucleolus | inferred from direct assay|GO:0005730//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| ribonuclease H activity | inferred from sequence similarity|GO:0004523//cellular component| nucleus | inferred from direc
molecular function| intracellular transporter activity | inferred from direct assay|GO:0005478//molecular function| organic acid transporter act
molecular function| protein threonine/tyrosine kinase activity | inferred from direct assay|GO:0004712//molecular function| glycogen synthas
cellular component| membrane fraction | inferred from direct assay|GO:0005624//biological process| late endosome to vacuole transport | in
NA
NA
NA
NA
cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| ribosome assembly | traceable author statement|G
NA
molecular function| 5'-flap endonuclease activity | traceable author statement|GO:0017108//molecular function| 5'-flap endonuclease activity
molecular function| general RNA polymerase II transcription factor activity | traceable author statement|GO:0016251//cellular component| tra
molecular function| protein kinase activity | inferred from direct assay|GO:0004672//cellular component| cytoplasm | inferred from direct assa
molecular function| translation initiation factor activity | traceable author statement|GO:0003743//cellular component| ribosome | traceable a
molecular function| structural constituent of cytoskeleton | inferred from physical interaction|GO:0005200//cellular component| DASH comple
molecular function| bis(5'-nucleosyl)-tetraphosphatase activity | traceable author statement|GO:0008796//molecular function| bis(5'-nucleosy
NA
NA
molecular function| protein binding | traceable author statement|GO:0005515//cellular component| plasma membrane | inferred from physica
cellular component| vacuole (sensu Fungi) | inferred from direct assay|GO:0000324
molecular function| single-stranded DNA binding | inferred from sequence similarity|GO:0003697//cellular component| mitochondrion | inferr
NA
molecular function| homocysteine S-methyltransferase activity | inferred from direct assay|GO:0008898//cellular component| cytoplasm | infe
NA
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
cellular component| extrinsic to plasma membrane | inferred from direct assay|GO:0019897//biological process| cell wall organization and b
NA
molecular function| RNA binding | inferred from direct assay|GO:0003723//cellular component| polysome | inferred from direct assay|GO:00
molecular function| ATP-dependent RNA helicase activity | traceable author statement|GO:0004004//cellular component| nucleolus | inferred
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
cellular component| ESCRT II complex | inferred from direct assay|GO:0000814//biological process| negative regulation of transcription by g
molecular function| thiol peroxidase activity | traceable author statement|GO:0009031//molecular function| glutathione peroxidase activity | in
molecular function| sphingosine-1-phosphate phosphatase activity | traceable author statement|GO:0042392//molecular function| sphingosin
NA
molecular function| glutamate synthase (NADH) activity | inferred from sequence similarity|GO:0016040//cellular component| cell | inferred f
molecular function| general RNA polymerase II transcription factor activity | inferred from direct assay|GO:0016251//cellular component| tran
molecular function| transcription coactivator activity | traceable author statement|GO:0003713//cellular component| nucleus | traceable autho
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
NA
NA
molecular function| 2-isopropylmalate synthase activity | inferred from sequence similarity|GO:0003852//molecular function| 2-isopropylmala
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| electron transporter activity | traceable author statement|GO:0005489//cellular component| microsome | inferred from dir
NA
molecular function| histone acetyltransferase activity | inferred from direct assay|GO:0004402//molecular function| chromatin binding | inferr
molecular function| cAMP-dependent protein kinase activity | traceable author statement|GO:0004691//molecular function| protein serine/thr
NA
NA
molecular function| signal sequence binding | inferred from physical interaction|GO:0005048//cellular component| signal recognition particle
molecular function| long-chain-fatty-acid-CoA ligase activity | inferred from direct assay|GO:0004467//cellular component| peroxisome | infer
molecular function| RNA binding | inferred from direct assay|GO:0003723//cellular component| snRNP U2 | inferred from direct assay|GO:00
molecular function| tRNA (guanine-N2-)-methyltransferase activity | inferred from mutant phenotype|GO:0004809//molecular function| tRNA
cellular component| spliceosome complex | inferred from physical interaction|GO:0005681//biological process| nuclear mRNA splicing, via s
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
cellular component| mitochondrion | inferred from direct assay|GO:0005739
molecular function| RNA binding | inferred from sequence similarity|GO:0003723//molecular function| RNA binding | inferred from mutant ph
NA
molecular function| Hsp70/Hsc70 protein regulator activity | inferred from direct assay|GO:0030192//molecular function| chaperone regulato
molecular function| protein binding | inferred from direct assay|GO:0005515//cellular component| COMA complex | inferred from direct assay
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
cellular component| nucleolus | inferred from direct assay|GO:0005730//cellular component| nucleoplasm | inferred from direct assay |GO:0
molecular function| RNA polymerase I transcription factor activity | traceable author statement|GO:0003701//cellular component| RNA polym
NA
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| DASH complex | inferr
NA
molecular function| D-arabinono-1,4-lactone oxidase activity | inferred from direct assay|GO:0003885//cellular component| mitochondrion | in
molecular function| ATP-dependent DNA helicase activity | traceable author statement|GO:0004003//molecular function| chromatin binding
molecular function| nucleoside-diphosphatase activity | inferred from direct assay|GO:0017110//cellular component| COPI-coated vesicle | in
biological process| pseudohyphal growth | inferred from mutant phenotype|GO:0007124
molecular function| microfilament motor activity | inferred from physical interaction|GO:0000146//cellular component| actin cap (sensu Fungi
molecular function| fructose-bisphosphatase activity | inferred from mutant phenotype|GO:0042132//cellular component| cytosol | traceable
molecular function| aryl-alcohol dehydrogenase activity | inferred from sequence similarity|GO:0018456//biological process| aldehyde metab
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
cellular component| nucleus | inferred from direct assay|GO:0005634
molecular function| glycerone kinase activity | inferred from sequence similarity|GO:0004371//molecular function| glycerone kinase activity |
NA
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic small ribosom
NA
molecular function| Pol II transcription elongation factor activity | inferred from physical interaction|GO:0016944//molecular function| Pol II tra
NA
molecular function| electron transporter, transferring electrons within CoQH2-cytochrome c reductase complex activity | traceable author sta
NA
molecular function| glycine dehydrogenase (decarboxylating) activity | inferred from mutant phenotype|GO:0004375//molecular function| gly
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| thiamin biosynthesis | inferred from mutant phen
molecular function| ribose-phosphate diphosphokinase activity | traceable author statement|GO:0004749//cellular component| cytoplasm | in
NA
molecular function| transcription factor activity | inferred from sequence similarity|GO:0003700//cellular component| nucleus | inferred from s
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//molecular function| RNA binding | inferred
NA
cellular component| mitochondrion | inferred from direct assay|GO:0005739
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| bud site selection | inferred from mutant phenot
NA
NA
biological process| pseudohyphal growth | inferred from mutant phenotype|GO:0007124
NA
molecular function| ubiquitin-protein ligase activity | traceable author statement|GO:0004842//cellular component| nuclear ubiquitin ligase co
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| rRNA processing | inferred from mutant phenoty
molecular function| tRNA-intron endonuclease activity | traceable author statement|GO:0000213//cellular component| mitochondrial outer m
molecular function| protein serine/threonine kinase activity | inferred from direct assay|GO:0004674//cellular component| cytoplasm | inferre
NA
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783
molecular function| transcription factor activity | inferred from sequence similarity|GO:0003700//molecular function| transcription factor activi
molecular function| glucan 1,4-alpha-glucosidase activity | inferred from direct assay|GO:0004339//cellular component| vacuole (sensu Fung
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| GMP synthase (glutamine-hydrolyzing) activity | inferred from sequence similarity|GO:0003922//molecular function| GMP
molecular function| DNA-directed DNA polymerase activity | inferred from direct assay|GO:0003887//cellular component| nucleus | inferred f
molecular function| isopentenyl-diphosphate delta-isomerase activity | traceable author statement|GO:0004452//cellular component| cytosol
molecular function| protein binding | inferred from physical interaction|GO:0005515//cellular component| extrinsic to membrane | inferred fro
cellular component| mitochondrion | inferred from direct assay|GO:0005739
cellular component| integral to endoplasmic reticulum membrane | inferred from direct assay|GO:0030176//cellular component| integral to G
molecular function| glutamate-tRNA ligase activity | inferred from direct assay|GO:0004818//cellular component| methionyl glutamyl tRNA sy
cellular component| plasma membrane | inferred from direct assay|GO:0005886//cellular component| cytosol | inferred from direct assay |GO
molecular function| DNA binding | inferred from physical interaction|GO:0003677//cellular component| GINS complex | inferred from physica
cellular component| integral to membrane | inferred from sequence similarity|GO:0016021
molecular function| RNA helicase activity | inferred from sequence similarity|GO:0003724//molecular function| RNA helicase activity | inferre
NA
molecular function| protein binding | traceable author statement|GO:0005515//molecular function| ubiquitin-protein ligase activity | traceable
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| carboxypeptidase C activity | traceable author statement|GO:0004186//cellular component| endoplasmic reticulum | infe
NA
molecular function| myosin I binding | inferred from direct assay|GO:0017024//cellular component| actin cortical patch (sensu Fungi) | inferre
molecular function| mannose transporter activity | traceable author statement|GO:0015578//molecular function| glucose transporter activity |
molecular function| malic enzyme activity | traceable author statement|GO:0004470//cellular component| peroxisomal matrix | traceable auth
NA
cellular component| mitochondrion | inferred from direct assay|GO:0005739
cellular component| mitochondrion | inferred from direct assay|GO:0005739//biological process| protein biosynthesis | traceable author state
cellular component| nuclear envelope-endoplasmic reticulum network | inferred from direct assay|GO:0042175//cellular component| endopla
cellular component| cytoplasm | inferred from direct assay|GO:0005737
NA
molecular function| MAP kinase kinase kinase activity | traceable author statement|GO:0004709//cellular component| cytosol | inferred from
molecular function| choline transporter activity | inferred from sequence similarity|GO:0015220//molecular function| choline transporter activi
NA
molecular function| mannose binding | inferred from mutant phenotype|GO:0005537//cellular component| cell wall (sensu Fungi) | inferred fr
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic small ribosom
molecular function| inorganic diphosphatase activity | inferred from direct assay|GO:0004427//cellular component| cytosol | traceable author
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
molecular function| --- | traceable author statement|GO:0051082//cellular component| cytoskeleton | traceable author statement|GO:000585
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| actin cortical patch assembly | traceable author
NA
molecular function| DNA-dependent ATPase activity | inferred from sequence similarity|GO:0008094//cellular component| nucleus | inferred
cellular component| integral to peroxisomal membrane | inferred from direct assay|GO:0005779//biological process| peroxisome organizatio
molecular function| 3'-5'-exoribonuclease activity | traceable author statement|GO:0000175//cellular component| cytoplasmic exosome (RNa
NA
molecular function| protein binding | inferred from physical interaction|GO:0005515//biological process| thiamin biosynthesis | inferred from m
NA
NA
cellular component| nucleus | inferred from direct assay|GO:0005634//cellular component| SWR1 complex | inferred from physical interactio
molecular function| DNA-directed RNA polymerase activity | inferred from direct assay|GO:0003899//cellular component| DNA-directed RNA
cellular component| cytoplasm | inferred from direct assay|GO:0005737
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
NA
molecular function| sphingosine-1-phosphate phosphatase activity | traceable author statement|GO:0042392//molecular function| sphingosin
cellular component| mitochondrion | inferred from direct assay|GO:0005739
NA
molecular function| 2-dehydropantoate 2-reductase activity | inferred from sequence similarity|GO:0008677//cellular component| cytoplasm
cellular component| bud neck | inferred from direct assay|GO:0005935//cellular component| cytoplasm | inferred from direct assay |GO:0005
cellular component| clathrin-coated vesicle | inferred from direct assay|GO:0030136
molecular function| RNA polymerase III transcription factor activity | inferred from sequence similarity|GO:0003709//molecular function| RNA
cellular component| Golgi apparatus | inferred from direct assay|GO:0005794//cellular component| cytoplasm | inferred from direct assay |G
NA
molecular function| transporter activity | inferred from sequence similarity|GO:0005215//cellular component| membrane | inferred from seque
cellular component| nucleus | inferred from sequence similarity|GO:0005634//cellular component| nucleus | inferred from mutant phenotype
cellular component| COPI-coated vesicle | inferred from direct assay|GO:0030137//cellular component| Golgi apparatus | inferred from direc
molecular function| --- | non-traceable author statement|GO:0051082//cellular component| ribosome | non-traceable author statement|GO:00
cellular component| cytoplasm | inferred from direct assay|GO:0005737
cellular component| vacuolar membrane | inferred from direct assay|GO:0005774//biological process| vacuole fusion, non-autophagic | infer
molecular function| protein kinase activator activity | inferred from physical interaction|GO:0030295//molecular function| protein kinase activa
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| DNA binding | inferred from sequence similarity|GO:0003677//cellular component| nucleus | inferred from sequence sim
molecular function| choline kinase activity | traceable author statement|GO:0004103//cellular component| cytosol | traceable author stateme
molecular function| 6-phosphogluconolactonase activity | inferred from sequence similarity|GO:0017057//cellular component| cytoplasm | inf
NA
molecular function| DNA-(apurinic or apyrimidinic site) lyase activity | inferred from sequence similarity|GO:0003906//molecular function| DN
NA
NA
molecular function| transcriptional repressor activity | traceable author statement|GO:0016564//cellular component| nucleus | inferred from d
NA
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737
NA
cellular component| Golgi membrane | inferred from direct assay|GO:0000139//biological process| Golgi to endosome transport | inferred fro
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic small ribosom
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
molecular function| structural molecule activity | traceable author statement|GO:0005198//cellular component| nuclear pore | inferred from d
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| iron ion transporter activity | inferred from direct assay|GO:0005381//cellular component| plasma membrane | inferred fro
molecular function| phosphoribosylaminoimidazolecarboxamide formyltransferase activity | inferred from direct assay|GO:0004643//molecul
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| serine hydrolase activity | inferred from direct assay|GO:0017171
molecular function| RNA polymerase II transcription factor activity | inferred from sequence similarity|GO:0003702//cellular component| nucl
cellular component| membrane | inferred from sequence similarity|GO:0016020//biological process| response to stress | inferred from direct
NA
molecular function| potassium:hydrogen antiporter activity | inferred from sequence similarity|GO:0015386//molecular function| potassium:hy
NA
biological process| spore wall assembly (sensu Fungi) | inferred from mutant phenotype|GO:0030476
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| aspartic-type endopeptidase activity | inferred from sequence similarity|GO:0004190
molecular function| ubiquitin-specific protease activity | traceable author statement|GO:0004843//cellular component| cytoplasm | inferred fro
molecular function| microtubule motor activity | inferred from sequence similarity|GO:0003777//molecular function| microtubule motor activity
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
cellular component| nucleus | inferred from direct assay|GO:0005634
molecular function| RNA binding | inferred from direct assay|GO:0003723//cellular component| small nucleolar ribonucleoprotein complex | i
NA
cellular component| nucleolus | inferred from direct assay|GO:0005730//cellular component| nucleus | inferred from physical interaction |GO
NA
molecular function| translation elongation factor activity | traceable author statement|GO:0003746//cellular component| ribosome | traceable
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| ubiquitin-like conjugating enzyme activity | inferred from direct assay|GO:0008640//cellular component| nucleus | traceab
NA
molecular function| serine C-palmitoyltransferase activity | inferred from direct assay|GO:0004758//cellular component| serine C-palmitoyltra
molecular function| chitin synthase activity | inferred from direct assay|GO:0004100//cellular component| chitosome | traceable author statem
molecular function| transcription factor activity | traceable author statement|GO:0003700//cellular component| nucleus | inferred from direct a
molecular function| Pol II transcription elongation factor activity | inferred from mutant phenotype|GO:0016944//cellular component| transcrip
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| dolichyl-phosphate-mannose-protein mannosyltransferase activity | inferred from sequence similarity|GO:0004169//mole
molecular function| signal transducer activity | traceable author statement|GO:0004871//molecular function| protein geranylgeranyltransferas
cellular component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277
molecular function| ATPase activity | inferred from direct assay|GO:0016887//molecular function| ATP binding | inferred from direct assay |G
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
cellular component| nucleus | inferred from direct assay|GO:0005634
molecular function| kynureninase activity | inferred from direct assay|GO:0030429//cellular component| cytoplasm | inferred from direct assa
molecular function| protein carrier activity | traceable author statement|GO:0008320//cellular component| cytoplasm | inferred from direct as
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| hydrogen-transporting ATP synthase activity, rotational mechanism | traceable author statement|GO:0046933//molecula
molecular function| DNA-directed RNA polymerase activity | traceable author statement|GO:0003899//cellular component| DNA-directed RN
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| response to salt stress | inferred from mutant ph
NA
molecular function| endopeptidase activity | traceable author statement|GO:0004175//cellular component| proteasome core complex (sensu
NA
NA
NA
NA
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic small ribosom
cellular component| spliceosome complex | inferred from direct assay|GO:0005681//biological process| nuclear mRNA splicing, via spliceos
cellular component| peroxisomal membrane | inferred from direct assay|GO:0005778//biological process| peroxisome organization and biog
molecular function| carboxypeptidase C activity | inferred from sequence similarity|GO:0004186//cellular component| vacuole (sensu Fungi)
NA
NA
molecular function| purine-nucleoside phosphorylase activity | inferred from sequence similarity|GO:0004731//molecular function| purine-nuc
molecular function| mannosyl-oligosaccharide glucosidase activity | inferred from sequence similarity|GO:0004573//molecular function| man
NA
cellular component| mitochondrion | inferred from direct assay|GO:0005739//cellular component| nucleolus | inferred from direct assay |GO:
cellular component| endosome | inferred from direct assay|GO:0005768//cellular component| ESCRT I complex | traceable author statemen
molecular function| RNA binding | inferred from physical interaction|GO:0003723//molecular function| telomerase activity | inferred from phys
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| ribose-phosphate diphosphokinase activity | traceable author statement|GO:0004749//cellular component| cytoplasm | in
NA
cellular component| plasma membrane | inferred from sequence similarity|GO:0005886//cellular component| plasma membrane | inferred fro
NA
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| enzyme activator activity | traceable author statement|GO:0008047//cellular component| anaphase-promoting complex |
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| acyl-CoA thioesterase activity | inferred from direct assay|GO:0016291//cellular component| peroxisome | inferred from d
molecular function| protein binding | inferred from sequence similarity|GO:0005515//cellular component| ubiquitin ligase complex | inferred fr
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| aminopeptidase activity | inferred from sequence similarity|GO:0004177//cellular component| cytoplasm | inferred from d
NA
molecular function| protein binding | inferred from sequence similarity|GO:0005515//molecular function| protein binding | inferred from direct
NA
molecular function| GTPase activity | traceable author statement|GO:0003924//cellular component| plasma membrane | inferred from direct
NA
molecular function| protein serine/threonine kinase activity | inferred from sequence similarity|GO:0004674//molecular function| protein serin
NA
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//cellular component| cytoplasm | inferred from direct as
molecular function| --- | traceable author statement|GO:0051082//cellular component| cytoskeleton | traceable author statement|GO:000585
molecular function| lipase activity | inferred from sequence similarity|GO:0016298
molecular function| enzyme activator activity | traceable author statement|GO:0008047//molecular function| two-component response regula
NA
molecular function| DNA-directed RNA polymerase activity | inferred from physical interaction|GO:0003899//molecular function| DNA-directe
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| glycogen (starch) synthase activity | inferred from sequence similarity|GO:0004373//molecular function| glycogen (starch
NA
NA
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| protein binding | traceable author statement|GO:0005515//molecular function| ubiquitin-protein ligase activity | traceable
molecular function| acyltransferase activity | inferred from sequence similarity|GO:0008415//biological process| phospholipid biosynthesis | i
molecular function| S-adenosylmethionine-dependent methyltransferase activity | inferred from sequence similarity|GO:0008757//cellular co
NA
molecular function| valine-tRNA ligase activity | inferred from sequence similarity|GO:0004832//cellular component| mitochondrion | inferred
molecular function| protein serine/threonine kinase activity | inferred from mutant phenotype|GO:0004674//molecular function| protein serine
molecular function| D-erythro-sphingosine kinase activity | inferred from direct assay|GO:0017050//cellular component| soluble fraction | infe
molecular function| cytosine deaminase activity | inferred from direct assay|GO:0004131//cellular component| cytoplasm | inferred from direc
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
molecular function| IMP dehydrogenase activity | inferred from sequence similarity|GO:0003938//cellular component| cytoplasm | inferred fro
NA
molecular function| protein binding | inferred from direct assay|GO:0005515//cellular component| cytosol | inferred from direct assay|GO:000
cellular component| nucleolus | inferred from direct assay|GO:0005730//biological process| rRNA metabolism | inferred from mutant phenoty
cellular component| mitochondrial matrix | inferred from direct assay|GO:0005759//biological process| iron ion transport | inferred from sequ
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
NA
molecular function| catalytic activity | inferred from direct assay|GO:0003824//biological process| spore wall assembly (sensu Fungi) | inferre
NA
NA
molecular function| orotate phosphoribosyltransferase activity | traceable author statement|GO:0004588//cellular component| cytoplasm | in
NA
molecular function| translation initiation factor activity | traceable author statement|GO:0003743//cellular component| endosome | inferred fro
NA
molecular function| GTPase activity | inferred from sequence similarity|GO:0003924//molecular function| GTPase activity | inferred from dire
molecular function| endonuclease activity | inferred from sequence similarity|GO:0004519//cellular component| mitochondrion | inferred from
molecular function| mannose transporter activity | inferred from genetic interaction|GO:0015578//molecular function| glucose transporter act
molecular function| protein kinase activity | inferred from direct assay|GO:0004672//cellular component| nucleus | inferred from direct assay|
molecular function| RNA polymerase I transcription factor activity | inferred from physical interaction|GO:0003701//molecular function| RNA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//molecular function| structural constituent o
molecular function| protein-arginine N-methyltransferase activity | inferred from sequence similarity|GO:0016274//molecular function| protein
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| cysteine-type endopeptidase activity | inferred from direct assay|GO:0004197//biological process| protein processing | in
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| mating-type alpha-factor pheromone receptor activity | inferred from sequence similarity|GO:0004934//cellular compone
cellular component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277//biological process| sporulation (sensu Fungi) | inferred
molecular function| --- | traceable author statement|GO:0051082//cellular component| cytoskeleton | traceable author statement|GO:000585
molecular function| telomeric DNA binding | traceable author statement|GO:0042162//cellular component| cytosolic ribosome (sensu Eukary
molecular function| structural molecule activity | traceable author statement|GO:0005198//cellular component| nuclear pore | inferred from d
biological process| fermentation | inferred from mutant phenotype|GO:0006113
cellular component| membrane | inferred from direct assay|GO:0016020//cellular component| vacuolar lumen (sensu Fungi) | inferred from d
NA
molecular function| ATP-dependent RNA helicase activity | traceable author statement|GO:0004004//cellular component| nucleolus | traceab
NA
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic small ribosom
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| mitochondrial large rib
molecular function| 5-formyltetrahydrofolate cyclo-ligase activity | inferred from direct assay|GO:0030272//biological process| folic acid and d
molecular function| RNA polymerase III transcription factor activity | traceable author statement|GO:0003709//cellular component| transcript
cellular component| integral to membrane | inferred from sequence similarity|GO:0016021
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic small ribosom
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| cell wall organization and biogenesis | inferred f
molecular function| MAP kinase kinase activity | inferred from sequence similarity|GO:0004708//cellular component| bud tip | inferred from d
molecular function| signal transducer activity | traceable author statement|GO:0004871//molecular function| GTPase activity | traceable auth
molecular function| transferase activity | inferred from sequence similarity|GO:0016740//cellular component| plasma membrane | inferred fro
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//cellular component| cytoplasm | inferred from direct as
NA
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| transcription factor activity | inferred from direct assay|GO:0003700//cellular component| nucleus | inferred from physica
NA
molecular function| aspartate kinase activity | traceable author statement|GO:0004072//cellular component| cytoplasm | inferred from direct
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| protein kinase activity | inferred from direct assay|GO:0004672//cellular component| cytoplasm | inferred from direct assa
molecular function| protein binding | inferred from physical interaction|GO:0005515//molecular function| protein binding | inferred from mutan
NA
molecular function| positive transcription elongation factor activity | inferred from direct assay|GO:0008159//cellular component| nucleoplasm
molecular function| GTPase activator activity | inferred from sequence similarity|GO:0005096//molecular function| GTPase activator activity
NA
molecular function| ubiquinol-cytochrome-c reductase activity | inferred from direct assay|GO:0008121//cellular component| respiratory chai
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
NA
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| endopeptidase activity | non-traceable author statement|GO:0004175//cellular component| proteasome regulatory partic
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//biological process| secretory pathway | inferred from m
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//molecular function| structural constituent o
molecular function| phenylalanine-tRNA ligase activity | inferred from sequence similarity|GO:0004826//molecular function| phenylalanine-tR
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
NA
molecular function| DNA binding | traceable author statement|GO:0003677//cellular component| DNA replication factor A complex | traceabl
molecular function| water channel activity | inferred from sequence similarity|GO:0015250//cellular component| plasma membrane | inferred
molecular function| protein transporter activity | inferred from physical interaction|GO:0008565//molecular function| protein transporter activit
molecular function| specific RNA polymerase II transcription factor activity | traceable author statement|GO:0003704//cellular component| nu
NA
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic small ribosom
molecular function| glycine-tRNA ligase activity | inferred from sequence similarity|GO:0004820//molecular function| glycine-tRNA ligase act
NA
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| structural constituent of cytoskeleton | traceable author statement|GO:0005200//cellular component| septin ring (sensu S
molecular function| monooxygenase activity | traceable author statement|GO:0004497//cellular component| endoplasmic reticulum membra
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//molecular function| RNA binding | inferred
molecular function| ATPase activity, coupled to transmembrane movement of substances | inferred from sequence similarity|GO:0042626//c
molecular function| [acyl-carrier protein] S-malonyltransferase activity | inferred from sequence similarity|GO:0004314//molecular function| [a
NA
molecular function| transcription factor activity | inferred from sequence similarity|GO:0003700//cellular component| nucleus | inferred from s
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| --- | inferred from sequence similarity|GO:0051082//molecular function| --- | inferred from physical interaction |GO:00510
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| transcriptional activator activity | inferred from sequence similarity|GO:0016563//molecular function| transcriptional activa
molecular function| specific transcriptional repressor activity | inferred from direct assay|GO:0016566//cellular component| nucleus | inferred
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| pre-mRNA splicing factor activity | inferred from direct assay|GO:0008248//cellular component| mitochondrion | inferred
molecular function| C-14 sterol reductase activity | traceable author statement|GO:0000251//cellular component| endoplasmic reticulum | tra
NA
cellular component| mitochondrion | inferred from direct assay|GO:0005739
NA
NA
NA
molecular function| DNA-directed RNA polymerase activity | inferred from direct assay|GO:0003899//cellular component| DNA-directed RNA
molecular function| transcription factor activity | traceable author statement|GO:0003700//molecular function| DNA binding | inferred from dir
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
NA
NA
molecular function| clathrin binding | inferred from sequence similarity|GO:0030276//molecular function| clathrin binding | inferred from phys
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
cellular component| cytoplasm | inferred from direct assay|GO:0005737
NA
molecular function| receptor signaling protein serine/threonine kinase activity | inferred from sequence similarity|GO:0004702//molecular fun
molecular function| cyclin-dependent protein kinase regulator activity | traceable author statement|GO:0016538//cellular component| cyclin-d
molecular function| transporter activity | inferred from sequence similarity|GO:0005215//cellular component| vacuole (sensu Fungi) | inferred
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| carrier activity | inferred from sequence similarity|GO:0005386//molecular function| iron ion transporter activity | inferred
NA
NA
cellular component| nucleolus | inferred from direct assay|GO:0005730
molecular function| translation elongation factor activity | traceable author statement|GO:0003746//cellular component| ribosome | inferred fr
cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| sporulation | inferred from mutant phenotype|GO:0
NA
NA
molecular function| thioredoxin peroxidase activity | traceable author statement|GO:0008379//molecular function| thioredoxin peroxidase act
molecular function| phosphoethanolamine N-methyltransferase activity | inferred from mutant phenotype|GO:0000234//cellular component| e
molecular function| tRNA methyltransferase activity | inferred from direct assay|GO:0008175//biological process| tRNA modification | inferred
NA
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783
molecular function| structural constituent of cytoskeleton | inferred from physical interaction|GO:0005200//cellular component| central plaque
molecular function| DNA-directed RNA polymerase activity | inferred from mutant phenotype|GO:0003899//cellular component| cytoplasm | i
NA
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
molecular function| transporter activity | inferred from sequence similarity|GO:0005215//cellular component| vacuole | no biological data ava
cellular component| spindle | inferred from direct assay|GO:0005819//cellular component| condensed nuclear chromosome kinetochore | inf
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| DNA-directed DNA polymerase activity | inferred from mutant phenotype|GO:0003887//cellular component| nucleolus | in
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| carbon-sulfur lyase activity | inferred from sequence similarity|GO:0016846//cellular component| cytoplasm | inferred from
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
NA
cellular component| mitochondrion | inferred from direct assay|GO:0005739
molecular function| enzyme activator activity | inferred from mutant phenotype|GO:0008047//cellular component| nucleus | inferred from dire
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| DASH complex | inferr
NA
molecular function| prenyltransferase activity | inferred from direct assay|GO:0004659//cellular component| endoplasmic reticulum | inferred
NA
molecular function| polynucleotide 5'-phosphatase activity | inferred from direct assay|GO:0004651//cellular component| cytoplasm | inferred
molecular function| protein phosphatase type 2C activity | inferred from direct assay|GO:0015071//cellular component| mitochondrion | infer
molecular function| C-terminal protein carboxyl methyltransferase activity | inferred from direct assay|GO:0003880//biological process| C-ter
molecular function| mannosylphosphate transferase activity | inferred from sequence similarity|GO:0000031//molecular function| mannosylp
molecular function| ubiquitin-protein ligase activity | inferred from sequence similarity|GO:0004842//molecular function| ubiquitin-protein liga
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| phospholipase activity | inferred from sequence similarity|GO:0004620//cellular component| nucleus | inferred from direc
cellular component| CCR4-NOT complex | inferred from physical interaction|GO:0030014//biological process| regulation of transcription from
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic small ribosom
molecular function| oxidoreductase activity, acting on the aldehyde or oxo group of donors, NAD or NADP as acceptor | inferred from direct
molecular function| protein serine/threonine kinase activity | inferred from sequence similarity|GO:0004674//cellular component| cytoplasm |
NA
molecular function| snoRNA binding | traceable author statement|GO:0030515//cellular component| nucleus | inferred from direct assay|GO
cellular component| replication fork | inferred from direct assay|GO:0005657//cellular component| nucleus | inferred from direct assay |GO:0
molecular function| pre-mRNA splicing factor activity | inferred from physical interaction|GO:0008248//cellular component| small nuclear ribo
molecular function| RNA binding | inferred from sequence similarity|GO:0003723//cellular component| cytoplasm | inferred from direct assay
molecular function| mannose binding | inferred from sequence similarity|GO:0005537//cellular component| cell wall (sensu Fungi) | inferred
NA
cellular component| nucleosome remodeling complex | inferred from physical interaction|GO:0005679//biological process| chromatin remode
molecular function| protein binding | inferred from sequence similarity|GO:0005515//molecular function| protein binding | inferred from direct
molecular function| methylisocitrate lyase activity | inferred from direct assay|GO:0046421//cellular component| mitochondrial matrix | inferre
molecular function| structural molecule activity | inferred from mutant phenotype|GO:0005198//molecular function| actin binding | traceable a
NA
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//cellular component| cytoplasm | inferred from direct as
molecular function| nicotinate-nucleotide diphosphorylase (carboxylating) activity | inferred from direct assay|GO:0004514//cellular compone
NA
NA
molecular function| structural constituent of cytoskeleton | inferred from physical interaction|GO:0005200//cellular component| spindle pole b
NA
molecular function| ATPase activity, coupled to transmembrane movement of substances | inferred from sequence similarity|GO:0042626//c
NA
molecular function| methyltransferase activity | inferred from sequence similarity|GO:0008168//molecular function| methyltransferase activity
molecular function| nuclear localization sequence binding | inferred from physical interaction|GO:0008139//cellular component| cytosol | infe
molecular function| lysine-tRNA ligase activity | inferred from direct assay|GO:0004824//cellular component| cytoplasm | traceable author sta
NA
molecular function| pyruvate carboxylase activity | inferred from mutant phenotype|GO:0004736//molecular function| pyruvate carboxylase a
NA
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783
molecular function| RNA binding | inferred from direct assay|GO:0003723//cellular component| snRNP U2 | inferred from direct assay|GO:00
cellular component| clathrin-coated vesicle | inferred from direct assay|GO:0030136//biological process| Golgi to plasma membrane transpo
molecular function| --- | inferred from sequence similarity|GO:0051087//molecular function| --- | inferred from physical interaction |GO:00510
molecular function| dihydrolipoyllysine-residue acetyltransferase activity | inferred from direct assay|GO:0004742//cellular component| pyruv
NA
molecular function| clathrin binding | traceable author statement|GO:0030276//cellular component| actin cortical patch (sensu Fungi) | inferre
molecular function| histone acetyltransferase activity | inferred from direct assay|GO:0004402//cellular component| histone acetyltransferase
molecular function| GTPase activity | inferred from sequence similarity|GO:0003924//cellular component| cytosol | traceable author statemen
cellular component| cytosol | inferred from direct assay|GO:0005829//biological process| autophagy | inferred from mutant phenotype|GO:00
molecular function| RAN protein binding | inferred from direct assay|GO:0008536//cellular component| cytoplasm | inferred from direct assay
cellular component| nuclear membrane | inferred from physical interaction|GO:0005635
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| 1-phosphatidylinositol 4-kinase activity | traceable author statement|GO:0004430//cellular component| Golgi apparatus |
NA
NA
molecular function| SNF1A/AMP-activated protein kinase activity | inferred from mutant phenotype|GO:0004679//cellular component| nucleu
molecular function| nucleotide-sugar transporter activity | inferred from sequence similarity|GO:0005338//cellular component| COPI-coated v
NA
molecular function| protein binding | inferred from direct assay|GO:0005515//cellular component| integral to endoplasmic reticulum membran
molecular function| protein binding | inferred from direct assay|GO:0005515//molecular function| ubiquitin-protein ligase activity | inferred fro
molecular function| tRNA dihydrouridine synthase activity | inferred from sequence similarity|GO:0017150//biological process| tRNA modifica
NA
molecular function| metallopeptidase activity | traceable author statement|GO:0008237//cellular component| integral to membrane | traceabl
NA
molecular function| rRNA (guanine-N1-)-methyltransferase activity | inferred from direct assay|GO:0008989//cellular component| mitochondr
molecular function| actin monomer binding | inferred from direct assay|GO:0003785//cellular component| actin cortical patch (sensu Fungi) |
molecular function| snoRNA binding | inferred from physical interaction|GO:0030515//cellular component| small nucleolar ribonucleoprotein
molecular function| 3'-5'-exoribonuclease activity | inferred from direct assay|GO:0000175//cellular component| CCR4-NOT core complex | in
NA
NA
molecular function| alpha,alpha-trehalose-phosphate synthase (UDP-forming) activity | inferred from sequence similarity|GO:0003825//mole
cellular component| nucleus | inferred from direct assay|GO:0005634
molecular function| L-aminoadipate-semialdehyde dehydrogenase activity | traceable author statement|GO:0004043//cellular component| cy
molecular function| Ran GTPase activator activity | inferred from direct assay|GO:0005098//cellular component| cytosol | inferred from direc
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| receptor activity | inferred from direct assay|GO:0004872//molecular function| endopeptidase activity | traceable author s
molecular function| protein phosphatase type 2A activity | traceable author statement|GO:0000158//molecular function| protein phosphatase
molecular function| DNA-directed RNA polymerase activity | traceable author statement|GO:0003899//cellular component| DNA-directed RN
cellular component| nucleolus | inferred from direct assay|GO:0005730//biological process| ribosome biogenesis | inferred from physical inte
molecular function| tRNA methyltransferase activity | inferred from sequence similarity|GO:0008175//molecular function| tRNA methyltransfe
molecular function| transcription factor activity | traceable author statement|GO:0003700//cellular component| nucleus | traceable author sta
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic small ribosom
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
cellular component| cytoplasm | inferred from direct assay|GO:0005737
NA
NA
NA
molecular function| serine-type peptidase activity | inferred from sequence similarity|GO:0008236//cellular component| nucleus | inferred fro
molecular function| succinate-CoA ligase (ADP-forming) activity | inferred from sequence similarity|GO:0004775//molecular function| succina
molecular function| pre-mRNA splicing factor activity | inferred from physical interaction|GO:0008248//cellular component| small nuclear ribo
cellular component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277//biological process| sterol transport | inferred from muta
molecular function| protein disulfide isomerase activity | traceable author statement|GO:0003756//molecular function| protein disulfide isome
molecular function| tryptophan 2,3-dioxygenase activity | traceable author statement|GO:0004833//cellular component| cytoplasm | inferred
cellular component| extrinsic to membrane | inferred from direct assay|GO:0019898//cellular component| cytosol | traceable author statemen
NA
NA
molecular function| mRNA methyltransferase activity | inferred from sequence similarity|GO:0008174//molecular function| mRNA methyltran
cellular component| mitochondrion | inferred from direct assay|GO:0005739
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783
NA
molecular function| mRNA binding | inferred from sequence similarity|GO:0003729//cellular component| snRNP U1 | inferred from sequence
molecular function| ATP-dependent DNA helicase activity | inferred from direct assay|GO:0004003//cellular component| mitochondrial matrix
molecular function| histone binding | traceable author statement|GO:0042393//molecular function| structural constituent of chromatin | tracea
molecular function| transcription corepressor activity | inferred from physical interaction|GO:0003714//cellular component| nucleus | inferred
NA
cellular component| vacuolar membrane (sensu Fungi) | inferred from direct assay|GO:0000329
NA
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| Rho GTPase activator activity | inferred from direct assay|GO:0005100//molecular function| signal transducer activity | in
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
NA
molecular function| DNA binding | inferred from sequence similarity|GO:0003677//cellular component| nucleus | inferred from curator|GO:00
molecular function| protein binding | inferred from direct assay|GO:0005515//cellular component| actin cortical patch (sensu Fungi) | inferred
NA
molecular function| ubiquitin conjugating enzyme activity | traceable author statement|GO:0004840//cellular component| cytoplasm | inferred
molecular function| histone lysine N-methyltransferase activity (H3-K4 specific) | inferred from direct assay|GO:0042800//molecular function
molecular function| protein carrier activity | traceable author statement|GO:0008320//cellular component| cytoplasm | inferred from direct as
molecular function| RNA binding | inferred from direct assay|GO:0003723//cellular component| polysome | inferred from direct assay|GO:00
cellular component| clathrin-coated vesicle | inferred from direct assay|GO:0030136
molecular function| structural molecule activity | traceable author statement|GO:0005198//cellular component| nuclear pore | inferred from d
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
cellular component| vacuolar membrane | inferred from curator|GO:0005774//biological process| vacuole fusion, non-autophagic | inferred fr
NA
NA
molecular function| protein phosphatase 1 binding | inferred from physical interaction|GO:0008157//molecular function| protein phosphatase
cellular component| vacuole (sensu Fungi) | inferred from direct assay|GO:0000324
cellular component| nucleolus | inferred from direct assay|GO:0005730//biological process| establishment of cell polarity (sensu Saccharom
NA
molecular function| permease activity | traceable author statement|GO:0015646
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
NA
molecular function| GTPase activity | inferred from sequence similarity|GO:0003924//molecular function| GTPase activity | inferred from phy
cellular component| mitochondrion | inferred from direct assay|GO:0005739//cellular component| cytoplasm | inferred from direct assay |GO
molecular function| specific transcriptional repressor activity | inferred from sequence similarity|GO:0016566//molecular function| specific tra
molecular function| protein disulfide isomerase activity | traceable author statement|GO:0003756//molecular function| protein disulfide isome
NA
molecular function| ketoreductase activity | inferred from sequence similarity|GO:0045703//molecular function| ketoreductase activity | inferr
molecular function| calcium-dependent protein serine/threonine phosphatase activity | inferred from sequence similarity|GO:0004723//cellula
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| adenylate cyclase activity | traceable author statement|GO:0004016//cellular component| plasma membrane | inferred fr
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| structural molecule activity | inferred from physical interaction|GO:0005198//cellular component| COPII vesicle coat | infe
biological process| cell wall organization and biogenesis | inferred from mutant phenotype|GO:0007047
NA
NA
molecular function| protein phosphatase type 2A activity | inferred from direct assay|GO:0000158//cellular component| cytoplasm | inferred f
NA
NA
molecular function| structural molecule activity | inferred from mutant phenotype|GO:0005198//cellular component| Arp2/3 protein complex |
molecular function| methylenetetrahydrofolate dehydrogenase (NAD+) activity | inferred from sequence similarity|GO:0004487//molecular fu
NA
NA
molecular function| microtubule motor activity | traceable author statement|GO:0003777//cellular component| cytoplasmic microtubule | infer
NA
molecular function| 5'-flap endonuclease activity | inferred from direct assay|GO:0017108//cellular component| nucleus | inferred from mutan
NA
NA
molecular function| farnesyltranstransferase activity | inferred from sequence similarity|GO:0004311//molecular function| farnesyltranstransf
NA
molecular function| endopeptidase activity | inferred from physical interaction|GO:0004175//cellular component| proteasome regulatory parti
molecular function| hydrolase activity | inferred from direct assay|GO:0016787//molecular function| nucleotide binding | inferred from sequen
NA
NA
NA
NA
molecular function| transferase activity, transferring phosphorus-containing groups | inferred from direct assay|GO:0016772//cellular compo
cellular component| endoplasmic reticulum membrane | inferred from direct assay|GO:0005789//biological process| ER-associated protein c
molecular function| ubiquitin conjugating enzyme activity | traceable author statement|GO:0004840//cellular component| peroxisome | tracea
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
NA
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
NA
molecular function| cyclin-dependent protein kinase regulator activity | traceable author statement|GO:0016538//cellular component| cytopla
cellular component| shmoo tip | inferred from direct assay|GO:0005937//cellular component| bud neck | inferred from direct assay |GO:0005
molecular function| t-SNARE activity | traceable author statement|GO:0005486//cellular component| vacuolar membrane | inferred from dire
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| protein transporter activity | inferred from direct assay|GO:0008565//cellular component| vesicle coat | inferred from dire
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
NA
cellular component| membrane | inferred from sequence similarity|GO:0016020//biological process| response to drug | inferred from mutant
cellular component| membrane | inferred from sequence similarity|GO:0016020
NA
cellular component| Golgi apparatus | traceable author statement|GO:0005794//cellular component| Golgi apparatus | inferred from direct as
NA
NA
NA
cellular component| nucleolus | inferred from direct assay|GO:0005730//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| DNA binding | inferred from sequence similarity|GO:0003677//cellular component| nucleus | inferred from sequence sim
molecular function| carboxylesterase activity | inferred from direct assay|GO:0004091//cellular component| cytosol | inferred from direct assa
molecular function| RNA binding | inferred from direct assay|GO:0003723//cellular component| small nuclear ribonucleoprotein complex | tra
molecular function| hydrolase activity, acting on ester bonds | inferred from direct assay|GO:0016788//cellular component| cytoplasm | inferr
molecular function| endopeptidase activity | traceable author statement|GO:0004175//cellular component| proteasome core complex, beta-s
NA
molecular function| hypoxanthine phosphoribosyltransferase activity | inferred from sequence similarity|GO:0004422//molecular function| hy
cellular component| vacuole (sensu Fungi) | inferred from direct assay|GO:0000324
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| G1/S transition of mitotic cell cycle | inferred fro
NA
molecular function| histone acetyltransferase activity | non-traceable author statement|GO:0004402//molecular function| histone acetyltransf
NA
molecular function| pheromone activity | non-traceable author statement|GO:0005186//cellular component| extracellular | non-traceable auth
molecular function| transferase activity, transferring hexosyl groups | inferred from sequence similarity|GO:0016758//molecular function| tran
NA
NA
molecular function| purine nucleotide binding | inferred from sequence similarity|GO:0017076//cellular component| DNA replication factor C
molecular function| succinate dehydrogenase (ubiquinone) activity | traceable author statement|GO:0008177//cellular component| respirator
NA
molecular function| endopeptidase activity | traceable author statement|GO:0004175//cellular component| proteasome regulatory particle (se
cellular component| nucleus | inferred from direct assay|GO:0005634
NA
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
molecular function| mRNA binding | inferred from physical interaction|GO:0003729//cellular component| snRNA cap binding complex | inferr
molecular function| siderochrome-iron transporter activity | inferred from sequence similarity|GO:0015343//molecular function| siderochrome
cellular component| Golgi apparatus | traceable author statement|GO:0005794//cellular component| Golgi apparatus | inferred from direct as
cellular component| membrane | inferred from sequence similarity|GO:0016020
molecular function| chaperone activator activity | inferred from physical interaction|GO:0030189//molecular function| chaperone activator act
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| tRNA specific adenosine deaminase activity | inferred from direct assay|GO:0008251//cellular component| cytoplasm | in
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| dihydrofolate reductase activity | inferred from mutant phenotype|GO:0004146//cellular component| cytosol | traceable a
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| transcription cofactor activity | inferred from physical interaction|GO:0003712//molecular function| transcription cofactor a
molecular function| magnesium ion transporter activity | inferred from sequence similarity|GO:0015095//cellular component| membrane | infe
molecular function| protein transporter activity | traceable author statement|GO:0008565//cellular component| endoplasmic reticulum membr
molecular function| dCMP deaminase activity | inferred from sequence similarity|GO:0004132//molecular function| dCMP deaminase activity
molecular function| protein serine/threonine kinase activity | inferred from direct assay|GO:0004674//cellular component| contractile ring (se
molecular function| enzyme regulator activity | inferred from direct assay|GO:0030234//molecular function| ATPase activity | inferred from di
cellular component| integral to membrane | inferred from sequence similarity|GO:0016021//biological process| conjugation with cellular fusio
NA
molecular function| protein-arginine N-methyltransferase activity | inferred from sequence similarity|GO:0016274//molecular function| protein
cellular component| nucleus | inferred from direct assay|GO:0005634
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| fumarate reductase (NADH) activity | inferred from direct assay|GO:0016156//cellular component| cytoplasm | traceable
biological process| cellular morphogenesis | inferred from genetic interaction|GO:0000902
molecular function| --- | inferred from mutant phenotype|GO:0051082//cellular component| extrinsic to membrane | inferred from direct assay
molecular function| peptide alpha-N-acetyltransferase activity | inferred from sequence similarity|GO:0004596//molecular function| peptide a
cellular component| plasma membrane | inferred from direct assay|GO:0005886
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
NA
molecular function| triplex DNA binding | inferred from direct assay|GO:0045142//molecular function| Pol II transcription elongation factor ac
molecular function| protein binding | inferred from direct assay|GO:0005515//cellular component| cell cortex | inferred from direct assay|GO:
cellular component| nucleus | inferred from direct assay|GO:0005634
molecular function| UDP-glucose:glycoprotein glucosyltransferase activity | inferred from direct assay|GO:0003980//cellular component| end
NA
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783
molecular function| protein kinase activity | inferred from direct assay|GO:0004672//cellular component| septin ring | inferred from physical in
molecular function| amino acid transporter activity | inferred from mutant phenotype|GO:0015171//molecular function| amino acid transporte
molecular function| cytoskeletal regulatory protein binding | inferred from physical interaction|GO:0005519//cellular component| actin cap (se
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| [acyl-carrier protein] S-malonyltransferase activity | inferred from sequence similarity|GO:0004314//molecular function| [a
molecular function| aminoacyl-tRNA hydrolase activity | inferred from sequence similarity|GO:0004045//molecular function| aminoacyl-tRNA
molecular function| pyrophosphatase activity | inferred from direct assay|GO:0016462//cellular component| peroxisome | inferred from direct
molecular function| glucose transporter activity | inferred from direct assay|GO:0005355//molecular function| galactose transporter activity |
molecular function| structural molecule activity | traceable author statement|GO:0005198//cellular component| nuclear pore | inferred from d
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic small ribosom
cellular component| proteasome regulatory particle (sensu Eukarya) | inferred from direct assay|GO:0005838//biological process| proteolysi
NA
NA
molecular function| oligopeptide transporter activity | inferred from sequence similarity|GO:0015198//cellular component| membrane | inferre
NA
molecular function| protein binding | inferred from physical interaction|GO:0005515//molecular function| DNA strand annealing activity | infer
NA
cellular component| mitochondrial inner membrane presequence translocase complex | inferred from direct assay|GO:0005744//biological p
NA
molecular function| structural constituent of nuclear pore | inferred from physical interaction|GO:0017056//cellular component| cytoplasm | in
molecular function| specific RNA polymerase II transcription factor activity | inferred from direct assay|GO:0003704//cellular component| nuc
molecular function| glucan 1,3-beta-glucosidase activity | inferred from direct assay|GO:0004338//cellular component| cell wall (sensu Fung
NA
cellular component| membrane fraction | inferred from direct assay|GO:0005624
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| protein processing | inferred from mutant phenotyp
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
NA
molecular function| pre-mRNA splicing factor activity | inferred from mutant phenotype|GO:0008248//cellular component| spliceosome comp
molecular function| acyl-CoA oxidase activity | traceable author statement|GO:0003997//cellular component| peroxisomal matrix | traceable
molecular function| GTPase activity | traceable author statement|GO:0003924//molecular function| GTPase activity | inferred from sequence
NA
molecular function| delta DNA polymerase activity | traceable author statement|GO:0003891//cellular component| delta DNA polymerase co
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| microfilament motor activity | traceable author statement|GO:0000146//cellular component| actin cortical patch (sensu F
NA
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
NA
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737
cellular component| nucleolus | inferred from direct assay|GO:0005730//cellular component| nucleus | inferred from direct assay |GO:00056
NA
NA
molecular function| choline-phosphate cytidylyltransferase activity | inferred from direct assay|GO:0004105//cellular component| Golgi appar
NA
NA
cellular component| nucleolus | inferred from direct assay|GO:0005730//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| fructose-2,6-bisphosphate 2-phosphatase activity | inferred from mutant phenotype|GO:0004331//molecular function| 6-p
NA
molecular function| S-adenosylmethionine-dependent methyltransferase activity | inferred from sequence similarity|GO:0008757//cellular co
molecular function| RNA polymerase III transcription factor activity | traceable author statement|GO:0003709//cellular component| transcript
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737
NA
molecular function| specific RNA polymerase II transcription factor activity | traceable author statement|GO:0003704//cellular component| cy
molecular function| protein disulfide isomerase activity | traceable author statement|GO:0003756//molecular function| protein disulfide isome
molecular function| ARF GTPase activator activity | inferred from sequence similarity|GO:0008060//molecular function| ARF GTPase activat
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| ubiquitin-protein ligase activity | traceable author statement|GO:0004842//cellular component| cytoplasm | inferred from
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
NA
molecular function| S-adenosylmethionine-dependent methyltransferase activity | inferred from sequence similarity|GO:0008757//cellular co
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
NA
cellular component| mitochondrial matrix | inferred from direct assay|GO:0005759//cellular component| mitochondrion | traceable author sta
molecular function| holo-[acyl-carrier protein] synthase activity | inferred from mutant phenotype|GO:0008897//molecular function| holo-[acyl
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
cellular component| RSC complex | inferred from direct assay|GO:0016586//biological process| chromatin remodeling | inferred from direct a
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| ATPase activity | inferred from direct assay|GO:0016887//cellular component| endoplasmic reticulum | inferred from dire
molecular function| protein binding | inferred from direct assay|GO:0005515//cellular component| contractile ring (sensu Saccharomyces) | in
molecular function| pantetheine-phosphate adenylyltransferase activity | inferred from sequence similarity|GO:0004595//cellular component|
molecular function| protein binding | inferred from direct assay|GO:0005515//cellular component| cytoplasm | inferred from direct assay|GO:
NA
molecular function| DNA binding | traceable author statement|GO:0003677//cellular component| nuclear nucleosome | traceable author state
molecular function| ATPase activity | inferred from sequence similarity|GO:0016887//molecular function| metallopeptidase activity | inferred f
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737
cellular component| COPII-coated vesicle | inferred from direct assay|GO:0030138//cellular component| Golgi apparatus | traceable author s
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| ATP-dependent RNA helicase activity | traceable author statement|GO:0004004//cellular component| nucleolus | inferred
molecular function| cytochrome-c oxidase activity | inferred from direct assay|GO:0004129//cellular component| respiratory chain complex IV
molecular function| glycylpeptide N-tetradecanoyltransferase activity | traceable author statement|GO:0004379//molecular function| glycylpe
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
cellular component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277//biological process| meiosis | inferred from expression p
NA
molecular function| xenobiotic-transporting ATPase activity | traceable author statement|GO:0008559//molecular function| organic acid trans
molecular function| nucleic acid binding | inferred from direct assay|GO:0003676//cellular component| THO complex | inferred from physical
NA
molecular function| protein transporter activity | traceable author statement|GO:0008565//cellular component| translocon | traceable author s
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| protein secretion | inferred from sequence simila
molecular function| kinase activity | inferred from sequence similarity|GO:0016301//cellular component| mitochondrion | inferred from seque
NA
molecular function| mannose transporter activity | traceable author statement|GO:0015578//molecular function| glucose transporter activity |
NA
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| amino acid permease activity | inferred from direct assay|GO:0015359//molecular function| neutral amino acid transporte
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| alpha-glucosidase activity | inferred from direct assay|GO:0004558//cellular component| endoplasmic reticulum | inferred
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783
molecular function| CTP synthase activity | inferred from sequence similarity|GO:0003883//molecular function| CTP synthase activity | inferre
cellular component| bud | inferred from direct assay|GO:0005933
molecular function| specific RNA polymerase II transcription factor activity | inferred from sequence similarity|GO:0003704//cellular compone
NA
molecular function| protein binding | traceable author statement|GO:0005515//cellular component| cytoplasm | inferred from direct assay|GO
molecular function| Ras guanyl-nucleotide exchange factor activity | traceable author statement|GO:0005088//biological process| RAS prote
NA
molecular function| general RNA polymerase II transcription factor activity | traceable author statement|GO:0016251//molecular function| cy
molecular function| epsilon DNA polymerase activity | traceable author statement|GO:0003893//cellular component| epsilon DNA polymeras
NA
biological process| spore wall assembly (sensu Fungi) | inferred from mutant phenotype|GO:0030476
NA
molecular function| t-SNARE activity | traceable author statement|GO:0005486//molecular function| v-SNARE activity | traceable author stat
molecular function| ATPase activity | inferred from mutant phenotype|GO:0016887//cellular component| chromatin remodeling complex | infe
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//cellular component| cytoplasm | inferred from direct as
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| t-SNARE activity | traceable author statement|GO:0005486//molecular function| v-SNARE activity | traceable author stat
NA
cellular component| endoplasmic reticulum membrane | inferred from direct assay|GO:0005789//biological process| ergosterol biosynthesis
NA
cellular component| mitochondrion | inferred from direct assay|GO:0005739
cellular component| mitochondrion | inferred from direct assay|GO:0005739
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| aerobic respiration | inferred from mutant pheno
molecular function| homocysteine S-methyltransferase activity | inferred from direct assay|GO:0008898//cellular component| cytoplasm | infe
cellular component| cytoplasm | inferred from direct assay|GO:0005737
NA
cellular component| small nuclear ribonucleoprotein complex | traceable author statement|GO:0030532//cellular component| small nucleolar
molecular function| transcriptional activator activity | traceable author statement|GO:0016563//molecular function| transcriptional activator ac
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| G-protein coupled receptor activity | inferred from sequence similarity|GO:0004930//molecular function| G-protein couple
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| response to dessication | inferred from sequenc
molecular function| ARF guanyl-nucleotide exchange factor activity | traceable author statement|GO:0005086//cellular component| Golgi ves
cellular component| endoplasmic reticulum | traceable author statement|GO:0005783//biological process| ER to Golgi transport | inferred fro
molecular function| RNA polymerase II transcription mediator activity | inferred from direct assay|GO:0016455//cellular component| mediato
NA
molecular function| monocarboxylic acid transporter activity | inferred from mutant phenotype|GO:0008028//molecular function| monocarbox
molecular function| protein kinase activity | inferred from sequence similarity|GO:0004672//cellular component| mitochondrion | inferred from
NA
molecular function| metalloendopeptidase activity | inferred from sequence similarity|GO:0004222//molecular function| metalloendopeptidas
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
molecular function| specific RNA polymerase II transcription factor activity | inferred from sequence similarity|GO:0003704//molecular functio
molecular function| protein kinase activity | inferred from sequence similarity|GO:0004672//cellular component| bud neck | inferred from dire
molecular function| glucosamine 6-phosphate N-acetyltransferase activity | inferred from direct assay|GO:0004343//cellular component| cyto
molecular function| pre-mRNA splicing factor activity | inferred from physical interaction|GO:0008248//cellular component| small nuclear ribo
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| protein carrier activity | inferred from sequence similarity|GO:0008320//molecular function| protein carrier activity | inferre
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| GTPase activator activity | inferred from direct assay|GO:0005096//cellular component| cytoplasm | inferred from direct a
molecular function| imidazoleglycerol phosphate synthase activity | traceable author statement|GO:0000107//molecular function| imidazoleg
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| cell wall organization and biogenesis | inferred fro
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| peptidyl-diphthamide biosynthesis from peptidyl
molecular function| specific RNA polymerase II transcription factor activity | inferred from sequence similarity|GO:0003704//molecular functio
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
cellular component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277//cellular component| shmoo tip | inferred from direct ass
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
NA
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| structural molecule activity | inferred from mutant phenotype|GO:0005198//cellular component| Arp2/3 protein complex |
NA
biological process| meiosis | inferred from expression pattern|GO:0007126
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| --- | inferred from direct assay|GO:0051082//molecular function| ATPase activity | inferred from direct assay |GO:001688
molecular function| protein binding | inferred from direct assay|GO:0005515//cellular component| actin cortical patch (sensu Fungi) | inferred
molecular function| citrate (Si)-synthase activity | traceable author statement|GO:0004108//cellular component| mitochondrial matrix | tracea
cellular component| cytoplasm | inferred from direct assay|GO:0005737
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737
NA
NA
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| 1-phosphatidylinositol-4-phosphate 5-kinase activity | inferred from direct assay|GO:0016308//cellular component| plasm
molecular function| protein serine/threonine kinase activity | inferred from direct assay|GO:0004674//cellular component| bud neck | traceab
cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| histone ubiquitination | inferred from mutant pheno
cellular component| mitochondrion | inferred from direct assay|GO:0005739
molecular function| translation release factor activity | traceable author statement|GO:0003747//cellular component| cytosol | traceable auth
NA
molecular function| DNA-directed RNA polymerase activity | traceable author statement|GO:0003899//cellular component| DNA-directed RN
NA
molecular function| 3'-5'-exoribonuclease activity | traceable author statement|GO:0000175//cellular component| cytoplasmic exosome (RNa
molecular function| transporter activity | inferred from sequence similarity|GO:0005215//biological process| transport | inferred from sequenc
biological process| cellular respiration | inferred from mutant phenotype|GO:0045333//biological process| mitochondrion organization and bi
NA
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//biological process| protein secretion | inferred from seq
NA
molecular function| protein binding | traceable author statement|GO:0005515//molecular function| protein binding | inferred from direct assay
NA
molecular function| thiamin-phosphate diphosphorylase activity | traceable author statement|GO:0004789//molecular function| hydroxyethylt
NA
molecular function| RNA helicase activity | inferred from sequence similarity|GO:0003724//cellular component| nucleolus | inferred from dire
NA
molecular function| protein binding | inferred from physical interaction|GO:0005515//cellular component| endosome membrane | inferred from
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//cellular component| nuclear membrane | inferred from
NA
molecular function| rRNA primary transcript binding | inferred from physical interaction|GO:0042134//molecular function| 5S rRNA binding | i
NA
NA
NA
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| ubiquitin-specific protease activity | traceable author statement|GO:0004843//cellular component| proteasome regulatory
molecular function| DNA-directed RNA polymerase activity | traceable author statement|GO:0003899//cellular component| DNA-directed RN
cellular component| membrane | inferred from direct assay|GO:0016020//biological process| cation transport | inferred from genetic interacti
cellular component| mitochondrion | inferred from direct assay|GO:0005739
molecular function| signal transducer activity | inferred from physical interaction|GO:0004871//cellular component| mitochondrion | inferred f
molecular function| DNA binding | inferred from physical interaction|GO:0003677//cellular component| GINS complex | inferred from physica
molecular function| endopeptidase activity | traceable author statement|GO:0004175//cellular component| proteasome core complex (sensu
NA
NA
cellular component| nucleus | inferred from direct assay|GO:0005634
cellular component| Golgi transport complex | inferred from physical interaction|GO:0017119//biological process| intra-Golgi transport | infer
biological process| proton transport | inferred from mutant phenotype|GO:0015992
NA
molecular function| GTPase activity | traceable author statement|GO:0003924//cellular component| mitochondrial intermembrane space | inf
molecular function| RNA helicase activity | inferred from direct assay|GO:0003724//cellular component| small nucleolar ribonucleoprotein co
NA
cellular component| endosome | inferred from direct assay|GO:0005768
molecular function| MAP kinase kinase kinase activity | traceable author statement|GO:0004709//molecular function| MAP kinase kinase kin
NA
molecular function| protein threonine/tyrosine kinase activity | inferred from direct assay|GO:0004712//cellular component| nucleus | inferred
NA
molecular function| protein binding | inferred from physical interaction|GO:0005515//cellular component| nucleus | inferred from physical inte
cellular component| nuclear condensin complex | inferred from sequence similarity|GO:0000799//cellular component| nuclear condensin com
NA
NA
NA
NA
NA
NA
molecular function| structural molecule activity | traceable author statement|GO:0005198//cellular component| nuclear pore | inferred from d
NA
cellular component| spliceosome complex | inferred from physical interaction|GO:0005681
molecular function| structural constituent of cytoskeleton | inferred from physical interaction|GO:0005200//cellular component| central plaque
cellular component| nucleolus | inferred from direct assay|GO:0005730
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| translation release factor activity, codon specific | inferred from sequence similarity|GO:0016149//molecular function| tra
NA
molecular function| phospholipid-translocating ATPase activity | inferred from sequence similarity|GO:0004012//molecular function| phospho
molecular function| transporter activity | inferred from sequence similarity|GO:0005215//cellular component| membrane | inferred from seque
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
NA
molecular function| tRNA dihydrouridine synthase activity | inferred from direct assay|GO:0017150//cellular component| cytoplasm | inferred
molecular function| structural molecule activity | traceable author statement|GO:0005198//cellular component| nuclear pore | inferred from d
biological process| protein-vacuolar targeting | inferred from mutant phenotype|GO:0006623
molecular function| snoRNA binding | traceable author statement|GO:0030515//cellular component| nucleolus | inferred from direct assay|G
molecular function| translation initiation factor activity | traceable author statement|GO:0003743//cellular component| ribosome | traceable a
molecular function| manganese superoxide dismutase activity | inferred from direct assay|GO:0008383//cellular component| mitochondrial m
molecular function| structural constituent of cytoskeleton | inferred from physical interaction|GO:0005200//cellular component| condensed nu
molecular function| protein carrier activity | inferred from sequence similarity|GO:0008320//molecular function| protein carrier activity | inferre
NA
molecular function| enzyme regulator activity | inferred from physical interaction|GO:0030234//molecular function| enzyme regulator activity
molecular function| MAP-kinase scaffold activity | inferred from physical interaction|GO:0005078//molecular function| MAP kinase kinase act
molecular function| methylenetetrahydrofolate dehydrogenase (NADP+) activity | inferred from direct assay|GO:0004488//molecular function
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| response to drug | inferred from mutant phenoty
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737
NA
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//cellular component| membrane fraction | inferred from
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| alcohol dehydrogenase (NADP+) activity | inferred from sequence similarity|GO:0008106//molecular function| alcohol de
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
cellular component| vacuole (sensu Fungi) | inferred from direct assay|GO:0000324
NA
molecular function| transcription factor activity | inferred from direct assay|GO:0003700//cellular component| nucleus | non-traceable author
molecular function| transketolase activity | inferred from sequence similarity|GO:0004802//cellular component| cytoplasm | inferred from dire
molecular function| prenyl-dependent CAAX protease activity | inferred from direct assay|GO:0008487//molecular function| metalloendopept
molecular function| mannose transporter activity | inferred from genetic interaction|GO:0015578//molecular function| glucose transporter act
NA
cellular component| Golgi apparatus | inferred from direct assay|GO:0005794//biological process| cell wall organization and biogenesis | infe
molecular function| protein binding | inferred from direct assay|GO:0005515//cellular component| peroxisomal membrane | inferred from mu
molecular function| structural molecule activity | traceable author statement|GO:0005198//molecular function| ubiquitin-protein ligase activity
biological process| mRNA processing | inferred from physical interaction|GO:0006397
NA
molecular function| ubiquitin activating enzyme activity | traceable author statement|GO:0004839//cellular component| cytoplasm | inferred f
molecular function| electron carrier activity | inferred from sequence similarity|GO:0009055//molecular function| electron carrier activity | infe
NA
cellular component| membrane | inferred from sequence similarity|GO:0016020
NA
NA
NA
cellular component| vacuolar membrane (sensu Fungi) | inferred from direct assay|GO:0000329
molecular function| RNA helicase activity | inferred from sequence similarity|GO:0003724//molecular function| RNA helicase activity | inferre
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//molecular function| RNA binding | inferred
molecular function| structural molecule activity | traceable author statement|GO:0005198//cellular component| nuclear pore | inferred from d
NA
biological process| protein-vacuolar targeting | inferred from mutant phenotype|GO:0006623
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| DNA-directed RNA polymerase activity | traceable author statement|GO:0003899//cellular component| DNA-directed RN
molecular function| glyceraldehyde-3-phosphate dehydrogenase (phosphorylating) activity | inferred from direct assay|GO:0004365//cellular
molecular function| structural constituent of ribosome | inferred from sequence similarity|GO:0003735//cellular component| mitochondrial lar
molecular function| pre-mRNA splicing factor activity | inferred from direct assay|GO:0008248//cellular component| nucleus | inferred from d
cellular component| chromatin accessibility complex | inferred from sequence similarity|GO:0008623//cellular component| chromatin access
molecular function| proline-tRNA ligase activity | inferred from sequence similarity|GO:0004827
molecular function| transcription factor activity | inferred from direct assay|GO:0003700//cellular component| nucleus | inferred from physica
molecular function| DNA binding | inferred from physical interaction|GO:0003677//cellular component| GINS complex | inferred from physica
molecular function| peptidyl-prolyl cis-trans isomerase activity | inferred from direct assay|GO:0003755//cellular component| histone deacety
molecular function| guanylate kinase activity | inferred from direct assay|GO:0004385//cellular component| cytoplasm | inferred from direct a
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
cellular component| integral to membrane | inferred from sequence similarity|GO:0016021//cellular component| plasma membrane | inferred
cellular component| spliceosome complex | inferred from direct assay|GO:0005681//biological process| nuclear mRNA splicing, via spliceos
NA
cellular component| nucleus | inferred from direct assay|GO:0005634
cellular component| nucleus | inferred from physical interaction|GO:0005634//biological process| meiotic recombination | traceable author st
molecular function| ubiquitin-specific protease activity | traceable author statement|GO:0004843//cellular component| cytoplasm | inferred fro
cellular component| nucleus | inferred from direct assay|GO:0005634
molecular function| phosphatidate phosphatase activity | inferred from direct assay|GO:0008195//molecular function| diacylglycerol pyropho
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
NA
molecular function| aryl-alcohol dehydrogenase activity | inferred from sequence similarity|GO:0018456//biological process| aldehyde metab
molecular function| thiol-disulfide exchange intermediate activity | inferred from sequence similarity|GO:0030508//cellular component| cytoso
molecular function| deoxyribodipyrimidine photo-lyase activity | traceable author statement|GO:0003904//cellular component| nucleus | trace
molecular function| glyceraldehyde-3-phosphate dehydrogenase (phosphorylating) activity | inferred from direct assay|GO:0004365//cellular
cellular component| mitochondrion | inferred from sequence similarity|GO:0005739//cellular component| mitochondrion | inferred from direct
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| transcriptional activator activity | traceable author statement|GO:0016563//cellular component| CCAAT-binding factor co
cellular component| mitochondrion | inferred from direct assay|GO:0005739
cellular component| bud neck | inferred from direct assay|GO:0005935//cellular component| nucleus | inferred from direct assay |GO:000563
molecular function| protein threonine/tyrosine kinase activity | inferred from direct assay|GO:0004712//cellular component| spindle pole body
molecular function| nuclease activity | inferred from sequence similarity|GO:0004518//cellular component| mitochondrion | inferred from dire
molecular function| 1,3-beta-glucanosyltransferase activity | inferred from sequence similarity|GO:0042124//cellular component| cell wall (se
molecular function| structural molecule activity | inferred from mutant phenotype|GO:0005198//molecular function| structural molecule activit
molecular function| protein binding | traceable author statement|GO:0005515//molecular function| ubiquitin-protein ligase activity | traceable
molecular function| DNA-directed RNA polymerase activity | traceable author statement|GO:0003899//cellular component| DNA-directed RN
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| alpha-1,3-mannosyltransferase activity | inferred from direct assay|GO:0000033//biological process| O-linked glycosylati
NA
molecular function| methylenetetrahydrofolate reductase (NADPH) activity | inferred from direct assay|GO:0004489//cellular component| cel
molecular function| pre-mRNA splicing factor activity | inferred from physical interaction|GO:0008248//cellular component| cytoplasm | inferr
molecular function| orotate phosphoribosyltransferase activity | traceable author statement|GO:0004588//cellular component| cytoplasm | in
molecular function| gamma DNA-directed DNA polymerase activity | traceable author statement|GO:0003895//cellular component| mitochon
molecular function| enzyme regulator activity | inferred from direct assay|GO:0030234//cellular component| anaphase-promoting complex | t
molecular function| phosphoinositide phospholipase C activity | inferred from sequence similarity|GO:0004435//cellular component| nucleus
molecular function| galactose transporter activity | inferred from genetic interaction|GO:0005354//cellular component| plasma membrane | in
molecular function| DNA-directed RNA polymerase activity | traceable author statement|GO:0003899//cellular component| DNA-directed RN
NA
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| translation initiation factor activity | traceable author statement|GO:0003743//cellular component| ribosome | traceable a
molecular function| phosphoserine phosphatase activity | inferred from mutant phenotype|GO:0004647//cellular component| cytoplasm | infe
molecular function| protein serine/threonine kinase activity | inferred from sequence similarity|GO:0004674//cellular component| cytoplasm |
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| cyclin-dependent protein kinase regulator activity | inferred from mutant phenotype|GO:0016538//molecular function| cyc
molecular function| protein kinase inhibitor activity | inferred from mutant phenotype|GO:0004860//cellular component| mitochondrion | inferr
molecular function| ATPase activity | traceable author statement|GO:0016887//molecular function| endopeptidase activity | traceable author
NA
molecular function| ATPase activity, coupled to transmembrane movement of substances | inferred from sequence similarity|GO:0042626//c
molecular function| transcription factor activity | traceable author statement|GO:0003700//molecular function| DNA binding | traceable autho
molecular function| protein binding | inferred from physical interaction|GO:0005515//cellular component| bud neck | inferred from direct assa
molecular function| transcriptional activator activity | traceable author statement|GO:0016563//molecular function| specific RNA polymerase
molecular function| S-adenosylmethionine-dependent methyltransferase activity | inferred from sequence similarity|GO:0008757//cellular co
molecular function| pre-mRNA splicing factor activity | inferred from physical interaction|GO:0008248//cellular component| small nuclear ribo
NA
molecular function| kinase activity | traceable author statement|GO:0016301//cellular component| cytoplasm | traceable author statement|GO
molecular function| L-malate dehydrogenase activity | traceable author statement|GO:0030060//cellular component| mitochondrial matrix | tr
NA
NA
molecular function| C-3 sterol dehydrogenase (C-4 sterol decarboxylase) activity | inferred from direct assay|GO:0000252//cellular compone
molecular function| histone acetyltransferase activity | inferred from direct assay|GO:0004402//cellular component| histone acetyltransferase
cellular component| membrane | inferred from sequence similarity|GO:0016020//biological process| response to stress | inferred from direct
cellular component| cell | traceable author statement|GO:0005623//biological process| DNA topological change | inferred from physical inter
molecular function| protein binding | inferred from physical interaction|GO:0005515//cellular component| Golgi transport complex | inferred fr
molecular function| S-adenosylmethionine-dependent methyltransferase activity | inferred from sequence similarity|GO:0008757
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| SNF1A/AMP-activated protein kinase activity | inferred from mutant phenotype|GO:0004679//molecular function| RNA po
molecular function| homocitrate synthase activity | inferred from sequence similarity|GO:0004410//molecular function| homocitrate synthase
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
cellular component| mitochondrion | inferred from direct assay|GO:0005739//biological process| mitochondrion organization and biogenesis
molecular function| structural molecule activity | inferred from mutant phenotype|GO:0005198//molecular function| structural molecule activit
molecular function| transcription regulator activity | traceable author statement|GO:0030528//cellular component| nucleus | inferred from cur
molecular function| aspartic-type endopeptidase activity | traceable author statement|GO:0004190//cellular component| periplasmic space (s
molecular function| ubiquitin-protein ligase activity | traceable author statement|GO:0004842//cellular component| nucleolus | inferred from d
molecular function| metallopeptidase activity | inferred from mutant phenotype|GO:0008237//molecular function| metallopeptidase activity | i
molecular function| DNA binding | inferred from direct assay|GO:0003677//cellular component| nucleus | traceable author statement|GO:000
cellular component| mitochondrion | inferred from direct assay|GO:0005739
NA
molecular function| UDP-glucose 4-epimerase activity | inferred from direct assay|GO:0003978//biological process| galactose metabolism | n
molecular function| endopeptidase activity | traceable author statement|GO:0004175//cellular component| proteasome core complex, beta-s
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737
cellular component| lipid particle | inferred from direct assay|GO:0005811
molecular function| specific RNA polymerase II transcription factor activity | inferred from direct assay|GO:0003704//cellular component| cyto
NA
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//biological process| retrograde transport, Golgi to ER | i
molecular function| SNARE binding | inferred from direct assay|GO:0000149//cellular component| bud neck | inferred from direct assay|GO:
molecular function| saccharolysin activity | inferred from direct assay|GO:0004247//molecular function| metalloendopeptidase activity | inferr
cellular component| cytoplasm | inferred from direct assay|GO:0005737
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
NA
cellular component| endoplasmic reticulum membrane | inferred from direct assay|GO:0005789//biological process| meiotic chromosome se
cellular component| mitochondrial membrane | inferred from direct assay|GO:0005740//biological process| copper ion transport | inferred fro
cellular component| nuclear condensin complex | traceable author statement|GO:0000799//cellular component| nuclear condensin complex
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783
NA
NA
molecular function| histone deacetylase activity | inferred from physical interaction|GO:0004407//cellular component| Sin3 complex | inferred
NA
NA
NA
NA
molecular function| RAN protein binding | inferred from direct assay|GO:0008536//molecular function| tRNA binding | traceable author statem
molecular function| protein serine/threonine kinase activity | inferred from mutant phenotype|GO:0004674//molecular function| protein serine
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| --- | inferred from mutant phenotype|GO:0048487//molecular function| tubulin binding | inferred from direct assay |GO:00
molecular function| aspartate transaminase activity | inferred from sequence similarity|GO:0004069//cellular component| mitochondrion | tra
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| phosphatidylinositol binding | inferred from direct assay|GO:0005545//molecular function| structural constituent of cytosk
cellular component| nucleolus | inferred from direct assay|GO:0005730//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| phosphoglucomutase activity | inferred from sequence similarity|GO:0004614//molecular function| phosphoglucomutase
NA
molecular function| glycerol transporter activity | inferred from direct assay|GO:0015168//molecular function| transporter activity | inferred fro
molecular function| ubiquitin conjugating enzyme activity | traceable author statement|GO:0004840//cellular component| proteasome comple
molecular function| nucleoside-triphosphatase activity | inferred from direct assay|GO:0017111//molecular function| hydrolase activity | infer
NA
NA
NA
NA
molecular function| metalloendopeptidase activity | inferred from sequence similarity|GO:0004222//molecular function| metalloendopeptidas
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| glutamate biosynthesis | inferred from mutant p
molecular function| RNA polymerase III transcription factor activity | traceable author statement|GO:0003709//cellular component| transcript
molecular function| ATPase activity, coupled to transmembrane movement of ions, phosphorylative mechanism | inferred from mutant phen
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| protein binding | inferred from sequence similarity|GO:0005515//cellular component| shmoo tip | inferred from direct assa
cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| chromatin silencing at silent mating-type cassette
molecular function| transporter activity | inferred from sequence similarity|GO:0005215//cellular component| membrane | inferred from seque
molecular function| hydrolase activity | inferred from direct assay|GO:0016787//molecular function| mRNA binding | inferred from physical in
NA
NA
cellular component| small nuclear ribonucleoprotein complex | traceable author statement|GO:0030532//cellular component| small nucleolar
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//cellular component| cytoplasm | inferred from direct as
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783
molecular function| protein binding | traceable author statement|GO:0005515//cellular component| peroxisomal membrane | traceable autho
molecular function| phosphogluconate dehydrogenase (decarboxylating) activity | inferred from mutant phenotype|GO:0004616//cellular com
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| ceramidase activity | inferred from direct assay|GO:0017040//cellular component| endoplasmic reticulum | inferred from
molecular function| protein phosphatase type 2A regulator activity | inferred from sequence similarity|GO:0008601//molecular function| prote
molecular function| nicotinamide riboside kinase activity | inferred from direct assay|GO:0000816//cellular component| cytoplasm | inferred f
cellular component| mitochondrion | inferred from direct assay|GO:0005739
NA
molecular function| telomerase activity | inferred from physical interaction|GO:0003720//molecular function| telomerase activity | inferred from
molecular function| helicase activity | inferred from sequence similarity|GO:0004386//cellular component| nucleus | inferred from direct assa
NA
molecular function| structural constituent of cytoskeleton | inferred from physical interaction|GO:0005200//cellular component| outer plaque
molecular function| signal sequence binding | inferred from sequence similarity|GO:0005048//biological process| Golgi to vacuole transport |
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//biological process| response to stress | inferred from m
molecular function| uridine kinase activity | inferred from mutant phenotype|GO:0004849//cellular component| cytoplasm | inferred from direc
molecular function| uroporphyrinogen-III synthase activity | inferred from sequence similarity|GO:0004852//molecular function| uroporphyrino
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| DASH complex | inferr
molecular function| translation factor activity, nucleic acid binding | inferred from mutant phenotype|GO:0008135//molecular function| transla
cellular component| TRAPP | inferred from direct assay|GO:0030008//biological process| ER to Golgi transport | inferred from mutant pheno
molecular function| holo-[acyl-carrier protein] synthase activity | inferred from direct assay|GO:0008897//cellular component| mitochondrion
NA
molecular function| pyruvate carrier activity | inferred from mutant phenotype|GO:0005477//molecular function| transporter activity | inferred
molecular function| alpha,alpha-trehalose-phosphate synthase (UDP-forming) activity | inferred from mutant phenotype|GO:0003825//molec
molecular function| rRNA (adenine-N6,N6-)-dimethyltransferase activity | traceable author statement|GO:0000179//cellular component| nucl
cellular component| nucleus | inferred from direct assay|GO:0005634//cellular component| histone acetyltransferase complex | inferred from
cellular component| retromer complex | traceable author statement|GO:0030904//cellular component| endosome | inferred from physical inte
molecular function| histone-lysine N-methyltransferase activity | inferred from sequence similarity|GO:0018024//molecular function| histone-
NA
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
molecular function| protein binding | inferred from direct assay|GO:0005515//cellular component| spindle | inferred from direct assay|GO:000
molecular function| protein binding | inferred from physical interaction|GO:0005515//cellular component| bud | inferred from direct assay|GO
molecular function| DNA binding | inferred from sequence similarity|GO:0003677//cellular component| nucleus | inferred from sequence sim
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
NA
cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| mitotic spindle checkpoint | inferred from mutant p
NA
NA
cellular component| vacuolar membrane (sensu Fungi) | inferred from direct assay|GO:0000329
molecular function| phosphoacetylglucosamine mutase activity | inferred from sequence similarity|GO:0004610//molecular function| phospho
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| endopeptidase activity | traceable author statement|GO:0004175//cellular component| proteasome core complex, beta-s
molecular function| pyruvate carboxylase activity | inferred from mutant phenotype|GO:0004736//molecular function| pyruvate carboxylase a
molecular function| ubiquitin-like conjugating enzyme activity | inferred from sequence similarity|GO:0008640//molecular function| ubiquitin-l
NA
cellular component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277//biological process| cytogamy | inferred from mutant ph
molecular function| monocarboxylic acid transporter activity | inferred from mutant phenotype|GO:0008028//molecular function| monocarbox
molecular function| ATP-dependent DNA helicase activity | traceable author statement|GO:0004003//molecular function| chromatin binding
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| serine hydrolase activity | inferred from direct assay|GO:0017171//cellular component| lipid particle | inferred from direct
molecular function| pre-mRNA splicing factor activity | traceable author statement|GO:0008248//molecular function| ATP-dependent RNA he
NA
NA
cellular component| COPI-coated vesicle | inferred from direct assay|GO:0030137//cellular component| Golgi apparatus | inferred from direc
molecular function| RNA polymerase II transcription mediator activity | inferred from direct assay|GO:0016455//cellular component| mediato
molecular function| protein binding | inferred from physical interaction|GO:0005515//molecular function| protein binding | inferred from genet
NA
molecular function| structural molecule activity | traceable author statement|GO:0005198//cellular component| nuclear pore | inferred from d
molecular function| snoRNA binding | inferred from direct assay|GO:0030515//cellular component| nucleolus | traceable author statement|G
NA
molecular function| allantoate transporter activity | inferred from sequence similarity|GO:0015124//molecular function| allantoate transporter
NA
molecular function| RNA polymerase II transcription factor activity | traceable author statement|GO:0003702//molecular function| DNA replic
molecular function| pre-mRNA splicing factor activity | inferred from physical interaction|GO:0008248//cellular component| small nuclear ribo
molecular function| RNA binding | inferred from physical interaction|GO:0003723//cellular component| snRNP U1 | traceable author stateme
molecular function| N-acetylglucosaminylphosphatidylinositol deacetylase activity | inferred from sequence similarity|GO:0000225//cellular c
molecular function| DNA ligase (ATP) activity | inferred from direct assay|GO:0003910//cellular component| mitochondrion | inferred from mu
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| kinase activator activity | inferred from mutant phenotype|GO:0019209//cellular component| cytoplasm | inferred from dir
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
cellular component| TRAPP | inferred from direct assay|GO:0030008//biological process| ER to Golgi transport | inferred from mutant pheno
cellular component| nucleolus | inferred from direct assay|GO:0005730//biological process| ER to Golgi transport | inferred from genetic inte
NA
molecular function| cyclin-dependent protein kinase regulator activity | traceable author statement|GO:0016538//cellular component| spindle
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
cellular component| spliceosome complex | inferred from direct assay|GO:0005681//biological process| nuclear mRNA splicing, via spliceos
biological process| meiotic recombination | inferred from mutant phenotype|GO:0007131//biological process| double-strand break repair | tra
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| sporulation | inferred from mutant phenotype|GO
NA
NA
NA
molecular function| specific RNA polymerase II transcription factor activity | inferred from direct assay|GO:0003704//cellular component| nuc
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
cellular component| shmoo tip | inferred from direct assay|GO:0005937//cellular component| bud | inferred from direct assay |GO:0005933//
NA
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| DNA bending activity | inferred from direct assay|GO:0008301//molecular function| DNA binding | inferred from direct ass
cellular component| vacuole (sensu Fungi) | inferred from direct assay|GO:0000324
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic small ribosom
cellular component| Golgi transport complex | inferred from physical interaction|GO:0017119//biological process| intra-Golgi transport | infer
molecular function| carnitine/acyl carnitine carrier activity | inferred from direct assay|GO:0005476//cellular component| mitochondrial inner m
NA
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
cellular component| lipid particle | inferred from direct assay|GO:0005811//biological process| aerobic respiration | inferred from expression
NA
cellular component| endoplasmic reticulum | no biological data available|GO:0005783//cellular component| cytoplasm | inferred from direct a
molecular function| inositol-polyphosphate 5-phosphatase activity | inferred from sequence similarity|GO:0004445//cellular component| actin
NA
molecular function| structural constituent of cytoskeleton | traceable author statement|GO:0005200//molecular function| actin binding | trace
NA
molecular function| protein binding | traceable author statement|GO:0005515//molecular function| ubiquitin-protein ligase activity | traceable
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783
molecular function| RNA polymerase I transcription factor activity | traceable author statement|GO:0003701//cellular component| RNA polym
NA
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| DNA-directed DNA polymerase activity | inferred from direct assay|GO:0003887//cellular component| nucleus | inferred f
molecular function| general RNA polymerase II transcription factor activity | traceable author statement|GO:0016251//cellular component| SW
NA
cellular component| cytosol | inferred from direct assay|GO:0005829//cellular component| vacuolar membrane (sensu Fungi) | inferred from
molecular function| protein serine/threonine kinase activity | inferred from sequence similarity|GO:0004674//molecular function| protein serin
NA
NA
molecular function| ATP binding | inferred from sequence similarity|GO:0005524//cellular component| mitochondrion | inferred from direct as
cellular component| snRNP U5 | inferred from physical interaction|GO:0005682//cellular component| snRNP U5 | inferred from direct assay
molecular function| protein binding | inferred from direct assay|GO:0005515//cellular component| endosome | inferred from direct assay|GO:
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
cellular component| endosome | inferred from direct assay|GO:0005768
molecular function| 3'-5'-exoribonuclease activity | traceable author statement|GO:0000175//cellular component| CCR4-NOT core complex |
cellular component| nucleolus | inferred from direct assay|GO:0005730//cellular component| nucleus | inferred from direct assay |GO:00056
NA
NA
molecular function| snoRNA binding | inferred from physical interaction|GO:0030515//cellular component| small nucleolar ribonucleoprotein
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
cellular component| bud neck | inferred from direct assay|GO:0005935//cellular component| bud | inferred from direct assay |GO:0005933//b
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| regulation of cyclin dependent protein kinase ac
cellular component| cell wall (sensu Fungi) | traceable author statement|GO:0009277//biological process| response to nutrients | inferred fro
molecular function| hydrogen-transporting ATP synthase activity, rotational mechanism | inferred from mutant phenotype|GO:0046933//cellu
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
cellular component| mitochondrion | inferred from direct assay|GO:0005739
molecular function| cytochrome-b5 reductase activity | inferred from direct assay|GO:0004128//cellular component| mitochondrial intermemb
cellular component| cytoplasm | inferred from direct assay|GO:0005737
cellular component| nucleolus | inferred from direct assay|GO:0005730//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
biological process| regulation of translational termination | inferred from mutant phenotype|GO:0006449
molecular function| cleavage/polyadenylation specificity factor activity | traceable author statement|GO:0030364//molecular function| cleava
molecular function| DNA-directed RNA polymerase activity | traceable author statement|GO:0003899//cellular component| DNA-directed RN
cellular component| nucleus | inferred from direct assay|GO:0005634
NA
molecular function| nucleic acid binding | inferred from direct assay|GO:0003676//cellular component| THO complex | inferred from physical
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| negative regulation of transcription from Pol II prom
molecular function| hydrolase activity, acting on carbon-nitrogen (but not peptide) bonds | inferred from sequence similarity|GO:0016810
molecular function| manganese ion transporter activity | inferred from sequence similarity|GO:0005384//molecular function| manganese ion
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//biological process| protein processing | inferred from m
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783
molecular function| beta DNA polymerase activity | traceable author statement|GO:0003890//cellular component| nucleus | traceable author
biological process| sporulation | traceable author statement|GO:0030435
NA
cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| bud site selection | inferred from mutant phenotyp
NA
molecular function| protein binding | inferred from mutant phenotype|GO:0005515//molecular function| protein binding | inferred from direct a
molecular function| general RNA polymerase II transcription factor activity | traceable author statement|GO:0016251//cellular component| tra
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| peptidase activity | inferred from m
molecular function| protein transporter activity | inferred from physical interaction|GO:0008565//molecular function| protein transporter activit
molecular function| acid phosphatase activity | inferred from sequence similarity|GO:0003993//cellular component| cell wall (sensu Fungi) | i
molecular function| citrate (Si)-synthase activity | traceable author statement|GO:0004108//cellular component| mitochondrial matrix | non-tr
molecular function| transferase activity, transferring glycosyl groups | inferred from sequence similarity|GO:0016757//molecular function| ma
molecular function| protein kinase activity | inferred from direct assay|GO:0004672//cellular component| nucleus | traceable author statemen
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
NA
molecular function| S-adenosylmethionine-dependent methyltransferase activity | inferred from sequence similarity|GO:0008757//molecular
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| cyclin binding | inferred from direct assay|GO:0030332//cellular component| cytoplasm | inferred from direct assay|GO:0
molecular function| protein binding | inferred from direct assay|GO:0005515//cellular component| cytoplasm | inferred from direct assay|GO:
cellular component| cytosolic ribosome (sensu Eukarya) | inferred from direct assay|GO:0005830//cellular component| cytosol | inferred from
molecular function| transcription factor activity | inferred from sequence similarity|GO:0003700//molecular function| transcription factor activi
molecular function| transcription corepressor activity | inferred from direct assay|GO:0003714//cellular component| nucleus | inferred from ph
molecular function| ATPase activity | inferred from sequence similarity|GO:0016887//molecular function| metallopeptidase activity | inferred f
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
cellular component| condensed nuclear chromosome kinetochore | inferred from physical interaction|GO:0000778//biological process| mitot
molecular function| ATPase activity | traceable author statement|GO:0016887//cellular component| cytoplasm | inferred from direct assay|GO
molecular function| 3'-5'-exoribonuclease activity | inferred from direct assay|GO:0000175//cellular component| CCR4-NOT core complex | in
molecular function| allantoin permease activity | traceable author statement|GO:0005274//molecular function| allantoin permease activity | in
cellular component| mitochondrial outer membrane | inferred from direct assay|GO:0005741//cellular component| mitochondrion | inferred fr
NA
molecular function| GTPase activator activity | traceable author statement|GO:0005096//cellular component| spindle pole body | inferred from
cellular component| RSC complex | inferred from physical interaction|GO:0016586//cellular component| nucleus | inferred from direct assay
molecular function| hydrogen-transporting ATPase activity, rotational mechanism | traceable author statement|GO:0046961//cellular compon
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| mRNA binding | inferred from physical interaction|GO:0003729//cellular component| cytoplasm | inferred from direct ass
cellular component| nucleus | inferred from direct assay|GO:0005634
molecular function| microtubule binding | inferred from physical interaction|GO:0008017//cellular component| microtubule associated comple
molecular function| thioredoxin peroxidase activity | inferred from sequence similarity|GO:0008379//molecular function| thioredoxin peroxida
NA
molecular function| centromeric DNA binding | inferred from direct assay|GO:0019237//molecular function| DNA bending activity | inferred fr
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| GTPase activity | traceable author statement|GO:0003924//cellular component| shmoo tip | inferred from direct assay|GO
NA
molecular function| basic amino acid transporter activity | inferred from mutant phenotype|GO:0015174//molecular function| basic amino aci
NA
molecular function| DNA replication origin binding | traceable author statement|GO:0003688//cellular component| nuclear origin of replicatio
cellular component| AP-2 adaptor complex | inferred from sequence similarity|GO:0030122//biological process| intracellular protein transpor
NA
molecular function| chitin deacetylase activity | inferred from sequence similarity|GO:0004099//molecular function| chitin deacetylase activity
NA
molecular function| hydrolase activity | inferred from direct assay|GO:0016787
molecular function| ribonuclease P activity | inferred from direct assay|GO:0004526//molecular function| ribonuclease MRP activity | inferred
biological process| cell wall organization and biogenesis | inferred from mutant phenotype|GO:0007047
molecular function| mannose transporter activity | traceable author statement|GO:0015578//molecular function| glucose transporter activity |
molecular function| specific RNA polymerase II transcription factor activity | inferred from sequence similarity|GO:0003704//molecular functio
cellular component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277
molecular function| GTPase activity | inferred from sequence similarity|GO:0003924//molecular function| GTPase activity | inferred from mut
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| succinate dehydrogenase (ubiquinone) activity | inferred from sequence similarity|GO:0008177//molecular function| succ
NA
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| ubiquitin-specific protease activity | inferred from direct assay|GO:0004843//cellular component| cytoplasm | inferred from
NA
molecular function| prephenate dehydratase activity | traceable author statement|GO:0004664//cellular component| cytoplasm | inferred from
molecular function| peroxisome targeting signal-2 receptor activity | inferred from physical interaction|GO:0005053//molecular function| pero
molecular function| acetylglucosaminyltransferase activity | inferred from direct assay|GO:0008375//cellular component| Golgi medial cistern
molecular function| snoRNA binding | inferred from physical interaction|GO:0030515//cellular component| small nucleolar ribonucleoprotein
molecular function| carbohydrate binding | inferred from sequence similarity|GO:0030246//molecular function| carbohydrate binding | inferre
molecular function| DNA binding | inferred from sequence similarity|GO:0003677//cellular component| RSC complex | inferred from physical
cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| cell proliferation | inferred from direct assay|GO:00
NA
molecular function| rRNA primary transcript binding | inferred from physical interaction|GO:0042134//cellular component| nucleolus | inferred
molecular function| RNA binding | inferred from physical interaction|GO:0003723//cellular component| small nuclear ribonucleoprotein comp
molecular function| structural constituent of cytoskeleton | inferred from physical interaction|GO:0005200//cellular component| spindle pole b
molecular function| uroporphyrinogen decarboxylase activity | inferred from sequence similarity|GO:0004853//molecular function| uroporphy
molecular function| transcription cofactor activity | inferred from direct assay|GO:0003712//cellular component| nucleus | inferred from genet
NA
molecular function| hydrolase activity, acting on carbon-nitrogen (but not peptide) bonds, in linear amides | inferred from mutant phenotype|G
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| G2/M transition of mitotic cell cycle | inferred fro
molecular function| RNA polymerase III transcription factor activity | traceable author statement|GO:0003709//cellular component| transcript
molecular function| protein binding | inferred from physical interaction|GO:0005515//cellular component| actin cortical patch (sensu Fungi) |
molecular function| ATP-dependent RNA helicase activity | traceable author statement|GO:0004004//cellular component| nucleolus | traceab
molecular function| translation initiation factor activity | traceable author statement|GO:0003743//molecular function| translation initiation fac
molecular function| oxidoreductase activity, acting on CH2 groups, NAD or NADP as acceptor | inferred from sequence similarity|GO:00167
molecular function| Pol II transcription elongation factor activity | inferred from physical interaction|GO:0016944//cellular component| Cdc73/
molecular function| mannosyltransferase activity | inferred from sequence similarity|GO:0000030//cellular component| Golgi apparatus | infe
molecular function| ATPase activity, coupled to transmembrane movement of substances | inferred from sequence similarity|GO:0042626//m
biological process| cell wall mannoprotein biosynthesis | inferred from mutant phenotype|GO:0000032
molecular function| endopeptidase activity | traceable author statement|GO:0004175//cellular component| proteasome core complex, beta-s
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| inositol/phosphatidylinositol kinase activity | inferred from mutant phenotype|GO:0004428//molecular function| inositol/ph
molecular function| protein phosphatase type 2A activity | traceable author statement|GO:0000158//cellular component| bud neck | inferred
molecular function| ubiquitin-protein ligase activity | traceable author statement|GO:0004842//cellular component| cytoplasm | inferred from
molecular function| fumarate hydratase activity | traceable author statement|GO:0004333//cellular component| cytosol | inferred from direct
molecular function| helicase activity | inferred from sequence similarity|GO:0004386//molecular function| DNA helicase activity | inferred from
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleolus | inferred from direct assay |GO:0005
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
NA
biological process| spore wall assembly (sensu Fungi) | inferred from mutant phenotype|GO:0030476
cellular component| membrane | inferred from direct assay|GO:0016020//biological process| membrane organization and biogenesis | inferr
molecular function| transcription factor activity | inferred from sequence similarity|GO:0003700
cellular component| chromatin assembly complex | inferred from direct assay|GO:0005678//cellular component| nucleus | inferred from direc
molecular function| protein kinase activity | inferred from direct assay|GO:0004672//cellular component| cytoplasm | inferred from direct assa
NA
molecular function| protein binding | inferred from physical interaction|GO:0005515//cellular component| histone deacetylase complex | infer
molecular function| mRNA binding | inferred from direct assay|GO:0003729//cellular component| cytoplasm | inferred from direct assay|GO:0
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
biological process| thiamin biosynthesis | traceable author statement|GO:0009228
molecular function| dolichyl-phosphate-mannose-protein mannosyltransferase activity | traceable author statement|GO:0004169//cellular co
NA
molecular function| snoRNA binding | traceable author statement|GO:0030515//cellular component| nucleolus | inferred from direct assay|G
molecular function| acetyl-CoA C-acyltransferase activity | traceable author statement|GO:0003988//cellular component| peroxisomal matrix
molecular function| general RNA polymerase II transcription factor activity | traceable author statement|GO:0016251//cellular component| tra
NA
molecular function| chorismate mutase activity | inferred from direct assay|GO:0004106//cellular component| cytoplasm | inferred from direc
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| copper uptake transporter activity | inferred from direct assay|GO:0015088//cellular component| integral to plasma mem
molecular function| Pol II transcription elongation factor activity | inferred from physical interaction|GO:0016944//molecular function| Pol II tra
molecular function| enzyme activator activity | inferred from genetic interaction|GO:0008047//biological process| sporulation (sensu Fungi) |
molecular function| ATP-dependent RNA helicase activity | traceable author statement|GO:0004004//molecular function| ATP-dependent RN
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| GPI-anchor transamidase activity | inferred from sequence similarity|GO:0003923//molecular function| GPI-anchor trans
cellular component| bud neck | inferred from direct assay|GO:0005935//cellular component| cytoplasm | inferred from direct assay |GO:0005
NA
molecular function| protein binding | traceable author statement|GO:0005515//molecular function| ubiquitin-protein ligase activity | traceable
NA
molecular function| protein binding | inferred from mutant phenotype|GO:0005515//molecular function| protein binding | inferred from direct a
NA
molecular function| Pol II transcription elongation factor activity | inferred from physical interaction|GO:0016944//molecular function| ATPase
molecular function| structural molecule activity | traceable author statement|GO:0005198//cellular component| nuclear pore | inferred from d
molecular function| ubiquitin conjugating enzyme activity | traceable author statement|GO:0004840//cellular component| cytoplasm | inferred
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
NA
cellular component| nucleolus | traceable author statement|GO:0005730//biological process| ribosomal large subunit biogenesis | inferred fr
molecular function| 3-keto sterol reductase activity | inferred from mutant phenotype|GO:0000253//cellular component| endoplasmic reticulu
cellular component| integral to membrane | inferred from sequence similarity|GO:0016021//cellular component| cell cortex | inferred from dir
cellular component| SCF ubiquitin ligase complex | inferred from physical interaction|GO:0019005
molecular function| cAMP-specific phosphodiesterase activity | traceable author statement|GO:0004115//biological process| cAMP-mediated
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| transcription corepressor activity | inferred from direct assay|GO:0003714//cellular component| nucleus | inferred from di
NA
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| carboxy-lyase activity | inferred from sequence similarity|GO:0016831//molecular function| carboxy-lyase activity | inferre
molecular function| ATPase activity | inferred from direct assay|GO:0016887//cellular component| intracellular | inferred from direct assay|GO
molecular function| transcription corepressor activity | traceable author statement|GO:0003714//cellular component| cytoplasm | inferred from
molecular function| 5'-3' exoribonuclease activity | inferred from direct assay|GO:0004534//cellular component| nucleus | inferred from direct
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| ion transporter activity | traceable author statement|GO:0015075//cellular component| endoplasmic reticulum | inferred fr
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| specific RNA polymerase II transcription factor activity | traceable author statement|GO:0003704//cellular component| nu
NA
molecular function| tRNA isopentenyltransferase activity | inferred from direct assay|GO:0004811//cellular component| cytosol | inferred from
molecular function| Rho GTPase activator activity | inferred from sequence similarity|GO:0005100//molecular function| signal transducer act
NA
molecular function| specific transcriptional repressor activity | inferred from direct assay|GO:0016566//cellular component| nucleus | inferred
molecular function| DNA-directed RNA polymerase activity | traceable author statement|GO:0003899//cellular component| DNA-directed RN
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
cellular component| mitochondrion | inferred from direct assay|GO:0005739
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
cellular component| integral to membrane | inferred from sequence similarity|GO:0016021
NA
NA
cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| double-strand break repair | inferred from direct as
NA
NA
NA
NA
cellular component| mitochondrion | inferred from direct assay|GO:0005739
molecular function| formate dehydrogenase activity | inferred from sequence similarity|GO:0008863//molecular function| formate dehydroge
molecular function| protein binding | inferred from sequence similarity|GO:0005515//molecular function| RNA binding | inferred from sequenc
NA
cellular component| integral to membrane | inferred from sequence similarity|GO:0016021//cellular component| Golgi apparatus | inferred fro
molecular function| protein farnesyltransferase activity | inferred from direct assay|GO:0004660//cellular component| protein farnesyltransfer
cellular component| nucleus | inferred from direct assay|GO:0005634
molecular function| protein-glutamine gamma-glutamyltransferase activity | inferred from sequence similarity|GO:0003810//cellular compone
molecular function| 2',3'-cyclic-nucleotide 3'-phosphodiesterase activity | inferred from mutant phenotype|GO:0004113//molecular function| 2
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//molecular function| structural constituent o
molecular function| spermine synthase activity | inferred from mutant phenotype|GO:0016768//cellular component| cytoplasm | inferred from
NA
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| phosphatidylinositol 3-kinase activity | inferred from direct assay|GO:0016303//molecular function| protein kinase activity
cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| negative regulation of DNA transposition | inferred
molecular function| inositol-polyphosphate 5-phosphatase activity | inferred from sequence similarity|GO:0004445//cellular component| actin
molecular function| aldehyde dehydrogenase activity | inferred from sequence similarity|GO:0004028//cellular component| cytoplasm | inferr
NA
molecular function| protein transporter activity | inferred from physical interaction|GO:0008565//molecular function| protein transporter activit
molecular function| protein kinase regulator activity | inferred from mutant phenotype|GO:0019887//cellular component| membrane | inferred
molecular function| poly(A) binding | traceable author statement|GO:0008143//cellular component| cytoplasm | traceable author statement|G
NA
molecular function| protein phosphatase type 1 regulator activity | traceable author statement|GO:0008599//molecular function| protein phos
molecular function| protein binding | inferred from physical interaction|GO:0005515//molecular function| ubiquitin-protein ligase activity | infe
molecular function| amino acid binding | inferred from mutant phenotype|GO:0016597//molecular function| amino acid binding | inferred from
molecular function| protein binding | inferred from physical interaction|GO:0005515//cellular component| nuclear envelope-endoplasmic retic
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
cellular component| nuclear membrane | inferred from physical interaction|GO:0005635
molecular function| cAMP-specific phosphodiesterase activity | traceable author statement|GO:0004115//cellular component| cytoplasm | inf
NA
molecular function| protein transporter activity | inferred from physical interaction|GO:0008565//molecular function| protein transporter activit
cellular component| signal peptidase complex | inferred from direct assay|GO:0005787//biological process| signal peptide processing | inferr
NA
molecular function| signal sequence binding | inferred from physical interaction|GO:0005048//cellular component| signal recognition particle
molecular function| ubiquinol-cytochrome-c reductase activity | inferred from direct assay|GO:0008121//cellular component| respiratory chai
NA
NA
NA
NA
molecular function| endonuclease activity | inferred from direct assay|GO:0004519//cellular component| nucleus | inferred from physical inte
cellular component| nucleus | inferred from direct assay|GO:0005634
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| nucleoside-triphosphatase activity | inferred from direct assay|GO:0017111//molecular function| hydrolase activity | infer
cellular component| nucleus | inferred from direct assay|GO:0005634//cellular component| nuclear condensin complex | traceable author sta
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| serine hydrolase activity | inferred from direct assay|GO:0017171//cellular component| lipid particle | inferred from direct
cellular component| signal recognition particle | inferred from sequence similarity|GO:0005786//cellular component| signal recognition partic
cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| double-strand break repair via nonhomologous en
cellular component| nuclear chromatin | inferred from direct assay|GO:0000790//biological process| sister chromatid cohesion | inferred from
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| peptidyl-prolyl cis-trans isomerase activity | inferred from sequence similarity|GO:0003755//cellular component| nucleus
molecular function| NAD-independent histone deacetylase activity | inferred from direct assay|GO:0045129//molecular function| NAD-depen
cellular component| integral to membrane | inferred from sequence similarity|GO:0016021//cellular component| mitochondrion | inferred from
molecular function| general RNA polymerase II transcription factor activity | traceable author statement|GO:0016251//cellular component| tra
molecular function| pre-mRNA splicing factor activity | traceable author statement|GO:0008248//molecular function| ATP-dependent RNA he
molecular function| protein kinase activity | inferred from sequence similarity|GO:0004672//cellular component| cytoplasm | inferred from dire
molecular function| specific RNA polymerase II transcription factor activity | inferred from sequence similarity|GO:0003704//molecular functio
molecular function| carboxylic ester hydrolase activity | inferred from direct assay|GO:0016789//molecular function| structural constituent of
molecular function| general RNA polymerase II transcription factor activity | traceable author statement|GO:0016251//cellular component| SW
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| protein binding | inferred from physical interaction|GO:0005515//biological process| thiamin biosynthesis | inferred from m
molecular function| histone lysine N-methyltransferase activity (H3-K4 specific) | inferred from direct assay|GO:0042800//molecular function
molecular function| specific RNA polymerase II transcription factor activity | inferred from sequence similarity|GO:0003704//molecular functio
molecular function| transporter activity | inferred from sequence similarity|GO:0005215//molecular function| transporter activity | inferred from
molecular function| protein kinase activity | inferred from sequence similarity|GO:0004672//cellular component| bud neck | inferred from dire
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| ligase activity | traceable author statement|GO:0016874//cellular component| intracellular | inferred from mutant phenoty
NA
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783
molecular function| protein serine/threonine kinase activity | traceable author statement|GO:0004674//cellular component| nucleoplasm | tra
NA
molecular function| specific RNA polymerase II transcription factor activity | inferred from direct assay|GO:0003704//cellular component| nuc
molecular function| ribonuclease P activity | inferred from direct assay|GO:0004526//molecular function| ribonuclease MRP activity | inferred
cellular component| nuclear exosome (RNase complex) | inferred from physical interaction|GO:0000176//biological process| processing of 2
molecular function| manganese ion transporter activity | inferred from mutant phenotype|GO:0005384//molecular function| manganese ion tr
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| alpha-1,6-mannosyltransferase activity | inferred from direct assay|GO:0000009//cellular component| mannosyltransfera
molecular function| calcium-dependent protein serine/threonine phosphatase activity | inferred from sequence similarity|GO:0004723//cellula
molecular function| guanyl-nucleotide exchange factor activity | inferred from direct assay|GO:0005085//cellular component| cytosol | inferre
molecular function| ubiquitin-specific protease activity | inferred from direct assay|GO:0004843//cellular component| cytoplasm | inferred from
molecular function| signal peptidase activity | inferred from mutant phenotype|GO:0009003//cellular component| signal peptidase complex |
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
NA
NA
molecular function| thiol-disulfide exchange intermediate activity | inferred from direct assay|GO:0030508//cellular component| mitochondrio
molecular function| peptide alpha-N-acetyltransferase activity | traceable author statement|GO:0004596//cellular component| cytoplasm | inf
molecular function| cleavage/polyadenylation specificity factor activity | inferred from direct assay|GO:0030364//cellular component| mRNA c
molecular function| endopeptidase inhibitor activity | inferred from direct assay|GO:0004866//cellular component| cytoplasm | traceable auth
molecular function| protein binding | traceable author statement|GO:0005515//cellular component| peroxisomal membrane | traceable autho
NA
cellular component| mitochondrion | inferred from direct assay|GO:0005739
molecular function| peptide-N4-(N-acetyl-beta-glucosaminyl)asparagine amidase activity | inferred from direct assay|GO:0000224//cellular c
molecular function| protein binding | inferred from direct assay|GO:0005515//cellular component| actin cortical patch (sensu Fungi) | inferred
molecular function| structural molecule activity | traceable author statement|GO:0005198//cellular component| nuclear pore | inferred from d
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| mitochondrial large rib
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| DNA replication origin binding | traceable author statement|GO:0003688//cellular component| nuclear origin of replicatio
molecular function| signal transducer activity | inferred from mutant phenotype|GO:0004871//cellular component| nucleus | traceable author
molecular function| protein binding | inferred from physical interaction|GO:0005515//molecular function| ubiquitin-protein ligase activity | infe
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| GTPase activity | inferred from direct assay|GO:0003924//cellular component| cytoplasm | inferred from direct assay|GO
cellular component| mitochondrial outer membrane | inferred from direct assay|GO:0005741//biological process| mitochondrion organization
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| methionyl aminopeptidase activity | inferred from direct assay|GO:0004239//cellular component| cytoplasm | traceable a
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| ubiquitin-dependent protein catabolism | inferre
molecular function| tubulin binding | inferred from direct assay|GO:0015631//cellular component| prefoldin complex | inferred from sequence
NA
NA
molecular function| S-adenosylmethionine-dependent methyltransferase activity | inferred from sequence similarity|GO:0008757
molecular function| phospholipid binding | inferred from direct assay|GO:0005543//cellular component| bud neck | inferred from direct assay
cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| cell proliferation | inferred from direct assay|GO:00
cellular component| Golgi transport complex | inferred from physical interaction|GO:0017119//biological process| intra-Golgi transport | infer
molecular function| anion transporter activity | inferred from sequence similarity|GO:0008509//molecular function| anion transporter activity |
NA
molecular function| GTPase activity | inferred from sequence similarity|GO:0003924//molecular function| GTPase activity | inferred from mut
molecular function| ribonuclease H activity | inferred from physical interaction|GO:0004523//cellular component| nucleus | inferred from direc
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| --- | traceable author statement|GO:0051082//cellular component| cytoskeleton | traceable author statement|GO:000585
NA
molecular function| RNA binding | inferred from sequence similarity|GO:0003723//cellular component| cytoplasm | inferred from direct assay
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| phosphomevalonate kinase activity | traceable author statement|GO:0004631//cellular component| cytosol | traceable au
molecular function| structural constituent of ribosome | inferred from sequence similarity|GO:0003735//cellular component| mitochondrial sm
molecular function| endodeoxyribonuclease activity | inferred from direct assay|GO:0004520//cellular component| mitochondrial inner memb
molecular function| tRNA (guanine-N7-)-methyltransferase activity | inferred from mutant phenotype|GO:0008176//molecular function| protei
cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| 35S primary transcript processing | inferred from m
cellular component| cytoplasm | inferred from direct assay|GO:0005737
NA
molecular function| RNA polymerase I transcription factor activity | traceable author statement|GO:0003701//cellular component| RNA polym
molecular function| tRNA (guanosine) methyltransferase activity | inferred from direct assay|GO:0016424//cellular component| cytoplasm | in
NA
NA
NA
molecular function| transcription regulator activity | inferred from mutant phenotype|GO:0030528//cellular component| nucleus | inferred from
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//cellular component| nuclear membrane | inferred from
molecular function| mannosyltransferase activity | inferred from direct assay|GO:0000030//cellular component| Golgi apparatus | inferred fro
molecular function| DNA topoisomerase (ATP-hydrolyzing) activity | inferred from direct assay|GO:0003918//cellular component| nucleus | in
molecular function| mRNA binding | inferred from direct assay|GO:0003729//cellular component| actin cap (sensu Fungi) | inferred from dire
NA
molecular function| pseudouridylate synthase activity | inferred from sequence similarity|GO:0004730//biological process| tRNA modification
molecular function| mannosyltransferase activity | inferred from sequence similarity|GO:0000030//cellular component| Golgi apparatus | infe
molecular function| dihydropteroate synthase activity | inferred from mutant phenotype|GO:0004156//molecular function| dihydroneopterin a
molecular function| riboflavin kinase activity | inferred from mutant phenotype|GO:0008531//molecular function| riboflavin kinase activity | inf
molecular function| protein phosphatase type 2C activity | inferred from sequence similarity|GO:0015071//molecular function| protein phosph
molecular function| protein kinase activity | inferred from sequence similarity|GO:0004672//biological process| MAPKKK cascade during cell
molecular function| translation elongation factor activity | inferred from sequence similarity|GO:0003746//cellular component| cytoplasm | inf
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| RNA polymerase II transcription mediator activity | inferred from direct assay|GO:0016455//cellular component| mediato
NA
NA
molecular function| phospholipase activity | inferred from sequence similarity|GO:0004620//cellular component| mitochondrion | inferred from
molecular function| signal transducer activity | inferred from sequence similarity|GO:0004871//molecular function| GTPase activity | inferred
cellular component| endoplasmic reticulum membrane | inferred from direct assay|GO:0005789//biological process| vacuolar acidification | i
NA
NA
molecular function| cleavage/polyadenylation specificity factor activity | traceable author statement|GO:0030364//molecular function| cleava
molecular function| lanosterol synthase activity | traceable author statement|GO:0000250//cellular component| plasma membrane | traceabl
cellular component| mitochondrion | inferred from direct assay|GO:0005739
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| --- | inferred from mutant phenotype|GO:0051082//cellular component| nascent polypeptide-associated complex | inferre
molecular function| thioredoxin peroxidase activity | inferred from sequence similarity|GO:0008379//molecular function| thioredoxin peroxida
molecular function| structural molecule activity | traceable author statement|GO:0005198//cellular component| nuclear pore | inferred from d
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| ubiquitin-protein ligase activity | traceable author statement|GO:0004842//cellular component| cytoplasm | inferred from
cellular component| bud neck | inferred from direct assay|GO:0005935//cellular component| bud | inferred from direct assay |GO:0005933//c
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| peptidase activity | inferred from direct assay|GO:0008233//cellular component| mitochondrial inner membrane peptidas
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| microtubule binding | inferred from genetic interaction|GO:0008017//cellular component| spindle microtubule | traceable
biological process| DNA replication | inferred from mutant phenotype|GO:0006260
molecular function| urea carboxylase activity | inferred from mutant phenotype|GO:0004847//molecular function| allophanate hydrolase activ
molecular function| ATP-dependent RNA helicase activity | traceable author statement|GO:0004004//cellular component| nucleolus | traceab
molecular function| pre-mRNA splicing factor activity | inferred from physical interaction|GO:0008248//cellular component| U4/U6 x U5 tri-sn
molecular function| structural constituent of cytoskeleton | inferred from physical interaction|GO:0005200//cellular component| dynactin com
cellular component| extrinsic to membrane | inferred from direct assay|GO:0019898//biological process| peroxisome degradation | inferred fr
molecular function| mannose transporter activity | traceable author statement|GO:0015578//molecular function| glucose transporter activity |
cellular component| mitochondrion | inferred from mutant phenotype|GO:0005739//biological process| thiamin biosynthesis | traceable autho
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783
NA
NA
molecular function| cyclin-dependent protein kinase activity | traceable author statement|GO:0004693//molecular function| cyclin-dependent
molecular function| DNA binding | inferred from sequence similarity|GO:0003677//cellular component| cytoplasm | inferred from direct assay
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
NA
molecular function| --- | traceable author statement|GO:0051082//cellular component| cytoskeleton | inferred from physical interaction|GO:00
NA
molecular function| ubiquitin-protein ligase activity | inferred from sequence similarity|GO:0004842//molecular function| ubiquitin-protein liga
molecular function| osmosensor activity | traceable author statement|GO:0005034//molecular function| osmosensor activity | inferred from d
molecular function| DNA binding | inferred from sequence similarity|GO:0003677//cellular component| nucleus | inferred from direct assay|G
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| peptidyl-prolyl cis-trans isomerase activity | inferred from direct assay|GO:0003755//cellular component| histone deacety
molecular function| protein serine/threonine phosphatase activity | traceable author statement|GO:0004722//biological process| sodium ion h
molecular function| cysteine-tRNA ligase activity | inferred from direct assay|GO:0004817//cellular component| cytoplasm | inferred from dire
molecular function| phosphatidylinositol transporter activity | inferred from direct assay|GO:0008526//cellular component| cytosol | inferred fr
molecular function| phosphoribosylformylglycinamidine synthase activity | traceable author statement|GO:0004642//cellular component| cyto
molecular function| protein binding, bridging | inferred from physical interaction|GO:0030674//molecular function| protein binding, bridging | i
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
NA
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
NA
NA
biological process| meiosis | inferred from genetic interaction|GO:0007126
molecular function| RNA binding | traceable author statement|GO:0003723//cellular component| cytoplasm | inferred from direct assay|GO:0
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| ATP-dependent DNA helicase activity | traceable author statement|GO:0004003//molecular function| chromatin binding
NA
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
NA
molecular function| protein binding | inferred from physical interaction|GO:0005515//molecular function| ubiquitin-protein ligase activity | trac
cellular component| cytoplasm | inferred from direct assay|GO:0005737
NA
molecular function| structural constituent of ribosome | inferred from sequence similarity|GO:0003735//molecular function| structural constitu
molecular function| thiol-disulfide exchange intermediate activity | inferred from sequence similarity|GO:0030508//molecular function| thiol-d
molecular function| Rab GTPase activator activity | inferred from sequence similarity|GO:0005097//molecular function| Rab GTPase activato
cellular component| mitochondrion | inferred from direct assay|GO:0005739
molecular function| transferase activity, transferring glycosyl groups | inferred from sequence similarity|GO:0016757//molecular function| alp
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737
cellular component| membrane fraction | inferred from direct assay|GO:0005624//biological process| ribosomal large subunit biogenesis | in
molecular function| tubulin binding | inferred from direct assay|GO:0015631//cellular component| prefoldin complex | inferred from sequence
molecular function| soluble NSF attachment protein activity | inferred from direct assay|GO:0005483//cellular component| peripheral to mem
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| enzyme inhibitor activity | inferred from direct assay|GO:0004857//cellular component| proton-transporting ATP synthase
molecular function| mRNA guanylyltransferase activity | traceable author statement|GO:0004484//cellular component| nucleus | inferred from
molecular function| kinase activity | inferred from sequence similarity|GO:0016301
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| prenylated protein tyrosine phosphatase activity | inferred from mutant phenotype|GO:0004727//cellular component| cyto
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| peptidase activity | inferred from m
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| 3'-5' exonuclease activity | traceable author statement|GO:0008408//cellular component| cytoplasm | inferred from direct
molecular function| thiol oxidase activity | traceable author statement|GO:0016972//cellular component| mitochondrial intermembrane space
molecular function| catalytic activity | inferred from direct assay|GO:0003824//biological process| spore wall assembly (sensu Fungi) | inferre
molecular function| hydrolase activity, acting on carbon-nitrogen (but not peptide) bonds, in linear amides | inferred from sequence similarity
molecular function| lipase activity | inferred from sequence similarity|GO:0016298//cellular component| lipid particle | inferred from direct ass
cellular component| membrane fraction | inferred from direct assay|GO:0005624//biological process| autophagy | inferred from mutant phen
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
biological process| response to oxidative stress | inferred from mutant phenotype|GO:0006979
NA
NA
molecular function| ATPase activity, coupled to transmembrane movement of substances | inferred from sequence similarity|GO:0042626//c
molecular function| transmembrane receptor activity | inferred from sequence similarity|GO:0004888//molecular function| transmembrane re
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
biological process| sporulation (sensu Fungi) | inferred from mutant phenotype|GO:0030437
NA
molecular function| RNA polymerase II transcription factor activity | inferred from mutant phenotype|GO:0003702//molecular function| RNA p
molecular function| thioredoxin-disulfide reductase activity | inferred from direct assay|GO:0004791//cellular component| mitochondrion | infe
molecular function| chaperone regulator activity | inferred from sequence similarity|GO:0030188//cellular component| mitochondrion | inferre
molecular function| structural constituent of ribosome | inferred from direct assay|GO:0003735//cellular component| mitochondrial small ribo
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| ribonuclease P activity | traceable author statement|GO:0004526//molecular function| ribonuclease MRP activity | tracea
molecular function| RNA lariat debranching enzyme activity | inferred from mutant phenotype|GO:0008419//molecular function| RNA lariat d
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| protein binding | inferred from mutant phenotype|GO:0005515//molecular function| protein binding | inferred from direct a
molecular function| O-sialoglycoprotein endopeptidase activity | inferred from sequence similarity|GO:0008450//cellular component| cytoplas
cellular component| nucleus | inferred from direct assay|GO:0005634
molecular function| general RNA polymerase II transcription factor activity | traceable author statement|GO:0016251//cellular component| SW
molecular function| thiosulfate sulfurtransferase activity | inferred from sequence similarity|GO:0004792//cellular component| cytoplasm | inf
cellular component| cytoplasm | inferred from direct assay|GO:0005737
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| sporulation (sensu Fungi) | inferred from mutan
molecular function| NAD+ kinase activity | inferred from direct assay|GO:0003951//cellular component| cytoplasm | inferred from direct assa
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| protein phosphatase inhibitor activity | inferred from direct assay|GO:0004864//biological process| protein amino acid de
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| UTP-hexose-1-phosphate uridylyltransferase activity | inferred from sequence similarity|GO:0003982//cellular componen
molecular function| cyclin-dependent protein kinase activity | inferred from direct assay|GO:0004693//molecular function| protein kinase acti
molecular function| protein phosphatase type 2A regulator activity | inferred from sequence similarity|GO:0008601//molecular function| prote
cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| processing of 20S pre-rRNA | inferred from mutan
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
molecular function| structural molecule activity | inferred from mutant phenotype|GO:0005198//cellular component| proteasome regulatory p
NA
molecular function| pyruvate decarboxylase activity | traceable author statement|GO:0004737//cellular component| cytoplasm | inferred from
molecular function| cleavage/polyadenylation specificity factor activity | traceable author statement|GO:0030364//cellular component| mRNA
molecular function| snoRNA binding | inferred from physical interaction|GO:0030515//cellular component| small nucleolar ribonucleoprotein
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| double-stranded DNA specific 3'-5' exodeoxyribonuclease activity | inferred from direct assay|GO:0008311//molecular fu
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| ATPase activity, coupled to transmembrane movement of ions, phosphorylative mechanism | inferred from mutant phen
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleolus | inferred from direct assay |GO:0005
biological process| mitochondrion organization and biogenesis | inferred from mutant phenotype|GO:0007005
molecular function| ARF guanyl-nucleotide exchange factor activity | inferred from direct assay|GO:0005086//biological process| secretory p
cellular component| TRAPP | inferred from direct assay|GO:0030008//biological process| ER to Golgi transport | inferred from mutant pheno
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| cell wall organization and biogenesis | inferred f
NA
cellular component| mitochondrion | inferred from direct assay|GO:0005739
molecular function| transcriptional activator activity | inferred from mutant phenotype|GO:0016563//molecular function| transcriptional activat
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
cellular component| mitochondrion | inferred from direct assay|GO:0005739
molecular function| DNA-directed RNA polymerase activity | traceable author statement|GO:0003899//cellular component| DNA-directed RN
NA
molecular function| endoribonuclease activity | inferred from sequence similarity|GO:0004521//molecular function| endoribonuclease activity
molecular function| ubiquitin-protein ligase activity | inferred from sequence similarity|GO:0004842//molecular function| ubiquitin-protein liga
NA
NA
NA
molecular function| protein binding | inferred from mutant phenotype|GO:0005515//molecular function| protein binding | inferred from direct a
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| --- | traceable author statement|GO:0051082//cellular component| cytosolic small ribosomal subunit (sensu Eukarya) | in
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//biological process| mitochondrion organization and bio
molecular function| transcription corepressor activity | inferred from direct assay|GO:0003714//cellular component| nucleus | inferred from di
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| DNA helicase activity | inferred from direct assay|GO:0003678//cellular component| nucleus | inferred from curator|GO:0
NA
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
NA
molecular function| RNA polymerase II transcription factor activity | inferred from sequence similarity|GO:0003702//molecular function| RNA
molecular function| glycogen synthase kinase 3 activity | inferred from sequence similarity|GO:0004696//molecular function| glycogen synth
molecular function| aconitate hydratase activity | inferred from sequence similarity|GO:0003994//cellular component| mitochondrion | inferre
molecular function| single-stranded DNA binding | traceable author statement|GO:0003697//molecular function| damaged DNA binding | trac
molecular function| DNA helicase activity | inferred from direct assay|GO:0003678//cellular component| mitochondrion | inferred from direct
molecular function| snoRNA binding | traceable author statement|GO:0030515//cellular component| nucleolus | inferred from direct assay|G
NA
molecular function| protein kinase activator activity | inferred from physical interaction|GO:0030295//molecular function| protein kinase activa
NA
molecular function| tRNA (5-methylaminomethyl-2-thiouridylate)-methyltransferase activity | inferred from sequence similarity|GO:0004808//
molecular function| general RNA polymerase II transcription factor activity | traceable author statement|GO:0016251//cellular component| tra
molecular function| phosphoric monoester hydrolase activity | inferred from sequence similarity|GO:0016791//cellular component| cytoplasm
molecular function| snoRNA binding | inferred from physical interaction|GO:0030515//molecular function| RNA binding | traceable author sta
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| adenyl-nucleotide exchange factor activity | inferred from physical interaction|GO:0000774//molecular function| adenyl-n
cellular component| clathrin-coated vesicle | inferred from direct assay|GO:0030136
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| calcium channel activity | inferred from direct assay|GO:0005262//cellular component| plasma membrane | inferred from
molecular function| hydrolase activity, acting on ester bonds | inferred from direct assay|GO:0016788//biological process| acetate metabolis
molecular function| transcriptional repressor activity | inferred from mutant phenotype|GO:0016564//cellular component| shmoo tip | inferred
molecular function| L-iditol 2-dehydrogenase activity | inferred from sequence similarity|GO:0003939//biological process| mannose metaboli
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
cellular component| plasma membrane | inferred from direct assay|GO:0005886
molecular function| DNA bending activity | inferred from direct assay|GO:0008301//molecular function| transcription factor activity | inferred f
cellular component| mitochondrion | inferred from direct assay|GO:0005739
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| ATPase activity | traceable author statement|GO:0016887//molecular function| ATPase activity | inferred from sequence
NA
cellular component| condensed nuclear chromosome kinetochore | inferred from physical interaction|GO:0000778//cellular component| cond
cellular component| mitochondrion | inferred from direct assay|GO:0005739
cellular component| spore wall (sensu Fungi) | inferred from sequence similarity|GO:0005619//biological process| spore wall assembly (sens
NA
cellular component| nucleolus | inferred from direct assay|GO:0005730//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| signal recognition particle binding | inferred from sequence similarity|GO:0005047//molecular function| signal recognition
molecular function| protein kinase activity | inferred from direct assay|GO:0004672//cellular component| cytosolic ribosome (sensu Eukarya)
molecular function| protoporphyrinogen oxidase activity | inferred from sequence similarity|GO:0004729//molecular function| protoporphyrino
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| mismatch repair | inferred from mutant phenotyp
NA
NA
molecular function| endonuclease activity | inferred from direct assay|GO:0004519//molecular function| transcription coactivator activity | infe
cellular component| plasma membrane | inferred from sequence similarity|GO:0005886//cellular component| plasma membrane | inferred fro
molecular function| DNA helicase activity | inferred from sequence similarity|GO:0003678//molecular function| DNA helicase activity | inferre
cellular component| cytoplasm | inferred from direct assay|GO:0005737
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| 1-pyrroline-5-carboxylate dehydrogenase activity | traceable author statement|GO:0003842//cellular component| mitocho
molecular function| RNA helicase activity | inferred from sequence similarity|GO:0003724//molecular function| DNA helicase activity | inferre
molecular function| pre-mRNA splicing factor activity | traceable author statement|GO:0008248//molecular function| protein binding | inferred
molecular function| mannosyltransferase activity | inferred from direct assay|GO:0000030//cellular component| Golgi apparatus | inferred fro
molecular function| 3'-5'-exoribonuclease activity | traceable author statement|GO:0000175//cellular component| cytoplasmic exosome (RNa
cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| chromatin silencing at silent mating-type cassette
molecular function| telomeric DNA binding | inferred from physical interaction|GO:0042162//molecular function| telomeric DNA binding | infe
molecular function| receptor activity | inferred from sequence similarity|GO:0004872//cellular component| plasma membrane | inferred from
molecular function| signal sequence binding | inferred from physical interaction|GO:0005048//cellular component| signal recognition particle
molecular function| cytoskeletal protein binding | inferred from sequence similarity|GO:0008092//molecular function| cytoskeletal protein bind
molecular function| ATPase activity, coupled to transmembrane movement of substances | traceable author statement|GO:0042626//molecu
NA
molecular function| 5'-flap endonuclease activity | inferred from direct assay|GO:0017108//cellular component| nucleus | inferred from curato
cellular component| nucleus | inferred from direct assay|GO:0005634
molecular function| specific RNA polymerase II transcription factor activity | traceable author statement|GO:0003704//cellular component| cy
NA
NA
molecular function| ATPase activity | inferred from sequence similarity|GO:0016887//molecular function| ATPase activity | inferred from muta
molecular function| ATP-dependent DNA helicase activity | inferred from direct assay|GO:0004003//cellular component| nucleolus | inferred
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| inositol-1(or 4)-monophosphatase activity | inferred from sequence similarity|GO:0008934//molecular function| inositol-1
molecular function| ribonuclease MRP activity | traceable author statement|GO:0000171//cellular component| ribonuclease MRP complex | t
molecular function| RNA binding | inferred from direct assay|GO:0003723//cellular component| cytoplasm | inferred from direct assay|GO:00
cellular component| integral to membrane | inferred from direct assay|GO:0016021//cellular component| endoplasmic reticulum | inferred fro
molecular function| structural constituent of nuclear pore | traceable author statement|GO:0017056//cellular component| nuclear pore | trace
cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| ribosome assembly | traceable author statement|G
cellular component| mitochondrion | inferred from direct assay|GO:0005739//cellular component| cytoplasm | inferred from direct assay |GO
molecular function| cyclin-dependent protein kinase regulator activity | traceable author statement|GO:0016538//molecular function| general
NA
NA
NA
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| mitochondrial large rib
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
cellular component| spliceosome complex | inferred from physical interaction|GO:0005681
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
biological process| protein-mitochondrial targeting | inferred from mutant phenotype|GO:0006626
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
cellular component| peroxisomal membrane | inferred from direct assay|GO:0005778//biological process| peroxisome organization and biog
molecular function| structural constituent of ribosome | inferred from sequence similarity|GO:0003735//molecular function| structural constitu
molecular function| D-xylulose reductase activity | inferred from direct assay|GO:0046526//biological process| monosaccharide metabolism
molecular function| chromatin binding | traceable author statement|GO:0003682//cellular component| synaptonemal complex | inferred from
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| ATPase activity | inferred from direct assay|GO:0016887//molecular function| ATP binding | inferred from direct assay |G
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| amine oxidase activity | inferred from sequence similarity|GO:0008131//molecular function| amine oxidase activity | infer
NA
molecular function| NEDD8 activating enzyme activity | inferred from direct assay|GO:0019781//cellular component| cytoplasm | inferred from
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| isoleucine-tRNA ligase activity | inferred from direct assay|GO:0004822//cellular component| cytosol | inferred from direc
molecular function| translation regulator activity | inferred from mutant phenotype|GO:0045182//molecular function| RNA binding | non-trace
NA
molecular function| protein binding | traceable author statement|GO:0005515//cellular component| SCF ubiquitin ligase complex | inferred fr
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| cytosolic large ribosom
molecular function| --- | inferred from direct assay|GO:0051082//molecular function| protein transporter activity | inferred from physical intera
biological process| filamentous growth | inferred from genetic interaction|GO:0030447
NA
molecular function| tRNA methyltransferase activity | inferred from direct assay|GO:0008175//cellular component| nucleus | inferred from dir
NA
NA
molecular function| specific RNA polymerase II transcription factor activity | inferred from sequence similarity|GO:0003704//molecular functio
molecular function| spermidine transporter activity | inferred from mutant phenotype|GO:0015606//molecular function| spermine transporter
molecular function| general RNA polymerase II transcription factor activity | traceable author statement|GO:0016251//cellular component| tra
molecular function| protease inhibitor activity | inferred from direct assay|GO:0030414//molecular function| lipid binding | inferred from seque
molecular function| mannosyltransferase activity | inferred from sequence similarity|GO:0000030//cellular component| Golgi apparatus | infe
molecular function| cytochrome-c oxidase activity | inferred from direct assay|GO:0004129//cellular component| respiratory chain complex IV
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| protein kinase activity | inferred from sequence similarity|GO:0004672//cellular component| cytoplasm | inferred from dire
molecular function| Rho guanyl-nucleotide exchange factor activity | inferred from direct assay|GO:0005089//molecular function| signal trans
molecular function| maltose porter activity | inferred from sequence similarity|GO:0015581//molecular function| maltose porter activity | inferr
molecular function| pre-mRNA splicing factor activity | inferred from physical interaction|GO:0008248//cellular component| U4/U6 x U5 tri-sn
molecular function| RNA polymerase II transcription mediator activity | inferred from direct assay|GO:0016455//cellular component| mediato
molecular function| 3'-tRNA processing endoribonuclease activity | inferred from direct assay|GO:0042781//molecular function| purine nucle
cellular component| cytosol | inferred from direct assay|GO:0005829//biological process| negative regulation of gluconeogenesis | inferred fr
cellular component| nucleus | inferred from direct assay|GO:0005634//cellular component| SWR1 complex | inferred from physical interactio
cellular component| synaptonemal complex | inferred from direct assay|GO:0000795//biological process| synaptonemal complex formation |
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
cellular component| extrinsic to membrane | inferred from direct assay|GO:0019898//cellular component| cytoplasmic vesicle | inferred from
molecular function| ATPase activity | inferred from sequence similarity|GO:0016887//cellular component| nucleus | inferred from direct assay
molecular function| rRNA binding | inferred from physical interaction|GO:0019843//molecular function| 7S RNA binding | inferred from physic
molecular function| ATPase activity, coupled to transmembrane movement of substances | inferred from sequence similarity|GO:0042626//c
cellular component| bud tip | traceable author statement|GO:0005934//cellular component| nucleus | inferred from direct assay |GO:000563
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| drug transporter activity | inferred from mutant phenotype|GO:0015238//molecular function| monocarboxylic acid transpo
molecular function| phosphoribosylanthranilate isomerase activity | traceable author statement|GO:0004640//cellular component| cytoplasm
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783
molecular function| ATPase activity | inferred from direct assay|GO:0016887//cellular component| cytosol | inferred from direct assay|GO:00
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| protein-vacuolar targeting | inferred from mutan
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| protein serine/threonine kinase activity | traceable author statement|GO:0004674//cellular component| actin cap (sensu
molecular function| structural constituent of ribosome | inferred from sequence similarity|GO:0003735//molecular function| structural constitu
molecular function| DNA binding | inferred from direct assay|GO:0003677//cellular component| nucleus | inferred from direct assay|GO:0005
cellular component| vacuole (sensu Fungi) | inferred from direct assay|GO:0000324
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| ubiquitin-specific protease activity | traceable author statement|GO:0004843//cellular component| cytoplasm | inferred fro
NA
cellular component| clathrin-coated vesicle | inferred from direct assay|GO:0030136
molecular function| siderochrome-iron (ferrioxamine) uptake transporter activity | inferred from sequence similarity|GO:0015344//molecular f
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| regulation of transcription | traceable author sta
cellular component| nucleolus | inferred from direct assay|GO:0005730//cellular component| nucleus | inferred from direct assay |GO:00056
NA
molecular function| glutathione transferase activity | inferred from sequence similarity|GO:0004364//molecular function| glutathione transfera
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| protein serine/threonine phosphatase activity | inferred from physical interaction|GO:0004722//cellular component| cytop
molecular function| tubulin binding | inferred from physical interaction|GO:0015631//cellular component| cell cortex | inferred from direct ass
molecular function| transcription factor activity | inferred from sequence similarity|GO:0003700//cellular component| nucleus | inferred from d
molecular function| transcriptional activator activity | inferred from direct assay|GO:0016563//cellular component| nucleus | inferred from dire
molecular function| copper, zinc superoxide dismutase activity | inferred from direct assay|GO:0004785//cellular component| cytosol | inferre
molecular function| structural constituent of cytoskeleton | inferred from physical interaction|GO:0005200//cellular component| half bridge of
cellular component| cytoplasm | inferred from direct assay|GO:0005737
cellular component| spliceosome complex | inferred from physical interaction|GO:0005681
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| phosphomethylpyrimidine kinase activity | inferred from sequence similarity|GO:0008972//biological process| thiamin bio
molecular function| thiamin diphosphokinase activity | inferred from mutant phenotype|GO:0004788//molecular function| thiamin diphosphok
cellular component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277//biological process| siderochrome transport | inferred fro
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| ATPase activity, coupled to transmembrane movement of substances | inferred from sequence similarity|GO:0042626//c
NA
NA
molecular function| tRNA methyltransferase activity | inferred from direct assay|GO:0008175//cellular component| nucleus | inferred from dir
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| formate dehydrogenase activity | inferred from sequence similarity|GO:0008863//molecular function| formate dehydroge
molecular function| RNA binding | inferred from sequence similarity|GO:0003723//cellular component| nucleolus | inferred from direct assay|
molecular function| copper ion binding | inferred from direct assay|GO:0005507//cellular component| mitochondrial inner membrane | inferre
molecular function| protein binding | inferred from mutant phenotype|GO:0005515//cellular component| signal peptidase complex | inferred f
molecular function| dethiobiotin synthase activity | inferred from sequence similarity|GO:0004141//molecular function| dethiobiotin synthase
cellular component| mitochondrion | inferred from direct assay|GO:0005739
NA
molecular function| DNA binding | inferred from sequence similarity|GO:0003677//cellular component| nucleus | inferred from physical intera
cellular component| mitochondrion | inferred from direct assay|GO:0005739
cellular component| integral to membrane | inferred from sequence similarity|GO:0016021//cellular component| shmoo tip | inferred from dire
molecular function| phosphoric ester hydrolase activity | inferred from direct assay|GO:0042578//molecular function| protein tyrosine phosph
molecular function| protein serine/threonine phosphatase activity | inferred from direct assay|GO:0004722//cellular component| cytoplasm |
cellular component| nuclear membrane | inferred from mutant phenotype|GO:0005635//cellular component| nuclear membrane | inferred fro
NA
NA
NA
molecular function| structural constituent of cell wall | inferred from physical interaction|GO:0005199//cellular component| cell wall (sensu Fu
NA
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
cellular component| bud neck | inferred from direct assay|GO:0005935//cellular component| bud tip | inferred from direct assay |GO:0005934
molecular function| protein binding | inferred from direct assay|GO:0005515//cellular component| nucleus | inferred from physical interaction
molecular function| chromatin binding | inferred from direct assay|GO:0003682//cellular component| nucleus | inferred from physical interact
NA
molecular function| ATPase activity | inferred from direct assay|GO:0016887//molecular function| GTPase activity | inferred from direct assa
molecular function| general RNA polymerase II transcription factor activity | traceable author statement|GO:0016251//molecular function| DN
molecular function| putrescine transporter activity | inferred from direct assay|GO:0015489//molecular function| gamma-aminobutyric acid tra
molecular function| MAP kinase kinase activity | inferred from sequence similarity|GO:0004708//cellular component| intracellular | traceable
NA
cellular component| mitochondrial outer membrane | traceable author statement|GO:0005741//biological process| mitochondrion organizatio
molecular function| dipeptidyl-peptidase and tripeptidyl-peptidase activity | inferred from direct assay|GO:0016806//cellular component| vacu
molecular function| pre-mRNA splicing factor activity | inferred from physical interaction|GO:0008248//cellular component| small nuclear ribo
molecular function| protein binding | traceable author statement|GO:0005515//cellular component| cytoplasm | traceable author statement|G
cellular component| integral to membrane | inferred from sequence similarity|GO:0016021
molecular function| SNF1A/AMP-activated protein kinase activity | inferred from mutant phenotype|GO:0004679//cellular component| plasma
cellular component| mitochondrion | inferred from direct assay|GO:0005739
molecular function| snoRNA binding | inferred from physical interaction|GO:0030515//cellular component| small nucleolar ribonucleoprotein
molecular function| hydrolase activity, acting on ester bonds | inferred from sequence similarity|GO:0016788//molecular function| hydrolase
molecular function| protein binding | inferred from direct assay|GO:0005515//cellular component| endosome | inferred from physical interact
cellular component| vacuole (sensu Fungi) | inferred from direct assay|GO:0000324
molecular function| RNA binding | inferred from direct assay|GO:0003723//cellular component| heterogeneous nuclear ribonucleoprotein com
molecular function| ATPase activity | traceable author statement|GO:0016887//molecular function| endopeptidase activity | traceable author
cellular component| COPI-coated vesicle | inferred from direct assay|GO:0030137//cellular component| Golgi apparatus | inferred from direc
molecular function| voltage-gated chloride channel activity | inferred from direct assay|GO:0005247//cellular component| Golgi vesicle | trace
NA
biological process| glucose transport | inferred from mutant phenotype|GO:0015758//biological process| signal transduction | inferred from m
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| regulation of cell growth | inferred from physical
molecular function| Pol II transcription elongation factor activity | inferred from physical interaction|GO:0016944//cellular component| transcr
molecular function| protein kinase activity | inferred from direct assay|GO:0004672//cellular component| nucleus | inferred from direct assay|
molecular function| MAP kinase activity | inferred from sequence similarity|GO:0004707//biological process| spore wall assembly (sensu Fun
NA
molecular function| transmembrane receptor activity | inferred from sequence similarity|GO:0004888//molecular function| transmembrane re
molecular function| structural constituent of cytoskeleton | inferred from physical interaction|GO:0005200//cellular component| outer plaque
cellular component| mitochondrion | inferred from direct assay|GO:0005739
cellular component| nucleus | inferred from direct assay|GO:0005634
molecular function| mRNA binding | inferred from genetic interaction|GO:0003729//cellular component| mitochondrion | inferred from direct a
molecular function| protein kinase CK2 activity | inferred from direct assay|GO:0004682//cellular component| protein kinase CK2 complex | i
molecular function| calcium-transporting ATPase activity | inferred from sequence similarity|GO:0005388//molecular function| calcium-transp
molecular function| thiol-disulfide exchange intermediate activity | inferred from sequence similarity|GO:0030508//molecular function| glutath
molecular function| protein binding | inferred from direct assay|GO:0005515//cellular component| integral to membrane | inferred from direct
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| protein serine/threonine kinase activity | inferred from sequence similarity|GO:0004674//molecular function| protein kinas
molecular function| signal transducer activity | traceable author statement|GO:0004871//molecular function| GTPase activity | traceable auth
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| endopeptidase activity | traceable author statement|GO:0004175//cellular component| proteasome core complex, beta-s
molecular function| protein tyrosine phosphatase activity | inferred from sequence similarity|GO:0004725//cellular component| cytoplasm | in
molecular function| structural molecule activity | traceable author statement|GO:0005198//cellular component| nuclear pore | inferred from d
biological process| aerobic respiration | inferred from mutant phenotype|GO:0009060
NA
molecular function| snoRNA binding | inferred from physical interaction|GO:0030515//cellular component| small nuclear ribonucleoprotein co
molecular function| cyclin-dependent protein kinase activity | traceable author statement|GO:0004693//cellular component| cytoplasm | infer
cellular component| nucleus | inferred from physical interaction|GO:0005634//biological process| mRNA-nucleus export | inferred from muta
NA
molecular function| histone lysine N-methyltransferase activity (H3-K4 specific) | inferred from direct assay|GO:0042800//cellular componen
molecular function| hydrogen-transporting ATP synthase activity, rotational mechanism | inferred from sequence similarity|GO:0046933//mo
molecular function| inositol/phosphatidylinositol kinase activity | inferred from direct assay|GO:0004428//cellular component| cytoplasm | infe
cellular component| endosome | inferred from direct assay|GO:0005768
molecular function| holocytochrome-c synthase activity | inferred from direct assay|GO:0004408//cellular component| mitochondrial intermem
molecular function| ATP binding | inferred from sequence similarity|GO:0005524//molecular function| ribokinase activity | inferred from sequ
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| metabolism | traceable author statement|GO:00
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| general RNA polymerase II transcription factor activity | traceable author statement|GO:0016251//cellular component| SW
cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| chromosome segregation | inferred from mutant p
molecular function| specific transcriptional repressor activity | inferred from direct assay|GO:0016566//cellular component| nucleolus | inferre
cellular component| proteasome regulatory particle, lid subcomplex (sensu Eukarya) | inferred from direct assay|GO:0008541//cellular comp
molecular function| pre-mRNA splicing factor activity | inferred from physical interaction|GO:0008248//cellular component| small nuclear ribo
NA
cellular component| integral to endoplasmic reticulum membrane | inferred from direct assay|GO:0030176//cellular component| integral to G
molecular function| --- | traceable author statement|GO:0051082//cellular component| cytoskeleton | traceable author statement|GO:000585
cellular component| nucleolus | inferred from direct assay|GO:0005730//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| peptidyl-prolyl cis-trans isomerase activity | inferred from direct assay|GO:0003755//cellular component| nucleolus | infer
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleolus | inferred from direct assay |GO:0005
molecular function| phospholipid-translocating ATPase activity | inferred from sequence similarity|GO:0004012//cellular component| plasma
molecular function| copper ion binding | inferred from direct assay|GO:0005507//cellular component| cytosol | inferred from direct assay|GO
molecular function| aminopeptidase I activity | inferred from direct assay|GO:0004250//cellular component| vacuole (sensu Fungi) | inferred
molecular function| nuclear localization sequence binding | traceable author statement|GO:0008139//molecular function| nuclear localization
molecular function| histone binding | traceable author statement|GO:0042393//molecular function| histone deacetylase activity | traceable au
molecular function| ATPase activity, coupled to transmembrane movement of substances | inferred from sequence similarity|GO:0042626//c
cellular component| soluble fraction | inferred from direct assay|GO:0005625
NA
molecular function| translation initiation factor activity | inferred from sequence similarity|GO:0003743//molecular function| translation initiatio
NA
cellular component| spindle pole | inferred from direct assay|GO:0000922//cellular component| MIND complex | inferred from direct assay |G
molecular function| cyclin-dependent protein kinase regulator activity | traceable author statement|GO:0016538//cellular component| cyclin-d
molecular function| zeta DNA polymerase activity | traceable author statement|GO:0003894//cellular component| nucleus | traceable author
molecular function| NAD+ diphosphatase activity | inferred from direct assay|GO:0000210//cellular component| peroxisome | inferred from d
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
NA
molecular function| cell adhesion molecule binding | traceable author statement|GO:0050839//molecular function| cell adhesion molecule bi
cellular component| integral to membrane | inferred from sequence similarity|GO:0016021
molecular function| 3-oxoacyl-[acyl-carrier protein] synthase activity | inferred from sequence similarity|GO:0004315//molecular function| 3-o
molecular function| NADPH dehydrogenase activity | inferred from sequence similarity|GO:0003959//molecular function| NADPH dehydroge
molecular function| structural constituent of cytoskeleton | inferred from physical interaction|GO:0005200//cellular component| DASH comple
NA
NA
NA
cellular component| integral to membrane | inferred from sequence similarity|GO:0016021//biological process| cell wall organization and bio
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| --- | inferred from direct assay|GO:0051082//molecular function| peptidyl-prolyl cis-trans isomerase activity | inferred from
molecular function| signal sequence binding | inferred from physical interaction|GO:0005048//cellular component| signal recognition particle
molecular function| Rho guanyl-nucleotide exchange factor activity | inferred from direct assay|GO:0005089//molecular function| signal trans
NA
cellular component| bud neck | inferred from direct assay|GO:0005935//cellular component| vacuole (sensu Fungi) | inferred from direct ass
NA
molecular function| transcription corepressor activity | inferred from mutant phenotype|GO:0003714//molecular function| transcription corepr
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| ATPase activity | traceable author statement|GO:0016887//molecular function| endopeptidase activity | traceable author
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| cell wall organization and biogenesis | inferred f
molecular function| rRNA binding | inferred from physical interaction|GO:0019843//cellular component| nucleolus | inferred from sequence s
molecular function| tRNA-intron endonuclease activity | traceable author statement|GO:0000213//cellular component| mitochondrial outer m
molecular function| potassium ion transporter activity | inferred from direct assay|GO:0015079//cellular component| plasma membrane | trac
NA
NA
molecular function| guanyl nucleotide binding | inferred from direct assay|GO:0019001//cellular component| cytoplasm | inferred from direct
NA
cellular component| nucleoplasm | inferred from direct assay|GO:0005654//cellular component| nucleus | inferred from direct assay |GO:000
molecular function| transcription factor activity | traceable author statement|GO:0003700
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737
cellular component| chromatin remodeling complex | inferred from physical interaction|GO:0016585//cellular component| nucleus | inferred f
molecular function| transcription corepressor activity | inferred from direct assay|GO:0003714//cellular component| nucleus | inferred from di
molecular function| pre-mRNA splicing factor activity | inferred from physical interaction|GO:0008248//cellular component| small nuclear ribo
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
NA
molecular function| ferric-chelate reductase activity | inferred from direct assay|GO:0000293//cellular component| plasma membrane | inferr
cellular component| nucleolus | inferred from direct assay|GO:0005730//cellular component| nucleus | inferred from direct assay |GO:00056
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| ATPase activity | traceable author statement|GO:0016887//molecular function| endopeptidase activity | traceable author
molecular function| transcription corepressor activity | inferred from physical interaction|GO:0003714//molecular function| transcription corep
NA
molecular function| nucleoside-triphosphatase activity | inferred from direct assay|GO:0017111//molecular function| hydrolase activity | infer
molecular function| mRNA (guanine-N7-)-methyltransferase activity | inferred from sequence similarity|GO:0004482//molecular function| mR
NA
NA
molecular function| ATPase activity | inferred from direct assay|GO:0016887//molecular function| ATP-dependent RNA helicase activity | tra
molecular function| Rab guanyl-nucleotide exchange factor activity | inferred from physical interaction|GO:0017112//cellular component| vac
molecular function| pre-mRNA splicing factor activity | inferred from physical interaction|GO:0008248//cellular component| small nuclear ribo
molecular function| GTP binding | inferred from sequence similarity|GO:0005525//cellular component| cytoplasm | inferred from direct assay
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| protein transporter activity | inferred from mutant phenotype|GO:0008565//cellular component| mitochondrial outer mem
molecular function| specific RNA polymerase II transcription factor activity | inferred from sequence similarity|GO:0003704//cellular compone
molecular function| alpha DNA polymerase activity | traceable author statement|GO:0003889//cellular component| alpha DNA polymerase:p
NA
cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| transcription from Pol II promoter | inferred from g
NA
molecular function| homocitrate synthase activity | inferred from sequence similarity|GO:0004410//molecular function| homocitrate synthase
molecular function| enzyme activator activity | inferred from direct assay|GO:0008047//molecular function| calcium ion binding | inferred from
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| purine nucleotide binding | inferred from sequence similarity|GO:0017076//molecular function| DNA clamp loader activity
molecular function| DNA helicase activity | inferred from direct assay|GO:0003678//cellular component| nucleus | inferred from curator|GO:0
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| triacylglycerol lipase activity | inferred from mutant phenotype|GO:0004806//molecular function| triacylglycerol lipase act
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| centromeric DNA binding | inferred from direct assay|GO:0019237//molecular function| DNA bending activity | inferred fr
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| response to dessication | inferred from sequenc
NA
molecular function| diaminohydroxyphosphoribosylaminopyrimidine deaminase activity | inferred from mutant phenotype|GO:0008835//mole
cellular component| eukaryotic translation initiation factor 3 complex | inferred from physical interaction|GO:0005852//cellular component| cy
molecular function| inorganic phosphate transporter activity | inferred from sequence similarity|GO:0005315//molecular function| inorganic p
molecular function| protein kinase activity | inferred from sequence similarity|GO:0004672//cellular component| nuclear cohesin complex | tr
molecular function| transcription factor activity | inferred from sequence similarity|GO:0003700//molecular function| transcription factor activi
NA
NA
cellular component| membrane fraction | inferred from direct assay|GO:0005624//biological process| late endosome to vacuole transport | in
molecular function| pre-mRNA splicing factor activity | traceable author statement|GO:0008248//molecular function| ATP-dependent RNA he
cellular component| nucleolus | inferred from direct assay|GO:0005730//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| cyclin-dependent protein kinase activity | inferred from physical interaction|GO:0004693//molecular function| cyclin-depe
molecular function| protein binding | inferred from sequence similarity|GO:0005515//cellular component| ubiquitin ligase complex | inferred fr
molecular function| mRNA binding | inferred from physical interaction|GO:0003729//molecular function| mRNA binding | inferred from direct
cellular component| nuclear pore | traceable author statement|GO:0005643//biological process| poly(A)+ mRNA-nucleus export | inferred fro
NA
cellular component| nuclear pore | traceable author statement|GO:0005643//cellular component| nuclear pore | inferred from direct assay |G
NA
cellular component| endosome | inferred from direct assay|GO:0005768
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
NA
NA
cellular component| nucleus | inferred from direct assay|GO:0005634
cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| bud site selection | inferred from mutant phenotyp
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| 2,4-dienoyl-CoA reductase (NADPH) activity | inferred from sequence similarity|GO:0008670//molecular function| 2,4-die
molecular function| snoRNA binding | inferred from physical interaction|GO:0030515//cellular component| small nucleolar ribonucleoprotein
molecular function| single-stranded DNA specific endodeoxyribonuclease activity | traceable author statement|GO:0000014//cellular compon
molecular function| DRAP deaminase activity | inferred from mutant phenotype|GO:0017173//molecular function| DRAP deaminase activity
molecular function| enzyme activator activity | inferred from direct assay|GO:0008047//cellular component| cytoplasm | inferred from direct a
NA
molecular function| --- | inferred from sequence similarity|GO:0051087//molecular function| --- | inferred from mutant phenotype |GO:005108
molecular function| protein binding | inferred from physical interaction|GO:0005515//molecular function| protein binding | inferred from mutan
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//biological process| cell cycle arrest in response to phe
molecular function| signal transducer activity | traceable author statement|GO:0004871//molecular function| GTPase activity | traceable auth
molecular function| protein binding | inferred from physical interaction|GO:0005515//molecular function| protein binding | inferred from genet
molecular function| 1-phosphatidylinositol 4-kinase activity | inferred from mutant phenotype|GO:0004430//molecular function| 1-phosphatid
molecular function| structural molecule activity | traceable author statement|GO:0005198//cellular component| nuclear pore | inferred from d
cellular component| endosome | inferred from direct assay|GO:0005768
NA
NA
cellular component| Golgi trans face | inferred from direct assay|GO:0005802//biological process| Golgi to vacuole transport | inferred from p
molecular function| glutamine-tRNA ligase activity | inferred from direct assay|GO:0004819//cellular component| cytoplasm | inferred from cu
molecular function| SUMO-specific protease activity | inferred from mutant phenotype|GO:0016929//molecular function| SUMO-specific prote
molecular function| RNA binding | inferred from sequence similarity|GO:0003723//cellular component| cytoplasm | inferred from direct assay
molecular function| cAMP-dependent protein kinase activity | traceable author statement|GO:0004691//molecular function| protein serine/thr
molecular function| hydrogen-transporting ATP synthase activity, rotational mechanism | inferred from physical interaction|GO:0046933//mo
cellular component| nucleolus | inferred from direct assay|GO:0005730
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| arsenate reductase activity | inferred from mutant phenotype|GO:0030611//molecular function| arsenate reductase activ
NA
NA
molecular function| exopolyphosphatase activity | inferred from mutant phenotype|GO:0004309//molecular function| exopolyphosphatase ac
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//molecular function| RNA binding | inferred
molecular function| helicase activity | inferred from sequence similarity|GO:0004386//molecular function| DNA helicase activity | inferred from
NA
cellular component| Golgi apparatus | inferred from direct assay|GO:0005794
molecular function| RNA binding | inferred from sequence similarity|GO:0003723//cellular component| cytoplasm | inferred from direct assay
cellular component| chromatin assembly complex | inferred from direct assay|GO:0005678//cellular component| chromosome, pericentric re
molecular function| transcriptional repressor activity | inferred from direct assay|GO:0016564//cellular component| nucleus | inferred from cu
cellular component| actin cortical patch (sensu Fungi) | inferred from direct assay|GO:0030479//cellular component| actin cytoskeleton | infe
NA
molecular function| cation:cation antiporter activity | inferred from sequence similarity|GO:0015491//molecular function| cation:cation antipor
molecular function| protein kinase activity | inferred from sequence similarity|GO:0004672
NA
molecular function| asparagine-tRNA ligase activity | inferred from sequence similarity|GO:0004816//molecular function| asparagine-tRNA li
molecular function| poly(A)-specific ribonuclease activity | traceable author statement|GO:0004535//molecular function| poly(A)-specific ribo
NA
molecular function| protein phosphatase regulator activity | inferred from sequence similarity|GO:0019888//cellular component| cytoplasm | i
NA
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783
molecular function| specific RNA polymerase II transcription factor activity | inferred from direct assay|GO:0003704//molecular function| DNA
cellular component| cytosol | inferred from direct assay|GO:0005829//biological process| vesicle-mediated transport | inferred from mutant p
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| mitochondrial large rib
molecular function| pre-mRNA splicing factor activity | inferred from physical interaction|GO:0008248//cellular component| U4/U6 x U5 tri-sn
molecular function| transcription corepressor activity | inferred from mutant phenotype|GO:0003714//cellular component| nucleus | inferred f
molecular function| protein transporter activity | inferred from sequence similarity|GO:0008565//molecular function| protein transporter activit
cellular component| mitochondrion | inferred from direct assay|GO:0005739//biological process| protein biosynthesis | traceable author state
molecular function| protein binding | inferred from physical interaction|GO:0005515//molecular function| GTPase activity | inferred from sequ
NA
cellular component| nucleus | inferred from direct assay|GO:0005634
molecular function| signal sequence binding | inferred from physical interaction|GO:0005048//molecular function| signal sequence binding |
cellular component| mitochondrion | inferred from direct assay|GO:0005739
cellular component| bud | inferred from direct assay|GO:0005933//cellular component| cytoplasm | inferred from direct assay |GO:0005737
cellular component| chromatin assembly complex | traceable author statement|GO:0005678//cellular component| chromatin assembly comp
NA
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783
cellular component| cytoplasm | inferred from direct assay|GO:0005737
NA
NA
molecular function| RNA binding | inferred from direct assay|GO:0003723//cellular component| snRNP U2 | inferred from direct assay|GO:00
NA
molecular function| protein phosphatase type 1 activity | inferred from physical interaction|GO:0000163//molecular function| protein phospha
NA
cellular component| spliceosome complex | inferred from direct assay|GO:0005681//biological process| cell cycle | traceable author stateme
cellular component| AP-3 adaptor complex | inferred from sequence similarity|GO:0030123//biological process| Golgi to vacuole transport | i
molecular function| mannosyltransferase activity | inferred from sequence similarity|GO:0000030//cellular component| endoplasmic reticulum
molecular function| protein kinase activity | inferred from direct assay|GO:0004672//cellular component| cytoplasm | inferred from direct assa
NA
molecular function| RNA binding | inferred from direct assay|GO:0003723//cellular component| snRNP U1 | traceable author statement|GO:0
molecular function| general RNA polymerase II transcription factor activity | traceable author statement|GO:0016251//cellular component| tra
cellular component| bud neck | inferred from direct assay|GO:0005935//cellular component| bud | inferred from direct assay |GO:0005933//c
NA
NA
cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| chromosome organization and biogenesis (sensu
molecular function| transcriptional repressor activity | traceable author statement|GO:0016564//molecular function| 3'-5'-exoribonuclease ac
cellular component| vacuole (sensu Fungi) | inferred from direct assay|GO:0000324
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| --- | inferred from sequence similarity|GO:0051082//molecular function| --- | inferred from mutant phenotype |GO:005108
molecular function| protein kinase activator activity | inferred from genetic interaction|GO:0030295//cellular component| plasma membrane |
cellular component| mitochondrion | inferred from direct assay|GO:0005739
NA
molecular function| --- | inferred from mutant phenotype|GO:0051082//cellular component| mitochondrial inner membrane | inferred from dire
molecular function| ATP binding | inferred from direct assay|GO:0005524//cellular component| cytoplasm | inferred from direct assay|GO:00
molecular function| structural molecule activity | inferred from physical interaction|GO:0005198//molecular function| structural molecule activ
NA
molecular function| tRNA-intron endonuclease activity | traceable author statement|GO:0000213//cellular component| mitochondrial outer m
NA
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//biological process| retrograde transport, Golgi to ER | i
molecular function| cleavage/polyadenylation specificity factor activity | traceable author statement|GO:0030364//molecular function| cleava
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783
molecular function| isoprenoid binding | traceable author statement|GO:0019840//molecular function| carrier activity | traceable author statem
cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| phospholipid metabolism | inferred from genetic in
molecular function| protein binding | traceable author statement|GO:0005515//molecular function| protein binding | inferred from physical int
molecular function| phospholipid:diacylglycerol acyltransferase activity | inferred from direct assay|GO:0046027//cellular component| endopl
molecular function| telomeric template RNA reverse transcriptase activity | traceable author statement|GO:0003721//cellular component| nu
molecular function| protein phosphatase inhibitor activity | inferred from direct assay|GO:0004864//molecular function| phosphopantothenoy
molecular function| 3'-5'-exoribonuclease activity | inferred from direct assay|GO:0000175//cellular component| CCR4-NOT core complex | in
molecular function| IMP 5'-nucleotidase activity | inferred from direct assay|GO:0050483//biological process| inosine salvage | inferred from
NA
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737
NA
molecular function| chaperone activator activity | inferred from physical interaction|GO:0030189//molecular function| chaperone activator act
molecular function| --- | traceable author statement|GO:0051082//molecular function| enzyme inhibitor activity | inferred from direct assay |G
NA
molecular function| general RNA polymerase II transcription factor activity | traceable author statement|GO:0016251//cellular component| ch
NA
NA
molecular function| succinate dehydrogenase (ubiquinone) activity | traceable author statement|GO:0008177//molecular function| succinate
cellular component| nucleus | inferred from direct assay|GO:0005634
molecular function| SNARE binding | traceable author statement|GO:0000149//cellular component| ER-Golgi transport vesicle | inferred from
molecular function| RNA binding | inferred from direct assay|GO:0003723//molecular function| damaged DNA binding | traceable author stat
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
cellular component| Golgi membrane | inferred from genetic interaction|GO:0000139//biological process| Golgi vesicle transport | inferred fro
NA
molecular function| 1-phosphatidylinositol 4-kinase activity | inferred from mutant phenotype|GO:0004430//cellular component| plasma mem
molecular function| phosphomethylpyrimidine kinase activity | inferred from sequence similarity|GO:0008972//biological process| thiamin bio
molecular function| ATPase activity, coupled to transmembrane movement of substances | inferred from sequence similarity|GO:0042626//m
NA
NA
molecular function| geranyltranstransferase activity | traceable author statement|GO:0004337//molecular function| geranyltranstransferase a
cellular component| mitochondrion | inferred from direct assay|GO:0005739
NA
NA
molecular function| signal sequence binding | inferred from physical interaction|GO:0005048//cellular component| signal recognition particle
NA
molecular function| protein binding | inferred from direct assay|GO:0005515//cellular component| bud tip | inferred from physical interaction|G
molecular function| serine hydrolase activity | inferred from direct assay|GO:0017171//cellular component| cytoplasm | inferred from direct a
molecular function| structural molecule activity | inferred from mutant phenotype|GO:0005198//molecular function| structural molecule activit
NA
molecular function| ATPase activity | inferred from direct assay|GO:0016887//molecular function| DNA clamp loader activity | inferred from d
molecular function| Rab guanyl-nucleotide exchange factor activity | inferred from direct assay|GO:0017112//cellular component| vacuolar m
molecular function| translation repressor activity | traceable author statement|GO:0030371//cellular component| cytoplasm | inferred from dir
molecular function| rRNA primary transcript binding | inferred from direct assay|GO:0042134//molecular function| snoRNA binding | inferred
cellular component| mitochondrion | inferred from direct assay|GO:0005739//cellular component| nucleus | inferred from direct assay |GO:00
molecular function| acyl carrier activity | traceable author statement|GO:0000036//cellular component| mitochondrion | traceable author state
cellular component| condensed nuclear chromosome | inferred from direct assay|GO:0000794//biological process| meiosis | inferred from m
cellular component| signalosome complex | inferred from direct assay|GO:0008180//biological process| adaptation to pheromone during con
NA
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| ubiquitin-protein ligase activity | inferred from direct assay|GO:0004842//cellular component| nuclear membrane | tracea
molecular function| phosphoglycerate mutase activity | inferred from mutant phenotype|GO:0004619//cellular component| cytosol | traceable
NA
molecular function| structural constituent of ribosome | inferred from physical interaction|GO:0003735//cellular component| mitochondrial lar
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| hydrogen-transporting ATPase V1 domain | inf
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
cellular component| cytoplasm | inferred from direct assay|GO:0005737
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| cell wall organization and biogenesis | inferred fro
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| RNA polymerase II transcription mediator activity | inferred from direct assay|GO:0016455//cellular component| mediato
molecular function| RNA binding | inferred from sequence similarity|GO:0003723//cellular component| cytoplasm | inferred from direct assay
molecular function| glutathione synthase activity | inferred from direct assay|GO:0004363//cellular component| intracellular | traceable autho
molecular function| ion transporter activity | inferred from sequence similarity|GO:0015075
molecular function| adenosylmethionine-8-amino-7-oxononanoate transaminase activity | inferred from sequence similarity|GO:0004015//mo
NA
molecular function| 3'-5'-exoribonuclease activity | traceable author statement|GO:0000175//cellular component| cytoplasmic exosome (RNa
molecular function| MAP kinase activity | inferred from sequence similarity|GO:0004707//cellular component| bud tip | inferred from direct as
NA
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
NA
molecular function| copper-exporting ATPase activity | inferred from sequence similarity|GO:0004008//molecular function| copper-exporting
molecular function| aconitate hydratase activity | traceable author statement|GO:0003994//cellular component| cytosol | traceable author sta
cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| mitochondrion organization and biogenesis | inferr
molecular function| transcriptional repressor activity | inferred from physical interaction|GO:0016564//cellular component| Sin3 complex | infe
molecular function| phospholipid-translocating ATPase activity | inferred from sequence similarity|GO:0004012//cellular component| trans-G
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleoplasm | inferred from direct assay |GO:0
molecular function| glucan 1,3-beta-glucosidase activity | inferred from sequence similarity|GO:0004338//cellular component| septum | inferr
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| glycogen (starch) synthase activity | inferred from direct assay|GO:0004373//cellular component| cytoplasm | inferred fro
NA
molecular function| ribose-phosphate diphosphokinase activity | traceable author statement|GO:0004749//cellular component| cytoplasm | in
NA
cellular component| cytoplasm | traceable author statement|GO:0005737//biological process| protein-vacuolar targeting | inferred from muta
molecular function| cytoskeletal regulatory protein binding | inferred from physical interaction|GO:0005519//cellular component| shmoo tip | i
molecular function| alpha DNA polymerase activity | traceable author statement|GO:0003889//cellular component| alpha DNA polymerase:p
molecular function| DNA-directed RNA polymerase activity | traceable author statement|GO:0003899//cellular component| cytoplasm | inferr
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| mitochondrial large rib
cellular component| lipid particle | inferred from direct assay|GO:0005811
molecular function| --- | inferred from sequence similarity|GO:0051082//molecular function| --- | inferred from mutant phenotype |GO:005108
molecular function| hydroxymethylglutaryl-CoA reductase (NADPH) activity | traceable author statement|GO:0004420//cellular component| e
molecular function| Rab GTPase activator activity | inferred from sequence similarity|GO:0005097//molecular function| Rab GTPase activato
NA
molecular function| protein serine/threonine kinase activity | inferred from direct assay|GO:0004674//cellular component| shmoo tip | inferred
NA
cellular component| ribosome | traceable author statement|GO:0005840//biological process| processing of 20S pre-rRNA | traceable author
molecular function| transcription factor activity | traceable author statement|GO:0003700//cellular component| nucleus | inferred from direct a
NA
molecular function| 3'-5' exonuclease activity | inferred from sequence similarity|GO:0008408//molecular function| 3'-5' exonuclease activity
NA
molecular function| 3'-5'-exoribonuclease activity | traceable author statement|GO:0000175//cellular component| cytoplasmic exosome (RNa
cellular component| mitochondrion | inferred from curator|GO:0005739//biological process| Group I intron splicing | inferred from mutant phe
NA
cellular component| kinetochore | inferred from direct assay|GO:0000776
molecular function| peroxisome targeting signal-1 receptor activity | inferred from physical interaction|GO:0005052//molecular function| pero
cellular component| actin cortical patch (sensu Fungi) | inferred from direct assay|GO:0030479//cellular component| cytoplasm | inferred from
molecular function| NAD-independent histone deacetylase activity | inferred from physical interaction|GO:0045129//molecular function| NAD
NA
molecular function| glucosidase activity | inferred from sequence similarity|GO:0015926//cellular component| cell wall (sensu Fungi) | inferre
molecular function| nucleocytoplasmic transporter activity | inferred from genetic interaction|GO:0005487//molecular function| protein kinase
molecular function| --- | inferred from direct assay|GO:0051082//cellular component| mitochondrial matrix | inferred from direct assay|GO:00
molecular function| ubiquitin-specific protease activity | traceable author statement|GO:0004843//cellular component| cytoplasm | inferred fro
molecular function| ATPase activity | traceable author statement|GO:0016887//molecular function| DNA replication origin binding | traceable
NA
molecular function| RNA polymerase II transcription factor activity | inferred from sequence similarity|GO:0003702//molecular function| RNA
molecular function| rRNA (uridine-2'-O-)-methyltransferase activity | inferred from mutant phenotype|GO:0008650//molecular function| rRNA
molecular function| GTPase activity | traceable author statement|GO:0003924//cellular component| mitochondrial outer membrane | traceab
NA
molecular function| general RNA polymerase II transcription factor activity | traceable author statement|GO:0016251//cellular component| tra
NA
molecular function| v-SNARE activity | traceable author statement|GO:0005485//cellular component| endoplasmic reticulum membrane | infe
molecular function| transporter activity | inferred from mutant phenotype|GO:0005215//molecular function| RNA binding | inferred from direct
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| single-stranded DNA binding | inferred from direct assay|GO:0003697//cellular component| mitochondrion | inferred from
molecular function| GTPase activity | inferred from sequence similarity|GO:0003924//cellular component| cytoplasm | inferred from direct as
molecular function| U6 snRNA binding | inferred from direct assay|GO:0017070//cellular component| snRNP U6 | inferred from direct assay|
cellular component| cytoplasm | inferred from direct assay|GO:0005737
NA
molecular function| protein binding, bridging | inferred from physical interaction|GO:0030674//cellular component| actin cortical patch (sensu
molecular function| RNA polymerase III transcription factor activity | traceable author statement|GO:0003709//cellular component| transcript
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
cellular component| mitochondrion | inferred from direct assay|GO:0005739//biological process| mitochondrion organization and biogenesis
molecular function| tRNA (guanine-N7-)-methyltransferase activity | inferred from mutant phenotype|GO:0008176//molecular function| protei
NA
molecular function| protein kinase activity | inferred from direct assay|GO:0004672//cellular component| cytosol | inferred from direct assay|G
molecular function| RNA binding | inferred from sequence similarity|GO:0003723
cellular component| cytoplasm | inferred from direct assay|GO:0005737
cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| cell growth | inferred from mutant phenotype|GO:0
molecular function| --- | inferred from direct assay|GO:0051082//cellular component| cytoplasm | inferred from direct assay|GO:0005737//bio
cellular component| nuclear membrane | inferred from direct assay|GO:0005635//biological process| response to unfolded protein | inferred
molecular function| H3/H4 histone acetyltransferase activity | inferred from mutant phenotype|GO:0004406//cellular component| cytoplasm |
molecular function| signal transducer activity | inferred from physical interaction|GO:0004871//cellular component| cytoplasm | inferred from
cellular component| nucleolus | inferred from direct assay|GO:0005730//biological process| response to dessication | inferred from sequence
NA
molecular function| RNA polymerase II transcription mediator activity | inferred from direct assay|GO:0016455//cellular component| mediato
cellular component| nucleolus | inferred from direct assay|GO:0005730//cellular component| nucleus | inferred from direct assay |GO:00056
NA
NA
NA
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//molecular function| structural constituent o
cellular component| cytoplasm | inferred from direct assay|GO:0005737
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| cyclin-dependent protein kinase regulator activity | traceable author statement|GO:0016538//cellular component| nucleu
biological process| bud site selection | inferred from mutant phenotype|GO:0000282
cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| cell wall organization and biogenesis | inferred fro
molecular function| protein disulfide isomerase activity | traceable author statement|GO:0003756//molecular function| protein disulfide isome
molecular function| cytochrome-c oxidase activity | inferred from direct assay|GO:0004129//cellular component| respiratory chain complex IV
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| cyclin-dependent protein kinase regulator activity | traceable author statement|GO:0016538//cellular component| nucleu
molecular function| carboxymethylenebutenolidase activity | inferred from sequence similarity|GO:0008806//cellular component| cytoplasm |
molecular function| RNA binding | inferred from direct assay|GO:0003723//cellular component| small nuclear ribonucleoprotein complex | tra
cellular component| mitochondrion | inferred from direct assay|GO:0005739
molecular function| receptor activity | inferred from direct assay|GO:0004872//molecular function| endopeptidase activity | inferred from phys
NA
molecular function| histidinol-phosphatase activity | traceable author statement|GO:0004401//cellular component| cell | traceable author stat
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| meiotic recombination | inferred from mutant phen
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| DNA replication factor C complex | traceable a
NA
molecular function| RNA helicase activity | inferred from sequence similarity|GO:0003724//cellular component| cytoplasm | inferred from dire
molecular function| alkylbase DNA N-glycosylase activity | traceable author statement|GO:0003905//cellular component| cytoplasm | inferred
NA
molecular function| single-stranded DNA binding | inferred from direct assay|GO:0003697//molecular function| double-stranded DNA binding
molecular function| structural molecule activity | inferred from physical interaction|GO:0005198//molecular function| structural molecule activ
molecular function| protein kinase CK2 activity | inferred from direct assay|GO:0004682//cellular component| protein kinase CK2 complex | i
molecular function| transaldolase activity | inferred from sequence similarity|GO:0004801//cellular component| nucleus | inferred from direct
NA
molecular function| acetyltransferase activity | inferred from direct assay|GO:0016407//molecular function| H3/H4 histone acetyltransferase
molecular function| protein binding | inferred from direct assay|GO:0005515//cellular component| endosome | inferred from direct assay|GO:
molecular function| aldehyde dehydrogenase activity | inferred from sequence similarity|GO:0004028//molecular function| aldehyde dehydro
molecular function| DNA-directed RNA polymerase activity | traceable author statement|GO:0003899//cellular component| DNA-directed RN
cellular component| mitochondrion | inferred from direct assay|GO:0005739
molecular function| protein serine/threonine kinase activity | inferred from sequence similarity|GO:0004674//molecular function| protein serin
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| protein binding | inferred from direct assay|GO:0005515//cellular component| condensed nuclear chromosome kinetocho
NA
NA
NA
NA
molecular function| alpha DNA polymerase activity | traceable author statement|GO:0003889//cellular component| alpha DNA polymerase:p
NA
molecular function| isocitrate lyase activity | inferred from sequence similarity|GO:0004451//molecular function| isocitrate lyase activity | infe
cellular component| shmoo tip | inferred from direct assay|GO:0005937//cellular component| bud neck | inferred from direct assay |GO:0005
biological process| nitrogen metabolism | inferred from expression pattern|GO:0006807
cellular component| Golgi apparatus | non-traceable author statement|GO:0005794//biological process| ER to Golgi transport | inferred from
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| sporulation | inferred from mutant phenotype|GO:0
NA
biological process| sporulation (sensu Fungi) | inferred from mutant phenotype|GO:0030437
cellular component| spliceosome complex | inferred from physical interaction|GO:0005681//biological process| nuclear mRNA splicing, via s
NA
cellular component| spliceosome complex | inferred from direct assay|GO:0005681//biological process| nuclear mRNA splicing, via spliceos
molecular function| inositol/phosphatidylinositol kinase activity | inferred from direct assay|GO:0004428//cellular component| nucleus | inferr
cellular component| plasma membrane | inferred from direct assay|GO:0005886//cellular component| vacuolar membrane (sensu Fungi) | in
NA
molecular function| ATPase activity | inferred from sequence similarity|GO:0016887//cellular component| cell cortex | inferred from direct ass
molecular function| specific RNA polymerase II transcription factor activity | inferred from direct assay|GO:0003704//cellular component| nuc
NA
molecular function| transcription factor activity | inferred from sequence similarity|GO:0003700//molecular function| transcription factor activi
molecular function| hydrolase activity | inferred from direct assay|GO:0016787//molecular function| enzyme activator activity | inferred from d
molecular function| sphinganine-1-phosphate aldolase activity | inferred from direct assay|GO:0008117//cellular component| endoplasmic re
cellular component| ESCRT II complex | inferred from direct assay|GO:0000814//biological process| negative regulation of transcription by g
molecular function| ATPase activity | inferred from mutant phenotype|GO:0016887//cellular component| chromatin remodeling complex | infe
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783
molecular function| DNA replication origin binding | traceable author statement|GO:0003688//cellular component| nuclear origin of replicatio
cellular component| DNA replication factor C complex | inferred from physical interaction|GO:0005663//biological process| mitotic sister chro
cellular component| integral to membrane | inferred from sequence similarity|GO:0016021
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleolus | inferred from direct assay |GO:0005
molecular function| ATP-dependent DNA helicase activity | inferred from direct assay|GO:0004003//molecular function| single-stranded DNA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| bud growth | inferred from genetic interaction|G
molecular function| alpha-tubulin binding | inferred from physical interaction|GO:0043014//biological process| alpha-tubulin folding | traceabl
NA
molecular function| transporter activity | inferred from sequence similarity|GO:0005215//cellular component| mitochondrial inner membrane |
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| mitochondrial large rib
molecular function| guanyl-nucleotide exchange factor activity | inferred from physical interaction|GO:0005085//cellular component| membra
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| t-SNARE activity | inferred from sequence similarity|GO:0005486//molecular function| t-SNARE activity | inferred from m
molecular function| GTPase activity | traceable author statement|GO:0003924//cellular component| plasma membrane | traceable author sta
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| mitochondrial large rib
molecular function| glycerol-3-phosphate dehydrogenase activity | inferred from sequence similarity|GO:0004368//molecular function| glycer
molecular function| mating-type a-factor pheromone receptor activity | inferred from sequence similarity|GO:0004933//molecular function| m
NA
molecular function| peptidyl-prolyl cis-trans isomerase activity | inferred from sequence similarity|GO:0003755//cellular component| vacuole
molecular function| alpha-1,3-mannosyltransferase activity | inferred from direct assay|GO:0000033//biological process| O-linked glycosylati
molecular function| receptor activity | inferred from sequence similarity|GO:0004872//molecular function| receptor activity | inferred from gen
cellular component| retromer complex | traceable author statement|GO:0030904//cellular component| endosome | inferred from physical inte
NA
NA
molecular function| pre-mRNA splicing factor activity | inferred from physical interaction|GO:0008248//cellular component| small nuclear ribo
molecular function| v-SNARE activity | traceable author statement|GO:0005485//cellular component| transport vesicle | inferred from direct a
NA
cellular component| extrinsic to membrane | traceable author statement|GO:0019898//biological process| protein-membrane targeting | infer
NA
molecular function| ATP-dependent DNA helicase activity | traceable author statement|GO:0004003//molecular function| chromatin binding
biological process| cell cycle arrest in response to pheromone | inferred from physical interaction|GO:0000751//biological process| cell cycle
molecular function| transporter activity | inferred from sequence similarity|GO:0005215//cellular component| membrane | inferred from seque
molecular function| protein transporter activity | inferred from physical interaction|GO:0008565//molecular function| protein transporter activit
molecular function| snoRNA binding | inferred from physical interaction|GO:0030515//cellular component| small nucleolar ribonucleoprotein
molecular function| protein binding | inferred from direct assay|GO:0005515//molecular function| chromatin binding | inferred from direct ass
molecular function| ATP-dependent RNA helicase activity | traceable author statement|GO:0004004//cellular component| nucleolus | traceab
cellular component| nucleus | inferred from sequence similarity|GO:0005634//cellular component| nucleus | inferred from direct assay |GO:0
molecular function| protoheme IX farnesyltransferase activity | inferred from sequence similarity|GO:0008495//cellular component| mitochon
molecular function| xylulokinase activity | inferred from sequence similarity|GO:0004856//molecular function| xylulokinase activity | inferred f
molecular function| enzyme activator activity | inferred from direct assay|GO:0008047//molecular function| protein binding | inferred from dire
molecular function| ATP binding | inferred from direct assay|GO:0005524//molecular function| ATP-dependent DNA helicase activity | tracea
molecular function| RNA polymerase II transcription mediator activity | inferred from physical interaction|GO:0016455//cellular component| m
molecular function| NAD-independent histone deacetylase activity | inferred from physical interaction|GO:0045129//molecular function| NAD
cellular component| actin cortical patch (sensu Fungi) | inferred from direct assay|GO:0030479//biological process| actin filament organizatio
molecular function| enzyme activator activity | inferred from mutant phenotype|GO:0008047//cellular component| contractile ring (sensu Sac
molecular function| alpha,alpha-trehalase activity | inferred from mutant phenotype|GO:0004555//cellular component| vacuole (sensu Fungi)
molecular function| arginyltransferase activity | traceable author statement|GO:0004057//cellular component| cytoplasm | traceable author s
molecular function| ATPase activity | inferred from sequence similarity|GO:0016887//cellular component| mitochondrial outer membrane | in
cellular component| cytosolic ribosome (sensu Eukarya) | inferred from direct assay|GO:0005830//cellular component| cytosol | inferred from
molecular function| centromeric DNA binding | inferred from direct assay|GO:0019237//cellular component| nuclear nucleosome | inferred fr
cellular component| mitochondrion | inferred from direct assay|GO:0005739
molecular function| snoRNA binding | inferred from physical interaction|GO:0030515//cellular component| small nucleolar ribonucleoprotein
molecular function| phosphopantothenoylcysteine decarboxylase activity | inferred from sequence similarity|GO:0004633//biological process
NA
molecular function| transporter activity | inferred from sequence similarity|GO:0005215//cellular component| mitochondrial inner membrane |
NA
cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| cAMP-mediated signaling | inferred from genetic in
NA
molecular function| RNA helicase activity | inferred from direct assay|GO:0003724//cellular component| nucleolus | inferred from direct assa
cellular component| cytoplasm | inferred from direct assay|GO:0005737
NA
NA
NA
cellular component| SCF ubiquitin ligase complex | inferred from physical interaction|GO:0019005
cellular component| mitochondrion | inferred from direct assay|GO:0005739//biological process| sporulation (sensu Fungi) | inferred from mu
molecular function| ethanolamine kinase activity | inferred from direct assay|GO:0004305//molecular function| choline kinase activity | inferre
molecular function| Pol II transcription elongation factor activity | inferred from physical interaction|GO:0016944//molecular function| Pol II tra
molecular function| transcriptional activator activity | inferred from mutant phenotype|GO:0016563//molecular function| transcriptional activat
NA
molecular function| tRNA methyltransferase activity | inferred from direct assay|GO:0008175//cellular component| cytoplasm | inferred from
NA
cellular component| Ada2/Gcn5/Ada3 transcription activator complex | inferred from physical interaction|GO:0005671//biological process| nu
molecular function| structural molecule activity | inferred from mutant phenotype|GO:0005198//cellular component| proteasome regulatory p
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| aerobic respiration | inferred from mutant pheno
molecular function| ATPase activity | inferred from sequence similarity|GO:0016887//molecular function| helicase activity | inferred from sequ
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
NA
molecular function| protein binding | inferred from physical interaction|GO:0005515//biological process| sphingolipid biosynthesis | inferred fr
molecular function| nicotinate-nucleotide adenylyltransferase activity | inferred from sequence similarity|GO:0004515//molecular function| nic
NA
molecular function| pre-mRNA splicing factor activity | inferred from physical interaction|GO:0008248//cellular component| small nuclear ribo
molecular function| protein kinase activity | inferred from direct assay|GO:0004672//cellular component| cytoplasm | inferred from direct assa
cellular component| mitochondrial inner membrane | traceable author statement|GO:0005743//cellular component| mitochondrion | inferred
molecular function| damaged DNA binding | inferred from mutant phenotype|GO:0003684//cellular component| nucleus | inferred from curat
molecular function| cytochrome-c oxidase activity | inferred from direct assay|GO:0004129//cellular component| respiratory chain complex IV
molecular function| RNA binding | inferred from direct assay|GO:0003723//cellular component| nucleus | inferred from direct assay|GO:0005
molecular function| protein binding | inferred from direct assay|GO:0005515//cellular component| cytoplasm | inferred from direct assay|GO:
NA
molecular function| regulator of G-protein signaling activity | inferred from mutant phenotype|GO:0016299//cellular component| ESCRT II co
molecular function| ferric-chelate reductase activity | inferred from sequence similarity|GO:0000293//cellular component| integral to membra
molecular function| ligase activity | inferred from sequence similarity|GO:0016874//molecular function| ligase activity | inferred from mutant p
molecular function| FMN adenylyltransferase activity | inferred from sequence similarity|GO:0003919//molecular function| FMN adenylyltrans
molecular function| nitrilase activity | inferred from sequence similarity|GO:0000257
NA
molecular function| myosin II binding | inferred from physical interaction|GO:0045159//cellular component| contractile ring (sensu Saccharom
NA
molecular function| protein phosphatase type 1 regulator activity | traceable author statement|GO:0008599//molecular function| protein phos
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| specific RNA polymerase II transcription factor activity | inferred from direct assay|GO:0003704//cellular component| cyto
NA
cellular component| mitochondrion | inferred from direct assay|GO:0005739//biological process| meiotic recombination | inferred from mutan
molecular function| snoRNA binding | inferred from physical interaction|GO:0030515//cellular component| small nucleolar ribonucleoprotein
NA
NA
cellular component| extrinsic to membrane | inferred from direct assay|GO:0019898//cellular component| mitochondrial inner membrane | in
molecular function| phosphoinositide binding | inferred from direct assay|GO:0035091//cellular component| cytoplasm | inferred from direct a
cellular component| mitochondrion | inferred from direct assay|GO:0005739
molecular function| diacylglycerol O-acyltransferase activity | inferred from sequence similarity|GO:0004144//molecular function| diacylglyce
cellular component| extrinsic to membrane | inferred from direct assay|GO:0019898//biological process| autophagy | inferred from mutant ph
molecular function| ATP-dependent RNA helicase activity | traceable author statement|GO:0004004//cellular component| nucleolus | traceab
molecular function| hydrogen-transporting ATP synthase activity, rotational mechanism | traceable author statement|GO:0046933//molecula
NA
cellular component| mitochondrion | inferred from direct assay|GO:0005739//cellular component| cytoplasm | inferred from direct assay |GO
molecular function| DNA helicase activity | inferred from direct assay|GO:0003678//cellular component| nucleus | inferred from direct assay|
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| tubulin binding | inferred from direct assay|GO:0015631//cellular component| prefoldin complex | inferred from sequence
NA
NA
cellular component| endoplasmic reticulum membrane | inferred from direct assay|GO:0005789//biological process| ER-associated protein c
molecular function| transporter activity | inferred from sequence similarity|GO:0005215//cellular component| integral to membrane | inferred
molecular function| DNA-directed RNA polymerase activity | inferred from direct assay|GO:0003899//cellular component| mitochondrial matr
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| SWR1 complex | inferred from physical interac
molecular function| mannose transporter activity | inferred from genetic interaction|GO:0015578//molecular function| glucose transporter act
NA
molecular function| 3'-5'-exoribonuclease activity | traceable author statement|GO:0000175//cellular component| nuclear exosome (RNase c
molecular function| endopeptidase activity | traceable author statement|GO:0004175//cellular component| proteasome core complex, alpha-
NA
cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| invasive growth (sensu Saccharomyces) | inferred
cellular component| plasma membrane | inferred from sequence similarity|GO:0005886//cellular component| plasma membrane | inferred fro
biological process| mitochondrion organization and biogenesis | inferred from mutant phenotype|GO:0007005
NA
cellular component| bud neck | inferred from direct assay|GO:0005935//cellular component| bud tip | inferred from direct assay |GO:0005934
molecular function| lysine-tRNA ligase activity | inferred from sequence similarity|GO:0004824//cellular component| mitochondrion | inferred
cellular component| proteasome regulatory particle, lid subcomplex (sensu Eukarya) | inferred from direct assay|GO:0008541//cellular comp
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| cleavage/polyadenylation specificity factor activity | traceable author statement|GO:0030364//cellular component| mRNA
NA
cellular component| mitochondrial inner membrane | inferred from direct assay|GO:0005743//biological process| ubiquinone metabolism | in
NA
molecular function| cytoskeletal regulatory protein binding | inferred from physical interaction|GO:0005519//cellular component| actin cap (se
molecular function| snoRNA binding | traceable author statement|GO:0030515//cellular component| cytoplasm | inferred from direct assay|G
NA
molecular function| protein kinase activity | traceable author statement|GO:0004672//molecular function| protein kinase activity | inferred from
molecular function| GTPase activity | inferred from sequence similarity|GO:0003924//cellular component| mitochondrial inner membrane | in
biological process| GPI anchor biosynthesis | inferred from sequence similarity|GO:0006506//biological process| GPI anchor biosynthesis | i
molecular function| S-adenosylmethionine-dependent methyltransferase activity | inferred from sequence similarity|GO:0008757//cellular co
molecular function| --- | inferred from direct assay|GO:0051082//cellular component| mitochondrial matrix | inferred from direct assay|GO:00
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| protein monoubiquitination | inferred from seque
molecular function| general RNA polymerase II transcription factor activity | traceable author statement|GO:0016251//molecular function| cy
molecular function| protein tyrosine phosphatase activity | inferred from sequence similarity|GO:0004725//molecular function| protein tyrosin
molecular function| pseudouridylate synthase activity | inferred from mutant phenotype|GO:0004730//molecular function| pseudouridylate sy
molecular function| deoxyribonuclease activity | traceable author statement|GO:0004536//molecular function| 5'-3' exoribonuclease activity |
molecular function| cyclin-dependent protein kinase regulator activity | traceable author statement|GO:0016538//cellular component| cyclin-d
NA
molecular function| v-SNARE activity | traceable author statement|GO:0005485//cellular component| vacuolar membrane (sensu Fungi) | inf
NA
molecular function| transcription cofactor activity | inferred from physical interaction|GO:0003712//molecular function| transcription cofactor a
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| mitochondrial large rib
cellular component| Golgi transport complex | inferred from physical interaction|GO:0017119//biological process| intra-Golgi transport | infer
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| protein-vacuolar targeting | inferred from mutan
cellular component| integral to membrane | inferred from sequence similarity|GO:0016021//biological process| conjugation with cellular fusio
molecular function| ATPase activity | traceable author statement|GO:0016887//cellular component| nuclear chromatin | inferred from direct a
molecular function| endopeptidase activity | traceable author statement|GO:0004175//cellular component| proteasome regulatory particle, lid
cellular component| mitochondrion | inferred from direct assay|GO:0005739
molecular function| transcriptional activator activity | inferred from sequence similarity|GO:0016563//molecular function| transcriptional activa
molecular function| protein tyrosine/threonine phosphatase activity | inferred from sequence similarity|GO:0008330//molecular function| prot
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| RNA polymerase II transcription factor activity | inferred from sequence similarity|GO:0003702//cellular component| nucl
molecular function| transporter activity | inferred from sequence similarity|GO:0005215//cellular component| mitochondrion | inferred from di
biological process| amino acid transport | inferred from mutant phenotype|GO:0006865
molecular function| specific RNA polymerase II transcription factor activity | inferred from direct assay|GO:0003704//cellular component| nuc
cellular component| cytoplasm | inferred from direct assay|GO:0005737
NA
cellular component| integral to membrane | inferred from sequence similarity|GO:0016021
cellular component| integral to membrane | inferred from sequence similarity|GO:0016021//biological process| secretory pathway | inferred f
molecular function| ribonuclease P activity | inferred from direct assay|GO:0004526//molecular function| ribonuclease MRP activity | inferred
NA
NA
biological process| cell cycle arrest in response to pheromone | inferred from physical interaction|GO:0000751//biological process| cell cycle
molecular function| structural constituent of ribosome | inferred from direct assay|GO:0003735//cellular component| mitochondrial small ribo
molecular function| amidase activity | inferred from sequence similarity|GO:0004040//cellular component| mitochondrion | inferred from direc
molecular function| --- | traceable author statement|GO:0051082//cellular component| cytoskeleton | traceable author statement|GO:000585
molecular function| tRNA dihydrouridine synthase activity | inferred from direct assay|GO:0017150//cellular component| nucleus | inferred fro
cellular component| extrinsic to membrane | inferred from direct assay|GO:0019898//biological process| peroxisome degradation | inferred fr
molecular function| glycerol kinase activity | inferred from sequence similarity|GO:0004370//molecular function| glycerol kinase activity | infe
NA
molecular function| structural constituent of cytoskeleton | traceable author statement|GO:0005200//cellular component| prospore membran
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| cell wall organization and biogenesis | inferred f
NA
cellular component| mitochondrion | inferred from direct assay|GO:0005739
cellular component| vacuole (sensu Fungi) | inferred from direct assay|GO:0000324
molecular function| protein binding | inferred from direct assay|GO:0005515//cellular component| condensed nuclear chromosome kinetocho
molecular function| 3'-5'-exoribonuclease activity | inferred from direct assay|GO:0000175//cellular component| CCR4-NOT core complex | in
NA
molecular function| copper chaperone activity | inferred from direct assay|GO:0016531//cellular component| cytosol | inferred from direct ass
molecular function| pre-mRNA splicing factor activity | traceable author statement|GO:0008248//molecular function| ATP-dependent RNA he
cellular component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
cellular component| membrane fraction | inferred from direct assay|GO:0005624//biological process| autophagy | inferred from mutant phen
molecular function| mRNA binding | inferred from direct assay|GO:0003729//cellular component| cytoplasm | inferred from direct assay|GO:0
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| protein-vacuolar targeting | inferred from mutan
molecular function| water channel activity | inferred from sequence similarity|GO:0015250//molecular function| glycerol transporter activity | i
NA
molecular function| general RNA polymerase II transcription factor activity | traceable author statement|GO:0016251//cellular component| tra
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| protein biosynthesis | inferred from physical inte
NA
molecular function| RNA polymerase III transcription factor activity | traceable author statement|GO:0003709//cellular component| transcript
cellular component| retromer complex | traceable author statement|GO:0030904//cellular component| endosome | inferred from physical inte
molecular function| protein binding | inferred from physical interaction|GO:0005515//cellular component| Golgi apparatus | inferred from dire
cellular component| retromer complex | traceable author statement|GO:0030904//cellular component| endosome | inferred from physical inte
cellular component| shmoo tip | inferred from direct assay|GO:0005937//biological process| plasma membrane fusion | inferred from mutant
molecular function| endopeptidase activity | traceable author statement|GO:0004175//cellular component| proteasome core complex (sensu
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737
NA
NA
molecular function| microfilament motor activity | traceable author statement|GO:0000146//cellular component| actin cortical patch (sensu F
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| epsilon DNA polymerase activity | traceable author statement|GO:0003893//cellular component| epsilon DNA polymeras
molecular function| transcription regulator activity | traceable author statement|GO:0030528//molecular function| transcription regulator activ
cellular component| spindle pole | inferred from direct assay|GO:0000922//cellular component| MIND complex | inferred from direct assay |G
molecular function| GTPase activity | traceable author statement|GO:0003924//molecular function| GTPase activity | inferred from sequence
molecular function| structural constituent of ribosome | inferred from direct assay|GO:0003735//cellular component| mitochondrial small ribo
molecular function| nicotinamidase activity | inferred from sequence similarity|GO:0008936//cellular component| peroxisome | inferred from d
molecular function| 1,3-beta-glucanosyltransferase activity | inferred from sequence similarity|GO:0042124//cellular component| cytoplasm |
molecular function| protein binding | inferred from direct assay|GO:0005515//cellular component| nucleus | inferred from physical interaction
molecular function| translation elongation factor activity | inferred from sequence similarity|GO:0003746//cellular component| mitochondrial m
molecular function| nuclear localization sequence binding | inferred from direct assay|GO:0008139
molecular function| --- | inferred from sequence similarity|GO:0051087//molecular function| --- | inferred from sequence similarity |GO:00510
cellular component| TRAPP | inferred from direct assay|GO:0030008//biological process| ER to Golgi transport | inferred from mutant pheno
molecular function| hydrolase activity, hydrolyzing O-glycosyl compounds | inferred from sequence similarity|GO:0004553
molecular function| Rho guanyl-nucleotide exchange factor activity | inferred from direct assay|GO:0005089//biological process| signal trans
NA
molecular function| RNA binding | inferred from sequence similarity|GO:0003723//cellular component| nuclear pore | inferred from physical i
molecular function| 6-phosphofructo-2-kinase activity | inferred from sequence similarity|GO:0003873//molecular function| 6-phosphofructo-2
NA
NA
cellular component| synaptonemal complex | inferred from direct assay|GO:0000795//biological process| synaptonemal complex formation |
molecular function| --- | inferred from sequence similarity|GO:0051082//molecular function| cysteine-type peptidase activity | inferred from se
NA
cellular component| vacuolar membrane | inferred from direct assay|GO:0005774//cellular component| insoluble fraction | inferred from direc
molecular function| protein phosphatase regulator activity | inferred from sequence similarity|GO:0019888//cellular component| protein phos
cellular component| nuclear telomere cap complex | inferred from direct assay|GO:0000783//biological process| telomerase-dependent telom
molecular function| X-Pro aminopeptidase activity | inferred from sequence similarity|GO:0008451//cellular component| mitochondrion | infer
molecular function| ATP:ADP antiporter activity | inferred from direct assay|GO:0005471//cellular component| mitochondrial inner membrane
molecular function| histone deacetylase activity | traceable author statement|GO:0004407//molecular function| histone deacetylase activity |
cellular component| integral to membrane | inferred from sequence similarity|GO:0016021//biological process| conjugation with cellular fusio
molecular function| transcriptional activator activity | inferred from direct assay|GO:0016563//cellular component| proteasome core complex
molecular function| pre-mRNA splicing factor activity | traceable author statement|GO:0008248//molecular function| mRNA binding | inferred
molecular function| --- | inferred from physical interaction|GO:0051082//molecular function| proteasome activator activity | inferred from muta
cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| cell wall organization and biogenesis | inferred fro
cellular component| chromatin remodeling complex | inferred from physical interaction|GO:0016585//cellular component| nucleus | inferred f
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| mitochondrial large rib
NA
molecular function| general RNA polymerase II transcription factor activity | inferred from direct assay|GO:0016251//cellular component| tran
molecular function| damaged DNA binding | inferred from direct assay|GO:0003684//cellular component| nuclear chromosome | inferred from
molecular function| protein binding | inferred from direct assay|GO:0005515//cellular component| nuclear pore | inferred from direct assay|G
molecular function| histone acetyltransferase activity | inferred from direct assay|GO:0004402//cellular component| histone acetyltransferase
NA
NA
molecular function| clathrin binding | inferred from sequence similarity|GO:0030276//molecular function| clathrin binding | inferred from phys
NA
molecular function| ligand-regulated transcription factor activity | inferred from sequence similarity|GO:0003706//molecular function| ligand-r
molecular function| ATPase activity | traceable author statement|GO:0016887//molecular function| ATPase activity | inferred from sequence
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| structural molecule activity | traceable author statement|GO:0005198//cellular component| nuclear pore | inferred from d
molecular function| DNA-dependent ATPase activity | inferred from direct assay|GO:0008094//molecular function| DNA binding | inferred fro
molecular function| protein binding | traceable author statement|GO:0005515//molecular function| ubiquitin-protein ligase activity | traceable
biological process| meiosis | inferred from expression pattern|GO:0007126//biological process| DNA metabolism | inferred from genetic inter
cellular component| mitochondrion | inferred from direct assay|GO:0005739//biological process| cytochrome biogenesis | inferred from muta
NA
cellular component| vacuole (sensu Fungi) | inferred from direct assay|GO:0000324
molecular function| structural constituent of ribosome | inferred from direct assay|GO:0003735//cellular component| mitochondrial small ribo
NA
NA
NA
cellular component| nuclear membrane | inferred from direct assay|GO:0005635//biological process| response to unfolded protein | inferred
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
NA
molecular function| snoRNA binding | traceable author statement|GO:0030515//cellular component| nucleus | inferred from direct assay|GO
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| Rab GTPase activator activity | inferred from sequence similarity|GO:0005097//molecular function| Rab GTPase activato
molecular function| methionine-tRNA ligase activity | inferred from sequence similarity|GO:0004825//molecular function| methionine-tRNA lig
cellular component| mitochondrion | inferred from direct assay|GO:0005739
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| specific RNA polymerase II transcription factor activity | inferred from sequence similarity|GO:0003704//molecular functio
molecular function| translation initiation factor activity | traceable author statement|GO:0003743//cellular component| eukaryotic translation i
NA
molecular function| protein binding | inferred from sequence similarity|GO:0005515//cellular component| ubiquitin ligase complex | inferred fr
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| protein transporter activity | inferred from direct assay|GO:0008565//cellular component| endosome | inferred from direct
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//molecular function| structural constituent o
molecular function| mannose transporter activity | inferred from genetic interaction|GO:0015578//molecular function| glucose transporter act
molecular function| protein kinase activity | inferred from sequence similarity|GO:0004672//cellular component| cytoplasm | inferred from dire
molecular function| MAP kinase kinase kinase activity | traceable author statement|GO:0004709//biological process| osmosensory signaling
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| mitochondrial large rib
molecular function| calmodulin-dependent protein kinase I activity | inferred from direct assay|GO:0004684//cellular component| cytoplasm |
NA
cellular component| nucleolus | inferred from direct assay|GO:0005730//biological process| processing of 27S pre-rRNA | inferred from muta
cellular component| mitochondrion | inferred from direct assay|GO:0005739
NA
molecular function| t-SNARE activity | traceable author statement|GO:0005486//cellular component| endoplasmic reticulum membrane | trac
cellular component| mitochondrion | inferred from direct assay|GO:0005739
cellular component| mitochondrion | inferred from direct assay|GO:0005739
NA
molecular function| chromatin binding | inferred from physical interaction|GO:0003682//molecular function| DNA binding | traceable author s
molecular function| ribonuclease activity | inferred from direct assay|GO:0004540//molecular function| exodeoxyribonuclease activity | inferre
molecular function| oxidoreductase activity | inferred from sequence similarity|GO:0016491//cellular component| membrane | inferred from s
molecular function| endopolyphosphatase activity | inferred from mutant phenotype|GO:0000298//molecular function| endopolyphosphatase
cellular component| cytoplasm | inferred from direct assay|GO:0005737
cellular component| mitochondrion | inferred from direct assay|GO:0005739
cellular component| cytoplasm | inferred from direct assay|GO:0005737
cellular component| nucleolus | inferred from direct assay|GO:0005730//biological process| rRNA processing | inferred from mutant phenoty
molecular function| protein kinase activity | inferred from sequence similarity|GO:0004672//molecular function| protein kinase activity | inferre
NA
NA
cellular component| clathrin-coated vesicle | inferred from direct assay|GO:0030136//biological process| bud site selection | inferred from mu
NA
molecular function| GTPase activity | inferred from physical interaction|GO:0003924//cellular component| bud neck | inferred from direct ass
cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| regulation of transcription from Pol II promoter | in
molecular function| structural constituent of cytoskeleton | inferred from sequence similarity|GO:0005200//molecular function| structural cons
molecular function| protein binding | inferred from sequence similarity|GO:0005515//molecular function| protein binding | inferred from physic
molecular function| hydroxymethylbilane synthase activity | inferred from sequence similarity|GO:0004418//molecular function| hydroxymeth
cellular component| nucleosome remodeling complex | inferred from physical interaction|GO:0005679//biological process| chromatin remode
molecular function| protein kinase activity | inferred from sequence similarity|GO:0004672
molecular function| urea transporter activity | inferred from sequence similarity|GO:0015204//molecular function| urea transporter activity | in
molecular function| protein binding | inferred from direct assay|GO:0005515//molecular function| RNA binding | inferred from direct assay |G
molecular function| ubiquitin-like conjugating enzyme activity | inferred from mutant phenotype|GO:0008640//cellular component| cytoplasm
cellular component| nucleus | inferred from physical interaction|GO:0005634//biological process| DNA repair | inferred from direct assay|GO
molecular function| --- | inferred from direct assay|GO:0051082//molecular function| ATPase activity | inferred from direct assay |GO:001688
NA
NA
molecular function| purine nucleotide binding | inferred from sequence similarity|GO:0017076//molecular function| DNA clamp loader activity
molecular function| ATP-dependent RNA helicase activity | traceable author statement|GO:0004004//cellular component| nucleolus | inferred
NA
molecular function| glycogen synthase kinase 3 activity | inferred from sequence similarity|GO:0004696//molecular function| glycogen synth
NA
molecular function| pre-mRNA splicing factor activity | traceable author statement|GO:0008248//cellular component| spliceosome complex |
cellular component| lipid particle | inferred from direct assay|GO:0005811
molecular function| protein binding | inferred from direct assay|GO:0005515//molecular function| damaged DNA binding | inferred from direc
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| snoRNA binding | inferred from physical interaction|GO:0030515//cellular component| small nucleolar ribonucleoprotein
molecular function| 3'-5'-exoribonuclease activity | traceable author statement|GO:0000175//cellular component| cytoplasmic exosome (RNa
molecular function| histone deacetylase activity | inferred from physical interaction|GO:0004407//cellular component| histone deacetylase co
cellular component| cytoplasm | inferred from physical interaction|GO:0005737//biological process| bud growth | inferred from mutant pheno
molecular function| cysteine synthase activity | inferred from sequence similarity|GO:0004124//cellular component| mitochondrion | inferred
molecular function| permease activity | inferred from sequence similarity|GO:0015646//molecular function| permease activity | inferred from
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
NA
molecular function| S-adenosylmethionine-dependent methyltransferase activity | inferred from sequence similarity|GO:0008757//cellular co
NA
NA
molecular function| protein binding | inferred from direct assay|GO:0005515//cellular component| nucleus | inferred from physical interaction
cellular component| mitochondrial membrane | traceable author statement|GO:0005740//biological process| protein complex assembly | trac
molecular function| manganese ion transporter activity | inferred from mutant phenotype|GO:0005384//cellular component| plasma membran
cellular component| proteasome regulatory particle (sensu Eukarya) | traceable author statement|GO:0005838//biological process| ubiquitin
molecular function| methyltransferase activity | inferred from sequence similarity|GO:0008168//cellular component| cytoplasm | inferred from
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
NA
NA
molecular function| hydrogen-transporting ATP synthase activity, rotational mechanism | inferred from physical interaction|GO:0046933//mo
molecular function| aryl-alcohol dehydrogenase activity | inferred from sequence similarity|GO:0018456//biological process| aldehyde metab
NA
biological process| sporulation (sensu Fungi) | inferred from mutant phenotype|GO:0030437//biological process| invasive growth (sensu Sac
molecular function| helicase activity | inferred from sequence similarity|GO:0004386//cellular component| nucleus | inferred from direct assa
NA
cellular component| mitochondrial outer membrane | inferred from direct assay|GO:0005741//biological process| mitochondrial fission | infer
molecular function| transaminase activity | inferred from sequence similarity|GO:0008483//cellular component| cytoplasm | inferred from dire
molecular function| hydroxyacylglutathione hydrolase activity | inferred from mutant phenotype|GO:0004416//molecular function| hydroxyacy
molecular function| --- | inferred from direct assay|GO:0051087//molecular function| ATPase activity, coupled | inferred from direct assay |GO
molecular function| lipid binding | inferred from physical interaction|GO:0008289//molecular function| lipid binding | inferred from mutant phe
molecular function| structural molecule activity | traceable author statement|GO:0005198//cellular component| nuclear pore | inferred from d
molecular function| 3-methyl-2-oxobutanoate hydroxymethyltransferase activity | inferred from sequence similarity|GO:0003864//molecular f
NA
molecular function| 3'-5'-exoribonuclease activity | traceable author statement|GO:0000175//cellular component| cytoplasmic exosome (RNa
molecular function| acetyltransferase activity | inferred from direct assay|GO:0016407//molecular function| histone acetyltransferase activity
molecular function| --- | traceable author statement|GO:0051082//molecular function| ATP binding | inferred from sequence similarity |GO:00
biological process| invasive growth (sensu Saccharomyces) | inferred from genetic interaction|GO:0001403
NA
molecular function| RNA helicase activity | inferred from sequence similarity|GO:0003724//cellular component| mitochondrial matrix | inferred
cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| protein ubiquitination | inferred from genetic intera
molecular function| structural molecule activity | traceable author statement|GO:0005198//cellular component| nuclear pore | traceable autho
molecular function| transcription coactivator activity | inferred from direct assay|GO:0003713//cellular component| nucleus | inferred from ph
molecular function| clathrin binding | traceable author statement|GO:0030276//cellular component| actin cortical patch (sensu Fungi) | inferre
molecular function| --- | inferred from physical interaction|GO:0051082//molecular function| --- | inferred from mutant phenotype |GO:005108
cellular component| mitochondrial inner membrane | inferred from direct assay|GO:0005743//biological process| aerobic respiration | inferre
cellular component| nucleus | inferred from direct assay|GO:0005634
molecular function| RNA polymerase II transcription mediator activity | inferred from direct assay|GO:0016455//cellular component| mediato
molecular function| RNA polymerase II transcription factor activity | inferred from direct assay|GO:0003702//cellular component| nucleus | in
NA
molecular function| endodeoxyribonuclease activity, producing 3'-phosphomonoesters | inferred from mutant phenotype|GO:0016889//molec
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| 3'-5'-exoribonuclease activity | traceable author statement|GO:0000175//cellular component| cytoplasmic exosome (RNa
molecular function| DNA-(apurinic or apyrimidinic site) lyase activity | inferred from direct assay|GO:0003906//molecular function| pyrimidine
molecular function| protein kinase activity | inferred from sequence similarity|GO:0004672//biological process| response to pheromone | infe
molecular function| RNA polymerase II transcription factor activity | inferred from direct assay|GO:0003702//cellular component| nucleus | in
molecular function| receptor signaling protein activity | inferred from physical interaction|GO:0005057//molecular function| receptor signaling
molecular function| Pol II transcription elongation factor activity | inferred from physical interaction|GO:0016944//molecular function| Pol II tra
molecular function| malate synthase activity | traceable author statement|GO:0004474//cellular component| peroxisomal matrix | traceable a
molecular function| phosphopyruvate hydratase activity | inferred from sequence similarity|GO:0004634//cellular component| cytoplasm | inf
molecular function| RNA binding | inferred from direct assay|GO:0003723//cellular component| snRNP U2 | inferred from direct assay|GO:00
molecular function| DNA-directed RNA polymerase activity | inferred from direct assay|GO:0003899//cellular component| DNA-directed RNA
cellular component| AP-3 adaptor complex | inferred from sequence similarity|GO:0030123//biological process| Golgi to vacuole transport | i
molecular function| transcription cofactor activity | traceable author statement|GO:0003712//cellular component| Ada2/Gcn5/Ada3 transcript
cellular component| mitochondrion | inferred from direct assay|GO:0005739//cellular component| cytoplasm | inferred from direct assay |GO
molecular function| prenyltransferase activity | inferred from sequence similarity|GO:0004659//molecular function| prenyltransferase activity
molecular function| glucose binding | traceable author statement|GO:0005536//molecular function| glucose transporter activity | traceable au
molecular function| GTPase activity | inferred from physical interaction|GO:0003924//cellular component| bud neck | inferred from direct ass
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| specific RNA polymerase II transcription factor activity | inferred from direct assay|GO:0003704//molecular function| DNA
NA
molecular function| pre-mRNA splicing factor activity | inferred from direct assay|GO:0008248//cellular component| cytoplasm | inferred from
NA
molecular function| protein serine/threonine phosphatase activity | inferred from physical interaction|GO:0004722//cellular component| cytop
molecular function| ATPase activity | inferred from sequence similarity|GO:0016887//cellular component| nucleus | inferred from direct assay
biological process| sporulation (sensu Fungi) | inferred from mutant phenotype|GO:0030437
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| histone deacetylase activity | inferred from mutant phenotype|GO:0004407//cellular component| nucleus | inferred from d
NA
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| protein kinase activity | inferred from sequence similarity|GO:0004672
cellular component| external side of endosome membrane | inferred from direct assay|GO:0010009//cellular component| cytoplasm | inferre
molecular function| U2 snRNA binding | inferred from physical interaction|GO:0030620//cellular component| snRNP U2 | inferred from physi
molecular function| enzyme regulator activity | inferred from direct assay|GO:0030234//molecular function| cytochrome-c oxidase activity | in
cellular component| bud neck | inferred from direct assay|GO:0005935
molecular function| protein binding | inferred from direct assay|GO:0005515//cellular component| condensed nuclear chromosome kinetocho
molecular function| protein binding | inferred from direct assay|GO:0005515//cellular component| cytoplasm | inferred from direct assay|GO:
cellular component| clathrin-coated vesicle | inferred from direct assay|GO:0030136
molecular function| thiol-disulfide exchange intermediate activity | inferred from sequence similarity|GO:0030508//molecular function| thiol-d
molecular function| transcription regulator activity | inferred from mutant phenotype|GO:0030528//molecular function| transcription regulator
molecular function| Pol II transcription elongation factor activity | inferred from physical interaction|GO:0016944//cellular component| Cdc73/
cellular component| membrane fraction | inferred from direct assay|GO:0005624//cellular component| vacuole (sensu Fungi) | inferred from
cellular component| vacuole (sensu Fungi) | inferred from direct assay|GO:0000324
molecular function| transcriptional activator activity | traceable author statement|GO:0016563//cellular component| CCAAT-binding factor co
NA
cellular component| integral to membrane | inferred from direct assay|GO:0016021//cellular component| mitochondrial inner membrane | infe
cellular component| lipid particle | inferred from direct assay|GO:0005811
molecular function| protein binding | inferred from direct assay|GO:0005515//cellular component| COMA complex | inferred from direct assay
molecular function| DNA helicase activity | inferred from direct assay|GO:0003678//cellular component| nucleus | inferred from curator|GO:0
molecular function| histone deacetylase activity | traceable author statement|GO:0004407//cellular component| nucleus | inferred from direc
NA
cellular component| membrane fraction | inferred from direct assay|GO:0005624
cellular component| membrane | inferred from sequence similarity|GO:0016020//cellular component| endoplasmic reticulum membrane | infe
molecular function| alpha-1,2-mannosyltransferase activity | inferred from mutant phenotype|GO:0000026//cellular component| Golgi appara
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| SUMO activating enzyme activity | inferred from physical interaction|GO:0019948//molecular function| SUMO activating
molecular function| leucyl aminopeptidase activity | inferred from mutant phenotype|GO:0004178//cellular component| periplasmic space (se
molecular function| aldehyde dehydrogenase (NAD) activity | inferred from sequence similarity|GO:0004029//molecular function| aldehyde d
molecular function| aminoacyl-tRNA hydrolase activity | inferred from sequence similarity|GO:0004045//molecular function| aminoacyl-tRNA
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| mitochondrial large rib
NA
NA
NA
molecular function| enzyme activator activity | traceable author statement|GO:0008047//cellular component| cytoplasm | inferred from direct
molecular function| glycerol-3-phosphate O-acyltransferase activity | inferred from mutant phenotype|GO:0004366//molecular function| glyce
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| endoribonuclease activity | inferred from direct assay|GO:0004521//cellular component| extracellular | inferred from direc
molecular function| v-SNARE activity | traceable author statement|GO:0005485//cellular component| endoplasmic reticulum membrane | tra
NA
NA
molecular function| glycogen phosphorylase activity | inferred from mutant phenotype|GO:0008184//cellular component| cytoplasm | inferred
cellular component| mitochondrion | inferred from direct assay|GO:0005739
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| ESCRT III complex | inferred from direct assay
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783
molecular function| amidase activity | inferred from sequence similarity|GO:0004040
molecular function| amino-acid N-acetyltransferase activity | inferred from mutant phenotype|GO:0004042//molecular function| amino-acid N
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
NA
molecular function| 5'-flap endonuclease activity | inferred from direct assay|GO:0017108//molecular function| 5'-3' exonuclease activity | infe
NA
molecular function| ATPase activity, coupled to transmembrane movement of substances | inferred from sequence similarity|GO:0042626//c
molecular function| DNA helicase activity | inferred from direct assay|GO:0003678//cellular component| nucleus | inferred from curator|GO:0
NA
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//biological process| metal ion transport | inferred from m
molecular function| SUMO-specific protease activity | inferred from mutant phenotype|GO:0016929//molecular function| SUMO-specific prote
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| DNA clamp loader activity | inferred from direct assay|GO:0003689//cellular component| DNA replication factor C comple
molecular function| RNA polymerase I transcription factor activity | traceable author statement|GO:0003701//molecular function| ribosomal D
molecular function| ribonuclease P activity | inferred from direct assay|GO:0004526//molecular function| ribonuclease MRP activity | inferred
cellular component| integral to membrane | inferred from sequence similarity|GO:0016021
cellular component| endoplasmic reticulum | inferred from physical interaction|GO:0005783//biological process| SRP-dependent cotranslatio
molecular function| --- | inferred from sequence similarity|GO:0051082//molecular function| --- | inferred from physical interaction |GO:00510
molecular function| transporter activity | inferred from sequence similarity|GO:0005215//cellular component| mitochondrial inner membrane |
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| cell growth and/or maintenance | inferred from m
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
NA
cellular component| nuclear envelope-endoplasmic reticulum network | inferred from direct assay|GO:0042175//cellular component| integral
NA
molecular function| transcription factor activity | inferred from physical interaction|GO:0003700//molecular function| transcription factor activi
cellular component| membrane | inferred from sequence similarity|GO:0016020
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| mRNA binding | inferred from physical interaction|GO:0003729//cellular component| snRNP U1 | traceable author statem
molecular function| structural constituent of cytoskeleton | traceable author statement|GO:0005200//cellular component| intermediate filame
cellular component| mitochondrial inner membrane | inferred from direct assay|GO:0005743//biological process| aerobic respiration | inferre
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| ESCRT III complex | inferred from direct assay
molecular function| cystathionine gamma-synthase activity | inferred from sequence similarity|GO:0003962//biological process| sulfur metab
molecular function| phosphoribosyl-ATP diphosphatase activity | inferred from direct assay|GO:0004636//cellular component| cytoplasm | in
NA
biological process| sporulation (sensu Fungi) | inferred from mutant phenotype|GO:0030437
molecular function| RNA polymerase II transcription mediator activity | inferred from direct assay|GO:0016455//cellular component| mediato
molecular function| lysophospholipase activity | inferred from sequence similarity|GO:0004622//molecular function| lysophospholipase activi
molecular function| protein binding | inferred from physical interaction|GO:0005515//cellular component| nuclear membrane | inferred from d
NA
molecular function| histone lysine N-methyltransferase activity (H3-K4 specific) | inferred from direct assay|GO:0042800//molecular function
molecular function| guanyl-nucleotide exchange factor activity | inferred from direct assay|GO:0005085//cellular component| cytoplasmic ves
molecular function| RNA polymerase II transcription mediator activity | inferred from physical interaction|GO:0016455//cellular component| m
molecular function| RNA polymerase I transcription factor activity | traceable author statement|GO:0003701//cellular component| RNA polym
molecular function| protein binding | inferred from direct assay|GO:0005515//cellular component| bud neck | inferred from direct assay|GO:0
molecular function| protein transporter activity | inferred from direct assay|GO:0008565//cellular component| endoplasmic reticulum | traceab
molecular function| ATP-dependent RNA helicase activity | traceable author statement|GO:0004004//cellular component| nucleolus | traceab
molecular function| UDP-N-acetylglucosamine diphosphorylase activity | inferred from direct assay|GO:0003977//cellular component| cytopl
molecular function| RNA methyltransferase activity | inferred from sequence similarity|GO:0008173//molecular function| RNA methyltransfer
molecular function| structural constituent of ribosome | inferred from physical interaction|GO:0003735//cellular component| mitochondrial sm
cellular component| cytoplasm | inferred from direct assay|GO:0005737
cellular component| nucleus | inferred from physical interaction|GO:0005634//biological process| cell aging | inferred from mutant phenotype
cellular component| cytoplasm | inferred from direct assay|GO:0005737
NA
molecular function| ATPase activity | inferred from sequence similarity|GO:0016887//molecular function| protein binding | inferred from phys
molecular function| cleavage/polyadenylation specificity factor activity | inferred from physical interaction|GO:0030364//molecular function| c
molecular function| (R,R)-butanediol dehydrogenase activity | inferred from direct assay|GO:0000721//cellular component| cytoplasm | inferr
NA
biological process| cell wall organization and biogenesis | inferred from mutant phenotype|GO:0007047
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| RNA binding | inferred from direct assay|GO:0003723//cellular component| nucleolus | inferred from direct assay|GO:000
molecular function| DNA-directed RNA polymerase activity | traceable author statement|GO:0003899//cellular component| DNA-directed RN
NA
NA
cellular component| clathrin-coated vesicle | inferred from direct assay|GO:0030136
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| inositol-polyphosphate 5-phosphatase activity | traceable author statement|GO:0004445//cellular component| endoplasm
cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| cell proliferation | inferred from direct assay|GO:00
cellular component| nucleus | inferred from direct assay|GO:0005634
cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| negative regulation of DNA transposition | inferred
molecular function| RNA polymerase II transcription mediator activity | inferred from direct assay|GO:0016455//cellular component| mediato
molecular function| ATPase activity | inferred from sequence similarity|GO:0016887//molecular function| double-stranded DNA binding | infe
NA
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| mitochondrial large rib
molecular function| ubiquinol-cytochrome-c reductase activity | inferred from direct assay|GO:0008121//cellular component| respiratory chai
molecular function| GTPase activity | inferred from sequence similarity|GO:0003924//molecular function| GTPase activity | inferred from phy
molecular function| --- | inferred from sequence similarity|GO:0051087//cellular component| ubiquitin ligase complex | inferred from direct as
molecular function| polynucleotide 3'-phosphatase activity | traceable author statement|GO:0046403//molecular function| polynucleotide 3'-p
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| mitochondrial small rib
molecular function| glycerone kinase activity | inferred from sequence similarity|GO:0004371//molecular function| glycerone kinase activity |
molecular function| alpha,alpha-trehalase activity | traceable author statement|GO:0004555//cellular component| mitochondrion | inferred fro
molecular function| protein phosphatase type 2C activity | inferred from sequence similarity|GO:0015071//molecular function| protein phosph
molecular function| UDP-N-acetylglucosamine transporter activity | inferred from sequence similarity|GO:0005462//molecular function| UDP-
NA
NA
molecular function| phosphoprotein phosphatase activity | inferred from direct assay|GO:0004721//cellular component| spindle pole body | in
cellular component| mitochondrial inner membrane | inferred from direct assay|GO:0005743//biological process| inner mitochondrial membr
molecular function| polynucleotide adenylyltransferase activity | inferred from direct assay|GO:0004652//cellular component| mRNA cleavag
molecular function| ubiquitin-protein ligase activity | traceable author statement|GO:0004842//biological process| protein monoubiquitination
molecular function| copper ion binding | inferred from direct assay|GO:0005507//cellular component| mitochondrial inner membrane | inferre
NA
molecular function| SNARE binding | inferred from direct assay|GO:0000149//cellular component| plasma membrane | inferred from direct a
molecular function| aspartate-tRNA ligase activity | inferred from sequence similarity|GO:0004815//molecular function| aspartate-tRNA ligas
molecular function| specific RNA polymerase II transcription factor activity | inferred from direct assay|GO:0003704//cellular component| nuc
NA
molecular function| transcriptional activator activity | inferred from direct assay|GO:0016563//cellular component| nucleus | traceable author
molecular function| pre-mRNA splicing factor activity | inferred from physical interaction|GO:0008248//cellular component| U4/U6 x U5 tri-sn
cellular component| microsome | inferred from direct assay|GO:0005792//biological process| sporulation (sensu Fungi) | inferred from physic
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| peptide alpha-N-acetyltransferase activity | inferred from sequence similarity|GO:0004596//molecular function| peptide a
cellular component| nucleosome remodeling complex | inferred from physical interaction|GO:0005679//cellular component| nucleus | inferre
molecular function| D-lactate dehydrogenase (cytochrome) activity | inferred from direct assay|GO:0004458//cellular component| mitochond
NA
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| mitochondrial large rib
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| flavin-adenine dinucleotide transporter activity | inferred from sequence similarity|GO:0015230//molecular function| flavin
molecular function| tRNA adenylyltransferase activity | inferred from direct assay|GO:0004810//cellular component| mitochondrial matrix | in
cellular component| cytoplasm | inferred from direct assay|GO:0005737
NA
NA
NA
molecular function| carnitine O-acetyltransferase activity | inferred from sequence similarity|GO:0004092//molecular function| carnitine O-ac
biological process| meiotic recombination | inferred from mutant phenotype|GO:0007131//biological process| double-strand break repair | tra
molecular function| RNA polymerase II transcription mediator activity | inferred from direct assay|GO:0016455//cellular component| mediato
molecular function| specific RNA polymerase II transcription factor activity | inferred from sequence similarity|GO:0003704//molecular functio
cellular component| nucleoplasm | inferred from direct assay|GO:0005654//biological process| snoRNA metabolism | inferred from physical
molecular function| leukotriene-A4 hydrolase activity | inferred from sequence similarity|GO:0004463//molecular function| epoxide hydrolase
molecular function| phosphoprotein phosphatase activity | inferred from sequence similarity|GO:0004721//molecular function| phosphoprote
cellular component| mitochondrion | inferred from genetic interaction|GO:0005739//biological process| aerobic respiration | inferred from mu
cellular component| cytoplasm | inferred from direct assay|GO:0005737
cellular component| nuclear chromosome | inferred from physical interaction|GO:0000228//biological process| DNA topological change | infe
molecular function| carnitine O-acetyltransferase activity | inferred from mutant phenotype|GO:0004092//cellular component| cytoplasm | infe
molecular function| lipid binding | inferred from direct assay|GO:0008289//cellular component| membrane | inferred from physical interaction
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
NA
molecular function| helicase activity | inferred from sequence similarity|GO:0004386//cellular component| nucleus | inferred from direct assa
molecular function| general RNA polymerase II transcription factor activity | traceable author statement|GO:0016251//cellular component| tra
molecular function| transmembrane receptor activity | inferred from sequence similarity|GO:0004888//molecular function| transmembrane re
molecular function| mannose binding | inferred from sequence similarity|GO:0005537//molecular function| mannose binding | inferred from m
molecular function| tRNA specific adenosine deaminase activity | inferred from direct assay|GO:0008251//cellular component| cytoplasm | in
cellular component| nuclear membrane | inferred from direct assay|GO:0005635//biological process| nuclear membrane organization and bi
cellular component| AP-3 adaptor complex | inferred from sequence similarity|GO:0030123//biological process| Golgi to vacuole transport | i
molecular function| helicase activity | inferred from sequence similarity|GO:0004386//molecular function| DNA helicase activity | inferred from
molecular function| microfilament motor activity | traceable author statement|GO:0000146//cellular component| actin cap (sensu Fungi) | infe
NA
molecular function| ubiquinone biosynthesis monooxygenase activity | inferred from sequence similarity|GO:0015997//cellular component| m
molecular function| transcription regulator activity | inferred from sequence similarity|GO:0030528//cellular component| cytoplasm | inferred
NA
cellular component| integral to endoplasmic reticulum membrane | inferred from direct assay|GO:0030176//biological process| ER-associate
molecular function| transcriptional activator activity | traceable author statement|GO:0016563//cellular component| CCAAT-binding factor co
molecular function| pre-mRNA splicing factor activity | inferred from mutant phenotype|GO:0008248//cellular component| spliceosome comp
molecular function| pre-mRNA splicing factor activity | traceable author statement|GO:0008248//molecular function| ATP-dependent RNA he
molecular function| protein kinase activity | inferred from direct assay|GO:0004672//cellular component| nucleus | inferred from curator|GO:0
molecular function| --- | inferred from direct assay|GO:0051082//molecular function| ATPase activity | inferred from direct assay |GO:001688
molecular function| --- | inferred from mutant phenotype|GO:0051087//molecular function| --- | inferred from mutant phenotype |GO:0051082
molecular function| snoRNA binding | inferred from physical interaction|GO:0030515//cellular component| small nucleolar ribonucleoprotein
molecular function| cyclin-dependent protein kinase regulator activity | traceable author statement|GO:0016538//molecular function| general
molecular function| specific transcriptional repressor activity | inferred from direct assay|GO:0016566//cellular component| cytoplasm | inferr
cellular component| mitochondrial inner membrane peptidase complex | inferred from physical interaction|GO:0042720//cellular component|
cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| chromatin silencing at telomere | inferred from mu
molecular function| clathrin binding | inferred from physical interaction|GO:0030276//cellular component| clathrin vesicle coat | inferred from
molecular function| Rab escort protein activity | traceable author statement|GO:0005084//cellular component| membrane | inferred from dire
molecular function| exonuclease activity | inferred from sequence similarity|GO:0004527//cellular component| mitochondrial inner membrane
molecular function| electron carrier activity | inferred from sequence similarity|GO:0009055//molecular function| electron carrier activity | infe
molecular function| acyltransferase activity | inferred from sequence similarity|GO:0008415//cellular component| mitochondrion | inferred fro
cellular component| mitochondrion | inferred from direct assay|GO:0005739
NA
molecular function| protein binding | inferred from physical interaction|GO:0005515//cellular component| nuclear pore | inferred from direct a
molecular function| protein binding | inferred from direct assay|GO:0005515//cellular component| peroxisomal membrane | traceable author
molecular function| ubiquinol-cytochrome-c reductase activity | inferred from mutant phenotype|GO:0008121//cellular component| respirator
NA
molecular function| protein binding | inferred from physical interaction|GO:0005515//cellular component| cytoplasm | inferred from direct ass
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| ATP-dependent RNA helicase activity | inferred from direct assay|GO:0004004//cellular component| mitochondrial matrix
cellular component| cytoplasm | inferred from direct assay|GO:0005737
NA
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737
NA
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| mitochondrial large rib
molecular function| Ras guanyl-nucleotide exchange factor activity | traceable author statement|GO:0005088//molecular function| guanyl-nu
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| mitochondrial large rib
cellular component| signalosome complex | traceable author statement|GO:0008180//cellular component| signalosome complex | inferred fr
cellular component| cytoplasm | inferred from direct assay|GO:0005737
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| Rho GTPase activator activity | inferred from sequence similarity|GO:0005100//molecular function| signal transducer act
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
cellular component| vacuolar membrane (sensu Fungi) | inferred from direct assay|GO:0000329
NA
molecular function| water channel activity | inferred from sequence similarity|GO:0015250//cellular component| plasma membrane | inferred
molecular function| dephospho-CoA kinase activity | inferred from sequence similarity|GO:0004140//cellular component| endoplasmic reticu
cellular component| spindle pole | inferred from direct assay|GO:0000922//cellular component| MIND complex | inferred from direct assay |G
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| enzyme regulator activity | inferred from sequence similarity|GO:0030234//molecular function| enzyme regulator activity
cellular component| nucleolus | inferred from direct assay|GO:0005730//cellular component| nucleus | traceable author statement |GO:0005
molecular function| protein serine/threonine kinase activity | traceable author statement|GO:0004674//cellular component| nucleoplasm | tra
molecular function| acid phosphatase activity | inferred from mutant phenotype|GO:0003993//cellular component| periplasmic space (sensu
biological process| mitochondrion organization and biogenesis | inferred from mutant phenotype|GO:0007005//biological process| thiamin m
molecular function| --- | non-traceable author statement|GO:0048487//biological process| beta-tubulin folding | traceable author statement|G
molecular function| ATPase activity | inferred from direct assay|GO:0016887//molecular function| double-stranded DNA binding | inferred fro
molecular function| endopeptidase inhibitor activity | inferred from mutant phenotype|GO:0004866//cellular component| cytoplasm | traceabl
cellular component| endoplasmic reticulum membrane | inferred from direct assay|GO:0005789//biological process| ER organization and bio
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| bud site selection | inferred from mutant phenot
cellular component| mitochondrion | inferred from direct assay|GO:0005739
cellular component| nuclear membrane | inferred from physical interaction|GO:0005635
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| nonselective cation channel activity | inferred from direct assay|GO:0015281//molecular function| sodium channel activit
molecular function| ferric-chelate reductase activity | inferred from sequence similarity|GO:0000293//molecular function| ferric-chelate reduc
cellular component| mitochondrion | inferred from direct assay|GO:0005739
molecular function| polyphosphoinositide phosphatase activity | inferred from direct assay|GO:0017120//cellular component| extrinsic to mem
molecular function| RNA polymerase II transcription factor activity | inferred from direct assay|GO:0003702//cellular component| transcription
NA
molecular function| catalase activity | traceable author statement|GO:0004096//cellular component| peroxisomal matrix | traceable author sta
molecular function| GTPase activity | inferred from sequence similarity|GO:0003924//cellular component| extrinsic to plasma membrane | inf
cellular component| RSC complex | inferred from physical interaction|GO:0016586//cellular component| nucleus | inferred from direct assay
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| --- | inferred from direct assay|GO:0051082//cellular component| mitochondrial inner membrane | inferred from direct ass
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| pre-mRNA splicing factor activity | traceable author statement|GO:0008248//molecular function| ATP-dependent RNA he
molecular function| protein binding | traceable author statement|GO:0005515//biological process| cell growth and/or maintenance | inferred f
NA
molecular function| RNA binding | inferred from direct assay|GO:0003723//molecular function| damaged DNA binding | traceable author stat
molecular function| transcription coactivator activity | traceable author statement|GO:0003713//cellular component| Ada2/Gcn5/Ada3 transcr
NA
NA
molecular function| snoRNA binding | inferred from physical interaction|GO:0030515//cellular component| small nucleolar ribonucleoprotein
NA
molecular function| purine-specific oxidized base lesion DNA N-glycosylase activity | inferred from direct assay|GO:0008534//molecular func
biological process| double-strand break repair | inferred from mutant phenotype|GO:0006302
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| mitochondrial large rib
molecular function| MAP kinase kinase kinase activity | traceable author statement|GO:0004709//cellular component| cytoplasm | inferred fr
molecular function| phosphogluconate dehydrogenase (decarboxylating) activity | inferred from mutant phenotype|GO:0004616//cellular com
molecular function| protein kinase regulator activity | inferred from physical interaction|GO:0019887//molecular function| protein kinase regu
NA
NA
cellular component| nucleolus | inferred from direct assay|GO:0005730//biological process| ribosome biogenesis | inferred from mutant phen
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| meiosis | traceable author statement|GO:00071
NA
molecular function| pheromone activity | traceable author statement|GO:0005186//cellular component| soluble fraction | inferred from direct
molecular function| --- | inferred from sequence similarity|GO:0051082//cellular component| mitochondrial matrix | inferred from direct assay
cellular component| nucleolus | inferred from direct assay|GO:0005730//cellular component| nucleus | inferred from direct assay |GO:00056
cellular component| nucleus | inferred from direct assay|GO:0005634
molecular function| dihydrofolate synthase activity | inferred from mutant phenotype|GO:0008841//cellular component| cytoplasm | inferred f
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
cellular component| nucleolus | inferred from direct assay|GO:0005730//biological process| ribosome biogenesis | inferred from direct assay
NA
cellular component| shmoo tip | inferred from direct assay|GO:0005937//cellular component| bud neck | inferred from direct assay |GO:0005
NA
molecular function| cystathionine gamma-synthase activity | inferred from mutant phenotype|GO:0003962//cellular component| cytoplasm | i
molecular function| ubiquitin-protein ligase activity | inferred from sequence similarity|GO:0004842//molecular function| ubiquitin-protein liga
molecular function| holocytochrome-c synthase activity | inferred from sequence similarity|GO:0004408//molecular function| holocytochrome
molecular function| structural molecule activity | inferred from mutant phenotype|GO:0005198//molecular function| structural molecule activit
molecular function| 4-amino-4-deoxychorismate synthase activity | inferred from sequence similarity|GO:0046820//molecular function| 4-ami
cellular component| mitochondrion | inferred from direct assay|GO:0005739
molecular function| tyrosine-tRNA ligase activity | traceable author statement|GO:0004831//cellular component| mitochondrion | traceable au
biological process| protein processing | inferred from mutant phenotype|GO:0016485//biological process| meiosis | inferred from mutant phe
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| oxidoreductase activity, acting on NADH or NADPH, quinone or similar compound as acceptor | inferred from direct assa
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| ubiquitin conjugating enzyme activity | traceable author statement|GO:0004840//cellular component| proteasome comple
cellular component| nucleus | inferred from direct assay|GO:0005634
NA
molecular function| general RNA polymerase II transcription factor activity | traceable author statement|GO:0016251//cellular component| SW
cellular component| Golgi membrane | inferred from direct assay|GO:0000139//biological process| ER to Golgi transport | inferred from sequ
molecular function| ribonuclease P activity | inferred from direct assay|GO:0004526//molecular function| ribonuclease MRP activity | inferred
cellular component| half bridge of spindle pole body | inferred from direct assay|GO:0005825//biological process| spindle pole body duplicat
NA
NA
molecular function| hexaprenyldihydroxybenzoate methyltransferase activity | inferred from mutant phenotype|GO:0004395//cellular compon
NA
molecular function| endopeptidase inhibitor activity | inferred from sequence similarity|GO:0004866//molecular function| endopeptidase inhib
NA
molecular function| general RNA polymerase II transcription factor activity | traceable author statement|GO:0016251//cellular component| tra
molecular function| SUMO activating enzyme activity | inferred from physical interaction|GO:0019948//molecular function| SUMO activating
cellular component| mitochondrion | inferred from direct assay|GO:0005739//biological process| mitochondrial intermembrane space protein
molecular function| glutathione peroxidase activity | inferred from direct assay|GO:0004602//cellular component| cytoplasm | inferred from d
NA
cellular component| mitochondrion | inferred from direct assay|GO:0005739//biological process| pyruvate metabolism | traceable author stat
NA
molecular function| S-adenosylmethionine-dependent methyltransferase activity | inferred from sequence similarity|GO:0008757//cellular co
molecular function| --- | inferred from physical interaction|GO:0051082//molecular function| --- | inferred from direct assay |GO:0051082//cell
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//molecular function| peptidyltransferase acti
molecular function| ATPase activity | traceable author statement|GO:0016887//molecular function| endopeptidase activity | traceable author
cellular component| mitochondrion | inferred from direct assay|GO:0005739
molecular function| casein kinase activity | inferred from sequence similarity|GO:0004680//molecular function| protein kinase activity | inferre
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| mitochondrion organization and biogenesis | inf
NA
molecular function| arginine-tRNA ligase activity | inferred from mutant phenotype|GO:0004814//cellular component| mitochondrion | inferred
NA
molecular function| [cytochrome c]-lysine N-methyltransferase activity | inferred from mutant phenotype|GO:0000277//molecular function| [cy
molecular function| Pol II transcription elongation factor activity | inferred from physical interaction|GO:0016944//molecular function| Pol II tra
NA
cellular component| endoplasmic reticulum membrane | inferred from direct assay|GO:0005789//cellular component| cytoplasm | inferred fro
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| 6-phosphogluconolactonase activity | inferred from sequence similarity|GO:0017057//cellular component| cytoplasm | inf
cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| RNA elongation from Pol II promoter | inferred from
molecular function| bilirubin transporter activity | inferred from mutant phenotype|GO:0015127//molecular function| bilirubin transporter activ
molecular function| phosphoric monoester hydrolase activity | traceable author statement|GO:0016791//molecular function| phosphoprotein
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| DNA binding | traceable author statement|GO:0003677//cellular component| replication fork | inferred from direct assay|G
molecular function| structural constituent of cytoskeleton | inferred from physical interaction|GO:0005200//cellular component| outer plaque
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
NA
cellular component| nucleus | inferred from direct assay|GO:0005634
cellular component| nucleus | inferred from direct assay|GO:0005634
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| exonuclease activity | inferred from sequence similarity|GO:0004527//cellular component| nucleus | inferred from physic
molecular function| alcohol dehydrogenase (NADP+) activity | non-traceable author statement|GO:0008106//cellular component| cytoplasm
cellular component| nucleolus | traceable author statement|GO:0005730//biological process| rRNA processing | traceable author statement|
cellular component| mitochondrion | inferred from direct assay|GO:0005739
cellular component| membrane fraction | inferred from direct assay|GO:0005624//biological process| chromosome segregation | traceable a
molecular function| ATPase activity | inferred from sequence similarity|GO:0016887//cellular component| cytoplasm | inferred from direct ass
NA
cellular component| nucleus | inferred from direct assay|GO:0005634
molecular function| mRNA binding | inferred from direct assay|GO:0003729//cellular component| snRNP U2 | inferred from direct assay|GO:
molecular function| sterol transporter activity | inferred from sequence similarity|GO:0015248
NA
molecular function| pre-mRNA splicing factor activity | traceable author statement|GO:0008248//molecular function| ATP-dependent RNA he
cellular component| chromatin accessibility complex | inferred from sequence similarity|GO:0008623//cellular component| chromatin access
cellular component| mitochondrion | traceable author statement|GO:0005739//biological process| protein biosynthesis | traceable author sta
NA
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| Rab GTPase activator activity | inferred from sequence similarity|GO:0005097//molecular function| Rab GTPase activato
molecular function| GTP binding | traceable author statement|GO:0005525//cellular component| cytoplasm | inferred from direct assay|GO:0
NA
NA
NA
molecular function| --- | inferred from direct assay|GO:0051082//cellular component| mitochondrial inner membrane | inferred from direct ass
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| GTPase inhibitor activity | inferred from sequence similarity|GO:0005095//cellular component| cytoplasm | inferred from
cellular component| TRAPP | inferred from direct assay|GO:0030008//biological process| ER to Golgi transport | inferred from mutant pheno
cellular component| mitochondrion | inferred from direct assay|GO:0005739//biological process| mRNA metabolism | inferred from mutant ph
biological process| chromatin silencing at ribosomal DNA | inferred from mutant phenotype|GO:0000183
molecular function| RNA binding | inferred from sequence similarity|GO:0003723//cellular component| nucleolus | inferred from direct assay|
NA
molecular function| transcription factor activity | inferred from physical interaction|GO:0003700//molecular function| transcription factor activi
molecular function| ATPase activity | traceable author statement|GO:0016887//molecular function| endopeptidase activity | traceable author
molecular function| clathrin binding | inferred from sequence similarity|GO:0030276//cellular component| AP-1 adaptor complex | inferred fro
molecular function| endonuclease activity | inferred from direct assay|GO:0004519//cellular component| nucleus | traceable author statemen
molecular function| ubiquinol-cytochrome-c reductase activity | inferred from direct assay|GO:0008121//cellular component| respiratory chai
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| translation regulator activity | inferred from mutant phenotype|GO:0045182//cellular component| mitochondrial inner mem
molecular function| pre-mRNA splicing factor activity | inferred from physical interaction|GO:0008248//cellular component| small nuclear ribo
molecular function| RNA polymerase III transcription factor activity | traceable author statement|GO:0003709//cellular component| transcript
molecular function| ATPase activity | inferred from direct assay|GO:0016887//molecular function| ATP binding | traceable author statement |
molecular function| binding | inferred from direct assay|GO:0005488//cellular component| nuclear cohesin complex | inferred from direct ass
cellular component| spindle pole body | inferred from direct assay|GO:0005816//cellular component| endoplasmic reticulum | inferred from d
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| ESCRT III complex | inferred from direct assay
molecular function| protein carrier activity | inferred from sequence similarity|GO:0008320//molecular function| protein carrier activity | inferre
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| transcriptional elongation regulator activity | inferred from sequence similarity|GO:0003711//cellular component| transcrip
molecular function| ubiquitin conjugating enzyme activity | traceable author statement|GO:0004840//cellular component| cytoplasm | inferred
molecular function| protein kinase activity | inferred from sequence similarity|GO:0004672//cellular component| bud neck | inferred from dire
molecular function| Rho guanyl-nucleotide exchange factor activity | inferred from mutant phenotype|GO:0005089//molecular function| signa
cellular component| nucleolus | inferred from direct assay|GO:0005730
cellular component| vacuole (sensu Fungi) | inferred from direct assay|GO:0000324
NA
NA
molecular function| transferase activity, transferring hexosyl groups | inferred from sequence similarity|GO:0016758//cellular component| en
molecular function| DNA-directed RNA polymerase activity | traceable author statement|GO:0003899//cellular component| DNA-directed RN
cellular component| mitochondrion | inferred from direct assay|GO:0005739
cellular component| cytoplasm | inferred from direct assay|GO:0005737
NA
molecular function| snoRNA binding | inferred from physical interaction|GO:0030515//cellular component| cytoplasm | inferred from direct as
NA
molecular function| oxidoreductase activity, acting on the CH-NH group of donors, quinone or similar compound as acceptor | inferred from
cellular component| bud neck | inferred from direct assay|GO:0005935
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
cellular component| nucleolus | inferred from direct assay|GO:0005730//cellular component| nucleus | inferred from direct assay |GO:00056
NA
molecular function| ribonuclease H activity | inferred from physical interaction|GO:0004523//cellular component| cytoplasm | inferred from di
molecular function| isocitrate dehydrogenase (NAD+) activity | traceable author statement|GO:0004449//cellular component| mitochondrial m
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| ubiquitin-specific protease activity | traceable author statement|GO:0004843//cellular component| cytoplasm | inferred fro
NA
molecular function| transcription factor binding | inferred from direct assay|GO:0008134//cellular component| nucleus | inferred from curator|
cellular component| mitochondrion | inferred from direct assay|GO:0005739
NA
molecular function| protein binding | inferred from direct assay|GO:0005515//cellular component| nuclear telomere cap complex | traceable a
biological process| sporulation (sensu Fungi) | inferred from mutant phenotype|GO:0030437
molecular function| pre-mRNA splicing factor activity | inferred from physical interaction|GO:0008248//cellular component| small nuclear ribo
molecular function| lactate transporter activity | inferred from mutant phenotype|GO:0015129//molecular function| lactate transporter activity
molecular function| leucine-tRNA ligase activity | inferred from direct assay|GO:0004823//molecular function| mRNA binding | inferred from p
molecular function| thioredoxin peroxidase activity | inferred from sequence similarity|GO:0008379//molecular function| thioredoxin peroxida
NA
molecular function| MAP-kinase scaffold activity | inferred from physical interaction|GO:0005078//cellular component| shmoo tip | inferred fro
cellular component| AP-2 adaptor complex | inferred from sequence similarity|GO:0030122//biological process| vesicle-mediated transport |
NA
molecular function| specific RNA polymerase II transcription factor activity | traceable author statement|GO:0003704//cellular component| nu
cellular component| Golgi transport complex | inferred from physical interaction|GO:0017119//biological process| intra-Golgi transport | infer
cellular component| signalosome complex | traceable author statement|GO:0008180//cellular component| signalosome complex | inferred fr
NA
cellular component| mitochondrion | inferred from direct assay|GO:0005739
NA
molecular function| DNA supercoiling activity | inferred from direct assay|GO:0009387//molecular function| DNA-dependent ATPase activity
molecular function| isocitrate dehydrogenase (NAD+) activity | traceable author statement|GO:0004449//cellular component| mitochondrial m
cellular component| mitochondrion | inferred from direct assay|GO:0005739
molecular function| inositol/phosphatidylinositol phosphatase activity | inferred from direct assay|GO:0004437//biological process| spore wal
NA
molecular function| U6 snRNA binding | inferred from physical interaction|GO:0017070//cellular component| snRNP U6 | traceable author st
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//biological process| response to stress | inferred from m
molecular function| --- | inferred from physical interaction|GO:0051082//cellular component| cytoplasm | inferred from physical interaction|GO
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//molecular function| structural constituent o
molecular function| glycogenin glucosyltransferase activity | inferred from sequence similarity|GO:0008466//molecular function| glycogenin g
molecular function| alpha,alpha-trehalase activity | traceable author statement|GO:0004555//cellular component| cytosol | traceable author s
NA
molecular function| aldehyde dehydrogenase activity | inferred from sequence similarity|GO:0004028//cellular component| cytoplasm | inferr
NA
molecular function| ATP-dependent RNA helicase activity | traceable author statement|GO:0004004//cellular component| nucleolus | inferred
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| ATPase activity | inferred from sequence similarity|GO:0016887//cellular component| nuclear cohesin complex | traceab
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| mitochondrial large rib
molecular function| endopeptidase activity | traceable author statement|GO:0004175//cellular component| proteasome regulatory particle (se
cellular component| cytoplasm | inferred from direct assay|GO:0005737
cellular component| endosome | inferred from direct assay|GO:0005768
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| cytoskeleton organization and biogenesis | trace
cellular component| peroxisome | inferred from direct assay|GO:0005777
cellular component| nucleus | traceable author statement|GO:0005634//biological process| bud growth | inferred from mutant phenotype|GO
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| mitochondrial large rib
NA
molecular function| protein phosphatase type 2C activity | inferred from direct assay|GO:0015071//cellular component| cytoplasm | inferred f
molecular function| protein binding | traceable author statement|GO:0005515//molecular function| ubiquitin-protein ligase activity | traceable
NA
cellular component| mitochondrial nucleoid | inferred from direct assay|GO:0042645//cellular component| mitochondrion | inferred from direc
molecular function| hydrogen-transporting ATP synthase activity, rotational mechanism | inferred from physical interaction|GO:0046933//mo
molecular function| protein binding | inferred from physical interaction|GO:0005515//cellular component| Golgi apparatus | traceable author s
NA
molecular function| ATP-dependent DNA helicase activity | traceable author statement|GO:0004003//molecular function| chromatin binding
molecular function| structural constituent of ribosome | inferred from sequence similarity|GO:0003735//molecular function| structural constitu
molecular function| nicotinate-nucleotide adenylyltransferase activity | inferred from sequence similarity|GO:0004515//molecular function| nic
molecular function| snoRNA binding | inferred from physical interaction|GO:0030515//cellular component| small nuclear ribonucleoprotein co
molecular function| iron ion transporter activity | traceable author statement|GO:0005381//cellular component| vacuolar membrane (sensu F
molecular function| peptidyl-prolyl cis-trans isomerase activity | inferred from direct assay|GO:0003755
cellular component| nucleolus | inferred from direct assay|GO:0005730//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| protein kinase activity | inferred from sequence similarity|GO:0004672//cellular component| cytoplasm | inferred from dire
molecular function| histone deacetylase activity | inferred from direct assay|GO:0004407//cellular component| nucleus | inferred from direct a
cellular component| shmoo tip | inferred from direct assay|GO:0005937//cellular component| bud | inferred from direct assay |GO:0005933//
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| protein binding | inferred from direct assay|GO:0005515//cellular component| nucleus | inferred from curator|GO:000563
molecular function| ubiquitin-specific protease activity | traceable author statement|GO:0004843//cellular component| cytoplasm | inferred fro
molecular function| metallochaperone activity | inferred from mutant phenotype|GO:0016530//molecular function| transporter activity | inferre
molecular function| magnesium ion transporter activity | inferred from sequence similarity|GO:0015095//molecular function| magnesium ion
cellular component| condensed nuclear chromosome kinetochore | inferred from direct assay|GO:0000778//biological process| meiotic chro
molecular function| helicase activity | inferred from sequence similarity|GO:0004386//cellular component| mitochondrion | inferred from direc
cellular component| mitochondrion | inferred from direct assay|GO:0005739
molecular function| telomerase activity | inferred from physical interaction|GO:0003720//molecular function| telomerase activity | inferred from
cellular component| soluble fraction | inferred from direct assay|GO:0005625//biological process| ER to Golgi transport | inferred from mutan
molecular function| protein binding | traceable author statement|GO:0005515//molecular function| ubiquitin-protein ligase activity | traceable
NA
cellular component| mitochondrial inner membrane | traceable author statement|GO:0005743//biological process| protein biosynthesis | trac
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| bud growth | inferred from genetic interaction|G
molecular function| protein binding | inferred from direct assay|GO:0005515//cellular component| nuclear cohesin complex | inferred from ph
cellular component| vacuole (sensu Fungi) | inferred from direct assay|GO:0000324
NA
cellular component| nucleolus | inferred from direct assay|GO:0005730//biological process| cell growth and/or maintenance | traceable autho
molecular function| clathrin binding | traceable author statement|GO:0030276//cellular component| actin cortical patch (sensu Fungi) | inferre
molecular function| isocitrate dehydrogenase (NADP+) activity | traceable author statement|GO:0004450//cellular component| peroxisome |
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| ATP-dependent protein binding | traceable author statement|GO:0043008//cellular component| cytoplasm | inferred from
molecular function| RNA-3'-phosphate cyclase activity | inferred from sequence similarity|GO:0003963//molecular function| RNA-3'-phospha
molecular function| NADPH-adrenodoxin reductase activity | inferred from direct assay|GO:0015039//cellular component| mitochondrial inne
molecular function| general RNA polymerase II transcription factor activity | traceable author statement|GO:0016251//cellular component| tra
molecular function| structural constituent of ribosome | inferred from sequence similarity|GO:0003735//cellular component| mitochondrial sm
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
cellular component| cytoplasm | inferred from physical interaction|GO:0005737//biological process| regulation of cell growth | inferred from p
molecular function| helicase activity | inferred from sequence similarity|GO:0004386//molecular function| DNA helicase activity | inferred from
molecular function| epsilon DNA polymerase activity | inferred from physical interaction|GO:0003893//molecular function| epsilon DNA polym
cellular component| nuclear telomere cap complex | traceable author statement|GO:0000783//biological process| telomere capping | traceab
NA
molecular function| cyclin-dependent protein kinase regulator activity | traceable author statement|GO:0016538//cellular component| cyclin-d
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| structural constituent of ribosome | inferred from direct assay|GO:0003735//cellular component| mitochondrial small ribo
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//biological process| meiotic recombination | inferred fro
molecular function| ribosomal DNA (rDNA) binding | traceable author statement|GO:0000182//molecular function| ribosomal DNA (rDNA) bin
NA
NA
cellular component| nucleus | inferred from direct assay|GO:0005634
molecular function| transcriptional activator activity | inferred from direct assay|GO:0016563//cellular component| nucleus | inferred from dire
biological process| processing of 20S pre-rRNA | inferred from mutant phenotype|GO:0030490
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| v-SNARE activity | traceable author statement|GO:0005485//cellular component| transport vesicle | inferred from direct a
biological process| chromatin silencing at telomere | inferred from mutant phenotype|GO:0006348//biological process| chromatin silencing a
cellular component| actin cortical patch (sensu Fungi) | inferred from direct assay|GO:0030479//cellular component| bud neck | inferred from
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| GTP binding | traceable author statement|GO:0005525//cellular component| cytoplasm | inferred from direct assay|GO:0
cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| meiotic chromosome segregation | inferred from m
molecular function| protein transporter activity | inferred from sequence similarity|GO:0008565//molecular function| protein transporter activit
molecular function| RNA binding | inferred from sequence similarity|GO:0003723//cellular component| nucleolus | traceable author statemen
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
NA
cellular component| nucleoplasm | inferred from direct assay|GO:0005654//biological process| ribosomal large subunit assembly and mainte
molecular function| pre-mRNA splicing factor activity | inferred from physical interaction|GO:0008248//cellular component| small nuclear ribo
cellular component| nucleus | non-traceable author statement|GO:0005634//biological process| mitotic spindle checkpoint | inferred from mu
molecular function| protein binding | inferred from direct assay|GO:0005515//cellular component| half bridge of spindle pole body | inferred f
cellular component| nucleolus | inferred from direct assay|GO:0005730//biological process| rRNA processing | inferred from physical interac
cellular component| DNA replication factor C complex | inferred from physical interaction|GO:0005663//biological process| mitotic sister chro
NA
NA
molecular function| ATPase activity | inferred from sequence similarity|GO:0016887//cellular component| mitochondrial inner membrane | in
molecular function| snoRNA binding | inferred from physical interaction|GO:0030515//cellular component| small nucleolar ribonucleoprotein
NA
NA
molecular function| protein binding | inferred from direct assay|GO:0005515//cellular component| nucleus | inferred from physical interaction
NA
NA
NA
molecular function| vitamin/cofactor transporter activity | inferred from direct assay|GO:0015223//cellular component| plasma membrane | in
molecular function| motor activity | inferred from sequence similarity|GO:0003774//cellular component| bud neck | traceable author statemen
NA
NA
molecular function| proline-tRNA ligase activity | inferred from sequence similarity|GO:0004827
molecular function| protein-methionine-R-oxide reductase activity | inferred from sequence similarity|GO:0000318//biological process| respo
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| ubiquitin-specific protease activity | inferred from direct assay|GO:0004843//cellular component| cytoplasm | inferred from
cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| regulation of transcription from Pol II promoter | in
cellular component| nucleus | inferred from direct assay|GO:0005634
cellular component| endoplasmic reticulum membrane | inferred from direct assay|GO:0005789//biological process| karyogamy during conju
NA
biological process| host-pathogen interaction | inferred from mutant phenotype|GO:0030383
molecular function| pre-mRNA splicing factor activity | inferred from physical interaction|GO:0008248//cellular component| U4/U6 x U5 tri-sn
molecular function| structural molecule activity | traceable author statement|GO:0005198//cellular component| nuclear pore | inferred from d
molecular function| specific transcriptional repressor activity | inferred from sequence similarity|GO:0016566//molecular function| specific tra
NA
molecular function| aryl-alcohol dehydrogenase activity | inferred from sequence similarity|GO:0018456//biological process| aldehyde metab
molecular function| protein binding | traceable author statement|GO:0005515//cellular component| polysome | inferred from direct assay|GO
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
NA
molecular function| v-SNARE activity | inferred from sequence similarity|GO:0005485//molecular function| v-SNARE activity | inferred from m
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| intracellular signaling cascade | inferred from ge
molecular function| protein tyrosine phosphatase activity | inferred from sequence similarity|GO:0004725//cellular component| cytoplasm | in
molecular function| RNA polymerase II transcription mediator activity | inferred from direct assay|GO:0016455//cellular component| mediato
molecular function| single-stranded DNA binding | inferred from direct assay|GO:0003697//molecular function| double-stranded DNA binding
NA
NA
molecular function| transferase activity, transferring pentosyl groups | inferred from mutant phenotype|GO:0016763//molecular function| tran
molecular function| ubiquitin-protein ligase activity | traceable author statement|GO:0004842//cellular component| proteasome complex (sen
cellular component| mitochondrial outer membrane | inferred from direct assay|GO:0005741//biological process| mitochondrial fission | infer
molecular function| zeta DNA polymerase activity | traceable author statement|GO:0003894//cellular component| nucleus | traceable author
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
cellular component| signalosome complex | traceable author statement|GO:0008180//cellular component| signalosome complex | inferred fr
molecular function| DNA topoisomerase type I activity | inferred from direct assay|GO:0003917//cellular component| nucleus | inferred from
molecular function| transcription cofactor activity | inferred from direct assay|GO:0003712//cellular component| nucleus | inferred from direct
biological process| actin cytoskeleton organization and biogenesis | traceable author statement|GO:0030036
molecular function| --- | inferred from direct assay|GO:0051082//molecular function| protein transporter activity | inferred from sequence sim
molecular function| ATPase activity | traceable author statement|GO:0016887//molecular function| phospholipid-translocating ATPase activi
molecular function| tetrahydrofolylpolyglutamate synthase activity | inferred from sequence similarity|GO:0004326
molecular function| ATPase activity | inferred from sequence similarity|GO:0016887//molecular function| ATP binding | inferred from sequen
molecular function| structural constituent of ribosome | inferred from physical interaction|GO:0003735//cellular component| mitochondrial lar
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| ATPase activity | inferred from direct assay|GO:0016887//cellular component| endoplasmic reticulum | inferred from dire
molecular function| ATP-dependent RNA helicase activity | traceable author statement|GO:0004004//cellular component| nucleolus | traceab
molecular function| GTPase activity | traceable author statement|GO:0003924//cellular component| plasma membrane | inferred from direct
NA
molecular function| protein kinase activity | inferred from direct assay|GO:0004672//cellular component| bud neck | traceable author stateme
molecular function| RNA binding | inferred from sequence similarity|GO:0003723//cellular component| cytoplasm | inferred from direct assay
molecular function| protein kinase activity | inferred from direct assay|GO:0004672//cellular component| nucleus | inferred from direct assay|
NA
molecular function| heme binding | inferred from direct assay|GO:0020037//molecular function| peroxidase activity | inferred from direct assa
molecular function| delta DNA polymerase activity | traceable author statement|GO:0003891//cellular component| delta DNA polymerase co
cellular component| spliceosome complex | inferred from direct assay|GO:0005681//cellular component| chromatin | inferred from direct ass
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| premeiotic DNA synthesis | inferred from mutan
molecular function| ubiquitin conjugating enzyme activity | traceable author statement|GO:0004840//biological process| protein neddylation |
molecular function| 1,4-alpha-glucan branching enzyme activity | inferred from mutant phenotype|GO:0003844//molecular function| 1,4-alph
molecular function| RNA binding | inferred from direct assay|GO:0003723//cellular component| snRNP U1 | traceable author statement|GO:0
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| aspartic-type endopeptidase activity | inferred from sequence similarity|GO:0004190//cellular component| cell wall (sens
molecular function| inositol-1(or 4)-monophosphatase activity | inferred from sequence similarity|GO:0008934//molecular function| inositol-1
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
cellular component| nuclear pore | inferred from direct assay|GO:0005643//cellular component| condensed nuclear chromosome kinetochor
molecular function| trichothecene 3-O-acetyltransferase activity | inferred from sequence similarity|GO:0045462//molecular function| trichoth
molecular function| guanyl-nucleotide exchange factor activity | inferred from physical interaction|GO:0005085//molecular function| guanyl-n
NA
molecular function| microtubule binding | inferred from physical interaction|GO:0008017//cellular component| microtubule associated comple
NA
molecular function| GTPase activity | inferred from sequence similarity|GO:0003924//cellular component| cytoplasm | inferred from direct as
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
cellular component| nucleus | traceable author statement|GO:0005634//cellular component| nucleus | inferred from direct assay |GO:000563
cellular component| integral to peroxisomal membrane | inferred from direct assay|GO:0005779//cellular component| peroxisome | inferred f
NA
molecular function| ubiquitin-specific protease activity | inferred from direct assay|GO:0004843
molecular function| structural constituent of ribosome | inferred from direct assay|GO:0003735//cellular component| mitochondrial small ribo
NA
cellular component| DNA replication factor C complex | inferred from physical interaction|GO:0005663//biological process| mitotic sister chro
NA
molecular function| isoleucine-tRNA ligase activity | inferred from sequence similarity|GO:0004822//molecular function| isoleucine-tRNA liga
cellular component| multivesicular body | inferred from direct assay|GO:0005771//cellular component| endosome | inferred from direct assay
NA
cellular component| nucleolus | inferred from direct assay|GO:0005730//biological process| ribosomal large subunit biogenesis | inferred from
molecular function| structural constituent of cytoskeleton | inferred from physical interaction|GO:0005200//cellular component| DASH comple
NA
molecular function| single-stranded DNA specific endodeoxyribonuclease activity | inferred from sequence similarity|GO:0000014//cellular c
NA
NA
molecular function| RNA polymerase III transcription factor activity | traceable author statement|GO:0003709//cellular component| transcript
molecular function| endodeoxyribonuclease activity | inferred from sequence similarity|GO:0004520//molecular function| endodeoxyribonucle
molecular function| epsilon DNA polymerase activity | traceable author statement|GO:0003893//cellular component| epsilon DNA polymeras
molecular function| tryptophan-tRNA ligase activity | inferred from sequence similarity|GO:0004830//molecular function| tryptophan-tRNA lig
molecular function| Rab GTPase activator activity | inferred from sequence similarity|GO:0005097//molecular function| Rab GTPase activato
cellular component| actin cytoskeleton | inferred from direct assay|GO:0015629
cellular component| mitochondrion | inferred from direct assay|GO:0005739
NA
molecular function| --- | inferred from direct assay|GO:0051082//molecular function| ATPase activity | inferred from sequence similarity |GO:
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//cellular component| nuclear membrane | inferred from
NA
molecular function| oxidoreductase activity, acting on the CH-OH group of donors, NAD or NADP as acceptor | inferred from sequence simil
cellular component| cytoplasm | inferred from direct assay|GO:0005737
biological process| protein sumoylation | inferred from genetic interaction|GO:0016925
NA
molecular function| protein binding | traceable author statement|GO:0005515//cellular component| endoplasmic reticulum | inferred from dire
NA
molecular function| metalloendopeptidase activity | inferred from mutant phenotype|GO:0004222//cellular component| signalosome complex
molecular function| translation elongation factor activity | inferred from sequence similarity|GO:0003746//cellular component| mitochondrion
molecular function| --- | inferred from sequence similarity|GO:0051087//cellular component| cytosol | inferred from direct assay|GO:0005829
cellular component| integral to membrane | inferred from sequence similarity|GO:0016021//cellular component| integral to membrane | inferr
cellular component| peroxisomal membrane | inferred from direct assay|GO:0005778//biological process| peroxisome organization and biog
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| mitochondrial large rib
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| structural constituent of ribosome | inferred from sequence similarity|GO:0003735//cellular component| mitochondrial lar
molecular function| hydroxyacylglutathione hydrolase activity | inferred from mutant phenotype|GO:0004416//cellular component| cytoplasm
cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| 35S primary transcript processing | inferred from m
cellular component| peroxisome | inferred from sequence similarity|GO:0005777//biological process| protein-peroxisome targeting | inferred
molecular function| coenzyme A transporter activity | inferred from sequence similarity|GO:0015228//molecular function| coenzyme A transp
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| mitochondrial large rib
molecular function| transcription corepressor activity | inferred from direct assay|GO:0003714//cellular component| nucleus | inferred from di
molecular function| RNA binding | inferred from sequence similarity|GO:0003723//molecular function| RNA binding | inferred from genetic in
NA
molecular function| protein binding | inferred from physical interaction|GO:0005515//molecular function| DNA binding | inferred from direct as
NA
molecular function| pheromone activity | traceable author statement|GO:0005186//cellular component| soluble fraction | inferred from direct
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
cellular component| integral to membrane | inferred from direct assay|GO:0016021//cellular component| mitochondrial membrane | inferred
molecular function| DNA supercoiling activity | inferred from direct assay|GO:0009387//molecular function| DNA-dependent ATPase activity
molecular function| NAD-independent histone deacetylase activity | inferred from physical interaction|GO:0045129//molecular function| NAD
cellular component| nucleus | inferred from direct assay|GO:0005634//cellular component| SWR1 complex | inferred from physical interactio
NA
molecular function| structural molecule activity | inferred from mutant phenotype|GO:0005198//molecular function| structural molecule activit
molecular function| iron hydrogenase activity | inferred from sequence similarity|GO:0016948
NA
molecular function| DNA helicase activity | inferred from direct assay|GO:0003678//cellular component| nucleus | inferred from curator|GO:0
molecular function| ATPase activity, coupled to transmembrane movement of substances | inferred from direct assay|GO:0042626//cellular
molecular function| glycine-tRNA ligase activity | inferred from sequence similarity|GO:0004820//cellular component| cytoplasm | inferred fro
molecular function| protein translocase activity | inferred from mutant phenotype|GO:0015450//molecular function| protein translocase activi
NA
NA
molecular function| 3'-5' exonuclease activity | inferred from sequence similarity|GO:0008408//molecular function| 3'-5' exonuclease activity
molecular function| pre-mRNA splicing factor activity | inferred from physical interaction|GO:0008248//molecular function| mRNA binding | in
NA
NA
cellular component| bud neck | inferred from direct assay|GO:0005935//cellular component| cytoplasm | inferred from direct assay |GO:0005
NA
cellular component| nucleolus | inferred from direct assay|GO:0005730
NA
cellular component| mitochondrial outer membrane | traceable author statement|GO:0005741//biological process| mitochondrion organizatio
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
cellular component| mitochondrion | inferred from direct assay|GO:0005739
cellular component| vacuolar membrane (sensu Fungi) | inferred from direct assay|GO:0000329
molecular function| acetyl-CoA carboxylase activity | inferred from sequence similarity|GO:0003989//molecular function| acetyl-CoA carboxy
biological process| response to pH | inferred from mutant phenotype|GO:0009268
NA
biological process| response to dessication | inferred from sequence similarity|GO:0009269//biological process| response to dessication | in
molecular function| epsilon DNA polymerase activity | traceable author statement|GO:0003893//cellular component| replication fork | traceab
NA
NA
cellular component| nucleolus | inferred from direct assay|GO:0005730//cellular component| nucleus | inferred from direct assay |GO:00056
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| structural constituent of ribosome | inferred from sequence similarity|GO:0003735//molecular function| structural constitu
molecular function| --- | inferred from mutant phenotype|GO:0051082//cellular component| mitochondrial inner membrane | inferred from dire
cellular component| mitochondrion | inferred from direct assay|GO:0005739
NA
NA
molecular function| DNA-directed RNA polymerase activity | traceable author statement|GO:0003899//cellular component| DNA-directed RN
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| protein binding | inferred from direct assay|GO:0005515
NA
molecular function| allantoicase activity | inferred from sequence similarity|GO:0004037//biological process| allantoin catabolism | inferred fr
cellular component| mitochondrion | inferred from direct assay|GO:0005739//biological process| cell wall organization and biogenesis | inferr
NA
molecular function| snoRNA binding | inferred from physical interaction|GO:0030515//cellular component| small nucleolar ribonucleoprotein
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| mitochondrial large rib
molecular function| RNA binding | inferred from sequence similarity|GO:0003723//cellular component| nucleolus | inferred from direct assay|
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| guanyl-nucleotide exchange factor activity | inferred from physical interaction|GO:0005085//molecular function| guanyl-n
molecular function| mRNA binding | inferred from physical interaction|GO:0003729//cellular component| snRNP U1 | inferred from direct ass
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//molecular function| structural constituent o
molecular function| DNA ligase (ATP) activity | inferred from direct assay|GO:0003910//cellular component| nucleus | traceable author statem
NA
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| mitochondrial large rib
molecular function| RNA polymerase II transcription factor activity | inferred from physical interaction|GO:0003702//cellular component| trans
cellular component| mitochondrial inner membrane | inferred from direct assay|GO:0005743//biological process| inner mitochondrial membr
molecular function| --- | inferred from physical interaction|GO:0051082//cellular component| mitochondrial matrix | traceable author statemen
molecular function| protein binding | inferred from physical interaction|GO:0005515//cellular component| exocyst | inferred from physical inte
molecular function| uridylate kinase activity | inferred from direct assay|GO:0009041//molecular function| thymidylate kinase activity | inferre
molecular function| cleavage/polyadenylation specificity factor activity | inferred from direct assay|GO:0030364//cellular component| mRNA c
molecular function| GTPase activity | inferred from sequence similarity|GO:0003924//molecular function| GTPase activity | inferred from gen
cellular component| nuclear pore | inferred from direct assay|GO:0005643//cellular component| nucleus | inferred from direct assay |GO:000
molecular function| carboxypeptidase D activity | traceable author statement|GO:0004187//cellular component| Golgi trans face | inferred fro
molecular function| ATPase activity, coupled | inferred from direct assay|GO:0042623//cellular component| cytoplasm | inferred from direct a
molecular function| --- | inferred from sequence similarity|GO:0051087//molecular function| --- | inferred from mutant phenotype |GO:005108
molecular function| lipase activity | non-traceable author statement|GO:0016298//biological process| lipid metabolism | inferred from mutant
cellular component| peroxisomal membrane | inferred from direct assay|GO:0005778//biological process| peroxisome organization and biog
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
NA
molecular function| phosphoinositide binding | inferred from direct assay|GO:0035091//cellular component| cytosol | inferred from direct ass
molecular function| pre-mRNA splicing factor activity | traceable author statement|GO:0008248//molecular function| protein binding | inferred
molecular function| aryl-alcohol dehydrogenase activity | inferred from sequence similarity|GO:0018456//biological process| aldehyde metab
NA
molecular function| transferase activity, transferring pentosyl groups | inferred from sequence similarity|GO:0016763//molecular function| tra
molecular function| transcription regulator activity | traceable author statement|GO:0030528//cellular component| nucleus | inferred from dire
molecular function| oxidoreductase activity, acting on the CH-OH group of donors, NAD or NADP as acceptor | inferred from sequence simil
NA
molecular function| DNA helicase activity | inferred from direct assay|GO:0003678//cellular component| alpha DNA polymerase:primase com
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
NA
molecular function| tRNA specific adenosine deaminase activity | inferred from direct assay|GO:0008251//cellular component| nucleus | infe
molecular function| maltose porter activity | inferred from sequence similarity|GO:0015581//molecular function| maltose porter activity | inferr
molecular function| mitochondrial processing peptidase activity | inferred from direct assay|GO:0004240//cellular component| mitochondrial
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
cellular component| nucleus | inferred from physical interaction|GO:0005634//biological process| chromatin silencing | inferred from mutant
molecular function| transcription factor activity | inferred from sequence similarity|GO:0003700//cellular component| nucleus | inferred from d
molecular function| catalase activity | inferred from sequence similarity|GO:0004096//cellular component| cytoplasm | traceable author state
NA
molecular function| S-adenosylmethionine-dependent methyltransferase activity | inferred from sequence similarity|GO:0008757//molecular
NA
molecular function| NEDD8 activating enzyme activity | inferred from direct assay|GO:0019781//biological process| protein neddylation | infe
molecular function| protein binding | traceable author statement|GO:0005515//cellular component| peroxisomal membrane | traceable autho
molecular function| ubiquinol-cytochrome-c reductase activity | inferred from mutant phenotype|GO:0008121//cellular component| respirator
NA
molecular function| heme binding | inferred from sequence similarity|GO:0020037//molecular function| heme binding | inferred from physical
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783
cellular component| polysome | inferred from direct assay|GO:0005844//cellular component| cytoplasm | traceable author statement |GO:00
NA
NA
molecular function| transcription coactivator activity | traceable author statement|GO:0003713//cellular component| nucleus | traceable autho
NA
molecular function| RAB-protein geranylgeranyltransferase activity | inferred from direct assay|GO:0004663//cellular component| Rab-protei
molecular function| protein phosphatase type 2A activity | inferred from sequence similarity|GO:0000158//cellular component| cytoplasm | in
molecular function| Pol II transcription elongation factor activity | inferred from physical interaction|GO:0016944//cellular component| Cdc73/
molecular function| GTPase activity | inferred from direct assay|GO:0003924//molecular function| translation initiation factor activity | inferred
NA
molecular function| pre-mRNA splicing factor activity | inferred from direct assay|GO:0008248//cellular component| snRNP U2 | inferred from
cellular component| cytoplasm | inferred from direct assay|GO:0005737
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
cellular component| hydrogen-transporting ATPase V1 domain | inferred from physical interaction|GO:0000221//biological process| vacuolar
NA
NA
molecular function| protein binding | inferred from direct assay|GO:0005515//cellular component| cytosol | inferred from direct assay|GO:000
NA
cellular component| mitochondrion | inferred from direct assay|GO:0005739
molecular function| ATPase activity, coupled to transmembrane movement of substances | inferred from sequence similarity|GO:0042626//m
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| N-acetyltransferase activity | inferred from mutant phenotype|GO:0008080//molecular function| N-acetyltransferase activ
NA
cellular component| mitochondrion | inferred from sequence similarity|GO:0005739//biological process| mitochondrion organization and biog
molecular function| GTPase activity | traceable author statement|GO:0003924//cellular component| plasma membrane | inferred from direct
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| RNA polymerase III transcription factor activity | traceable author statement|GO:0003709//cellular component| transcript
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
NA
molecular function| transcription regulator activity | inferred from direct assay|GO:0030528//molecular function| protein kinase inhibitor activi
cellular component| mitochondrion | inferred from direct assay|GO:0005739//cellular component| cytoplasm | inferred from direct assay |GO
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| mitochondrial large rib
molecular function| chitin deacetylase activity | inferred from sequence similarity|GO:0004099//molecular function| chitin deacetylase activity
cellular component| nucleus | inferred from direct assay|GO:0005634
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
NA
NA
molecular function| ribonuclease P activity | inferred from direct assay|GO:0004526//cellular component| mitochondrion | inferred from direc
molecular function| structural constituent of cytoskeleton | inferred from direct assay|GO:0005200//cellular component| DASH complex | infe
cellular component| proton-transporting ATP synthase complex (sensu Eukarya) | traceable author statement|GO:0005753//biological proce
molecular function| inorganic diphosphatase activity | inferred from sequence similarity|GO:0004427//molecular function| inorganic diphosph
molecular function| ubiquitin-specific protease activity | traceable author statement|GO:0004843//cellular component| cytoplasm | inferred fro
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| mitochondrial large rib
molecular function| exoribonuclease II activity | inferred from direct assay|GO:0008859//cellular component| mitochondrial matrix | inferred fr
biological process| cell wall organization and biogenesis | inferred from mutant phenotype|GO:0007047
cellular component| vacuole (sensu Fungi) | inferred from direct assay|GO:0000324
NA
cellular component| plasma membrane | inferred from direct assay|GO:0005886//biological process| conjugation with cellular fusion | inferre
cellular component| integral to membrane | inferred from sequence similarity|GO:0016021//biological process| endocytosis | inferred from m
molecular function| histone lysine N-methyltransferase activity (H3-K4 specific) | inferred from direct assay|GO:0042800//molecular function
molecular function| phosphatidylinositol 3-kinase activity | traceable author statement|GO:0016303//molecular function| protein binding | infe
cellular component| mitochondrion | inferred from direct assay|GO:0005739
NA
molecular function| structural constituent of ribosome | inferred from direct assay|GO:0003735//cellular component| mitochondrial small ribo
molecular function| protein phosphatase type 2A activity | traceable author statement|GO:0000158//cellular component| protein phosphatas
molecular function| nucleic acid binding | non-traceable author statement|GO:0003676//cellular component| cytoplasm | inferred from direct
molecular function| cell adhesion molecule binding | traceable author statement|GO:0050839//cellular component| cell wall (sensu Fungi) | t
molecular function| DNA binding | inferred from physical interaction|GO:0003677//cellular component| nuclear chromosome | inferred from d
NA
molecular function| structural molecule activity | traceable author statement|GO:0005198//cellular component| nucleus | traceable author sta
NA
NA
molecular function| NADH dehydrogenase activity | inferred from sequence similarity|GO:0003954//molecular function| NADH dehydrogenas
cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| bud site selection | inferred from mutant phenotyp
molecular function| transporter activity | inferred from sequence similarity|GO:0005215//cellular component| membrane | inferred from seque
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| mitochondrial large rib
biological process| aerobic respiration | inferred from genetic interaction|GO:0009060
molecular function| cytoskeletal protein binding | traceable author statement|GO:0008092//cellular component| contractile ring (sensu Sacch
molecular function| general RNA polymerase II transcription factor activity | traceable author statement|GO:0016251//cellular component| tra
NA
NA
cellular component| integral to membrane | inferred from sequence similarity|GO:0016021//biological process| conjugation with cellular fusio
NA
molecular function| protein-lysine N-methyltransferase activity | inferred from direct assay|GO:0016279//cellular component| nucleus | inferre
molecular function| tRNA (guanine) methyltransferase activity | inferred from direct assay|GO:0016423//cellular component| cytoplasm | infe
molecular function| pre-mRNA splicing factor activity | inferred from direct assay|GO:0008248//cellular component| spliceosome complex | in
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//molecular function| structural constituent o
molecular function| glutathione peroxidase activity | inferred from direct assay|GO:0004602//biological process| response to oxidative stress
molecular function| ATPase activity | inferred from genetic interaction|GO:0016887//cellular component| cytosol | traceable author statemen
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| mitochondrial large rib
NA
molecular function| glutamate-tRNA ligase activity | inferred from sequence similarity|GO:0004818//molecular function| glutamate-tRNA liga
molecular function| ubiquitin-protein ligase activity | inferred from direct assay|GO:0004842//cellular component| endoplasmic reticulum | tra
molecular function| NADH dehydrogenase activity | inferred from sequence similarity|GO:0003954//cellular component| mitochondrion | infe
molecular function| microtubule binding | inferred from sequence similarity|GO:0008017//molecular function| protein binding | inferred from s
cellular component| bud neck | inferred from direct assay|GO:0005935
molecular function| transcription factor activity | inferred from sequence similarity|GO:0003700//molecular function| transcription factor activi
molecular function| protein binding | traceable author statement|GO:0005515//molecular function| ubiquitin-protein ligase activity | traceable
cellular component| plasma membrane | inferred from direct assay|GO:0005886//cellular component| cytoplasm | inferred from direct assay
cellular component| mitochondrial membrane | traceable author statement|GO:0005740//biological process| protein complex assembly | trac
cellular component| mitochondrion | inferred from direct assay|GO:0005739
NA
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| mitochondrial large rib
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| --- | inferred from sequence similarity|GO:0051082//molecular function| cysteine-type peptidase activity | inferred from se
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| mRNA binding | inferred from physical interaction|GO:0003729//cellular component| snRNP U1 | inferred from direct ass
cellular component| mitochondrion | inferred from direct assay|GO:0005739
cellular component| nucleus | inferred from curator|GO:0005634//biological process| meiotic DNA double-strand break formation | traceable
molecular function| tryptophan 2,3-dioxygenase activity | traceable author statement|GO:0004833//cellular component| cytoplasm | inferred
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| protein binding | inferred from physical interaction|GO:0005515//cellular component| cytoplasm | inferred from direct ass
molecular function| protein binding | inferred from physical interaction|GO:0005515//molecular function| protein binding | inferred from mutan
molecular function| MAP kinase phosphatase activity | inferred from direct assay|GO:0017017//cellular component| cytoplasm | inferred from
molecular function| kinase inhibitor activity | inferred from direct assay|GO:0019210//molecular function| protein binding | inferred from phys
NA
molecular function| cyclin-dependent protein kinase activity | inferred from direct assay|GO:0004693//cellular component| nucleus | inferred
NA
cellular component| spindle pole | inferred from direct assay|GO:0000922//cellular component| MIND complex | inferred from direct assay |G
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| mitochondrial large rib
molecular function| chromatin binding | inferred from direct assay|GO:0003682//cellular component| nucleus | inferred from direct assay|GO
NA
molecular function| threonine ammonia-lyase activity | inferred from sequence similarity|GO:0004794//molecular function| threonine ammon
molecular function| protein transporter activity | inferred from physical interaction|GO:0008565//molecular function| protein transporter activit
NA
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| protein serine/threonine kinase activity | inferred from sequence similarity|GO:0004674//biological process| regulation of
NA
cellular component| spindle pole body | inferred from direct assay|GO:0005816
NA
molecular function| specific RNA polymerase II transcription factor activity | inferred from sequence similarity|GO:0003704//molecular functio
NA
molecular function| endonuclease activity | inferred from sequence similarity|GO:0004519
molecular function| DNA-dependent ATPase activity | inferred from direct assay|GO:0008094//cellular component| nucleotide excision repai
molecular function| histone deacetylase activity | inferred from mutant phenotype|GO:0004407//molecular function| histone deacetylase acti
NA
NA
NA
NA
molecular function| spermine transporter activity | inferred from mutant phenotype|GO:0000297//cellular component| plasma membrane | inf
NA
molecular function| translation release factor activity | inferred from sequence similarity|GO:0003747//molecular function| translation release
molecular function| RNA binding | inferred from sequence similarity|GO:0003723//molecular function| RNA binding | inferred from mutant ph
cellular component| nucleus | inferred from direct assay|GO:0005634
cellular component| mitochondrion | inferred from direct assay|GO:0005739
molecular function| single-stranded DNA specific endodeoxyribonuclease activity | traceable author statement|GO:0000014//cellular compon
cellular component| endosome | inferred from physical interaction|GO:0005768//cellular component| ESCRT I complex | traceable author sta
molecular function| glucan 1,4-alpha-glucosidase activity | inferred from direct assay|GO:0004339//cellular component| vacuole (sensu Fung
NA
molecular function| L-serine ammonia-lyase activity | non-traceable author statement|GO:0003941//biological process| serine family amino a
cellular component| mitochondrion | inferred from direct assay|GO:0005739
cellular component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277//cellular component| vacuole (sensu Fungi) | inferred fro
cellular component| extrinsic to membrane | inferred from direct assay|GO:0019898//biological process| late endosome to vacuole transport
molecular function| damaged DNA binding | traceable author statement|GO:0003684//cellular component| nucleotide excision repair factor 1
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| mitochondrial large rib
molecular function| protein binding | inferred from direct assay|GO:0005515//cellular component| integral to membrane | inferred from direct
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| protein N-terminal asparagine amidohydrolase activity | inferred from sequence similarity|GO:0008418//molecular functio
molecular function| protein kinase activity | inferred from sequence similarity|GO:0004672//biological process| chromosome segregation | in
molecular function| structural constituent of ribosome | inferred from sequence similarity|GO:0003735//molecular function| structural constitu
cellular component| cytoplasm | inferred from direct assay|GO:0005737
cellular component| membrane fraction | inferred from direct assay|GO:0005624
molecular function| transcription factor activity | inferred from sequence similarity|GO:0003700//biological process| pseudohyphal growth | in
molecular function| protein binding | inferred from mutant phenotype|GO:0005515//molecular function| protein binding | inferred from direct a
molecular function| histone binding | traceable author statement|GO:0042393//cellular component| chromatin assembly complex | inferred fr
cellular component| mitochondrion | inferred from direct assay|GO:0005739
molecular function| magnesium ion transporter activity | inferred from sequence similarity|GO:0015095//molecular function| magnesium ion
cellular component| mitochondrion | inferred from direct assay|GO:0005739
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| mitochondrial small rib
cellular component| mitochondrial outer membrane | traceable author statement|GO:0005741//cellular component| mitochondrial outer mem
biological process| negative regulation of DNA transposition | inferred from mutant phenotype|GO:0000335
molecular function| transcription factor activity | inferred from sequence similarity|GO:0003700//molecular function| transcription factor activi
molecular function| transcriptional repressor activity | inferred from direct assay|GO:0016564//cellular component| intracellular | inferred from
cellular component| mitochondrial intermembrane space | inferred from direct assay|GO:0005758//biological process| carbon utilization by u
NA
NA
cellular component| mitochondrion | inferred from direct assay|GO:0005739//biological process| protein biosynthesis | inferred from mutant p
molecular function| structural constituent of ribosome | inferred from direct assay|GO:0003735//cellular component| mitochondrial small ribo
cellular component| mitochondrion | inferred from direct assay|GO:0005739
cellular component| mRNA cleavage and polyadenylation specificity factor complex | inferred from physical interaction|GO:0005847//biologi
molecular function| L-lactate dehydrogenase (cytochrome) activity | inferred from direct assay|GO:0004460//cellular component| mitochondr
NA
molecular function| transcription cofactor activity | inferred from mutant phenotype|GO:0003712//molecular function| transcription cofactor ac
molecular function| phospholipid binding | inferred from direct assay|GO:0005543//cellular component| soluble fraction | inferred from direct
cellular component| mitochondrion | inferred from direct assay|GO:0005739
cellular component| spore wall (sensu Fungi) | inferred from sequence similarity|GO:0005619//cellular component| spore wall (sensu Fungi)
molecular function| hydrogen-transporting ATP synthase activity, rotational mechanism | inferred from mutant phenotype|GO:0046933//mole
cellular component| nucleus | inferred from direct assay|GO:0005634//cellular component| SWR1 complex | inferred from physical interactio
cellular component| mitochondrial inner membrane | inferred from direct assay|GO:0005743//biological process| ethanol metabolism | inferre
molecular function| DNA-dependent ATPase activity | inferred from direct assay|GO:0008094//molecular function| ubiquitin conjugating enzy
cellular component| prospore membrane | inferred from direct assay|GO:0005628//biological process| spore wall assembly (sensu Fungi) | i
NA
molecular function| transcription coactivator activity | traceable author statement|GO:0003713//cellular component| nucleus | traceable autho
NA
NA
molecular function| structural constituent of ribosome | inferred from direct assay|GO:0003735//cellular component| mitochondrial small ribo
molecular function| centromeric DNA binding | traceable author statement|GO:0019237//cellular component| nucleus | traceable author state
NA
NA
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//molecular function| peptidyltransferase acti
NA
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| dodecenoyl-CoA delta-isomerase activity | inferred from mutant phenotype|GO:0004165//molecular function| dodecenoy
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| structural constituent of ribosome | inferred from sequence similarity|GO:0003735//molecular function| structural constitu
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
NA
NA
cellular component| proton-transporting ATP synthase complex (sensu Eukarya) | traceable author statement|GO:0005753//biological proce
molecular function| histone lysine N-methyltransferase activity (H3-K4 specific) | inferred from direct assay|GO:0042800//cellular componen
NA
cellular component| spindle pole body | non-traceable author statement|GO:0005816//cellular component| COMA complex | inferred from di
molecular function| copper ion binding | inferred from sequence similarity|GO:0005507//molecular function| copper ion binding | inferred from
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//biological process| zinc ion transport | inferred from mu
molecular function| protein binding | inferred from sequence similarity|GO:0005515//cellular component| ubiquitin ligase complex | inferred fr
molecular function| single-stranded DNA specific endodeoxyribonuclease activity | traceable author statement|GO:0000014//cellular compon
cellular component| mitochondrion | traceable author statement|GO:0005739//biological process| protein biosynthesis | traceable author sta
molecular function| v-SNARE activity | traceable author statement|GO:0005485//cellular component| membrane | traceable author statemen
molecular function| acyltransferase activity | inferred from sequence similarity|GO:0008415//biological process| phospholipid biosynthesis | i
molecular function| mannitol dehydrogenase activity | inferred from sequence similarity|GO:0046029
cellular component| mitochondrion | inferred from direct assay|GO:0005739//biological process| protein targeting | inferred from physical inte
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| methylated-DNA-[protein]-cysteine S-methyltransferase activity | inferred from direct assay|GO:0003908//cellular compo
NA
molecular function| protein transporter activity | inferred from physical interaction|GO:0008565//molecular function| protein transporter activit
molecular function| basic amino acid transporter activity | inferred from direct assay|GO:0015174//cellular component| plasma membrane | i
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| endocytosis | inferred from mutant phenotype|G
molecular function| DNA helicase activity | inferred from direct assay|GO:0003678//cellular component| nucleus | inferred from curator|GO:0
molecular function| acetyltransferase activity | inferred from direct assay|GO:0016407//cellular component| nuclear chromatin | inferred from
NA
NA
molecular function| cation:cation antiporter activity | inferred from sequence similarity|GO:0015491//molecular function| cation:cation antipor
molecular function| succinate-semialdehyde dehydrogenase [NAD(P)+] activity | inferred from sequence similarity|GO:0009013//molecular f
molecular function| structural constituent of ribosome | inferred from direct assay|GO:0003735//cellular component| mitochondrial small ribo
cellular component| clathrin-coated vesicle | inferred from direct assay|GO:0030136//biological process| bud site selection | inferred from mu
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
NA
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737
cellular component| nucleoplasm | inferred from direct assay|GO:0005654//cellular component| nuclear membrane | inferred from direct ass
cellular component| mitochondrion | inferred from direct assay|GO:0005739//cellular component| membrane fraction | inferred from direct as
molecular function| phenylalanine-tRNA ligase activity | inferred from sequence similarity|GO:0004826//molecular function| phenylalanine-tR
molecular function| centromeric DNA binding | traceable author statement|GO:0019237//molecular function| DNA bending activity | inferred
molecular function| protein binding | inferred from physical interaction|GO:0005515//cellular component| nucleus | inferred from direct assay
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| RNA binding | inferred from mutant phenotype|GO:0003723//cellular component| mitochondrion | inferred from direct ass
cellular component| vacuole (sensu Fungi) | inferred from direct assay|GO:0000324
NA
molecular function| histone lysine N-methyltransferase activity (H3-K4 specific) | inferred from direct assay|GO:0042800//molecular function
molecular function| S-adenosylmethionine-dependent methyltransferase activity | inferred from sequence similarity|GO:0008757//molecular
NA
cellular component| nucleolus | inferred from direct assay|GO:0005730//cellular component| nucleus | inferred from direct assay |GO:00056
NA
molecular function| DNA-dependent ATPase activity | traceable author statement|GO:0008094//cellular component| nucleus | non-traceable
molecular function| transcription cofactor activity | inferred from physical interaction|GO:0003712//molecular function| transcription cofactor a
cellular component| mitochondrion | inferred from direct assay|GO:0005739//cellular component| nucleus | inferred from direct assay |GO:00
molecular function| phosphomethylpyrimidine kinase activity | inferred from sequence similarity|GO:0008972//biological process| thiamin bio
cellular component| mitochondrion | inferred from direct assay|GO:0005739
molecular function| receptor signaling protein serine/threonine kinase activity | inferred from sequence similarity|GO:0004702//molecular fun
NA
molecular function| structural constituent of ribosome | inferred from direct assay|GO:0003735//cellular component| mitochondrial small ribo
molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity|GO:0003887//cellular component| nucleus | in
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| structural constituent of ribosome | inferred from sequence similarity|GO:0003735//molecular function| structural constitu
molecular function| RNA helicase activity | inferred from direct assay|GO:0003724//cellular component| mitochondrion | inferred from direct
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| mitochondrial large rib
molecular function| isocitrate dehydrogenase (NADP+) activity | traceable author statement|GO:0004450//cellular component| cytosol | trace
molecular function| structural constituent of ribosome | inferred from direct assay|GO:0003735//cellular component| mitochondrial small ribo
NA
molecular function| protein serine/threonine phosphatase activity | inferred from sequence similarity|GO:0004722//molecular function| protei
molecular function| DNA binding | inferred from sequence similarity|GO:0003677//cellular component| nuclear chromosome | inferred from d
biological process| cell ion homeostasis | inferred from mutant phenotype|GO:0006873
cellular component| mitochondrion | inferred from direct assay|GO:0005739
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| enoyl-[acyl-carrier protein] reductase activity | inferred from direct assay|GO:0016631//cellular component| mitochondrio
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleolus | inferred from direct assay |GO:0005
molecular function| ubiquitin-specific protease activity | traceable author statement|GO:0004843//cellular component| cytoplasm | inferred fro
NA
NA
molecular function| pre-mRNA splicing factor activity | inferred from mutant phenotype|GO:0008248//cellular component| spliceosome comp
cellular component| cell wall (sensu Fungi) | inferred from sequence similarity|GO:0009277//cellular component| cell wall (sensu Fungi) | infe
cellular component| spindle | inferred from direct assay|GO:0005819//cellular component| prospore membrane | inferred from direct assay |G
molecular function| alanine-glyoxylate transaminase activity | inferred from sequence similarity|GO:0008453//molecular function| alanine-gly
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
cellular component| spore wall (sensu Fungi) | inferred from direct assay|GO:0005619//biological process| spore wall assembly (sensu Fung
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
cellular component| nucleus | inferred from direct assay|GO:0005634
molecular function| S-adenosylmethionine-dependent methyltransferase activity | inferred from sequence similarity|GO:0008757//cellular co
molecular function| transcription regulator activity | traceable author statement|GO:0030528//cellular component| mitochondrion | inferred fro
NA
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| mitochondrial large rib
molecular function| ATPase activity, coupled to transmembrane movement of substances | inferred from sequence similarity|GO:0042626//c
molecular function| oxidoreductase activity, acting on sulfur group of donors | inferred from direct assay|GO:0016667//cellular component| c
NA
NA
molecular function| DNA binding | inferred from sequence similarity|GO:0003677//cellular component| RSC complex | inferred from physical
cellular component| mitochondrion | inferred from direct assay|GO:0005739
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| mitochondrial large rib
molecular function| structural constituent of ribosome | inferred from direct assay|GO:0003735//cellular component| mitochondrial small ribo
cellular component| mitochondrion | inferred from direct assay|GO:0005739
NA
NA
cellular component| plasma membrane | inferred from direct assay|GO:0005886//biological process| signal transduction during conjugation
molecular function| phospholipid binding | inferred from direct assay|GO:0005543//cellular component| vacuolar membrane (sensu Fungi) |
molecular function| transcriptional activator activity | traceable author statement|GO:0016563//cellular component| CCAAT-binding factor co
cellular component| cytoplasm | inferred from direct assay|GO:0005737
NA
NA
cellular component| mitochondrial inner membrane | traceable author statement|GO:0005743//biological process| cytochrome c oxidase bio
NA
molecular function| aldo-keto reductase activity | inferred from sequence similarity|GO:0004033//molecular function| aldehyde reductase act
molecular function| mRNA binding | inferred from sequence similarity|GO:0003729//cellular component| cytoplasm | inferred from direct ass
NA
molecular function| pseudouridylate synthase activity | inferred from sequence similarity|GO:0004730//molecular function| pseudouridylate s
NA
molecular function| protein phosphatase regulator activity | inferred from sequence similarity|GO:0019888//molecular function| protein phosp
NA
cellular component| cytoplasm | inferred from direct assay|GO:0005737
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//biological process| cell cycle arrest in response to phe
molecular function| glutamate decarboxylase activity | inferred from sequence similarity|GO:0004351//molecular function| glutamate decarbo
molecular function| cleavage/polyadenylation specificity factor activity | inferred from direct assay|GO:0030364//molecular function| protein b
cellular component| nuclear nucleosome | traceable author statement|GO:0000788//cellular component| histone acetyltransferase complex
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| mitochondrial large rib
molecular function| GTP binding | inferred from sequence similarity|GO:0005525//cellular component| mitochondrial inner membrane | inferr
molecular function| protein kinase activity | inferred from direct assay|GO:0004672//cellular component| cytoplasm | inferred from direct assa
molecular function| oxidoreductase activity, acting on the CH-OH group of donors, NAD or NADP as acceptor | inferred from sequence simil
NA
cellular component| mitochondrion | inferred from direct assay|GO:0005739
biological process| meiosis | inferred from expression pattern|GO:0007126//biological process| DNA metabolism | inferred from genetic inter
NA
molecular function| histone acetyltransferase activity | non-traceable author statement|GO:0004402//molecular function| histone acetyltransf
cellular component| mitochondrion | inferred from direct assay|GO:0005739
cellular component| anaphase-promoting complex | inferred from direct assay|GO:0005680//biological process| regulation of mitotic metaph
NA
molecular function| translation termination factor activity | inferred from sequence similarity|GO:0008079//cellular component| mitochondrion
molecular function| translation elongation factor activity | inferred from sequence similarity|GO:0003746//molecular function| translation elon
cellular component| cytoplasm | inferred from direct assay|GO:0005737
NA
cellular component| membrane fraction | inferred from direct assay|GO:0005624//biological process| autophagy | inferred from mutant phen
molecular function| DNA replication origin binding | traceable author statement|GO:0003688//cellular component| nuclear origin of replicatio
molecular function| general RNA polymerase II transcription factor activity | traceable author statement|GO:0016251//molecular function| pro
molecular function| GTPase activity | inferred from sequence similarity|GO:0003924//cellular component| mitochondrion | inferred from direc
molecular function| Ras guanyl-nucleotide exchange factor activity | traceable author statement|GO:0005088//molecular function| guanyl-nu
molecular function| aldo-keto reductase activity | inferred from sequence similarity|GO:0004033//molecular function| aldo-keto reductase act
molecular function| specific RNA polymerase II transcription factor activity | inferred from mutant phenotype|GO:0003704//molecular function
molecular function| DNA binding | inferred from sequence similarity|GO:0003677//cellular component| cytoplasm | inferred from direct assay
molecular function| specific RNA polymerase II transcription factor activity | inferred from direct assay|GO:0003704//cellular component| nuc
molecular function| protein binding | traceable author statement|GO:0005515//molecular function| ubiquitin-protein ligase activity | traceable
molecular function| damaged DNA binding | inferred from direct assay|GO:0003684//cellular component| nucleotide excision repair factor 2
molecular function| t-SNARE activity | inferred from sequence similarity|GO:0005486//molecular function| t-SNARE activity | inferred from ph
cellular component| cytoplasm | inferred from direct assay|GO:0005737
NA
cellular component| cytosol | inferred from direct assay|GO:0005829//biological process| peroxisome organization and biogenesis | inferred
molecular function| structural constituent of ribosome | traceable author statement|GO:0003735//cellular component| mitochondrial small rib
cellular component| replication fork | inferred from physical interaction|GO:0005657//cellular component| replication fork | inferred from gene
molecular function| nucleic acid binding | inferred from direct assay|GO:0003676//cellular component| THO complex | inferred from physical
cellular component| cytoplasm | inferred from direct assay|GO:0005737
molecular function| nucleic acid binding | inferred from direct assay|GO:0003676//cellular component| THO complex | inferred from physical
cellular component| mitochondrion | inferred from direct assay|GO:0005739
molecular function| S-adenosylmethionine-dependent methyltransferase activity | inferred from sequence similarity|GO:0008757//cellular co
NA
cellular component| membrane | inferred from sequence similarity|GO:0016020
molecular function| protein transporter activity | inferred from sequence similarity|GO:0008565//cellular component| cytoplasm | inferred from
molecular function| translation regulator activity | inferred from genetic interaction|GO:0045182//cellular component| integral to membrane |
molecular function| inorganic phosphate transporter activity | inferred from direct assay|GO:0005315//cellular component| mitochondrion | in
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
biological process| mitochondrion organization and biogenesis | inferred from genetic interaction|GO:0007005
molecular function| structural constituent of cytoskeleton | inferred from physical interaction|GO:0005200//cellular component| dynactin com
NA
cellular component| vacuole (sensu Fungi) | inferred from direct assay|GO:0000324
NA
NA
NA
molecular function| transcription corepressor activity | inferred from direct assay|GO:0003714//cellular component| nucleus | inferred from di
molecular function| ubiquinol-cytochrome-c reductase activity | inferred from direct assay|GO:0008121//cellular component| respiratory chai
molecular function| electron carrier activity | traceable author statement|GO:0009055//cellular component| mitochondrial intermembrane spa
NA
molecular function| --- | inferred from physical interaction|GO:0051082//molecular function| --- | inferred from mutant phenotype |GO:005108
NA
NA
NA
cellular component| shmoo tip | inferred from direct assay|GO:0005937//cellular component| plasma membrane | inferred from direct assay
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
cellular component| cytosol | inferred from direct assay|GO:0005829//biological process| intracellular protein transport | inferred from physic
NA
molecular function| DNA helicase activity | inferred from direct assay|GO:0003678//cellular component| nucleus | inferred from curator|GO:0
NA
cellular component| mitochondrion | inferred from direct assay|GO:0005739
cellular component| nucleus | inferred from curator|GO:0005634//biological process| DNA repair | inferred from mutant phenotype|GO:00062
molecular function| transcriptional repressor activity | inferred from physical interaction|GO:0016564//cellular component| Sin3 complex | infe
NA
molecular function| structural constituent of ribosome | inferred from direct assay|GO:0003735//cellular component| mitochondrial small ribo
molecular function| --- | inferred from direct assay|GO:0051082//cellular component| cytoplasm | inferred from direct assay|GO:0005737//ce
cellular component| cytoplasm | inferred from direct assay|GO:0005737
NA
molecular function| actin monomer binding | traceable author statement|GO:0003785//cellular component| actin cap (sensu Fungi) | inferred
cellular component| mitochondrion | inferred from direct assay|GO:0005739
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| vacuole (sensu Fungi) | inferred from direct as
NA
NA
NA
NA
molecular function| serine-tRNA ligase activity | inferred from sequence similarity|GO:0004828//molecular function| serine-tRNA ligase activ
molecular function| kinase activity | inferred from sequence similarity|GO:0016301//cellular component| mitochondrion | inferred from seque
NA
molecular function| general RNA polymerase II transcription factor activity | traceable author statement|GO:0016251//cellular component| tra
molecular function| thiamin transporter activity | traceable author statement|GO:0015234//cellular component| plasma membrane | inferred f
biological process| cell wall organization and biogenesis | inferred from mutant phenotype|GO:0007047
cellular component| mitochondrial inner membrane | traceable author statement|GO:0005743//biological process| cytochrome c oxidase bio
molecular function| glucose binding | traceable author statement|GO:0005536//molecular function| glucose transporter activity | traceable au
molecular function| acetyltransferase activity | inferred from sequence similarity|GO:0016407
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
molecular function| aromatic-amino-acid transaminase activity | inferred from sequence similarity|GO:0008793//molecular function| aromatic
NA
NA
NA
NA
NA
NA
cellular component| vacuole (sensu Fungi) | inferred from direct assay|GO:0000324
molecular function| peptidase activity | inferred from sequence similarity|GO:0008233//molecular function| protein binding | inferred from seq
molecular function| --- | traceable author statement|GO:0051082//cellular component| cytoplasm | inferred from direct assay|GO:0005737//c
molecular function| rRNA binding | inferred from physical interaction|GO:0019843//cellular component| nucleolus | inferred from sequence s
cellular component| mitochondrion | inferred from direct assay|GO:0005739//biological process| protein complex assembly | inferred from m
molecular function| rRNA binding | inferred from physical interaction|GO:0019843//cellular component| nucleolus | inferred from direct assay
NA
molecular function| alkylbase DNA N-glycosylase activity | inferred from direct assay|GO:0003905//cellular component| nucleus | inferred fro
molecular function| aldehyde dehydrogenase activity | inferred from sequence similarity|GO:0004028//cellular component| cytoplasm | inferr
cellular component| mitochondrion | inferred from direct assay|GO:0005739
cellular component| mitochondrion | inferred from direct assay|GO:0005739
NA
molecular function| copper chaperone activity | inferred from physical interaction|GO:0016531//molecular function| copper chaperone activit
NA
molecular function| electron carrier activity | inferred from direct assay|GO:0009055//cellular component| mitochondrial intermembrane spac
molecular function| DNA helicase activity | inferred from direct assay|GO:0003678//cellular component| nucleus | inferred from curator|GO:0
molecular function| imidazoleglycerol-phosphate dehydratase activity | traceable author statement|GO:0004424//cellular component| cell | tr
NA
NA
cellular component| mitochondrion | inferred from direct assay|GO:0005739
NA
NA
molecular function| oxidoreductase activity | inferred from sequence similarity|GO:0016491//biological process| metabolism | inferred from s
NA
NA
molecular function| copper uptake transporter activity | inferred from mutant phenotype|GO:0015088//cellular component| plasma membran
molecular function| DNA helicase activity | inferred from direct assay|GO:0003678//cellular component| nucleus | inferred from curator|GO:0
molecular function| imidazoleglycerol-phosphate dehydratase activity | traceable author statement|GO:0004424//molecular function| RNA he
NA
NA
molecular function| phenylpyruvate decarboxylase activity | inferred from direct assay|GO:0050177//molecular function| carboxy-lyase activi
cellular component| plasma membrane | inferred from sequence similarity|GO:0005886//cellular component| plasma membrane | inferred fro
NA
NA
molecular function| ferric-chelate reductase activity | inferred from sequence similarity|GO:0000293
NA
or statement|GO:0000773//cellular component| endoplasmic reticulum | traceable author statement|GO:0005783//biological process| phosphatidylcholine b
ular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005843//biological process| protein biosynthesis | tra
ent| bud tip | inferred from direct assay |GO:0005934//cellular component| cytoplasm | inferred from direct assay |GO:0005737//cellular component| vacuol
| inferred from mutant phenotype|GO:0003871//cellular component| cytoplasm | no biological data available|GO:0005737//biological process| methionine b
ular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005843//biological process| protein biosynthesis | tra
mponent| nucleus | inferred from direct assay|GO:0005634//biological process| protein-nucleus import | inferred from mutant phenotype|GO:0006606
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | trac
ular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005843//biological process| protein biosynthesis | tra
ss| microtubule cytoskeleton organization and biogenesis | inferred from genetic interaction|GO:0000226
0033//molecular function| alpha-1,3-mannosyltransferase activity | inferred from direct assay |GO:0000033//cellular component| endoplasmic reticulum | inf
r function| glucose transporter activity | traceable author statement |GO:0005355//molecular function| glucose transporter activity | inferred from direct assa
cellular component| cytosol | inferred from direct assay|GO:0005829//biological process| ornithine metabolism | traceable author statement|GO:0006591//b
r component| vacuole (sensu Fungi) | inferred from direct assay|GO:0000324
ular component| cytosol | inferred from direct assay|GO:0005829//biological process| arginine biosynthesis | traceable author statement|GO:0006526//biolo
molecular function| cystathionine beta-lyase activity | inferred from mutant phenotype |GO:0004121//cellular component| peroxisome | inferred from direct
8//biological process| methionine metabolism | traceable author statement|GO:0006555
lular component| 6-phosphofructokinase complex | inferred from mutant phenotype|GO:0005945//cellular component| cytoplasm | inferred from direct assa
or statement|GO:0008553//cellular component| plasma membrane | inferred from direct assay|GO:0005886//cellular component| endoplasmic reticulum | i
4//cellular component| soluble fraction | inferred from direct assay|GO:0005625//cellular component| phosphopyruvate hydratase complex | inferred from d
ear nucleosome | traceable author statement|GO:0000788//biological process| chromatin assembly/disassembly | traceable author statement|GO:0006333
ent| vacuole (sensu Fungi) | inferred from direct assay |GO:0000324
ular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005843//biological process| protein biosynthesis | tra
| nucleus | inferred from direct assay|GO:0005634//cellular component| nuclear nucleosome | inferred from physical interaction |GO:0000788//biological pr
eraction|GO:0003704//molecular function| specific RNA polymerase II transcription factor activity | inferred from expression pattern |GO:0003704//cellular c
8//molecular function| methionine adenosyltransferase activity | inferred from sequence similarity |GO:0004478//molecular function| methionine adenosyltra
on| DNA helicase activity | inferred from direct assay |GO:0003678//cellular component| nucleus | inferred from curator|GO:0005634//biological process| te
r component| actin cap (sensu Fungi) | inferred from direct assay|GO:0030478//cellular component| 1,3-beta-glucan synthase complex | traceable author s
mponent| nucleus | inferred from direct assay|GO:0005634//biological process| DNA-dependent DNA replication | traceable author statement|GO:0006261
cal process| signal transduction | inferred from physical interaction|GO:0007165
| inferred from direct assay |GO:0005634
arrest | inferred from mutant phenotype|GO:0007050//biological process| cell cycle arrest | inferred from expression pattern |GO:0007050//biological proc
n| protein binding, bridging | inferred from direct assay |GO:0030674//cellular component| actin cortical patch (sensu Fungi) | inferred from direct assay|GO
/cellular component| sulfite reductase complex (NADPH) | inferred from sequence similarity|GO:0009337//cellular component| sulfite reductase complex (N
ponent| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277//cellular component| mitochondrial matrix | traceable author statement |GO:000575
on| DNA helicase activity | inferred from direct assay |GO:0003678//cellular component| nucleus | inferred from curator|GO:0005634//biological process| te
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
ular component| cytoplasm | inferred from direct assay|GO:0005737
ecular function| RNA binding | inferred from direct assay |GO:0003723//cellular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable a
ular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005843//biological process| protein biosynthesis | tra
4421//cellular component| endoplasmic reticulum | traceable author statement|GO:0005783//cellular component| mitochondrion | traceable author stateme
eraction|GO:0003704//molecular function| specific RNA polymerase II transcription factor activity | inferred from mutant phenotype |GO:0003704//cellular c
cellular component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277//cellular component| mitochondrion | inferred from direct assay |GO:0
nt| heterogeneous nuclear ribonucleoprotein complex | inferred from direct assay|GO:0030530//cellular component| cytoplasm | inferred from direct assay |
mponent| cytoplasm | inferred from direct assay|GO:0005737//biological process| GTP biosynthesis | traceable author statement|GO:0006183
4636//molecular function| phosphoribosyl-AMP cyclohydrolase activity | traceable author statement |GO:0004635//molecular function| histidinol dehydrogen
component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277//biological process| response to stress | inferred from sequence similarity|GO
function| amino acid transporter activity | inferred from direct assay |GO:0015171//cellular component| plasma membrane | inferred from sequence similar
component| membrane | inferred from direct assay|GO:0016020//cellular component| plasma membrane | inferred from direct assay |GO:0005886//biologi
| structural constituent of cell wall | inferred from direct assay |GO:0005199//cellular component| cell wall (sensu Fungi) | inferred from direct assay|GO:000
nent| extrinsic to membrane | inferred from direct assay|GO:0019898//cellular component| cytoplasm | inferred from direct assay |GO:0005737//cellular com
tatement|GO:0046961//molecular function| endodeoxyribonuclease activity | traceable author statement |GO:0004520//cellular component| vacuolar memb
ction| O-acetylhomoserine aminocarboxypropyltransferase activity | traceable author statement |GO:0003961//molecular function| O-acetylhomoserine am
23//cellular component| mitochondrion | traceable author statement|GO:0005739//biological process| iron-sulfur cluster assembly | traceable author statem
llular component| ribosome | traceable author statement|GO:0005840//biological process| translational elongation | traceable author statement|GO:000641
ent| vacuolar membrane | inferred from direct assay|GO:0005774//biological process| vacuole inheritance | inferred from mutant phenotype|GO:0000011
2//biological process| axial budding | traceable author statement|GO:0007120//biological process| cytokinesis | traceable author statement |GO:0000910//b
42124//cellular component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277
04347//cellular component| cytosol | traceable author statement|GO:0005829//biological process| pentose-phosphate shunt | traceable author statement|G
0033//molecular function| alpha-1,3-mannosyltransferase activity | inferred from direct assay |GO:0000033//cellular component| endoplasmic reticulum | inf
ar component| plasma membrane | inferred from direct assay|GO:0005886//cellular component| endoplasmic reticulum membrane | inferred from direct ass
nction| glucosidase activity | inferred from mutant phenotype |GO:0015926//cellular component| integral to membrane | inferred from direct assay|GO:0016
5175//molecular function| neutral amino acid transporter activity | inferred from mutant phenotype |GO:0015175//molecular function| neutral amino acid tran
cell wall organization and biogenesis | inferred from mutant phenotype|GO:0007047
ucleolus | inferred from direct assay|GO:0005730//cellular component| nucleoplasm | inferred from direct assay |GO:0005654//cellular component| nucleus
38//molecular function| nucleotide-sugar transporter activity | inferred from mutant phenotype |GO:0005338//cellular component| Golgi apparatus | inferred
nt|GO:0003704//cellular component| nucleus | traceable author statement|GO:0005634//biological process| unfolded protein response, target gene transcr
unction| fatty acid elongase activity | inferred from mutant phenotype |GO:0009922//cellular component| membrane | inferred from sequence similarity|GO:
ular component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277//biological process| protein processing | inferred from direct assay|GO:00
olecular function| acetolactate synthase activity | inferred from direct assay |GO:0003984//cellular component| mitochondrion | inferred from sequence simi
y|GO:0016757//molecular function| dolichyl-phosphate beta-D-mannosyltransferase activity | inferred from direct assay |GO:0004582//cellular component|
component| cell | inferred from direct assay|GO:0005623//biological process| methionine metabolism | inferred from mutant phenotype|GO:0006555//biolo
| inferred from direct assay |GO:0005634
ular function| specific RNA polymerase II transcription factor activity | traceable author statement |GO:0003704//molecular function| DNA binding | inferred
cell wall organization and biogenesis | inferred from mutant phenotype|GO:0007047
mechanism | inferred from sequence similarity|GO:0015662//molecular function| ATPase activity, coupled to transmembrane movement of ions, phosphoryl
on| DNA helicase activity | inferred from direct assay |GO:0003678//cellular component| nucleus | inferred from curator|GO:0005634//biological process| te
function| ferrochelatase activity | inferred from mutant phenotype |GO:0004325//cellular component| mitochondrial inner membrane | traceable author stat
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
ular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005843//biological process| protein biosynthesis | tra
ellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//cellular com
ular function| lysophospholipase activity | inferred from mutant phenotype |GO:0004622//molecular function| lysophospholipase activity | inferred from dire
6//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biologica
|GO:0003704//cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| positive regulation of transcription from Pol II prom
lecular function| lysine permease activity | traceable author statement |GO:0005293//molecular function| arginine permease activity | traceable author state
38//cellular component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277//biological process| cell wall organization and biogenesis | inferred
ponent| cytosol | inferred from direct assay|GO:0005829//biological process| threonine catabolism | inferred from direct assay|GO:0006567//biological proce
cellular component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277//cellular component| bud tip | inferred from direct assay |GO:0005934
| inferred from direct assay |GO:0005634
component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277//biological process| cell wall organization and biogenesis | inferred from muta
mponent| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| m
GO:0005083//cellular component| actin cap (sensu Fungi) | inferred from direct assay|GO:0030478//cellular component| bud neck | inferred from direct ass
O:0016538//cellular component| cyclin-dependent protein kinase holoenzyme complex | traceable author statement|GO:0000307//biological process| cell cy
ar function| N-acetyl-gamma-glutamyl-phosphate reductase activity | inferred from direct assay |GO:0003942//cellular component| mitochondrial matrix | inf
ular component| DASH complex | inferred from physical interaction|GO:0042729//cellular component| DASH complex | inferred from direct assay |GO:0042
mponent| clathrin vesicle coat | traceable author statement|GO:0030125//biological process| vesicle-mediated transport | traceable author statement|GO:00
election | inferred from genetic interaction|GO:0000282
0003755//cellular component| membrane | inferred from sequence similarity|GO:0016020
2//cellular component| integral to membrane | inferred from sequence similarity|GO:0016021
//cellular component| plasma membrane | inferred from direct assay|GO:0005886//biological process| response to drug | traceable author statement|GO:0
81//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| methionine metabolism | inferred from mutant phenotype|G
r component| nucleus | inferred from direct assay|GO:0005634//biological process| regulation of meiosis | inferred from genetic interaction|GO:0040020
r component| nucleus | inferred from direct assay|GO:0005634//biological process| regulation of meiosis | inferred from genetic interaction|GO:0040020
ess| sphingolipid catabolism | inferred from direct assay|GO:0030149//biological process| response to salt stress | inferred from mutant phenotype |GO:00
mponent| integral to endoplasmic reticulum membrane | inferred from direct assay|GO:0030176//cellular component| endoplasmic reticulum lumen | inferred
component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process|
ent| bud tip | inferred from direct assay |GO:0005934//cellular component| cytoplasm | inferred from direct assay |GO:0005737//cellular component| vacuol
llular component| ribosome | traceable author statement|GO:0005840//biological process| translational elongation | traceable author statement|GO:000641
ular component| mitochondrion | inferred from direct assay|GO:0005739//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biologic
ular component| vacuole (sensu Fungi) | traceable author statement|GO:0000324//biological process| sporulation | inferred from mutant phenotype|GO:00
ular component| endomembrane system | traceable author statement|GO:0012505//cellular component| lipid particle | inferred from direct assay |GO:0005
04478//molecular function| methionine adenosyltransferase activity | inferred from genetic interaction |GO:0004478//cellular component| cytoplasm | inferr
O:0016944//molecular function| Pol II transcription elongation factor activity | inferred from mutant phenotype |GO:0016944//molecular function| Pol II transc
component| cytoplasm | inferred from direct assay|GO:0005737//biological process| pantothenate biosynthesis | inferred from mutant phenotype|GO:0015
ellular component| cytoplasmic microtubule | traceable author statement|GO:0005881//cellular component| nuclear microtubule | traceable author stateme
ular component| lipid particle | inferred from direct assay|GO:0005811//cellular component| endoplasmic reticulum | traceable author statement |GO:00057
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | trac
|GO:0015664//molecular function| nicotinamide mononucleotide permease activity | inferred from expression pattern |GO:0015664//cellular component| int
ent| vacuole (sensu Fungi) | inferred from direct assay |GO:0000324//biological process| response to chemical substance | inferred from mutant phenotype
n| poly(A) binding | inferred from direct assay |GO:0008143//cellular component| ribosome | inferred from direct assay|GO:0005840//cellular component| cy
rred from direct assay |GO:0005933//cellular component| incipient bud site | inferred from direct assay |GO:0000131
milarity|GO:0003983//molecular function| UTP-glucose-1-phosphate uridylyltransferase activity | inferred from mutant phenotype |GO:0003983//cellular com
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | trac
04458//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| soluble fraction | inferred from direct assay |GO:0005
ellular component| cell wall (sensu Fungi) | traceable author statement|GO:0009277//biological process| cell wall organization and biogenesis | traceable a
om direct assay|GO:0004643//molecular function| IMP cyclohydrolase activity | inferred from direct assay |GO:0003937//cellular component| cytosol | infer
|GO:0003704//molecular function| DNA binding | traceable author statement |GO:0003677//cellular component| nucleus | inferred from direct assay|GO:00
ription export complex | inferred from physical interaction|GO:0000346//biological process| mRNA-nucleus export | inferred from genetic interaction|GO:00
cellular component| cytosol | inferred from direct assay|GO:0005829//biological process| phospholipid transport | inferred from direct assay|GO:0015914//b
omponent| lipid particle | inferred from direct assay|GO:0005811
GO:0004748//molecular function| ribonucleoside-diphosphate reductase activity | inferred from genetic interaction |GO:0004748//molecular function| ribonu
cellular component| plasma membrane | inferred from direct assay|GO:0005886//biological process| cell wall organization and biogenesis | inferred from m
tatement|GO:0046961//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| hydrogen-transporting ATPase V1 do
ction| chromatin binding | inferred from direct assay |GO:0003682//cellular component| nuclear chromatin | inferred from physical interaction|GO:0000790//
mponent| peroxisome | inferred from direct assay|GO:0005777//biological process| glutamate biosynthesis | traceable author statement|GO:0006537//biol
07//cellular component| endoplasmic reticulum | traceable author statement|GO:0005783//biological process| phosphatidylethanolamine biosynthesis | trac
ponent| integral to plasma membrane | inferred from sequence similarity|GO:0005887//biological process| sulfur amino acid transport | inferred from mutan
vacuole (sensu Fungi) | inferred from direct assay |GO:0000324//biological process| response to unfolded protein | inferred from expression pattern|GO:0
molecular function| structural constituent of cell wall | inferred from expression pattern |GO:0005199//cellular component| cell wall (sensu Fungi) | inferred fr
45552//molecular function| oxidoreductase activity | inferred from direct assay |GO:0016491//cellular component| cytoplasm | inferred from direct assay|GO
ss| proteasomal ubiquitin-dependent protein catabolism | inferred from mutant phenotype|GO:0043161//biological process| protein secretion | inferred from
| inferred from direct assay |GO:0005634//biological process| pseudohyphal growth | inferred from genetic interaction|GO:0007124
ular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005843//biological process| protein biosynthesis | tra
y|GO:0016757//molecular function| mannosyltransferase activity | inferred from mutant phenotype |GO:0000030//molecular function| mannosyltransferase
omponent| CCR4-NOT core complex | inferred from physical interaction|GO:0030015//cellular component| cytoplasm | inferred from direct assay |GO:0005
cular function| glycerol transporter activity | inferred from mutant phenotype |GO:0015168//cellular component| membrane | inferred from sequence similar
mponent| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| ce
| inferred from direct assay |GO:0005634//biological process| rRNA processing | inferred from genetic interaction|GO:0006364
onent| COPII vesicle coat | traceable author statement|GO:0030127//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological pr
plasma membrane | inferred from direct assay|GO:0005886//biological process| response to copper ion | inferred from mutant phenotype|GO:0046688//bio
cal process| meiosis | inferred from expression pattern |GO:0007126//biological process| DNA metabolism | inferred from genetic interaction |GO:0006259
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | trac
ent| nuclear membrane | inferred from direct assay |GO:0005635//cellular component| extracellular | inferred from direct assay |GO:0005576//cellular comp
ecular function| RNA binding | inferred from direct assay |GO:0003723//cellular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable a
nent| integral to membrane | inferred from sequence similarity|GO:0016021//cellular component| membrane | traceable author statement |GO:0016020//ce
| inferred from direct assay |GO:0005634//biological process| negative regulation of fatty acid metabolism | inferred from mutant phenotype|GO:0045922
component| cytosol | inferred from direct assay|GO:0005829//biological process| arginine biosynthesis | traceable author statement|GO:0006526
2//cellular component| integral to membrane | inferred from sequence similarity|GO:0016021
NA binding | inferred from direct assay |GO:0003729//cellular component| cytoplasm | inferred from mutant phenotype|GO:0005737//cellular component| nu
2//molecular function| cytosine-purine permease activity | inferred from direct assay |GO:0015392//cellular component| integral to membrane | inferred from
//molecular function| copper uptake transporter activity | inferred from genetic interaction |GO:0015088//molecular function| copper ion transporter activity
798//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biolog
le (sensu Fungi) | inferred from direct assay |GO:0000324
lular component| 6-phosphofructokinase complex | inferred from mutant phenotype|GO:0005945//cellular component| cytoplasm | inferred from direct assa
vacuole fusion, non-autophagic | inferred from mutant phenotype|GO:0042144
ntegral to plasma membrane | traceable author statement|GO:0005887//cellular component| endoplasmic reticulum | inferred from direct assay |GO:00057
ponent| cytosol | inferred from direct assay|GO:0005829//biological process| acetyl-CoA biosynthesis | inferred from direct assay|GO:0006085
ponent| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277//cellular component| endoplasmic reticulum | inferred from direct assay |GO:00057
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | trac
membrane organization and biogenesis | inferred from sequence similarity|GO:0016044
milarity|GO:0016251//molecular function| general RNA polymerase II transcription factor activity | inferred from physical interaction |GO:0016251//molecul
ponent| periplasmic space (sensu Fungi) | non-traceable author statement|GO:0030287//cellular component| cell wall (sensu Fungi) | inferred from direct a
component| nucleus | inferred from curator|GO:0005634//biological process| positive regulation of transcription from Pol II promoter | inferred from direct a
nt|GO:0016251//cellular component| transcription factor TFIIH complex | traceable author statement|GO:0005675//cellular component| nucleotide excision
onent| plasma membrane | inferred from direct assay|GO:0005886//biological process| signal transduction | inferred from mutant phenotype|GO:0007165//
ent| cytoplasm | inferred from direct assay |GO:0005737//cellular component| nuclear membrane | inferred from direct assay |GO:0005635//biological proc
A binding | inferred from direct assay |GO:0003677//cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| sporulation
om sequence similarity|GO:0042626//cellular component| cytoplasm | inferred from direct assay|GO:0005737
m physical interaction|GO:0004579//molecular function| dolichyl-diphosphooligosaccharide-protein glycotransferase activity | inferred from mutant phenotyp
onent| mitochondrion | inferred from direct assay|GO:0005739//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological process
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | trac
291//cellular component| endoplasmic reticulum | traceable author statement|GO:0005783//biological process| ceramide biosynthesis | inferred from mutan
512//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| myo-inositol metabolism | traceable author statement|GO
| inferred from direct assay |GO:0005634
omponent| ubiquitin ligase complex | inferred from direct assay|GO:0000151//biological process| protein monoubiquitination | inferred from direct assay|GO
ecular function| RNA binding | inferred from direct assay |GO:0003723//cellular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable a
ss| siderochrome transport | inferred from direct assay|GO:0015891
TPase activity | inferred from sequence similarity |GO:0003924//cellular component| Golgi apparatus | traceable author statement|GO:0005794//biological
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | trac
m physical interaction|GO:0004579//cellular component| oligosaccharyl transferase complex | inferred from physical interaction|GO:0008250//biological proc
unction| fatty acid elongase activity | inferred from mutant phenotype |GO:0009922//cellular component| endoplasmic reticulum membrane | traceable auth
component| mitochondrial outer membrane translocase complex | inferred from physical interaction|GO:0005742//cellular component| mitochondrion | infe
lar component| ribosome | traceable author statement|GO:0005840//biological process| translational initiation | traceable author statement|GO:0006413
t| extrinsic to plasma membrane | traceable author statement |GO:0019897//cellular component| cytoplasm | traceable author statement |GO:0005737//cel
of DNA replication | inferred from genetic interaction|GO:0006275
O:0016538//cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| mitotic spindle assembly (sensu Fungi) | inferred from
03701//molecular function| ribosomal DNA (rDNA) binding | traceable author statement |GO:0000182//cellular component| RNA polymerase I upstream ac
0176//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological process| secretory pathway | inferred from physical interaction|G
s| mRNA catabolism, deadenylation-dependent | inferred from genetic interaction|GO:0000288
3716//molecular function| RNA polymerase II transcription factor activity | inferred from direct assay |GO:0003702//cellular component| nucleus | traceable
cal process| purine nucleotide biosynthesis | traceable author statement|GO:0006164//biological process| purine base metabolism | traceable author state
O:0016538//cellular component| nucleus | inferred from mutant phenotype|GO:0005634//cellular component| nucleus | inferred from direct assay |GO:00056
0004073//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//
ess| steroid biosynthesis | inferred from mutant phenotype|GO:0006694//biological process| steroid biosynthesis | inferred from genetic interaction |GO:000
om sequence similarity|GO:0042626//cellular component| cytoplasm | inferred from direct assay|GO:0005737
lular component| plasma membrane | inferred from sequence similarity|GO:0005886//biological process| basic amino acid transport | inferred from direct a
onent| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| mitoc
| inferred from direct assay |GO:0005634
| inferred from direct assay |GO:0005634//biological process| DNA repair | inferred from mutant phenotype|GO:0006281
ent| contractile ring (sensu Saccharomyces) | inferred from direct assay|GO:0000142//biological process| response to osmotic stress | inferred from mutant
nt| mitochondrion | inferred from direct assay|GO:0005739//biological process| aromatic compound catabolism | inferred from direct assay|GO:0019439
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| response to drug | inferred from genetic interaction|GO:004249
ular function| lysophospholipase activity | inferred from mutant phenotype |GO:0004622//cellular component| cell wall (sensu Fungi) | inferred from direct a
oplasm | inferred from direct assay|GO:0005737//biological process| actin cytoskeleton organization and biogenesis | traceable author statement|GO:00300
mponent| extrinsic to endoplasmic reticulum membrane | inferred from direct assay|GO:0042406//biological process| protein amino acid palmitoylation | infe
|GO:0004345//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| pentose-phosphate shunt | inferred from seque
| inferred from direct assay|GO:0005730//biological process| nucleocytoplasmic transport | inferred from sequence similarity|GO:0006913
cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| protein amino acid phosphorylation | inferred from direct assay|G
07//cellular component| endoplasmic reticulum | traceable author statement|GO:0005783//biological process| phosphatidylethanolamine biosynthesis | trac
component| endoplasmic reticulum | traceable author statement|GO:0005783//biological process| ergosterol biosynthesis | traceable author statement|GO
merase-dependent telomere maintenance | inferred from mutant phenotype|GO:0007004//biological process| telomerase-dependent telomere maintenanc
ular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005843//biological process| protein biosynthesis | tra
r component| actin cap (sensu Fungi) | inferred from direct assay|GO:0030478//cellular component| 1,3-beta-glucan synthase complex | traceable author s
lular component| mitochondrion | inferred from direct assay|GO:0005739//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biologi
004617//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| serine family amino acid biosynthesis | inferred from m
200//cellular component| condensed nuclear chromosome, pericentric region | inferred from physical interaction|GO:0000780//cellular component| conden
GO:0003702//cellular component| nucleus | inferred from sequence similarity|GO:0005634//cellular component| nucleus | inferred from curator |GO:000563
| iron-sulfur cluster assembly | inferred from sequence similarity|GO:0016226//biological process| iron-sulfur cluster assembly | inferred from mutant pheno
rred from direct assay |GO:0005933//cellular component| cytoplasm | inferred from direct assay |GO:0005737
ular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| transsulfuration | traceable author statement|GO:0019346//biologic
ar component| integral to membrane | inferred from sequence similarity |GO:0016021//cellular component| cell cortex | inferred from direct assay |GO:000
ponent| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277//cellular component| extracellular | inferred from direct assay |GO:0005576//biolog
tatement|GO:0046961//cellular component| hydrogen-transporting ATPase V0 domain | traceable author statement|GO:0000220//biological process| vacu
unction| fatty acid elongase activity | inferred from mutant phenotype |GO:0009922//cellular component| endoplasmic reticulum membrane | traceable auth
llular component| serine C-palmitoyltransferase complex | inferred from mutant phenotype|GO:0017059//cellular component| microsome | inferred from ph
/molecular function| transmembrane receptor activity | inferred from genetic interaction |GO:0004888//cellular component| actin cap (sensu Fungi) | inferre
:0008793//molecular function| aromatic-amino-acid transaminase activity | inferred from direct assay |GO:0008793//cellular component| cytoplasm | inferre
| inferred from direct assay |GO:0005634
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | trac
ent| endosome | traceable author statement|GO:0005768//biological process| transport | inferred from physical interaction|GO:0006810//biological process
03701//molecular function| ribosomal DNA (rDNA) binding | traceable author statement |GO:0000182//cellular component| RNA polymerase I upstream ac
ear nucleosome | traceable author statement|GO:0000788//biological process| chromatin assembly/disassembly | traceable author statement|GO:0006333
nent| plasma membrane | inferred from direct assay|GO:0005886//biological process| uracil transport | inferred from direct assay|GO:0015857
00009//molecular function| alpha-1,6-mannosyltransferase activity | inferred from mutant phenotype |GO:0000009//cellular component| endoplasmic reticul
m direct assay|GO:0004360//biological process| cell wall chitin biosynthesis | inferred from genetic interaction|GO:0006038
s| ER to Golgi transport | inferred from physical interaction|GO:0006888
ar component| hydrogen-transporting ATPase V0 domain | traceable author statement|GO:0000220//biological process| proton transport | traceable author
7150//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biolo
ellular component| integral to plasma membrane | inferred from sequence similarity|GO:0005887//cellular component| integral to plasma membrane | inferr
onent| endosome | traceable author statement|GO:0005768//cellular component| membrane fraction | traceable author statement |GO:0005624//biological
04748//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| DNA replication | traceable author statement|GO:00062
r component| cytosol | traceable author statement|GO:0005829//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological proces
0016423//molecular function| tRNA (guanine) methyltransferase activity | inferred from mutant phenotype |GO:0016423//molecular function| tRNA (guanine
plasm | inferred from direct assay|GO:0005737//cellular component| nuclear chromosome, telomeric region | inferred from direct assay |GO:0000784//biolo
component| endoplasmic reticulum | inferred from direct assay|GO:0005783//biological process| sterol metabolism | inferred from mutant phenotype|GO:0
itment complex | inferred from direct assay|GO:0000243//biological process| nuclear mRNA splicing, via spliceosome | inferred from physical interaction|G
lecular function| protein phosphatase type 1 activity | inferred from direct assay |GO:0000163//cellular component| bud neck | inferred from direct assay|G
0026//molecular function| alpha-1,2-mannosyltransferase activity | inferred from direct assay |GO:0000026//cellular component| Golgi apparatus | inferred f
olecular function| ammonium transporter activity | inferred from mutant phenotype |GO:0008519//cellular component| plasma membrane | traceable autho
cular function| glutamate 5-kinase activity | inferred from mutant phenotype |GO:0004349//molecular function| glutamate 5-kinase activity | inferred from ge
n| RNA binding | inferred from physical interaction |GO:0003723//cellular component| snRNP U1 | traceable author statement|GO:0005685//cellular compo
t| peroxisomal matrix | inferred from direct assay|GO:0005782//biological process| peroxisome organization and biogenesis | inferred from expression patte
onent| mitochondrial inner membrane | inferred from sequence similarity|GO:0005743//biological process| transport | inferred from sequence similarity|GO
function| amino acid transporter activity | inferred from direct assay |GO:0015171//cellular component| plasma membrane | inferred from sequence similar
GO:0008113//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:000563
90//cellular component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277
nt|GO:0016251//cellular component| SWI/SNF complex | traceable author statement|GO:0016514//cellular component| nucleosome remodeling complex |
GO:0004638//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| purine nucleotide biosynthesis | traceable author
lar component| mitochondrial inner membrane | inferred from sequence similarity|GO:0005743//biological process| anaerobic respiration | inferred from ge
plasmic microtubule | traceable author statement|GO:0005881//cellular component| cytoplasmic microtubule | inferred from direct assay |GO:0005881//cel
ent| incipient bud site | inferred from direct assay |GO:0000131
mponent| cytoplasm | inferred from direct assay|GO:0005737//biological process| GTP biosynthesis | traceable author statement|GO:0006183
4//cellular component| soluble fraction | inferred from direct assay|GO:0005625//cellular component| phosphopyruvate hydratase complex | inferred from d
ecular function| RNA binding | inferred from direct assay |GO:0003723//cellular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable a
ed from mutant phenotype |GO:0051082//cellular component| integral to endoplasmic reticulum membrane | inferred from sequence similarity|GO:0030176
n| iron ion transporter activity | inferred from mutant phenotype |GO:0005381//cellular component| mitochondrion | inferred from direct assay|GO:0005739//
| inferred from direct assay |GO:0005634
//cellular component| DNA-directed RNA polymerase I complex | traceable author statement|GO:0005736//cellular component| DNA-directed RNA polyme
olecular function| phosphate transporter activity | inferred from mutant phenotype |GO:0015114//molecular function| phosphate transporter activity | inferre
0003755//molecular function| peptidyl-prolyl cis-trans isomerase activity | inferred from direct assay |GO:0003755//molecular function| transcriptional elong
ecular function| RNA binding | inferred from direct assay |GO:0003723//cellular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable a
| inferred from direct assay |GO:0005634//biological process| aerobic respiration | inferred from mutant phenotype|GO:0009060//biological process| aerob
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | trac
ent| bud tip | inferred from direct assay |GO:0005934//cellular component| cytoplasm | inferred from direct assay |GO:0005737//cellular component| vacuol
98//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biologic
nt|GO:0016251//cellular component| transcription factor complex | traceable author statement|GO:0005667//biological process| negative regulation of trans
:0000006//molecular function| high affinity zinc uptake transporter activity | inferred from mutant phenotype |GO:0000006//cellular component| integral to p
nce similarity|GO:0008757//cellular component| cytoplasm | inferred from direct assay|GO:0005737
mponent| mitochondrial inner membrane presequence translocase complex | traceable author statement|GO:0005744//biological process| mitochondrial ma
single-stranded DNA binding | inferred from direct assay |GO:0003697//cellular component| nucleolus | traceable author statement|GO:0005730//cellular c
ular component| mitochondrial matrix | inferred from direct assay|GO:0005759//biological process| heme biosynthesis | inferred from mutant phenotype|GO
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| translational elongation |
llular component| mitochondrion | traceable author statement|GO:0005739//biological process| branched chain family amino acid biosynthesis | traceable a
unction| DNA binding | inferred from physical interaction |GO:0003677//cellular component| nucleus | inferred from direct assay|GO:0005634//cellular comp
s| ER to Golgi transport | inferred from physical interaction|GO:0006888
omponent| nuclear telomere cap complex | inferred from direct assay|GO:0000783//biological process| telomere capping | traceable author statement|GO:
lular component| mitochondrion | inferred from direct assay|GO:0005739//biological process| mitochondrial genome maintenance | inferred from mutant ph
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| ribosome biogenesis and
ular component| DASH complex | inferred from physical interaction|GO:0042729//cellular component| DASH complex | inferred from direct assay |GO:0042
7//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biologica
281//cellular component| integral to plasma membrane | inferred from direct assay|GO:0005887//biological process| amino acid transport | inferred from mu
GO:0004366//molecular function| glycerol-3-phosphate O-acyltransferase activity | inferred from genetic interaction |GO:0004366//molecular function| glyc
TP-dependent helicase activity | traceable author statement |GO:0008026//molecular function| nucleic acid binding | traceable author statement |GO:00036
lular component| plasma membrane | inferred from direct assay|GO:0005886//biological process| ammonium transport | inferred from mutant phenotype|G
nt phenotype|GO:0046961//molecular function| hydrogen-transporting ATPase activity, rotational mechanism | inferred from direct assay |GO:0046961//ce
04663//cellular component| Rab-protein geranylgeranyltransferase complex | inferred from direct assay|GO:0005968//biological process| protein amino ac
O:0016538//cellular component| cyclin-dependent protein kinase holoenzyme complex | traceable author statement|GO:0000307//biological process| regula
ction| chromatin binding | inferred from direct assay |GO:0003682//cellular component| nuclear chromatin | inferred from physical interaction|GO:0000790//
lar component| cytoplasm | inferred from direct assay|GO:0005737//biological process| adenosine biosynthesis | traceable author statement|GO:0046086/
O:0005843//cellular component| cytoplasmic mRNA processing body | inferred from mutant phenotype |GO:0000932//cellular component| cytoplasmic mRN
roxisomal membrane | traceable author statement|GO:0005778//biological process| peroxisome organization and biogenesis | traceable author statement|
0003862//molecular function| 3-isopropylmalate dehydrogenase activity | inferred from mutant phenotype |GO:0003862//cellular component| cytosol | trace
us | inferred from physical interaction|GO:0005634//biological process| transcription termination from Pol II promoter, poly(A)-independent | inferred from ph
metabolism | inferred from genetic interaction |GO:0006259
GO:0004748//molecular function| ribonucleoside-diphosphate reductase activity | inferred from expression pattern |GO:0004748//cellular component| cytop
O:0016651//cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//cellular component| cytoplasm | inferred from direct assa
O:0016455//cellular component| transcription factor complex | traceable author statement|GO:0005667//biological process| negative regulation of transcript
//molecular function| DNA binding | inferred from direct assay |GO:0003677//cellular component| nucleus | inferred from curator|GO:0005634//biological pr
//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| selenocysteine metabolism | non-traceable author statement
450//cellular component| mitochondrion | traceable author statement|GO:0005739//biological process| glutamate biosynthesis | traceable author statemen
016565//molecular function| general transcriptional repressor activity | inferred from mutant phenotype |GO:0016565//molecular function| general transcript
200//cellular component| spindle pole body | inferred from direct assay|GO:0005816//biological process| microtubule nucleation | inferred from physical inte
quence similarity|GO:0004088//molecular function| carbamoyl-phosphate synthase (glutamine-hydrolyzing) activity | inferred from mutant phenotype |GO:0
olecular function| L-histidine transporter activity | inferred from mutant phenotype |GO:0005290//cellular component| plasma membrane | inferred from seq
vacuole fusion, non-autophagic | inferred from mutant phenotype|GO:0042144
n cortical patch (sensu Fungi) | inferred from direct assay|GO:0030479//cellular component| cytoplasm | inferred from direct assay |GO:0005737//cellular c
olecular function| coproporphyrinogen oxidase activity | inferred from sequence similarity |GO:0004109//cellular component| mitochondrial inner membran
cellular component| cell wall (sensu Fungi) | traceable author statement|GO:0009277//biological process| cell wall organization and biogenesis | inferred fr
process| conjugation with cellular fusion | inferred from expression pattern|GO:0000747
ophagy | inferred from genetic interaction |GO:0006914//biological process| protein-vacuolar targeting | inferred from mutant phenotype |GO:0006623//biol
llular component| ribosome | traceable author statement|GO:0005840//biological process| translational elongation | traceable author statement|GO:000641
cellular component| soluble fraction | inferred from direct assay|GO:0005625//cellular component| membrane fraction | inferred from direct assay |GO:0005
/cellular component| mitochondrial membrane | inferred from direct assay|GO:0005740//cellular component| mitochondrion | inferred from direct assay |GO
ellular component| cytoplasm | inferred from mutant phenotype|GO:0005737//cellular component| cytoplasm | inferred from direct assay |GO:0005737//cel
ne organization and biogenesis | inferred from genetic interaction|GO:0016044
component| endoplasmic reticulum | traceable author statement|GO:0005783//biological process| ergosterol biosynthesis | traceable author statement|GO:
38//cellular component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277//cellular component| extracellular | inferred from sequence similar
e to oxidative stress | inferred from direct assay|GO:0006979
tatement|GO:0046961//cellular component| hydrogen-transporting ATPase V0 domain | traceable author statement|GO:0000220//biological process| vacu
ellular component| endoplasmic reticulum membrane | traceable author statement|GO:0005789//cellular component| nuclear membrane | traceable autho
O:0016538//cellular component| cytoplasm | inferred from sequence similarity|GO:0005737//cellular component| cytoplasm | inferred from mutant phenotyp
ent|GO:0004641//molecular function| phosphoribosylamine-glycine ligase activity | traceable author statement |GO:0004637//cellular component| cytoplasm
| inferred from direct assay |GO:0005634
r function| oxidoreductase activity | inferred from mutant phenotype |GO:0016491//cellular component| endoplasmic reticulum | inferred from sequence sim
ular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005843//biological process| protein biosynthesis | tra
6//molecular function| glutamate-ammonia ligase activity | inferred from mutant phenotype |GO:0004356//cellular component| cytoplasm | inferred from dire
molecular function| oxidoreductase activity | inferred from direct assay |GO:0016491//cellular component| cytoplasm | inferred from direct assay|GO:00057
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
000334//molecular function| 3-hydroxyanthranilate 3,4-dioxygenase activity | inferred from direct assay |GO:0000334//cellular component| cytoplasm | infe
component| integral to membrane | inferred from direct assay|GO:0016021//cellular component| cytoplasm | inferred from direct assay |GO:0005737//cellu
asm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| tRNA modification
NA binding | inferred from direct assay |GO:0003729//cellular component| cytoplasm | inferred from mutant phenotype|GO:0005737//cellular component| nu
nction| glucosidase activity | inferred from mutant phenotype |GO:0015926//cellular component| integral to membrane | inferred from direct assay|GO:0016
:0042175//cellular component| endoplasmic reticulum | inferred from direct assay |GO:0005783//cellular component| vacuolar membrane (sensu Fungi) | in
olecular function| ubiquitin-protein ligase activity | inferred from genetic interaction |GO:0004842//cellular component| endoplasmic reticulum membrane |
mechanism | inferred from direct assay|GO:0015662//cellular component| endoplasmic reticulum membrane | inferred from direct assay|GO:0005789//biolo
ar component| intracellular | traceable author statement|GO:0005622//biological process| response to cadmium ion | inferred from direct assay|GO:004668
lar component| mitochondrion | inferred from direct assay|GO:0005739//biological process| branched chain family amino acid biosynthesis | traceable auth
0016455//cellular component| mediator complex | inferred from direct assay|GO:0000119//biological process| transcription from Pol II promoter | inferred fr
ss| cell wall organization and biogenesis | inferred from mutant phenotype|GO:0007047//biological process| cell wall organization and biogenesis | inferred
ellular component| bud neck | inferred from direct assay|GO:0005935//cellular component| spindle pole body | inferred from direct assay |GO:0005816//cel
t| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| positive r
al process| cytochrome c oxidase biogenesis | inferred from mutant phenotype|GO:0008535//biological process| heme a biosynthesis | inferred from mutan
/cellular component| intracellular | inferred from curator|GO:0005622//biological process| nitrogen utilization | traceable author statement|GO:0019740
ular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005843//biological process| protein biosynthesis | tra
component| endoplasmic reticulum | inferred from direct assay|GO:0005783//biological process| sterol metabolism | inferred from mutant phenotype|GO:0
ear nucleosome | traceable author statement|GO:0000788//biological process| chromatin assembly/disassembly | traceable author statement|GO:0006333
ellular component| mitochondrial inner membrane | inferred from sequence similarity|GO:0005743//biological process| iron ion homeostasis | inferred from
99//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biologi
component| DNA-directed RNA polymerase II, holoenzyme | inferred from direct assay|GO:0016591//cellular component| cytoplasm | inferred from direct a
ent| cytoplasm | inferred from direct assay |GO:0005737//cellular component| nuclear membrane | inferred from direct assay |GO:0005635//biological proc
//cellular component| DNA-directed RNA polymerase I complex | traceable author statement|GO:0005736//biological process| transcription from Pol I prom
O:0004851//molecular function| uroporphyrin-III C-methyltransferase activity | inferred from direct assay |GO:0004851//biological process| siroheme biosyn
ar component| nucleus | inferred from sequence similarity|GO:0005634//biological process| regulation of transcription, DNA-dependent | inferred from sequ
lular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological pro
0005085//cellular component| bud | traceable author statement|GO:0005933//biological process| regulation of exit from mitosis | traceable author statemen
nent| membrane | traceable author statement|GO:0016020//cellular component| membrane | inferred from sequence similarity |GO:0016020//cellular comp
56//biological process| aldehyde metabolism | inferred from sequence similarity|GO:0006081
ular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005843//biological process| protein biosynthesis | tra
| inferred from direct assay |GO:0005634//biological process| actin cytoskeleton organization and biogenesis | inferred from physical interaction|GO:00300
ss| response to dessication | inferred from sequence similarity|GO:0009269//biological process| response to dessication | inferred from expression pattern
ction| chromatin binding | inferred from genetic interaction |GO:0003682//molecular function| chromatin binding | inferred from direct assay |GO:0003682//c
42124//cellular component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277
ular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005843//biological process| protein biosynthesis | tra
onent| COPI vesicle coat | inferred from genetic interaction |GO:0030126//biological process| retrograde transport, Golgi to ER | inferred from mutant phen
onent| DNA replication factor C complex | inferred from mutant phenotype|GO:0005663//cellular component| DNA replication factor C complex | inferred fr
ogical process| hemolysis | inferred from sequence similarity|GO:0019836//biological process| mitochondrion organization and biogenesis | inferred from m
ular function| transcription factor activity | inferred from physical interaction |GO:0003700//molecular function| transcription factor activity | inferred from ge
om sequence similarity|GO:0042626//cellular component| cytoplasm | inferred from direct assay|GO:0005737
lecular function| alkaline phosphatase activity | inferred from direct assay |GO:0004035//cellular component| vacuolar membrane (sensu Fungi) | inferred f
mponent| cytoplasm | inferred from direct assay|GO:0005737
0003849//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//b
nt| bud neck | inferred from direct assay|GO:0005935//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| regulation
/cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| homoserine metabolism | traceable author statement|GO:000
mponent| cytoplasm | inferred from direct assay|GO:0005737//biological process| GTP biosynthesis | traceable author statement|GO:0006183
terol metabolism | inferred from mutant phenotype|GO:0016125
/molecular function| transmembrane receptor activity | inferred from genetic interaction |GO:0004888//cellular component| cytoplasm | inferred from direct
unction| DNA binding | traceable author statement |GO:0003677//cellular component| cytosol | inferred from direct assay|GO:0005829//cellular component
mponent| extracellular | inferred from direct assay |GO:0005576//biological process| beta-1,6 glucan biosynthesis | inferred from mutant phenotype|GO:00
n| protein binding, bridging | inferred from direct assay |GO:0030674//molecular function| S-adenosylmethionine-dependent methyltransferase activity | infe
/cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//cellular co
721//cellular component| plasma membrane | inferred from direct assay|GO:0005886//biological process| response to stress | inferred from genetic interac
cular function| peptide transporter activity | inferred from mutant phenotype |GO:0015197//cellular component| plasma membrane | inferred from sequence
| inferred from direct assay |GO:0005634
on| ribonuclease MRP activity | inferred from direct assay |GO:0000171//cellular component| nucleolar ribonuclease P complex | inferred from direct assay|
sequence similarity|GO:0004169//molecular function| dolichyl-phosphate-mannose-protein mannosyltransferase activity | inferred from mutant phenotype |
mponent| mitochondrion | inferred from direct assay|GO:0005739
t| actin cable (sensu Fungi) | inferred from direct assay|GO:0030482//cellular component| contractile ring (sensu Saccharomyces) | inferred from direct as
ess| protein-membrane targeting | inferred from mutant phenotype|GO:0006612//biological process| protein-membrane targeting | inferred from genetic int
O:0016538//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634
ecular function| RNA binding | inferred from direct assay |GO:0003723//cellular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable a
om sequence similarity|GO:0042626//molecular function| ATPase activity, coupled to transmembrane movement of substances | inferred from mutant phe
72//cellular component| cytoplasm | traceable author statement|GO:0005737//biological process| one-carbon compound metabolism | traceable author stat
r function| oxidoreductase activity | inferred from mutant phenotype |GO:0016491//cellular component| endoplasmic reticulum membrane | inferred from se
l process| response to stress | inferred from direct assay|GO:0006950
response to dessication | inferred from sequence similarity|GO:0009269//biological process| response to dessication | inferred from expression pattern |GO
46//cellular component| cytosolic ribosome (sensu Eukarya) | inferred from sequence similarity|GO:0005830//cellular component| cytosolic ribosome (sens
ction| acetolactate synthase activity | inferred from direct assay |GO:0003984//cellular component| mitochondrion | inferred from direct assay|GO:0005739/
ferase activity | traceable author statement|GO:0003975//cellular component| endoplasmic reticulum | inferred from curator|GO:0005783//biological proces
lular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological pro
ss| galactose metabolism | traceable author statement|GO:0006012
ular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005843//biological process| protein biosynthesis | tra
200//cellular component| outer plaque of spindle pole body | inferred from direct assay|GO:0005824//cellular component| inner plaque of spindle pole body
mponent| nucleus | traceable author statement|GO:0005634//biological process| regulation of cell size | inferred from direct assay|GO:0008361
y|GO:0015082//molecular function| zinc ion transporter activity | inferred from mutant phenotype |GO:0005385//cellular component| vacuole (sensu Fungi)
ellular component| mitochondrion | traceable author statement|GO:0005739//biological process| branched chain family amino acid biosynthesis | traceable
//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| sterol metabolism | inferred from mutant phenotype|GO:0016
nt|GO:0003704//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | traceable author statement |GO:00
pe|GO:0004475//molecular function| mannose-1-phosphate guanylyltransferase activity | inferred from direct assay |GO:0004475//cellular component| cyto
ular function| phosphopantothenoylcysteine decarboxylase activity | inferred from sequence similarity |GO:0004633//cellular component| cytoplasm | inferre
cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//biological process| ergosterol biosynthesis | traceable author stateme
n| protein binding, bridging | inferred from direct assay |GO:0030674//molecular function| S-adenosylmethionine-dependent methyltransferase activity | infe
056//molecular function| structural constituent of nuclear pore | inferred from mutant phenotype |GO:0017056//cellular component| nuclear pore | traceable
ellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| extracellular | inferred from direct assay |GO:0005576//biologic
ent| cytosol | traceable author statement|GO:0005829//cellular component| peroxisomal matrix | traceable author statement |GO:0005782//cellular compon
:0042175//cellular component| integral to membrane | inferred from sequence similarity |GO:0016021//cellular component| integral to membrane | inferred
ular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005843//cellular component| cytoplasm | inferred from
otype|GO:0004367//cellular component| cytosol | traceable author statement|GO:0005829//biological process| glycerol metabolism | inferred from mutant p
4//cellular component| soluble fraction | inferred from direct assay|GO:0005625//cellular component| phosphopyruvate hydratase complex | inferred from d
n| microtubule binding | inferred from direct assay |GO:0008017//cellular component| nuclear microtubule | traceable author statement|GO:0005880//cellula
sm | traceable author statement|GO:0008152
olecular function| thioredoxin peroxidase activity | inferred from mutant phenotype |GO:0008379//molecular function| thioredoxin peroxidase activity | inferr
ar membrane | inferred from direct assay |GO:0005635//biological process| protein-nucleus import | inferred from direct assay|GO:0006606
ay|GO:0004604//cellular component| intracellular | traceable author statement|GO:0005622//biological process| methionine metabolism | inferred from mut
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | trac
8466//molecular function| glycogenin glucosyltransferase activity | inferred from genetic interaction |GO:0008466//cellular component| cytoplasm | inferred
nt| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nuclear pore | inferred from direct assay |GO:0005643//biological process| prot
r component| nucleus | traceable author statement|GO:0005634//biological process| regulation of global transcription from Pol II promoter | traceable auth
rom direct assay|GO:0016765//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| hypusine biosynthesis from pe
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | trac
| inferred from direct assay |GO:0005634//biological process| ribosomal large subunit biogenesis | inferred from mutant phenotype|GO:0042273//biologica
s| ER to Golgi transport | inferred from physical interaction|GO:0006888
ER retention | inferred from mutant phenotype|GO:0006621
tein binding | inferred from direct assay |GO:0005515//cellular component| nucleosome remodeling complex | inferred from physical interaction|GO:00056
rred from direct assay |GO:0005933//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological process| endocytosis | inferred fr
asm | inferred from direct assay|GO:0005737//biological process| cell wall organization and biogenesis | inferred from genetic interaction|GO:0007047
ular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| metabolism | traceable author statement|GO:0008152
| oxaloacetate carrier activity | inferred from direct assay |GO:0000227//cellular component| mitochondrial inner membrane | inferred from direct assay|GO
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//cellular component| cytoplasm | inferred from
ular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005843//biological process| protein biosynthesis | tra
/molecular function| sphingosine hydroxylase activity | inferred from mutant phenotype |GO:0000170//cellular component| endoplasmic reticulum | traceabl
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | trac
ctin cap (sensu Fungi) | inferred from direct assay|GO:0030478//cellular component| transport vesicle | traceable author statement |GO:0030133//biologica
| inferred from direct assay |GO:0005634
mponent| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634
O:0016274//molecular function| protein-arginine N-methyltransferase activity | inferred from physical interaction |GO:0016274//molecular function| protein-
hor statement|GO:0004169//cellular component| endoplasmic reticulum | traceable author statement|GO:0005783//biological process| O-linked glycosylatio
04722//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//bio
olecular function| amino acid transporter activity | inferred from mutant phenotype |GO:0015171//cellular component| vacuole | inferred from mutant pheno
unction| SUMO ligase activity | inferred from mutant phenotype |GO:0019789//molecular function| SUMO ligase activity | inferred from direct assay |GO:00
unction| transketolase activity | inferred from mutant phenotype |GO:0004802//cellular component| cytoplasm | inferred from sequence similarity|GO:00057
ular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005843//biological process| protein biosynthesis | tra
388//molecular function| phospholipid-translocating ATPase activity | inferred from sequence similarity |GO:0004012//cellular component| COPI-coated ves
ar component| eukaryotic translation initiation factor 3 complex | inferred from physical interaction|GO:0005852//cellular component| eukaryotic translation
ical patch assembly | traceable author statement|GO:0000147
ity|GO:0016538//molecular function| cyclin-dependent protein kinase regulator activity | inferred from physical interaction |GO:0016538//molecular function
lar function| ubiquitin conjugating enzyme activity | traceable author statement |GO:0004840//cellular component| cytoplasm | inferred from direct assay|GO
r component| mitochondrion | inferred from direct assay|GO:0005739//biological process| electron transport | inferred from mutant phenotype|GO:0006118
y|GO:0015082//molecular function| di-, tri-valent inorganic cation transporter activity | inferred from mutant phenotype |GO:0015082//cellular component| p
function| bilirubin transporter activity | inferred from mutant phenotype |GO:0015127//molecular function| bilirubin transporter activity | inferred from genetic
oskeleton organization and biogenesis | inferred from genetic interaction|GO:0030036
| inferred from direct assay |GO:0005634//biological process| regulation of amino acid metabolism | inferred from physical interaction|GO:0006521//biolog
llular component| cytoplasm | inferred from sequence similarity|GO:0005737//biological process| protein biosynthesis | inferred from sequence similarity|G
nt| half bridge of spindle pole body | traceable author statement |GO:0005825//cellular component| spindle pole body | traceable author statement |GO:000
m physical interaction|GO:0004579//cellular component| oligosaccharyl transferase complex | inferred from physical interaction|GO:0008250//cellular compo
ular function| methyltransferase activity | inferred from physical interaction |GO:0008168//molecular function| methyltransferase activity | inferred from muta
ction| protein binding | inferred from physical interaction |GO:0005515//molecular function| endonuclease activity | inferred from direct assay |GO:0004519/
ar component| nucleus | inferred from curator|GO:0005634//biological process| meiotic recombination | inferred from mutant phenotype|GO:0007131//biolo
olecular function| RNA binding | inferred from direct assay |GO:0003723//cellular component| cytosol | inferred from direct assay|GO:0005829//biological p
onent| cytosol | traceable author statement|GO:0005829//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological process| carb
ponent| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277//cellular component| extracellular | inferred from direct assay |GO:0005576//biolog
001406//cellular component| plasma membrane | inferred from sequence similarity|GO:0005886//cellular component| plasma membrane | inferred from m
//cellular component| plasma membrane | traceable author statement|GO:0005886//biological process| response to drug | traceable author statement|GO:
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | trac
enotype|GO:0008686//cellular component| cytosol | inferred from direct assay|GO:0005829//cellular component| mitochondrial intermembrane space | infe
ponent| protein kinase CK2 complex | inferred from direct assay|GO:0005956//biological process| response to DNA damage stimulus | inferred from direct
A helicase activity | inferred from sequence similarity |GO:0003678//cellular component| nucleus | inferred from direct assay|GO:0005634//biological proces
ponent| cytoplasmic microtubule | inferred from direct assay|GO:0005881//cellular component| kinesin complex | traceable author statement |GO:0005871
|GO:0003704//cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| positive regulation of transcription from Pol II prom
90//molecular function| aspartic-type endopeptidase activity | inferred from direct assay |GO:0004190//cellular component| plasma membrane | inferred fro
process| regulation of transcription from Pol II promoter | inferred from physical interaction|GO:0006357
3701//molecular function| single-stranded DNA binding | inferred from direct assay |GO:0003697//cellular component| cytoplasm | inferred from direct assa
r function| signal transducer activity | inferred from physical interaction |GO:0004871//cellular component| intracellular | traceable author statement|GO:000
ar component| COPII vesicle coat | traceable author statement|GO:0030127//biological process| ER to Golgi transport | traceable author statement|GO:00
molecular function| signal transducer activity | inferred from physical interaction |GO:0004871//cellular component| cytosol | inferred from direct assay|GO:0
olecular function| phosphoglucomutase activity | inferred from mutant phenotype |GO:0004614//cellular component| cytosol | traceable author statement|GO
GO:0003702//molecular function| RNA polymerase II transcription factor activity | inferred from physical interaction |GO:0003702//molecular function| RNA
ar component| bud neck | inferred from direct assay |GO:0005935//cellular component| bud tip | inferred from direct assay |GO:0005934//biological proces
| inferred from direct assay |GO:0005634
onent| endoplasmic reticulum | non-traceable author statement|GO:0005783//biological process| transport | inferred from sequence similarity|GO:0006810
:0003711//cellular component| transcription elongation factor complex | inferred from sequence similarity|GO:0008023//biological process| RNA elongation
//biological process| pyrimidine salvage | inferred from direct assay|GO:0008655
r function| casein kinase I activity | inferred from mutant phenotype |GO:0004681//cellular component| bud neck | inferred from direct assay|GO:0005935//c
onent| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//cellular component| nuc
omponent| bud neck | inferred from direct assay|GO:0005935//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological process
ction| chromatin binding | inferred from direct assay |GO:0003682//cellular component| nuclear chromatin | inferred from physical interaction|GO:0000790//
otype|GO:0004739//cellular component| pyruvate dehydrogenase complex (sensu Eukarya) | traceable author statement|GO:0005967//cellular component|
2//biological process| axial budding | traceable author statement|GO:0007120//biological process| cytokinesis | traceable author statement |GO:0000910//b
cular function| triacylglycerol lipase activity | inferred from direct assay |GO:0004806//cellular component| lipid particle | inferred from direct assay|GO:0005
process| vesicle-mediated transport | inferred from mutant phenotype|GO:0016192//biological process| vesicle-mediated transport | inferred from genetic i
gi to vacuole transport | inferred from physical interaction|GO:0006896//biological process| Golgi to vacuole transport | inferred from mutant phenotype |GO
ilamentous growth | inferred from direct assay|GO:0030447//biological process| cell-cell adhesion | traceable author statement |GO:0016337//biological pr
ent| periplasmic space (sensu Fungi) | traceable author statement|GO:0030287//biological process| cellular response to nitrogen starvation | traceable auth
72//cellular component| mitochondrion | traceable author statement|GO:0005739//biological process| one-carbon compound metabolism | traceable author
| cytoplasm | inferred from direct assay|GO:0005737//biological process| regulation of cell size | inferred from genetic interaction|GO:0008361
ar component| Ada2/Gcn5/Ada3 transcription activator complex | inferred from physical interaction|GO:0005671//cellular component| SAGA complex | infe
ular component| membrane | traceable author statement|GO:0016020//cellular component| Golgi cis-face | traceable author statement |GO:0005801//cellu
:0030364//molecular function| RNA binding | inferred from direct assay |GO:0003723//cellular component| mRNA cleavage factor complex | inferred from p
uolar targeting | inferred from mutant phenotype|GO:0006623
cortical patch (sensu Fungi) | inferred from direct assay|GO:0030479//biological process| polar budding | inferred from mutant phenotype|GO:0007121//bio
lar component| ribosome | traceable author statement|GO:0005840//biological process| translational initiation | traceable author statement|GO:0006413
molecular function| oligopeptide transporter activity | inferred from direct assay |GO:0015198//cellular component| integral to plasma membrane | inferred f
component| Sin3 complex | inferred from physical interaction|GO:0016580//cellular component| cytoplasm | inferred from direct assay |GO:0005737//cellula
4751//molecular function| ribose-5-phosphate isomerase activity | inferred from mutant phenotype |GO:0004751//cellular component| cytoplasm | inferred
n, DNA-dependent | inferred from genetic interaction|GO:0006351
n| ubiquitin-protein ligase activity | traceable author statement |GO:0004842//cellular component| nucleus | inferred from direct assay|GO:0005634//cellula
molecular function| myo-inositol transporter activity | inferred from mutant phenotype |GO:0005365//cellular component| membrane | inferred from sequenc
gral to membrane | inferred from direct assay|GO:0016021//cellular component| Golgi apparatus | inferred from direct assay |GO:0005794//cellular compon
ent| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nuclear pore | inferred from direct assay |GO:0005643//cellular component| n
200//cellular component| central plaque of spindle pole body | inferred from direct assay|GO:0005823//cellular component| inner plaque of spindle pole bod
ecular function| cytoskeletal protein binding | inferred from physical interaction |GO:0008092//cellular component| actin cortical patch (sensu Fungi) | inferre
0004437//cellular component| integral to endoplasmic reticulum membrane | inferred from direct assay|GO:0030176//cellular component| integral to Golgi m
ellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| pyrimidine base biosynthesis | traceable author statement|GO:
plasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| deadenylation-d
t phenotype|GO:0004488//molecular function| methenyltetrahydrofolate cyclohydrolase activity | inferred from mutant phenotype |GO:0004477//molecular
|GO:0015319//molecular function| sodium:inorganic phosphate symporter activity | inferred from mutant phenotype |GO:0015319//cellular component| plas
//cellular component| soluble fraction | inferred from direct assay|GO:0005625//biological process| aldehyde metabolism | inferred from direct assay|GO:00
oldin complex | inferred from sequence similarity|GO:0016272//cellular component| prefoldin complex | inferred from physical interaction |GO:0016272//cel
ular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005843//biological process| protein biosynthesis | tra
cellular component| cytosol | inferred from direct assay|GO:0005829//cellular component| microsome | inferred from direct assay |GO:0005792//cellular co
yadenylation | inferred from mutant phenotype|GO:0006378//biological process| mRNA polyadenylation | inferred from genetic interaction |GO:0006378
component| endoplasmic reticulum | traceable author statement|GO:0005783//cellular component| endoplasmic reticulum | inferred from direct assay |GO
ent| cytoplasm | inferred from direct assay |GO:0005737
7//cellular component| integral to endoplasmic reticulum membrane | inferred from direct assay|GO:0030176//biological process| protein processing | inferr
ent| septin ring (sensu Saccharomyces) | inferred from direct assay |GO:0000144//biological process| cell wall organization and biogenesis | traceable auth
ellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological p
ular function| transporter activity | inferred from sequence similarity |GO:0005215//cellular component| membrane | inferred from sequence similarity|GO:00
/molecular function| ferrochelatase activity | inferred from direct assay |GO:0004325//biological process| siroheme biosynthesis | inferred from mutant phen
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
5519//cellular component| shmoo tip | inferred from direct assay|GO:0005937//cellular component| bud neck | inferred from direct assay |GO:0005935//cel
14//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biologi
nt| half bridge of spindle pole body | traceable author statement |GO:0005825//cellular component| spindle pole body | traceable author statement |GO:000
molecular function| myo-inositol transporter activity | inferred from mutant phenotype |GO:0005365//cellular component| membrane | inferred from sequenc
ecular function| mannosyltransferase activity | inferred from mutant phenotype |GO:0000030//cellular component| endoplasmic reticulum | inferred from se
ess| protein catabolism | inferred from sequence similarity|GO:0030163
thor statement|GO:0004579//molecular function| dolichyl-diphosphooligosaccharide-protein glycotransferase activity | inferred from physical interaction |G
onent| membrane | inferred from sequence similarity|GO:0016020//biological process| transport | inferred from sequence similarity|GO:0006810
onent| COPI vesicle coat | inferred from mutant phenotype |GO:0030126//biological process| retrograde transport, Golgi to ER | inferred from mutant phen
m direct assay|GO:0004579//cellular component| oligosaccharyl transferase complex | inferred from physical interaction|GO:0008250//cellular component| e
c interaction|GO:0006325
transporter activity | inferred from sequence similarity |GO:0005215//cellular component| mitochondrial inner membrane | inferred from sequence similarity
uence similarity|GO:0016619//molecular function| malate dehydrogenase (oxaloacetate-decarboxylating) activity | inferred from direct assay |GO:0016619/
ansport | inferred from genetic interaction|GO:0006812
process| polyamine transport | inferred from mutant phenotype|GO:0015846//biological process| polyamine transport | inferred from genetic interaction |GO
t| COPI vesicle coat | inferred from sequence similarity|GO:0030126//cellular component| COPI vesicle coat | inferred from mutant phenotype |GO:003012
7//cellular component| endoplasmic reticulum membrane | inferred from direct assay|GO:0005789//biological process| oligosaccharide transport | inferred f
3//molecular function| pre-mRNA cleavage factor activity | inferred from physical interaction |GO:0030363//molecular function| pre-mRNA cleavage factor a
ponent| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277//biological process| conjugation with cellular fusion | inferred from genetic interacti
200//molecular function| structural constituent of cytoskeleton | inferred from genetic interaction |GO:0005200//cellular component| outer plaque of spindle
gral to membrane | inferred from direct assay|GO:0016021//cellular component| endoplasmic reticulum | inferred from direct assay |GO:0005783//biologica
membrane | inferred from direct assay |GO:0005635//biological process| rRNA processing | inferred from mutant phenotype|GO:0006364
lar function| GTPase activity | inferred from sequence similarity |GO:0003924//cellular component| intracellular | traceable author statement|GO:0005622//
t| actin cable (sensu Fungi) | inferred from direct assay|GO:0030482//cellular component| contractile ring (sensu Saccharomyces) | inferred from direct as
tatement|GO:0046961//cellular component| Golgi apparatus | inferred from direct assay|GO:0005794//cellular component| endosome | inferred from direct
9//biological process| cotranslational membrane targeting | inferred from physical interaction|GO:0006613
molecular function| endoribonuclease activity | traceable author statement |GO:0004521//cellular component| endoplasmic reticulum membrane | traceable
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
nt| COPI-coated vesicle | inferred from mutant phenotype |GO:0030137//cellular component| COPI-coated vesicle | inferred from direct assay |GO:003013
| lipase activity | inferred from mutant phenotype |GO:0016298//cellular component| integral to membrane | inferred from sequence similarity|GO:0016021/
//cellular component| nucleus | inferred from curator|GO:0005634//biological process| sporulation (sensu Fungi) | inferred from mutant phenotype|GO:0030
response to unfolded protein | inferred from expression pattern|GO:0006986
lecular function| homocitrate synthase activity | inferred from mutant phenotype |GO:0004410//molecular function| homocitrate synthase activity | inferred
olecular function| calcium ion transporter activity | inferred from sequence similarity |GO:0015085//molecular function| calcium ion transporter activity | infe
chondrial matrix | inferred from direct assay|GO:0005759//cellular component| mitochondrion | inferred from direct assay |GO:0005739//biological process
ntegral to membrane | inferred from direct assay|GO:0016021//cellular component| Golgi apparatus | inferred from direct assay |GO:0005794//cellular com
ular component| mitochondrial inner membrane | traceable author statement|GO:0005743//cellular component| mitochondrion | inferred from direct assay |
egulation of transcription from Pol II promoter | inferred from mutant phenotype|GO:0045944//biological process| response to salt stress | inferred from mu
cellular component| mitochondrion | inferred from direct assay|GO:0005739//biological process| NAD biosynthesis | inferred from mutant phenotype|GO:00
0004735//molecular function| pyrroline-5-carboxylate reductase activity | inferred from genetic interaction |GO:0004735//cellular component| cytoplasm | inf
ular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005843//cellular component| cytoplasm | inferred from
GO:0004748//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| DNA replication | traceable author statement|GO:
eraction|GO:0003704//cellular component| nucleus | inferred from curator|GO:0005634//biological process| nitrogen utilization | inferred from mutant pheno
nent| mitochondrion | inferred from direct assay|GO:0005739//biological process| biotin biosynthesis | traceable author statement|GO:0009102
ular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005843//biological process| protein biosynthesis | tra
//molecular function| GPI-anchor transamidase activity | inferred from mutant phenotype |GO:0003923//cellular component| integral to endoplasmic reticul
nt| cytoplasm | inferred from direct assay|GO:0005737//biological process| protein amino acid phosphorylation | inferred from direct assay|GO:0006468//bi
291//cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//biological process| ceramide biosynthesis | inferred from mutant
t| condensed nuclear chromosome | inferred from direct assay|GO:0000794//cellular component| nuclear chromosome | traceable author statement |GO:0
ar envelope-endoplasmic reticulum network | inferred from direct assay|GO:0042175//cellular component| polysome | inferred from direct assay |GO:00058
component| cytoplasm | inferred from direct assay|GO:0005737//biological process| response to temperature | inferred from genetic interaction|GO:000926
on | inferred from mutant phenotype|GO:0030435//biological process| sporulation | inferred from genetic interaction |GO:0030435
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
mponent| actin cortical patch (sensu Fungi) | inferred from direct assay|GO:0030479//cellular component| cytoplasm | inferred from direct assay |GO:00057
tion| serine esterase activity | inferred from direct assay |GO:0004759//molecular function| lysophospholipase activity | inferred from direct assay |GO:0004
| inferred from direct assay |GO:0005634
nt| nucleus | inferred from curator|GO:0005634//biological process| telomerase-independent telomere maintenance | inferred from genetic interaction|GO:0
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
statement|GO:0004754//cellular component| peroxisome | inferred from direct assay|GO:0005777//cellular component| cytoplasm | inferred from direct as
//cellular component| DNA-directed RNA polymerase II, core complex | traceable author statement|GO:0005665//biological process| transcription from Pol
ular function| 3'-5' exonuclease activity | inferred from mutant phenotype |GO:0008408//cellular component| mitochondrion | inferred from mutant phenotype
lar function| uridine transporter activity | inferred from genetic interaction |GO:0015213//cellular component| plasma membrane | inferred from mutant phen
cess| peroxisome organization and biogenesis | traceable author statement|GO:0007031
nt| cytoplasm | inferred from direct assay|GO:0005737//biological process| response to drug | inferred from mutant phenotype|GO:0042493//biological proc
from direct assay|GO:0004583//cellular component| endoplasmic reticulum membrane | inferred from mutant phenotype|GO:0005789//biological process|
r component| cell | non-traceable author statement|GO:0005623//biological process| microtubule-based process | inferred from genetic interaction|GO:000
mponent| vacuolar membrane (sensu Fungi) | inferred from direct assay|GO:0000329
on| GTPase activity | inferred from genetic interaction |GO:0003924//cellular component| cytoplasm | traceable author statement|GO:0005737//cellular com
omponent| plasma membrane | inferred from sequence similarity|GO:0005886//biological process| amino acid transport | inferred from direct assay|GO:00
e|GO:0004862//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005
omponent| nucleus | inferred from direct assay |GO:0005634//biological process| spore wall assembly (sensu Fungi) | inferred from mutant phenotype|GO
ellular component| cytoplasm | inferred from direct assay|GO:0005737
ype|GO:0005083//cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| thiamin biosynthesis | traceable author statem
O:0004775//molecular function| succinate-CoA ligase (ADP-forming) activity | inferred from mutant phenotype |GO:0004775//molecular function| succinate
rocess| negative regulation of translation | inferred from mutant phenotype|GO:0016478//biological process| negative regulation of translation | inferred fro
648//molecular function| phosphoserine transaminase activity | inferred from mutant phenotype |GO:0004648//cellular component| cytoplasm | inferred from
transport | inferred from mutant phenotype|GO:0006888
omponent| ER-Golgi intermediate compartment | inferred from physical interaction|GO:0005793//biological process| retrograde transport, Golgi to ER | infe
99//cellular component| cytoplasm | inferred from direct assay|GO:0005737
mponent| mitochondrial outer membrane translocase complex | traceable author statement|GO:0005742//biological process| mitochondrial matrix protein im
77//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| tyrosine metabolism | non-traceable author statement|GO:0
mponent| shmoo tip | traceable author statement|GO:0005937//cellular component| bud neck | inferred from direct assay |GO:0005935//cellular componen
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | trac
ar component| nucleus | inferred from direct assay|GO:0005634//biological process| chromatin silencing at silent mating-type cassette (sensu Fungi) | infer
ecular function| RNA binding | inferred from direct assay |GO:0003723//cellular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable a
mponent| mitochondrial matrix | traceable author statement|GO:0005759//cellular component| presequence translocase-associated import motor | inferred f
nent| bud neck | inferred from direct assay|GO:0005935//cellular component| plasma membrane | inferred from direct assay |GO:0005886//biological proce
| inferred from direct assay |GO:0005634
/cellular component| cytosol | traceable author statement|GO:0005829//biological process| leucine biosynthesis | traceable author statement|GO:0009098
cellular component| vacuole (sensu Fungi) | inferred from direct assay|GO:0000324
ction| H3/H4 histone acetyltransferase activity | inferred from direct assay |GO:0004406//cellular component| nuclear chromatin | inferred from direct assay
10//molecular function| dicarboxylic acid transporter activity | inferred from direct assay |GO:0005310//cellular component| mitochondrial membrane | inferr
lecular function| protein phosphatase type 1 activity | inferred from direct assay |GO:0000163//cellular component| bud neck | inferred from direct assay|G
molecular function| translation initiation factor activity | inferred from direct assay |GO:0003743//cellular component| cytosolic small ribosomal subunit (sen
57//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biolog
40//cellular component| Golgi apparatus | inferred from direct assay|GO:0005794//biological process| sphingolipid metabolism | inferred from mutant phen
imilarity|GO:0004489//molecular function| methylenetetrahydrofolate reductase (NADPH) activity | inferred from direct assay |GO:0004489//molecular func
| inferred from direct assay |GO:0005634
//cellular component| nucleus | inferred from mutant phenotype|GO:0005634//cellular component| nucleus | inferred from direct assay |GO:0005634//biolo
ecular function| multidrug transporter activity | inferred from mutant phenotype |GO:0015239//molecular function| multidrug transporter activity | inferred fro
ype|GO:0000234//cellular component| endoplasmic reticulum | inferred from sequence similarity|GO:0005783//biological process| GPI anchor biosynthesis
ar component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277//biological process| cell wall organization and biogenesis | traceable author
lar component| ribosome | traceable author statement|GO:0005840//biological process| translational initiation | traceable author statement|GO:0006413
r membrane (sensu Fungi) | inferred from direct assay |GO:0000329
ent|GO:0004671//molecular function| protein-S-isoprenylcysteine O-methyltransferase activity | inferred from mutant phenotype |GO:0004671//cellular com
nent| membrane | traceable author statement|GO:0016020//cellular component| membrane | inferred from sequence similarity |GO:0016020//cellular comp
//cellular component| cell | traceable author statement|GO:0005623//biological process| histidine biosynthesis | traceable author statement|GO:0000105
onent| plasma membrane | inferred from direct assay|GO:0005886//biological process| nitrogen utilization | inferred from mutant phenotype|GO:0019740//
tatement|GO:0046961//molecular function| endodeoxyribonuclease activity | traceable author statement |GO:0004520//cellular component| vacuolar memb
ar component| eukaryotic translation initiation factor 3 complex | inferred from physical interaction|GO:0005852//cellular component| eukaryotic translation
unction| transcription factor activity | inferred from physical interaction |GO:0003700//cellular component| nucleus | inferred from sequence similarity|GO:00
ar component| mitochondrial inner membrane protein insertion complex | inferred from direct assay|GO:0042721//biological process| protein-mitochondrial
ss| ER to Golgi transport | inferred from genetic interaction|GO:0006888
796//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biolog
nent| plasma membrane | inferred from direct assay|GO:0005886//biological process| biotin transport | inferred from direct assay|GO:0015878
ar function| organic acid transporter activity | inferred from direct assay |GO:0005342//cellular component| mitochondrial inner membrane | inferred from dir
one acetylation | inferred from physical interaction|GO:0016573
component| cytosol | inferred from direct assay|GO:0005829//biological process| protein-ER targeting | inferred from mutant phenotype|GO:0045047
ular function| transcription factor activity | inferred from mutant phenotype |GO:0003700//molecular function| transcription factor activity | inferred from dire
m physical interaction|GO:0004579//cellular component| oligosaccharyl transferase complex | inferred from physical interaction|GO:0008250//biological proc
0016455//cellular component| mediator complex | inferred from direct assay|GO:0000119//biological process| transcription from Pol II promoter | inferred fr
nt| nucleus | inferred from direct assay|GO:0005634//biological process| protein-nucleus export | inferred from mutant phenotype|GO:0006611//biological p
quence similarity|GO:0004088//molecular function| carbamoyl-phosphate synthase (glutamine-hydrolyzing) activity | inferred from mutant phenotype |GO:0
ular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005843//cellular component| cytoplasm | inferred from
ar envelope-endoplasmic reticulum network | inferred from direct assay|GO:0042175//cellular component| polysome | inferred from direct assay |GO:00058
cular function| nucleic acid binding | inferred from physical interaction |GO:0003676//cellular component| spliceosome complex | inferred from genetic inter
mponent| nuclear pore | inferred from direct assay|GO:0005643//biological process| chromosome segregation | inferred from mutant phenotype|GO:000705
ular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005843//biological process| protein biosynthesis | tra
ular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005843//biological process| regulation of translationa
ell wall (sensu Fungi) | inferred from direct assay|GO:0009277//biological process| cytokinesis | inferred from mutant phenotype|GO:0000910
PII vesicle coat | traceable author statement|GO:0030127//biological process| autophagy | inferred from mutant phenotype|GO:0006914//biological process
cation transport | inferred from mutant phenotype|GO:0006812
onent| COPI vesicle coat | inferred from mutant phenotype |GO:0030126//biological process| vesicle coating | inferred from mutant phenotype|GO:000690
| inferred from direct assay |GO:0005634//biological process| negative regulation of DNA transposition | inferred from mutant phenotype|GO:0000335
3//cellular component| sulfite reductase complex (NADPH) | inferred from sequence similarity|GO:0009337//cellular component| sulfite reductase complex
05324//molecular function| long-chain fatty acid transporter activity | inferred from mutant phenotype |GO:0005324//molecular function| long-chain-fatty-aci
mponent| membrane | inferred from sequence similarity|GO:0016020//biological process| vesicle-mediated transport | traceable author statement|GO:0016
mutant phenotype|GO:0004169//molecular function| dolichyl-phosphate-mannose-protein mannosyltransferase activity | inferred from direct assay |GO:000
mponent| integral to endoplasmic reticulum membrane | inferred from direct assay|GO:0030176//biological process| protein amino acid palmitoylation | infe
molecular function| pantothenate transporter activity | inferred from genetic interaction |GO:0015233//cellular component| plasma membrane | inferred from
ponent| protein kinase CK2 complex | inferred from direct assay|GO:0005956//biological process| response to DNA damage stimulus | inferred from direct
ecular function| translation regulator activity | inferred from genetic interaction |GO:0045182//cellular component| mRNA cap complex | inferred from physic
nent| small nuclear ribonucleoprotein complex | traceable author statement|GO:0030532//cellular component| small nucleolar ribonucleoprotein complex | t
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
//molecular function| GPI-anchor transamidase activity | inferred from mutant phenotype |GO:0003923//cellular component| integral to endoplasmic reticul
tin cortical patch (sensu Fungi) | inferred from direct assay|GO:0030479//biological process| actin cytoskeleton organization and biogenesis | inferred from
s| ER to Golgi transport | inferred from physical interaction|GO:0006888
O:0030508//molecular function| thiol-disulfide exchange intermediate activity | inferred from mutant phenotype |GO:0030508//molecular function| thiol-disu
omponent| plasma membrane | inferred from direct assay |GO:0005886//cellular component| endoplasmic reticulum | inferred from physical interaction |GO
lar component| ribosome | traceable author statement|GO:0005840//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological pr
nt| half bridge of spindle pole body | traceable author statement |GO:0005825//cellular component| spindle pole body | traceable author statement |GO:000
nt| endoplasmic reticulum membrane | inferred from direct assay |GO:0005789//biological process| sporulation (sensu Fungi) | inferred from mutant pheno
s| ER to Golgi transport | inferred from physical interaction|GO:0006888
4679//cellular component| cytoplasm | inferred from physical interaction|GO:0005737//cellular component| nucleus | inferred from physical interaction |GO:
0003849//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//b
onent| extracellular | inferred from direct assay|GO:0005576//biological process| pectin catabolism | inferred from direct assay|GO:0045490//biological pro
ogical process| manganese ion homeostasis | inferred from mutant phenotype|GO:0030026//biological process| response to unfolded protein | inferred from
al process| regulation of transcription from Pol II promoter | inferred from mutant phenotype |GO:0006357
0030848//molecular function| serine racemase activity | inferred from direct assay |GO:0030378//biological process| amino acid derivative catabolism | infe
lar component| mitochondrion | inferred from direct assay|GO:0005739//biological process| lipoic acid biosynthesis | inferred from mutant phenotype|GO:0
atement|GO:0003882//cellular component| endoplasmic reticulum | traceable author statement|GO:0005783//biological process| phosphatidylserine biosy
0026//cellular component| endoplasmic reticulum | traceable author statement|GO:0005783//biological process| GPI anchor biosynthesis | inferred from mu
//cellular component| cytoplasm | inferred from curator|GO:0005737//biological process| regulation of glycolysis | non-traceable author statement|GO:0006
GO:0004722//molecular function| protein serine/threonine phosphatase activity | inferred from direct assay |GO:0004722//cellular component| cytoplasm | in
sequence similarity|GO:0004169//molecular function| dolichyl-phosphate-mannose-protein mannosyltransferase activity | inferred from mutant phenotype |
ear nucleosome | traceable author statement|GO:0000788//biological process| chromatin assembly/disassembly | traceable author statement|GO:0006333
transport | inferred from mutant phenotype|GO:0006888
ess| peroxisome organization and biogenesis | inferred from sequence similarity|GO:0007031//biological process| peroxisome organization and biogenesis
| inferred from direct assay |GO:0005634
leus | inferred from direct assay|GO:0005634//biological process| regulation of transcription from Pol II promoter | inferred from physical interaction|GO:000
ation initiation factor activity | inferred from sequence similarity |GO:0003743//molecular function| translation initiation factor activity | inferred from physical
nent| integral to membrane | inferred from sequence similarity|GO:0016021//cellular component| membrane | traceable author statement |GO:0016020//ce
olecular function| ARF GTPase activator activity | inferred from genetic interaction |GO:0008060//molecular function| ARF GTPase activator activity | inferr
component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process|
rane | inferred from direct assay |GO:0005886//biological process| response to osmotic stress | traceable author statement|GO:0006970
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| translational elongation |
gical process| meiotic recombination | inferred from mutant phenotype|GO:0007131
nent| cytoplasm | inferred from direct assay|GO:0005737//biological process| response to stress | inferred from mutant phenotype|GO:0006950//biological
lar component| ribosome | traceable author statement|GO:0005840//biological process| translational initiation | traceable author statement|GO:0006413
otype|GO:0004367//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| intracellular accumulation of glycerol | infe
005088//molecular function| guanyl-nucleotide exchange factor activity | traceable author statement |GO:0005085//molecular function| signal transducer a
ent| vacuole (sensu Fungi) | inferred from direct assay |GO:0000324//biological process| ATP transport | inferred from direct assay|GO:0015867//biologica
plasm | inferred from direct assay|GO:0005737
molecular function| transcriptional activator activity | inferred from mutant phenotype |GO:0016563//molecular function| DNA binding | inferred from sequenc
s| ER to Golgi transport | inferred from physical interaction|GO:0006888
ll wall (sensu Fungi) | traceable author statement|GO:0009277//cellular component| endoplasmic reticulum | inferred from direct assay |GO:0005783//cellu
| lipase activity | inferred from mutant phenotype |GO:0016298//cellular component| integral to membrane | inferred from sequence similarity|GO:0016021/
nferred from direct assay |GO:0005934
r function| dihydroorotase activity | inferred from mutant phenotype |GO:0004151//cellular component| cytoplasm | inferred from direct assay|GO:0005737/
ular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005843//biological process| protein biosynthesis | tra
process| secretory pathway | inferred from mutant phenotype|GO:0045045//biological process| secretory pathway | inferred from genetic interaction |GO:0
nent| mitochondrial inner membrane | inferred from direct assay|GO:0005743
ular function| transcription factor activity | inferred from physical interaction |GO:0003700//molecular function| transcription factor activity | inferred from dir
GO:0004722//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| protein amino acid dephosphorylation | inferred fr
component| plasma membrane | inferred from direct assay|GO:0005886//biological process| azole transport | inferred from mutant phenotype|GO:0045117
lar component| ribosome | traceable author statement|GO:0005840//biological process| translational initiation | traceable author statement|GO:0006413
ent| actin cortical patch (sensu Fungi) | inferred from physical interaction|GO:0030479//biological process| actin filament organization | inferred from sequen
n| structural molecule activity | traceable author statement |GO:0005198//cellular component| nuclear pore | inferred from direct assay|GO:0005643//biolog
tion| shikimate 5-dehydrogenase activity | inferred from direct assay |GO:0004764//molecular function| 3-phosphoshikimate 1-carboxyvinyltransferase activ
ocess| mitotic chromosome condensation | inferred from mutant phenotype|GO:0007076//biological process| mitotic sister chromatid cohesion | traceable
RNA cap binding | inferred from physical interaction |GO:0000339//molecular function| RNA cap binding | inferred from mutant phenotype |GO:0000339//mo
transport | inferred from mutant phenotype|GO:0006888
ucleotide binding | inferred from sequence similarity |GO:0000166//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular compon
pparatus | inferred from direct assay |GO:0005794//biological process| vesicle-mediated transport | inferred from mutant phenotype|GO:0016192
ity|GO:0004084//molecular function| branched-chain-amino-acid transaminase activity | inferred from direct assay |GO:0004084//cellular component| mito
ular component| integral to plasma membrane | inferred from sequence similarity|GO:0005887//cellular component| plasma membrane | inferred from dire
ecular function| tryptophan synthase activity | inferred from direct assay |GO:0004834//cellular component| cytoplasm | inferred from direct assay|GO:0005
ss| siderochrome transport | inferred from direct assay|GO:0015891
mponent| replication fork | inferred from direct assay|GO:0005657//biological process| bypass DNA synthesis | inferred from genetic interaction|GO:001998
23//biological process| chromatin modification | inferred from physical interaction|GO:0016568
omponent| mitochondrion | inferred from direct assay |GO:0005739//biological process| iron ion homeostasis | inferred from mutant phenotype|GO:0006879
:0030364//cellular component| mRNA cleavage factor complex | inferred from physical interaction|GO:0005849//biological process| mRNA cleavage | infer
| inferred from direct assay |GO:0005634//biological process| transcription | inferred from physical interaction|GO:0006350
ar component| mitochondrion | inferred from direct assay|GO:0005739//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological
erred from direct assay |GO:0005737
ent|GO:0004420//cellular component| endoplasmic reticulum membrane | traceable author statement|GO:0005789//cellular component| mitochondrial matr
ular function| cell adhesion molecule binding | inferred from mutant phenotype |GO:0050839//cellular component| cell wall (sensu Fungi) | inferred from dire
ocess| maltose catabolism | traceable author statement|GO:0000025
nent| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634
ent| cytoplasm | inferred from direct assay |GO:0005737
unction| chromatin binding | traceable author statement |GO:0003682//molecular function| DNA binding | traceable author statement |GO:0003677//cellular
irect assay|GO:0008553//cellular component| plasma membrane | inferred from direct assay|GO:0005886//biological process| proton transport | inferred fr
16566//molecular function| DNA bending activity | inferred from direct assay |GO:0008301//cellular component| nuclear chromosome | inferred from physic
ip | inferred from direct assay |GO:0005937//biological process| nuclear migration (sensu Saccharomyces) | inferred from mutant phenotype|GO:0000065
| inferred from direct assay |GO:0005634
nucleus | inferred from direct assay |GO:0005634//cellular component| kinetochore | inferred from direct assay |GO:0000776//cellular component| chromos
ar function| DNA binding | inferred from direct assay |GO:0003677//cellular component| nucleus | traceable author statement|GO:0005634//biological proce
200//cellular component| spindle pole body | inferred from direct assay|GO:0005816//biological process| spindle pole body duplication (sensu Saccharomy
| inferred from direct assay |GO:0005634
0005086//cellular component| Golgi vesicle | inferred from physical interaction|GO:0005798//biological process| intra-Golgi transport | inferred from physica
GO:0005083//cellular component| actin cap (sensu Fungi) | inferred from direct assay|GO:0030478//cellular component| shmoo tip | inferred from direct ass
nt| plasma membrane | inferred from direct assay|GO:0005886//biological process| cell proliferation | inferred from mutant phenotype|GO:0008283//biologi
ent| cytoplasm | inferred from sequence similarity|GO:0005737//biological process| pentose-phosphate shunt | traceable author statement|GO:0006098//bio
5175//molecular function| neutral amino acid transporter activity | inferred from mutant phenotype |GO:0015175//molecular function| neutral amino acid tran
008177//cellular component| respiratory chain complex II (sensu Eukarya) | traceable author statement|GO:0005749//biological process| mitochondrial ele
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
y|GO:0016757//molecular function| alpha-1,6-mannosyltransferase activity | inferred from direct assay |GO:0000009//cellular component| mannosyltransfe
oplasm | inferred from direct assay|GO:0005737//biological process| mRNA metabolism | inferred from genetic interaction|GO:0016071
omponent| plasma membrane | inferred from sequence similarity|GO:0005886//biological process| amino acid transport | inferred from direct assay|GO:00
200//cellular component| DASH complex | inferred from physical interaction|GO:0042729//cellular component| DASH complex | inferred from direct assay |
omponent| cytoplasm | inferred from direct assay |GO:0005737
ar component| mitochondrial inner membrane | inferred from direct assay|GO:0005743//biological process| protein biosynthesis | inferred from mutant phe
O:0004581//cellular component| endoplasmic reticulum membrane | inferred from direct assay|GO:0005789//biological process| N-linked glycosylation | tr
molecular function| L-methionine transporter activity | inferred from mutant phenotype |GO:0015191//molecular function| L-methionine transporter activity |
quitin-protein ligase activity | traceable author statement |GO:0004842//cellular component| anaphase-promoting complex | traceable author statement|GO
nt|GO:0003704//cellular component| nucleus | traceable author statement|GO:0005634//biological process| unfolded protein response, target gene transcr
4590//biological process| pyrimidine base biosynthesis | traceable author statement|GO:0019856
|GO:0003704//cellular component| nucleus | inferred from physical interaction|GO:0005634//biological process| spindle assembly | inferred from genetic in
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
200//cellular component| spindle pole body | inferred from direct assay|GO:0005816//biological process| microtubule nucleation | inferred from physical inte
85//cellular component| integral to endoplasmic reticulum membrane | inferred from direct assay|GO:0030176//cellular component| integral to membrane o
ent| cell | traceable author statement|GO:0005623//biological process| cell wall organization and biogenesis | inferred from mutant phenotype|GO:0007047
onent| nucleus | inferred from physical interaction|GO:0005634//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process|
lular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| postreplication repair | inferred from physical interaction|GO:000
ess| meiosis | inferred from mutant phenotype |GO:0007126//biological process| invasive growth (sensu Saccharomyces) | inferred from mutant phenotype
| inferred from direct assay |GO:0005634
n| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO
O:0016944//molecular function| Pol II transcription elongation factor activity | inferred from mutant phenotype |GO:0016944//molecular function| Pol II transc
8//molecular function| stearoyl-CoA 9-desaturase activity | inferred from mutant phenotype |GO:0004768//cellular component| endoplasmic reticulum mem
iogenesis | inferred from mutant phenotype|GO:0007046//biological process| rRNA processing | traceable author statement |GO:0006364
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological p
| inferred from direct assay |GO:0005634//biological process| bud site selection | inferred from mutant phenotype|GO:0000282
function| pyruvate kinase activity | inferred from direct assay |GO:0004743//cellular component| cytosol | traceable author statement|GO:0005829//biologi
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | trac
ular component| periplasmic space (sensu Fungi) | non-traceable author statement|GO:0030287//cellular component| cytoplasm | non-traceable author st
004617//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| serine family amino acid biosynthesis | inferred from m
ular function| channel regulator activity | inferred from mutant phenotype |GO:0016247//biological process| urea transport | inferred from mutant phenotype|
8028//molecular function| monocarboxylic acid transporter activity | inferred from genetic interaction |GO:0008028//molecular function| transporter activity
00026//molecular function| alpha-1,2-mannosyltransferase activity | inferred from direct assay |GO:0000026//cellular component| Golgi apparatus | inferred
cycle | inferred from mutant phenotype|GO:0016032
ocess| pyridoxine metabolism | inferred from sequence similarity |GO:0008614//biological process| pyridoxine metabolism | inferred from direct assay |GO:
Golgi cis-face | inferred from direct assay|GO:0005801//biological process| vesicle fusion | traceable author statement|GO:0006906//biological process| intr
04674//cellular component| nucleus | inferred from sequence similarity|GO:0005634//biological process| meiosis | inferred from expression pattern|GO:000
ar component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological proce
d site | inferred from direct assay |GO:0000131//biological process| pseudohyphal growth | inferred from mutant phenotype|GO:0007124//biological proces
09//cellular component| mitochondrial inner membrane | traceable author statement|GO:0005743//cellular component| mitochondrion | traceable author st
| inferred from direct assay |GO:0005634
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | trac
on| GTPase activity | inferred from direct assay |GO:0003924//cellular component| membrane fraction | inferred from direct assay|GO:0005624//biological
r membrane (sensu Fungi) | inferred from direct assay |GO:0000329
nt|GO:0016251//cellular component| transcription factor TFIID complex | traceable author statement|GO:0005669//cellular component| SAGA complex | inf
cellular component| cytosol | traceable author statement|GO:0005829//biological process| ergosterol biosynthesis | traceable author statement|GO:000669
5324//molecular function| acyl-CoA binding | inferred from sequence similarity |GO:0000062//cellular component| cytoplasm | inferred from direct assay|GO
function| aminopeptidase activity | inferred from direct assay |GO:0004177//cellular component| vacuole (sensu Fungi) | inferred from direct assay|GO:00
96//molecular function| glycogen synthase kinase 3 activity | inferred from genetic interaction |GO:0004696//biological process| response to stress | inferre
onent| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//cellular component| nuc
lar function| signal transducer activity | inferred from mutant phenotype |GO:0004871//molecular function| GTPase activity | traceable author statement |GO
function| DNA helicase activity | inferred from direct assay |GO:0003678//cellular component| nucleus | inferred from sequence similarity|GO:0005634//bio
rom direct assay|GO:0004365//cellular component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277//cellular component| cytosol | traceable
136//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| chromatin silencing at telomere | inferred from mutant ph
ction| transporter activity | inferred from mutant phenotype |GO:0005215//cellular component| plasma membrane | inferred from sequence similarity|GO:00
04674//molecular function| protein serine/threonine kinase activity | inferred from genetic interaction |GO:0004674//cellular component| cytoplasm | inferred
ular function| protein transporter activity | inferred from mutant phenotype |GO:0008565//cellular component| mitochondrial inner membrane | inferred from
mponent| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| p
cleus | inferred from direct assay|GO:0005634//cellular component| COMA complex | inferred from direct assay |GO:0000817//cellular component| conden
O:0004142//cellular component| endoplasmic reticulum | traceable author statement|GO:0005783//biological process| phosphatidylcholine biosynthesis | tra
ellular response to glucose starvation | inferred from physical interaction|GO:0042149//biological process| cellular response to glucose starvation | inferred
olecular function| protein-tyrosine kinase activity | inferred from direct assay |GO:0004713//molecular function| protein serine/threonine kinase activity | infe
omponent| plasma membrane | inferred from direct assay|GO:0005886//cellular component| nucleus | inferred from direct assay |GO:0005634//biological p
olecular function| transcription regulator activity | inferred from genetic interaction |GO:0030528//cellular component| integral to membrane | inferred from s
//cellular component| endoplasmic reticulum membrane | inferred from direct assay|GO:0005789//biological process| attachment of GPI anchor to protein
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | trac
32//cellular component| small nucleolar ribonucleoprotein complex | inferred from physical interaction |GO:0005732//biological process| processing of 20S
| inferred from direct assay |GO:0005634
tein binding | inferred from physical interaction |GO:0005515//molecular function| ubiquitin-protein ligase activity | traceable author statement |GO:0004842
inferred from expression pattern|GO:0007126//biological process| endocytosis | inferred from mutant phenotype |GO:0006897//biological process| DNA m
:0004012//cellular component| plasma membrane | inferred from direct assay|GO:0005886//biological process| intracellular protein transport | inferred from
ellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological pr
se, nucleoside, nucleotide and nucleic acid metabolism | inferred from genetic interaction|GO:0006139
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | trac
cular function| potassium channel activity | inferred from mutant phenotype |GO:0005267//molecular function| potassium channel activity | inferred from dire
| inferred from direct assay |GO:0005634//biological process| protein-vacuolar targeting | inferred from mutant phenotype|GO:0006623
GO:0004722//cellular component| cytoplasm | inferred from sequence similarity|GO:0005737//biological process| G1/S transition of mitotic cell cycle | inferr
mponent| cytoplasm | inferred from curator|GO:0005737//biological process| protein biosynthesis | inferred from direct assay|GO:0006412
NA binding | inferred from direct assay |GO:0003729//cellular component| cytoplasm | inferred from mutant phenotype|GO:0005737//cellular component| nu
/cellular component| cytoplasm | traceable author statement|GO:0005737//biological process| regulation of cell redox homeostasis | traceable author state
onent| cytosol | traceable author statement|GO:0005829//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological process| carb
lar component| membrane | inferred from sequence similarity|GO:0016020//biological process| allantoin catabolism | traceable author statement|GO:0000
tatement|GO:0046961//cellular component| vacuolar membrane (sensu Fungi) | traceable author statement|GO:0000329//cellular component| hydrogen-tr
441//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| hyperosmotic salinity response | traceable author stateme
atabolism, nonsense-mediated | inferred from physical interaction|GO:0000184
process| regulation of budding | inferred from mutant phenotype |GO:0007116
le author statement|GO:0004080//molecular function| biotin-[methylmalonyl-CoA-carboxytransferase] ligase activity | non-traceable author statement |GO:0
cellular component| plasma membrane | inferred from sequence similarity|GO:0005886//cellular component| plasma membrane | inferred from direct assa
ent| cytoplasm | inferred from direct assay |GO:0005737
nt|GO:0016251//molecular function| DNA helicase activity | traceable author statement |GO:0003678//cellular component| transcription factor TFIIH comple
nent| bud neck | traceable author statement|GO:0005935//biological process| regulation of exit from mitosis | traceable author statement|GO:0007096//biol
03701//molecular function| ribosomal DNA (rDNA) binding | traceable author statement |GO:0000182//cellular component| RNA polymerase I upstream ac
component| plasma membrane | inferred from sequence similarity|GO:0005886//cellular component| plasma membrane | inferred from mutant phenotype
1//molecular function| protein serine/threonine kinase activity | traceable author statement |GO:0004674//cellular component| cAMP-dependent protein kina
plasm | inferred from direct assay |GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| aerobic respira
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
ocess| ER to Golgi transport | inferred from genetic interaction|GO:0006888
O:0016538//cellular component| cytoplasm | inferred from mutant phenotype|GO:0005737//cellular component| cytoplasm | inferred from direct assay |GO:0
| inferred from direct assay |GO:0005634//biological process| metabolism | inferred from mutant phenotype|GO:0008152//biological process| metabolism |
lar component| peroxisome | inferred from direct assay|GO:0005777//cellular component| mitochondrion | traceable author statement |GO:0005739//biolog
milarity|GO:0003704//molecular function| specific RNA polymerase II transcription factor activity | inferred from mutant phenotype |GO:0003704//cellular c
mponent| cytoplasm | inferred from direct assay|GO:0005737
| inferred from direct assay |GO:0005634//biological process| nucleobase, nucleoside, nucleotide and nucleic acid metabolism | inferred from genetic inter
onent| cytosol | traceable author statement|GO:0005829//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological process| carb
O:0016538//molecular function| cyclin-dependent protein kinase regulator activity | inferred from sequence similarity |GO:0016538//cellular component| cyc
6428//cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| tRNA methylation | inferred from direct assay|GO:0030488
ction| amino acid binding | inferred from genetic interaction |GO:0016597//cellular component| extrinsic to plasma membrane | inferred from direct assay|G
replication factor A complex | traceable author statement|GO:0005662//cellular component| chromosome, telomeric region | inferred from mutant phenoty
olecular function| intracellular transporter activity | inferred from direct assay |GO:0005478//cellular component| endosome | inferred from direct assay|GO:
ll organization and biogenesis | inferred from mutant phenotype|GO:0007047//biological process| beta-1,6 glucan metabolism | inferred from mutant pheno
nent| plasma membrane | inferred from direct assay|GO:0005886//biological process| calcium ion transport | inferred from direct assay|GO:0006816
component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process
omponent| plasma membrane | inferred from direct assay |GO:0005886//cellular component| endoplasmic reticulum | inferred from direct assay |GO:00057
inferred from direct assay |GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634
process| actin cytoskeleton organization and biogenesis | inferred from mutant phenotype|GO:0030036//biological process| manganese ion homeostasis |
process| polyamine transport | inferred from mutant phenotype|GO:0015846//biological process| polyamine transport | inferred from genetic interaction |GO
pindle checkpoint | inferred from mutant phenotype|GO:0007094
r component| cytoplasm | inferred from direct assay|GO:0005737
process| conjugation with cellular fusion | inferred from expression pattern|GO:0000747
component| cytoplasm | inferred from direct assay|GO:0005737//biological process| fermentation | traceable author statement|GO:0006113//biological proc
| inferred from direct assay |GO:0005634
ogical process| ER to Golgi transport | inferred from direct assay|GO:0006888//biological process| cell wall chitin biosynthesis | inferred from mutant pheno
cess| RNA processing | inferred from mutant phenotype|GO:0006396
ar function| GTPase activator activity | traceable author statement |GO:0005096//molecular function| signal transducer activity | traceable author statement
/molecular function| mRNA binding | inferred from physical interaction |GO:0003729//cellular component| small nuclear ribonucleoprotein complex | inferre
ss| response to unfolded protein | inferred from sequence similarity|GO:0006986//biological process| response to unfolded protein | inferred from mutant p
lar function| DNA binding | inferred from direct assay |GO:0003677//cellular component| nucleus | inferred from direct assay|GO:0005634//biological proce
nent| proteasome core complex, beta-subunit complex (sensu Eukarya) | traceable author statement|GO:0019774//cellular component| proteasome core c
GO:0045129//molecular function| NAD-independent histone deacetylase activity | inferred from direct assay |GO:0045129//molecular function| NAD-depen
on| clathrin binding | inferred from physical interaction |GO:0030276//cellular component| AP-1 adaptor complex | inferred from sequence similarity|GO:003
mponent| endoplasmic reticulum membrane | traceable author statement|GO:0005789//biological process| SRP-dependent cotranslational membrane targe
O:0004327//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| formaldehyde assimilation | inferred from direct as
ss| cell wall organization and biogenesis | inferred from mutant phenotype|GO:0007047
749//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| 'de novo' pyrimidine base biosynthesis | traceable author
O:0016538//cellular component| cyclin-dependent protein kinase holoenzyme complex | traceable author statement|GO:0000307//biological process| cell cy
arboxamide isomerase activity | traceable author statement|GO:0003949//cellular component| cell | traceable author statement|GO:0005623//biological pr
mponent| nuclear pore | inferred from direct assay|GO:0005643//biological process| nuclear pore organization and biogenesis | traceable author statement|
ecular function| mannosyltransferase activity | inferred from mutant phenotype |GO:0000030//cellular component| membrane fraction | inferred from seque
nce similarity|GO:0008757//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct ass
ogical process| late endosome to vacuole transport | inferred from genetic interaction|GO:0045324//biological process| homotypic vacuole fusion, non-auto
rocess| vesicle organization and biogenesis | inferred from physical interaction|GO:0016050//biological process| Golgi to endosome transport | inferred fro
ucleolus | inferred from direct assay|GO:0005730//cellular component| nucleoplasm | inferred from direct assay |GO:0005654//cellular component| nucleus
4445//cellular component| membrane fraction | inferred from direct assay|GO:0005624//biological process| dephosphorylation | inferred from direct assay|
mponent| endoplasmic reticulum membrane | traceable author statement|GO:0005789//biological process| SRP-dependent cotranslational membrane targe
onent| membrane | inferred from sequence similarity|GO:0016020//biological process| transport | inferred from sequence similarity|GO:0006810
ular function| transcription factor activity | inferred from direct assay |GO:0003700//cellular component| cytosol | inferred from direct assay|GO:0005829//ce
olus | inferred from direct assay|GO:0005730//biological process| RNA metabolism | inferred from physical interaction|GO:0016070
mponent| translocon | traceable author statement|GO:0005784//biological process| cotranslational membrane targeting | traceable author statement|GO:00
biological process| O-linked glycosylation | inferred from direct assay|GO:0006493
ular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//cellular component| cytoplasm | inferred from direct assay |GO:0005737/
nent| contractile ring (sensu Saccharomyces) | inferred from direct assay|GO:0000142//biological process| response to osmotic stress | inferred from muta
016565//molecular function| general transcriptional repressor activity | inferred from mutant phenotype |GO:0016565//molecular function| general transcript
nt| clathrin-coated vesicle | inferred from direct assay |GO:0030136
nction| protein phosphatase type 1 regulator activity | traceable author statement |GO:0008599//cellular component| cytoplasm | inferred from direct assay|
ar component| cytoplasm | inferred from direct assay|GO:0005737//biological process| intracellular signaling cascade | inferred from genetic interaction|GO
nferred from direct assay |GO:0005934//cellular component| integral to plasma membrane | inferred from direct assay |GO:0005887//biological process| s
0008112//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| nicotinamide metabolism | inferred from sequence si
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | trac
ular function| transcription factor activity | inferred from mutant phenotype |GO:0003700//biological process| response to xenobiotic stimulus | inferred from
004024//cellular component| mitochondrion | inferred from direct assay|GO:0005739//biological process| fermentation | inferred from direct assay|GO:0006
rinsic to plasma membrane | inferred from direct assay|GO:0019897//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological p
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | trac
| inferred from direct assay |GO:0005634//biological process| filamentous growth | inferred from genetic interaction|GO:0030447//biological process| unidi
| traceable author statement |GO:0005934//biological process| establishment of cell polarity (sensu Saccharomyces) | inferred from genetic interaction|GO
drial inner membrane | inferred from direct assay|GO:0005743//biological process| protein folding | inferred from sequence similarity|GO:0006457//biologic
nt| spindle pole body | inferred from direct assay|GO:0005816//cellular component| nucleus | inferred from direct assay |GO:0005634
GO:0005842//cellular component| nucleolus | traceable author statement |GO:0005730//biological process| rRNA processing | traceable author statement|G
lar component| ribosome | traceable author statement|GO:0005840//biological process| translational initiation | traceable author statement|GO:0006413
ellular component| plasma membrane | inferred from sequence similarity|GO:0005886
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | trac
nt| Golgi apparatus | inferred from direct assay |GO:0005794
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| translational elongation |
ction| structural constituent of cytoskeleton | inferred from physical interaction |GO:0005200//cellular component| spindle pole body | inferred from direct a
//molecular function| alpha-1,2-mannosyltransferase activity | inferred from mutant phenotype |GO:0000026//cellular component| Golgi apparatus | inferred
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
unction| structural constituent of cytoskeleton | traceable author statement |GO:0005200//cellular component| shmoo tip | inferred from direct assay|GO:00
|GO:0000906//molecular function| 6,7-dimethyl-8-ribityllumazine synthase activity | inferred from genetic interaction |GO:0000906//cellular component| cyto
897//molecular function| 3-oxoacyl-[acyl-carrier protein] reductase activity | inferred from sequence similarity |GO:0004316//molecular function| 3-oxoacyl-[a
ssay|GO:0004571//cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//biological process| N-linked glycosylation | inferred
chondrial outer membrane | inferred from direct assay|GO:0005741//cellular component| mitochondrial sorting and assembly machinery complex | inferred
ellular component| nucleus | inferred from direct assay|GO:0005634//biological process| osmosensory signaling pathway | traceable author statement|GO:
ellular component| nucleus | traceable author statement|GO:0005634//biological process| tRNA splicing | traceable author statement|GO:0006388
ular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological proc
ar component| nucleus | traceable author statement|GO:0005634//biological process| positive regulation of transcription from Pol II promoter by pheromone
milarity|GO:0003704//molecular function| specific RNA polymerase II transcription factor activity | inferred from mutant phenotype |GO:0003704//molecula
nt|GO:0016251//molecular function| RNA polymerase III transcription factor activity | traceable author statement |GO:0003709//molecular function| RNA po
unction| transcription factor activity | inferred from sequence similarity |GO:0003700//molecular function| transcription factor activity | inferred from physical
nt| cytoplasm | inferred from direct assay|GO:0005737//biological process| protein targeting | inferred from mutant phenotype|GO:0006605//biological proc
nent| nuclear chromosome, telomeric region | inferred from direct assay|GO:0000784//biological process| telomere clustering | traceable author statement|
nt|GO:0016251//cellular component| SWI/SNF complex | inferred from physical interaction|GO:0016514//cellular component| nucleosome remodeling com
ular function| DNA binding | traceable author statement |GO:0003677//molecular function| DNA binding | inferred from physical interaction |GO:0003677//ce
016791//molecular function| protein tyrosine phosphatase activity | non-traceable author statement |GO:0004725//molecular function| protein tyrosine phos
lar component| plasma membrane | inferred from direct assay|GO:0005886//cellular component| vacuolar membrane | inferred from mutant phenotype |GO
nt| mitochondrial matrix | inferred from direct assay|GO:0005759//biological process| response to oxidative stress | inferred from mutant phenotype|GO:000
lar function| sulfate transporter activity | inferred from genetic interaction |GO:0015116//cellular component| plasma membrane | inferred from sequence si
mponent| mitochondrial inner membrane | inferred from direct assay|GO:0005743//biological process| anaerobic respiration | inferred from genetic interactio
onent| alpha,alpha-trehalose-phosphate synthase complex (UDP-forming) | inferred from physical interaction|GO:0005946//cellular component| alpha,alpha
0004861//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//
lular component| mitochondrial matrix | non-traceable author statement|GO:0005759//biological process| ornithine biosynthesis | traceable author stateme
nent| cytoplasm | inferred from direct assay|GO:0005737//biological process| response to stress | inferred from mutant phenotype|GO:0006950//biological
mponent| cytosol | inferred from curator|GO:0005829//biological process| regulation of protein biosynthesis | inferred from direct assay|GO:0006417
592//molecular function| pantoate-beta-alanine ligase activity | inferred from direct assay |GO:0004592//cellular component| cytoplasm | inferred from direc
itochondrial outer membrane | inferred from direct assay|GO:0005741//biological process| mitochondrial fission | inferred from mutant phenotype|GO:0000
component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277//biological process| cell wall organization and biogenesis | inferred from muta
binding | inferred from direct assay |GO:0003677//cellular component| nuclear nucleosome | traceable author statement|GO:0000788//cellular component|
ogical process| protein-vacuolar targeting | inferred from mutant phenotype|GO:0006623
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
component| cytoplasm | inferred from direct assay|GO:0005737//biological process| DNA repair | inferred from mutant phenotype|GO:0006281//biological
295//molecular function| adenine nucleotide transporter activity | inferred from direct assay |GO:0000295//cellular component| integral to peroxisomal mem
| inferred from direct assay |GO:0005634//biological process| response to dessication | inferred from sequence similarity|GO:0009269
04674//biological process| protein amino acid phosphorylation | inferred from sequence similarity|GO:0006468//biological process| regulation of cell cycle |
lar component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological proc
03702//cellular component| nucleus | inferred from physical interaction|GO:0005634//biological process| sterol biosynthesis | inferred from mutant phenotyp
O:0030508//cellular component| cytosol | inferred from direct assay|GO:0005829//cellular component| vacuole (sensu Fungi) | inferred from physical intera
005088//cellular component| plasma membrane | inferred from direct assay|GO:0005886//cellular component| cytoplasm | inferred from direct assay |GO:0
mponent| vacuolar membrane (sensu Fungi) | inferred from direct assay|GO:0000329//biological process| intracellular iron ion storage | inferred from mutan
ar component| plasma membrane | inferred from direct assay|GO:0005886//biological process| cytosine transport | inferred from direct assay|GO:0015856
//cellular component| nuclear chromosome | inferred from physical interaction|GO:0000228//biological process| negative regulation of transcription from Po
ent| mitochondrial matrix | non-traceable author statement |GO:0005759//biological process| 2-oxoglutarate metabolism | traceable author statement|GO:0
raceable author statement|GO:0005856//cellular component| chaperonin-containing T-complex | traceable author statement |GO:0005832//cellular compo
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
4332//molecular function| fructose-bisphosphate aldolase activity | inferred from direct assay |GO:0004332//cellular component| cytosol | traceable author s
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
56//biological process| aldehyde metabolism | inferred from sequence similarity|GO:0006081
ent| --- | inferred from physical interaction |GO:0000506//biological process| GPI anchor biosynthesis | inferred from mutant phenotype|GO:0006506//biolog
ecular function| alanine-tRNA ligase activity | inferred from genetic interaction |GO:0004813//cellular component| cytoplasm | inferred from direct assay|GO
m sequence similarity|GO:0046933//molecular function| hydrogen-transporting ATP synthase activity, rotational mechanism | inferred from mutant phenotyp
ubiquitin-specific protease activity | traceable author statement |GO:0004843//molecular function| endopeptidase activity | inferred from physical interaction
component| cytoplasm | traceable author statement|GO:0005737//biological process| tryptophanyl-tRNA aminoacylation | traceable author statement|GO:0
rred from direct assay |GO:0005933//cellular component| cytoplasm | inferred from direct assay |GO:0005737
ent| mitochondrial outer membrane | traceable author statement |GO:0005741//biological process| mitochondrion organization and biogenesis | traceable a
|GO:0004458//molecular function| D-lactate dehydrogenase (cytochrome) activity | inferred from mutant phenotype |GO:0004458//cellular component| mito
llular component| microtubule | inferred from direct assay|GO:0005874//biological process| cell wall organization and biogenesis | inferred from mutant phe
llular component| ribosome | traceable author statement|GO:0005840//biological process| translational elongation | traceable author statement|GO:000641
ction| DNA binding | inferred from direct assay |GO:0003677//cellular component| nucleus | inferred from direct assay|GO:0005634//cellular component| kin
ological process| cell growth and/or maintenance | inferred from expression pattern |GO:0008151//biological process| rRNA processing | inferred from mut
0033//cellular component| Golgi apparatus | inferred from direct assay|GO:0005794//biological process| O-linked glycosylation | inferred from direct assay|G
5//cellular component| endoplasmic reticulum | traceable author statement|GO:0005783//cellular component| mitochondrion | traceable author statement |
| THO complex | inferred from physical interaction|GO:0000347//cellular component| THO complex | inferred from mutant phenotype |GO:0000347//biologi
mponent| cytosol | traceable author statement|GO:0005829//cellular component| intracellular | inferred from direct assay |GO:0005622//biological process|
ipid metabolism | inferred from sequence similarity|GO:0006629//biological process| lipid metabolism | inferred from mutant phenotype |GO:0006629
ular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005843//cellular component| cytoplasm | inferred from
process| polyamine transport | inferred from mutant phenotype|GO:0015846//biological process| polyamine transport | inferred from genetic interaction |GO
| inferred from direct assay |GO:0005634
tatement|GO:0003881//cellular component| endoplasmic reticulum | traceable author statement|GO:0005783//biological process| phosphatidylinositol bios
etrograde transport, Golgi to ER | inferred from mutant phenotype|GO:0006890//biological process| ER to Golgi transport | inferred from mutant phenotype
n| protein binding | inferred from mutant phenotype |GO:0005515//cellular component| site of polarized growth (sensu Saccharomyces) | inferred from dire
function| CTP synthase activity | inferred from mutant phenotype |GO:0003883//cellular component| cytosol | traceable author statement|GO:0005829//bio
eraction|GO:0003704//molecular function| specific RNA polymerase II transcription factor activity | inferred from mutant phenotype |GO:0003704//cellular c
mechanism | inferred from mutant phenotype|GO:0015662//molecular function| ATPase activity, coupled to transmembrane movement of ions, phosphoryla
function| 4-nitrophenylphosphatase activity | inferred from direct assay |GO:0003869//cellular component| cytoplasm | inferred from direct assay|GO:00057
process| GPI anchor biosynthesis | inferred from mutant phenotype|GO:0006506
4//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| purine nucleotide biosynthesis | traceable author statement
nce similarity|GO:0008757//cellular component| cytoplasm | inferred from direct assay|GO:0005737
NA splicing, via spliceosome | traceable author statement|GO:0000398
343//cellular component| cytoplasmic vesicle | inferred from direct assay|GO:0016023//cellular component| endosome | traceable author statement |GO:00
ponent| nucleus | inferred from curator|GO:0005634//biological process| positive regulation of transcription from Pol II promoter | inferred from direct assay|
y|GO:0008308//molecular function| voltage-dependent ion-selective channel activity | inferred from genetic interaction |GO:0008308//molecular function| v
n| protein binding | inferred from mutant phenotype |GO:0005515//cellular component| vacuole | inferred from direct assay|GO:0005773//cellular compone
us | inferred from curator|GO:0005634
brane | inferred from sequence similarity |GO:0016020//biological process| GPI anchor biosynthesis | inferred from mutant phenotype|GO:0006506//biologic
onse to DNA damage stimulus | inferred from mutant phenotype|GO:0006974//biological process| ubiquitin-dependent protein catabolism | inferred from mu
molecular function| NADPH dehydrogenase activity | inferred from direct assay |GO:0003959//cellular component| cytoplasm | inferred from direct assay|G
ar component| nucleus | inferred from sequence similarity|GO:0005634//biological process| transcription | inferred from sequence similarity|GO:0006350
//cellular component| DNA-directed RNA polymerase I complex | traceable author statement|GO:0005736//biological process| transcription from Pol I prom
ay|GO:0008486//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:000
gy | inferred from mutant phenotype|GO:0006914//biological process| protein-vacuolar targeting | inferred from mutant phenotype |GO:0006623
lar component| endoplasmic reticulum | inferred from direct assay |GO:0005783
ecular function| transcription regulator activity | inferred from direct assay |GO:0030528//molecular function| DNA binding | inferred from direct assay |GO:0
ar component| nucleus | inferred from direct assay|GO:0005634//biological process| protein deubiquitination | traceable author statement|GO:0016579
component| peroxisome | traceable author statement|GO:0005777//cellular component| cytoplasm | traceable author statement |GO:0005737//biological p
ar component| mitochondrial inner membrane | inferred from direct assay|GO:0005743//biological process| protein biosynthesis | inferred from mutant phe
nent| cytoplasm | inferred from direct assay|GO:0005737//biological process| purine nucleotide metabolism | inferred from curator|GO:0006163
| inferred from direct assay |GO:0005634//biological process| ribosomal large subunit biogenesis | inferred from direct assay|GO:0042273//biological proce
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
lecular function| protein disulfide isomerase activity | inferred from mutant phenotype |GO:0003756//cellular component| endoplasmic reticulum lumen | tra
tion| dolichyl-diphosphooligosaccharide-protein glycotransferase activity | inferred from physical interaction |GO:0004579//cellular component| endoplasmi
ar function| drug transporter activity | inferred from expression pattern |GO:0015238//cellular component| integral to membrane | inferred from sequence sim
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
ty|GO:0004316//molecular function| 3-oxoacyl-[acyl-carrier protein] reductase activity | inferred from mutant phenotype |GO:0004316//cellular component|
NA replication origin binding | traceable author statement |GO:0003688//cellular component| nuclear origin of replication recognition complex | traceable au
O:0016944//molecular function| transcriptional elongation regulator activity | traceable author statement |GO:0003711//cellular component| transcription elo
P U1 | traceable author statement|GO:0005685//cellular component| snRNP U1 | inferred from physical interaction |GO:0005685//cellular component| snRN
03702//cellular component| nucleus | inferred from physical interaction|GO:0005634//biological process| positive regulation of transcription from Pol II prom
O:0016944//cellular component| Cdc73/Paf1 complex | traceable author statement|GO:0016593//cellular component| transcription elongation factor comple
40//molecular function| ubiquitin conjugating enzyme activity | inferred from direct assay |GO:0004840//cellular component| cytoplasm | inferred from direc
iosynthesis | inferred from physical interaction|GO:0006412//biological process| protein biosynthesis | inferred from mutant phenotype |GO:0006412
r component| histone acetyltransferase complex | inferred from physical interaction|GO:0000123//biological process| histone acetylation | inferred from phy
nt| integral to membrane | inferred from sequence similarity |GO:0016021//cellular component| endoplasmic reticulum | inferred from direct assay |GO:000
ent| nucleolar ribonuclease P complex | inferred from direct assay|GO:0005655//biological process| tRNA processing | traceable author statement|GO:0008
nction| GTPase activity | inferred from direct assay |GO:0003924//cellular component| shmoo tip | inferred from direct assay|GO:0005937//cellular compon
ular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005843//biological process| protein biosynthesis | tra
function| cysteine-type peptidase activity | inferred from direct assay |GO:0008234//molecular function| nucleic acid binding | traceable author statement |
ellular component| intracellular | traceable author statement|GO:0005622//biological process| actin cytoskeleton organization and biogenesis | inferred from
gral to membrane | inferred from direct assay|GO:0016021//cellular component| Golgi apparatus | inferred from direct assay |GO:0005794//cellular compon
ponent| COPII vesicle coat | inferred from physical interaction |GO:0030127//cellular component| COPII vesicle coat | inferred from mutant phenotype |GO:
ecular function| RNA binding | inferred from direct assay |GO:0003723//cellular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable a
nt| nucleus | inferred from physical interaction|GO:0005634//biological process| double-strand break repair via synthesis-dependent strand annealing | trac
//cellular component| DNA-directed RNA polymerase I complex | traceable author statement|GO:0005736//cellular component| DNA-directed RNA polyme
46658//biological process| cell wall biosynthesis (sensu Fungi) | inferred from direct assay|GO:0009272//biological process| pseudohyphal growth | inferred
olecular function| protein binding | inferred from physical interaction |GO:0005515//molecular function| RNA binding | inferred from direct assay |GO:00037
mponent| nuclear pore | inferred from direct assay|GO:0005643//biological process| nuclear pore organization and biogenesis | traceable author statement|
cular function| homoserine kinase activity | inferred from direct assay |GO:0004413//biological process| homoserine metabolism | inferred from direct assay
ent| cytosol | traceable author statement|GO:0005829//cellular component| Golgi vesicle | traceable author statement |GO:0005798//biological process| int
molecular function| amino-acid N-acetyltransferase activity | inferred from genetic interaction |GO:0004042//molecular function| amino-acid N-acetyltransfer
mponent| nuclear pore | inferred from direct assay|GO:0005643//biological process| nuclear pore organization and biogenesis | traceable author statement|
ecular function| translation initiation factor activity | inferred from sequence similarity |GO:0003743//cellular component| ribosome | traceable author statem
| inferred from direct assay |GO:0005634
nent| Golgi trans face | inferred from direct assay|GO:0005802//biological process| peptide pheromone maturation | inferred from mutant phenotype|GO:00
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| pyrimidine base biosynthesis | inferred from direct assay|GO:0
al process| ethanol metabolism | inferred from mutant phenotype|GO:0006067
molecular function| DNA helicase activity | inferred from sequence similarity |GO:0003678//molecular function| DNA helicase activity | inferred from mutant p
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
omponent| respiratory chain complex IV (sensu Eukarya) | inferred from physical interaction|GO:0005751//biological process| aerobic respiration | inferred
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | trac
llular component| mitochondrial inner membrane | inferred from sequence similarity|GO:0005743//biological process| succinate transport | inferred from di
ar function| phosphate transporter activity | inferred from genetic interaction |GO:0015114//cellular component| membrane | inferred from sequence similar
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
ular component| cytoplasm | inferred from curator|GO:0005737//biological process| protein deubiquitination | traceable author statement|GO:0016579
otein binding | inferred from physical interaction |GO:0005515//molecular function| DNA clamp loader activity | traceable author statement |GO:0003689//ce
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
0337//cellular component| replication fork | traceable author statement|GO:0005657//biological process| postreplication repair | traceable author statement|
t| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| chromoso
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
ar component| nucleus | inferred from curator|GO:0005634//biological process| transcription | inferred from sequence similarity|GO:0006350
mponent| nuclear envelope-endoplasmic reticulum network | inferred from direct assay|GO:0042175//cellular component| endoplasmic reticulum membrane
ular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005843//biological process| protein biosynthesis | tra
2//molecular function| glutamate dehydrogenase activity | inferred from mutant phenotype |GO:0004352//cellular component| soluble fraction | inferred from
ponent| nucleus | traceable author statement|GO:0005634//biological process| invasive growth (sensu Saccharomyces) | inferred from genetic interaction|G
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | trac
red from mutant phenotype|GO:0008444//cellular component| mitochondrion | inferred from direct assay|GO:0005739//biological process| phospholipid bio
OPII vesicle coat | traceable author statement|GO:0030127//biological process| ER to Golgi transport | traceable author statement|GO:0006888
ecular function| spermidine synthase activity | inferred from mutant phenotype |GO:0004766//cellular component| cytoplasm | inferred from direct assay|GO
ological process| deadenylation-dependent decapping | inferred from physical interaction|GO:0000290//biological process| deadenylation-dependent decap
//molecular function| inorganic phosphate transporter activity | inferred from sequence similarity |GO:0005315//molecular function| inorganic phosphate tra
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
620//cellular component| cytoplasmic vesicle | traceable author statement|GO:0016023//cellular component| integral to membrane | inferred from sequence
ular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005843//biological process| protein biosynthesis | tra
molecular function| protein binding | inferred from physical interaction |GO:0005515//cellular component| endosome membrane | inferred from direct assay|
ular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005843//biological process| regulation of translationa
mponent| bud neck | inferred from direct assay|GO:0005935//biological process| axial budding | traceable author statement|GO:0007120//biological proces
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
46658//cellular component| membrane fraction | inferred from direct assay |GO:0005624//biological process| cell wall biosynthesis (sensu Fungi) | inferred
process| cation homeostasis | inferred from mutant phenotype|GO:0030003//biological process| cation homeostasis | inferred from genetic interaction |GO
ction| amino acid binding | inferred from genetic interaction |GO:0016597//cellular component| plasma membrane | inferred from direct assay|GO:0005886
5//cellular component| histone deacetylase complex | inferred from physical interaction|GO:0000118//biological process| protein metabolism | inferred from
ent| nucleolus | inferred from direct assay|GO:0005730//biological process| ribosome-nucleus export | inferred from physical interaction|GO:0000054//biolo
ty|GO:0004515//molecular function| nicotinate-nucleotide adenylyltransferase activity | inferred from genetic interaction |GO:0004515//cellular component|
mponent| cytoplasm | inferred from direct assay|GO:0005737//biological process| response to pheromone | inferred from mutant phenotype|GO:0019236
0//molecular function| calcium-transporting ATPase activity | inferred from sequence similarity |GO:0005388//molecular function| calcium-transporting ATPa
12//molecular function| homoserine dehydrogenase activity | inferred from direct assay |GO:0004412//cellular component| cytoplasm | inferred from direct
/cellular component| cytosol | traceable author statement|GO:0005829//biological process| glycolysis | traceable author statement|GO:0006096//biological
ular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005843//biological process| protein biosynthesis | tra
plasm | inferred from direct assay|GO:0005737//biological process| cell wall organization and biogenesis | inferred from mutant phenotype|GO:0007047//b
mponent| cytoplasm | inferred from direct assay|GO:0005737//biological process| GTP biosynthesis | traceable author statement|GO:0006183
| inferred from direct assay |GO:0005634
ent| endoplasmic reticulum | inferred from direct assay|GO:0005783//biological process| cell wall organization and biogenesis | inferred from mutant pheno
l process| vacuolar protein catabolism | inferred from mutant phenotype|GO:0007039
092//cellular component| mitochondrion | inferred from direct assay|GO:0005739//biological process| carnitine metabolism | inferred from mutant phenotyp
ar function| adenosine kinase activity | inferred from direct assay |GO:0004001//cellular component| cytoplasm | inferred from direct assay|GO:0005737//c
A binding | inferred from direct assay |GO:0003677//cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| sporulation
200//cellular component| outer plaque of spindle pole body | inferred from direct assay|GO:0005824//cellular component| inner plaque of spindle pole body
2//molecular function| glutamate dehydrogenase activity | inferred from mutant phenotype |GO:0004352//cellular component| nucleus | inferred from direct
organization and biogenesis | inferred from mutant phenotype|GO:0007047
32//cellular component| small nucleolar ribonucleoprotein complex | traceable author statement |GO:0005732//cellular component| small nucleolar ribonuc
lecular function| spermine transporter activity | inferred from mutant phenotype |GO:0000297//cellular component| bud tip | inferred from direct assay|GO:0
GO:0003702//molecular function| RNA polymerase II transcription factor activity | inferred from direct assay |GO:0003702//cellular component| nucleus | in
|GO:0003704//cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| positive regulation of transcription from Pol II prom
mponent| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| m
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
ear nucleosome | traceable author statement|GO:0000788//biological process| chromatin assembly/disassembly | traceable author statement|GO:0006333
cleus | inferred from direct assay|GO:0005634//biological process| apoptosis | inferred from direct assay|GO:0006915
ycle | inferred from genetic interaction|GO:0007049
O:0016944//molecular function| Pol II transcription elongation factor activity | inferred from mutant phenotype |GO:0016944//cellular component| transcriptio
/cellular component| endoplasmic reticulum membrane | inferred from sequence similarity|GO:0005789//cellular component| endoplasmic reticulum memb
lar component| contractile ring (sensu Saccharomyces) | inferred from direct assay|GO:0000142//biological process| cytokinesis | inferred from mutant phe
mponent| microsome | inferred from direct assay|GO:0005792//biological process| ergosterol biosynthesis | inferred from mutant phenotype|GO:0006696
milarity|GO:0003880//cellular component| cytoplasm | inferred from direct assay|GO:0005737
onent| DNA-directed RNA polymerase II, holoenzyme | traceable author statement|GO:0016591//biological process| carbon utilization | inferred from physic
ular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| cysteine biosynthesis | inferred from mutant phenotype|GO:00193
/cellular component| endoplasmic reticulum | traceable author statement|GO:0005783//biological process| oligosaccharide-lipid intermediate assembly | tr
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
ection | inferred from mutant phenotype|GO:0000282
arity|GO:0008425//molecular function| ubiquinone biosynthesis methyltransferase activity | inferred from mutant phenotype |GO:0008425//cellular compone
| inferred from direct assay |GO:0005634
nt| endoplasmic reticulum | inferred from direct assay |GO:0005783//biological process| cell wall biosynthesis (sensu Fungi) | inferred from mutant phenoty
component| alpha DNA polymerase:primase complex | traceable author statement|GO:0005658//biological process| lagging strand elongation | traceable
r function| ubiquitin conjugating enzyme activity | traceable author statement |GO:0004840//cellular component| endoplasmic reticulum | traceable author s
00//cellular component| spindle pole body | inferred from direct assay|GO:0005816//cellular component| nuclear membrane | inferred from direct assay |GO
t| shmoo tip | inferred from direct assay|GO:0005937//cellular component| cytoplasm | inferred from direct assay |GO:0005737//cellular component| nucleu
lar component| endoplasmic reticulum | traceable author statement |GO:0005783//biological process| protein complex assembly | inferred from physical in
omponent| plasma membrane | inferred from sequence similarity|GO:0005886//biological process| amino acid transport | inferred from direct assay|GO:00
on| chorismate synthase activity | traceable author statement |GO:0004107//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biolo
on of meiosis | traceable author statement|GO:0040020
ent| nuclear membrane | inferred from direct assay |GO:0005635
ular function| transcription corepressor activity | traceable author statement |GO:0003714//molecular function| RNA polymerase II transcription factor activit
cular function| arsenite transporter activity | inferred from genetic interaction |GO:0015105//cellular component| integral to plasma membrane | inferred fro
ess| steroid biosynthesis | inferred from mutant phenotype|GO:0006694//biological process| steroid biosynthesis | inferred from genetic interaction |GO:000
ent| peroxisome | inferred from direct assay|GO:0005777//biological process| peroxisome organization and biogenesis | traceable author statement|GO:00
onent| integral to endoplasmic reticulum membrane | inferred from direct assay|GO:0030176//cellular component| integral to plasma membrane | inferred fr
on| GTPase activity | inferred from mutant phenotype |GO:0003924//cellular component| late endosome | inferred from mutant phenotype|GO:0005770//bio
n cortical patch (sensu Fungi) | inferred from direct assay|GO:0030479//biological process| actin filament severing | inferred from direct assay|GO:0051014
| inferred from direct assay |GO:0005634
t| extracellular | traceable author statement|GO:0005576//biological process| response to pheromone during conjugation with cellular fusion | traceable aut
llular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| sporulation (sensu Fungi) | inferred from mutant phenotype|GO:0
onent| cytoplasm | inferred from direct assay |GO:0005737//biological process| nuclear migration (sensu Saccharomyces) | inferred from mutant phenotype
ent| nuclear telomere cap complex | inferred from direct assay|GO:0000783//biological process| telomerase-dependent telomere maintenance | inferred fro
ment organization | inferred from physical interaction|GO:0007015//biological process| endocytosis | inferred from mutant phenotype |GO:0006897
0004596//molecular function| peptide alpha-N-acetyltransferase activity | inferred from mutant phenotype |GO:0004596//cellular component| intracellular | i
onent| cytosol | inferred from direct assay|GO:0005829//cellular component| vacuolar membrane (sensu Fungi) | inferred from direct assay |GO:0000329//b
omponent| bud tip | inferred from direct assay|GO:0005934//cellular component| incipient bud site | inferred from direct assay |GO:0000131//biological proc
mponent| nucleus | inferred from direct assay|GO:0005634//biological process| DNA-dependent DNA replication | traceable author statement|GO:0006261
ocess| protein complex assembly | traceable author statement|GO:0006461
r component| cytoplasm | inferred from direct assay|GO:0005737//biological process| protein modification | inferred from direct assay|GO:0006464
45552//molecular function| oxidoreductase activity | inferred from direct assay |GO:0016491//cellular component| cytoplasm | inferred from direct assay|GO
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
ty|GO:0016532//molecular function| superoxide dismutase copper chaperone activity | inferred from mutant phenotype |GO:0016532//molecular function| s
GO:0016758//cellular component| endoplasmic reticulum | inferred from mutant phenotype|GO:0005783//biological process| dolichol-linked oligosaccharid
osome | inferred from physical interaction|GO:0005768//cellular component| endosome | inferred from direct assay |GO:0005768//cellular component| ESC
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process|
03702//cellular component| nucleus | inferred from curator|GO:0005634//biological process| positive regulation of transcription from Pol II promoter | inferre
component| vacuole | inferred from direct assay|GO:0005773//biological process| phospholipid metabolism | inferred from mutant phenotype|GO:0006644/
om sequence similarity|GO:0042626//cellular component| integral to membrane | inferred from sequence similarity|GO:0016021//biological process| transp
nent| proteasome core complex, alpha-subunit complex (sensu Eukarya) | traceable author statement|GO:0019773//cellular component| proteasome core
:0004012//cellular component| plasma membrane | inferred from direct assay|GO:0005886//biological process| intracellular protein transport | inferred from
logical process| mRNA-nucleus export | inferred from curator|GO:0006406
cytoplasm | inferred from direct assay|GO:0005737
n| transcription coactivator activity | inferred from direct assay |GO:0003713//cellular component| nucleus | inferred from sequence similarity|GO:0005634//
ion|GO:0004350//molecular function| glutamate-5-semialdehyde dehydrogenase activity | inferred from direct assay |GO:0004350//cellular component| cyt
ription export complex | inferred from physical interaction|GO:0000346//biological process| mRNA-nucleus export | inferred from genetic interaction|GO:00
42392//cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//biological process| sphingolipid biosynthesis | traceable autho
ar component| mitochondrion | inferred from direct assay|GO:0005739//cellular component| nucleus | inferred from direct assay |GO:0005634//biological pr
y|GO:0008308//molecular function| voltage-dependent ion-selective channel activity | inferred from genetic interaction |GO:0008308//cellular component| m
| inferred from direct assay |GO:0005634//biological process| mRNA polyadenylation | inferred from physical interaction|GO:0006378//biological process|
ponent| spindle microtubule | traceable author statement|GO:0005876//cellular component| kinesin complex | traceable author statement |GO:0005871//bi
0045290//molecular function| aldo-keto reductase activity | inferred from sequence similarity |GO:0004033//molecular function| aldehyde reductase activity
04674//cellular component| nucleus | inferred from sequence similarity|GO:0005634//biological process| mitosis | inferred from expression pattern|GO:0007
nce similarity|GO:0009013//molecular function| succinate-semialdehyde dehydrogenase [NAD(P)+] activity | inferred from mutant phenotype |GO:0009013/
r component| proteasome regulatory particle (sensu Eukarya) | traceable author statement|GO:0005838//biological process| ubiquitin-dependent protein c
nent| small nucleolar ribonucleoprotein complex | inferred from physical interaction|GO:0005732//cellular component| nucleolus | inferred from direct assay
516//cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| nicotinate nucleotide salvage | inferred from direct assay|G
nent| proteasome core complex, beta-subunit complex (sensu Eukarya) | traceable author statement|GO:0019774//cellular component| proteasome core c
00100//molecular function| S-methylmethionine transporter activity | inferred from mutant phenotype |GO:0000100//cellular component| plasma membrane
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
200//molecular function| microtubule motor activity | traceable author statement |GO:0003777//cellular component| spindle microtubule | traceable author s
ar component| mitochondrion | inferred from mutant phenotype|GO:0005739//cellular component| nucleus | inferred from mutant phenotype |GO:0005634//
omponent| cytosol | traceable author statement|GO:0005829//biological process| glycolysis | traceable author statement|GO:0006096//biological process| p
om sequence similarity|GO:0042626//cellular component| integral to membrane | inferred from sequence similarity|GO:0016021//cellular component| endo
lar component| eukaryotic translation initiation factor 2B complex | inferred from direct assay|GO:0005851//cellular component| ribosome | traceable autho
008177//molecular function| succinate dehydrogenase (ubiquinone) activity | inferred from mutant phenotype |GO:0008177//cellular component| respirator
ponent| nucleus | inferred from direct assay|GO:0005634//biological process| pseudohyphal growth | traceable author statement|GO:0007124//biological p
om direct assay|GO:0004639//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct as
vacuole fusion, non-autophagic | inferred from mutant phenotype|GO:0042144
endosome to vacuole transport | inferred from mutant phenotype|GO:0045324
function| histone deacetylase activity | inferred from mutant phenotype |GO:0004407//molecular function| histone deacetylase activity | inferred from direct
ogical process| peroxisome organization and biogenesis | inferred from mutant phenotype|GO:0007031
00010//cellular component| mitochondrion | inferred from mutant phenotype|GO:0005739//biological process| ubiquinone metabolism | inferred from mutan
200//cellular component| condensed nuclear chromosome, pericentric region | inferred from physical interaction|GO:0000780//cellular component| conden
t|GO:0004644//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005
9//biological process| chromatin remodeling | inferred from sequence similarity|GO:0006338//biological process| chromatin remodeling | inferred from direc
cellular component| mitochondrial intermembrane space | traceable author statement|GO:0005758//cellular component| mitochondrion | inferred from direc
(sensu Fungi) | inferred from direct assay |GO:0000324
lar function| GTPase activity | inferred from sequence similarity |GO:0003924//cellular component| intracellular | traceable author statement|GO:0005622//
ent| cytoplasm | inferred from direct assay |GO:0005737
| inferred from direct assay |GO:0005634
ular function| DNA binding | inferred from direct assay |GO:0003677//cellular component| nucleus | inferred from physical interaction|GO:0005634//biologica
mponent| bud neck | inferred from direct assay|GO:0005935//cellular component| bud | inferred from direct assay |GO:0005933//cellular component| site of
32//cellular component| small nucleolar ribonucleoprotein complex | inferred from physical interaction |GO:0005732//biological process| processing of 20S
olecular function| protein-tyrosine kinase activity | inferred from direct assay |GO:0004713//molecular function| protein serine/threonine kinase activity | infe
nt| ubiquitin ligase complex | inferred from sequence similarity|GO:0000151//biological process| ubiquitin-dependent protein catabolism | inferred from seq
onent| membrane | inferred from sequence similarity|GO:0016020//biological process| transport | inferred from sequence similarity|GO:0006810
nent| actin cap (sensu Fungi) | inferred from physical interaction|GO:0030478//cellular component| contractile ring (sensu Saccharomyces) | inferred from
t| nucleolus | inferred from direct assay|GO:0005730//biological process| ribosomal large subunit biogenesis | inferred from mutant phenotype|GO:004227
ar function| phosphate transporter activity | inferred from genetic interaction |GO:0015114//cellular component| membrane | inferred from sequence similar
uclear chromatin | inferred from direct assay|GO:0000790//biological process| DNA replication initiation | inferred from physical interaction|GO:0006270//b
gulation of transcription from Pol III promoter | inferred from physical interaction|GO:0016480//biological process| negative regulation of transcription from
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| sulfur metabolism | inferred from sequence similarity|GO:0006
al process| intra-Golgi transport | inferred from physical interaction|GO:0006891//biological process| intra-Golgi transport | inferred from genetic interaction
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
m physical interaction|GO:0004579//cellular component| oligosaccharyl transferase complex | inferred from physical interaction|GO:0008250//biological proc
plasm | inferred from direct assay |GO:0005737
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
nt|GO:0016251//cellular component| transcription factor TFIIE complex | traceable author statement|GO:0005673//biological process| transcription initiation
ellular component| Arp2/3 protein complex | inferred from direct assay|GO:0005885//biological process| actin filament organization | inferred from mutant p
ecular function| RNA binding | inferred from direct assay |GO:0003723//cellular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable a
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | trac
onent| plasma membrane | inferred from direct assay |GO:0005886//biological process| actin cytoskeleton organization and biogenesis | inferred from muta
|GO:0004048//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
olecular function| transcription regulator activity | inferred from mutant phenotype |GO:0030528//cellular component| nucleus | inferred from direct assay|GO
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
40//cellular component| mitochondrial processing peptidase complex | inferred from direct assay|GO:0017087//biological process| mitochondrial processin
| microsome | inferred from direct assay|GO:0005792//biological process| protein thiol-disulfide exchange | inferred from genetic interaction|GO:0006467
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
onent| chromatin remodeling complex | inferred from direct assay|GO:0016585//biological process| rRNA transcription | inferred from mutant phenotype|GO
tatement|GO:0046961//cellular component| vacuolar membrane (sensu Fungi) | traceable author statement|GO:0000329//cellular component| hydrogen-tr
ll assembly (sensu Fungi) | inferred from mutant phenotype|GO:0030476//biological process| Golgi to plasma membrane transport | inferred from mutant p
| inferred from direct assay |GO:0005634
ent| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nuclear pore | inferred from direct assay |GO:0005643//biological process| res
cellular component| nucleolar preribosome, large subunit precursor | inferred from direct assay|GO:0030687//cellular component| nucleolus | inferred from
0026//cellular component| membrane | inferred from sequence similarity|GO:0016020//cellular component| endoplasmic reticulum | inferred from direct ass
us | inferred from physical interaction|GO:0005634//cellular component| nucleus | inferred from genetic interaction |GO:0005634//biological process| transc
cellular component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277//biological process| cell wall organization and biogenesis | inferred fro
ar function| protein binding, bridging | inferred from mutant phenotype |GO:0030674//cellular component| nucleus | traceable author statement|GO:000563
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
mponent| cytoplasm | inferred from direct assay|GO:0005737//biological process| leucyl-tRNA aminoacylation | inferred from direct assay|GO:0006429
ellular component| actin cable (sensu Fungi) | inferred from direct assay|GO:0030482//cellular component| actin cortical patch (sensu Fungi) | inferred from
| inferred from direct assay |GO:0005634
GO:0000778//biological process| chromosome segregation | traceable author statement|GO:0007059
ecular function| RNA binding | inferred from direct assay |GO:0003723//cellular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable a
354//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biolog
omponent| plasma membrane | inferred from sequence similarity|GO:0005886//biological process| amino acid transport | inferred from direct assay|GO:00
lar component| cytoplasm | inferred from direct assay|GO:0005737
onent| integral to endoplasmic reticulum membrane | inferred from direct assay|GO:0030176//biological process| lipid biosynthesis | inferred from mutant ph
ular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005843//biological process| protein biosynthesis | tra
| peroxisomal matrix | inferred from direct assay|GO:0005782//cellular component| peroxisomal membrane | inferred from direct assay |GO:0005778//cellu
omponent| cytoplasmic exosome (RNase complex) | inferred from direct assay|GO:0000177//cellular component| nuclear exosome (RNase complex) | infe
GO:0004632//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:000563
| inferred from direct assay |GO:0005634//biological process| ribosomal large subunit biogenesis | inferred from physical interaction|GO:0042273//biologica
r function| guanosine-diphosphatase activity | inferred from direct assay |GO:0004382//cellular component| Golgi apparatus | traceable author statement|G
//cellular component| mitochondrial ribosome | inferred from sequence similarity|GO:0005761//biological process| protein biosynthesis | inferred from sequ
unction| alanine racemase activity | inferred from direct assay |GO:0008784//cellular component| intracellular | inferred from curator|GO:0005622//biologic
unction| protein binding | inferred from physical interaction |GO:0005515//molecular function| protein binding | inferred from mutant phenotype |GO:000551
omponent| membrane | inferred from direct assay|GO:0016020//cellular component| intracellular | inferred from direct assay |GO:0005622//biological proce
0004596//cellular component| cytoplasm | inferred from curator|GO:0005737//biological process| protein amino acid acetylation | inferred from sequence si
olecular function| phosphatase activator activity | inferred from mutant phenotype |GO:0019211//biological process| regulation of growth | inferred from mu
ular component| cytosol | inferred from direct assay|GO:0005829//cellular component| mitochondrial intermembrane space | inferred from direct assay |GO
ss| phospholipid metabolism | inferred from mutant phenotype|GO:0006644
biological process| host-pathogen interaction | traceable author statement|GO:0030383//biological process| N-terminal protein amino acid acetylation | infe
5519//cellular component| actin cap (sensu Fungi) | inferred from direct assay|GO:0030478//cellular component| polarisome | traceable author statement |
r component| integral to plasma membrane | inferred from sequence similarity|GO:0005887
lar component| contractile ring (sensu Saccharomyces) | inferred from direct assay|GO:0000142//biological process| actin filament organization | inferred f
omponent| cell cortex | inferred from direct assay |GO:0005938//biological process| cell wall organization and biogenesis | inferred from mutant phenotype|G
840//molecular function| ubiquitin conjugating enzyme activity | inferred from mutant phenotype |GO:0004840//cellular component| cytoplasm | inferred from
m physical interaction|GO:0004579//cellular component| oligosaccharyl transferase complex | inferred from physical interaction|GO:0008250//biological proc
ar component| nucleus | inferred from sequence similarity|GO:0005634//biological process| transcription | inferred from sequence similarity|GO:0006350
200//cellular component| condensed nuclear chromosome, pericentric region | inferred from physical interaction|GO:0000780//cellular component| conden
tatement|GO:0046961//cellular component| vacuole | inferred from direct assay|GO:0005773//cellular component| hydrogen-transporting ATPase V0 doma
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | trac
process| ubiquitin-dependent protein catabolism | inferred from genetic interaction|GO:0006511
nt| cytoplasm | inferred from curator|GO:0005737//biological process| translational initiation | inferred from mutant phenotype|GO:0006413
ular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005843//biological process| regulation of translationa
eck | traceable author statement |GO:0005935//cellular component| bud | traceable author statement |GO:0005933//cellular component| integral to plasma
NA repair | inferred from genetic interaction |GO:0006281//biological process| negative regulation of DNA transposition | inferred from mutant phenotype |G
orulation (sensu Fungi) | inferred from mutant phenotype|GO:0030437//biological process| cell growth and/or maintenance | inferred from mutant phenotyp
:0000751//biological process| cell cycle arrest in response to pheromone | inferred from mutant phenotype |GO:0000751
tatement|GO:0046961//cellular component| vacuolar membrane (sensu Fungi) | traceable author statement|GO:0000329//cellular component| hydrogen-tr
bud neck | inferred from direct assay |GO:0005935//cellular component| bud scar | inferred from direct assay |GO:0005621//biological process| bud site se
ological process| iron ion transport | inferred from sequence similarity|GO:0006826//biological process| iron ion transport | inferred from genetic interaction
GO:0045129//molecular function| NAD-independent histone deacetylase activity | inferred from direct assay |GO:0045129//molecular function| NAD-depen
olus | inferred from direct assay|GO:0005730//cellular component| nucleoplasm | inferred from direct assay |GO:0005654//cellular component| nucleus | inf
essing | inferred from mutant phenotype|GO:0006364//biological process| rRNA processing | inferred from genetic interaction |GO:0006364//biological proc
8028//molecular function| monocarboxylic acid transporter activity | inferred from genetic interaction |GO:0008028//molecular function| transporter activity
O:0000309//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:000563
ular function| biotin carboxylase activity | inferred from mutant phenotype |GO:0004075//molecular function| acetyl-CoA carboxylase activity | inferred from
ar component| eukaryotic translation initiation factor 2B complex | inferred from direct assay|GO:0005851//biological process| translational initiation | inferre
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
tin cortical patch (sensu Fungi) | inferred from physical interaction|GO:0030479//biological process| actin filament organization | inferred from mutant phen
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
cular function| ATP-dependent RNA helicase activity | traceable author statement |GO:0004004//cellular component| spliceosome complex | traceable auth
60//cellular component| mitochondrion | inferred from direct assay|GO:0005739//biological process| endocytosis | inferred from mutant phenotype|GO:0006
contractile ring (sensu Saccharomyces) | traceable author statement|GO:0000142//biological process| axial budding | traceable author statement|GO:000
onent| integral to plasma membrane | inferred from sequence similarity|GO:0005887//cellular component| integral to plasma membrane | inferred from mu
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
6//molecular function| phenylalanine-tRNA ligase activity | inferred from mutant phenotype |GO:0004826//cellular component| phenylalanine-tRNA ligase c
| inferred from direct assay |GO:0005634
ecular function| peptidyltransferase activity | inferred from sequence similarity |GO:0000048//cellular component| mitochondrial large ribosomal subunit | in
molecular function| actin binding | traceable author statement |GO:0003779//cellular component| Arp2/3 protein complex | inferred from direct assay|GO:00
ss| bud site selection | inferred from mutant phenotype|GO:0000282
8028//molecular function| monocarboxylic acid transporter activity | inferred from genetic interaction |GO:0008028//molecular function| transporter activity
ular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005843//biological process| protein biosynthesis | tra
| inferred from direct assay |GO:0005634
ecular function| sodium channel activity | inferred from direct assay |GO:0005272//molecular function| potassium channel activity | inferred from direct assa
olecular function| ARF GTPase activator activity | inferred from direct assay |GO:0008060//molecular function| actin binding | inferred from direct assay |G
autophagy | inferred from mutant phenotype|GO:0006914//biological process| protein-vacuolar targeting | inferred from mutant phenotype |GO:0006623
mponent| cytosol | traceable author statement|GO:0005829//biological process| ergosterol biosynthesis | traceable author statement|GO:0006696
32//cellular component| small nucleolar ribonucleoprotein complex | inferred from physical interaction |GO:0005732//cellular component| nucleolus | inferre
biological process| copper ion homeostasis | inferred from expression pattern|GO:0006878//biological process| sulfur metabolism | inferred from sequence
r function| signal transducer activity | inferred from physical interaction |GO:0004871//cellular component| intracellular | traceable author statement|GO:000
yphal growth | inferred from mutant phenotype|GO:0007124//biological process| invasive growth (sensu Saccharomyces) | inferred from genetic interaction
ecular function| sodium channel activity | inferred from direct assay |GO:0005272//molecular function| potassium channel activity | inferred from direct assa
ular component| mitochondrial outer membrane | inferred from physical interaction|GO:0005741//cellular component| mitochondrial outer membrane | infer
onent| mitochondrial inner membrane | inferred from sequence similarity|GO:0005743//biological process| transport | inferred from sequence similarity|GO
ecular function| glucose transporter activity | inferred from genetic interaction |GO:0005355//molecular function| fructose transporter activity | inferred from
al process| protein complex assembly | inferred from mutant phenotype|GO:0006461//biological process| protein complex assembly | inferred from direct a
8262//molecular function| importin-alpha export receptor activity | inferred from physical interaction |GO:0008262//molecular function| importin-alpha export
cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| chromatin remodeling | inferred from physical interaction|GO:000
/cellular component| bud neck | inferred from direct assay|GO:0005935//cellular component| nucleus | inferred from direct assay |GO:0005634//cellular co
llular component| alpha,alpha-trehalose-phosphate synthase complex (UDP-forming) | inferred from physical interaction|GO:0005946//cellular component|
response to drug | inferred from mutant phenotype|GO:0042493
cular function| zinc ion transporter activity | inferred from mutant phenotype |GO:0005385//cellular component| vacuolar membrane | inferred from direct as
| inferred from direct assay |GO:0005634
nt|GO:0016251//cellular component| transcription factor TFIIH complex | traceable author statement|GO:0005675//biological process| negative regulation o
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
ar function| cytoskeletal protein binding | inferred from physical interaction |GO:0008092//molecular function| cytoskeletal protein binding | inferred from m
l process| Golgi to vacuole transport | inferred from mutant phenotype|GO:0006896
/cellular component| integral to membrane | inferred from sequence similarity|GO:0016021//cellular component| endoplasmic reticulum | inferred from dire
process| conjugation with cellular fusion | inferred from expression pattern|GO:0000747
lular component| spindle | inferred from direct assay|GO:0005819//cellular component| cytoplasm | inferred from direct assay |GO:0005737//cellular comp
agine-tRNA ligase activity | inferred from sequence similarity |GO:0004816//molecular function| asparagine-tRNA ligase activity | inferred from direct assay
57//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biolog
n| kinase activity | inferred from direct assay |GO:0016301//cellular component| shmoo tip | inferred from direct assay|GO:0005937//cellular component| bu
nt| Golgi apparatus | inferred from direct assay |GO:0005794
ar chromosome | inferred from physical interaction|GO:0000228//biological process| DNA repair | inferred from mutant phenotype|GO:0006281
onent| mitochondrial intermembrane space | traceable author statement|GO:0005758//cellular component| cytoplasm | traceable author statement |GO:00
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
/biological process| lipid metabolism | inferred from mutant phenotype|GO:0006629//biological process| lipid metabolism | inferred from genetic interaction
raceable author statement|GO:0005856//cellular component| chaperonin-containing T-complex | traceable author statement |GO:0005832//cellular compo
ecular function| RNA binding | inferred from direct assay |GO:0003723//cellular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable a
olecular function| protein-tyrosine kinase activity | inferred from direct assay |GO:0004713//molecular function| protein serine/threonine kinase activity | infe
nyl-nucleotide exchange factor activity | inferred from direct assay |GO:0005085//cellular component| soluble fraction | inferred from direct assay|GO:0005
n| protein kinase activity | inferred from direct assay |GO:0004672//cellular component| nucleus | inferred from direct assay|GO:0005634//cellular compone
ular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005843//biological process| protein biosynthesis | tra
m sequence similarity|GO:0046933//molecular function| hydrogen-transporting ATP synthase activity, rotational mechanism | inferred from physical interact
olecular function| ammonium transporter activity | inferred from mutant phenotype |GO:0008519//cellular component| plasma membrane | traceable autho
llular component| endoplasmic reticulum membrane | traceable author statement|GO:0005789//cellular component| endoplasmic reticulum membrane | in
GO:0000285//cellular component| vacuolar membrane | traceable author statement|GO:0005774//biological process| vacuole organization and biogenesis |
nsed nuclear chromosome kinetochore | inferred from mutant phenotype|GO:0000778//biological process| chromosome segregation | inferred from mutan
030687//cellular component| nucleolus | inferred from direct assay |GO:0005730//biological process| ribosomal large subunit assembly and maintenance |
0268//cellular component| peroxisomal matrix | traceable author statement|GO:0005782//cellular component| peroxisomal membrane | inferred from direct
| inferred from direct assay |GO:0005634
ecular function| RNA binding | inferred from direct assay |GO:0003723//cellular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable a
9//biological process| sister chromatid cohesion | inferred from mutant phenotype|GO:0007062//biological process| chromatin remodeling | inferred from dir
//cellular component| DNA-directed RNA polymerase III complex | traceable author statement|GO:0005666//biological process| transcription from Pol III pr
gulation of DNA transposition | inferred from mutant phenotype|GO:0000335
mponent| bud neck | inferred from direct assay|GO:0005935//cellular component| cytoplasm | inferred from direct assay |GO:0005737//cellular component|
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | trac
r component| cytosol | traceable author statement|GO:0005829//biological process| fermentation | traceable author statement|GO:0006113
process| regulation of transcription from Pol II promoter | inferred from physical interaction|GO:0006357
slation elongation factor activity | inferred from sequence similarity |GO:0003746//molecular function| translation elongation factor activity | inferred from ge
ponent| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| deo
unction| amino acid transporter activity | inferred from mutant phenotype |GO:0015171//cellular component| integral to plasma membrane | inferred from di
r function| SNAP receptor activity | inferred from physical interaction |GO:0005484//molecular function| SNAP receptor activity | inferred from genetic intera
90//cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//cellular component| cytoplasm | inferred from direct assay |GO:0
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
mponent| mitochondrial inner membrane presequence translocase complex | traceable author statement|GO:0005744//cellular component| mitochondrion |
unction| structural constituent of cytoskeleton | traceable author statement |GO:0005200//cellular component| cytoplasm | inferred from direct assay|GO:00
notype|GO:0003704//cellular component| nucleus | inferred from sequence similarity|GO:0005634//biological process| response to salt stress | inferred from
ne organization and biogenesis | inferred from physical interaction|GO:0016044//biological process| membrane organization and biogenesis | inferred from
olecular function| protein-tyrosine kinase activity | inferred from direct assay |GO:0004713//molecular function| protein serine/threonine kinase activity | infe
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
on|GO:0016455//cellular component| mediator complex | inferred from direct assay|GO:0000119//biological process| transcription from Pol II promoter | inf
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological
ar component| Golgi trans face | inferred from direct assay|GO:0005802//biological process| peptide pheromone maturation | inferred from mutant phenoty
ecular function| mannosyltransferase activity | inferred from mutant phenotype |GO:0000030//molecular function| mannosyltransferase activity | inferred fro
ecular function| RNA binding | inferred from direct assay |GO:0003723//cellular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable a
749//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| regulation of cell size | inferred from direct assay|GO:000
5//cellular component| mitochondrion | inferred from direct assay|GO:0005739//biological process| protein folding | inferred from direct assay|GO:0006457
hondrial chromosome | inferred from direct assay|GO:0000262//biological process| DNA repair | inferred from mutant phenotype|GO:0006281//biological pr
component| nucleolus | traceable author statement|GO:0005730//biological process| regulation of exit from mitosis | inferred from physical interaction|GO:0
onent| nucleoplasm | inferred from direct assay|GO:0005654//cellular component| nuclear inner membrane | inferred from direct assay |GO:0005637//biolo
0016455//cellular component| mediator complex | inferred from direct assay|GO:0000119//biological process| transcription from Pol II promoter | inferred fr
| cytoplasm | inferred from direct assay|GO:0005737//biological process| ribosome biogenesis and assembly | inferred from mutant phenotype|GO:004225
//cellular component| DNA-directed RNA polymerase II, core complex | traceable author statement|GO:0005665//biological process| transcription from Pol
llular component| ribosome | traceable author statement|GO:0005840//biological process| translational elongation | traceable author statement|GO:000641
ar component| nucleus | inferred from sequence similarity|GO:0005634//biological process| regulation of transcription, DNA-dependent | inferred from sequ
nt| COPI vesicle coat | inferred from sequence similarity |GO:0030126//cellular component| COPI vesicle coat | inferred from genetic interaction |GO:0030
r component| nucleus | traceable author statement|GO:0005634//biological process| regulation of transcription, DNA-dependent | traceable author stateme
nt|GO:0016251//cellular component| SWI/SNF complex | traceable author statement|GO:0016514//cellular component| nucleosome remodeling complex |
| inferred from direct assay |GO:0005634
0000140//cellular component| lipid particle | inferred from direct assay|GO:0005811//cellular component| endoplasmic reticulum | inferred from direct assa
r membrane (sensu Fungi) | inferred from direct assay |GO:0000329
r function| casein kinase I activity | inferred from mutant phenotype |GO:0004681//cellular component| plasma membrane | inferred from direct assay|GO:0
tonemal complex | traceable author statement|GO:0000795//cellular component| condensed nuclear chromosome | inferred from direct assay |GO:000079
chondrial matrix protein import | inferred from physical interaction|GO:0030150
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | trac
ular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005843//biological process| protein biosynthesis | tra
ng | inferred from genetic interaction|GO:0007121//biological process| response to stress | inferred from genetic interaction |GO:0006950
signal transduction | inferred from mutant phenotype|GO:0007165
endoplasmic reticulum | inferred from direct assay|GO:0005783//biological process| ceramide metabolism | inferred from mutant phenotype|GO:0006672
mponent| cytoplasm | inferred from direct assay|GO:0005737
| inferred from direct assay |GO:0016887//cellular component| endoplasmic reticulum lumen | inferred from direct assay|GO:0005788//biological process|
/cellular component| nucleus | inferred from physical interaction|GO:0005634//biological process| mRNA capping | traceable author statement|GO:0006370
ss| response to unfolded protein | inferred from sequence similarity|GO:0006986//biological process| response to unfolded protein | inferred from mutant p
nent| proteasome core complex, beta-subunit complex (sensu Eukarya) | traceable author statement|GO:0019774//cellular component| proteasome core c
ular function| transcriptional activator activity | inferred from direct assay |GO:0016563//cellular component| nucleus | inferred from direct assay|GO:000563
r component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological proces
nction| ferroxidase activity | inferred from genetic interaction |GO:0004322//cellular component| vacuolar membrane (sensu Fungi) | inferred from direct ass
1//cellular component| respiratory chain complex III (sensu Eukarya) | inferred from direct assay|GO:0005750//biological process| aerobic respiration | infe
nt|GO:0003704//cellular component| nucleus | traceable author statement|GO:0005634//biological process| regulation of transcription from Pol II promoter
function| water channel activity | inferred from mutant phenotype |GO:0015250//molecular function| water channel activity | inferred from genetic interactio
| inferred from direct assay |GO:0005634
n| transcription coactivator activity | traceable author statement |GO:0003713//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cel
onent| clathrin-coated vesicle | inferred from direct assay|GO:0030136//biological process| intracellular protein transport | inferred from sequence similarity|
ent| integral to membrane of membrane fraction | inferred from direct assay |GO:0000299//biological process| ER to Golgi transport | inferred from mutant
mponent| cytoplasm | inferred from direct assay|GO:0005737//biological process| cell ion homeostasis | inferred from mutant phenotype|GO:0006873//biol
component| nucleus | inferred from direct assay|GO:0005634//biological process| snRNA modification | inferred from direct assay|GO:0040031//biological
mponent| membrane | inferred from direct assay|GO:0016020//biological process| protein amino acid palmitoylation | inferred from direct assay|GO:001831
ular function| transcription factor activity | inferred from genetic interaction |GO:0003700//cellular component| nucleus | inferred from direct assay|GO:0005
005088//molecular function| guanyl-nucleotide exchange factor activity | traceable author statement |GO:0005085//molecular function| signal transducer a
cytoplasm | inferred from direct assay |GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| response
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
component| lipid particle | inferred from direct assay|GO:0005811//cellular component| endoplasmic reticulum | inferred from direct assay |GO:0005783//c
400//cellular component| cell | traceable author statement|GO:0005623//biological process| histidine biosynthesis | traceable author statement|GO:0000105
O:0016944//molecular function| Pol II transcription elongation factor activity | inferred from mutant phenotype |GO:0016944//molecular function| histone ace
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | trac
process| secretory pathway | inferred from mutant phenotype|GO:0045045
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| cell cycle | inferred from genetic interaction|GO:0007049//biolo
rganization and biogenesis | inferred from mutant phenotype|GO:0007047
lar component| eukaryotic translation initiation factor 2B complex | inferred from direct assay|GO:0005851//cellular component| ribosome | traceable autho
09//cellular component| vacuolar membrane (sensu Fungi) | traceable author statement|GO:0000329//cellular component| Golgi membrane | traceable au
725//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| response to oxidative stress | inferred from mutant pheno
0176//cellular component| integral to membrane | inferred from sequence similarity |GO:0016021
ecular function| di-, tri-valent inorganic cation transporter activity | inferred from sequence similarity |GO:0015082//molecular function| zinc ion transporter a
e similarity|GO:0004702//molecular function| receptor signaling protein serine/threonine kinase activity | inferred from mutant phenotype |GO:0004702//cel
| inferred from direct assay |GO:0005634//biological process| processing of 20S pre-rRNA | inferred from mutant phenotype|GO:0030490
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
olecular function| DNA binding | inferred from physical interaction |GO:0003677//cellular component| nucleus | inferred from direct assay|GO:0005634//biol
omponent| mitochondrial membrane | inferred from direct assay|GO:0005740//biological process| arginine biosynthesis | inferred from mutant phenotype|G
ular component| membrane | inferred from direct assay|GO:0016020//biological process| phospholipid metabolism | inferred from mutant phenotype|GO:00
metabolism | inferred from genetic interaction |GO:0006259
ecular function| multidrug transporter activity | inferred from mutant phenotype |GO:0015239//molecular function| amine/polyamine transporter activity | inf
m sequence similarity|GO:0016810//cellular component| mitochondrion | inferred from direct assay|GO:0005739//cellular component| cytoplasm | inferred
mitochondrial inner membrane peptidase complex | inferred from direct assay|GO:0042720//biological process| mitochondrial processing | inferred from dire
cular function| riboflavin synthase activity | inferred from direct assay |GO:0004746//cellular component| soluble fraction | inferred from direct assay|GO:000
omponent| nucleus | inferred from direct assay|GO:0005634//cellular component| nuclear chromosome | inferred from direct assay |GO:0000228//biologica
vacuolar membrane | traceable author statement|GO:0005774//biological process| vesicle fusion | traceable author statement|GO:0006906
ecular function| RNA binding | inferred from direct assay |GO:0003723//cellular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable a
ysical interaction|GO:0005847//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| transcription termination from Po
on| DNA helicase activity | inferred from direct assay |GO:0003678//cellular component| nucleus | inferred from curator|GO:0005634//biological process| te
ear nucleosome | traceable author statement|GO:0000788//biological process| chromatin assembly/disassembly | traceable author statement|GO:0006333
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | trac
component| delta DNA polymerase complex | traceable author statement|GO:0005659//cellular component| nucleus | inferred from direct assay |GO:0005
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
RNA binding | inferred from mutant phenotype |GO:0003723//molecular function| RNA binding | inferred from direct assay |GO:0003723//cellular compone
milarity|GO:0004066//molecular function| asparagine synthase (glutamine-hydrolyzing) activity | inferred from mutant phenotype |GO:0004066//cellular com
cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| nuclear mRNA splicing, via spliceosome | inferred from direct ass
component| actin cortical patch (sensu Fungi) | inferred from direct assay|GO:0030479//cellular component| plasma membrane | inferred from direct assay
lar function| HDEL sequence binding | inferred from mutant phenotype |GO:0045015//molecular function| HDEL sequence binding | inferred from genetic in
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological
//cellular component| DNA-directed RNA polymerase I complex | traceable author statement|GO:0005736//cellular component| nucleolus | inferred from di
mponent| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| pe
onent| vesicle coat | inferred from direct assay|GO:0030120//biological process| vesicle-mediated transport | inferred from direct assay|GO:0016192//biolo
mponent| cytoplasm | inferred from direct assay|GO:0005737
| inferred from direct assay |GO:0005634
ar component| mitochondrion | inferred from direct assay|GO:0005739//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biologica
nce similarity|GO:0042800//molecular function| histone lysine N-methyltransferase activity (H3-K4 specific) | inferred from mutant phenotype |GO:0042800/
|GO:0003704//cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| leucine biosynthesis | inferred from mutant pheno
mponent| nuclear pore | inferred from direct assay|GO:0005643//biological process| nuclear pore organization and biogenesis | traceable author statement|
ponent| nucleus | traceable author statement|GO:0005634//biological process| invasive growth (sensu Saccharomyces) | inferred from genetic interaction|G
0000095//molecular function| S-adenosylmethionine transporter activity | inferred from mutant phenotype |GO:0000095//cellular component| plasma memb
O:0016538//cellular component| cyclin-dependent protein kinase holoenzyme complex | traceable author statement|GO:0000307//biological process| cell cy
ar component| condensed nuclear chromosome | inferred from direct assay|GO:0000794//biological process| mitotic chromosome condensation | inferred
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
cular function| cardiolipin synthase activity | inferred from direct assay |GO:0008808//cellular component| mitochondrial membrane | inferred from direct ass
ytosol | traceable author statement|GO:0005829//biological process| arginine catabolism to ornithine | traceable author statement|GO:0019547
ed from direct assay |GO:0051082//cellular component| nucleolus | inferred from direct assay|GO:0005730//cellular component| nucleus | inferred from dire
lar component| eukaryotic translation initiation factor 2B complex | inferred from direct assay|GO:0005851//cellular component| ribosome | traceable autho
nce similarity|GO:0008757//cellular component| cytoplasm | inferred from direct assay|GO:0005737
200//cellular component| DASH complex | inferred from physical interaction|GO:0042729//cellular component| DASH complex | inferred from direct assay |
nt| cytoplasm | inferred from direct assay|GO:0005737//cellular component| cytoplasmic mRNA processing body | inferred from direct assay |GO:0000932
function| protein kinase activity | inferred from direct assay |GO:0004672//cellular component| membrane fraction | inferred from direct assay|GO:0005624
function| maltose:hydrogen symporter activity | inferred from mutant phenotype |GO:0005364//molecular function| alpha-glucoside:hydrogen symporter act
/cellular component| cytosol | traceable author statement|GO:0005829//biological process| glycolysis | traceable author statement|GO:0006096//biological
eck | traceable author statement |GO:0005935//cellular component| bud | traceable author statement |GO:0005933//cellular component| integral to plasma
ular component| late endosome | inferred from direct assay|GO:0005770//cellular component| integral to membrane of membrane fraction | inferred from d
cellular component| lipid particle | inferred from direct assay|GO:0005811//cellular component| endoplasmic reticulum | traceable author statement |GO:00
ar function| protein binding, bridging | inferred from mutant phenotype |GO:0030674//cellular component| nucleolus | inferred from direct assay|GO:000573
nt|GO:0016251//cellular component| SWI/SNF complex | traceable author statement|GO:0016514//cellular component| nucleosome remodeling complex |
ular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005843//biological process| protein biosynthesis | tra
nction| allantoinase activity | inferred from mutant phenotype |GO:0004038//cellular component| intracellular | inferred from curator|GO:0005622//biologica
nt| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| nucleoba
0016455//cellular component| nucleus | inferred from direct assay|GO:0005634//cellular component| mediator complex | inferred from direct assay |GO:00
organization and biogenesis | inferred from mutant phenotype|GO:0007047
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
election | inferred from mutant phenotype|GO:0000282
/cellular component| small nuclear ribonucleoprotein complex | inferred from direct assay|GO:0030532//biological process| nuclear mRNA splicing, via spl
mponent| nuclear pore | inferred from direct assay|GO:0005643//biological process| nuclear pore organization and biogenesis | traceable author statement|
l process| vesicle-mediated transport | inferred from sequence similarity|GO:0016192
mponent| mitochondrial inner membrane protein insertion complex | inferred from direct assay|GO:0042721//biological process| mitochondrial inner membra
ular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005843//biological process| protein biosynthesis | tra
membrane | inferred from direct assay |GO:0005635//cellular component| nuclear chromosome | inferred from direct assay |GO:0000228//biological proces
0003755//cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//cellular component| cytoplasm | inferred from direct assay |
r function| glucose transporter activity | traceable author statement |GO:0005355//molecular function| glucose transporter activity | inferred from direct assa
process| nuclear mRNA splicing, via spliceosome | inferred from genetic interaction|GO:0000398
9//biological process| UDP-galactose transport | inferred from mutant phenotype|GO:0015785
molecular function| transcription coactivator activity | inferred from physical interaction |GO:0003713//molecular function| transcription coactivator activity |
omponent| endoplasmic reticulum | traceable author statement|GO:0005783//biological process| ergosterol biosynthesis | traceable author statement|GO:0
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
mponent| clathrin vesicle coat | traceable author statement|GO:0030125//biological process| vesicle-mediated transport | traceable author statement|GO:00
cellular component| mannosyltransferase complex | inferred from direct assay|GO:0000136//biological process| actin filament organization | inferred from m
ar component| microsome | inferred from direct assay|GO:0005792//biological process| electron transport | inferred from direct assay|GO:0006118
016791//cellular component| vacuole (sensu Fungi) | inferred from direct assay|GO:0000324
cellular component| Golgi membrane | traceable author statement|GO:0000139//biological process| protein-Golgi retention | inferred from mutant phenotyp
ntegral to plasma membrane | traceable author statement|GO:0005887//biological process| vesicle fusion | traceable author statement|GO:0006906//biolo
olecular function| ubiquitin-protein ligase activity | inferred from mutant phenotype |GO:0004842//molecular function| ubiquitin-protein ligase activity | inferr
membrane | inferred from direct assay|GO:0016020//biological process| vesicle fusion | traceable author statement|GO:0006906//biological process| intra-
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | trac
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
7//molecular function| signal recognition particle binding | inferred from mutant phenotype |GO:0005047//cellular component| endoplasmic reticulum membr
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
ponent| spindle pole body | inferred from direct assay|GO:0005816//biological process| mitotic spindle checkpoint | inferred from mutant phenotype|GO:000
llular component| endoplasmic reticulum membrane | inferred from direct assay|GO:0005789//biological process| positive regulation of transcription from P
transport | inferred from mutant phenotype|GO:0006888
kinetochore | inferred from direct assay |GO:0000776
ess| peroxisome organization and biogenesis | inferred from mutant phenotype|GO:0007031//biological process| peroxisome organization and biogenesis
ponent| cytoplasm | inferred from direct assay|GO:0005737//biological process| seryl-tRNA aminoacylation | inferred from direct assay|GO:0006434
onent| nucleoplasm | inferred from direct assay|GO:0005654//cellular component| nuclear inner membrane | inferred from direct assay |GO:0005637//biolo
nt| nucleus | inferred from curator|GO:0005634//biological process| telomerase-independent telomere maintenance | inferred from genetic interaction|GO:0
lar function| transcriptional activator activity | traceable author statement |GO:0016563//molecular function| DNA binding | inferred from physical interaction
004861//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//b
07//molecular function| triose-phosphate isomerase activity | inferred from mutant phenotype |GO:0004807//cellular component| cytosol | traceable author
:0004310//cellular component| endoplasmic reticulum | traceable author statement|GO:0005783//biological process| ergosterol biosynthesis | traceable au
ular component| mitochondrial large ribosomal subunit | traceable author statement|GO:0005762//cellular component| mitochondrial large ribosomal subun
mponent| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| res
nent| lipid particle | inferred from direct assay|GO:0005811//cellular component| cytoplasm | inferred from direct assay |GO:0005737
onent| plasma membrane | inferred from direct assay|GO:0005886//biological process| sulfite transport | inferred from direct assay|GO:0000316
|GO:0003704//cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| positive regulation of transcription from Pol II prom
nt| shmoo tip | inferred from direct assay|GO:0005937//cellular component| plasma membrane | inferred from sequence similarity |GO:0005886//biological
n| protein binding, bridging | inferred from direct assay |GO:0030674//molecular function| microtubule binding | inferred from direct assay |GO:0008017//cel
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
s| ER to Golgi transport | inferred from physical interaction|GO:0006888
ent| integral to membrane | inferred from direct assay |GO:0016021//cellular component| mitochondrial inner membrane | inferred from direct assay |GO:0
ent| peroxisome | inferred from sequence similarity|GO:0005777//biological process| peroxisome organization and biogenesis | traceable author statement
O:0016944//molecular function| Pol II transcription elongation factor activity | inferred from mutant phenotype |GO:0016944//cellular component| transcriptio
ss| cell wall organization and biogenesis | inferred from mutant phenotype|GO:0007047//biological process| agglutination during conjugation with cellular fu
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
onent| membrane | inferred from sequence similarity|GO:0016020//biological process| transport | inferred from sequence similarity|GO:0006810
//cellular component| DNA-directed RNA polymerase I complex | traceable author statement|GO:0005736//biological process| transcription from Pol I prom
arge subunit biogenesis | inferred from physical interaction|GO:0042273//biological process| ribosomal large subunit biogenesis | inferred from mutant phe
omponent| cytoplasmic exosome (RNase complex) | inferred from direct assay|GO:0000177//cellular component| nuclear exosome (RNase complex) | infe
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
O:0030364//molecular function| cleavage/polyadenylation specificity factor activity | inferred from physical interaction |GO:0030364//cellular component| m
O:0030508//molecular function| thiol-disulfide exchange intermediate activity | inferred from mutant phenotype |GO:0030508//molecular function| thiol-disu
cellular component| small nuclear ribonucleoprotein complex | traceable author statement|GO:0030532//cellular component| small nucleolar ribonucleopro
ty|GO:0004375//molecular function| glycine dehydrogenase (decarboxylating) activity | inferred from mutant phenotype |GO:0004375//cellular component|
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | trac
ular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005843//biological process| protein biosynthesis | tra
:0042175//cellular component| membrane | inferred from sequence similarity |GO:0016020//biological process| GPI anchor biosynthesis | inferred from dire
| inferred from physical interaction|GO:0006281
r component| mitochondrion | inferred from direct assay |GO:0005739//biological process| proteolysis and peptidolysis | inferred from physical interaction|G
mponent| membrane | inferred from sequence similarity|GO:0016020//biological process| vesicle-mediated transport | traceable author statement|GO:0016
omponent| respiratory chain complex IV (sensu Eukarya) | inferred from physical interaction|GO:0005751//biological process| aerobic respiration | traceabl
m | inferred from direct assay |GO:0005737
004733//molecular function| pyridoxamine-phosphate oxidase activity | inferred from mutant phenotype |GO:0004733//biological process| fatty acid metabo
function| cyclohydrolase activity | inferred from genetic interaction |GO:0019238//cellular component| cytoplasm | inferred from direct assay|GO:0005737//c
olecular function| transcriptional activator activity | inferred from direct assay |GO:0016563//cellular component| nucleus | inferred from direct assay|GO:00
inferred from direct assay |GO:0016887//cellular component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277//cellular component| cytoplas
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
ecular function| RNA binding | inferred from direct assay |GO:0003723//cellular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable a
one acetylation | inferred from physical interaction|GO:0016573
ecular function| mannosyltransferase activity | inferred from mutant phenotype |GO:0000030//cellular component| membrane fraction | inferred from seque
ect assay|GO:0016772//cellular component| membrane fraction | inferred from direct assay|GO:0005624//biological process| mannosyl diphosphorylinosito
/cellular component| lipid particle | inferred from direct assay|GO:0005811//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biolog
ction| H3/H4 histone acetyltransferase activity | inferred from direct assay |GO:0004406//cellular component| nuclear chromatin | inferred from direct assay
ty|GO:0004375//molecular function| glycine dehydrogenase (decarboxylating) activity | inferred from mutant phenotype |GO:0004375//cellular component|
morphogenesis | inferred from sequence similarity|GO:0000902//biological process| cellular morphogenesis | inferred from mutant phenotype |GO:0000902
6//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biologic
otype|GO:0004318//molecular function| 3-hydroxypalmitoyl-[acyl-carrier protein] dehydratase activity | inferred from mutant phenotype |GO:0004317//molec
ement|GO:0004591//cellular component| mitochondrial nucleoid | inferred from direct assay|GO:0042645//cellular component| mitochondrial matrix | tracea
ular function| transcription factor activity | inferred from mutant phenotype |GO:0003700//cellular component| nucleus | inferred from direct assay|GO:0005
l process| vesicle-mediated transport | inferred from sequence similarity|GO:0016192
lular component| cytosol | inferred from physical interaction |GO:0005829//biological process| regulation of translational elongation | inferred from physical
on| aldo-keto reductase activity | inferred from sequence similarity |GO:0004033//molecular function| aldehyde reductase activity | inferred from direct assa
onent| mitochondrial outer membrane | inferred from direct assay|GO:0005741//biological process| mitochondrial fusion | inferred from physical interaction
4326//cellular component| mitochondrion | inferred from direct assay|GO:0005739//cellular component| cytoplasm | inferred from direct assay |GO:000573
onse to radiation | inferred from mutant phenotype|GO:0009314
ular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005843//cellular component| cytoplasm | inferred from
lecular function| protein disulfide isomerase activity | inferred from mutant phenotype |GO:0003756//cellular component| endoplasmic reticulum | inferred fr
m sequence similarity |GO:0051082//molecular function| ATPase activity | inferred from direct assay |GO:0016887//cellular component| polysome | traceab
r component| kinesin complex | inferred from direct assay|GO:0005871//cellular component| spindle pole body | inferred from direct assay |GO:0005816//b
0003755//cellular component| endoplasmic reticulum membrane | inferred from sequence similarity|GO:0005789//cellular component| endoplasmic reticulu
biogenesis | inferred from mutant phenotype|GO:0007046//biological process| rRNA processing | inferred from mutant phenotype |GO:0006364
unction| microtubule binding | inferred from physical interaction |GO:0008017//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cel
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
ntegral to membrane | non-traceable author statement|GO:0016021//cellular component| integral to membrane | inferred from sequence similarity |GO:001
ent|GO:0004608//cellular component| endoplasmic reticulum | traceable author statement|GO:0005783//biological process| phosphatidylcholine biosynthes
//cellular component| DNA-directed RNA polymerase I complex | traceable author statement|GO:0005736//cellular component| DNA-directed RNA polyme
t| COPI vesicle coat | inferred from sequence similarity|GO:0030126//cellular component| COPI vesicle coat | inferred from mutant phenotype |GO:003012
ular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005843//biological process| protein biosynthesis | tra
5//cellular component| peroxisomal matrix | inferred from direct assay|GO:0005782//biological process| fatty acid beta-oxidation | traceable author statemen
onent| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleolus | inferred from direct assay |GO:0005730//biological process| ribo
ar component| nucleus | inferred from physical interaction|GO:0005634//biological process| tRNA modification | inferred from direct assay|GO:0006400
nt| nucleus | inferred from curator|GO:0005634//biological process| telomerase-independent telomere maintenance | inferred from genetic interaction|GO:0
ellular component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277//biological process| proteolysis and peptidolysis | inferred from mutant p
pore | inferred from direct assay |GO:0005643//biological process| mRNA-nucleus export | inferred from genetic interaction|GO:0006406
pyrimidine base metabolism | inferred from mutant phenotype|GO:0006206
n| protein binding | inferred from genetic interaction |GO:0005515//cellular component| exocyst | traceable author statement|GO:0000145//cellular compon
ular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological proc
ponent| cytoplasm | inferred from direct assay|GO:0005737//biological process| peptidyl-diphthamide biosynthesis from peptidyl-histidine | inferred from dir
| inferred from direct assay |GO:0005634//biological process| negative regulation of gluconeogenesis | inferred from mutant phenotype|GO:0045721
omatin remodeling complex | inferred from direct assay|GO:0016585//biological process| transcription from Pol II promoter | inferred from mutant phenotyp
ecular function| RNA binding | inferred from direct assay |GO:0003723//cellular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable a
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | trac
ss| meiotic recombination | inferred from mutant phenotype|GO:0007131
GO:0004425//molecular function| indole-3-glycerol-phosphate synthase activity | inferred from genetic interaction |GO:0004425//molecular function| indole-
nt| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634
erred from mutant phenotype|GO:0007126//biological process| ER to Golgi transport | inferred from mutant phenotype |GO:0006888
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| translational elongation |
//cellular component| DNA-directed RNA polymerase II, core complex | traceable author statement|GO:0005665//biological process| transcription from Pol
uctural constituent of chromatin | traceable author statement |GO:0030527//cellular component| nuclear telomeric heterochromatin | inferred from direct as
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
nt| mitochondrial intermembrane space | inferred from direct assay|GO:0005758//cellular component| mitochondrion | traceable author statement |GO:0005
mponent| nuclear pore | inferred from direct assay|GO:0005643//biological process| nuclear pore organization and biogenesis | traceable author statement|
clear chromosome | inferred from direct assay|GO:0000228//biological process| regulation of transcription from Pol II promoter | inferred from direct assay|G
| iron ion homeostasis | inferred from sequence similarity|GO:0006879//biological process| iron ion homeostasis | inferred from mutant phenotype |GO:000
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
96//molecular function| glycogen synthase kinase 3 activity | inferred from genetic interaction |GO:0004696//cellular component| cytoplasm | inferred from d
mponent| Golgi transport complex | inferred from physical interaction|GO:0017119//cellular component| soluble fraction | inferred from direct assay |GO:000
| inferred from direct assay |GO:0005634//biological process| meiotic chromosome segregation | inferred from mutant phenotype|GO:0045132
component| cytosol | traceable author statement|GO:0005829//cellular component| nucleus | traceable author statement |GO:0005634//biological process|
gical process| synapsis | inferred from mutant phenotype|GO:0007129
ular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005843//biological process| protein biosynthesis | tra
cleus | inferred from direct assay|GO:0005634//biological process| negative regulation of transcription from Pol II promoter | inferred from mutant phenotyp
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | trac
lar component| vacuolar membrane | inferred from direct assay|GO:0005774//biological process| carbohydrate metabolism | inferred from sequence simila
unction| structural constituent of cytoskeleton | traceable author statement |GO:0005200//cellular component| shmoo tip | inferred from direct assay|GO:00
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
ular function| Gly-X carboxypeptidase activity | inferred from mutant phenotype |GO:0004226//cellular component| vacuole (sensu Fungi) | traceable autho
molecular function| glutathione transferase activity | inferred from direct assay |GO:0004364//cellular component| cell | traceable author statement|GO:0005
onent| mitochondrial inner membrane | inferred from sequence similarity|GO:0005743//biological process| transport | inferred from sequence similarity|GO
ular function| 3'-5' exonuclease activity | inferred from mutant phenotype |GO:0008408//cellular component| nucleolus | inferred from direct assay|GO:0005
ellular component| Arp2/3 protein complex | inferred from direct assay|GO:0005885//biological process| actin filament organization | inferred from mutant p
ponent| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| end
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
l process| sulfur metabolism | inferred from mutant phenotype|GO:0006790//biological process| sulfur metabolism | inferred from direct assay |GO:000679
ar component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological proces
function| histone deacetylase activity | inferred from sequence similarity |GO:0004407//cellular component| histone deacetylase complex | traceable autho
onent| membrane | inferred from sequence similarity|GO:0016020//biological process| transport | inferred from sequence similarity|GO:0006810
morphogenesis during conjugation with cellular fusion | inferred from mutant phenotype|GO:0000753
| inferred from direct assay |GO:0005634
| inferred from direct assay |GO:0005634
ecular function| RNA binding | inferred from direct assay |GO:0003723//cellular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable a
ndoplasmic reticulum membrane | inferred from direct assay|GO:0005789//cellular component| Golgi membrane | inferred from direct assay |GO:0000139/
component| shmoo tip | traceable author statement|GO:0005937//cellular component| bud neck | inferred from direct assay |GO:0005935//cellular compon
eubiquitination | inferred from mutant phenotype|GO:0016579
38//cellular component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277//biological process| cytokinesis, completion of separation | inferred
5175//molecular function| neutral amino acid transporter activity | inferred from mutant phenotype |GO:0015175//molecular function| neutral amino acid tran
on| clathrin binding | inferred from physical interaction |GO:0030276//cellular component| AP-1 adaptor complex | inferred from sequence similarity|GO:003
mponent| mitochondrial inner membrane | inferred from sequence similarity|GO:0005743//biological process| tricarboxylic acid transport | inferred from dire
ponent| cytosol | inferred from direct assay|GO:0005829//biological process| acetate fermentation | inferred from mutant phenotype|GO:0019654//biologica
ular component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277//biological process| cell wall organization and biogenesis | inferred from c
t| shmoo tip | inferred from direct assay|GO:0005937//cellular component| bud neck | inferred from direct assay |GO:0005935//cellular component| bud tip
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
03701//molecular function| ribosomal DNA (rDNA) binding | traceable author statement |GO:0000182//cellular component| RNA polymerase I upstream ac
8559//cellular component| integral to plasma membrane | inferred from direct assay|GO:0005887//biological process| response to drug | inferred from muta
olecular function| Rho GTPase activator activity | inferred from physical interaction |GO:0005100//molecular function| signal transducer activity | inferred fro
d from direct assay |GO:0051082//cellular component| nucleus | inferred from direct assay|GO:0005634//cellular component| proteasome complex (sensu
ent| cytoplasm | inferred from direct assay |GO:0005737
ect assay|GO:0008534//cellular component| mitochondrion | inferred from direct assay|GO:0005739//biological process| base-excision repair, AP site form
oldin complex | inferred from sequence similarity|GO:0016272//cellular component| prefoldin complex | inferred from physical interaction |GO:0016272//cel
onent| cytoplasm | inferred from direct assay|GO:0005737//biological process| allantoin catabolism | traceable author statement|GO:0000256
nent| nucleolus | traceable author statement|GO:0005730//biological process| 35S primary transcript processing | traceable author statement|GO:0006365
04674//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| regulation of meiosis | inferred from mutant phenotype|G
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | trac
ular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005843//biological process| protein biosynthesis | tra
y|GO:0015082//molecular function| di-, tri-valent inorganic cation transporter activity | inferred from mutant phenotype |GO:0015082//cellular component| p
unction| protein transporter activity | inferred from physical interaction |GO:0008565//cellular component| mitochondrial outer membrane translocase compl
case activity | inferred from sequence similarity |GO:0004386//cellular component| nucleus | inferred from curator|GO:0005634//biological process| regulati
| inferred from direct assay |GO:0005634
nent| signalosome complex | inferred from direct assay |GO:0008180//biological process| protein deneddylation | inferred from mutant phenotype|GO:0000
eck | traceable author statement |GO:0005935//cellular component| bud | traceable author statement |GO:0005933//cellular component| integral to plasma
ecular function| aldehyde reductase activity | inferred from direct assay |GO:0004032//cellular component| cytoplasm | inferred from direct assay|GO:00057
//molecular function| GPI-anchor transamidase activity | inferred from mutant phenotype |GO:0003923//cellular component| integral to endoplasmic reticul
nsporter activity | inferred from physical interaction |GO:0008565//molecular function| protein transporter activity | inferred from mutant phenotype |GO:000
ecular function| glucose transporter activity | inferred from genetic interaction |GO:0005355//molecular function| glucose transporter activity | inferred from d
ular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005843//biological process| protein biosynthesis | tra
mponent| nuclear membrane | inferred from direct assay|GO:0005635//biological process| nucleocytoplasmic transport | inferred from mutant phenotype|GO
on| GTPase activity | inferred from physical interaction |GO:0003924//cellular component| Golgi apparatus | traceable author statement|GO:0005794//biolo
| inferred from direct assay |GO:0005634//cellular component| nuclear chromosome | inferred from direct assay |GO:0000228//biological process| homolog
| GINS complex | inferred from physical interaction|GO:0000811//biological process| DNA-dependent DNA replication | inferred from mutant phenotype|GO
GO:0004722//cellular component| cytoplasm | inferred from physical interaction|GO:0005737//biological process| G1/S transition of mitotic cell cycle | inferr
ent| COPII-coated vesicle | inferred from direct assay|GO:0030138//cellular component| endoplasmic reticulum membrane | inferred from direct assay |GO
component| mitochondrial matrix | inferred from direct assay|GO:0005759//cellular component| soluble fraction | inferred from direct assay |GO:0005625//b
004750//molecular function| ribulose-phosphate 3-epimerase activity | inferred from mutant phenotype |GO:0004750//molecular function| ribulose-phospha
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | trac
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
m physical interaction|GO:0046933//molecular function| hydrogen-transporting ATP synthase activity, rotational mechanism | inferred from mutant phenotyp
ular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005843//cellular component| cytoplasm | inferred from
//cellular component| DNA-directed RNA polymerase III complex | traceable author statement|GO:0005666//biological process| transcription from Pol III pr
0003711//cellular component| nucleus | traceable author statement|GO:0005634//biological process| negative regulation of transcription from Pol II promot
tatement|GO:0046961//cellular component| vacuolar membrane (sensu Fungi) | traceable author statement|GO:0000329//cellular component| hydrogen-tr
olgi to endosome transport | inferred from mutant phenotype|GO:0006895//biological process| ER to Golgi transport | inferred from mutant phenotype |GO:
on| ribonuclease MRP activity | inferred from direct assay |GO:0000171//cellular component| nucleolar ribonuclease P complex | inferred from direct assay|
ecular function| RNA binding | inferred from direct assay |GO:0003723//cellular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable a
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
component| plasma membrane | inferred from direct assay|GO:0005886//biological process| copper ion import | inferred from direct assay|GO:0015677//b
//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| translation | traceable author statement|GO:0043037//biologi
| aerobic respiration | inferred from mutant phenotype|GO:0009060
ellular component| proteasome complex (sensu Eukarya) | inferred from physical interaction|GO:0000502//biological process| spore germination (sensu F
ellular component| shmoo tip | inferred from direct assay|GO:0005937//cellular component| bud neck | inferred from direct assay |GO:0005935//cellular com
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
ent| nuclear condensin complex | traceable author statement|GO:0000799//cellular component| nuclear condensin complex | inferred from physical interac
onent| mitochondrial inner membrane | inferred from sequence similarity|GO:0005743//biological process| transport | inferred from sequence similarity|GO
component| membrane | inferred from physical interaction|GO:0016020//cellular component| membrane | inferred from mutant phenotype |GO:0016020//b
ular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005843//biological process| protein biosynthesis | tra
ent| cytoplasm | inferred from direct assay|GO:0005737
47//cellular component| cytosol | inferred from direct assay|GO:0005829
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
ar function| signal peptidase activity | inferred from mutant phenotype |GO:0009003//molecular function| signal peptidase activity | inferred from direct assa
omponent| actin cortical patch (sensu Fungi) | inferred from direct assay|GO:0030479//cellular component| bud | inferred from direct assay |GO:0005933//b
plasm | inferred from direct assay |GO:0005737
cular function| protein binding | inferred from physical interaction |GO:0005515//molecular function| ATP-dependent RNA helicase activity | traceable autho
ome | inferred from direct assay |GO:0005768
200//cellular component| cytoplasmic microtubule | inferred from direct assay|GO:0005881//cellular component| spindle pole body | inferred from direct ass
mponent| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634
005088//biological process| RAS protein signal transduction | traceable author statement|GO:0007265
omponent| bud neck | inferred from direct assay|GO:0005935//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological process
process| secretory pathway | inferred from mutant phenotype|GO:0045045//biological process| secretory pathway | inferred from genetic interaction |GO:0
llular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| protein amino acid dephosphorylation | inferred from mutant phe
ation of cell cycle | inferred from physical interaction|GO:0000074//biological process| regulation of cell cycle | inferred from genetic interaction |GO:000007
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
llular component| Golgi apparatus | inferred from direct assay|GO:0005794//cellular component| endoplasmic reticulum | inferred from direct assay |GO:00
nent| microsome | inferred from direct assay|GO:0005792//cellular component| membrane fraction | inferred from direct assay |GO:0005624//biological pro
olypeptide-associated complex | inferred from direct assay|GO:0005854//cellular component| cytosolic ribosome (sensu Eukarya) | traceable author statem
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
cellular component| lipid particle | inferred from direct assay|GO:0005811//cellular component| microsome | inferred from direct assay |GO:0005792//cellul
0007//molecular function| low-affinity zinc ion transporter activity | inferred from mutant phenotype |GO:0000007//cellular component| plasma membrane |
lecular function| anthranilate synthase activity | inferred from genetic interaction |GO:0004049//molecular function| anthranilate synthase activity | inferred
1//molecular function| protein farnesyltransferase activity | inferred from direct assay |GO:0004660//cellular component| protein farnesyltransferase comple
ological process| cell wall organization and biogenesis | inferred from mutant phenotype|GO:0007047//biological process| cell wall organization and biogen
ytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| ribosomal sm
llular component| DASH complex | inferred from physical interaction|GO:0042729//cellular component| DASH complex | inferred from direct assay |GO:004
nent| cytoplasm | inferred from direct assay|GO:0005737//biological process| steroid biosynthesis | inferred from mutant phenotype|GO:0006694//biologica
//cellular component| plasma membrane | inferred from direct assay|GO:0005886//biological process| response to drug | traceable author statement|GO:0
rocess| transport | inferred from physical interaction|GO:0006810
04550//cellular component| cytosol | inferred from direct assay|GO:0005829//cellular component| mitochondrial intermembrane space | inferred from direct
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
n| protein binding, bridging | inferred from direct assay |GO:0030674//cellular component| actin cable (sensu Fungi) | inferred from direct assay|GO:003048
135//molecular function| amylo-alpha-1,6-glucosidase activity | inferred from mutant phenotype |GO:0004135//molecular function| amylo-alpha-1,6-glucosid
mponent| shmoo tip | inferred from direct assay|GO:0005937//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological process|
ed from sequence similarity|GO:0016654//cellular component| plasma membrane | inferred from sequence similarity|GO:0005886//biological process| resp
unction| protein transporter activity | inferred from physical interaction |GO:0008565//cellular component| mitochondrial outer membrane translocase compl
uthor statement|GO:0004755//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| lysine biosynthesis, aminoadipi
ar function| L-glutamate transporter activity | inferred from direct assay |GO:0005313//cellular component| mitochondrial inner membrane | inferred from se
005086//cellular component| cytosol | inferred from direct assay|GO:0005829//cellular component| Golgi vesicle | inferred from direct assay |GO:0005798//c
omponent| late endosome | inferred from direct assay|GO:0005770//cellular component| vacuolar membrane (sensu Fungi) | inferred from direct assay |G
r component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological proces
| inferred from direct assay |GO:0005634
//molecular function| potassium ion transporter activity | inferred from direct assay |GO:0015079//cellular component| plasma membrane | traceable author
om sequence similarity|GO:0042626//cellular component| membrane | inferred from sequence similarity|GO:0016020//biological process| transport | inferre
rom direct assay|GO:0004365//cellular component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277//cellular component| cytosol | traceable
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
04674//molecular function| protein serine/threonine kinase activity | inferred from mutant phenotype |GO:0004674//cellular component| actin cortical patch (
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| translational elongation |
GO:0004685//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| signal transduction | non-traceable author statem
ent| nuclear telomere cap complex | inferred from direct assay|GO:0000783//biological process| telomerase-dependent telomere maintenance | inferred fro
molecular function| transcription corepressor activity | inferred from genetic interaction |GO:0003714//cellular component| nucleus | inferred from physical in
mponent| membrane | inferred from direct assay|GO:0016020//biological process| protein-ER targeting | inferred from mutant phenotype|GO:0045047//biol
ular component| plasma membrane | inferred from sequence similarity|GO:0005886//cellular component| plasma membrane | inferred from mutant phenoty
transport vesicle | traceable author statement|GO:0030133//biological process| vesicle fusion | traceable author statement|GO:0006906//biological process
omponent| cytoplasm | inferred from direct assay|GO:0005737//biological process| RAS protein signal transduction | inferred from mutant phenotype|GO:0
ction| endopeptidase activity | traceable author statement |GO:0004175//cellular component| vacuole (sensu Fungi) | traceable author statement|GO:00003
acuole | inferred from direct assay|GO:0005773//biological process| vesicle-mediated transport | inferred from direct assay|GO:0016192//biological process
nent| endosome | inferred from direct assay|GO:0005768//cellular component| prospore membrane | inferred from direct assay |GO:0005628//biological pr
|GO:0003704//cellular component| nucleus | inferred from curator|GO:0005634//biological process| positive regulation of transcription from Pol II promoter
llular component| cytoplasm | inferred from mutant phenotype|GO:0005737//biological process| protein biosynthesis | inferred from mutant phenotype|GO:
ss| cell wall organization and biogenesis | inferred from mutant phenotype|GO:0007047
| inferred from direct assay |GO:0005634
| traceable author statement|GO:0008152
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | trac
/cellular component| mitochondrion | inferred from direct assay|GO:0005739//cellular component| cytoplasm | inferred from direct assay |GO:0005737//bio
ellular component| vacuolar membrane (sensu Fungi) | inferred from direct assay|GO:0000329//biological process| sphingolipid metabolism | inferred from
ess| steroid biosynthesis | inferred from mutant phenotype|GO:0006694//biological process| steroid biosynthesis | inferred from genetic interaction |GO:000
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
drion | inferred from direct assay |GO:0005739//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological process| actin filament
O:0030364//molecular function| RNA binding | inferred from direct assay |GO:0003723//cellular component| mRNA cleavage and polyadenylation specificit
mponent| actin cable (sensu Fungi) | inferred from direct assay|GO:0030482//cellular component| actin cap (sensu Fungi) | inferred from direct assay |GO
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
stranded DNA binding | inferred from direct assay |GO:0003697//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological proces
ular component| late endosome | traceable author statement|GO:0005770//biological process| vesicle-mediated transport | inferred from sequence similarit
| inferred from direct assay |GO:0005634
ecular function| RNA binding | inferred from direct assay |GO:0003723//cellular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable a
ular component| DASH complex | inferred from physical interaction|GO:0042729//cellular component| DASH complex | inferred from direct assay |GO:0042
nt| nucleus | inferred from curator|GO:0005634//biological process| telomerase-independent telomere maintenance | inferred from genetic interaction|GO:0
onent| integral to membrane | inferred from sequence similarity|GO:0016021//cellular component| membrane | inferred from sequence similarity |GO:0016
| inferred from direct assay |GO:0005634
000095//molecular function| S-adenosylmethionine transporter activity | inferred from genetic interaction |GO:0000095//molecular function| S-adenosylmeth
lar component| small nucleolar ribonucleoprotein complex | inferred from physical interaction|GO:0005732//biological process| 35S primary transcript proc
ular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005843//biological process| regulation of translationa
//cellular component| DNA-directed RNA polymerase I complex | traceable author statement|GO:0005736//cellular component| DNA-directed RNA polyme
nt|GO:0016251//cellular component| transcription factor TFIID complex | traceable author statement|GO:0005669//cellular component| nucleus | inferred fr
ellular component| integral to membrane | inferred from sequence similarity|GO:0016021//biological process| N-linked glycosylation | inferred from mutant
omponent| mitochondrion | inferred from mutant phenotype|GO:0005739//cellular component| cytoplasm | inferred from mutant phenotype |GO:0005737//b
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
840//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biolog
ar component| eukaryotic translation initiation factor 3 complex | inferred from physical interaction|GO:0005852//cellular component| eukaryotic translation
g (sensu Saccharomyces) | inferred from physical interaction |GO:0000144//cellular component| septin ring (sensu Saccharomyces) | inferred from direct
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
omponent| respiratory chain complex IV (sensu Eukarya) | inferred from physical interaction|GO:0005751//biological process| aerobic respiration | traceabl
| inferred from direct assay |GO:0005634
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
process| axial budding | inferred from sequence similarity|GO:0007120
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
O:0005352//cellular component| membrane fraction | inferred from sequence similarity|GO:0005624//biological process| alpha-glucoside transport | inferre
ological process| sporulation (sensu Fungi) | inferred from mutant phenotype|GO:0030437//biological process| protein catabolism | inferred from physical i
olecular function| transcription regulator activity | inferred from genetic interaction |GO:0030528
ellular component| mitochondrion | inferred from direct assay|GO:0005739
9//cellular component| mitochondrion | traceable author statement|GO:0005739//biological process| methionyl-tRNA aminoacylation | inferred from direct a
r component| nucleus | traceable author statement|GO:0005634//biological process| regulation of transcription, mating-type specific | traceable author stat
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
y|GO:0015077//molecular function| monovalent inorganic cation transporter activity | inferred from mutant phenotype |GO:0015077//molecular function| mo
GO:0003841//cellular component| lipid particle | inferred from direct assay|GO:0005811//biological process| sphingolipid biosynthesis | inferred from mutan
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
olecular function| Rab GTPase activator activity | inferred from physical interaction |GO:0005097//molecular function| Rab GTPase activator activity | inferr
mponent| cytoplasm | inferred from direct assay|GO:0005737//biological process| mRNA processing | inferred from sequence similarity|GO:0006397//biolo
/cellular component| small nuclear ribonucleoprotein complex | inferred from direct assay|GO:0030532//cellular component| snRNP U5 | inferred from phy
onent| nuclear chromatin | inferred from sequence similarity|GO:0000790//biological process| regulation of transcription from Pol III promoter | inferred from
| inferred from direct assay |GO:0005634
nt|GO:0003704//cellular component| nucleus | traceable author statement|GO:0005634//biological process| unfolded protein response, target gene transcr
milarity|GO:0004306//molecular function| ethanolamine-phosphate cytidylyltransferase activity | inferred from mutant phenotype |GO:0004306//molecular fu
ular function| DNA binding | traceable author statement |GO:0003677//molecular function| DNA binding | inferred from physical interaction |GO:0003677//ce
ular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005843//biological process| protein biosynthesis | tra
s| nuclear mRNA splicing, via spliceosome | inferred from genetic interaction|GO:0000398
| lipase activity | inferred from mutant phenotype |GO:0016298//cellular component| integral to membrane | inferred from sequence similarity|GO:0016021/
nent| proteasome core complex, alpha-subunit complex (sensu Eukarya) | inferred from sequence similarity|GO:0019773//cellular component| proteasome
omponent| lipid particle | inferred from direct assay|GO:0005811//biological process| phospholipid biosynthesis | inferred from sequence similarity|GO:000
ucleolus | inferred from direct assay|GO:0005730//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| rRNA process
P U2 | inferred from direct assay|GO:0005686//biological process| nuclear mRNA splicing, via spliceosome | inferred from sequence similarity|GO:0000398
mponent| contractile ring (sensu Saccharomyces) | inferred from direct assay|GO:0000142//biological process| axial budding | inferred from mutant pheno
ular component| integral to membrane | inferred from sequence similarity|GO:0016021//biological process| L-cystine transport | inferred from sequence sim
| inferred from direct assay |GO:0005634
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
component| mitochondrion | traceable author statement|GO:0005739//biological process| proline catabolism | traceable author statement|GO:0006562//bi
otype|GO:0000226
| inferred from direct assay |GO:0005634
nt| mitochondrial intermembrane space | inferred from direct assay|GO:0005758//cellular component| mitochondrion | traceable author statement |GO:0005
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
m sequence similarity|GO:0046933//molecular function| hydrogen-transporting ATP synthase activity, rotational mechanism | inferred from mutant phenotyp
component| methionyl glutamyl tRNA synthetase complex | inferred from direct assay|GO:0017102//cellular component| cytoplasm | inferred from direct as
| inferred from direct assay |GO:0005634
process| conjugation with cellular fusion | inferred from expression pattern|GO:0000747
ular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005843//biological process| protein biosynthesis | tra
cuole (sensu Fungi) | inferred from direct assay |GO:0000324
uble-strand break formation | traceable author statement|GO:0042138//biological process| meiotic recombination | inferred from mutant phenotype |GO:000
| tRNA binding | inferred from mutant phenotype |GO:0000049//cellular component| methionyl glutamyl tRNA synthetase complex | inferred from physical i
milarity|GO:0004066//molecular function| asparagine synthase (glutamine-hydrolyzing) activity | inferred from mutant phenotype |GO:0004066//cellular com
ular component| SAGA complex | inferred from direct assay|GO:0000124//biological process| protein deubiquitination | traceable author statement|GO:001
function| protein kinase activity | inferred from mutant phenotype |GO:0004672//cellular component| nucleus | inferred from physical interaction|GO:00056
om sequence similarity|GO:0042626//cellular component| membrane | inferred from sequence similarity|GO:0016020//biological process| transport | inferre
ular function| transcription factor activity | inferred from mutant phenotype |GO:0003700//cellular component| cytoplasm | inferred from direct assay|GO:00
mponent| mitochondrion | inferred from direct assay|GO:0005739
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | trac
| inferred from direct assay |GO:0005634//biological process| meiosis I | inferred from mutant phenotype|GO:0007127//biological process| regulation of exi
omponent| nucleus | inferred from direct assay|GO:0005634//biological process| DNA replication | traceable author statement|GO:0006260
ar function| organic acid transporter activity | inferred from direct assay |GO:0005342//cellular component| mitochondrial inner membrane | inferred from dir
//molecular function| glycogen synthase kinase 3 activity | inferred from sequence similarity |GO:0004696//cellular component| soluble fraction | inferred fro
ate endosome to vacuole transport | inferred from mutant phenotype|GO:0045324//biological process| late endosome to vacuole transport | inferred from g
ssembly | traceable author statement|GO:0042255//biological process| ribosome-nucleus export | traceable author statement |GO:0000054
r function| 5'-flap endonuclease activity | inferred from direct assay |GO:0017108//cellular component| nucleus | inferred from mutant phenotype|GO:00056
nt|GO:0016251//cellular component| transcription factor TFIID complex | traceable author statement|GO:0005669//cellular component| SAGA complex | inf
nt| cytoplasm | inferred from direct assay|GO:0005737//biological process| regulation of meiosis | inferred from mutant phenotype|GO:0040020//biological
lar component| ribosome | traceable author statement|GO:0005840//biological process| translational initiation | traceable author statement|GO:0006413
200//cellular component| DASH complex | inferred from physical interaction|GO:0042729//cellular component| DASH complex | inferred from direct assay |
796//molecular function| bis(5'-nucleosyl)-tetraphosphatase (asymmetrical) activity | inferred from mutant phenotype |GO:0004081//molecular function| bis(
asma membrane | inferred from physical interaction|GO:0005886//biological process| protein monoubiquitination | inferred from physical interaction|GO:000
lular component| mitochondrion | inferred from direct assay|GO:0005739//biological process| mitochondrial genome maintenance | inferred from mutant ph
98//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biologic
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| translational elongation |
al process| cell wall organization and biogenesis | inferred from mutant phenotype|GO:0007047//biological process| cell wall organization and biogenesis |
ome | inferred from direct assay|GO:0005844//biological process| protein biosynthesis | inferred from physical interaction|GO:0006412
cellular component| nucleolus | inferred from direct assay|GO:0005730//biological process| 35S primary transcript processing | inferred from mutant pheno
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
negative regulation of transcription by glucose | inferred from mutant phenotype|GO:0045014//biological process| protein-vacuolar targeting | inferred from
ction| glutathione peroxidase activity | inferred from sequence similarity |GO:0004602//molecular function| glutathione peroxidase activity | inferred from mu
042392//molecular function| sphingosine-1-phosphate phosphatase activity | inferred from direct assay |GO:0042392//cellular component| endoplasmic re
40//cellular component| cell | inferred from direct assay|GO:0005623//biological process| glutamate biosynthesis | inferred from expression pattern|GO:000
|GO:0016251//cellular component| transcription factor TFIIA complex | inferred from direct assay|GO:0005672//biological process| transcription initiation fr
r component| nucleus | traceable author statement|GO:0005634//biological process| regulation of transcription, mating-type specific | traceable author stat
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
52//molecular function| 2-isopropylmalate synthase activity | inferred from genetic interaction |GO:0003852//molecular function| 2-isopropylmalate synthase
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
mponent| microsome | inferred from direct assay|GO:0005792//cellular component| endoplasmic reticulum membrane | inferred from direct assay |GO:000
ular function| chromatin binding | inferred from direct assay |GO:0003682//cellular component| nucleus | inferred from direct assay|GO:0005634//cellular co
1//molecular function| protein serine/threonine kinase activity | traceable author statement |GO:0004674//cellular component| cAMP-dependent protein kina
component| signal recognition particle | inferred from direct assay|GO:0005786//biological process| protein-ER targeting | inferred from physical interaction
/cellular component| peroxisome | inferred from direct assay|GO:0005777//biological process| lipid metabolism | inferred from mutant phenotype|GO:00066
P U2 | inferred from direct assay|GO:0005686//biological process| nuclear mRNA splicing, via spliceosome | inferred from direct assay|GO:0000398
GO:0004809//molecular function| tRNA (guanine-N2-)-methyltransferase activity | inferred from direct assay |GO:0004809//cellular component| mitochondri
process| nuclear mRNA splicing, via spliceosome | inferred from physical interaction|GO:0000398
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | trac
| inferred from direct assay |GO:0005634//biological process| meiotic DNA double-strand break processing | traceable author statement|GO:0000706
RNA binding | inferred from mutant phenotype |GO:0003723//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process|
molecular function| chaperone regulator activity | inferred from physical interaction |GO:0030188//molecular function| chaperone regulator activity | inferred
MA complex | inferred from direct assay|GO:0000817//cellular component| condensed nuclear chromosome kinetochore | inferred from direct assay |GO:0
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
asm | inferred from direct assay |GO:0005654//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| cell wall organiza
03701//cellular component| RNA polymerase I transcription factor complex | traceable author statement|GO:0000120//biological process| transcription from
ular component| DASH complex | inferred from physical interaction|GO:0042729//cellular component| DASH complex | inferred from direct assay |GO:0042
//cellular component| mitochondrion | inferred from direct assay|GO:0005739//biological process| response to oxidative stress | inferred from mutant pheno
molecular function| chromatin binding | traceable author statement |GO:0003682//cellular component| cytoplasm | traceable author statement|GO:0005737
ar component| COPI-coated vesicle | inferred from direct assay|GO:0030137//cellular component| Golgi apparatus | inferred from direct assay |GO:000579
lar component| actin cap (sensu Fungi) | inferred from physical interaction|GO:0030478//biological process| vesicle-mediated transport | inferred from phy
ellular component| cytosol | traceable author statement|GO:0005829//biological process| gluconeogenesis | traceable author statement|GO:0006094
56//biological process| aldehyde metabolism | inferred from sequence similarity|GO:0006081
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
lar function| glycerone kinase activity | inferred from direct assay |GO:0004371//biological process| glycerol catabolism | inferred from sequence similarity|G
ular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005843//biological process| protein biosynthesis | tra
O:0016944//molecular function| Pol II transcription elongation factor activity | inferred from mutant phenotype |GO:0016944//cellular component| transcriptio
complex activity | traceable author statement|GO:0045153//molecular function| electron transporter, transferring electrons within CoQH2-cytochrome c re
e|GO:0004375//molecular function| glycine dehydrogenase (decarboxylating) activity | inferred from expression pattern |GO:0004375//cellular component|
iosynthesis | inferred from mutant phenotype|GO:0009228//biological process| pyridoxine metabolism | inferred from sequence similarity |GO:0008614//bio
749//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| 'de novo' pyrimidine base biosynthesis | traceable author
ar component| nucleus | inferred from sequence similarity|GO:0005634//biological process| transcription | inferred from sequence similarity|GO:0006350
ecular function| RNA binding | inferred from direct assay |GO:0003723//cellular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable a
selection | inferred from mutant phenotype|GO:0000282
component| nuclear ubiquitin ligase complex | traceable author statement|GO:0000152//biological process| ubiquitin-dependent protein catabolism | trace
ocessing | inferred from mutant phenotype|GO:0006364
ular component| mitochondrial outer membrane | inferred from physical interaction|GO:0005741//cellular component| mitochondrial outer membrane | infer
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| cell cycle | inferred from genetic interaction|GO:0007049//biolo
ular function| transcription factor activity | inferred from mutant phenotype |GO:0003700//cellular component| nucleus | inferred from curator|GO:0005634/
ellular component| vacuole (sensu Fungi) | inferred from direct assay|GO:0000324//biological process| sporulation (sensu Fungi) | inferred from expression
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
GO:0003922//molecular function| GMP synthase (glutamine-hydrolyzing) activity | inferred from mutant phenotype |GO:0003922//biological process| GMP
cellular component| nucleus | inferred from curator|GO:0005634//biological process| DNA repair | inferred from mutant phenotype|GO:0006281//biological
O:0004452//cellular component| cytosol | traceable author statement|GO:0005829//biological process| ergosterol biosynthesis | traceable author statement|
nt| extrinsic to membrane | inferred from direct assay|GO:0019898//biological process| autophagy | inferred from mutant phenotype|GO:0006914//biologica
0176//cellular component| integral to Golgi membrane | inferred from direct assay |GO:0030173//cellular component| COPII-coated vesicle | inferred from d
omponent| methionyl glutamyl tRNA synthetase complex | inferred from direct assay|GO:0017102//cellular component| cytoplasm | inferred from direct ass
cytosol | inferred from direct assay |GO:0005829//biological process| Golgi to plasma membrane transport | inferred from physical interaction|GO:0006893
| GINS complex | inferred from physical interaction|GO:0000811//biological process| DNA-dependent DNA replication | inferred from mutant phenotype|GO
function| RNA helicase activity | inferred from mutant phenotype |GO:0003724//cellular component| nucleus | inferred from direct assay|GO:0005634//biolo
quitin-protein ligase activity | traceable author statement |GO:0004842//cellular component| anaphase-promoting complex | traceable author statement|GO
| inferred from direct assay |GO:0005634
mponent| endoplasmic reticulum | inferred from direct assay|GO:0005783//cellular component| cytoplasm | inferred from direct assay |GO:0005737//cellula
tin cortical patch (sensu Fungi) | inferred from direct assay|GO:0030479//biological process| actin cytoskeleton organization and biogenesis | inferred from
r function| glucose transporter activity | traceable author statement |GO:0005355//molecular function| glucose transporter activity | inferred from direct assa
ent| peroxisomal matrix | traceable author statement|GO:0005782//biological process| NADH regeneration | traceable author statement|GO:0006735//biolo
in biosynthesis | traceable author statement|GO:0006412//biological process| mRNA processing | inferred from mutant phenotype |GO:0006397
:0042175//cellular component| endoplasmic reticulum | inferred from direct assay |GO:0005783//biological process| ER-associated protein catabolism | inf
ular component| cytosol | inferred from direct assay|GO:0005829//biological process| actin cytoskeleton organization and biogenesis | inferred from direct a
cular function| choline transporter activity | inferred from mutant phenotype |GO:0015220//cellular component| plasma membrane | inferred from sequence
ent| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277//biological process| flocculation (sensu Saccharomyces) | inferred from mutant pheno
ular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005843//cellular component| cytoplasm | inferred from
component| cytosol | traceable author statement|GO:0005829//biological process| phosphate metabolism | inferred from curator|GO:0006796
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | trac
raceable author statement|GO:0005856//cellular component| chaperonin-containing T-complex | traceable author statement |GO:0005832//cellular compo
ical patch assembly | traceable author statement|GO:0000147
/cellular component| nucleus | inferred from physical interaction|GO:0005634//biological process| mating-type switching/recombination | inferred from muta
ogical process| peroxisome organization and biogenesis | inferred from mutant phenotype|GO:0007031
omponent| cytoplasmic exosome (RNase complex) | inferred from direct assay|GO:0000177//cellular component| nuclear exosome (RNase complex) | infe
s| thiamin biosynthesis | inferred from mutant phenotype|GO:0009228//biological process| pyridoxine metabolism | inferred from sequence similarity |GO:0
mplex | inferred from physical interaction |GO:0000812//biological process| chromatin remodeling | inferred from physical interaction|GO:0006338
cellular component| DNA-directed RNA polymerase I complex | inferred from direct assay|GO:0005736//biological process| transcription from Pol I promote
| inferred from direct assay |GO:0005634
042392//molecular function| sphingosine-1-phosphate phosphatase activity | inferred from direct assay |GO:0042392//cellular component| endoplasmic re
08677//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| soluble fraction | inferred from direct assay |GO:00056
m | inferred from direct assay |GO:0005737
GO:0003709//molecular function| RNA polymerase III transcription factor activity | inferred from physical interaction |GO:0003709//cellular component| tran
toplasm | inferred from direct assay |GO:0005737
onent| membrane | inferred from sequence similarity|GO:0016020//biological process| transport | inferred from sequence similarity|GO:0006810
cleus | inferred from mutant phenotype |GO:0005634//biological process| transport | inferred from sequence similarity|GO:0006810//biological process| tran
nt| Golgi apparatus | inferred from direct assay |GO:0005794
non-traceable author statement|GO:0005840//cellular component| cytosol | non-traceable author statement |GO:0005829//cellular component| cytoplasm
vacuole fusion, non-autophagic | inferred from physical interaction|GO:0042144//biological process| vacuole fusion, non-autophagic | inferred from mutan
molecular function| protein kinase activator activity | inferred from mutant phenotype |GO:0030295//cellular component| spindle microtubule | inferred from d
| nucleus | inferred from sequence similarity|GO:0005634//biological process| DNA recombination | inferred from mutant phenotype|GO:0006310//biologica
ent| cytosol | traceable author statement|GO:0005829//biological process| phosphatidylcholine biosynthesis | traceable author statement|GO:0006656
57//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| tRNA processing | inferred from mutant phenotype|GO:00
y|GO:0003906//molecular function| DNA-(apurinic or apyrimidinic site) lyase activity | inferred from mutant phenotype |GO:0003906//molecular function| DN
ar component| nucleus | inferred from direct assay|GO:0005634//cellular component| histone deacetylase complex | inferred from physical interaction |GO:
olgi to endosome transport | inferred from mutant phenotype|GO:0006895//biological process| Golgi to endosome transport | inferred from genetic interactio
ular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005843//biological process| protein biosynthesis | tra
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | trac
mponent| nuclear pore | inferred from direct assay|GO:0005643//biological process| nuclear pore organization and biogenesis | inferred from mutant pheno
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
ponent| plasma membrane | inferred from direct assay|GO:0005886//biological process| high affinity iron ion transport | inferred from mutant phenotype|GO
om direct assay|GO:0004643//molecular function| IMP cyclohydrolase activity | inferred from direct assay |GO:0003937//cellular component| cytosol | infer
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
GO:0003702//cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| response to drug | inferred from genetic interaction
esponse to stress | inferred from direct assay|GO:0006950//biological process| O-linked glycosylation | inferred from mutant phenotype |GO:0006493//biolo
5386//molecular function| potassium:hydrogen antiporter activity | inferred from mutant phenotype |GO:0015386//cellular component| membrane | inferred
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
ular component| cytoplasm | inferred from curator|GO:0005737//biological process| protein deubiquitination | traceable author statement|GO:0016579
ular function| microtubule motor activity | inferred from mutant phenotype |GO:0003777//cellular component| cytoplasmic microtubule | traceable author sta
| inferred from direct assay |GO:0005634//biological process| pseudohyphal growth | inferred from genetic interaction|GO:0007124
nucleolar ribonucleoprotein complex | inferred from physical interaction|GO:0005732//cellular component| nucleolus | inferred from direct assay |GO:00057
| inferred from physical interaction |GO:0005634//biological process| mRNA-nucleus export | inferred from mutant phenotype|GO:0006406
llular component| ribosome | traceable author statement|GO:0005840//biological process| translational elongation | traceable author statement|GO:000641
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
0//cellular component| nucleus | traceable author statement|GO:0005634//biological process| protein modification | inferred from direct assay|GO:0006464/
llular component| serine C-palmitoyltransferase complex | inferred from mutant phenotype|GO:0017059//cellular component| microsome | inferred from ph
ent| chitosome | traceable author statement|GO:0045009//cellular component| plasma membrane | traceable author statement |GO:0005886//biological pro
mponent| nucleus | inferred from direct assay|GO:0005634//biological process| cell cycle | traceable author statement|GO:0007049//biological process| tran
0016944//cellular component| transcription elongation factor complex | inferred from physical interaction|GO:0008023//cellular component| nucleus | inferr
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
sequence similarity|GO:0004169//molecular function| dolichyl-phosphate-mannose-protein mannosyltransferase activity | inferred from mutant phenotype |
nction| protein geranylgeranyltransferase activity | inferred from direct assay |GO:0004661//cellular component| intracellular | traceable author statement|G
P binding | inferred from direct assay |GO:0005524//molecular function| DNA binding | inferred from direct assay |GO:0003677//cellular component| nucleus
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
t| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| NAD bios
ent| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| mRNA-
thor statement|GO:0046933//molecular function| structural molecule activity | inferred from sequence similarity |GO:0005198//molecular function| structura
//cellular component| DNA-directed RNA polymerase II, core complex | traceable author statement|GO:0005665//biological process| transcription from Pol
e to salt stress | inferred from mutant phenotype|GO:0009651
nent| proteasome core complex (sensu Eukarya) | traceable author statement|GO:0005839//biological process| ubiquitin-dependent protein catabolism | tra
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//cellular component| cytoplasm | inferred from
ular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005843//biological process| protein biosynthesis | tra
s| nuclear mRNA splicing, via spliceosome | inferred from physical interaction|GO:0000398//biological process| nuclear mRNA splicing, via spliceosome |
ess| peroxisome organization and biogenesis | inferred from sequence similarity|GO:0007031//biological process| peroxisome organization and biogenesis
lar component| vacuole (sensu Fungi) | inferred from direct assay|GO:0000324
004731//molecular function| purine-nucleoside phosphorylase activity | inferred from mutant phenotype |GO:0004731//molecular function| purine-nucleosid
GO:0004573//molecular function| mannosyl-oligosaccharide glucosidase activity | inferred from mutant phenotype |GO:0004573//cellular component| endo
eolus | inferred from direct assay |GO:0005730//biological process| processing of 20S pre-rRNA | inferred from mutant phenotype|GO:0030490//biological
I complex | traceable author statement |GO:0000813//biological process| protein-vacuolar targeting | inferred from physical interaction|GO:0006623//biolo
telomerase activity | inferred from physical interaction |GO:0003720//molecular function| telomerase activity | inferred from direct assay |GO:0003720//mo
749//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| 'de novo' pyrimidine base biosynthesis | traceable author
ponent| plasma membrane | inferred from direct assay |GO:0005886//biological process| cell wall organization and biogenesis | inferred from mutant pheno
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
onent| anaphase-promoting complex | traceable author statement|GO:0005680//biological process| cyclin catabolism | traceable author statement|GO:000
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
omponent| peroxisome | inferred from direct assay|GO:0005777//biological process| fatty acid oxidation | inferred from mutant phenotype|GO:0019395//bio
nt| ubiquitin ligase complex | inferred from sequence similarity|GO:0000151//biological process| ubiquitin-dependent protein catabolism | inferred from seq
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| vacuole (sensu Fungi) | inferred from sequence similarity |GO:000032
n| protein binding | inferred from direct assay |GO:0005515//cellular component| shmoo tip | inferred from physical interaction|GO:0005937//biological proc
asma membrane | inferred from direct assay|GO:0005886//cellular component| heterotrimeric G-protein complex | inferred from direct assay |GO:0005834
04674//molecular function| protein serine/threonine kinase activity | inferred from direct assay |GO:0004674//cellular component| cytosol | inferred from dire
ent| cytoplasm | inferred from direct assay |GO:0005737//cellular component| nuclear membrane | inferred from direct assay |GO:0005635//biological proc
raceable author statement|GO:0005856//cellular component| chaperonin-containing T-complex | traceable author statement |GO:0005832//cellular compo
nction| two-component response regulator activity | traceable author statement |GO:0000156//cellular component| cytoplasm | traceable author statement|G
03899//molecular function| DNA-directed RNA polymerase activity | inferred from direct assay |GO:0003899//cellular component| DNA-directed RNA polym
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
3//molecular function| glycogen (starch) synthase activity | inferred from mutant phenotype |GO:0004373//molecular function| glycogen (starch) synthase a
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
quitin-protein ligase activity | traceable author statement |GO:0004842//molecular function| ubiquitin-protein ligase activity | inferred from direct assay |GO:
l process| phospholipid biosynthesis | inferred from sequence similarity|GO:0008654
nce similarity|GO:0008757//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct ass
ar component| mitochondrion | inferred from mutant phenotype|GO:0005739//cellular component| cytoplasm | inferred from mutant phenotype |GO:000573
4674//molecular function| protein serine/threonine kinase activity | inferred from direct assay |GO:0004674//cellular component| cytoplasm | inferred from d
llular component| soluble fraction | inferred from direct assay|GO:0005625//cellular component| membrane fraction | inferred from direct assay |GO:00056
mponent| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| cy
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | trac
ular component| cytoplasm | inferred from direct assay|GO:0005737
sol | inferred from direct assay|GO:0005829//cellular component| peroxisome | inferred from direct assay |GO:0005777//biological process| protein-peroxis
abolism | inferred from mutant phenotype|GO:0016072//biological process| ribosome biogenesis | inferred from physical interaction |GO:0007046
| iron ion transport | inferred from sequence similarity|GO:0006826//biological process| iron ion transport | inferred from genetic interaction |GO:0006826
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//cellular component| cytoplasm | inferred from
e wall assembly (sensu Fungi) | inferred from mutant phenotype|GO:0030476//biological process| spore wall assembly (sensu Fungi) | inferred from direct
88//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| pyrimidine base biosynthesis | traceable author statement
lar component| endosome | inferred from direct assay|GO:0005768//biological process| protein biosynthesis | traceable author statement|GO:0006412
on| GTPase activity | inferred from direct assay |GO:0003924//cellular component| nuclear envelope-endoplasmic reticulum network | inferred from direct a
mponent| mitochondrion | inferred from direct assay|GO:0005739
ecular function| glucose transporter activity | inferred from genetic interaction |GO:0005355//molecular function| galactose transporter activity | inferred from
nt| nucleus | inferred from direct assay|GO:0005634//biological process| protein amino acid phosphorylation | inferred from direct assay|GO:0006468//biolo
GO:0003701//molecular function| RNA polymerase I transcription factor activity | inferred from mutant phenotype |GO:0003701//molecular function| ribosom
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
ecular function| structural constituent of ribosome | inferred from direct assay |GO:0003735//cellular component| cytosolic large ribosomal subunit (sensu E
O:0016274//molecular function| protein-arginine N-methyltransferase activity | inferred from physical interaction |GO:0016274//molecular function| protein-
logical process| protein processing | inferred from mutant phenotype|GO:0016485//biological process| protein processing | inferred from genetic interactio
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
milarity|GO:0004934//cellular component| integral to plasma membrane | inferred from direct assay|GO:0005887//biological process| cell projection biogene
ss| sporulation (sensu Fungi) | inferred from expression pattern|GO:0030437
raceable author statement|GO:0005856//cellular component| chaperonin-containing T-complex | traceable author statement |GO:0005832//cellular compo
nent| cytosolic ribosome (sensu Eukarya) | inferred from direct assay|GO:0005830//cellular component| cytoplasm | inferred from direct assay |GO:000573
mponent| nuclear pore | inferred from direct assay|GO:0005643//biological process| nuclear pore organization and biogenesis | inferred from mutant pheno
ar lumen (sensu Fungi) | inferred from direct assay |GO:0000328
cellular component| nucleolus | traceable author statement|GO:0005730//biological process| 35S primary transcript processing | traceable author statemen
ular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005843//biological process| protein biosynthesis | tra
ular component| mitochondrial large ribosomal subunit | traceable author statement|GO:0005762//biological process| protein biosynthesis | traceable autho
272//biological process| folic acid and derivative biosynthesis | inferred from direct assay|GO:0009396
003709//cellular component| transcription factor TFIIIC complex | traceable author statement|GO:0000127//biological process| transcription initiation from
ular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005843//biological process| protein biosynthesis | tra
organization and biogenesis | inferred from mutant phenotype|GO:0007047//biological process| cell wall organization and biogenesis | inferred from geneti
ar component| bud tip | inferred from direct assay|GO:0005934//biological process| signal transduction | inferred from mutant phenotype|GO:0007165//bio
nction| GTPase activity | traceable author statement |GO:0003924//molecular function| GTPase activity | inferred from direct assay |GO:0003924//cellular c
ponent| plasma membrane | inferred from direct assay|GO:0005886//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological pr
ent| cytoplasm | inferred from direct assay |GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| nuclea
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
ponent| nucleus | inferred from physical interaction|GO:0005634//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process
onent| cytoplasm | inferred from direct assay|GO:0005737//biological process| homoserine biosynthesis | traceable author statement|GO:0009090//biologi
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
nt| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| cell grow
n| protein binding | inferred from mutant phenotype |GO:0005515//cellular component| spindle | inferred from direct assay|GO:0005819//cellular componen
8159//cellular component| nucleoplasm | inferred from physical interaction|GO:0005654//biological process| meiotic recombination | inferred from mutant p
ular function| GTPase activator activity | inferred from physical interaction |GO:0005096//molecular function| translation initiation factor activity | inferred from
1//cellular component| respiratory chain complex III (sensu Eukarya) | inferred from direct assay|GO:0005750//biological process| aerobic respiration | infe
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
| inferred from direct assay |GO:0005634
mponent| proteasome regulatory particle (sensu Eukarya) | inferred from direct assay|GO:0005838//biological process| ubiquitin-dependent protein catabo
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
ss| secretory pathway | inferred from mutant phenotype|GO:0045045//biological process| phosphate transport | inferred from mutant phenotype |GO:00068
ecular function| structural constituent of ribosome | inferred from direct assay |GO:0003735//cellular component| mitochondrial small ribosomal subunit | tra
6//molecular function| phenylalanine-tRNA ligase activity | inferred from mutant phenotype |GO:0004826//cellular component| phenylalanine-tRNA ligase c
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | trac
replication factor A complex | traceable author statement|GO:0005662//cellular component| chromosome, telomeric region | inferred from mutant phenoty
mponent| plasma membrane | inferred from direct assay|GO:0005886//cellular component| endoplasmic reticulum membrane | inferred from direct assay |
ular function| protein transporter activity | inferred from mutant phenotype |GO:0008565//cellular component| mitochondrial outer membrane translocase c
nt|GO:0003704//cellular component| nucleus | traceable author statement|GO:0005634//biological process| unfolded protein response, target gene transcr
ular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005843//biological process| protein biosynthesis | tra
cular function| glycine-tRNA ligase activity | inferred from mutant phenotype |GO:0004820//cellular component| mitochondrion | inferred from mutant phen
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
ellular component| septin ring (sensu Saccharomyces) | traceable author statement|GO:0000144//biological process| cell wall organization and biogenesis
onent| endoplasmic reticulum membrane | inferred from direct assay|GO:0005789//biological process| protein folding | inferred from direct assay|GO:0006
ecular function| RNA binding | inferred from direct assay |GO:0003723//cellular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable a
om sequence similarity|GO:0042626//cellular component| membrane | inferred from sequence similarity|GO:0016020//biological process| sterol transport |
rity|GO:0004314//molecular function| [acyl-carrier protein] S-malonyltransferase activity | inferred from mutant phenotype |GO:0004314//cellular componen
ar component| nucleus | inferred from sequence similarity|GO:0005634//biological process| regulation of transcription, DNA-dependent | inferred from sequ
ed from physical interaction |GO:0051082//molecular function| --- | inferred from genetic interaction |GO:0051082//cellular component| cytoplasm | inferred
| inferred from direct assay |GO:0005634
molecular function| transcriptional activator activity | inferred from physical interaction |GO:0016563//molecular function| transcriptional activator activity | in
//cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| meiosis | traceable author statement|GO:0007126//biological pr
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
r component| mitochondrion | inferred from direct assay|GO:0005739//biological process| Group I intron splicing | inferred from direct assay|GO:0000372
component| endoplasmic reticulum | traceable author statement|GO:0005783//biological process| ergosterol biosynthesis | traceable author statement|GO:
cellular component| DNA-directed RNA polymerase III complex | inferred from direct assay|GO:0005666//biological process| transcription from Pol III prom
unction| DNA binding | inferred from direct assay |GO:0003677//cellular component| nuclear telomeric heterochromatin | traceable author statement|GO:00
| inferred from direct assay |GO:0005634
on| clathrin binding | inferred from physical interaction |GO:0030276//cellular component| AP-1 adaptor complex | inferred from sequence similarity|GO:003
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
e similarity|GO:0004702//molecular function| receptor signaling protein serine/threonine kinase activity | inferred from mutant phenotype |GO:0004702//cel
O:0016538//cellular component| cyclin-dependent protein kinase holoenzyme complex | traceable author statement|GO:0000307//biological process| cell cy
onent| vacuole (sensu Fungi) | inferred from direct assay|GO:0000324
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
n| iron ion transporter activity | inferred from mutant phenotype |GO:0005381//cellular component| mitochondrion | inferred from direct assay|GO:0005739//
llular component| ribosome | inferred from direct assay|GO:0005840//biological process| translational elongation | traceable author statement|GO:0006414
| inferred from mutant phenotype|GO:0030435//biological process| negative regulation of DNA transposition | inferred from mutant phenotype |GO:000033
lar function| thioredoxin peroxidase activity | inferred from mutant phenotype |GO:0008379//molecular function| thioredoxin peroxidase activity | inferred fro
ype|GO:0000234//cellular component| endoplasmic reticulum | inferred from sequence similarity|GO:0005783//biological process| GPI anchor biosynthesis
al process| tRNA modification | inferred from direct assay|GO:0006400
200//cellular component| central plaque of spindle pole body | inferred from direct assay|GO:0005823//cellular component| intermediate layer of spindle po
3899//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| DNA-directed RNA polymerase II, core complex | inferr
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | trac
onent| vacuole | no biological data available|GO:0005773//biological process| transport | inferred from sequence similarity|GO:0006810
nuclear chromosome kinetochore | inferred from direct assay |GO:0000778//biological process| mitotic spindle assembly (sensu Fungi) | inferred from mu
3887//cellular component| nucleolus | inferred from direct assay|GO:0005730//biological process| rRNA transcription | inferred from mutant phenotype|GO:
| inferred from direct assay |GO:0005634
ar component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological proce
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | trac
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
component| nucleus | inferred from direct assay|GO:0005634//cellular component| histone acetyltransferase complex | inferred from direct assay |GO:0000
ular component| DASH complex | inferred from physical interaction|GO:0042729//cellular component| DASH complex | inferred from direct assay |GO:0042
onent| endoplasmic reticulum | inferred from direct assay|GO:0005783//biological process| dolichol biosynthesis | inferred from direct assay|GO:0019408//b
ellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological p
lular component| mitochondrion | inferred from direct assay|GO:0005739
GO:0003880//biological process| C-terminal protein amino acid methylation | inferred from direct assay|GO:0006481
00031//molecular function| mannosylphosphate transferase activity | inferred from mutant phenotype |GO:0000031//cellular component| membrane fractio
olecular function| ubiquitin-protein ligase activity | inferred from genetic interaction |GO:0004842//cellular component| endoplasmic reticulum membrane |
| inferred from direct assay |GO:0005634
omponent| nucleus | inferred from direct assay|GO:0005634//biological process| meiosis | inferred from mutant phenotype|GO:0007126
process| regulation of transcription from Pol II promoter | inferred from physical interaction|GO:0006357
ular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005843//biological process| protein biosynthesis | tra
ADP as acceptor | inferred from direct assay|GO:0016620//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nu
04674//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| positive regulation of transcription from Pol II promoter
ucleus | inferred from direct assay|GO:0005634//biological process| processing of 20S pre-rRNA | inferred from mutant phenotype|GO:0030490//biologica
leus | inferred from direct assay |GO:0005634//cellular component| nuclear chromosome | inferred from physical interaction |GO:0000228//biological proce
/cellular component| small nuclear ribonucleoprotein complex | inferred from direct assay|GO:0030532//cellular component| small nucleolar ribonucleoprot
| cytoplasm | inferred from direct assay|GO:0005737
nent| cell wall (sensu Fungi) | inferred from sequence similarity|GO:0009277//biological process| flocculation (sensu Saccharomyces) | inferred from seque
9//biological process| chromatin remodeling | inferred from direct assay|GO:0006338
n| protein binding | inferred from direct assay |GO:0005515//cellular component| septin ring | inferred from direct assay|GO:0005940//cellular component|
mponent| mitochondrial matrix | inferred from direct assay|GO:0005759//biological process| propionate metabolism | inferred from expression pattern|GO:
ular function| actin binding | traceable author statement |GO:0003779//cellular component| Arp2/3 protein complex | inferred from direct assay|GO:0005885
ent| cytoplasm | inferred from direct assay |GO:0005737
t assay|GO:0004514//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO
200//cellular component| spindle pole body | inferred from direct assay|GO:0005816//cellular component| nuclear pore | inferred from direct assay |GO:000
om sequence similarity|GO:0042626//cellular component| membrane | inferred from sequence similarity|GO:0016020//biological process| transport | inferre
ular function| methyltransferase activity | inferred from mutant phenotype |GO:0008168//cellular component| nucleolus | inferred from direct assay|GO:0005
8139//cellular component| cytosol | inferred from direct assay|GO:0005829//biological process| cell cycle | inferred from mutant phenotype|GO:0007049//bi
onent| cytoplasm | traceable author statement|GO:0005737//biological process| lysyl-tRNA aminoacylation | inferred from direct assay|GO:0006430
ecular function| pyruvate carboxylase activity | inferred from direct assay |GO:0004736//cellular component| cytosol | inferred from direct assay|GO:000582
P U2 | inferred from direct assay|GO:0005686//biological process| spliceosome assembly | inferred from direct assay|GO:0000245
ss| Golgi to plasma membrane transport | inferred from mutant phenotype|GO:0006893//biological process| cell wall chitin biosynthesis | inferred from mut
ed from physical interaction |GO:0051087//molecular function| --- | inferred from mutant phenotype |GO:0051087//cellular component| cytoplasm | inferred
GO:0004742//cellular component| pyruvate dehydrogenase complex (sensu Eukarya) | traceable author statement|GO:0005967//cellular component| mitoch
tin cortical patch (sensu Fungi) | inferred from direct assay|GO:0030479//biological process| endocytosis | inferred from sequence similarity|GO:0006897//
r component| histone acetyltransferase complex | inferred from direct assay|GO:0000123//biological process| histone acetylation | inferred from direct assa
ent| cytosol | traceable author statement|GO:0005829//cellular component| Golgi vesicle | traceable author statement |GO:0005798//biological process| int
inferred from mutant phenotype|GO:0006914//biological process| protein-vacuolar targeting | inferred from mutant phenotype |GO:0006623
| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| protein-nu
| inferred from direct assay |GO:0005634
/cellular component| Golgi apparatus | traceable author statement|GO:0005794//cellular component| nucleus | inferred from direct assay |GO:0005634//bio
O:0004679//cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| filamentous growth | inferred from mutant phenotype
38//cellular component| COPI-coated vesicle | inferred from direct assay|GO:0030137//biological process| nucleotide-sugar transport | inferred from seque
gral to endoplasmic reticulum membrane | inferred from direct assay|GO:0030176//biological process| establishment of protein localization | inferred from m
uitin-protein ligase activity | inferred from mutant phenotype |GO:0004842//cellular component| SCF ubiquitin ligase complex | inferred from physical intera
7150//biological process| tRNA modification | inferred from sequence similarity|GO:0006400
ponent| integral to membrane | traceable author statement|GO:0016021//biological process| peptide pheromone maturation | traceable author statement|G
08989//cellular component| mitochondrion | inferred from direct assay|GO:0005739//biological process| rRNA modification | inferred from direct assay|GO:
ent| actin cortical patch (sensu Fungi) | inferred from direct assay|GO:0030479//biological process| sequestering of actin monomers | inferred from direct a
nent| small nucleolar ribonucleoprotein complex | inferred from physical interaction|GO:0005732//biological process| processing of 20S pre-rRNA | inferred
mponent| CCR4-NOT core complex | inferred from physical interaction|GO:0030015//cellular component| cytoplasm | inferred from direct assay |GO:00057
sequence similarity|GO:0003825//molecular function| alpha,alpha-trehalose-phosphate synthase (UDP-forming) activity | inferred from mutant phenotype |G
nt|GO:0004043//cellular component| cytoplasm | traceable author statement|GO:0005737//biological process| lysine biosynthesis, aminoadipic pathway | t
omponent| cytosol | inferred from direct assay|GO:0005829//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| rRN
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
opeptidase activity | traceable author statement |GO:0004175//cellular component| proteasome regulatory particle (sensu Eukarya) | traceable author stat
molecular function| protein phosphatase type 2A activity | inferred from direct assay |GO:0000158//cellular component| protein phosphatase type 2A comple
//cellular component| DNA-directed RNA polymerase III complex | traceable author statement|GO:0005666//biological process| transcription from Pol III pr
biogenesis | inferred from physical interaction|GO:0007046//biological process| ribosome biogenesis | inferred from mutant phenotype |GO:0007046
molecular function| tRNA methyltransferase activity | inferred from mutant phenotype |GO:0008175//molecular function| tRNA methyltransferase activity | in
mponent| nucleus | traceable author statement|GO:0005634//biological process| uracil biosynthesis | traceable author statement|GO:0046107//biological pr
ular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005843//biological process| protein biosynthesis | tra
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
lular component| nucleus | inferred from direct assay|GO:0005634
O:0004775//molecular function| succinate-CoA ligase (ADP-forming) activity | inferred from mutant phenotype |GO:0004775//molecular function| succinate
/cellular component| small nuclear ribonucleoprotein complex | inferred from direct assay|GO:0030532//biological process| nuclear mRNA splicing, via spl
ss| sterol transport | inferred from mutant phenotype|GO:0015918
lecular function| protein disulfide isomerase activity | inferred from mutant phenotype |GO:0003756//cellular component| endoplasmic reticulum lumen | tra
llular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| NAD biosynthesis | inferred from mutant phenotype|GO:0009435
ent| cytosol | traceable author statement |GO:0005829//cellular component| endosome | inferred from direct assay |GO:0005768//biological process| transp
/molecular function| mRNA methyltransferase activity | inferred from mutant phenotype |GO:0008174//molecular function| mRNA methyltransferase activit
nt| snRNP U1 | inferred from sequence similarity|GO:0005685//cellular component| snRNP U1 | inferred from mutant phenotype |GO:0005685//cellular com
ellular component| mitochondrial matrix | inferred from direct assay|GO:0005759//biological process| mitochondrial genome maintenance | inferred from m
uctural constituent of chromatin | traceable author statement |GO:0030527//cellular component| nucleolus | inferred from direct assay|GO:0005730//cellula
/cellular component| nucleus | inferred from curator|GO:0005634//biological process| positive regulation of transcription from Pol II promoter | inferred from
r function| signal transducer activity | inferred from physical interaction |GO:0004871//cellular component| intracellular | traceable author statement|GO:000
| inferred from direct assay |GO:0005634
| nucleus | inferred from curator|GO:0005634//biological process| short-chain fatty acid metabolism | inferred from mutant phenotype|GO:0046459//biologic
n cortical patch (sensu Fungi) | inferred from direct assay|GO:0030479//cellular component| F-actin capping protein complex | inferred from direct assay |G
ellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological p
assay|GO:0042800//molecular function| transcriptional activator activity | inferred from mutant phenotype |GO:0016563//molecular function| chromatin bind
ent| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| nucleoc
ome | inferred from direct assay|GO:0005844//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological process| copper ion hom
mponent| nuclear pore | inferred from direct assay|GO:0005643//biological process| nuclear pore organization and biogenesis | traceable author statement|
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
uole fusion, non-autophagic | inferred from mutant phenotype|GO:0042144
molecular function| protein phosphatase 1 binding | inferred from mutant phenotype |GO:0008157//cellular component| prospore membrane | inferred from d
ment of cell polarity (sensu Saccharomyces) | inferred from physical interaction|GO:0000283
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
on| GTPase activity | inferred from physical interaction |GO:0003924//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular com
plasm | inferred from direct assay |GO:0005737//biological process| propionate metabolism | inferred from mutant phenotype|GO:0019541
016566//molecular function| specific transcriptional repressor activity | inferred from mutant phenotype |GO:0016566//cellular component| nucleus | inferred
lecular function| protein disulfide isomerase activity | inferred from mutant phenotype |GO:0003756//cellular component| endoplasmic reticulum membrane
function| ketoreductase activity | inferred from physical interaction |GO:0045703//molecular function| ketoreductase activity | inferred from mutant phenoty
equence similarity|GO:0004723//cellular component| calcineurin complex | inferred from sequence similarity|GO:0005955//cellular component| calcineurin
| inferred from direct assay |GO:0005634//cellular component| SWR1 complex | inferred from physical interaction |GO:0000812//biological process| protei
ponent| plasma membrane | inferred from direct assay|GO:0005886//biological process| RAS protein signal transduction | traceable author statement|GO:
| inferred from direct assay |GO:0005634//biological process| processing of 20S pre-rRNA | inferred from mutant phenotype|GO:0030490
| inferred from direct assay |GO:0005634//cellular component| SWR1 complex | inferred from physical interaction |GO:0000812//biological process| chrom
ar component| COPII vesicle coat | inferred from physical interaction|GO:0030127//cellular component| COPII vesicle coat | inferred from direct assay |GO
lular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological pro
r component| Arp2/3 protein complex | inferred from direct assay|GO:0005885//biological process| actin cortical patch assembly | inferred from mutant phe
ce similarity|GO:0004487//molecular function| methylenetetrahydrofolate dehydrogenase (NAD+) activity | inferred from mutant phenotype |GO:0004487//c
ponent| cytoplasmic microtubule | inferred from direct assay|GO:0005881//cellular component| nuclear microtubule | inferred from direct assay |GO:00058
mponent| nucleus | inferred from mutant phenotype|GO:0005634//cellular component| nucleus | inferred from curator |GO:0005634//biological process| DN
molecular function| farnesyltranstransferase activity | inferred from direct assay |GO:0004311//cellular component| mitochondrion | inferred from direct ass
omponent| proteasome regulatory particle (sensu Eukarya) | inferred from direct assay|GO:0005838//biological process| proteolysis and peptidolysis | infer
ucleotide binding | inferred from sequence similarity |GO:0000166//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular compon
ect assay|GO:0016772//cellular component| cytoplasm | traceable author statement|GO:0005737//biological process| osmosensory signaling pathway via t
ogical process| ER-associated protein catabolism | inferred from mutant phenotype|GO:0030433
ellular component| peroxisome | traceable author statement|GO:0005777//biological process| peroxisome organization and biogenesis | traceable author s
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | trac
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
O:0016538//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634
k | inferred from direct assay |GO:0005935//cellular component| bud tip | inferred from direct assay |GO:0005934
vacuolar membrane | inferred from direct assay|GO:0005774//biological process| vesicle fusion | traceable author statement|GO:0006906//biological proce
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | trac
| inferred from direct assay |GO:0005634
onent| vesicle coat | inferred from direct assay|GO:0030120//biological process| vesicle-mediated transport | inferred from direct assay|GO:0016192//biolo
| inferred from direct assay |GO:0005634
esponse to drug | inferred from mutant phenotype|GO:0042493
Golgi apparatus | inferred from direct assay |GO:0005794//cellular component| cytoplasm | inferred from direct assay |GO:0005737//cellular component| GA
| inferred from direct assay |GO:0005634
| nucleus | inferred from sequence similarity|GO:0005634
nent| cytosol | inferred from direct assay|GO:0005829//biological process| formaldehyde catabolism | traceable author statement|GO:0046294
nuclear ribonucleoprotein complex | traceable author statement|GO:0030532//biological process| 35S primary transcript processing | traceable author state
//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| translation | traceable author statement|GO:0043037//biologi
nent| proteasome core complex, beta-subunit complex (sensu Eukarya) | traceable author statement|GO:0019774//cellular component| proteasome core c
ty|GO:0004422//molecular function| hypoxanthine phosphoribosyltransferase activity | inferred from mutant phenotype |GO:0004422//molecular function| h
nsition of mitotic cell cycle | inferred from genetic interaction|GO:0000082
molecular function| histone acetyltransferase activity | inferred from sequence similarity |GO:0004402//cellular component| cytoplasm | inferred from direct
onent| extracellular | non-traceable author statement|GO:0005576//biological process| response to pheromone during conjugation with cellular fusion | non
y|GO:0016758//molecular function| transferase activity, transferring hexosyl groups | inferred from physical interaction |GO:0016758//cellular component| e
r component| DNA replication factor C complex | inferred from direct assay|GO:0005663//biological process| mismatch repair | traceable author statement|
008177//cellular component| respiratory chain complex II (sensu Eukarya) | traceable author statement|GO:0005749//biological process| mitochondrial ele
nent| proteasome regulatory particle (sensu Eukarya) | traceable author statement|GO:0005838//biological process| ubiquitin-dependent protein catabolism
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | trac
nt| snRNA cap binding complex | inferred from direct assay|GO:0005846//cellular component| commitment complex | inferred from physical interaction |GO
5343//molecular function| siderochrome-iron transporter activity | inferred from mutant phenotype |GO:0015343//molecular function| siderochrome-iron tran
Golgi apparatus | inferred from direct assay |GO:0005794//cellular component| GARP complex | inferred from physical interaction |GO:0000938//biological
ecular function| chaperone activator activity | inferred from direct assay |GO:0030189//cellular component| cytoplasm | inferred from direct assay|GO:00057
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
251//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biolog
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
ellular component| cytosol | traceable author statement|GO:0005829//biological process| folic acid and derivative metabolism | inferred from mutant phenot
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
lecular function| transcription cofactor activity | inferred from mutant phenotype |GO:0003712//cellular component| nucleus | inferred from direct assay|GO:
5//cellular component| membrane | inferred from sequence similarity|GO:0016020//biological process| magnesium ion transport | inferred from sequence s
mponent| endoplasmic reticulum membrane | traceable author statement|GO:0005789//biological process| SRP-dependent cotranslational membrane targe
ular function| dCMP deaminase activity | inferred from mutant phenotype |GO:0004132//molecular function| dCMP deaminase activity | inferred from genet
cellular component| contractile ring (sensu Saccharomyces) | inferred from direct assay|GO:0000142//biological process| pseudohyphal growth | inferred fr
ction| ATPase activity | inferred from direct assay |GO:0016887//molecular function| protein transporter activity | inferred from mutant phenotype |GO:00085
process| conjugation with cellular fusion | inferred from expression pattern|GO:0000747
O:0016274//molecular function| protein-arginine N-methyltransferase activity | inferred from direct assay |GO:0016274//cellular component| cytoplasm | inf
| inferred from direct assay |GO:0005634//biological process| signal transduction | inferred from physical interaction|GO:0007165//biological process| sign
| inferred from direct assay |GO:0005634
ular component| cytoplasm | traceable author statement|GO:0005737//biological process| metabolism | traceable author statement|GO:0008152
membrane | inferred from direct assay|GO:0019898//cellular component| cytosol | inferred from direct assay |GO:0005829//cellular component| Golgi mem
0004596//molecular function| peptide alpha-N-acetyltransferase activity | inferred from mutant phenotype |GO:0004596//cellular component| cytoplasm | in
| inferred from direct assay |GO:0005634
Pol II transcription elongation factor activity | inferred from physical interaction |GO:0016944//cellular component| Cdc73/Paf1 complex | traceable author s
cortex | inferred from direct assay|GO:0005938//cellular component| cytoskeleton | traceable author statement |GO:0005856//cellular component| cytoplas
|GO:0003980//cellular component| endoplasmic reticulum | traceable author statement|GO:0005783//biological process| beta-1,6 glucan biosynthesis | tra
nt| septin ring | inferred from physical interaction|GO:0005940//cellular component| septin ring | inferred from direct assay |GO:0005940//cellular componen
lecular function| amino acid transporter activity | inferred from direct assay |GO:0015171//cellular component| plasma membrane | inferred from sequence
5519//cellular component| actin cap (sensu Fungi) | inferred from direct assay|GO:0030478//cellular component| shmoo tip | inferred from direct assay |GO
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
rity|GO:0004314//molecular function| [acyl-carrier protein] S-malonyltransferase activity | inferred from mutant phenotype |GO:0004314//cellular componen
5//molecular function| aminoacyl-tRNA hydrolase activity | inferred from direct assay |GO:0004045//cellular component| mitochondrion | inferred from direc
onent| peroxisome | inferred from direct assay|GO:0005777
nction| galactose transporter activity | traceable author statement |GO:0005354//cellular component| plasma membrane | non-traceable author statement|
mponent| nuclear pore | inferred from direct assay|GO:0005643//biological process| nuclear pore organization and biogenesis | traceable author statement|
ular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005843//biological process| protein biosynthesis | tra
0005838//biological process| proteolysis and peptidolysis | inferred from sequence similarity|GO:0006508//biological process| proteolysis and peptidolysis |
cellular component| membrane | inferred from sequence similarity|GO:0016020//biological process| transport | inferred from curator|GO:0006810
n| DNA strand annealing activity | inferred from direct assay |GO:0000739//cellular component| nucleus | inferred from genetic interaction|GO:0005634//bio
direct assay|GO:0005744//biological process| mitochondrial matrix protein import | inferred from direct assay|GO:0030150
056//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nuclear pore | inferred from direct assay |GO:0005643//b
|GO:0003704//cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| positive regulation of transcription from Pol II prom
ular component| cell wall (sensu Fungi) | inferred from mutant phenotype|GO:0009277//biological process| sporulation (sensu Fungi) | inferred from mutan
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | trac
cessing | inferred from mutant phenotype|GO:0016485//biological process| meiosis | inferred from mutant phenotype |GO:0007126//biological process| inva
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
cellular component| spliceosome complex | inferred from genetic interaction|GO:0005681//cellular component| spliceosome complex | inferred from direct
ponent| peroxisomal matrix | traceable author statement|GO:0005782//biological process| fatty acid beta-oxidation | traceable author statement|GO:000663
TPase activity | inferred from sequence similarity |GO:0003924//molecular function| GTPase activity | inferred from mutant phenotype |GO:0003924//cellula
component| delta DNA polymerase complex | traceable author statement|GO:0005659//biological process| postreplication repair | traceable author statem
| inferred from direct assay |GO:0005634
mponent| actin cortical patch (sensu Fungi) | inferred from direct assay|GO:0030479//biological process| response to salt stress | inferred from physical int
| inferred from direct assay |GO:0005634
| inferred from direct assay |GO:0005634//biological process| 35S primary transcript processing | traceable author statement|GO:0006365//biological proce
04105//cellular component| Golgi apparatus | traceable author statement|GO:0005794//cellular component| nuclear membrane | inferred from direct assay
| inferred from direct assay |GO:0005634//biological process| ribosomal large subunit biogenesis | inferred from physical interaction|GO:0042273//biologica
e|GO:0004331//molecular function| 6-phosphofructo-2-kinase activity | non-traceable author statement |GO:0003873//molecular function| 6-phosphofructo
nce similarity|GO:0008757//cellular component| cytoplasm | inferred from direct assay|GO:0005737
003709//cellular component| transcription factor TFIIIB complex | traceable author statement|GO:0000126//biological process| transcription initiation from P
nt|GO:0003704//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | traceable author statement |GO:00
lecular function| protein disulfide isomerase activity | inferred from mutant phenotype |GO:0003756//cellular component| endoplasmic reticulum | traceable
olecular function| ARF GTPase activator activity | inferred from genetic interaction |GO:0008060//molecular function| ARF GTPase activator activity | inferr
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
component| cytoplasm | inferred from direct assay|GO:0005737//biological process| protein monoubiquitination | traceable author statement|GO:0006513/
| inferred from direct assay |GO:0005634
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
nce similarity|GO:0008757//cellular component| cytoplasm | inferred from direct assay|GO:0005737
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
t| mitochondrion | traceable author statement |GO:0005739//biological process| isoleucine biosynthesis | inferred from mutant phenotype|GO:0009097//bio
0008897//molecular function| holo-[acyl-carrier protein] synthase activity | inferred from direct assay |GO:0008897//cellular component| cytoplasm | traceab
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
matin remodeling | inferred from direct assay|GO:0006338
| inferred from direct assay |GO:0005634
doplasmic reticulum | inferred from direct assay|GO:0005783//biological process| response to metal ion | inferred from mutant phenotype|GO:0010038//bio
tractile ring (sensu Saccharomyces) | inferred from direct assay|GO:0000142//biological process| cytokinesis | inferred from mutant phenotype|GO:000091
arity|GO:0004595//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0
plasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| regulation of ce
ear nucleosome | traceable author statement|GO:0000788//biological process| chromatin assembly/disassembly | traceable author statement|GO:0006333
on| metallopeptidase activity | inferred from mutant phenotype |GO:0008237//cellular component| m-AAA complex | inferred from direct assay|GO:0005745
nt| Golgi apparatus | traceable author statement |GO:0005794//biological process| ER to Golgi transport | inferred from physical interaction|GO:0006888
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
cellular component| nucleolus | inferred from direct assay|GO:0005730//biological process| rRNA processing | traceable author statement|GO:0006364//bi
omponent| respiratory chain complex IV (sensu Eukarya) | inferred from direct assay|GO:0005751//biological process| anaerobic respiration | traceable aut
:0004379//molecular function| glycylpeptide N-tetradecanoyltransferase activity | inferred from mutant phenotype |GO:0004379//cellular component| cytoso
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
ss| meiosis | inferred from expression pattern|GO:0007126
//molecular function| organic acid transporter activity | inferred from direct assay |GO:0005342//cellular component| plasma membrane | inferred from direc
| THO complex | inferred from physical interaction|GO:0000347//cellular component| THO complex | inferred from mutant phenotype |GO:0000347//biologi
mponent| translocon | traceable author statement|GO:0005784//biological process| cotranslational membrane targeting | traceable author statement|GO:00
ecretion | inferred from sequence similarity|GO:0009306
nt| mitochondrion | inferred from sequence similarity|GO:0005739
r function| glucose transporter activity | traceable author statement |GO:0005355//molecular function| glucose transporter activity | inferred from direct assa
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
| inferred from direct assay |GO:0005634
function| neutral amino acid transporter activity | inferred from direct assay |GO:0015175//cellular component| plasma membrane | inferred from sequence
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
onent| endoplasmic reticulum | inferred from sequence similarity|GO:0005783//biological process| cell wall biosynthesis (sensu Fungi) | inferred from muta
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
function| CTP synthase activity | inferred from mutant phenotype |GO:0003883//molecular function| CTP synthase activity | inferred from genetic interactio
milarity|GO:0003704//cellular component| nucleus | inferred from sequence similarity|GO:0005634//biological process| copper ion homeostasis | inferred f
toplasm | inferred from direct assay|GO:0005737//cellular component| ESCRT III complex | inferred from direct assay |GO:0000815//biological process| lat
005088//biological process| RAS protein signal transduction | traceable author statement|GO:0007265
nt|GO:0016251//molecular function| cyclin-dependent protein kinase activity | traceable author statement |GO:0004693//cellular component| transcription fa
ar component| epsilon DNA polymerase complex | inferred from direct assay|GO:0008622//cellular component| replication fork | traceable author statemen
-SNARE activity | traceable author statement |GO:0005485//cellular component| Golgi trans face | traceable author statement|GO:0005802//cellular compo
nt| chromatin remodeling complex | inferred from direct assay|GO:0016585//cellular component| nucleus | inferred from direct assay |GO:0005634//cellular
ent| cytoplasm | inferred from direct assay |GO:0005737//cellular component| nuclear membrane | inferred from direct assay |GO:0005635//biological proc
-SNARE activity | traceable author statement |GO:0005485//cellular component| Golgi trans face | traceable author statement|GO:0005802//cellular compo
ogical process| ergosterol biosynthesis | inferred from mutant phenotype|GO:0006696//biological process| ergosterol biosynthesis | inferred from direct ass
espiration | inferred from mutant phenotype|GO:0009060//biological process| plasmid maintenance | inferred from mutant phenotype |GO:0006276
98//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| sulfur amino acid metabolism | inferred from mutant pheno
32//cellular component| small nucleolar ribonucleoprotein complex | inferred from physical interaction |GO:0005732//biological process| processing of 20S
ular function| transcriptional activator activity | inferred from mutant phenotype |GO:0016563//cellular component| nucleus | inferred from direct assay|GO:0
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
0//molecular function| G-protein coupled receptor activity | inferred from physical interaction |GO:0004930//molecular function| G-protein coupled receptor
e to dessication | inferred from sequence similarity|GO:0009269//biological process| response to dessication | inferred from expression pattern |GO:000926
0005086//cellular component| Golgi vesicle | traceable author statement|GO:0005798//biological process| intra-Golgi transport | traceable author statemen
ess| ER to Golgi transport | inferred from mutant phenotype|GO:0006888//biological process| ER to Golgi transport | inferred from genetic interaction |GO:
0016455//cellular component| mediator complex | inferred from direct assay|GO:0000119//biological process| transcription from Pol II promoter | inferred fr
8028//molecular function| monocarboxylic acid transporter activity | inferred from genetic interaction |GO:0008028//molecular function| transporter activity
mponent| mitochondrion | inferred from direct assay|GO:0005739
olecular function| metalloendopeptidase activity | inferred from mutant phenotype |GO:0004222//cellular component| mitochondrial inner membrane | inferr
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | trac
milarity|GO:0003704//molecular function| specific RNA polymerase II transcription factor activity | inferred from mutant phenotype |GO:0003704//molecula
mponent| bud neck | inferred from direct assay|GO:0005935//biological process| axial budding | traceable author statement|GO:0007120//biological proces
|GO:0004343//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
/cellular component| small nuclear ribonucleoprotein complex | inferred from direct assay|GO:0030532//biological process| nuclear mRNA splicing, via spl
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
function| protein carrier activity | inferred from mutant phenotype |GO:0008320//cellular component| cytoplasm | inferred from direct assay|GO:0005737//ce
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
onent| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| G-pro
000107//molecular function| imidazoleglycerol phosphate synthase activity | inferred from direct assay |GO:0000107//cellular component| intracellular | trac
| inferred from direct assay |GO:0005634
ganization and biogenesis | inferred from genetic interaction|GO:0007047//biological process| regulation of transcription from Pol II promoter | inferred from
diphthamide biosynthesis from peptidyl-histidine | inferred from mutant phenotype|GO:0017183
milarity|GO:0003704//molecular function| specific RNA polymerase II transcription factor activity | inferred from physical interaction |GO:0003704//molecul
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
ent| shmoo tip | inferred from direct assay |GO:0005937//biological process| cytogamy | inferred from mutant phenotype|GO:0000755//biological process| c
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
r component| Arp2/3 protein complex | inferred from direct assay|GO:0005885//biological process| cell growth and/or maintenance | inferred from direct as
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
inferred from direct assay |GO:0016887//cellular component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277//cellular component| cytoplas
n cortical patch (sensu Fungi) | inferred from direct assay|GO:0030479//cellular component| F-actin capping protein complex | inferred from direct assay |G
mponent| mitochondrial matrix | traceable author statement|GO:0005759//cellular component| mitochondrion | inferred from direct assay |GO:0005739//bio
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | trac
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
GO:0016308//cellular component| plasma membrane | inferred from direct assay|GO:0005886//biological process| actin cable formation | inferred from muta
cellular component| bud neck | traceable author statement|GO:0005935//cellular component| spindle pole body | traceable author statement |GO:0005816/
quitination | inferred from mutant phenotype|GO:0016574//biological process| histone methylation | inferred from mutant phenotype |GO:0016571//biologic
ar component| cytosol | traceable author statement|GO:0005829//biological process| translational termination | traceable author statement|GO:0006415//b
//cellular component| DNA-directed RNA polymerase III complex | traceable author statement|GO:0005666//biological process| transcription from Pol III pr
omponent| cytoplasmic exosome (RNase complex) | inferred from direct assay|GO:0000177//cellular component| nuclear exosome (RNase complex) | infe
cess| transport | inferred from sequence similarity|GO:0006810
ess| mitochondrion organization and biogenesis | inferred from mutant phenotype |GO:0007005
ss| protein secretion | inferred from sequence similarity|GO:0009306
tein binding | inferred from direct assay |GO:0005515//cellular component| bud tip | inferred from direct assay|GO:0005934//cellular component| exocyst |
4789//molecular function| hydroxyethylthiazole kinase activity | traceable author statement |GO:0004417//cellular component| cytoplasm | inferred from dire
mponent| nucleolus | inferred from direct assay|GO:0005730//cellular component| nucleus | inferred from direct assay |GO:0005634
nt| endosome membrane | inferred from direct assay|GO:0010008//cellular component| peripheral to membrane of membrane fraction | inferred from direc
ent| nuclear membrane | inferred from direct assay |GO:0005635
molecular function| 5S rRNA binding | inferred from physical interaction |GO:0008097//cellular component| nucleolus | inferred from physical interaction|GO
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
ular component| proteasome regulatory particle (sensu Eukarya) | inferred from physical interaction|GO:0005838//biological process| protein deubiquitinati
//cellular component| DNA-directed RNA polymerase I complex | traceable author statement|GO:0005736//biological process| transcription from Pol I prom
ansport | inferred from genetic interaction|GO:0006812
component| mitochondrion | inferred from direct assay|GO:0005739//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological p
| GINS complex | inferred from physical interaction|GO:0000811//biological process| DNA-dependent DNA replication | inferred from mutant phenotype|GO
nent| proteasome core complex (sensu Eukarya) | traceable author statement|GO:0005839//biological process| ubiquitin-dependent protein catabolism | tra
al process| intra-Golgi transport | inferred from physical interaction|GO:0006891//biological process| intra-Golgi transport | inferred from genetic interaction
itochondrial intermembrane space | inferred from direct assay|GO:0005758//biological process| mitochondrial fusion | inferred from physical interaction|GO
nt| small nucleolar ribonucleoprotein complex | inferred from physical interaction|GO:0005732//cellular component| nucleolus | inferred from direct assay |G
ecular function| MAP kinase kinase kinase activity | inferred from genetic interaction |GO:0004709//cellular component| intracellular | traceable author state
//cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| DNA repair | inferred from mutant phenotype|GO:0006281//biol
nt| nucleus | inferred from physical interaction|GO:0005634//biological process| double-strand break repair via synthesis-dependent strand annealing | trac
ular component| nuclear condensin complex | inferred from genetic interaction |GO:0000799//biological process| mitotic chromosome condensation | trace
mponent| nuclear pore | inferred from direct assay|GO:0005643//biological process| nuclear pore organization and biogenesis | inferred from physical intera
200//cellular component| central plaque of spindle pole body | inferred from direct assay|GO:0005823//biological process| spindle pole body duplication (se
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
y|GO:0016149//molecular function| translation release factor activity, codon specific | inferred from mutant phenotype |GO:0016149//cellular component| c
:0004012//molecular function| phospholipid-translocating ATPase activity | inferred from direct assay |GO:0004012//cellular component| integral to membr
onent| membrane | inferred from sequence similarity|GO:0016020//biological process| transport | inferred from sequence similarity|GO:0006810
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
ellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological pr
mponent| nuclear pore | inferred from direct assay|GO:0005643//biological process| nuclear pore organization and biogenesis | inferred from mutant pheno
ucleolus | inferred from direct assay|GO:0005730//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| processing o
lar component| ribosome | traceable author statement|GO:0005840//biological process| translational initiation | traceable author statement|GO:0006413
83//cellular component| mitochondrial matrix | inferred from direct assay|GO:0005759//cellular component| mitochondrion | inferred from direct assay |GO:0
200//cellular component| condensed nuclear chromosome, pericentric region | inferred from physical interaction|GO:0000780//cellular component| conden
function| protein carrier activity | inferred from genetic interaction |GO:0008320//cellular component| nucleus | inferred from direct assay|GO:0005634//biol
ular function| enzyme regulator activity | inferred from mutant phenotype |GO:0030234//cellular component| mitochondrial matrix | inferred from direct assay
ecular function| MAP kinase kinase activity | traceable author statement |GO:0004708//cellular component| cytoplasm | inferred from direct assay|GO:0005
assay|GO:0004488//molecular function| methenyltetrahydrofolate cyclohydrolase activity | inferred from direct assay |GO:0004477//molecular function| form
e to drug | inferred from mutant phenotype|GO:0042493
ent| membrane fraction | inferred from direct assay |GO:0005624
008106//molecular function| alcohol dehydrogenase (NADP+) activity | inferred from direct assay |GO:0008106//cellular component| soluble fraction | infer
| inferred from direct assay |GO:0005634
ponent| nucleus | non-traceable author statement|GO:0005634//biological process| response to heat | inferred from mutant phenotype|GO:0009408//biolog
mponent| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| pe
7//molecular function| metalloendopeptidase activity | inferred from direct assay |GO:0004222//cellular component| integral to endoplasmic reticulum mem
ecular function| glucose transporter activity | inferred from genetic interaction |GO:0005355//molecular function| fructose transporter activity | inferred from
wall organization and biogenesis | inferred from mutant phenotype|GO:0007047//biological process| cell wall organization and biogenesis | inferred from g
oxisomal membrane | inferred from mutant phenotype|GO:0005778//biological process| peroxisome organization and biogenesis | traceable author stateme
unction| ubiquitin-protein ligase activity | traceable author statement |GO:0004842//cellular component| SCF ubiquitin ligase complex | traceable author sta
lular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological pro
r function| electron carrier activity | inferred from mutant phenotype |GO:0009055//cellular component| mitochondrial matrix | inferred from direct assay|GO
function| RNA helicase activity | inferred from direct assay |GO:0003724//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular
ecular function| RNA binding | inferred from direct assay |GO:0003723//cellular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable a
mponent| nuclear pore | inferred from direct assay|GO:0005643//biological process| nuclear pore organization and biogenesis | inferred from mutant pheno
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
//cellular component| DNA-directed RNA polymerase I complex | traceable author statement|GO:0005736//cellular component| DNA-directed RNA polyme
rom direct assay|GO:0004365//cellular component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277//cellular component| cytosol | traceable
//cellular component| mitochondrial large ribosomal subunit | inferred from sequence similarity|GO:0005762//biological process| protein biosynthesis | infe
r component| nucleus | inferred from direct assay|GO:0005634//biological process| positive regulation of nuclear mRNA splicing, via spliceosome | traceab
/cellular component| chromatin accessibility complex | inferred from physical interaction |GO:0008623//cellular component| nucleus | inferred from direct as
ponent| nucleus | inferred from physical interaction|GO:0005634//biological process| regulation of transcription from Pol II promoter | inferred from direct as
| GINS complex | inferred from physical interaction|GO:0000811//biological process| DNA-dependent DNA replication | inferred from mutant phenotype|GO
5//cellular component| histone deacetylase complex | inferred from physical interaction|GO:0000118//biological process| protein metabolism | inferred from
nent| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| GMP
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
omponent| plasma membrane | inferred from direct assay |GO:0005886//cellular component| endoplasmic reticulum | inferred from physical interaction |GO
s| nuclear mRNA splicing, via spliceosome | inferred from physical interaction|GO:0000398
otic recombination | traceable author statement|GO:0007131//biological process| mismatch repair | inferred from mutant phenotype |GO:0006298
ular component| cytoplasm | inferred from curator|GO:0005737//biological process| protein deubiquitination | traceable author statement|GO:0016579
ecular function| diacylglycerol pyrophosphate phosphatase activity | inferred from mutant phenotype |GO:0000810//molecular function| diacylglycerol pyrop
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
56//biological process| aldehyde metabolism | inferred from sequence similarity|GO:0006081
O:0030508//cellular component| cytosol | inferred from direct assay|GO:0005829//cellular component| vacuole (sensu Fungi) | inferred from physical intera
04//cellular component| nucleus | traceable author statement|GO:0005634//biological process| photoreactive repair | traceable author statement|GO:0000
rom direct assay|GO:0004365//cellular component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277//cellular component| cytosol | traceable
nt| mitochondrion | inferred from direct assay |GO:0005739//biological process| ubiquinone biosynthesis | inferred from mutant phenotype|GO:0006744
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
r component| CCAAT-binding factor complex | traceable author statement|GO:0016602//biological process| transcription | traceable author statement|GO:0
inferred from direct assay |GO:0005634//biological process| regulation of mitosis | inferred from physical interaction|GO:0007088
//cellular component| spindle pole body | inferred from direct assay|GO:0005816//cellular component| condensed nuclear chromosome kinetochore | inferr
nent| mitochondrion | inferred from direct assay|GO:0005739//biological process| DNA repair | inferred from sequence similarity|GO:0006281//biological pro
42124//cellular component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277
ular function| structural molecule activity | inferred from direct assay |GO:0005198//cellular component| spindle pole body | inferred from direct assay|GO:0
quitin-protein ligase activity | traceable author statement |GO:0004842//cellular component| anaphase-promoting complex | traceable author statement|GO
//cellular component| DNA-directed RNA polymerase I complex | traceable author statement|GO:0005736//biological process| transcription from Pol I prom
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
biological process| O-linked glycosylation | inferred from direct assay|GO:0006493
y|GO:0004489//cellular component| cell | traceable author statement|GO:0005623//biological process| methionine metabolism | traceable author statement
/cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| snRNP U2 | inferred from direct assay |GO:0005686//biologi
88//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biolog
0003895//cellular component| mitochondrion | inferred from direct assay|GO:0005739//biological process| DNA-dependent DNA replication | inferred from m
onent| anaphase-promoting complex | traceable author statement|GO:0005680//biological process| cyclin catabolism | traceable author statement|GO:0008
0004435//cellular component| nucleus | inferred from direct assay|GO:0005634//cellular component| condensed nuclear chromosome kinetochore | inferre
ular component| plasma membrane | inferred from sequence similarity|GO:0005886//biological process| hexose transport | inferred from genetic interaction
//cellular component| DNA-directed RNA polymerase III complex | traceable author statement|GO:0005666//biological process| transcription from Pol III pr
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
lar component| ribosome | traceable author statement|GO:0005840//biological process| translational initiation | traceable author statement|GO:0006413
47//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biologic
04674//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biol
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
e|GO:0016538//molecular function| cyclin-dependent protein kinase regulator activity | inferred from expression pattern |GO:0016538//biological process| p
lular component| mitochondrion | inferred from direct assay|GO:0005739//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biologi
dopeptidase activity | traceable author statement |GO:0004175//cellular component| proteasome regulatory particle, base subcomplex (sensu Eukarya) | in
om sequence similarity|GO:0042626//cellular component| membrane | inferred from sequence similarity|GO:0016020//biological process| transport | inferre
unction| DNA binding | traceable author statement |GO:0003677//cellular component| cytoplasm | traceable author statement|GO:0005737//cellular compo
nt| bud neck | inferred from direct assay|GO:0005935//cellular component| bud tip | inferred from direct assay |GO:0005934//cellular component| exocyst |
ular function| specific RNA polymerase II transcription factor activity | inferred from direct assay |GO:0003704//cellular component| nucleus | traceable auth
nce similarity|GO:0008757//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct ass
/cellular component| small nuclear ribonucleoprotein complex | inferred from direct assay|GO:0030532//biological process| rRNA processing | inferred from
oplasm | traceable author statement|GO:0005737//biological process| regulation of nitrogen utilization | inferred from mutant phenotype|GO:0006808
ar component| mitochondrial matrix | traceable author statement|GO:0005759//biological process| malate metabolism | traceable author statement|GO:000
assay|GO:0000252//cellular component| endoplasmic reticulum membrane | inferred from direct assay|GO:0005789//cellular component| endoplasmic re
r component| histone acetyltransferase complex | inferred from direct assay|GO:0000123//biological process| histone acetylation | inferred from direct assa
esponse to stress | inferred from direct assay|GO:0006950//biological process| O-linked glycosylation | inferred from mutant phenotype |GO:0006493//biolo
al change | inferred from physical interaction|GO:0006265
nt| Golgi transport complex | inferred from physical interaction|GO:0017119//cellular component| soluble fraction | inferred from direct assay |GO:0005625
nce similarity|GO:0008757
O:0004679//molecular function| RNA polymerase II transcription factor activity | inferred from direct assay |GO:0003702//cellular component| vacuole | infe
lecular function| homocitrate synthase activity | inferred from mutant phenotype |GO:0004410//molecular function| homocitrate synthase activity | inferred
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
chondrion organization and biogenesis | inferred from mutant phenotype|GO:0007005
ular function| structural molecule activity | inferred from direct assay |GO:0005198//cellular component| spindle pole body | inferred from mutant phenotype
component| nucleus | inferred from curator|GO:0005634//biological process| G1/S-specific transcription in mitotic cell cycle | inferred from mutant phenotyp
ellular component| periplasmic space (sensu Fungi) | traceable author statement|GO:0030287//biological process| protein catabolism | traceable author sta
component| nucleolus | inferred from direct assay|GO:0005730//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process
ar function| metallopeptidase activity | inferred from direct assay |GO:0008237//cellular component| mitochondrion | inferred from mutant phenotype|GO:00
us | traceable author statement|GO:0005634//biological process| chromatin silencing at telomere | inferred from mutant phenotype|GO:0006348//biological
gical process| galactose metabolism | non-traceable author statement|GO:0006012
nent| proteasome core complex, beta-subunit complex (sensu Eukarya) | traceable author statement|GO:0019774//cellular component| proteasome core c
|GO:0003704//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
ss| retrograde transport, Golgi to ER | inferred from mutant phenotype|GO:0006890
d neck | inferred from direct assay|GO:0005935//cellular component| bud tip | inferred from direct assay |GO:0005934//biological process| vesicle fusion | in
n| metalloendopeptidase activity | inferred from sequence similarity |GO:0004222//molecular function| metalloendopeptidase activity | inferred from mutant
| inferred from direct assay |GO:0005634
ogical process| meiotic chromosome segregation | inferred from mutant phenotype|GO:0045132
cess| copper ion transport | inferred from sequence similarity|GO:0006825
omponent| nuclear condensin complex | inferred from physical interaction |GO:0000799//biological process| mitotic chromosome condensation | traceable
ular component| Sin3 complex | inferred from physical interaction|GO:0016580//cellular component| histone deacetylase complex | inferred from physical in
tRNA binding | traceable author statement |GO:0000049//cellular component| nuclear matrix | inferred from direct assay|GO:0016363//biological process|
4674//molecular function| protein serine/threonine kinase activity | inferred from direct assay |GO:0004674//cellular component| nucleus | inferred from dire
ding | inferred from direct assay |GO:0015631//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| beta-tubulin fold
cellular component| mitochondrion | traceable author statement|GO:0005739//biological process| asparagine biosynthesis from oxaloacetate | inferred from
unction| structural constituent of cytoskeleton | traceable author statement |GO:0005200//cellular component| septin ring (sensu Saccharomyces) | traceab
| inferred from direct assay |GO:0005634//biological process| ribosomal large subunit biogenesis | inferred from physical interaction|GO:0042273//biologica
olecular function| phosphoglucomutase activity | inferred from mutant phenotype |GO:0004614//cellular component| cytosol | traceable author statement|GO
nction| transporter activity | inferred from sequence similarity |GO:0005215//molecular function| transporter activity | inferred from mutant phenotype |GO:0
ellular component| proteasome complex (sensu Eukarya) | inferred from physical interaction|GO:0000502//biological process| sporulation (sensu Fungi) |
cular function| hydrolase activity | inferred from direct assay |GO:0016787//cellular component| mitochondrion | inferred from direct assay|GO:0005739//ce
olecular function| metalloendopeptidase activity | inferred from mutant phenotype |GO:0004222//cellular component| integral to membrane | traceable auth
e biosynthesis | inferred from mutant phenotype|GO:0006537
003709//cellular component| transcription factor TFIIIC complex | traceable author statement|GO:0000127//biological process| transcription initiation from
mechanism | inferred from mutant phenotype|GO:0015662//molecular function| ATPase activity, coupled to transmembrane movement of ions, phosphoryla
nt| shmoo tip | inferred from direct assay|GO:0005937//cellular component| bud neck | inferred from direct assay |GO:0005935//cellular component| bud tip
silencing at silent mating-type cassette (sensu Fungi) | inferred from mutant phenotype|GO:0030466
onent| membrane | inferred from sequence similarity|GO:0016020//biological process| transport | inferred from sequence similarity|GO:0006810
RNA binding | inferred from physical interaction |GO:0003729//cellular component| cytoplasmic mRNA processing body | inferred from mutant phenotype|G
32//cellular component| small nucleolar ribonucleoprotein complex | inferred from physical interaction |GO:0005732//biological process| processing of 20S
ent| cytoplasm | inferred from direct assay |GO:0005737//cellular component| nuclear membrane | inferred from direct assay |GO:0005635//biological proc
roxisomal membrane | traceable author statement|GO:0005778//biological process| peroxisome organization and biogenesis | traceable author statement|
nt phenotype|GO:0004616//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| glucose metabolism | inferred from
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
endoplasmic reticulum | inferred from direct assay|GO:0005783//biological process| response to heat | inferred from mutant phenotype|GO:0009408//biolo
GO:0008601//molecular function| protein phosphatase type 2A regulator activity | inferred from genetic interaction |GO:0008601//cellular component| cytos
lular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| nicotinamide riboside metabolism | inferred from genetic interacti
nction| telomerase activity | inferred from direct assay |GO:0003720//cellular component| telomerase holoenzyme complex | traceable author statement|GO
ent| nucleus | inferred from direct assay|GO:0005634
200//cellular component| outer plaque of spindle pole body | inferred from direct assay|GO:0005824//cellular component| inner plaque of spindle pole body
al process| Golgi to vacuole transport | inferred from sequence similarity|GO:0006896
ss| response to stress | inferred from mutant phenotype|GO:0006950
mponent| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| py
4852//molecular function| uroporphyrinogen-III synthase activity | inferred from mutant phenotype |GO:0004852//biological process| heme biosynthesis | inf
ular component| DASH complex | inferred from physical interaction|GO:0042729//cellular component| DASH complex | inferred from direct assay |GO:0042
O:0008135//molecular function| translation factor activity, nucleic acid binding | inferred from genetic interaction |GO:0008135//molecular function| translat
transport | inferred from mutant phenotype|GO:0006888
97//cellular component| mitochondrion | inferred from mutant phenotype|GO:0005739//biological process| protein-cofactor linkage | inferred from direct ass
function| transporter activity | inferred from sequence similarity |GO:0005215//cellular component| mitochondrial inner membrane | inferred from sequence
mutant phenotype|GO:0003825//molecular function| alpha,alpha-trehalose-phosphate synthase (UDP-forming) activity | inferred from direct assay |GO:000
GO:0000179//cellular component| nucleolus | traceable author statement|GO:0005730//biological process| 35S primary transcript processing | traceable a
etyltransferase complex | inferred from physical interaction |GO:0000123//biological process| chromatin silencing at telomere | inferred from mutant pheno
endosome | inferred from physical interaction |GO:0005768//biological process| retrograde transport, endosome to Golgi | inferred from physical interactio
:0018024//molecular function| histone-lysine N-methyltransferase activity | inferred from physical interaction |GO:0018024//molecular function| histone-lysi
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | trac
dle | inferred from direct assay|GO:0005819//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| protein-nucleus im
nt| bud | inferred from direct assay|GO:0005933//cellular component| cytoplasm | inferred from direct assay |GO:0005737//cellular component| nucleus | in
| nucleus | inferred from sequence similarity|GO:0005634//biological process| sporulation (sensu Fungi) | traceable author statement|GO:0030437//biologic
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
dle checkpoint | inferred from mutant phenotype|GO:0007094//biological process| mitotic spindle checkpoint | inferred from genetic interaction |GO:000709
O:0004610//molecular function| phosphoacetylglucosamine mutase activity | inferred from mutant phenotype |GO:0004610//cellular component| cytoplasm
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
nent| proteasome core complex, beta-subunit complex (sensu Eukarya) | traceable author statement|GO:0019774//cellular component| proteasome core c
ecular function| pyruvate carboxylase activity | inferred from direct assay |GO:0004736//cellular component| cytosol | inferred from direct assay|GO:000582
008640//molecular function| ubiquitin-like conjugating enzyme activity | inferred from mutant phenotype |GO:0008640//biological process| autophagy | infe
ss| cytogamy | inferred from mutant phenotype|GO:0000755//biological process| cellular morphogenesis during conjugation with cellular fusion | inferred fr
8028//molecular function| monocarboxylic acid transporter activity | inferred from genetic interaction |GO:0008028//molecular function| transporter activity
molecular function| chromatin binding | traceable author statement |GO:0003682//cellular component| cytoplasm | traceable author statement|GO:0005737
nent| lipid particle | inferred from direct assay|GO:0005811
cular function| ATP-dependent RNA helicase activity | traceable author statement |GO:0004004//cellular component| spliceosome complex | traceable auth
nt| Golgi apparatus | inferred from direct assay |GO:0005794
0016455//cellular component| mediator complex | inferred from direct assay|GO:0000119//biological process| transcription from Pol II promoter | inferred fr
n| protein binding | inferred from genetic interaction |GO:0005515//molecular function| protein binding | inferred from direct assay |GO:0005515//cellular co
mponent| nuclear pore | inferred from direct assay|GO:0005643//biological process| nuclear pore organization and biogenesis | traceable author statement|
cleolus | traceable author statement|GO:0005730//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| processing o
lecular function| allantoate transporter activity | inferred from mutant phenotype |GO:0015124//cellular component| plasma membrane | inferred from sequ
003702//molecular function| DNA replication origin binding | inferred from direct assay |GO:0003688//molecular function| DNA binding | traceable author sta
/cellular component| small nuclear ribonucleoprotein complex | inferred from direct assay|GO:0030532//biological process| rRNA processing | inferred from
| snRNP U1 | traceable author statement|GO:0005685//cellular component| snRNP U1 | inferred from physical interaction |GO:0005685//cellular componen
uence similarity|GO:0000225//cellular component| endoplasmic reticulum membrane | inferred from sequence similarity|GO:0005789//biological process| G
onent| mitochondrion | inferred from mutant phenotype|GO:0005739//cellular component| mitochondrion | inferred from direct assay |GO:0005739//cellular
| inferred from direct assay |GO:0005634
omponent| cytoplasm | inferred from direct assay|GO:0005737//biological process| autophagy | inferred from mutant phenotype|GO:0006914
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
transport | inferred from mutant phenotype|GO:0006888
gi transport | inferred from genetic interaction|GO:0006888
O:0016538//cellular component| spindle pole body | inferred from direct assay|GO:0005816//cellular component| nucleus | inferred from direct assay |GO:00
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
s| nuclear mRNA splicing, via spliceosome | inferred from physical interaction|GO:0000398//biological process| nuclear mRNA splicing, via spliceosome |
rocess| double-strand break repair | traceable author statement |GO:0006302
on | inferred from mutant phenotype|GO:0030435//biological process| sporulation | inferred from genetic interaction |GO:0030435
|GO:0003704//cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| transcription initiation from Pol II promoter | inferre
| inferred from direct assay |GO:0005634
erred from direct assay |GO:0005933//cellular component| incipient bud site | inferred from direct assay |GO:0000131//biological process| budding | inferre
| DNA binding | inferred from direct assay |GO:0003677//cellular component| mitochondrial chromosome | inferred from direct assay|GO:0000262//biologic
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
ular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005843//biological process| protein biosynthesis | tra
al process| intra-Golgi transport | inferred from physical interaction|GO:0006891//biological process| intra-Golgi transport | inferred from genetic interaction
llular component| mitochondrial inner membrane | inferred from direct assay|GO:0005743//cellular component| mitochondrion | inferred from direct assay
| inferred from direct assay |GO:0005634
respiration | inferred from expression pattern|GO:0009060
onent| cytoplasm | inferred from direct assay |GO:0005737
GO:0004445//cellular component| actin cortical patch (sensu Fungi) | inferred from direct assay|GO:0030479//cellular component| membrane fraction | infe
molecular function| actin binding | traceable author statement |GO:0003779//cellular component| Arp2/3 protein complex | inferred from direct assay|GO:00
quitin-protein ligase activity | traceable author statement |GO:0004842//cellular component| anaphase-promoting complex | traceable author statement|GO
03701//cellular component| RNA polymerase I transcription factor complex | traceable author statement|GO:0000120//biological process| transcription from
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| mitotic chromosome condensation | inferred from physical intera
nt|GO:0016251//cellular component| SWI/SNF complex | traceable author statement|GO:0016514//cellular component| nucleosome remodeling complex |
embrane (sensu Fungi) | inferred from direct assay |GO:0000329//biological process| autophagy | inferred from mutant phenotype|GO:0006914//biological
04674//molecular function| protein serine/threonine kinase activity | inferred from mutant phenotype |GO:0004674//cellular component| bud neck | inferred f
mitochondrion | inferred from direct assay|GO:0005739//biological process| DNA repair | inferred from mutant phenotype|GO:0006281
snRNP U5 | inferred from direct assay |GO:0005682//biological process| assembly of spliceosomal tri-snRNP | inferred from direct assay|GO:0000244
osome | inferred from direct assay|GO:0005768//biological process| protein-Golgi retention | inferred from mutant phenotype|GO:0045053//biological proce
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
omponent| CCR4-NOT core complex | inferred from physical interaction|GO:0030015//cellular component| cytoplasm | inferred from direct assay |GO:0005
| inferred from direct assay |GO:0005634
nent| small nucleolar ribonucleoprotein complex | inferred from physical interaction|GO:0005732//biological process| processing of 20S pre-rRNA | inferred
| inferred from direct assay |GO:0005634
rred from direct assay |GO:0005933//biological process| pseudohyphal growth | inferred from mutant phenotype|GO:0007124
n of cyclin dependent protein kinase activity | inferred from genetic interaction|GO:0000079
ess| response to nutrients | inferred from expression pattern|GO:0007584//biological process| response to stress | inferred from expression pattern |GO:00
m mutant phenotype|GO:0046933//cellular component| proton-transporting ATP synthase, central stalk (sensu Eukarya) | traceable author statement|GO:00
| inferred from direct assay |GO:0005634//biological process| negative regulation of gluconeogenesis | inferred from mutant phenotype|GO:0045721
ar component| mitochondrial intermembrane space | inferred from direct assay|GO:0005758//cellular component| mitochondrial outer membrane | inferred
| inferred from direct assay |GO:0005634//biological process| ribosomal large subunit biogenesis | inferred from physical interaction|GO:0042273//biologica
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
O:0030364//molecular function| cleavage/polyadenylation specificity factor activity | inferred from physical interaction |GO:0030364//cellular component| m
//cellular component| DNA-directed RNA polymerase I complex | traceable author statement|GO:0005736//cellular component| DNA-directed RNA polyme
| THO complex | inferred from physical interaction|GO:0000347//cellular component| THO complex | inferred from mutant phenotype |GO:0000347//biologi
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
gulation of transcription from Pol II promoter | inferred from genetic interaction|GO:0000122
m sequence similarity|GO:0016810
4//molecular function| manganese ion transporter activity | inferred from genetic interaction |GO:0005384//cellular component| cytoplasmic vesicle | inferre
ss| protein processing | inferred from mutant phenotype|GO:0016485
component| nucleus | traceable author statement|GO:0005634//biological process| double-strand break repair | inferred from direct assay|GO:0006302//bio
ection | inferred from mutant phenotype|GO:0000282
| protein binding | inferred from direct assay |GO:0005515//cellular component| pyruvate dehydrogenase complex (sensu Eukarya) | traceable author state
nt|GO:0016251//cellular component| transcription factor TFIID complex | traceable author statement|GO:0005669//biological process| transcription initiation
tion| peptidase activity | inferred from mutant phenotype |GO:0008233//cellular component| mitochondrion | traceable author statement|GO:0005739//biolo
ular function| protein transporter activity | inferred from genetic interaction |GO:0008565//cellular component| mitochondrial inner membrane protein insert
r component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277//biological process| pseudohyphal growth | inferred from mutant phenotype|G
mponent| mitochondrial matrix | non-traceable author statement|GO:0005759//biological process| propionate metabolism | inferred from expression patter
y|GO:0016757//molecular function| mannosyltransferase activity | inferred from mutant phenotype |GO:0000030//molecular function| mannosyltransferase
nt| nucleus | traceable author statement|GO:0005634//cellular component| nucleus | inferred from curator |GO:0005634//biological process| phosphorylatio
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| leucine-tRNA ligase activity | inferred from direct assay |GO:000
nce similarity|GO:0008757//molecular function| RNA methyltransferase activity | traceable author statement |GO:0008173//cellular component| nucleolus |
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
lasm | inferred from direct assay|GO:0005737
plasm | inferred from direct assay|GO:0005737//biological process| NEDD8 class-dependent protein catabolism | inferred from direct assay|GO:0019942
lular component| cytosol | inferred from direct assay |GO:0005829//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological pro
ular function| transcription factor activity | inferred from physical interaction |GO:0003700//molecular function| transcription factor activity | inferred from mu
r component| nucleus | inferred from physical interaction|GO:0005634//cellular component| chromosome, pericentric region | inferred from direct assay |GO
on| metallopeptidase activity | inferred from mutant phenotype |GO:0008237//cellular component| m-AAA complex | inferred from direct assay|GO:0005745
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
GO:0000778//biological process| mitotic spindle checkpoint | traceable author statement|GO:0007094
ytoplasm | inferred from direct assay|GO:0005737//biological process| iron-sulfur cluster assembly | inferred from mutant phenotype|GO:0016226
mponent| CCR4-NOT core complex | inferred from physical interaction|GO:0030015//cellular component| cytoplasm | inferred from direct assay |GO:00057
unction| allantoin permease activity | inferred from sequence similarity |GO:0005274//cellular component| membrane | inferred from sequence similarity|GO
component| mitochondrion | inferred from direct assay |GO:0005739//cellular component| mitochondrial sorting and assembly machinery complex | inferre
ponent| spindle pole body | inferred from direct assay|GO:0005816//biological process| mitotic spindle checkpoint | inferred from mutant phenotype|GO:000
nt| nucleus | inferred from direct assay |GO:0005634//biological process| protein-nucleus import | inferred from mutant phenotype|GO:0006606
tatement|GO:0046961//cellular component| vacuolar membrane (sensu Fungi) | traceable author statement|GO:0000329//cellular component| hydrogen-tr
| inferred from direct assay |GO:0005634
nt| cytoplasm | inferred from direct assay|GO:0005737//biological process| deadenylation-dependent decapping | inferred from physical interaction|GO:000
ponent| microtubule associated complex | inferred from sequence similarity|GO:0005875//cellular component| microtubule associated complex | inferred fr
olecular function| thioredoxin peroxidase activity | inferred from mutant phenotype |GO:0008379//molecular function| thioredoxin peroxidase activity | inferr
ction| DNA bending activity | inferred from direct assay |GO:0008301//cellular component| condensed nuclear chromosome kinetochore | traceable author
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
hmoo tip | inferred from direct assay|GO:0005937//cellular component| plasma membrane | inferred from direct assay |GO:0005886//cellular component| h
74//molecular function| basic amino acid transporter activity | inferred from genetic interaction |GO:0015174//cellular component| vacuole (sensu Fungi) | in
component| nuclear origin of replication recognition complex | traceable author statement|GO:0005664//biological process| chromatin silencing at silent m
l process| intracellular protein transport | inferred from sequence similarity|GO:0006886
ular function| chitin deacetylase activity | inferred from direct assay |GO:0004099//cellular component| chitosan layer of spore wall | inferred from sequence
on| ribonuclease MRP activity | inferred from direct assay |GO:0000171//cellular component| nucleolar ribonuclease P complex | inferred from direct assay|
r function| glucose transporter activity | traceable author statement |GO:0005355//molecular function| glucose transporter activity | inferred from direct assa
milarity|GO:0003704//molecular function| specific RNA polymerase II transcription factor activity | inferred from mutant phenotype |GO:0003704//cellular c
on| GTPase activity | inferred from mutant phenotype |GO:0003924//molecular function| translation initiation factor activity | inferred from direct assay |GO:
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
|GO:0008177//molecular function| succinate dehydrogenase (ubiquinone) activity | inferred from genetic interaction |GO:0008177//cellular component| mito
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
ar component| cytoplasm | inferred from curator|GO:0005737//biological process| protein deubiquitination | traceable author statement|GO:0016579
ar component| cytoplasm | inferred from direct assay|GO:0005737//biological process| phenylalanine biosynthesis, prephenate pathway | traceable author
GO:0005053//molecular function| peroxisome targeting signal receptor activity | traceable author statement |GO:0005051//cellular component| cytosol | inf
ellular component| Golgi medial cisterna | inferred from direct assay|GO:0005797//biological process| N-linked glycosylation | inferred from mutant phenoty
nent| small nucleolar ribonucleoprotein complex | inferred from physical interaction|GO:0005732//biological process| processing of 20S pre-rRNA | inferred
function| carbohydrate binding | inferred from mutant phenotype |GO:0030246//cellular component| endoplasmic reticulum | inferred from direct assay|GO:
| RSC complex | inferred from physical interaction|GO:0016586//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process|
ation | inferred from direct assay|GO:0008283//biological process| DNA repair | inferred from direct assay |GO:0006281
cellular component| nucleolus | inferred from physical interaction|GO:0005730//cellular component| nucleolus | inferred from direct assay |GO:0005730//bio
| small nuclear ribonucleoprotein complex | inferred from direct assay|GO:0030532//biological process| spliceosome assembly | inferred from mutant phen
200//cellular component| spindle pole body | inferred from direct assay|GO:0005816//biological process| microtubule nucleation | inferred from physical inte
004853//molecular function| uroporphyrinogen decarboxylase activity | inferred from mutant phenotype |GO:0004853//cellular component| cytoplasm | infer
mponent| nucleus | inferred from genetic interaction|GO:0005634//biological process| transcription initiation from Pol II promoter | inferred from genetic inte
ides | inferred from mutant phenotype|GO:0016811//molecular function| hydrolase activity, acting on carbon-nitrogen (but not peptide) bonds, in linear ami
nsition of mitotic cell cycle | inferred from mutant phenotype|GO:0000086//biological process| DNA damage response, signal transduction resulting in cell c
003709//cellular component| transcription factor TFIIIC complex | traceable author statement|GO:0000127//biological process| transcription initiation from
nt| actin cortical patch (sensu Fungi) | inferred from physical interaction|GO:0030479//cellular component| clathrin vesicle coat | inferred from direct assay
cellular component| nucleolus | traceable author statement|GO:0005730//biological process| 35S primary transcript processing | traceable author statemen
ecular function| translation initiation factor activity | inferred from direct assay |GO:0003743//cellular component| eukaryotic translation initiation factor 3 com
ed from sequence similarity|GO:0016726//molecular function| oxidoreductase activity | inferred from sequence similarity |GO:0016491//cellular component
O:0016944//cellular component| Cdc73/Paf1 complex | traceable author statement|GO:0016593//cellular component| transcription elongation factor comple
ular component| Golgi apparatus | inferred from sequence similarity|GO:0005794//biological process| cell wall organization and biogenesis | inferred from
om sequence similarity|GO:0042626//molecular function| bile acid transporter activity | inferred from mutant phenotype |GO:0015125//cellular component|
nent| proteasome core complex, beta-subunit complex (sensu Eukarya) | traceable author statement|GO:0019774//cellular component| proteasome core c
| inferred from direct assay |GO:0005634//biological process| DNA repair | inferred from mutant phenotype|GO:0006281
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
0004428//molecular function| inositol/phosphatidylinositol kinase activity | inferred from direct assay |GO:0004428//cellular component| nucleus | inferred fro
ellular component| bud neck | inferred from direct assay|GO:0005935//cellular component| bud tip | inferred from direct assay |GO:0005934//cellular comp
component| cytoplasm | inferred from physical interaction|GO:0005737//biological process| protein monoubiquitination | traceable author statement|GO:00
mponent| cytosol | inferred from direct assay|GO:0005829//cellular component| mitochondrial matrix | inferred from direct assay |GO:0005759//biological p
on| DNA helicase activity | inferred from direct assay |GO:0003678//cellular component| nucleus | inferred from curator|GO:0005634//biological process| te
us | inferred from direct assay |GO:0005730//cellular component| nucleus | inferred from direct assay |GO:0005634
| inferred from direct assay |GO:0005634
ne organization and biogenesis | inferred from physical interaction|GO:0016044//biological process| membrane organization and biogenesis | inferred from
omponent| nucleus | inferred from direct assay |GO:0005634//cellular component| chromosome, pericentric region | inferred from direct assay |GO:000077
nt| cytoplasm | inferred from direct assay|GO:0005737//biological process| processing of 20S pre-rRNA | inferred from direct assay|GO:0030490//biologica
nt| histone deacetylase complex | inferred from physical interaction|GO:0000118//biological process| histone deacetylation | inferred from physical interact
plasm | inferred from direct assay|GO:0005737//biological process| mRNA localization, intracellular | inferred from direct assay|GO:0008298
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| ribosome biogenesis and
hor statement|GO:0004169//cellular component| endoplasmic reticulum | traceable author statement|GO:0005783//biological process| O-linked glycosylatio
ucleolus | inferred from direct assay|GO:0005730//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| processing o
cellular component| peroxisomal matrix | traceable author statement|GO:0005782//biological process| fatty acid beta-oxidation | traceable author statement
nt|GO:0016251//cellular component| transcription factor TFIID complex | traceable author statement|GO:0005669//cellular component| SAGA complex | inf
ponent| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| aro
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
ar component| integral to plasma membrane | inferred from direct assay|GO:0005887//biological process| copper ion import | inferred from direct assay|GO
O:0016944//molecular function| Pol II transcription elongation factor activity | inferred from mutant phenotype |GO:0016944//molecular function| Pol II transc
al process| sporulation (sensu Fungi) | inferred from direct assay|GO:0030437//biological process| chitin biosynthesis | inferred from genetic interaction |GO
molecular function| ATP-dependent RNA helicase activity | inferred from mutant phenotype |GO:0004004//cellular component| nucleolus | traceable autho
//molecular function| GPI-anchor transamidase activity | inferred from mutant phenotype |GO:0003923//cellular component| integral to endoplasmic reticul
m | inferred from direct assay |GO:0005737//biological process| cytokinesis | inferred from genetic interaction|GO:0000910
quitin-protein ligase activity | traceable author statement |GO:0004842//cellular component| anaphase-promoting complex | traceable author statement|GO
| protein binding | inferred from direct assay |GO:0005515//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nu
O:0016944//molecular function| ATPase activity | inferred from direct assay |GO:0016887//cellular component| transcription elongation factor complex | infe
mponent| nuclear pore | inferred from direct assay|GO:0005643//biological process| nuclear pore organization and biogenesis | traceable author statement|
ellular component| cytoplasm | inferred from curator|GO:0005737//biological process| protein monoubiquitination | traceable author statement|GO:000651
| inferred from direct assay |GO:0005634
al large subunit biogenesis | inferred from physical interaction|GO:0042273//biological process| ribosomal large subunit biogenesis | inferred from mutant p
llular component| endoplasmic reticulum membrane | inferred from direct assay|GO:0005789//cellular component| endoplasmic reticulum | inferred from di
omponent| cell cortex | inferred from direct assay |GO:0005938//cellular component| endoplasmic reticulum | inferred from direct assay |GO:0005783//cellu
15//biological process| cAMP-mediated signaling | inferred from mutant phenotype|GO:0019933
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
r component| nucleus | inferred from direct assay|GO:0005634//biological process| regulation of meiosis | inferred from genetic interaction|GO:0040020
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
function| carboxy-lyase activity | inferred from mutant phenotype |GO:0016831//molecular function| transcriptional activator activity | inferred from mutant p
acellular | inferred from direct assay|GO:0005622//biological process| response to drug | inferred from mutant phenotype|GO:0042493
ar component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological proce
mponent| nucleus | inferred from direct assay|GO:0005634//biological process| RNA processing | inferred from mutant phenotype|GO:0006396//biological
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
nent| endoplasmic reticulum | inferred from direct assay|GO:0005783
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
nt|GO:0003704//cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| pseudohyphal growth | inferred from mutant phe
lular component| cytosol | inferred from direct assay|GO:0005829//cellular component| mitochondrion | inferred from direct assay |GO:0005739//cellular co
olecular function| signal transducer activity | inferred from sequence similarity |GO:0004871//cellular component| intracellular | traceable author statement|
//cellular component| nucleus | inferred from curator|GO:0005634//biological process| DNA repair | inferred from mutant phenotype|GO:0006281//biologica
//cellular component| DNA-directed RNA polymerase I complex | traceable author statement|GO:0005736//cellular component| DNA-directed RNA polyme
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
nd break repair | inferred from direct assay|GO:0006302//biological process| DNA repair | inferred from direct assay |GO:0006281
molecular function| formate dehydrogenase activity | inferred from genetic interaction |GO:0008863//cellular component| cytosol | inferred from direct assay
n| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| cytosolic large ribosomal subunit (sensu Eukarya) | inferred from dire
omponent| Golgi apparatus | inferred from direct assay |GO:0005794//cellular component| endoplasmic reticulum | inferred from direct assay |GO:0005783
lar component| protein farnesyltransferase complex | inferred from direct assay|GO:0005965//biological process| protein amino acid farnesylation | inferred
milarity|GO:0003810//cellular component| intracellular | traceable author statement|GO:0005622//biological process| glutathione catabolism | traceable au
ype|GO:0004113//molecular function| 2',3'-cyclic-nucleotide 3'-phosphodiesterase activity | inferred from direct assay |GO:0004113//cellular component| cl
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
| inferred from direct assay |GO:0005634
ecular function| structural constituent of ribosome | inferred from direct assay |GO:0003735//molecular function| tRNA binding | inferred from sequence sim
r component| cytoplasm | inferred from direct assay|GO:0005737//biological process| pantothenate biosynthesis | inferred from mutant phenotype|GO:001
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
olecular function| protein kinase activity | inferred from direct assay |GO:0004672//cellular component| membrane fraction | inferred from direct assay|GO:0
gulation of DNA transposition | inferred from mutant phenotype|GO:0000335
GO:0004445//cellular component| actin cortical patch (sensu Fungi) | inferred from direct assay|GO:0030479//cellular component| membrane fraction | infe
//cellular component| cytoplasm | inferred from sequence similarity|GO:0005737//cellular component| cytoplasm | inferred from direct assay |GO:0005737/
ular function| protein transporter activity | inferred from mutant phenotype |GO:0008565//cellular component| mitochondrial outer membrane translocase c
ellular component| membrane | inferred from sequence similarity|GO:0016020//cellular component| membrane | inferred from direct assay |GO:0016020//b
toplasm | traceable author statement|GO:0005737//cellular component| nucleus | traceable author statement |GO:0005634//cellular component| nucleus |
08599//molecular function| protein phosphatase type 1 activity | traceable author statement |GO:0000163//cellular component| cytoplasm | inferred from dir
n| ubiquitin-protein ligase activity | inferred from direct assay |GO:0004842//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellul
ction| amino acid binding | inferred from genetic interaction |GO:0016597//cellular component| extrinsic to plasma membrane | inferred from direct assay|G
nt| nuclear envelope-endoplasmic reticulum network | inferred from direct assay|GO:0042175//cellular component| nuclear pore | inferred from genetic inte
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
15//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biolog
ular function| protein transporter activity | inferred from mutant phenotype |GO:0008565//cellular component| mitochondrial intermembrane space protein t
ocess| signal peptide processing | inferred from sequence similarity|GO:0006465//biological process| signal peptide processing | inferred from physical inte
component| signal recognition particle | inferred from direct assay|GO:0005786//cellular component| nucleus | inferred from direct assay |GO:0005634//bio
1//cellular component| respiratory chain complex III (sensu Eukarya) | inferred from direct assay|GO:0005750//cellular component| mitochondrion | inferred
nt| nucleus | inferred from physical interaction|GO:0005634//cellular component| nucleus | inferred from mutant phenotype |GO:0005634//biological proces
cular function| hydrolase activity | inferred from direct assay |GO:0016787//cellular component| mitochondrion | inferred from direct assay|GO:0005739//ce
ndensin complex | traceable author statement |GO:0000799//cellular component| nuclear condensin complex | inferred from sequence similarity |GO:0000
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
nent| lipid particle | inferred from direct assay|GO:0005811//biological process| lipid metabolism | inferred from mutant phenotype|GO:0006629
ar component| signal recognition particle | inferred from mutant phenotype |GO:0005786//cellular component| signal recognition particle | inferred from dire
nd break repair via nonhomologous end-joining | inferred from mutant phenotype|GO:0006303
ister chromatid cohesion | inferred from mutant phenotype|GO:0007062
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
0003755//cellular component| nucleus | inferred from direct assay|GO:0005634
45129//molecular function| NAD-dependent histone deacetylase activity | inferred from direct assay |GO:0017136//cellular component| nucleus | traceable
omponent| mitochondrion | inferred from direct assay |GO:0005739//biological process| iron ion homeostasis | inferred from mutant phenotype|GO:0006879
nt|GO:0016251//cellular component| transcription factor TFIIH complex | traceable author statement|GO:0005675//cellular component| nucleotide excision
cular function| ATP-dependent RNA helicase activity | traceable author statement |GO:0004004//cellular component| spliceosome complex | traceable auth
mponent| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| p
milarity|GO:0003704//molecular function| specific RNA polymerase II transcription factor activity | inferred from mutant phenotype |GO:0003704//molecula
cular function| structural constituent of ribosome | inferred from physical interaction |GO:0003735//cellular component| mitochondrial small ribosomal subun
nt|GO:0016251//cellular component| SWI/SNF complex | inferred from physical interaction|GO:0016514//cellular component| nucleosome remodeling com
s| thiamin biosynthesis | inferred from mutant phenotype|GO:0009228//biological process| pyridoxine metabolism | inferred from sequence similarity |GO:0
assay|GO:0042800//molecular function| chromatin binding | inferred from mutant phenotype |GO:0003682//cellular component| COMPASS complex | inferr
milarity|GO:0003704//molecular function| specific RNA polymerase II transcription factor activity | inferred from mutant phenotype |GO:0003704//cellular c
ction| transporter activity | inferred from direct assay |GO:0005215//cellular component| mitochondrial inner membrane | inferred from sequence similarity|
mponent| bud neck | inferred from direct assay|GO:0005935//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological process|
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
acellular | inferred from mutant phenotype|GO:0005622//cellular component| intracellular | inferred from direct assay |GO:0005622//biological process| prot
/cellular component| nucleoplasm | traceable author statement|GO:0005654//biological process| protein amino acid phosphorylation | traceable author sta
|GO:0003704//cellular component| nucleus | inferred from curator|GO:0005634//biological process| positive regulation of transcription from Pol II promoter
on| ribonuclease MRP activity | inferred from direct assay |GO:0000171//cellular component| nucleolar ribonuclease P complex | inferred from direct assay|
76//biological process| processing of 27S pre-rRNA | inferred from mutant phenotype|GO:0030489//biological process| double-strand break repair via non
//molecular function| manganese ion transporter activity | inferred from genetic interaction |GO:0005384//cellular component| Golgi membrane | inferred fr
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
cellular component| mannosyltransferase complex | inferred from physical interaction|GO:0000136//biological process| protein amino acid glycosylation | in
equence similarity|GO:0004723//cellular component| calcineurin complex | inferred from sequence similarity|GO:0005955//cellular component| calcineurin
85//cellular component| cytosol | inferred from direct assay|GO:0005829//biological process| protein-vacuolar targeting | inferred from mutant phenotype|GO
ar component| cytoplasm | inferred from curator|GO:0005737//biological process| protein deubiquitination | traceable author statement|GO:0016579
omponent| signal peptidase complex | inferred from direct assay|GO:0005787//biological process| signal peptide processing | inferred from sequence simil
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
508//cellular component| mitochondrion | inferred from direct assay|GO:0005739//biological process| response to oxidative stress | inferred from mutant ph
96//cellular component| cytoplasm | inferred from curator|GO:0005737//biological process| protein amino acid acetylation | traceable author statement|GO
:0030364//cellular component| mRNA cleavage factor complex | inferred from physical interaction|GO:0005849//biological process| mRNA cleavage | infer
component| cytoplasm | traceable author statement|GO:0005737//cellular component| vacuole (sensu Fungi) | inferred from physical interaction |GO:00003
roxisomal membrane | traceable author statement|GO:0005778//biological process| peroxisome organization and biogenesis | traceable author statement|
m direct assay|GO:0000224//cellular component| cytosol | inferred from direct assay|GO:0005829//cellular component| nucleus | inferred from direct assay
n cortical patch (sensu Fungi) | inferred from direct assay|GO:0030479//cellular component| peripheral to membrane of membrane fraction | inferred from d
mponent| nuclear pore | inferred from direct assay|GO:0005643//cellular component| nuclear membrane | inferred from direct assay |GO:0005635//biologic
ular component| mitochondrial large ribosomal subunit | traceable author statement|GO:0005762//cellular component| mitochondrial large ribosomal subun
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
component| nuclear origin of replication recognition complex | traceable author statement|GO:0005664//biological process| chromatin silencing at silent m
component| nucleus | traceable author statement|GO:0005634//biological process| rRNA-nucleus export | inferred from mutant phenotype|GO:0006407//bi
n| ubiquitin-protein ligase activity | inferred from direct assay |GO:0004842//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellul
| inferred from direct assay |GO:0005634//biological process| intracellular signaling cascade | inferred from genetic interaction|GO:0007242
oplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| Rho protein si
al process| mitochondrion organization and biogenesis | inferred from mutant phenotype|GO:0007005//biological process| mitochondrial genome maintena
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
ar component| cytoplasm | traceable author statement|GO:0005737//biological process| proteolysis and peptidolysis | inferred from direct assay|GO:00065
dependent protein catabolism | inferred from sequence similarity|GO:0006511
oldin complex | inferred from sequence similarity|GO:0016272//cellular component| prefoldin complex | inferred from physical interaction |GO:0016272//cel
nce similarity|GO:0008757
t| bud neck | inferred from direct assay|GO:0005935//cellular component| bud | inferred from direct assay |GO:0005933//cellular component| site of polariz
ation | inferred from direct assay|GO:0008283//biological process| DNA repair | inferred from direct assay |GO:0006281
al process| intra-Golgi transport | inferred from physical interaction|GO:0006891//biological process| intra-Golgi transport | inferred from genetic interaction
lar function| anion transporter activity | inferred from physical interaction |GO:0008509//cellular component| plasma membrane | inferred from direct assay
on| GTPase activity | inferred from mutant phenotype |GO:0003924//cellular component| late endosome | inferred from mutant phenotype|GO:0005770//bio
omponent| nucleus | inferred from direct assay|GO:0005634//biological process| DNA replication | inferred from physical interaction|GO:0006260
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
raceable author statement|GO:0005856//cellular component| chaperonin-containing T-complex | traceable author statement |GO:0005832//cellular compo
| cytoplasm | inferred from direct assay|GO:0005737
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
llular component| cytosol | traceable author statement|GO:0005829//biological process| isoprenoid biosynthesis | traceable author statement|GO:0008299
//cellular component| mitochondrial small ribosomal subunit | inferred from sequence similarity|GO:0005763//biological process| protein biosynthesis | infe
component| mitochondrial inner membrane | inferred from direct assay|GO:0005743//biological process| DNA recombination | traceable author statement|
GO:0008176//molecular function| protein binding | inferred from physical interaction |GO:0005515//cellular component| nucleus | inferred from direct assay|
y transcript processing | inferred from mutant phenotype|GO:0006365//biological process| rRNA processing | inferred from mutant phenotype |GO:0006364
03701//cellular component| RNA polymerase I transcription factor complex | traceable author statement|GO:0000120//biological process| transcription from
424//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| tRNA methylation | inferred from direct assay|GO:003048
ular component| nucleus | inferred from curator|GO:0005634//biological process| ethanol fermentation | inferred from mutant phenotype|GO:0019655//biolo
ent| nuclear membrane | inferred from direct assay |GO:0005635
mponent| Golgi apparatus | inferred from direct assay|GO:0005794//biological process| N-linked glycosylation | inferred from mutant phenotype|GO:00064
03918//cellular component| nucleus | inferred from direct assay|GO:0005634//cellular component| synaptonemal complex | inferred from direct assay |GO:
n cap (sensu Fungi) | inferred from direct assay|GO:0030478//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological process|
//biological process| tRNA modification | inferred from sequence similarity|GO:0006400
ular component| Golgi apparatus | inferred from sequence similarity|GO:0005794//biological process| cell wall organization and biogenesis | inferred from
molecular function| dihydroneopterin aldolase activity | inferred from sequence similarity |GO:0004150//molecular function| 2-amino-4-hydroxy-6-hydroxym
r function| riboflavin kinase activity | inferred from direct assay |GO:0008531//molecular function| FMN adenylyltransferase activity | inferred from direct ass
071//molecular function| protein phosphatase type 2C activity | inferred from direct assay |GO:0015071//cellular component| cytoplasm | inferred from direc
process| MAPKKK cascade during cell wall biogenesis | inferred from genetic interaction|GO:0000196
46//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| ribosome biogenesis | inferred from sequence similarity|GO
0016455//cellular component| mediator complex | inferred from direct assay|GO:0000119//biological process| transcription from Pol II promoter | inferred fr
omponent| mitochondrion | inferred from direct assay|GO:0005739
lar function| GTPase activity | inferred from sequence similarity |GO:0003924//cellular component| intracellular | traceable author statement|GO:0005622//
ogical process| vacuolar acidification | inferred from mutant phenotype|GO:0007035//biological process| protein complex assembly | inferred from mutant p
O:0030364//molecular function| cleavage/polyadenylation specificity factor activity | inferred from physical interaction |GO:0030364//cellular component| m
mponent| plasma membrane | traceable author statement|GO:0005886//cellular component| lipid particle | inferred from direct assay |GO:0005811//cellula
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
olypeptide-associated complex | inferred from direct assay|GO:0005854//cellular component| cytosolic ribosome (sensu Eukarya) | inferred from curator |G
olecular function| thioredoxin peroxidase activity | inferred from mutant phenotype |GO:0008379//molecular function| thioredoxin peroxidase activity | inferr
mponent| nuclear pore | inferred from direct assay|GO:0005643//biological process| nuclear pore organization and biogenesis | inferred from mutant pheno
component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process
rred from direct assay |GO:0005933//cellular component| cytoplasm | inferred from direct assay |GO:0005737
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
mitochondrial inner membrane peptidase complex | inferred from direct assay|GO:0042720//biological process| mitochondrial processing | inferred from dire
| inferred from direct assay |GO:0005634
onent| spindle microtubule | traceable author statement|GO:0005876//cellular component| spindle pole body | traceable author statement |GO:0005816//b
ar function| allophanate hydrolase activity | inferred from mutant phenotype |GO:0004039//cellular component| cytoplasm | inferred from direct assay|GO:0
cellular component| nucleolus | traceable author statement|GO:0005730//biological process| 35S primary transcript processing | traceable author statemen
/cellular component| U4/U6 x U5 tri-snRNP complex | traceable author statement|GO:0046540//biological process| nuclear mRNA splicing, via spliceosom
200//cellular component| dynactin complex | inferred from direct assay|GO:0005869//biological process| mitotic anaphase B | inferred from mutant phenoty
ss| peroxisome degradation | inferred from mutant phenotype|GO:0030242//biological process| peroxisome degradation | inferred from expression pattern
r function| glucose transporter activity | traceable author statement |GO:0005355//molecular function| galactose transporter activity | traceable author state
| thiamin biosynthesis | traceable author statement|GO:0009228//biological process| mitochondrial genome maintenance | inferred from mutant phenotype
3//molecular function| cyclin-dependent protein kinase activity | inferred from physical interaction |GO:0004693//molecular function| cyclin-dependent protei
| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| DNA repa
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| leucine-tRNA ligase activity | inferred from direct assay |GO:000
nferred from physical interaction|GO:0005856//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological process| cytoskeleton o
olecular function| ubiquitin-protein ligase activity | inferred from physical interaction |GO:0004842//molecular function| ubiquitin-protein ligase activity | infe
n| osmosensor activity | inferred from direct assay |GO:0005034//molecular function| protein-histidine kinase activity | inferred from direct assay |GO:00046
| nucleus | inferred from direct assay|GO:0005634//cellular component| SWR1 complex | inferred from physical interaction |GO:0000812//cellular compone
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
5//cellular component| histone deacetylase complex | inferred from physical interaction|GO:0000118//biological process| protein metabolism | inferred from
04722//biological process| sodium ion homeostasis | inferred from mutant phenotype|GO:0006883//biological process| sodium ion homeostasis | inferred f
mponent| cytoplasm | inferred from direct assay|GO:0005737//biological process| cysteine metabolism | non-traceable author statement|GO:0006534//biol
cellular component| cytosol | inferred from direct assay|GO:0005829//cellular component| microsome | inferred from direct assay |GO:0005792//biological
|GO:0004642//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| purine nucleotide biosynthesis | traceable autho
ar function| protein binding, bridging | inferred from genetic interaction |GO:0030674//cellular component| actin cortical patch (sensu Fungi) | inferred from
| inferred from direct assay |GO:0005634//biological process| G1/S transition of mitotic cell cycle | inferred from genetic interaction|GO:0000082//biologica
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | trac
plasm | inferred from direct assay|GO:0005737
molecular function| chromatin binding | traceable author statement |GO:0003682//cellular component| cytoplasm | traceable author statement|GO:0005737
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
| inferred from direct assay |GO:0005634
n| ubiquitin-protein ligase activity | traceable author statement |GO:0004842//cellular component| nucleus | inferred from direct assay|GO:0005634//cellula
//molecular function| structural constituent of ribosome | inferred from physical interaction |GO:0003735//cellular component| mitochondrial large ribosoma
O:0030508//molecular function| thiol-disulfide exchange intermediate activity | inferred from mutant phenotype |GO:0030508//molecular function| thiol-disu
olecular function| Rab GTPase activator activity | inferred from physical interaction |GO:0005097//molecular function| Rab GTPase activator activity | inferr
y|GO:0016757//molecular function| alpha-1,6-mannosyltransferase activity | inferred from mutant phenotype |GO:0000009//cellular component| Golgi cis c
ribosomal large subunit biogenesis | inferred from mutant phenotype|GO:0042273//biological process| host-pathogen interaction | inferred from mutant phe
oldin complex | inferred from sequence similarity|GO:0016272//cellular component| prefoldin complex | inferred from physical interaction |GO:0016272//cel
cellular component| peripheral to membrane of membrane fraction | inferred from direct assay|GO:0000300//biological process| ER to Golgi transport | tra
nent| proton-transporting ATP synthase complex (sensu Eukarya) | traceable author statement|GO:0005753//biological process| ATP synthesis coupled pr
ular component| nucleus | inferred from physical interaction|GO:0005634//biological process| mRNA capping | traceable author statement|GO:0006370
| inferred from direct assay |GO:0005634
|GO:0004727//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| protein amino acid dephosphorylation | inferred
| inferred from direct assay |GO:0005634//biological process| signal transduction | inferred from physical interaction|GO:0007165//biological process| sign
tion| peptidase activity | inferred from mutant phenotype |GO:0008233//cellular component| lipid particle | inferred from direct assay|GO:0005811//cellular
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
ponent| cytoplasm | inferred from direct assay|GO:0005737//cellular component| exosome (RNase complex) | inferred from direct assay |GO:0000178//biol
nt| mitochondrial intermembrane space | inferred from direct assay|GO:0005758//cellular component| mitochondrion | traceable author statement |GO:0005
e wall assembly (sensu Fungi) | inferred from mutant phenotype|GO:0030476//biological process| spore wall assembly (sensu Fungi) | inferred from direct
ides | inferred from sequence similarity|GO:0016811//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| guanine
t| lipid particle | inferred from direct assay|GO:0005811//biological process| lipid metabolism | inferred from mutant phenotype|GO:0006629
autophagy | inferred from mutant phenotype|GO:0006914
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
om sequence similarity|GO:0042626//cellular component| CCR4-NOT complex | inferred from physical interaction|GO:0030014//cellular component| cytop
/molecular function| transmembrane receptor activity | inferred from genetic interaction |GO:0004888//cellular component| membrane fraction | inferred fro
| inferred from direct assay |GO:0005634
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
O:0003702//molecular function| RNA polymerase II transcription factor activity | inferred from genetic interaction |GO:0003702//cellular component| nucleo
ellular component| mitochondrion | inferred from direct assay|GO:0005739//biological process| response to oxidative stress | inferred from mutant phenoty
ular component| mitochondrion | inferred from direct assay|GO:0005739//cellular component| nucleus | inferred from direct assay |GO:0005634
ar component| mitochondrial small ribosomal subunit | inferred from direct assay|GO:0005763//biological process| protein biosynthesis | inferred from direc
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
ion| ribonuclease MRP activity | traceable author statement |GO:0000171//cellular component| nucleolar ribonuclease P complex | traceable author statem
8419//molecular function| RNA lariat debranching enzyme activity | inferred from direct assay |GO:0008419//cellular component| nucleus | inferred from cu
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
| protein binding | inferred from direct assay |GO:0005515//cellular component| bud neck | inferred from direct assay|GO:0005935//cellular component| bu
:0008450//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634
nt|GO:0016251//cellular component| SWI/SNF complex | traceable author statement|GO:0016514//cellular component| nucleosome remodeling complex |
92//cellular component| cytoplasm | inferred from direct assay|GO:0005737
on (sensu Fungi) | inferred from mutant phenotype|GO:0030437
t| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| NAD pho
| inferred from direct assay |GO:0005634
ological process| protein amino acid dephosphorylation | inferred from direct assay|GO:0006470//biological process| glycogen metabolism | inferred from m
| inferred from direct assay |GO:0005634
milarity|GO:0003982//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| galactose metabolism | traceable author s
molecular function| protein kinase activity | traceable author statement |GO:0004672//cellular component| nucleus | inferred from direct assay|GO:000563
GO:0008601//molecular function| protein phosphatase type 2A regulator activity | inferred from genetic interaction |GO:0008601//cellular component| cytos
of 20S pre-rRNA | inferred from mutant phenotype|GO:0030490//biological process| response to oxidative stress | inferred from mutant phenotype |GO:00
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | trac
r component| proteasome regulatory particle, lid subcomplex (sensu Eukarya) | inferred from direct assay|GO:0008541//cellular component| proteasome r
r component| cytoplasm | inferred from direct assay|GO:0005737//biological process| ethanol metabolism | inferred from mutant phenotype|GO:0006067
O:0030364//cellular component| mRNA cleavage and polyadenylation specificity factor complex | traceable author statement|GO:0005847//cellular compon
nent| small nucleolar ribonucleoprotein complex | inferred from physical interaction|GO:0005732//biological process| processing of 20S pre-rRNA | inferred
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
direct assay|GO:0008311//molecular function| phosphodiesterase I activity | inferred from direct assay |GO:0004528//cellular component| nucleus | inferred
| inferred from direct assay |GO:0005634
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
mechanism | inferred from mutant phenotype|GO:0015662//molecular function| ATPase activity, coupled to transmembrane movement of ions, phosphoryla
us | inferred from direct assay |GO:0005730//cellular component| nucleus | inferred from direct assay |GO:0005634
005086//biological process| secretory pathway | inferred from genetic interaction|GO:0045045
transport | inferred from mutant phenotype|GO:0006888
organization and biogenesis | inferred from genetic interaction|GO:0007047
olecular function| transcriptional activator activity | inferred from direct assay |GO:0016563//molecular function| DNA bending activity | inferred from direct a
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
//cellular component| DNA-directed RNA polymerase II, core complex | traceable author statement|GO:0005665//biological process| transcription from Pol
ular function| endoribonuclease activity | inferred from mutant phenotype |GO:0004521//cellular component| intracellular | inferred from direct assay|GO:00
olecular function| ubiquitin-protein ligase activity | inferred from genetic interaction |GO:0004842//cellular component| endoplasmic reticulum membrane |
| protein binding | inferred from direct assay |GO:0005515//cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| posit
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
ribosomal subunit (sensu Eukarya) | inferred from direct assay|GO:0005843//biological process| translational initiation | inferred from mutant phenotype|GO
ss| mitochondrion organization and biogenesis | inferred from mutant phenotype|GO:0007005
r component| nucleus | inferred from direct assay|GO:0005634//biological process| regulation of transcription, mating-type specific | inferred from direct as
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
nt| nucleus | inferred from curator|GO:0005634//biological process| telomerase-independent telomere maintenance | inferred from genetic interaction|GO:0
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
GO:0003702//molecular function| RNA polymerase II transcription factor activity | inferred from direct assay |GO:0003702//cellular component| nucleus | in
96//molecular function| glycogen synthase kinase 3 activity | inferred from genetic interaction |GO:0004696//biological process| response to stress | inferre
lar component| mitochondrion | inferred from direct assay|GO:0005739
r function| damaged DNA binding | traceable author statement |GO:0003684//cellular component| DNA replication factor A complex | traceable author stat
nt| mitochondrion | inferred from direct assay|GO:0005739//cellular component| nucleus | inferred from curator |GO:0005634//biological process| chromoso
ucleolus | inferred from direct assay|GO:0005730//biological process| processing of 20S pre-rRNA | traceable author statement|GO:0030490
molecular function| protein kinase activator activity | inferred from genetic interaction |GO:0030295//cellular component| plasma membrane | inferred from d
rom sequence similarity|GO:0004808//cellular component| mitochondrion | inferred from direct assay|GO:0005739
nt|GO:0016251//cellular component| transcription factor TFIIE complex | traceable author statement|GO:0005673//biological process| transcription initiation
016791//cellular component| cytoplasm | inferred from direct assay|GO:0005737
ion| RNA binding | traceable author statement |GO:0003723//cellular component| small nucleolar ribonucleoprotein complex | inferred from physical interac
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
0000774//molecular function| adenyl-nucleotide exchange factor activity | inferred from direct assay |GO:0000774//cellular component| cytosolic ribosome
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
nent| plasma membrane | inferred from direct assay|GO:0005886//biological process| calcium ion transport | inferred from direct assay|GO:0006816
//biological process| acetate metabolism | inferred from direct assay|GO:0006083
ellular component| shmoo tip | inferred from direct assay|GO:0005937//cellular component| bud | inferred from direct assay |GO:0005933//cellular compon
/biological process| mannose metabolism | non-traceable author statement|GO:0006013//biological process| fructose metabolism | non-traceable author s
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
| transcription factor activity | inferred from sequence similarity |GO:0003700//molecular function| transcription factor activity | inferred from physical interac
| inferred from direct assay |GO:0005634//biological process| ubiquitin-dependent protein catabolism | inferred from mutant phenotype|GO:0006511//biolo
TPase activity | inferred from sequence similarity |GO:0016887//cellular component| nucleus | inferred from physical interaction|GO:0005634//biological pro
GO:0000778//cellular component| condensed nuclear chromosome kinetochore | inferred from genetic interaction |GO:0000778//biological process| chrom
cal process| spore wall assembly (sensu Fungi) | inferred from mutant phenotype|GO:0030476
| inferred from direct assay |GO:0005634
7//molecular function| signal recognition particle binding | inferred from physical interaction |GO:0005047//molecular function| signal recognition particle bin
nt| cytosolic ribosome (sensu Eukarya) | inferred from direct assay|GO:0005830//biological process| amino acid biosynthesis | inferred from mutant phenot
29//molecular function| protoporphyrinogen oxidase activity | inferred from mutant phenotype |GO:0004729//cellular component| mitochondrion | inferred fr
h repair | inferred from mutant phenotype|GO:0006298
n| transcription coactivator activity | inferred from direct assay |GO:0003713//cellular component| nucleus | inferred from sequence similarity|GO:0005634//
ponent| plasma membrane | inferred from direct assay |GO:0005886
function| DNA helicase activity | inferred from mutant phenotype |GO:0003678//cellular component| nucleus | inferred from direct assay|GO:0005634//biolo
| inferred from direct assay |GO:0005634//biological process| actin cytoskeleton organization and biogenesis | traceable author statement|GO:0030036//b
:0003842//cellular component| mitochondrion | traceable author statement|GO:0005739//biological process| proline catabolism | traceable author stateme
function| DNA helicase activity | inferred from direct assay |GO:0003678//cellular component| polysome | inferred from direct assay|GO:0005844//biologica
cular function| protein binding | inferred from mutant phenotype |GO:0005515//cellular component| spliceosome complex | inferred from direct assay|GO:0
mponent| Golgi apparatus | inferred from direct assay|GO:0005794//biological process| N-linked glycosylation | inferred from mutant phenotype|GO:00064
omponent| cytoplasmic exosome (RNase complex) | inferred from direct assay|GO:0000177//cellular component| nuclear exosome (RNase complex) | infe
silencing at silent mating-type cassette (sensu Fungi) | inferred from genetic interaction|GO:0030466
r function| telomeric DNA binding | inferred from mutant phenotype |GO:0042162//molecular function| RNA binding | inferred from direct assay |GO:000372
ent| plasma membrane | inferred from direct assay|GO:0005886
component| signal recognition particle | inferred from direct assay|GO:0005786//biological process| protein-ER targeting | inferred from physical interaction
ecular function| cytoskeletal protein binding | inferred from physical interaction |GO:0008092//cellular component| lipid raft | inferred from direct assay|GO:0
author statement|GO:0042626//molecular function| ATPase activity, coupled to transmembrane movement of substances | inferred from direct assay |GO:
mponent| nucleus | inferred from curator|GO:0005634//biological process| DNA repair | inferred from genetic interaction|GO:0006281//biological process| D
nt|GO:0003704//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:000
on| ATPase activity | inferred from mutant phenotype |GO:0016887//cellular component| nucleus | inferred from direct assay|GO:0005634
ellular component| nucleolus | inferred from direct assay|GO:0005730//biological process| meiotic chromosome segregation | inferred from mutant phenoty
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
0008934//molecular function| inositol-1(or 4)-monophosphatase activity | inferred from direct assay |GO:0008934//biological process| myo-inositol metaboli
mponent| ribonuclease MRP complex | traceable author statement|GO:0000172//biological process| rRNA processing | traceable author statement|GO:0006
asm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| tRNA modification
nt| endoplasmic reticulum | inferred from direct assay |GO:0005783//biological process| cell wall biosynthesis (sensu Fungi) | inferred from mutant phenoty
ellular component| nuclear pore | traceable author statement|GO:0005643//biological process| nucleocytoplasmic transport | inferred from mutant phenoty
ssembly | traceable author statement|GO:0042255//biological process| actin cytoskeleton organization and biogenesis | inferred from mutant phenotype |G
plasm | inferred from direct assay |GO:0005737
O:0016538//molecular function| general RNA polymerase II transcription factor activity | traceable author statement |GO:0016251//cellular component| trans
ular component| mitochondrial large ribosomal subunit | traceable author statement|GO:0005762//cellular component| mitochondrial large ribosomal subun
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
| inferred from direct assay |GO:0005634
| inferred from direct assay |GO:0005634
ess| peroxisome organization and biogenesis | inferred from mutant phenotype|GO:0007031//biological process| protein-peroxisome targeting | inferred fro
//molecular function| structural constituent of ribosome | inferred from physical interaction |GO:0003735//cellular component| mitochondrial large ribosoma
process| monosaccharide metabolism | inferred from direct assay|GO:0005996
synaptonemal complex | inferred from direct assay|GO:0000795//biological process| synapsis | inferred from mutant phenotype|GO:0007129//biological pr
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
P binding | inferred from direct assay |GO:0005524//molecular function| damaged DNA binding | inferred from direct assay |GO:0003684//cellular compone
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
function| amine oxidase activity | inferred from genetic interaction |GO:0008131//molecular function| amine oxidase activity | inferred from direct assay |GO
ar component| cytoplasm | inferred from direct assay|GO:0005737//biological process| protein neddylation | inferred from direct assay|GO:0045116
| inferred from direct assay |GO:0005634
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
omponent| cytosol | inferred from direct assay|GO:0005829//biological process| protein biosynthesis | traceable author statement|GO:0006412
cular function| RNA binding | non-traceable author statement |GO:0003723//cellular component| mitochondrial matrix | inferred from direct assay|GO:00057
CF ubiquitin ligase complex | inferred from physical interaction|GO:0019005//cellular component| nuclear ubiquitin ligase complex | traceable author statem
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
ular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| ribosome biogenesis and
er activity | inferred from physical interaction |GO:0008565//molecular function| protein transporter activity | inferred from mutant phenotype |GO:0008565//c
component| nucleus | inferred from direct assay|GO:0005634//biological process| tRNA methylation | inferred from direct assay|GO:0030488//biological pr
milarity|GO:0003704//molecular function| specific RNA polymerase II transcription factor activity | inferred from mutant phenotype |GO:0003704//cellular c
lecular function| spermine transporter activity | inferred from mutant phenotype |GO:0000297//cellular component| plasma membrane | inferred from direct
nt|GO:0016251//cellular component| transcription factor TFIIH complex | traceable author statement|GO:0005675//cellular component| nucleotide excision
ction| lipid binding | inferred from sequence similarity |GO:0008289//cellular component| soluble fraction | inferred from direct assay|GO:0005625//biologica
ular component| Golgi apparatus | inferred from sequence similarity|GO:0005794//biological process| N-linked glycosylation | inferred from sequence simil
omponent| respiratory chain complex IV (sensu Eukarya) | inferred from physical interaction|GO:0005751//biological process| cytochrome c oxidase biogen
mponent| cytoplasm | inferred from direct assay|GO:0005737
05089//molecular function| signal transducer activity | inferred from physical interaction |GO:0004871//cellular component| bud tip | inferred from direct ass
function| maltose porter activity | inferred from direct assay |GO:0015581//molecular function| carbohydrate transporter activity | inferred from sequence si
/cellular component| U4/U6 x U5 tri-snRNP complex | traceable author statement|GO:0046540//biological process| nuclear mRNA splicing, via spliceosom
0016455//cellular component| mediator complex | inferred from direct assay|GO:0000119//biological process| transcription from Pol II promoter | inferred fr
2781//molecular function| purine nucleotide binding | inferred from sequence similarity |GO:0017076//cellular component| mitochondrion | inferred from dir
ulation of gluconeogenesis | inferred from mutant phenotype|GO:0045721
mplex | inferred from physical interaction |GO:0000812//biological process| protein-vacuolar targeting | inferred from mutant phenotype|GO:0006623//biolog
ess| synaptonemal complex formation | traceable author statement|GO:0007130//biological process| synaptonemal complex formation | inferred from physi
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
ent| cytoplasmic vesicle | inferred from direct assay |GO:0016023//biological process| negative regulation of gluconeogenesis | inferred from mutant pheno
ent| nucleus | inferred from direct assay|GO:0005634//biological process| protein complex assembly | inferred from sequence similarity|GO:0006461//biolo
| 7S RNA binding | inferred from physical interaction |GO:0008312//molecular function| 5S rRNA binding | inferred from physical interaction |GO:0008097//
om sequence similarity|GO:0042626//cellular component| plasma membrane | inferred from sequence similarity|GO:0005886//biological process| multidrug
nferred from direct assay |GO:0005634//biological process| cell wall organization and biogenesis | traceable author statement|GO:0007047//biological pro
| inferred from direct assay |GO:0005634
| inferred from direct assay |GO:0005634
r function| monocarboxylic acid transporter activity | inferred from mutant phenotype |GO:0008028//cellular component| plasma membrane | inferred from d
004640//cellular component| cytoplasm | traceable author statement|GO:0005737//biological process| amino acid metabolism | traceable author statement|
osol | inferred from direct assay|GO:0005829//cellular component| microsome | inferred from direct assay |GO:0005792//cellular component| endoplasmic
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
acuolar targeting | inferred from mutant phenotype|GO:0006623
| inferred from direct assay |GO:0005634
/cellular component| actin cap (sensu Fungi) | inferred from direct assay|GO:0030478//biological process| Rho protein signal transduction | traceable auth
//molecular function| structural constituent of ribosome | inferred from physical interaction |GO:0003735//cellular component| mitochondrial small ribosoma
us | inferred from direct assay|GO:0005634//biological process| negative regulation of transcription from Pol II promoter | inferred from mutant phenotype|G
ular component| cytoplasm | inferred from curator|GO:0005737//biological process| negative regulation of gluconeogenesis | inferred from mutant phenotyp
nce similarity|GO:0015344//molecular function| siderochrome-iron (ferrioxamine) uptake transporter activity | inferred from mutant phenotype |GO:0015344
n of transcription | traceable author statement|GO:0045449
| inferred from direct assay |GO:0005634
molecular function| glutathione transferase activity | inferred from direct assay |GO:0004364//cellular component| endoplasmic reticulum | inferred from dire
GO:0004722//cellular component| cytoplasm | inferred from physical interaction|GO:0005737//biological process| G1/S transition of mitotic cell cycle | inferr
nt| cell cortex | inferred from direct assay|GO:0005938//cellular component| bud tip | inferred from direct assay |GO:0005934//biological process| microtubu
ar component| nucleus | inferred from direct assay|GO:0005634//biological process| pseudohyphal growth | inferred from mutant phenotype|GO:0007124
component| nucleus | inferred from direct assay|GO:0005634//biological process| transcription initiation from Pol II promoter | inferred from direct assay|GO
85//cellular component| cytosol | inferred from direct assay|GO:0005829//cellular component| mitochondrial intermembrane space | inferred from direct ass
200//cellular component| half bridge of spindle pole body | traceable author statement|GO:0005825//cellular component| nuclear pore | traceable author st
008972//biological process| thiamin biosynthesis | inferred from genetic interaction|GO:0009228//biological process| thiamin biosynthesis | inferred from ex
molecular function| thiamin diphosphokinase activity | inferred from direct assay |GO:0004788//cellular component| cytoplasm | inferred from direct assay|G
ss| siderochrome transport | inferred from direct assay|GO:0015891
| inferred from direct assay |GO:0005634
| inferred from direct assay |GO:0005634//biological process| meiosis | inferred from mutant phenotype|GO:0007126
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
om sequence similarity|GO:0042626//cellular component| membrane | inferred from sequence similarity|GO:0016020//biological process| sterol transport |
component| nucleus | inferred from direct assay|GO:0005634//biological process| tRNA methylation | inferred from direct assay|GO:0030488
molecular function| formate dehydrogenase activity | inferred from genetic interaction |GO:0008863//cellular component| cytosol | inferred from direct assay
| nucleolus | inferred from direct assay|GO:0005730//cellular component| nucleoplasm | inferred from direct assay |GO:0005654
mitochondrial inner membrane | inferred from direct assay|GO:0005743//cellular component| mitochondrial membrane | inferred from direct assay |GO:000
t| signal peptidase complex | inferred from direct assay|GO:0005787//biological process| signal peptide processing | inferred from sequence similarity|GO:
lecular function| dethiobiotin synthase activity | inferred from direct assay |GO:0004141//cellular component| cytoplasm | inferred from sequence similarity|
| nucleus | inferred from physical interaction|GO:0005634//cellular component| nuclear chromosome | inferred from direct assay |GO:0000228//biological p
omponent| shmoo tip | inferred from direct assay |GO:0005937//biological process| plasma membrane fusion | inferred from mutant phenotype|GO:004502
ecular function| protein tyrosine phosphatase activity | inferred from sequence similarity |GO:0004725//molecular function| phosphoprotein phosphatase ac
4722//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biolo
onent| nuclear membrane | inferred from direct assay |GO:0005635//biological process| karyogamy | inferred from mutant phenotype|GO:0000741//biologi
cellular component| cell wall (sensu Fungi) | traceable author statement|GO:0009277//biological process| cell wall organization and biogenesis | inferred fr
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
nferred from direct assay |GO:0005934//cellular component| incipient bud site | inferred from direct assay |GO:0000131//biological process| cellular morph
eus | inferred from physical interaction|GO:0005634//biological process| chromatin remodeling | inferred from physical interaction|GO:0006338
ucleus | inferred from physical interaction|GO:0005634//biological process| chromatin remodeling | inferred from physical interaction|GO:0006338//biologic
Pase activity | inferred from direct assay |GO:0003924//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| DNA re
nt|GO:0016251//molecular function| DNA helicase activity | traceable author statement |GO:0003678//cellular component| transcription factor TFIIH comple
function| gamma-aminobutyric acid transporter activity | inferred from sequence similarity |GO:0005331//cellular component| vacuolar membrane (sensu
ar component| intracellular | traceable author statement|GO:0005622//biological process| signal transduction | inferred from mutant phenotype|GO:000716
cal process| mitochondrion organization and biogenesis | traceable author statement|GO:0007005//biological process| mitochondrial genome maintenanc
GO:0016806//cellular component| vacuolar membrane (sensu Fungi) | inferred from direct assay|GO:0000329//biological process| protein processing | infe
/cellular component| small nuclear ribonucleoprotein complex | inferred from direct assay|GO:0030532//biological process| nuclear mRNA splicing, via spl
toplasm | traceable author statement|GO:0005737//cellular component| nucleus | inferred from physical interaction |GO:0005634//biological process| bud g
O:0004679//cellular component| plasma membrane | inferred from direct assay|GO:0005886//cellular component| cytoplasm | inferred from direct assay |G
nent| small nucleolar ribonucleoprotein complex | inferred from physical interaction|GO:0005732//biological process| processing of 20S pre-rRNA | inferred
016788//molecular function| hydrolase activity, acting on ester bonds | inferred from mutant phenotype |GO:0016788//molecular function| hydrolase activity
osome | inferred from physical interaction|GO:0005768//cellular component| endosome | inferred from direct assay |GO:0005768//cellular component| ESC
geneous nuclear ribonucleoprotein complex | non-traceable author statement|GO:0030530//cellular component| heterogeneous nuclear ribonucleoprotein
dopeptidase activity | traceable author statement |GO:0004175//cellular component| proteasome regulatory particle (sensu Eukarya) | traceable author sta
nt| Golgi apparatus | inferred from direct assay |GO:0005794//cellular component| cytoplasm | inferred from direct assay |GO:0005737
cellular component| Golgi vesicle | traceable author statement|GO:0005798//biological process| cation homeostasis | traceable author statement|GO:00300
ss| signal transduction | inferred from mutant phenotype |GO:0007165//biological process| signal transduction | inferred from genetic interaction |GO:0007
| inferred from direct assay |GO:0005634
n of cell growth | inferred from physical interaction|GO:0001558
O:0016944//cellular component| transcription elongation factor complex | inferred from physical interaction|GO:0008023//biological process| RNA elongation
nt| nucleus | inferred from direct assay|GO:0005634//biological process| regulation of meiosis | inferred from mutant phenotype|GO:0040020//biological pro
ocess| spore wall assembly (sensu Fungi) | inferred from mutant phenotype|GO:0030476//biological process| protein amino acid phosphorylation | inferred
/molecular function| transmembrane receptor activity | inferred from genetic interaction |GO:0004888//cellular component| endoplasmic reticulum membran
200//cellular component| outer plaque of spindle pole body | inferred from direct assay|GO:0005824//biological process| microtubule nucleation | inferred fr
t| mitochondrion | inferred from direct assay|GO:0005739//biological process| aerobic respiration | inferred from mutant phenotype|GO:0009060//biologica
ponent| protein kinase CK2 complex | inferred from direct assay|GO:0005956//biological process| response to DNA damage stimulus | inferred from direct
388//molecular function| calcium-transporting ATPase activity | inferred from mutant phenotype |GO:0005388//cellular component| vacuolar membrane (se
O:0030508//molecular function| glutathione peroxidase activity | inferred from direct assay |GO:0004602//molecular function| glutathione transferase activi
gral to membrane | inferred from direct assay|GO:0016021//cellular component| Golgi apparatus | inferred from direct assay |GO:0005794//cellular compon
04674//molecular function| protein kinase activity | inferred from sequence similarity |GO:0004672//cellular component| cytoplasm | inferred from direct assa
nction| GTPase activity | traceable author statement |GO:0003924//molecular function| GTPase activity | inferred from direct assay |GO:0003924//cellular c
| inferred from direct assay |GO:0005634
nent| proteasome core complex, beta-subunit complex (sensu Eukarya) | traceable author statement|GO:0019774//cellular component| proteasome core c
725//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biolog
mponent| nuclear pore | inferred from direct assay|GO:0005643//biological process| nuclear pore organization and biogenesis | inferred from mutant pheno
nent| small nuclear ribonucleoprotein complex | traceable author statement|GO:0030532//cellular component| small nucleolar ribonucleoprotein complex | t
3//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biologica
NA-nucleus export | inferred from mutant phenotype|GO:0006406
assay|GO:0042800//cellular component| COMPASS complex | inferred from physical interaction|GO:0048188//cellular component| mRNA cleavage and po
m sequence similarity|GO:0046933//molecular function| hydrogen-transporting ATP synthase activity, rotational mechanism | inferred from physical interact
28//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| vacuole organization and biogenesis | inferred from mutant
ular component| mitochondrial intermembrane space | inferred from direct assay|GO:0005758//biological process| cytochrome c-heme linkage | inferred fro
ribokinase activity | inferred from sequence similarity |GO:0004747//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular comp
sm | traceable author statement|GO:0008152
| inferred from direct assay |GO:0005634
nt|GO:0016251//cellular component| SWI/SNF complex | traceable author statement|GO:0016514//cellular component| nucleosome remodeling complex |
me segregation | inferred from mutant phenotype|GO:0007059//biological process| ubiquitin-dependent protein catabolism | inferred from physical interactio
//cellular component| nucleolus | inferred from direct assay|GO:0005730//cellular component| nucleus | inferred from direct assay |GO:0005634//biological
irect assay|GO:0008541//cellular component| proteasome regulatory particle (sensu Eukarya) | traceable author statement |GO:0005838//biological proces
/cellular component| small nuclear ribonucleoprotein complex | inferred from direct assay|GO:0030532//biological process| nuclear mRNA splicing, via spl
0176//cellular component| integral to Golgi membrane | inferred from direct assay |GO:0030173//cellular component| COPII-coated vesicle | inferred from d
raceable author statement|GO:0005856//cellular component| chaperonin-containing T-complex | traceable author statement |GO:0005832//cellular compo
| inferred from direct assay |GO:0005634
5//cellular component| nucleolus | inferred from direct assay|GO:0005730
us | inferred from direct assay |GO:0005730//cellular component| nucleus | inferred from direct assay |GO:0005634
:0004012//cellular component| plasma membrane | inferred from direct assay|GO:0005886//biological process| intracellular protein transport | inferred from
cytosol | inferred from direct assay|GO:0005829//biological process| response to copper ion | inferred from mutant phenotype|GO:0046688
onent| vacuole (sensu Fungi) | inferred from direct assay|GO:0000324//biological process| vacuolar protein catabolism | inferred from sequence similarity|G
molecular function| nuclear localization sequence binding | inferred from physical interaction |GO:0008139//cellular component| cytoplasm | inferred from d
tone deacetylase activity | traceable author statement |GO:0004407//cellular component| nucleolus | inferred from direct assay|GO:0005730//cellular comp
om sequence similarity|GO:0042626//cellular component| integral to membrane | inferred from sequence similarity|GO:0016021//biological process| transp
//molecular function| translation initiation factor activity | inferred from physical interaction |GO:0003743//molecular function| translation initiation factor acti
complex | inferred from direct assay |GO:0000818//cellular component| kinetochore | inferred from direct assay |GO:0000776//biological process| chromos
O:0016538//cellular component| cyclin-dependent protein kinase holoenzyme complex | traceable author statement|GO:0000307//biological process| regula
component| nucleus | traceable author statement|GO:0005634//biological process| DNA repair | traceable author statement|GO:0006281//biological proces
mponent| peroxisome | inferred from direct assay|GO:0005777//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological proces
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
ular function| cell adhesion molecule binding | inferred from sequence similarity |GO:0050839//molecular function| cell adhesion molecule binding | inferred
y|GO:0004315//molecular function| 3-oxoacyl-[acyl-carrier protein] synthase activity | inferred from mutant phenotype |GO:0004315//cellular component| m
molecular function| NADPH dehydrogenase activity | inferred from direct assay |GO:0003959
200//cellular component| DASH complex | inferred from physical interaction|GO:0042729//cellular component| DASH complex | inferred from direct assay |
process| cell wall organization and biogenesis | inferred from mutant phenotype|GO:0007047
| inferred from direct assay |GO:0005634
-trans isomerase activity | inferred from direct assay |GO:0003755//cellular component| cytosol | inferred from physical interaction|GO:0005829//biological
component| signal recognition particle | inferred from direct assay|GO:0005786//biological process| protein-ER targeting | inferred from physical interaction
05089//molecular function| signal transducer activity | traceable author statement |GO:0004871//cellular component| shmoo tip | inferred from direct assay
sensu Fungi) | inferred from direct assay |GO:0000324
molecular function| transcription corepressor activity | inferred from genetic interaction |GO:0003714//cellular component| nucleus | inferred from physical in
| inferred from direct assay |GO:0005634
dopeptidase activity | traceable author statement |GO:0004175//cellular component| proteasome regulatory particle, base subcomplex (sensu Eukarya) | in
organization and biogenesis | inferred from mutant phenotype|GO:0007047
t| nucleolus | inferred from sequence similarity|GO:0005730//cellular component| nucleolus | inferred from direct assay |GO:0005730//biological process| c
ular component| mitochondrial outer membrane | inferred from physical interaction|GO:0005741//cellular component| mitochondrial outer membrane | infer
ar component| plasma membrane | traceable author statement|GO:0005886//biological process| potassium ion homeostasis | inferred from direct assay|GO
onent| cytoplasm | inferred from direct assay|GO:0005737//biological process| Golgi organization and biogenesis | inferred from genetic interaction|GO:00
us | inferred from direct assay |GO:0005634//biological process| 35S primary transcript processing | inferred from mutant phenotype|GO:0006365//biologic
cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| chromatin remodeling | inferred from physical interaction|GO:000
r component| nucleus | inferred from direct assay|GO:0005634//biological process| regulation of transcription from Pol II promoter | inferred from direct ass
/cellular component| small nuclear ribonucleoprotein complex | inferred from direct assay|GO:0030532//biological process| nuclear mRNA splicing, via spl
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
component| plasma membrane | inferred from direct assay|GO:0005886//biological process| copper ion import | inferred from direct assay|GO:0015677//b
| inferred from direct assay |GO:0005634//biological process| rRNA processing | inferred from mutant phenotype|GO:0006364
| inferred from direct assay |GO:0005634
dopeptidase activity | traceable author statement |GO:0004175//cellular component| proteasome regulatory particle, base subcomplex (sensu Eukarya) | in
/molecular function| transcription corepressor activity | inferred from genetic interaction |GO:0003714//cellular component| soluble fraction | inferred from d
cular function| hydrolase activity | inferred from direct assay |GO:0016787//cellular component| mitochondrion | inferred from direct assay|GO:0005739//ce
y|GO:0004482//molecular function| mRNA (guanine-N7-)-methyltransferase activity | inferred from direct assay |GO:0004482//cellular component| DNA-dir
P-dependent RNA helicase activity | traceable author statement |GO:0004004//cellular component| nucleolus | traceable author statement|GO:0005730//bio
|GO:0017112//cellular component| vacuolar membrane | inferred from direct assay|GO:0005774//cellular component| endosome | inferred from direct assa
/cellular component| small nuclear ribonucleoprotein complex | inferred from direct assay|GO:0030532//biological process| rRNA processing | inferred from
cytoplasm | inferred from direct assay|GO:0005737
component| mitochondrial outer membrane translocase complex | inferred from physical interaction|GO:0005742//cellular component| mitochondrial outer
milarity|GO:0003704//cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| re-entry into mitotic cell cycle after pherom
component| alpha DNA polymerase:primase complex | traceable author statement|GO:0005658//biological process| lagging strand elongation | traceable
n from Pol II promoter | inferred from genetic interaction|GO:0006366//biological process| DNA repair | inferred from physical interaction |GO:0006281
lecular function| homocitrate synthase activity | inferred from mutant phenotype |GO:0004410//molecular function| homocitrate synthase activity | inferred
tion| calcium ion binding | inferred from sequence similarity |GO:0005509//cellular component| membrane | inferred from sequence similarity|GO:0016020
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
ular function| DNA clamp loader activity | inferred from direct assay |GO:0003689//cellular component| DNA replication factor C complex | inferred from dire
nt| nucleus | inferred from curator|GO:0005634//biological process| telomerase-independent telomere maintenance | inferred from genetic interaction|GO:0
| inferred from direct assay |GO:0005634
cular function| triacylglycerol lipase activity | inferred from direct assay |GO:0004806//biological process| lipid metabolism | inferred from sequence similarit
ction| DNA bending activity | inferred from direct assay |GO:0008301//cellular component| condensed nuclear chromosome kinetochore | traceable author
e to dessication | inferred from sequence similarity|GO:0009269//biological process| response to dessication | inferred from expression pattern |GO:000926
mutant phenotype|GO:0008835//molecular function| diaminohydroxyphosphoribosylaminopyrimidine deaminase activity | inferred from genetic interaction
n|GO:0005852//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological process| mitochondrion organization and biogenesis |
05315//molecular function| inorganic phosphate transporter activity | inferred from mutant phenotype |GO:0005315//molecular function| inorganic phospha
mponent| nuclear cohesin complex | traceable author statement|GO:0000798//biological process| mitotic sister chromatid cohesion | traceable author state
ular function| transcription factor activity | inferred from mutant phenotype |GO:0003700//molecular function| transcription factor activity | inferred from gen
ate endosome to vacuole transport | inferred from mutant phenotype|GO:0045324//biological process| late endosome to vacuole transport | inferred from g
cular function| ATP-dependent RNA helicase activity | traceable author statement |GO:0004004//cellular component| spliceosome complex | traceable auth
| inferred from direct assay |GO:0005634//biological process| processing of 20S pre-rRNA | inferred from mutant phenotype|GO:0030490
04693//molecular function| cyclin-dependent protein kinase activity | inferred from direct assay |GO:0004693//cellular component| nucleus | inferred from p
nt| ubiquitin ligase complex | inferred from sequence similarity|GO:0000151//biological process| ubiquitin-dependent protein catabolism | inferred from seq
n| mRNA binding | inferred from direct assay |GO:0003729//cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| ribos
A)+ mRNA-nucleus export | inferred from mutant phenotype|GO:0016973
ear pore | inferred from direct assay |GO:0005643//biological process| nucleocytoplasmic transport | inferred from physical interaction|GO:0006913
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
ection | inferred from mutant phenotype|GO:0000282
| inferred from direct assay |GO:0005634//biological process| sporulation | inferred from mutant phenotype|GO:0030435//biological process| protein proce
| inferred from direct assay |GO:0005634
O:0008670//molecular function| 2,4-dienoyl-CoA reductase (NADPH) activity | inferred from direct assay |GO:0008670//cellular component| peroxisomal m
nent| small nucleolar ribonucleoprotein complex | inferred from physical interaction|GO:0005732//biological process| processing of 20S pre-rRNA | inferred
tatement|GO:0000014//cellular component| nucleotide excision repair factor 1 complex | traceable author statement|GO:0000110//biological process| nucl
ar function| DRAP deaminase activity | inferred from genetic interaction |GO:0017173//molecular function| pseudouridylate synthase activity | inferred from
nent| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| glyco
ed from mutant phenotype |GO:0051087//cellular component| endoplasmic reticulum lumen | inferred from direct assay|GO:0005788//biological process| --
n| protein binding | inferred from mutant phenotype |GO:0005515//cellular component| vacuolar membrane (sensu Fungi) | inferred from direct assay|GO:0
ss| cell cycle arrest in response to pheromone | inferred from physical interaction|GO:0000751//biological process| cell cycle arrest in response to pheromo
nction| GTPase activity | traceable author statement |GO:0003924//molecular function| GTPase activity | inferred from direct assay |GO:0003924//cellular c
n| protein binding | inferred from genetic interaction |GO:0005515//cellular component| exocyst | traceable author statement|GO:0000145//cellular compon
4430//molecular function| 1-phosphatidylinositol 4-kinase activity | inferred from direct assay |GO:0004430//cellular component| plasma membrane | inferre
mponent| nuclear pore | inferred from direct assay|GO:0005643//biological process| nuclear pore organization and biogenesis | traceable author statement|
gi to vacuole transport | inferred from physical interaction|GO:0006896//biological process| Golgi to vacuole transport | inferred from mutant phenotype |GO
omponent| cytoplasm | inferred from curator|GO:0005737//biological process| glutaminyl-tRNA aminoacylation | inferred from sequence similarity|GO:0006
molecular function| SUMO-specific protease activity | inferred from direct assay |GO:0016929//molecular function| cysteine-type peptidase activity | inferred
| cytoplasm | inferred from direct assay|GO:0005737//biological process| RNA metabolism | inferred from sequence similarity|GO:0016070
1//molecular function| protein serine/threonine kinase activity | traceable author statement |GO:0004674//cellular component| cAMP-dependent protein kina
m physical interaction|GO:0046933//molecular function| hydrogen-transporting ATP synthase activity, rotational mechanism | inferred from mutant phenotyp
ular function| arsenate reductase activity | inferred from direct assay |GO:0030611//biological process| response to arsenate | traceable author statement|G
cular function| exopolyphosphatase activity | inferred from direct assay |GO:0004309//cellular component| cytoplasm | inferred from direct assay|GO:0005
ecular function| RNA binding | inferred from direct assay |GO:0003723//cellular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable a
on| DNA helicase activity | inferred from direct assay |GO:0003678//cellular component| nucleus | inferred from curator|GO:0005634//biological process| te
| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| RNA meta
omponent| chromosome, pericentric region | inferred from direct assay |GO:0000775//biological process| chromatin silencing | inferred from mutant phenot
component| nucleus | inferred from curator|GO:0005634//biological process| invasive growth (sensu Saccharomyces) | inferred from direct assay|GO:000
ar component| actin cytoskeleton | inferred from physical interaction |GO:0015629//biological process| actin cytoskeleton organization and biogenesis | inf
molecular function| cation:cation antiporter activity | inferred from mutant phenotype |GO:0015491//cellular component| membrane | inferred from sequence
molecular function| asparagine-tRNA ligase activity | inferred from direct assay |GO:0004816//cellular component| mitochondrion | inferred from sequence
molecular function| poly(A)-specific ribonuclease activity | inferred from direct assay |GO:0004535//cellular component| cytoplasm | inferred from direct assa
9888//cellular component| cytoplasm | inferred from direct assay|GO:0005737
|GO:0003704//molecular function| DNA binding | inferred from direct assay |GO:0003677//cellular component| cytoplasm | inferred from direct assay|GO:0
iated transport | inferred from mutant phenotype|GO:0016192
| inferred from direct assay |GO:0005634
ular component| mitochondrial large ribosomal subunit | traceable author statement|GO:0005762//biological process| protein biosynthesis | traceable autho
/cellular component| U4/U6 x U5 tri-snRNP complex | traceable author statement|GO:0046540//biological process| nuclear mRNA splicing, via spliceosom
cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| G1/S-specific transcription in mitotic cell cycle | inferred from mut
ular function| protein transporter activity | inferred from physical interaction |GO:0008565//cellular component| mitochondrial outer membrane | inferred fro
in biosynthesis | traceable author statement|GO:0006412
n| GTPase activity | inferred from sequence similarity |GO:0003924//cellular component| spindle pole body | traceable author statement|GO:0005816//biolo
ar function| signal sequence binding | inferred from mutant phenotype |GO:0005048//cellular component| Golgi apparatus | traceable author statement|GO
erred from direct assay |GO:0005737
component| chromatin assembly complex | inferred from direct assay |GO:0005678//cellular component| chromatin silencing complex | inferred from muta
P U2 | inferred from direct assay|GO:0005686//biological process| nuclear mRNA splicing, via spliceosome | inferred from physical interaction|GO:0000398
63//molecular function| protein phosphatase type 1 activity | inferred from genetic interaction |GO:0000163//cellular component| protein phosphatase type 1
s| cell cycle | traceable author statement|GO:0007049//biological process| nuclear mRNA splicing, via spliceosome | traceable author statement |GO:0000
l process| Golgi to vacuole transport | inferred from mutant phenotype|GO:0006896
ular component| endoplasmic reticulum membrane | inferred from sequence similarity|GO:0005789//biological process| GPI anchor biosynthesis | inferred
nt| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| cell grow
P U1 | traceable author statement|GO:0005685//cellular component| snRNP U1 | inferred from physical interaction |GO:0005685//cellular component| snRN
nt|GO:0016251//cellular component| transcription factor TFIID complex | traceable author statement|GO:0005669//cellular component| SAGA complex | inf
rred from direct assay |GO:0005933//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological process| actin filament organizati
me organization and biogenesis (sensu Eukarya) | inferred from genetic interaction|GO:0007001
ular function| 3'-5'-exoribonuclease activity | inferred from direct assay |GO:0000175//cellular component| CCR4-NOT core complex | inferred from physica
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
ed from mutant phenotype |GO:0051082//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred fro
ellular component| plasma membrane | inferred from direct assay|GO:0005886//cellular component| cytoplasm | inferred from direct assay |GO:0005737//c
rial inner membrane | inferred from direct assay|GO:0005743//biological process| aerobic respiration | inferred from mutant phenotype|GO:0009060
asm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634
cular function| structural molecule activity | inferred from mutant phenotype |GO:0005198//cellular component| proton-transporting ATP synthase complex,
ular component| mitochondrial outer membrane | inferred from physical interaction|GO:0005741//cellular component| mitochondrial outer membrane | infer
ss| retrograde transport, Golgi to ER | inferred from genetic interaction|GO:0006890
O:0030364//molecular function| cleavage/polyadenylation specificity factor activity | inferred from physical interaction |GO:0030364//cellular component| m
carrier activity | traceable author statement |GO:0005386//molecular function| prenyltransferase activity | inferred from mutant phenotype |GO:0004659//ce
d metabolism | inferred from genetic interaction|GO:0006644
tein binding | inferred from physical interaction |GO:0005515//cellular component| bud tip | inferred from physical interaction|GO:0005934//cellular compon
O:0046027//cellular component| endoplasmic reticulum | traceable author statement|GO:0005783//biological process| lipid storage | inferred from mutant ph
t|GO:0003721//cellular component| nucleolus | inferred from direct assay|GO:0005730//cellular component| telomerase holoenzyme complex | inferred fro
olecular function| phosphopantothenoylcysteine decarboxylase activity | inferred from sequence similarity |GO:0004633//cellular component| cytoplasm | in
mponent| CCR4-NOT core complex | inferred from physical interaction|GO:0030015//cellular component| cytoplasm | inferred from direct assay |GO:00057
ocess| inosine salvage | inferred from mutant phenotype|GO:0006190
ecular function| chaperone activator activity | inferred from direct assay |GO:0030189//cellular component| cytoplasm | inferred from physical interaction|GO
r activity | inferred from direct assay |GO:0004857//cellular component| cytoplasm | inferred from physical interaction|GO:0005737//biological process| prot
nt|GO:0016251//cellular component| chromatin remodeling complex | inferred from physical interaction|GO:0016585//cellular component| SWI/SNF comple
008177//molecular function| succinate dehydrogenase (ubiquinone) activity | inferred from mutant phenotype |GO:0008177//cellular component| respirator
R-Golgi transport vesicle | inferred from direct assay|GO:0030134//cellular component| Golgi apparatus | inferred from direct assay |GO:0005794//cellular
ed DNA binding | traceable author statement |GO:0003684//cellular component| nuclear telomeric heterochromatin | traceable author statement|GO:00057
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
ess| Golgi vesicle transport | inferred from genetic interaction|GO:0048193
4430//cellular component| plasma membrane | inferred from direct assay|GO:0005886//biological process| actin cytoskeleton organization and biogenesis |
008972//biological process| thiamin biosynthesis | inferred from genetic interaction|GO:0009228//biological process| thiamin biosynthesis | inferred from ex
om sequence similarity|GO:0042626//molecular function| ATPase activity, coupled to transmembrane movement of substances | inferred from mutant phe
ular function| geranyltranstransferase activity | inferred from direct assay |GO:0004337//molecular function| dimethylallyltranstransferase activity | traceable
component| signal recognition particle | inferred from direct assay|GO:0005786//biological process| protein-ER targeting | inferred from physical interaction
tip | inferred from physical interaction|GO:0005934//cellular component| exocyst | traceable author statement |GO:0000145//cellular component| exocyst |
nent| cytoplasm | inferred from direct assay|GO:0005737
ular function| structural molecule activity | inferred from direct assay |GO:0005198//cellular component| spindle pole body | inferred from direct assay|GO:0
A clamp loader activity | inferred from direct assay |GO:0003689//cellular component| DNA replication factor C complex | inferred from direct assay|GO:000
17112//cellular component| vacuolar membrane | inferred from direct assay|GO:0005774//cellular component| vacuole (sensu Fungi) | inferred from direct
omponent| cytoplasm | inferred from direct assay|GO:0005737//biological process| mRNA catabolism | traceable author statement|GO:0006402//biological
ar function| snoRNA binding | inferred from direct assay |GO:0030515//cellular component| nucleolus | inferred from direct assay|GO:0005730//biological p
eus | inferred from direct assay |GO:0005634//biological process| calcium-mediated signaling | inferred from genetic interaction|GO:0019722//biological pr
| mitochondrion | traceable author statement|GO:0005739//biological process| fatty acid biosynthesis | traceable author statement|GO:0006633
gical process| meiosis | inferred from mutant phenotype|GO:0007126//biological process| cell cycle checkpoint | inferred from mutant phenotype |GO:00000
s| adaptation to pheromone during conjugation with cellular fusion | inferred from mutant phenotype|GO:0000754
| inferred from direct assay |GO:0005634
omponent| nuclear membrane | traceable author statement|GO:0005635//biological process| mRNA polyadenylation | inferred from genetic interaction|GO
/cellular component| cytosol | traceable author statement|GO:0005829//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biologica
//cellular component| mitochondrial large ribosomal subunit | inferred from physical interaction|GO:0005762//biological process| aerobic respiration | inferr
n-transporting ATPase V1 domain | inferred from physical interaction |GO:0000221//biological process| vacuolar acidification | inferred from physical intera
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
| inferred from direct assay |GO:0005634
ganization and biogenesis | inferred from mutant phenotype|GO:0007047//biological process| nuclear mRNA splicing, via spliceosome | inferred from gene
0016455//cellular component| mediator complex | inferred from direct assay|GO:0000119//biological process| transcription from Pol II promoter | inferred fr
| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| nuclear m
mponent| intracellular | traceable author statement|GO:0005622//biological process| glutathione biosynthesis | traceable author statement|GO:0006750
m sequence similarity|GO:0004015//molecular function| adenosylmethionine-8-amino-7-oxononanoate transaminase activity | inferred from direct assay |G
omponent| cytoplasmic exosome (RNase complex) | inferred from direct assay|GO:0000177//cellular component| nuclear exosome (RNase complex) | infe
ponent| bud tip | inferred from direct assay|GO:0005934//cellular component| cytoplasm | inferred from direct assay |GO:0005737//cellular component| nuc
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
//molecular function| copper-exporting ATPase activity | inferred from mutant phenotype |GO:0004008//cellular component| Golgi trans face | inferred from
mponent| cytosol | traceable author statement|GO:0005829//cellular component| mitochondrial matrix | traceable author statement |GO:0005759//biologica
ion organization and biogenesis | inferred from mutant phenotype|GO:0007005
cellular component| Sin3 complex | inferred from physical interaction|GO:0016580//cellular component| nucleus | inferred from physical interaction |GO:00
:0004012//cellular component| trans-Golgi network transport vesicle | inferred from direct assay|GO:0030140//biological process| intracellular protein trans
lasm | inferred from direct assay |GO:0005654//biological process| ribosomal large subunit biogenesis | inferred from direct assay|GO:0042273
38//cellular component| septum | inferred from direct assay|GO:0030428//cellular component| cell wall (sensu Fungi) | inferred from direct assay |GO:0009
| inferred from direct assay |GO:0005634
lar component| cytoplasm | inferred from direct assay|GO:0005737//biological process| glycogen metabolism | inferred from sequence similarity|GO:00059
749//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| 'de novo' pyrimidine base biosynthesis | traceable author
vacuolar targeting | inferred from mutant phenotype|GO:0006623
5519//cellular component| shmoo tip | inferred from direct assay|GO:0005937//cellular component| bud neck | inferred from direct assay |GO:0005935//cel
component| alpha DNA polymerase:primase complex | traceable author statement|GO:0005658//biological process| lagging strand elongation | traceable
//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| DNA-directed RNA polymerase III complex | traceable autho
ular component| mitochondrial large ribosomal subunit | traceable author statement|GO:0005762//cellular component| mitochondrial large ribosomal subun
ed from mutant phenotype |GO:0051082//cellular component| prefoldin complex | inferred from sequence similarity|GO:0016272//cellular component| prefo
ent|GO:0004420//cellular component| endoplasmic reticulum membrane | inferred from direct assay|GO:0005789//cellular component| mitochondrial matrix
olecular function| Rab GTPase activator activity | inferred from physical interaction |GO:0005097//molecular function| Rab GTPase activator activity | inferr
cellular component| shmoo tip | inferred from direct assay|GO:0005937//cellular component| incipient bud site | inferred from direct assay |GO:0000131//bi
ng of 20S pre-rRNA | traceable author statement|GO:0030490//biological process| ribosome biogenesis | traceable author statement |GO:0007046
mponent| nucleus | inferred from direct assay|GO:0005634//biological process| regulation of nitrogen utilization | inferred from mutant phenotype|GO:00068
ular function| 3'-5' exonuclease activity | inferred from mutant phenotype |GO:0008408//cellular component| nucleus | inferred from direct assay|GO:000563
omponent| cytoplasmic exosome (RNase complex) | inferred from direct assay|GO:0000177//cellular component| nuclear exosome (RNase complex) | infe
tron splicing | inferred from mutant phenotype|GO:0000372//biological process| Group I intron splicing | inferred from direct assay |GO:0000372
GO:0005052//molecular function| peroxisome targeting signal receptor activity | traceable author statement |GO:0005051//molecular function| peroxisome
ar component| cytoplasm | inferred from direct assay |GO:0005737//biological process| response to salt stress | inferred from physical interaction|GO:0009
GO:0045129//molecular function| NAD-independent histone deacetylase activity | inferred from direct assay |GO:0045129//molecular function| NAD-depen
ponent| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277//cellular component| endoplasmic reticulum | inferred from direct assay |GO:00057
487//molecular function| protein kinase activity | inferred from direct assay |GO:0004672//cellular component| cytosol | inferred from direct assay|GO:00058
atrix | inferred from direct assay|GO:0005759//cellular component| mitochondrion | inferred from direct assay |GO:0005739//cellular component| presequen
ular component| cytoplasm | inferred from curator|GO:0005737//biological process| protein deubiquitination | traceable author statement|GO:0016579
NA replication origin binding | traceable author statement |GO:0003688//cellular component| nuclear origin of replication recognition complex | traceable au
GO:0003702//molecular function| RNA polymerase II transcription factor activity | inferred from direct assay |GO:0003702//cellular component| cytoplasm |
GO:0008650//molecular function| rRNA (uridine-2'-O-)-methyltransferase activity | inferred from direct assay |GO:0008650//cellular component| mitochondr
itochondrial outer membrane | traceable author statement|GO:0005741//biological process| mitochondrial fusion | inferred from physical interaction|GO:00
nt|GO:0016251//cellular component| transcription factor TFIID complex | traceable author statement|GO:0005669//biological process| transcription initiation
endoplasmic reticulum membrane | inferred from direct assay|GO:0005789//biological process| ER to Golgi transport | traceable author statement|GO:000
tion| RNA binding | inferred from direct assay |GO:0003723//cellular component| nucleoplasm | traceable author statement|GO:0005654//biological proces
mponent| mitochondrion | inferred from direct assay|GO:0005739//biological process| mitochondrial matrix protein import | traceable author statement|GO:
ent| cytoplasm | inferred from direct assay|GO:0005737//biological process| sporulation (sensu Fungi) | inferred from mutant phenotype|GO:0030437//biolo
snRNP U6 | inferred from direct assay|GO:0005688//biological process| mRNA catabolism | inferred from physical interaction|GO:0006402//biological proc
component| actin cortical patch (sensu Fungi) | traceable author statement|GO:0030479//biological process| polar budding | inferred from mutant phenotyp
003709//cellular component| transcription factor TFIIIC complex | traceable author statement|GO:0000127//biological process| transcription initiation from
| inferred from direct assay |GO:0005634
chondrion organization and biogenesis | inferred from mutant phenotype|GO:0007005
GO:0008176//molecular function| protein binding | inferred from physical interaction |GO:0005515//cellular component| nucleus | inferred from direct assay|
nt| cytosol | inferred from direct assay|GO:0005829//biological process| endocytosis | inferred from mutant phenotype|GO:0006897//biological process| pro
| inferred from mutant phenotype|GO:0016049
red from direct assay|GO:0005737//biological process| signal transduction | traceable author statement|GO:0007165//biological process| spindle pole body
response to unfolded protein | inferred from expression pattern|GO:0006986
04406//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//cell
component| cytoplasm | inferred from direct assay|GO:0005737//biological process| signal transduction | inferred from physical interaction|GO:0007165
to dessication | inferred from sequence similarity|GO:0009269//biological process| rRNA processing | traceable author statement |GO:0006364
0016455//cellular component| mediator complex | inferred from direct assay|GO:0000119//biological process| transcription from Pol II promoter | inferred fr
| inferred from direct assay |GO:0005634
ecular function| structural constituent of ribosome | inferred from direct assay |GO:0003735//cellular component| mitochondrial small ribosomal subunit | tra
O:0016538//cellular component| nucleus | inferred from physical interaction|GO:0005634//biological process| protein amino acid phosphorylation | traceable
ganization and biogenesis | inferred from mutant phenotype|GO:0007047
lecular function| protein disulfide isomerase activity | inferred from mutant phenotype |GO:0003756//cellular component| vacuole (sensu Fungi) | inferred fr
omponent| respiratory chain complex IV (sensu Eukarya) | inferred from physical interaction|GO:0005751//biological process| aerobic respiration | traceabl
| inferred from direct assay |GO:0005634//biological process| negative regulation of gluconeogenesis | inferred from mutant phenotype|GO:0045721
O:0016538//cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| premeiotic DNA synthesis | inferred from mutant phen
08806//cellular component| cytoplasm | inferred from direct assay|GO:0005737
nuclear ribonucleoprotein complex | traceable author statement|GO:0030532//cellular component| small nucleolar ribonucleoprotein complex | traceable au
opeptidase activity | inferred from physical interaction |GO:0004175//cellular component| proteasome regulatory particle (sensu Eukarya) | traceable autho
component| cell | traceable author statement|GO:0005623//biological process| histidine biosynthesis | traceable author statement|GO:0000105
| inferred from direct assay |GO:0005634
ombination | inferred from mutant phenotype|GO:0007131
plication factor C complex | traceable author statement |GO:0005663//cellular component| nucleus | inferred from direct assay |GO:0005634//biological pro
mponent| cytoplasm | inferred from direct assay|GO:0005737//biological process| regulation of translation | inferred from mutant phenotype|GO:0006445//b
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| DNA dealkylation | traceable author statement|GO:0006307
function| double-stranded DNA binding | inferred from direct assay |GO:0003690//cellular component| nucleus | inferred from direct assay|GO:0005634//ce
cular function| structural molecule activity | inferred from mutant phenotype |GO:0005198//cellular component| proton-transporting ATP synthase complex,
ponent| protein kinase CK2 complex | inferred from direct assay|GO:0005956//biological process| response to DNA damage stimulus | inferred from direct
mponent| nucleus | inferred from direct assay|GO:0005634
ction| H3/H4 histone acetyltransferase activity | inferred from direct assay |GO:0004406//cellular component| nuclear chromatin | inferred from direct assay
osome | inferred from direct assay|GO:0005768//biological process| protein-vacuolar targeting | inferred from physical interaction|GO:0006623//biological p
//molecular function| aldehyde dehydrogenase activity | inferred from mutant phenotype |GO:0004028//cellular component| cytoplasm | inferred from seque
//cellular component| DNA-directed RNA polymerase III complex | traceable author statement|GO:0005666//biological process| transcription from Pol III pr
04674//molecular function| protein serine/threonine kinase activity | inferred from mutant phenotype |GO:0004674//cellular component| cytoplasm | inferred
| inferred from direct assay |GO:0005634
densed nuclear chromosome kinetochore | inferred from direct assay|GO:0000778//biological process| chromosome segregation | inferred from physical in
component| alpha DNA polymerase:primase complex | traceable author statement|GO:0005658//biological process| lagging strand elongation | traceable
r function| isocitrate lyase activity | inferred from mutant phenotype |GO:0004451//biological process| glyoxylate cycle | traceable author statement|GO:000
k | inferred from direct assay |GO:0005935//cellular component| bud tip | inferred from direct assay |GO:0005934//biological process| conjugation with cellu
ss| ER to Golgi transport | inferred from genetic interaction|GO:0006888
| inferred from direct assay |GO:0005634
| inferred from mutant phenotype|GO:0030435//biological process| negative regulation of DNA transposition | inferred from mutant phenotype |GO:000033
process| nuclear mRNA splicing, via spliceosome | traceable author statement|GO:0000398//biological process| nuclear mRNA splicing, via spliceosome
s| nuclear mRNA splicing, via spliceosome | inferred from mutant phenotype|GO:0000398
28//cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| phosphorylation | inferred from direct assay|GO:0016310//bio
vacuolar membrane (sensu Fungi) | inferred from direct assay |GO:0000329//biological process| glycerol metabolism | inferred from genetic interaction|GO
ent| cell cortex | inferred from direct assay|GO:0005938
|GO:0003704//cellular component| nucleus | inferred from physical interaction|GO:0005634//biological process| transcription initiation from Pol II promoter
ular function| transcription factor activity | inferred from physical interaction |GO:0003700//molecular function| transcription factor activity | inferred from dir
nzyme activator activity | inferred from direct assay |GO:0008047//molecular function| mRNA binding | inferred from physical interaction |GO:0003729//cellu
17//cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//biological process| calcium-mediated signaling | inferred from mut
negative regulation of transcription by glucose | inferred from mutant phenotype|GO:0045014//biological process| protein-vacuolar targeting | inferred from
nt| chromatin remodeling complex | inferred from direct assay|GO:0016585//cellular component| nucleus | inferred from direct assay |GO:0005634//cellular
component| nuclear origin of replication recognition complex | traceable author statement|GO:0005664//biological process| chromatin silencing at silent m
3//biological process| mitotic sister chromatid cohesion | inferred from mutant phenotype|GO:0007064
us | inferred from direct assay |GO:0005730//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| processing of 20S p
molecular function| single-stranded DNA specific endodeoxyribonuclease activity | inferred from direct assay |GO:0000014//cellular component| nucleus | tr
th | inferred from genetic interaction|GO:0007117//biological process| mitotic cell cycle | inferred from genetic interaction |GO:0000278
process| alpha-tubulin folding | traceable author statement|GO:0007024//biological process| post-chaperonin tubulin folding pathway | traceable author stat
onent| mitochondrial inner membrane | inferred from sequence similarity|GO:0005743//biological process| transport | inferred from sequence similarity|GO
ular component| mitochondrial large ribosomal subunit | traceable author statement|GO:0005762//cellular component| mitochondrial large ribosomal subun
0005085//cellular component| membrane | traceable author statement|GO:0016020//cellular component| vacuole | inferred from direct assay |GO:0005773
| inferred from direct assay |GO:0005634
ion| t-SNARE activity | inferred from mutant phenotype |GO:0005486//cellular component| Golgi apparatus | inferred from mutant phenotype|GO:0005794/
asma membrane | traceable author statement|GO:0005886//cellular component| plasma membrane | inferred from direct assay |GO:0005886//biological p
ular component| mitochondrial large ribosomal subunit | traceable author statement|GO:0005762//biological process| protein biosynthesis | traceable autho
GO:0004368//molecular function| glycerol-3-phosphate dehydrogenase activity | inferred from mutant phenotype |GO:0004368//molecular function| glycerol
ty|GO:0004933//molecular function| mating-type a-factor pheromone receptor activity | inferred from mutant phenotype |GO:0004933//cellular component|
0003755//cellular component| vacuole (sensu Fungi) | inferred from direct assay|GO:0000324
biological process| O-linked glycosylation | inferred from direct assay|GO:0006493
on| receptor activity | inferred from genetic interaction |GO:0004872//cellular component| late endosome | inferred from direct assay|GO:0005770//cellular
endosome | inferred from physical interaction |GO:0005768//biological process| retrograde transport, endosome to Golgi | inferred from physical interactio
/cellular component| small nuclear ribonucleoprotein complex | inferred from direct assay|GO:0030532//biological process| rRNA processing | inferred from
transport vesicle | inferred from direct assay|GO:0030133//biological process| vesicle fusion | traceable author statement|GO:0006906//biological process|
ess| protein-membrane targeting | inferred from mutant phenotype|GO:0006612//biological process| protein-membrane targeting | inferred from genetic int
molecular function| chromatin binding | traceable author statement |GO:0003682//cellular component| cytoplasm | traceable author statement|GO:0005737
:0000751//biological process| cell cycle arrest in response to pheromone | inferred from mutant phenotype |GO:0000751
onent| membrane | inferred from sequence similarity|GO:0016020//biological process| transport | inferred from sequence similarity|GO:0006810
ular function| protein transporter activity | inferred from mutant phenotype |GO:0008565//cellular component| mitochondrial intermembrane space protein t
nent| small nucleolar ribonucleoprotein complex | inferred from physical interaction|GO:0005732//biological process| processing of 20S pre-rRNA | inferred
matin binding | inferred from direct assay |GO:0003682//cellular component| nucleolus | traceable author statement|GO:0005730//cellular component| nuc
cellular component| nucleolus | traceable author statement|GO:0005730//biological process| 35S primary transcript processing | traceable author statemen
cleus | inferred from direct assay |GO:0005634//biological process| osmoregulation | inferred from mutant phenotype|GO:0018987//biological process| osm
008495//cellular component| mitochondrial inner membrane | traceable author statement|GO:0005743//biological process| heme a biosynthesis | traceable
nction| xylulokinase activity | inferred from mutant phenotype |GO:0004856//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biolo
tion| protein binding | inferred from direct assay |GO:0005515//cellular component| cytosol | inferred from direct assay|GO:0005829//cellular component| p
ependent DNA helicase activity | traceable author statement |GO:0004003//molecular function| chromatin binding | traceable author statement |GO:000368
on|GO:0016455//cellular component| mediator complex | inferred from direct assay|GO:0000119//biological process| transcription from Pol II promoter | inf
GO:0045129//molecular function| NAD-independent histone deacetylase activity | inferred from direct assay |GO:0045129//molecular function| NAD-depen
gical process| actin filament organization | inferred from physical interaction|GO:0007015//biological process| endocytosis | inferred from mutant phenotype
component| contractile ring (sensu Saccharomyces) | inferred from direct assay|GO:0000142//biological process| response to osmotic stress | inferred from
ular component| vacuole (sensu Fungi) | inferred from mutant phenotype|GO:0000324//biological process| response to stress | inferred from mutant pheno
ponent| cytoplasm | traceable author statement|GO:0005737//biological process| ubiquitin-dependent protein catabolism | traceable author statement|GO:
ent| mitochondrial outer membrane | inferred from direct assay|GO:0005741//biological process| protein-mitochondrial targeting | inferred from genetic inte
lular component| cytosol | inferred from direct assay |GO:0005829//biological process| regulation of translational elongation | inferred from physical interac
onent| nuclear nucleosome | inferred from direct assay|GO:0000788//cellular component| condensed nuclear chromosome, pericentric region | inferred from
nent| small nucleolar ribonucleoprotein complex | inferred from physical interaction|GO:0005732//biological process| processing of 20S pre-rRNA | inferred
milarity|GO:0004633//biological process| coenzyme A biosynthesis | inferred from sequence similarity|GO:0015937//biological process| G1/S transition of m
onent| mitochondrial inner membrane | inferred from sequence similarity|GO:0005743//biological process| transport | inferred from sequence similarity|GO
ated signaling | inferred from genetic interaction|GO:0019933
nt| nucleolus | inferred from direct assay|GO:0005730//biological process| ribosome biogenesis | traceable author statement|GO:0007046//biological proce
ulation (sensu Fungi) | inferred from mutant phenotype|GO:0030437
function| choline kinase activity | inferred from direct assay |GO:0004103//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biologic
O:0016944//molecular function| Pol II transcription elongation factor activity | inferred from mutant phenotype |GO:0016944//molecular function| histone ace
olecular function| transcriptional activator activity | inferred from expression pattern |GO:0016563//cellular component| cytoplasm | inferred from physical in
component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process
on|GO:0005671//biological process| nucleosome disassembly | inferred from physical interaction|GO:0006337
r component| proteasome regulatory particle (sensu Eukarya) | traceable author statement|GO:0005838//biological process| ubiquitin-dependent protein c
espiration | inferred from mutant phenotype|GO:0009060//biological process| aerobic respiration | inferred from expression pattern |GO:0009060
on| helicase activity | inferred from sequence similarity |GO:0004386//cellular component| nucleolus | inferred from direct assay|GO:0005730//cellular comp
| inferred from direct assay |GO:0005634
s| sphingolipid biosynthesis | inferred from genetic interaction|GO:0030148
ty|GO:0004515//molecular function| nicotinate-nucleotide adenylyltransferase activity | inferred from genetic interaction |GO:0004515//cellular component|
/cellular component| small nuclear ribonucleoprotein complex | inferred from direct assay|GO:0030532//biological process| nuclear mRNA splicing, via spl
nt| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| cell grow
r component| mitochondrion | inferred from direct assay |GO:0005739//biological process| proteolysis and peptidolysis | inferred from physical interaction|G
mponent| nucleus | inferred from curator|GO:0005634//biological process| double-strand break repair | traceable author statement|GO:0006302//biological
omponent| respiratory chain complex IV (sensu Eukarya) | inferred from physical interaction|GO:0005751//biological process| aerobic respiration | traceabl
us | inferred from direct assay|GO:0005634//biological process| poly(A)+ mRNA-nucleus export | inferred from genetic interaction|GO:0016973
plasm | inferred from direct assay|GO:0005737//biological process| NEDD8 class-dependent protein catabolism | inferred from direct assay|GO:0019942
6299//cellular component| ESCRT II complex | inferred from direct assay|GO:0000814//biological process| protein-Golgi retention | inferred from mutant ph
cellular component| integral to membrane | inferred from sequence similarity|GO:0016021//cellular component| plasma membrane | inferred from direct ass
| ligase activity | inferred from mutant phenotype |GO:0016874//cellular component| mitochondrion | inferred from direct assay|GO:0005739//biological pro
/molecular function| FMN adenylyltransferase activity | inferred from direct assay |GO:0003919//cellular component| cytoplasm | inferred from direct assay
nent| contractile ring (sensu Saccharomyces) | inferred from direct assay|GO:0000142//biological process| cytokinesis, contractile ring contraction | inferre
08599//molecular function| protein phosphatase type 1 activity | inferred from physical interaction |GO:0000163//cellular component| protein phosphatase ty
|GO:0003704//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
tic recombination | inferred from mutant phenotype|GO:0007131
nent| small nucleolar ribonucleoprotein complex | inferred from physical interaction|GO:0005732//biological process| processing of 20S pre-rRNA | inferred
ent| mitochondrial inner membrane | inferred from direct assay |GO:0005743//cellular component| mitochondrion | inferred from direct assay |GO:0005739
onent| cytoplasm | inferred from direct assay|GO:0005737
04144//molecular function| diacylglycerol O-acyltransferase activity | inferred from mutant phenotype |GO:0004144//cellular component| lipid particle | infe
ss| autophagy | inferred from mutant phenotype|GO:0006914//biological process| protein-vacuolar targeting | inferred from mutant phenotype |GO:0006623
cellular component| nucleolus | traceable author statement|GO:0005730//biological process| 35S primary transcript processing | traceable author statemen
thor statement|GO:0046933//molecular function| structural molecule activity | traceable author statement |GO:0005198//molecular function| structural mole
plasm | inferred from direct assay |GO:0005737
nt| nucleus | inferred from direct assay|GO:0005634//biological process| meiosis | inferred from direct assay|GO:0007126//biological process| DNA unwindi
oldin complex | inferred from sequence similarity|GO:0016272//cellular component| prefoldin complex | inferred from physical interaction |GO:0016272//cel
ogical process| ER-associated protein catabolism | inferred from mutant phenotype|GO:0030433
onent| integral to membrane | inferred from sequence similarity|GO:0016021//biological process| transport | inferred from sequence similarity|GO:0006810
cellular component| mitochondrial matrix | inferred from direct assay|GO:0005759//biological process| transcription from mitochondrial promoter | inferred f
complex | inferred from physical interaction |GO:0000812//biological process| protein-vacuolar targeting | inferred from mutant phenotype|GO:0006623//bio
ecular function| glucose transporter activity | inferred from genetic interaction |GO:0005355//molecular function| galactose transporter activity | inferred from
omponent| nuclear exosome (RNase complex) | inferred from direct assay|GO:0000176//biological process| 35S primary transcript processing | traceable
nent| proteasome core complex, alpha-subunit complex (sensu Eukarya) | inferred from sequence similarity|GO:0019773//cellular component| proteasome
owth (sensu Saccharomyces) | inferred from mutant phenotype|GO:0001403//biological process| conjugation with cellular fusion | inferred from mutant phe
ponent| plasma membrane | inferred from physical interaction |GO:0005886//biological process| Golgi to plasma membrane transport | inferred from physic
nferred from direct assay |GO:0005934
ar component| mitochondrion | inferred from sequence similarity|GO:0005739//cellular component| mitochondrion | inferred from mutant phenotype |GO:00
irect assay|GO:0008541//cellular component| proteasome regulatory particle (sensu Eukarya) | traceable author statement |GO:0005838//biological proces
O:0030364//cellular component| mRNA cleavage and polyadenylation specificity factor complex | traceable author statement|GO:0005847//cellular compon
al process| ubiquinone metabolism | inferred from mutant phenotype|GO:0006743
5519//cellular component| actin cap (sensu Fungi) | inferred from direct assay|GO:0030478//cellular component| polarisome | traceable author statement |
ytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleolus | inferred from direct assay |GO:0005730//biological process| processing
on| protein kinase activity | inferred from direct assay |GO:0004672//cellular component| spindle microtubule | inferred from direct assay|GO:0005876//cell
ent| mitochondrial inner membrane | inferred from direct assay|GO:0005743//biological process| ribosome assembly | inferred from mutant phenotype|GO:
al process| GPI anchor biosynthesis | inferred from mutant phenotype |GO:0006506
nce similarity|GO:0008757//cellular component| cytoplasm | inferred from direct assay|GO:0005737
atrix | inferred from direct assay|GO:0005759//biological process| protein folding | inferred from direct assay|GO:0006457
monoubiquitination | inferred from sequence similarity|GO:0006513//biological process| protein monoubiquitination | inferred from mutant phenotype |GO:00
nt|GO:0016251//molecular function| cyclin-dependent protein kinase activity | traceable author statement |GO:0004693//cellular component| transcription fa
725//molecular function| protein tyrosine phosphatase activity | inferred from direct assay |GO:0004725//cellular component| cytoplasm | inferred from direc
molecular function| pseudouridylate synthase activity | inferred from direct assay |GO:0004730//cellular component| cytoplasm | inferred from direct assay
unction| 5'-3' exoribonuclease activity | traceable author statement |GO:0004534//molecular function| recombinase activity | traceable author statement |GO
O:0016538//cellular component| cyclin-dependent protein kinase holoenzyme complex | traceable author statement|GO:0000307//biological process| regula
vacuolar membrane (sensu Fungi) | inferred from direct assay|GO:0000329//biological process| vesicle fusion | traceable author statement|GO:0006906//b
lecular function| transcription cofactor activity | inferred from mutant phenotype |GO:0003712//cellular component| SAGA complex | inferred from direct ass
ular component| mitochondrial large ribosomal subunit | traceable author statement|GO:0005762//cellular component| mitochondrial large ribosomal subun
al process| intra-Golgi transport | inferred from physical interaction|GO:0006891//biological process| intra-Golgi transport | inferred from genetic interaction
acuolar targeting | inferred from mutant phenotype|GO:0006623
process| conjugation with cellular fusion | inferred from expression pattern|GO:0000747
uclear chromatin | inferred from direct assay|GO:0000790//biological process| DNA repair | inferred from mutant phenotype|GO:0006281
nent| proteasome regulatory particle, lid subcomplex (sensu Eukarya) | inferred from direct assay|GO:0008541//biological process| ubiquitin-dependent pro
molecular function| transcriptional activator activity | inferred from mutant phenotype |GO:0016563//cellular component| nucleus | inferred from curator|GO:0
|GO:0008330//molecular function| protein tyrosine/threonine phosphatase activity | inferred from direct assay |GO:0008330//biological process| regulation
| inferred from direct assay |GO:0005634//biological process| DNA replication licensing | inferred from direct assay|GO:0030174
GO:0003702//cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| positive regulation of transcription from Pol II prom
onent| mitochondrion | inferred from direct assay|GO:0005739//biological process| mitochondrial genome maintenance | inferred from genetic interaction|G
|GO:0003704//cellular component| nucleus | inferred from curator|GO:0005634//biological process| positive regulation of transcription from Pol II promoter
process| secretory pathway | inferred from mutant phenotype|GO:0045045
on| ribonuclease MRP activity | inferred from direct assay |GO:0000171//cellular component| nucleolar ribonuclease P complex | inferred from direct assay|
:0000751//biological process| cell cycle arrest in response to pheromone | inferred from mutant phenotype |GO:0000751
ar component| mitochondrial small ribosomal subunit | inferred from direct assay|GO:0005763//biological process| protein biosynthesis | inferred from direc
ent| mitochondrion | inferred from direct assay|GO:0005739//biological process| aerobic respiration | inferred from mutant phenotype|GO:0009060//biologi
raceable author statement|GO:0005856//cellular component| chaperonin-containing T-complex | traceable author statement |GO:0005832//cellular compo
ellular component| nucleus | inferred from direct assay|GO:0005634//biological process| tRNA modification | inferred from direct assay|GO:0006400
ss| peroxisome degradation | inferred from mutant phenotype|GO:0030242//biological process| protein-vacuolar targeting | inferred from mutant phenotype
r function| glycerol kinase activity | inferred from mutant phenotype |GO:0004370//cellular component| cytoplasm | inferred from direct assay|GO:0005737/
ellular component| prospore membrane | traceable author statement|GO:0005628//cellular component| spore wall (sensu Fungi) | traceable author statem
organization and biogenesis | inferred from mutant phenotype|GO:0007047
densed nuclear chromosome kinetochore | inferred from direct assay|GO:0000778//biological process| chromosome segregation | inferred from physical in
mponent| CCR4-NOT core complex | inferred from physical interaction|GO:0030015//cellular component| cytoplasm | inferred from direct assay |GO:00057
onent| cytosol | inferred from direct assay|GO:0005829//biological process| response to oxidative stress | inferred from mutant phenotype|GO:0006979//bi
cular function| ATP-dependent RNA helicase activity | traceable author statement |GO:0004004//cellular component| snRNP U6 | inferred from direct assa
| inferred from direct assay |GO:0005634
autophagy | inferred from mutant phenotype|GO:0006914//biological process| protein-vacuolar targeting | inferred from mutant phenotype |GO:0006623
plasm | inferred from direct assay|GO:0005737//biological process| mRNA catabolism, deadenylation-dependent | inferred from mutant phenotype|GO:000
acuolar targeting | inferred from mutant phenotype|GO:0006623
function| glycerol transporter activity | inferred from sequence similarity |GO:0015168//molecular function| transporter activity | inferred from mutant pheno
nt|GO:0016251//cellular component| transcription factor TFIIF complex | traceable author statement|GO:0005674//biological process| transcription initiation
iosynthesis | inferred from physical interaction|GO:0006412
003709//cellular component| transcription factor TFIIIC complex | traceable author statement|GO:0000127//biological process| transcription initiation from
endosome | inferred from physical interaction |GO:0005768//biological process| protein-Golgi retention | inferred from mutant phenotype|GO:0045053//bio
nt| Golgi apparatus | inferred from direct assay|GO:0005794//cellular component| GARP complex | inferred from physical interaction |GO:0000938//biologi
endosome | inferred from physical interaction |GO:0005768//biological process| protein-Golgi retention | inferred from mutant phenotype|GO:0045053//bio
membrane fusion | inferred from mutant phenotype|GO:0045026
nent| proteasome core complex (sensu Eukarya) | traceable author statement|GO:0005839//biological process| ubiquitin-dependent protein catabolism | tra
mponent| actin cortical patch (sensu Fungi) | inferred from physical interaction|GO:0030479//biological process| polar budding | inferred from mutant phen
ar component| epsilon DNA polymerase complex | inferred from direct assay|GO:0008622//cellular component| replication fork | traceable author statemen
ar function| transcription regulator activity | inferred from direct assay |GO:0030528//cellular component| cytoplasm | traceable author statement|GO:00057
complex | inferred from direct assay |GO:0000818//cellular component| kinetochore | inferred from direct assay |GO:0000776//biological process| chromos
TPase activity | inferred from sequence similarity |GO:0003924//cellular component| Golgi apparatus | traceable author statement|GO:0005794//biological
ar component| mitochondrial small ribosomal subunit | inferred from direct assay|GO:0005763//biological process| aerobic respiration | inferred from mutan
omponent| peroxisome | inferred from direct assay|GO:0005777//cellular component| cytoplasm | inferred from direct assay |GO:0005737//cellular compon
42124//cellular component| cytoplasm | inferred from direct assay|GO:0005737
eus | inferred from physical interaction|GO:0005634//biological process| chromatin remodeling | inferred from physical interaction|GO:0006338
46//cellular component| mitochondrial matrix | inferred from sequence similarity|GO:0005759//biological process| translational elongation | inferred from ge
ed from sequence similarity |GO:0051082//cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//cellular component| periph
transport | inferred from mutant phenotype|GO:0006888
milarity|GO:0004553
05089//biological process| signal transduction | inferred from mutant phenotype|GO:0007165//biological process| signal transduction | inferred from geneti
| nuclear pore | inferred from physical interaction|GO:0005643//biological process| mRNA-nucleus export | inferred from physical interaction|GO:0006406
//molecular function| 6-phosphofructo-2-kinase activity | inferred from direct assay |GO:0003873//cellular component| cytoplasm | inferred from curator|GO
ess| synaptonemal complex formation | inferred from mutant phenotype|GO:0007130
ype peptidase activity | inferred from sequence similarity |GO:0008234//biological process| pyridoxine metabolism | traceable author statement|GO:000861
t| insoluble fraction | inferred from direct assay |GO:0005626//cellular component| vacuolar membrane (sensu Fungi) | inferred from direct assay |GO:0000
9888//cellular component| protein phosphatase type 1 complex | inferred from physical interaction|GO:0000164//biological process| regulation of glycogen
al process| telomerase-dependent telomere maintenance | inferred from mutant phenotype|GO:0007004//biological process| chromatin silencing at telome
ellular component| mitochondrion | inferred from direct assay|GO:0005739
mponent| mitochondrial inner membrane | traceable author statement|GO:0005743//biological process| aerobic respiration | inferred from genetic interaction
function| histone deacetylase activity | inferred from mutant phenotype |GO:0004407//molecular function| histone deacetylase activity | inferred from direct
process| conjugation with cellular fusion | inferred from expression pattern|GO:0000747
component| proteasome core complex (sensu Eukarya) | inferred from physical interaction|GO:0005839//cellular component| proteasome core complex (se
cular function| mRNA binding | inferred from direct assay |GO:0003729//cellular component| commitment complex | inferred from physical interaction|GO:0
me activator activity | inferred from mutant phenotype |GO:0008538//molecular function| proteasome activator activity | inferred from direct assay |GO:0008
ganization and biogenesis | inferred from mutant phenotype|GO:0007047
cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| chromatin remodeling | inferred from physical interaction|GO:000
ular component| mitochondrial large ribosomal subunit | traceable author statement|GO:0005762//cellular component| mitochondrial large ribosomal subun
|GO:0016251//cellular component| transcription factor TFIIA complex | inferred from direct assay|GO:0005672//biological process| transcription initiation fr
ent| nuclear chromosome | inferred from physical interaction|GO:0000228//biological process| mitotic recombination | inferred from mutant phenotype|GO:0
ear pore | inferred from direct assay|GO:0005643//biological process| poly(A)+ mRNA-nucleus export | inferred from physical interaction|GO:0016973//bio
r component| histone acetyltransferase complex | traceable author statement|GO:0000123//cellular component| histone acetyltransferase complex | inferre
on| clathrin binding | inferred from physical interaction |GO:0030276//cellular component| AP-1 adaptor complex | inferred from sequence similarity|GO:003
O:0003706//molecular function| ligand-regulated transcription factor activity | inferred from mutant phenotype |GO:0003706//cellular component| nucleus | in
TPase activity | inferred from sequence similarity |GO:0016887//cellular component| chromatin accessibility complex | inferred from sequence similarity|GO
mponent| nuclear pore | inferred from direct assay|GO:0005643//biological process| nuclear pore organization and biogenesis | traceable author statement|
ular function| DNA binding | inferred from direct assay |GO:0003677//cellular component| nucleotide excision repair factor 4 complex | inferred from direct a
quitin-protein ligase activity | traceable author statement |GO:0004842//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular co
metabolism | inferred from genetic interaction |GO:0006259
hrome biogenesis | inferred from mutant phenotype|GO:0017004//biological process| cytochrome biogenesis | inferred from direct assay |GO:0017004//bi
ar component| mitochondrial small ribosomal subunit | inferred from direct assay|GO:0005763//biological process| protein biosynthesis | inferred from direc
response to unfolded protein | inferred from expression pattern|GO:0006986
| inferred from direct assay |GO:0005634
ucleus | inferred from direct assay|GO:0005634//biological process| processing of 20S pre-rRNA | traceable author statement|GO:0030490
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
olecular function| Rab GTPase activator activity | inferred from direct assay |GO:0005097//cellular component| bud tip | inferred from direct assay|GO:0005
molecular function| methionine-tRNA ligase activity | inferred from mutant phenotype |GO:0004825//cellular component| mitochondrion | inferred from muta
| inferred from direct assay |GO:0005634
milarity|GO:0003704//molecular function| specific RNA polymerase II transcription factor activity | inferred from mutant phenotype |GO:0003704//cellular c
lar component| eukaryotic translation initiation factor 2B complex | inferred from direct assay|GO:0005851//cellular component| ribosome | traceable autho
nt| ubiquitin ligase complex | inferred from sequence similarity|GO:0000151//biological process| ubiquitin-dependent protein catabolism | inferred from seq
onent| endosome | inferred from direct assay|GO:0005768//biological process| protein transport | inferred from direct assay|GO:0015031
ecular function| structural constituent of ribosome | inferred from direct assay |GO:0003735//cellular component| mitochondrial small ribosomal subunit | tra
ecular function| glucose transporter activity | inferred from genetic interaction |GO:0005355//molecular function| galactose transporter activity | inferred from
mponent| cytoplasm | inferred from direct assay|GO:0005737//biological process| proteolysis and peptidolysis | inferred from physical interaction|GO:0006
ogical process| osmosensory signaling pathway | traceable author statement|GO:0007231//biological process| protein amino acid phosphorylation | tracea
ular component| mitochondrial large ribosomal subunit | traceable author statement|GO:0005762//cellular component| mitochondrial large ribosomal subun
04684//cellular component| cytoplasm | inferred from physical interaction|GO:0005737//biological process| signal transduction | inferred from mutant pheno
g of 27S pre-rRNA | inferred from mutant phenotype|GO:0030489//biological process| processing of 27S pre-rRNA | inferred from genetic interaction |GO:
endoplasmic reticulum membrane | traceable author statement|GO:0005789//biological process| vesicle fusion | traceable author statement|GO:0006906//b
ction| DNA binding | traceable author statement |GO:0003677//cellular component| chromatin silencing complex | inferred from direct assay|GO:0005677//b
exodeoxyribonuclease activity | inferred from direct assay |GO:0004529//molecular function| endodeoxyribonuclease activity | inferred from direct assay |G
omponent| membrane | inferred from sequence similarity|GO:0016020
ecular function| endopolyphosphatase activity | inferred from direct assay |GO:0000298//cellular component| vacuolar membrane | inferred from mutant ph
cessing | inferred from mutant phenotype|GO:0006364
function| protein kinase activity | inferred from direct assay |GO:0004672//cellular component| membrane fraction | inferred from direct assay|GO:0005624
ss| bud site selection | inferred from mutant phenotype|GO:0000282
ent| bud neck | inferred from direct assay|GO:0005935//cellular component| bud tip | inferred from direct assay |GO:0005934//cellular component| incipient
of transcription from Pol II promoter | inferred from mutant phenotype|GO:0006357
200//molecular function| structural constituent of cytoskeleton | inferred from physical interaction |GO:0005200//cellular component| septin ring | inferred fro
n| protein binding | inferred from physical interaction |GO:0005515//cellular component| CCR4-NOT complex | inferred from physical interaction|GO:00300
4418//molecular function| hydroxymethylbilane synthase activity | inferred from mutant phenotype |GO:0004418//molecular function| hydroxymethylbilane s
9//biological process| chromatin remodeling | inferred from direct assay|GO:0006338
ar function| urea transporter activity | inferred from mutant phenotype |GO:0015204//cellular component| plasma membrane | inferred from sequence simila
binding | inferred from direct assay |GO:0003723//cellular component| snRNP U2 | inferred from direct assay|GO:0005686//biological process| spliceosom
08640//cellular component| cytoplasm | traceable author statement|GO:0005737//biological process| autophagy | inferred from mutant phenotype|GO:000
A repair | inferred from direct assay|GO:0006281
inferred from direct assay |GO:0016887//cellular component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277//cellular component| cytoplas
ular function| DNA clamp loader activity | inferred from direct assay |GO:0003689//cellular component| DNA replication factor C complex | inferred from seq
cellular component| nucleolus | inferred from direct assay|GO:0005730//biological process| 35S primary transcript processing | inferred from mutant pheno
96//molecular function| glycogen synthase kinase 3 activity | inferred from genetic interaction |GO:0004696//biological process| response to stress | inferre
ar component| spliceosome complex | traceable author statement|GO:0005681//biological process| spliceosome assembly | inferred from mutant phenoty
aged DNA binding | inferred from direct assay |GO:0003684//cellular component| nuclear chromosome | inferred from direct assay|GO:0000228//biologica
nent| small nucleolar ribonucleoprotein complex | inferred from physical interaction|GO:0005732//biological process| processing of 20S pre-rRNA | inferred
omponent| cytoplasmic exosome (RNase complex) | inferred from direct assay|GO:0000177//cellular component| nuclear exosome (RNase complex) | infe
ular component| histone deacetylase complex | inferred from physical interaction|GO:0000118//biological process| chromatin silencing at silent mating-type
ud growth | inferred from mutant phenotype|GO:0007117//biological process| bud growth | inferred from genetic interaction |GO:0007117//biological proces
r component| mitochondrion | inferred from direct assay|GO:0005739
ction| permease activity | inferred from direct assay |GO:0015646//cellular component| plasma membrane | inferred from sequence similarity|GO:0005886/
| inferred from direct assay |GO:0005634
nce similarity|GO:0008757//cellular component| cytoplasm | inferred from direct assay|GO:0005737
eus | inferred from physical interaction|GO:0005634//biological process| meiotic DNA double-strand break formation | traceable author statement|GO:0042
ocess| protein complex assembly | traceable author statement|GO:0006461
//cellular component| plasma membrane | inferred from direct assay|GO:0005886//cellular component| vacuole (sensu Fungi) | inferred from direct assay |
:0005838//biological process| ubiquitin-dependent protein catabolism | traceable author statement|GO:0006511
r component| cytoplasm | inferred from direct assay|GO:0005737
| inferred from direct assay |GO:0005634
m physical interaction|GO:0046933//molecular function| hydrogen-transporting ATP synthase activity, rotational mechanism | inferred from mutant phenotyp
56//biological process| aldehyde metabolism | inferred from sequence similarity|GO:0006081
al process| invasive growth (sensu Saccharomyces) | inferred from mutant phenotype |GO:0001403
ent| nucleus | inferred from direct assay|GO:0005634//cellular component| SWR1 complex | inferred from physical interaction |GO:0000812//biological pro
al process| mitochondrial fission | inferred from mutant phenotype|GO:0000266//biological process| mitochondrial fission | inferred from genetic interaction
mponent| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634
04416//molecular function| hydroxyacylglutathione hydrolase activity | inferred from direct assay |GO:0004416//cellular component| mitochondrial matrix |
coupled | inferred from direct assay |GO:0042623//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | i
ipid binding | inferred from mutant phenotype |GO:0008289//cellular component| membrane | inferred from physical interaction|GO:0016020//biological pro
mponent| nuclear pore | inferred from direct assay|GO:0005643//biological process| nuclear pore organization and biogenesis | inferred from mutant pheno
nce similarity|GO:0003864//molecular function| 3-methyl-2-oxobutanoate hydroxymethyltransferase activity | inferred from mutant phenotype |GO:0003864
omponent| cytoplasmic exosome (RNase complex) | inferred from direct assay|GO:0000177//cellular component| nuclear exosome (RNase complex) | infe
ction| histone acetyltransferase activity | traceable author statement |GO:0004402//cellular component| nuclear nucleosome | traceable author statement|G
ferred from sequence similarity |GO:0005524//cellular component| mitochondrial matrix | inferred from direct assay|GO:0005759
mponent| mitochondrial matrix | inferred from mutant phenotype|GO:0005759//biological process| RNA splicing | inferred from sequence similarity|GO:0008
quitination | inferred from genetic interaction|GO:0016567//biological process| protein-nucleus export | inferred from genetic interaction |GO:0006611
mponent| nuclear pore | traceable author statement|GO:0005643//biological process| nuclear pore organization and biogenesis | inferred from mutant phen
component| nucleus | inferred from physical interaction|GO:0005634//biological process| positive regulation of transcription from Pol II promoter | inferred
tin cortical patch (sensu Fungi) | inferred from direct assay|GO:0030479//biological process| endocytosis | inferred from sequence similarity|GO:0006897//
ed from mutant phenotype |GO:0051082//molecular function| --- | inferred from genetic interaction |GO:0051082//cellular component| endoplasmic reticulum
al process| aerobic respiration | inferred from mutant phenotype|GO:0009060//biological process| protein complex assembly | inferred from mutant phenot
0016455//cellular component| mediator complex | inferred from direct assay|GO:0000119//biological process| transcription from Pol II promoter | inferred fr
03702//cellular component| nucleus | inferred from curator|GO:0005634//biological process| response to cadmium ion | inferred from mutant phenotype|GO
mutant phenotype|GO:0016889//molecular function| endodeoxyribonuclease activity, producing 3'-phosphomonoesters | inferred from direct assay |GO:00
omponent| cytoplasmic exosome (RNase complex) | inferred from direct assay|GO:0000177//cellular component| nuclear exosome (RNase complex) | infe
003906//molecular function| pyrimidine-specific oxidized base lesion DNA N-glycosylase activity | inferred from sequence similarity |GO:0000703//molecula
process| response to pheromone | inferred from genetic interaction|GO:0019236//biological process| protein amino acid phosphorylation | inferred from se
03702//cellular component| nucleus | inferred from curator|GO:0005634//biological process| response to cadmium ion | inferred from mutant phenotype|GO
//molecular function| receptor signaling protein activity | inferred from mutant phenotype |GO:0005057//cellular component| shmoo tip | inferred from direct
O:0016944//molecular function| Pol II transcription elongation factor activity | inferred from mutant phenotype |GO:0016944//cellular component| transcriptio
onent| peroxisomal matrix | traceable author statement|GO:0005782//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological p
34//cellular component| cytoplasm | inferred from direct assay|GO:0005737
P U2 | inferred from direct assay|GO:0005686//biological process| nuclear mRNA splicing, via spliceosome | inferred from direct assay|GO:0000398
cellular component| DNA-directed RNA polymerase I complex | inferred from direct assay|GO:0005736//biological process| transcription from Pol I promote
l process| Golgi to vacuole transport | inferred from mutant phenotype|GO:0006896
omponent| Ada2/Gcn5/Ada3 transcription activator complex | inferred from physical interaction|GO:0005671//cellular component| SAGA complex | inferred
plasm | inferred from direct assay |GO:0005737
ular function| prenyltransferase activity | inferred from direct assay |GO:0004659//cellular component| lipid particle | inferred from direct assay|GO:0005811
ucose transporter activity | traceable author statement |GO:0005355//molecular function| receptor activity | traceable author statement |GO:0004872//cellul
ent| bud neck | inferred from direct assay|GO:0005935//cellular component| bud tip | inferred from direct assay |GO:0005934//cellular component| incipient
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
|GO:0003704//molecular function| DNA binding | traceable author statement |GO:0003677//cellular component| nucleus | inferred from physical interaction
r component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| spliceosome complex | inferred from genetic interaction |GO:00056
GO:0004722//cellular component| cytoplasm | inferred from physical interaction|GO:0005737//biological process| G1/S transition of mitotic cell cycle | inferr
ent| nucleus | inferred from direct assay|GO:0005634//biological process| protein catabolism | inferred from sequence similarity|GO:0030163
| inferred from direct assay |GO:0005634
ar component| nucleus | inferred from direct assay|GO:0005634//cellular component| histone deacetylase complex | inferred from physical interaction |GO:
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological process| vesicle fusion | inferred from mutant phenotype|GO:0006906//
onent| snRNP U2 | inferred from physical interaction|GO:0005686//cellular component| snRNP U2 | inferred from direct assay |GO:0005686//biological pro
ction| cytochrome-c oxidase activity | inferred from direct assay |GO:0004129//cellular component| respiratory chain complex IV (sensu Eukarya) | inferred
densed nuclear chromosome kinetochore | inferred from direct assay|GO:0000778//biological process| chromosome segregation | inferred from physical in
plasm | inferred from direct assay|GO:0005737//biological process| regulation of transcription, DNA-dependent | traceable author statement|GO:0006355/
O:0030508//molecular function| thiol-disulfide exchange intermediate activity | inferred from mutant phenotype |GO:0030508//molecular function| glutathion
ecular function| transcription regulator activity | inferred from genetic interaction |GO:0030528//cellular component| nucleus | inferred from curator|GO:000
O:0016944//cellular component| Cdc73/Paf1 complex | traceable author statement|GO:0016593//cellular component| Cdc73/Paf1 complex | inferred from p
vacuole (sensu Fungi) | inferred from direct assay |GO:0000324
r component| CCAAT-binding factor complex | traceable author statement|GO:0016602//cellular component| nucleus | inferred from direct assay |GO:0005
nt| mitochondrial inner membrane | inferred from direct assay |GO:0005743//biological process| cytochrome c oxidase biogenesis | inferred from mutant ph
MA complex | inferred from direct assay|GO:0000817//cellular component| condensed nuclear chromosome kinetochore | inferred from direct assay |GO:0
nt| nucleus | inferred from curator|GO:0005634//biological process| telomerase-independent telomere maintenance | inferred from genetic interaction|GO:0
mponent| nucleus | inferred from direct assay|GO:0005634//biological process| chromatin silencing | traceable author statement|GO:0006342
endoplasmic reticulum membrane | inferred from direct assay |GO:0005789//cellular component| nuclear membrane | inferred from direct assay |GO:0005
0026//cellular component| Golgi apparatus | inferred from direct assay|GO:0005794//biological process| protein amino acid glycosylation | inferred from mu
//molecular function| SUMO activating enzyme activity | inferred from mutant phenotype |GO:0019948//molecular function| SUMO activating enzyme activit
ular component| periplasmic space (sensu Fungi) | non-traceable author statement|GO:0030287//cellular component| cytoplasm | non-traceable author st
004029//molecular function| aldehyde dehydrogenase (NAD) activity | inferred from mutant phenotype |GO:0004029//cellular component| mitochondrion | in
5//molecular function| aminoacyl-tRNA hydrolase activity | inferred from genetic interaction |GO:0004045//molecular function| aminoacyl-tRNA hydrolase a
ular component| mitochondrial large ribosomal subunit | traceable author statement|GO:0005762//biological process| protein biosynthesis | traceable autho
onent| cytoplasm | inferred from direct assay|GO:0005737//cellular component| anaphase-promoting complex | traceable author statement |GO:0005680//
GO:0004366//molecular function| glycerol-3-phosphate O-acyltransferase activity | inferred from genetic interaction |GO:0004366//molecular function| glyc
onent| extracellular | inferred from direct assay|GO:0005576//biological process| cellular morphogenesis | inferred from mutant phenotype|GO:0000902
endoplasmic reticulum membrane | traceable author statement|GO:0005789//cellular component| endoplasmic reticulum | inferred from direct assay |GO:0
ellular component| cytoplasm | inferred from curator|GO:0005737//biological process| glycogen catabolism | inferred from mutant phenotype|GO:0005980
III complex | inferred from direct assay |GO:0000815//biological process| late endosome to vacuole transport | inferred from mutant phenotype|GO:004532
4042//molecular function| amino-acid N-acetyltransferase activity | inferred from direct assay |GO:0004042//cellular component| mitochondrial matrix | infer
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
function| 5'-3' exonuclease activity | inferred from direct assay |GO:0008409//molecular function| exonuclease activity | traceable author statement |GO:000
om sequence similarity|GO:0042626//cellular component| mitochondrion | inferred from direct assay|GO:0005739
nt| nucleus | inferred from curator|GO:0005634//biological process| telomerase-independent telomere maintenance | inferred from genetic interaction|GO:0
ss| metal ion transport | inferred from mutant phenotype|GO:0030001//biological process| protein-vacuolar targeting | inferred from mutant phenotype |GO:
molecular function| SUMO-specific protease activity | inferred from direct assay |GO:0016929//molecular function| cysteine-type peptidase activity | inferred
onent| DNA replication factor C complex | traceable author statement|GO:0005663//cellular component| nucleus | inferred from physical interaction |GO:00
03701//molecular function| ribosomal DNA (rDNA) binding | traceable author statement |GO:0000182//cellular component| RNA polymerase I upstream ac
on| ribonuclease MRP activity | inferred from direct assay |GO:0000171//cellular component| nucleolar ribonuclease P complex | inferred from direct assay|
l process| SRP-dependent cotranslational membrane targeting, translocation | inferred from mutant phenotype|GO:0006616//biological process| SRP-dep
ed from physical interaction |GO:0051082//molecular function| --- | inferred from mutant phenotype |GO:0051082//molecular function| --- | inferred from gen
onent| mitochondrial inner membrane | inferred from sequence similarity|GO:0005743//biological process| transport | inferred from sequence similarity|GO
th and/or maintenance | inferred from mutant phenotype|GO:0008151
| inferred from direct assay |GO:0005634
:0042175//cellular component| integral to membrane | inferred from sequence similarity |GO:0016021//cellular component| integral to membrane | inferred
ular function| transcription factor activity | inferred from mutant phenotype |GO:0003700//molecular function| transcription factor activity | inferred from dire
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
nt| snRNP U1 | traceable author statement|GO:0005685//cellular component| snRNP U1 | inferred from physical interaction |GO:0005685//cellular compon
ellular component| intermediate filament | traceable author statement|GO:0005882//cellular component| cytoplasm | traceable author statement |GO:0005
al process| aerobic respiration | inferred from mutant phenotype|GO:0009060//biological process| inner mitochondrial membrane organization and biogene
III complex | inferred from direct assay |GO:0000815//biological process| late endosome to vacuole transport | inferred from mutant phenotype|GO:004532
03962//biological process| sulfur metabolism | inferred from sequence similarity|GO:0006790
636//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634
0016455//cellular component| mediator complex | inferred from direct assay|GO:0000119//biological process| transcription from Pol II promoter | inferred fr
ular function| lysophospholipase activity | inferred from mutant phenotype |GO:0004622//cellular component| plasma membrane | inferred from sequence
nt| nuclear membrane | inferred from direct assay|GO:0005635//biological process| microautophagy | inferred from mutant phenotype|GO:0016237
assay|GO:0042800//molecular function| chromatin binding | inferred from mutant phenotype |GO:0003682//cellular component| COMPASS complex | inferr
85//cellular component| cytoplasmic vesicle | inferred from direct assay|GO:0016023//cellular component| cytosol | inferred from direct assay |GO:0005829
on|GO:0016455//cellular component| mediator complex | inferred from direct assay|GO:0000119//biological process| transcription from Pol II promoter | inf
03701//cellular component| RNA polymerase I transcription factor complex | traceable author statement|GO:0000120//biological process| transcription from
neck | inferred from direct assay|GO:0005935//cellular component| bud tip | inferred from direct assay |GO:0005934//cellular component| cytoplasm | infer
onent| endoplasmic reticulum | traceable author statement|GO:0005783//biological process| ER to Golgi transport | inferred from genetic interaction|GO:0
cellular component| nucleolus | traceable author statement|GO:0005730//biological process| 35S primary transcript processing | traceable author statemen
O:0003977//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634
molecular function| RNA methyltransferase activity | inferred from mutant phenotype |GO:0008173//cellular component| nucleolus | inferred from direct assa
//cellular component| mitochondrial small ribosomal subunit | inferred from physical interaction|GO:0005763//biological process| aerobic respiration | inferr
aging | inferred from mutant phenotype|GO:0007569//biological process| establishment of cell polarity (sensu Saccharomyces) | inferred from mutant phen
on| protein binding | inferred from physical interaction |GO:0005515//molecular function| double-stranded DNA binding | inferred from physical interaction |G
ion|GO:0030364//molecular function| cleavage/polyadenylation specificity factor activity | inferred from mutant phenotype |GO:0030364//cellular componen
//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| butanediol fermentation | inferred from direct assay|GO:0019
olus | inferred from direct assay|GO:0005730//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| rRNA processing
//cellular component| DNA-directed RNA polymerase II, core complex | traceable author statement|GO:0005665//biological process| transcription from Pol
004445//cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//biological process| exocytosis | traceable author statement|G
ation | inferred from direct assay|GO:0008283//biological process| DNA repair | inferred from direct assay |GO:0006281
gulation of DNA transposition | inferred from mutant phenotype|GO:0000335
0016455//cellular component| mediator complex | inferred from direct assay|GO:0000119//biological process| transcription from Pol II promoter | inferred fr
on| double-stranded DNA binding | inferred from direct assay |GO:0003690//molecular function| AT DNA binding | inferred from direct assay |GO:0003680/
ular component| mitochondrial large ribosomal subunit | traceable author statement|GO:0005762//biological process| protein biosynthesis | traceable autho
1//cellular component| respiratory chain complex III (sensu Eukarya) | inferred from direct assay|GO:0005750//biological process| aerobic respiration | infe
on| GTPase activity | inferred from physical interaction |GO:0003924//cellular component| Golgi apparatus | traceable author statement|GO:0005794//biolo
igase complex | inferred from direct assay|GO:0000151//biological process| cAMP-mediated signaling | inferred from physical interaction|GO:0019933//bio
/molecular function| polynucleotide 3'-phosphatase activity | inferred from direct assay |GO:0046403//biological process| DNA repair | inferred from mutant
ular component| mitochondrial small ribosomal subunit | traceable author statement|GO:0005763//cellular component| mitochondrial small ribosomal subun
lar function| glycerone kinase activity | inferred from direct assay |GO:0004371//cellular component| cytoplasm | inferred from direct assay|GO:0005737//b
component| mitochondrion | inferred from direct assay|GO:0005739//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological pr
071//molecular function| protein phosphatase type 2C activity | inferred from direct assay |GO:0015071
GO:0005462//molecular function| UDP-N-acetylglucosamine transporter activity | inferred from mutant phenotype |GO:0005462//cellular component| endop
llular component| spindle pole body | inferred from direct assay|GO:0005816//cellular component| nucleolus | inferred from direct assay |GO:0005730//cell
al process| inner mitochondrial membrane organization and biogenesis | inferred from mutant phenotype|GO:0007007//biological process| inner mitochond
52//cellular component| mRNA cleavage and polyadenylation specificity factor complex | inferred from physical interaction|GO:0005847//cellular componen
al process| protein monoubiquitination | traceable author statement|GO:0006513//biological process| protein polyubiquitination | traceable author statemen
mitochondrial inner membrane | inferred from direct assay|GO:0005743//biological process| copper ion transport | inferred from sequence similarity|GO:00
sma membrane | inferred from direct assay|GO:0005886//biological process| vesicle-mediated transport | inferred from mutant phenotype|GO:0016192//bi
olecular function| aspartate-tRNA ligase activity | inferred from mutant phenotype |GO:0004815//cellular component| mitochondrion | inferred from sequenc
|GO:0003704//cellular component| nucleus | inferred from physical interaction|GO:0005634//biological process| transcription initiation from Pol II promoter
component| nucleus | traceable author statement|GO:0005634//biological process| positive regulation of transcription from Pol II promoter | inferred from m
/cellular component| U4/U6 x U5 tri-snRNP complex | inferred from mutant phenotype|GO:0046540//biological process| nuclear mRNA splicing, via spliceo
ion (sensu Fungi) | inferred from physical interaction|GO:0030437//biological process| sporulation (sensu Fungi) | inferred from mutant phenotype |GO:003
| inferred from direct assay |GO:0005634
0004596//molecular function| peptide alpha-N-acetyltransferase activity | inferred from mutant phenotype |GO:0004596//cellular component| mitochondrion
9//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| chromatin remodeling | inferred from sequence similarity|GO:0
04458//cellular component| mitochondrial matrix | inferred from direct assay|GO:0005759
ular component| mitochondrial large ribosomal subunit | traceable author statement|GO:0005762//cellular component| mitochondrial large ribosomal subun
| inferred from direct assay |GO:0005634//biological process| proteasomal ubiquitin-dependent protein catabolism | inferred from mutant phenotype|GO:00
GO:0015230//molecular function| flavin-adenine dinucleotide transporter activity | inferred from mutant phenotype |GO:0015230//cellular component| mitoc
ar component| mitochondrial matrix | inferred from direct assay|GO:0005759//cellular component| cytoplasm | non-traceable author statement |GO:0005737
092//molecular function| carnitine O-acetyltransferase activity | inferred from mutant phenotype |GO:0004092//cellular component| peroxisomal matrix | trac
rocess| double-strand break repair | traceable author statement |GO:0006302
0016455//cellular component| mediator complex | inferred from direct assay|GO:0000119//biological process| transcription from Pol II promoter | inferred fr
milarity|GO:0003704//molecular function| DNA binding | inferred from direct assay |GO:0003677//cellular component| nucleus | inferred from sequence sim
NA metabolism | inferred from physical interaction|GO:0016074//biological process| snoRNA metabolism | inferred from mutant phenotype |GO:0016074
/molecular function| epoxide hydrolase activity | inferred from direct assay |GO:0004301//molecular function| aminopeptidase activity | inferred from direct
721//molecular function| phosphoprotein phosphatase activity | inferred from direct assay |GO:0004721//cellular component| plasma membrane | inferred f
| aerobic respiration | inferred from mutant phenotype|GO:0009060//biological process| mitochondrion organization and biogenesis | inferred from mutant
process| DNA topological change | inferred from physical interaction|GO:0006265//biological process| DNA replication checkpoint | inferred from physical i
92//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| carnitine metabolism | inferred from mutant phenotype|GO
ane | inferred from physical interaction|GO:0016020//biological process| autophagy | inferred from direct assay|GO:0006914//biological process| transport
| inferred from direct assay |GO:0005634
ent| nucleus | inferred from direct assay|GO:0005634
nt|GO:0016251//cellular component| transcription factor TFIIH complex | traceable author statement|GO:0005675//cellular component| nucleotide excision
/molecular function| transmembrane receptor activity | inferred from mutant phenotype |GO:0004888//molecular function| transmembrane receptor activity
tion| mannose binding | inferred from mutant phenotype |GO:0005537//cellular component| cell wall (sensu Fungi) | traceable author statement|GO:00092
251//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biolog
nuclear membrane organization and biogenesis | inferred from mutant phenotype|GO:0006998//biological process| protein-nucleus export | inferred from m
l process| Golgi to vacuole transport | inferred from mutant phenotype|GO:0006896
on| DNA helicase activity | inferred from direct assay |GO:0003678//cellular component| nucleus | inferred from curator|GO:0005634//biological process| te
mponent| actin cap (sensu Fungi) | inferred from direct assay|GO:0030478//biological process| endoplasmic reticulum inheritance | inferred from mutant p
ity|GO:0015997//cellular component| mitochondrial inner membrane | inferred from direct assay|GO:0005743//cellular component| mitochondrion | traceab
llular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleolus | inferred from direct assay |GO:0005730
0176//biological process| ER-associated protein catabolism | inferred from mutant phenotype|GO:0030433
r component| CCAAT-binding factor complex | traceable author statement|GO:0016602//biological process| transcription | traceable author statement|GO:0
cellular component| spliceosome complex | inferred from genetic interaction|GO:0005681//cellular component| spliceosome complex | inferred from direct
cular function| ATP-dependent RNA helicase activity | traceable author statement |GO:0004004//cellular component| spliceosome complex | traceable auth
nt| nucleus | inferred from curator|GO:0005634//biological process| meiotic recombination | inferred from mutant phenotype|GO:0007131//biological proces
inferred from direct assay |GO:0016887//cellular component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277//cellular component| cytoplas
d from mutant phenotype |GO:0051082//cellular component| mitochondrial inner membrane | inferred from direct assay|GO:0005743//biological process| p
nent| small nucleolar ribonucleoprotein complex | inferred from physical interaction|GO:0005732//biological process| processing of 20S pre-rRNA | inferred
O:0016538//molecular function| general RNA polymerase II transcription factor activity | traceable author statement |GO:0016251//cellular component| trans
//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biologica
ction|GO:0042720//cellular component| mitochondrial inner membrane | inferred from direct assay |GO:0005743//biological process| proteolysis and peptid
silencing at telomere | inferred from mutant phenotype|GO:0006348
ent| clathrin vesicle coat | inferred from direct assay|GO:0030125//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological proce
mponent| membrane | inferred from direct assay|GO:0016020//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological process|
mponent| mitochondrial inner membrane | traceable author statement|GO:0005743//biological process| rRNA processing | inferred from mutant phenotype|G
r function| electron carrier activity | inferred from mutant phenotype |GO:0009055//cellular component| endoplasmic reticulum | inferred from direct assay|G
omponent| mitochondrion | inferred from direct assay|GO:0005739//biological process| phospholipid biosynthesis | inferred from sequence similarity|GO:00
nt| nuclear pore | inferred from direct assay|GO:0005643//biological process| actin filament-based process | inferred from genetic interaction|GO:0030029/
oxisomal membrane | traceable author statement|GO:0005778//biological process| peroxisome organization and biogenesis | traceable author statement|G
008121//cellular component| respiratory chain complex III (sensu Eukarya) | inferred from direct assay|GO:0005750//biological process| cytochrome bc(1)
nt| cytoplasm | inferred from direct assay|GO:0005737
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
ellular component| mitochondrial matrix | inferred from direct assay|GO:0005759//cellular component| mitochondrion | inferred from direct assay |GO:0005
ular component| mitochondrial large ribosomal subunit | traceable author statement|GO:0005762//biological process| fatty acid metabolism | inferred from m
005088//molecular function| guanyl-nucleotide exchange factor activity | traceable author statement |GO:0005085//molecular function| signal transducer a
ular component| mitochondrial large ribosomal subunit | traceable author statement|GO:0005762//biological process| protein biosynthesis | traceable autho
nent| signalosome complex | inferred from direct assay |GO:0008180//biological process| adaptation to pheromone during conjugation with cellular fusion |
olecular function| signal transducer activity | inferred from sequence similarity |GO:0004871//cellular component| intracellular | traceable author statement|
| inferred from direct assay |GO:0005634
mponent| plasma membrane | inferred from direct assay|GO:0005886//cellular component| endoplasmic reticulum membrane | inferred from direct assay |
ellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//cellular component| nuclear membrane | inferred from direct assay |G
complex | inferred from direct assay |GO:0000818//cellular component| kinetochore | inferred from direct assay |GO:0000776//biological process| chromos
| inferred from direct assay |GO:0005634
ular function| enzyme regulator activity | inferred from mutant phenotype |GO:0030234//molecular function| protein binding | inferred from direct assay |GO:
| traceable author statement |GO:0005634//biological process| ribosomal large subunit assembly and maintenance | inferred from mutant phenotype|GO:0
/cellular component| nucleoplasm | traceable author statement|GO:0005654//biological process| protein amino acid phosphorylation | traceable author sta
component| periplasmic space (sensu Fungi) | non-traceable author statement|GO:0030287//cellular component| periplasmic space (sensu Fungi) | inferre
0007005//biological process| thiamin metabolism | inferred from expression pattern |GO:0006772
folding | traceable author statement|GO:0007025//biological process| post-chaperonin tubulin folding pathway | traceable author statement |GO:0007023
ble-stranded DNA binding | inferred from direct assay |GO:0003690//molecular function| AT DNA binding | inferred from direct assay |GO:0003680//molecu
llular component| cytoplasm | traceable author statement|GO:0005737//biological process| vacuolar protein catabolism | inferred from mutant phenotype|G
ogical process| ER organization and biogenesis | inferred from mutant phenotype|GO:0007029
selection | inferred from mutant phenotype|GO:0000282
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
ecular function| sodium channel activity | inferred from direct assay |GO:0005272//molecular function| potassium channel activity | inferred from direct assa
molecular function| ferric-chelate reductase activity | inferred from mutant phenotype |GO:0000293//cellular component| plasma membrane | inferred from s
20//cellular component| extrinsic to membrane | inferred from direct assay|GO:0019898//biological process| cellular morphogenesis during conjugation with
03702//cellular component| transcription factor TFIID complex | inferred from direct assay|GO:0005669//biological process| transcription from Pol II promote
eroxisomal matrix | traceable author statement|GO:0005782//biological process| oxygen and reactive oxygen species metabolism | traceable author statem
ent| extrinsic to plasma membrane | inferred from genetic interaction|GO:0019897//biological process| L-lysine transport | inferred from mutant phenotype|
nt| nucleus | inferred from direct assay |GO:0005634
ner membrane | inferred from direct assay|GO:0005743//biological process| protein processing | inferred from mutant phenotype|GO:0016485//biological p
| inferred from direct assay |GO:0005634//biological process| negative regulation of gluconeogenesis | inferred from mutant phenotype|GO:0045721
cular function| ATP-dependent RNA helicase activity | traceable author statement |GO:0004004//cellular component| U4/U6 x U5 tri-snRNP complex | infer
growth and/or maintenance | inferred from mutant phenotype|GO:0008151//biological process| signal transduction | inferred from mutant phenotype |GO:0
ed DNA binding | traceable author statement |GO:0003684//cellular component| nuclear telomeric heterochromatin | traceable author statement|GO:00057
r component| Ada2/Gcn5/Ada3 transcription activator complex | inferred from physical interaction|GO:0005671//cellular component| SAGA complex | infer
nent| small nucleolar ribonucleoprotein complex | inferred from physical interaction|GO:0005732//biological process| processing of 20S pre-rRNA | inferred
ect assay|GO:0008534//molecular function| DNA-(apurinic or apyrimidinic site) lyase activity | inferred from direct assay |GO:0003906//molecular function|
ular component| mitochondrial large ribosomal subunit | traceable author statement|GO:0005762//cellular component| mitochondrial large ribosomal subun
ular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| pseudohyphal growth | traceable author statement|GO:0007124//b
nt phenotype|GO:0004616//cellular component| cytosol | traceable author statement|GO:0005829//biological process| glucose metabolism | inferred from m
molecular function| protein kinase regulator activity | inferred from direct assay |GO:0019887//cellular component| cytoplasm | inferred from direct assay|GO
biogenesis | inferred from mutant phenotype|GO:0007046//biological process| rRNA processing | inferred from direct assay |GO:0006364
traceable author statement|GO:0007126//biological process| protein biosynthesis | inferred from mutant phenotype |GO:0006412
t| soluble fraction | inferred from direct assay|GO:0005625//cellular component| extracellular | inferred from direct assay |GO:0005576//biological process|
drial matrix | inferred from direct assay|GO:0005759//biological process| intracellular iron ion storage | inferred from mutant phenotype|GO:0006880//biolog
| inferred from direct assay |GO:0005634//biological process| rRNA processing | inferred from mutant phenotype|GO:0006364
lular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| folic acid and derivative biosynthesis | inferred from mutant phen
| inferred from direct assay |GO:0005634//biological process| meiosis | traceable author statement|GO:0007126
biogenesis | inferred from direct assay|GO:0007046
k | inferred from direct assay |GO:0005935//cellular component| bud tip | inferred from direct assay |GO:0005934//cellular component| cytoplasm | inferred
3962//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biolo
olecular function| ubiquitin-protein ligase activity | inferred from genetic interaction |GO:0004842//cellular component| endoplasmic reticulum membrane |
08//molecular function| holocytochrome-c synthase activity | inferred from mutant phenotype |GO:0004408//cellular component| mitochondrial intermembra
ular function| structural molecule activity | inferred from direct assay |GO:0005198//cellular component| spindle pole body | inferred from mutant phenotype
GO:0046820//molecular function| 4-amino-4-deoxychorismate synthase activity | inferred from mutant phenotype |GO:0046820//cellular component| cytopla
omponent| mitochondrion | traceable author statement|GO:0005739//biological process| tyrosyl-tRNA aminoacylation | traceable author statement|GO:000
ess| meiosis | inferred from mutant phenotype |GO:0007126//biological process| invasive growth (sensu Saccharomyces) | inferred from mutant phenotype
| inferred from direct assay |GO:0005634
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
d as acceptor | inferred from direct assay|GO:0016655//cellular component| mitochondrial inner membrane | inferred from direct assay|GO:0005743//biolog
| inferred from direct assay |GO:0005634
ellular component| proteasome complex (sensu Eukarya) | inferred from physical interaction|GO:0000502//biological process| sporulation (sensu Fungi) |
nt|GO:0016251//cellular component| SWI/SNF complex | traceable author statement|GO:0016514//cellular component| nucleosome remodeling complex |
R to Golgi transport | inferred from sequence similarity|GO:0006888//biological process| ER to Golgi transport | inferred from genetic interaction |GO:00068
on| ribonuclease MRP activity | inferred from direct assay |GO:0000171//cellular component| nucleolar ribonuclease P complex | inferred from direct assay|
cal process| spindle pole body duplication (sensu Saccharomyces) | inferred from mutant phenotype|GO:0007103//biological process| G2/M transition of m
enotype|GO:0004395//cellular component| extrinsic to membrane | inferred from direct assay|GO:0019898//cellular component| mitochondrial inner memb
molecular function| endopeptidase inhibitor activity | inferred from genetic interaction |GO:0004866//biological process| vacuole fusion, non-autophagic | inf
nt|GO:0016251//cellular component| transcription factor TFIIF complex | traceable author statement|GO:0005674//biological process| transcription initiation
//molecular function| SUMO activating enzyme activity | inferred from direct assay |GO:0019948//cellular component| nucleus | inferred from direct assay|G
chondrial intermembrane space protein import | inferred from mutant phenotype|GO:0045041//biological process| cytochrome c-heme linkage | inferred fro
omponent| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process|
vate metabolism | traceable author statement|GO:0006090
nce similarity|GO:0008757//cellular component| mitochondrion | inferred from direct assay|GO:0005739
ed from direct assay |GO:0051082//cellular component| mitochondrial matrix | traceable author statement|GO:0005759//biological process| protein complex
ecular function| peptidyltransferase activity | inferred from sequence similarity |GO:0000048//cellular component| mitochondrial large ribosomal subunit | tra
dopeptidase activity | traceable author statement |GO:0004175//cellular component| proteasome regulatory particle, base subcomplex (sensu Eukarya) | in
function| protein kinase activity | inferred from sequence similarity |GO:0004672//cellular component| nucleus | traceable author statement|GO:0005634//b
drion organization and biogenesis | inferred from mutant phenotype|GO:0007005
lar component| mitochondrion | inferred from mutant phenotype|GO:0005739//biological process| arginyl-tRNA aminoacylation | inferred from mutant phen
pe|GO:0000277//molecular function| [cytochrome c]-lysine N-methyltransferase activity | inferred from direct assay |GO:0000277//cellular component| cytos
O:0016944//molecular function| Pol II transcription elongation factor activity | inferred from mutant phenotype |GO:0016944//cellular component| DNA-direct
lar component| cytoplasm | inferred from direct assay |GO:0005737//biological process| protein-vacuolar targeting | inferred from mutant phenotype|GO:00
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
57//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634
ation from Pol II promoter | inferred from physical interaction|GO:0006368
ular function| bilirubin transporter activity | inferred from genetic interaction |GO:0015127//molecular function| cadmium ion transporter activity | inferred fro
1//molecular function| phosphoprotein phosphatase activity | inferred from direct assay |GO:0004721//cellular component| nucleus | inferred from physical
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
cation fork | inferred from direct assay|GO:0005657//cellular component| pre-replicative complex | inferred from direct assay |GO:0005656//biological proce
200//cellular component| outer plaque of spindle pole body | inferred from direct assay|GO:0005824//cellular component| spindle pole body | inferred from
| inferred from direct assay |GO:0005634//biological process| cell wall organization and biogenesis | inferred from mutant phenotype|GO:0007047
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
mponent| nucleus | inferred from physical interaction|GO:0005634//biological process| meiotic recombination | inferred from mutant phenotype|GO:0007131
08106//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634
ocessing | traceable author statement|GO:0006364//biological process| ribosomal large subunit assembly and maintenance | traceable author statement |
chromosome segregation | traceable author statement|GO:0007059
ent| cytoplasm | inferred from direct assay|GO:0005737
NP U2 | inferred from direct assay|GO:0005686//biological process| spliceosome assembly | inferred from sequence similarity|GO:0000245//biological proc
cular function| ATP-dependent RNA helicase activity | traceable author statement |GO:0004004//cellular component| spliceosome complex | traceable auth
/cellular component| chromatin accessibility complex | inferred from physical interaction |GO:0008623//cellular component| nucleus | inferred from direct as
tein biosynthesis | traceable author statement|GO:0006412
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
olecular function| Rab GTPase activator activity | inferred from direct assay |GO:0005097//cellular component| cytoplasm | inferred from direct assay|GO:0
plasm | inferred from direct assay|GO:0005737//cellular component| nucleolus | inferred from direct assay |GO:0005730//cellular component| nucleus | infe
ner membrane | inferred from direct assay|GO:0005743//biological process| aerobic respiration | inferred from mutant phenotype|GO:0009060//biological p
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
component| cytoplasm | inferred from physical interaction|GO:0005737//biological process| positive regulation of transcription from Pol II promoter by pher
transport | inferred from mutant phenotype|GO:0006888
A metabolism | inferred from mutant phenotype|GO:0016071//biological process| aerobic respiration | inferred from mutant phenotype |GO:0009060
| nucleolus | inferred from direct assay|GO:0005730//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| rRNA proc
ular function| transcription factor activity | inferred from mutant phenotype |GO:0003700//molecular function| DNA binding | inferred from direct assay |GO:
dopeptidase activity | traceable author statement |GO:0004175//cellular component| proteasome regulatory particle (sensu Eukarya) | traceable author sta
ent| AP-1 adaptor complex | inferred from physical interaction|GO:0030121//biological process| vesicle-mediated transport | inferred from sequence similar
nt| nucleus | traceable author statement|GO:0005634//biological process| gene conversion at MAT locus | traceable author statement|GO:0007534//biolog
1//cellular component| respiratory chain complex III (sensu Eukarya) | inferred from direct assay|GO:0005750//biological process| iron-sulfur cluster assem
ar component| mitochondrial inner membrane | inferred from direct assay|GO:0005743//biological process| protein biosynthesis | inferred from mutant phe
/cellular component| small nuclear ribonucleoprotein complex | inferred from direct assay|GO:0030532//biological process| nuclear mRNA splicing, via spl
003709//cellular component| transcription factor TFIIIB complex | traceable author statement|GO:0000126//biological process| transcription initiation from P
P binding | traceable author statement |GO:0005524//molecular function| DNA binding | inferred from direct assay |GO:0003677//cellular component| nuclea
esin complex | inferred from direct assay|GO:0000798//cellular component| condensed nuclear chromosome, pericentric region | inferred from direct assa
endoplasmic reticulum | inferred from direct assay |GO:0005783//cellular component| cytoplasm | inferred from direct assay |GO:0005737//cellular compon
III complex | inferred from direct assay |GO:0000815//biological process| late endosome to vacuole transport | inferred from physical interaction|GO:00453
function| protein carrier activity | inferred from physical interaction |GO:0008320//cellular component| cytoplasm | inferred from direct assay|GO:0005737//c
:0003711//cellular component| transcription elongation factor complex | inferred from sequence similarity|GO:0008023//biological process| RNA elongation
ellular component| cytoplasm | inferred from curator|GO:0005737//biological process| negative regulation of gluconeogenesis | inferred from mutant pheno
mponent| bud neck | inferred from direct assay|GO:0005935//biological process| axial budding | traceable author statement|GO:0007120//biological proces
GO:0005089//molecular function| signal transducer activity | inferred from physical interaction |GO:0004871//cellular component| intracellular | traceable au
y|GO:0016758//cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//cellular component| cytoplasm | inferred from direct a
//cellular component| DNA-directed RNA polymerase III complex | traceable author statement|GO:0005666//biological process| transcription from Pol III pr
nent| cytoplasm | inferred from direct assay|GO:0005737//cellular component| small nucleolar ribonucleoprotein complex | inferred from physical interaction
compound as acceptor | inferred from sequence similarity|GO:0016649//cellular component| mitochondrion | inferred from physical interaction|GO:000573
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
| inferred from direct assay |GO:0005634//biological process| protein monoubiquitination | inferred from physical interaction|GO:0006513
omponent| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process|
49//cellular component| mitochondrial matrix | inferred from direct assay|GO:0005759//biological process| glutamate biosynthesis | traceable author statem
| inferred from direct assay |GO:0005634//biological process| 35S primary transcript processing | inferred from mutant phenotype|GO:0006365
ular component| cytoplasm | inferred from curator|GO:0005737//biological process| protein deubiquitination | traceable author statement|GO:0016579
ponent| nucleus | inferred from curator|GO:0005634//biological process| positive regulation of transcription | inferred from mutant phenotype|GO:0045941
ear telomere cap complex | traceable author statement|GO:0000783//biological process| telomere capping | traceable author statement|GO:0016233
/cellular component| small nuclear ribonucleoprotein complex | inferred from direct assay|GO:0030532//biological process| nuclear mRNA splicing, via spl
lar function| lactate transporter activity | inferred from direct assay |GO:0015129//cellular component| plasma membrane | inferred from sequence similarit
unction| mRNA binding | inferred from physical interaction |GO:0003729//cellular component| mitochondrion | inferred from direct assay|GO:0005739//biolo
olecular function| thioredoxin peroxidase activity | inferred from mutant phenotype |GO:0008379//molecular function| thioredoxin peroxidase activity | inferr
ular component| shmoo tip | inferred from direct assay|GO:0005937//cellular component| plasma membrane | inferred from direct assay |GO:0005886//cell
l process| vesicle-mediated transport | inferred from sequence similarity|GO:0016192
nt|GO:0003704//cellular component| nuclear chromosome | inferred from direct assay|GO:0000228//biological process| hyperosmotic response | inferred fr
al process| intra-Golgi transport | inferred from physical interaction|GO:0006891//biological process| intra-Golgi transport | inferred from genetic interaction
nent| signalosome complex | inferred from direct assay |GO:0008180//biological process| adaptation to pheromone during conjugation with cellular fusion |
ction| DNA-dependent ATPase activity | inferred from direct assay |GO:0008094//cellular component| nucleus | inferred from curator|GO:0005634//biologic
49//cellular component| mitochondrial matrix | non-traceable author statement|GO:0005759//cellular component| mitochondrion | inferred from direct assay
0004437//biological process| spore wall assembly (sensu Fungi) | inferred from mutant phenotype|GO:0030476
onent| snRNP U6 | traceable author statement|GO:0005688//biological process| rRNA processing | inferred from mutant phenotype|GO:0006364//biologic
ss| response to stress | inferred from mutant phenotype|GO:0006950
m | inferred from physical interaction|GO:0005737//biological process| protein folding | inferred from genetic interaction|GO:0006457
ecular function| structural constituent of ribosome | inferred from direct assay |GO:0003735//cellular component| mitochondrial small ribosomal subunit | tra
8466//molecular function| glycogenin glucosyltransferase activity | inferred from genetic interaction |GO:0008466//biological process| glycogen biosynthes
component| cytosol | traceable author statement|GO:0005829//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological process
//cellular component| cytoplasm | inferred from sequence similarity|GO:0005737//cellular component| cytoplasm | inferred from direct assay |GO:0005737/
cellular component| nucleolus | inferred from direct assay|GO:0005730//biological process| 35S primary transcript processing | traceable author statement
| inferred from direct assay |GO:0005634
ent| nuclear cohesin complex | traceable author statement|GO:0000798//biological process| sporulation (sensu Fungi) | inferred from mutant phenotype|GO
ular component| mitochondrial large ribosomal subunit | traceable author statement|GO:0005762//cellular component| mitochondrial large ribosomal subun
nent| proteasome regulatory particle (sensu Eukarya) | traceable author statement|GO:0005838//cellular component| cytoplasm | inferred from direct assay
eton organization and biogenesis | traceable author statement|GO:0007010
h | inferred from mutant phenotype|GO:0007117//biological process| establishment of cell polarity (sensu Saccharomyces) | inferred from mutant phenotyp
ular component| mitochondrial large ribosomal subunit | traceable author statement|GO:0005762//biological process| protein biosynthesis | traceable autho
lular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological pro
quitin-protein ligase activity | traceable author statement |GO:0004842//cellular component| anaphase-promoting complex | traceable author statement|GO
ent| mitochondrion | inferred from direct assay |GO:0005739//biological process| protein refolding | inferred from genetic interaction|GO:0042026//biologica
m physical interaction|GO:0046933//molecular function| hydrogen-transporting ATP synthase activity, rotational mechanism | inferred from mutant phenotyp
nt| Golgi apparatus | traceable author statement|GO:0005794//cellular component| Golgi apparatus | inferred from direct assay |GO:0005794//cellular com
molecular function| chromatin binding | traceable author statement |GO:0003682//cellular component| cytoplasm | traceable author statement|GO:0005737
//molecular function| structural constituent of ribosome | inferred from physical interaction |GO:0003735//cellular component| mitochondrial large ribosoma
ty|GO:0004515//molecular function| nicotinate-nucleotide adenylyltransferase activity | inferred from genetic interaction |GO:0004515//cellular component|
nent| small nuclear ribonucleoprotein complex | traceable author statement|GO:0030532//cellular component| small nucleolar ribonucleoprotein complex | t
mponent| vacuolar membrane (sensu Fungi) | inferred from direct assay|GO:0000329//biological process| endocytosis | inferred from mutant phenotype|GO
| inferred from direct assay |GO:0005634//biological process| ribosomal large subunit biogenesis | inferred from physical interaction|GO:0042273//biologica
mponent| cytoplasm | inferred from direct assay|GO:0005737
mponent| nucleus | inferred from direct assay|GO:0005634//cellular component| histone deacetylase complex | inferred from direct assay |GO:0000118//bio
erred from direct assay |GO:0005933//cellular component| cytoplasm | inferred from direct assay |GO:0005737//cellular component| incipient bud site | infe
| inferred from direct assay |GO:0005634//biological process| karyogamy | inferred from physical interaction|GO:0000741
eus | inferred from curator|GO:0005634//biological process| positive regulation of transcription from Pol II promoter | inferred from mutant phenotype|GO:0
ular component| cytoplasm | inferred from curator|GO:0005737//biological process| protein deubiquitination | traceable author statement|GO:0016579
ar function| transporter activity | inferred from sequence similarity |GO:0005215//cellular component| mitochondrial inner membrane | inferred from sequen
5//molecular function| magnesium ion transporter activity | inferred from mutant phenotype |GO:0015095//molecular function| magnesium ion transporter a
00778//biological process| meiotic chromosome segregation | inferred from mutant phenotype|GO:0045132
ent| mitochondrion | inferred from direct assay|GO:0005739
nction| telomerase activity | inferred from direct assay |GO:0003720//cellular component| telomerase holoenzyme complex | traceable author statement|GO
to Golgi transport | inferred from mutant phenotype|GO:0006888//biological process| protein complex assembly | inferred from direct assay |GO:0006461
quitin-protein ligase activity | traceable author statement |GO:0004842//cellular component| anaphase-promoting complex | traceable author statement|GO
cal process| protein biosynthesis | traceable author statement|GO:0006412
th | inferred from genetic interaction|GO:0007117
ear cohesin complex | inferred from physical interaction|GO:0000798//cellular component| nuclear cohesin complex | inferred from direct assay |GO:00007
h and/or maintenance | traceable author statement|GO:0008151
tin cortical patch (sensu Fungi) | inferred from physical interaction|GO:0030479//biological process| actin filament organization | inferred from mutant phen
450//cellular component| peroxisome | traceable author statement|GO:0005777//cellular component| cytoplasm | inferred from direct assay |GO:0005737//
r component| cytoplasm | inferred from curator|GO:0005737//biological process| sporulation (sensu Fungi) | traceable author statement|GO:0030437//biolo
3//molecular function| RNA-3'-phosphate cyclase activity | inferred from direct assay |GO:0003963//cellular component| nucleolus | inferred from direct ass
cellular component| mitochondrial inner membrane | inferred from direct assay|GO:0005743//biological process| iron ion homeostasis | inferred from muta
nt|GO:0016251//cellular component| transcription factor TFIID complex | traceable author statement|GO:0005669//cellular component| SAGA complex | inf
//cellular component| mitochondrial small ribosomal subunit | inferred from sequence similarity|GO:0005763//cellular component| mitochondrion | inferred
| inferred from direct assay |GO:0005634//biological process| ubiquitin-dependent protein catabolism | inferred from expression pattern|GO:0006511
gulation of cell growth | inferred from physical interaction|GO:0001558
on| DNA helicase activity | inferred from direct assay |GO:0003678//cellular component| nucleus | inferred from curator|GO:0005634//biological process| te
/molecular function| epsilon DNA polymerase activity | inferred from mutant phenotype |GO:0003893//cellular component| chromatin accessibility complex
cal process| telomere capping | traceable author statement|GO:0016233
O:0016538//cellular component| cyclin-dependent protein kinase holoenzyme complex | traceable author statement|GO:0000307//biological process| regula
| inferred from direct assay |GO:0005634
ar component| mitochondrial small ribosomal subunit | inferred from direct assay|GO:0005763//biological process| translational initiation | inferred from mu
ss| meiotic recombination | inferred from mutant phenotype|GO:0007131
ular function| ribosomal DNA (rDNA) binding | inferred from direct assay |GO:0000182//cellular component| nucleolus | inferred from direct assay|GO:00057
component| nucleus | inferred from direct assay|GO:0005634//biological process| positive regulation of transcription from Pol II promoter | inferred from dir
| inferred from direct assay |GO:0005634
transport vesicle | inferred from direct assay|GO:0030133//biological process| vesicle fusion | traceable author statement|GO:0006906//biological process|
ological process| chromatin silencing at telomere | inferred from genetic interaction |GO:0006348//biological process| chromatin silencing at telomere | infe
ar component| bud neck | inferred from direct assay |GO:0005935//cellular component| bud tip | inferred from direct assay |GO:0005934//cellular compone
plasm | inferred from direct assay|GO:0005737//biological process| microtubule-based process | traceable author statement|GO:0007017
omosome segregation | inferred from mutant phenotype|GO:0045132//biological process| DNA replication checkpoint | inferred from genetic interaction |GO
ular function| protein transporter activity | inferred from mutant phenotype |GO:0008565//cellular component| retromer complex | traceable author statemen
| nucleolus | traceable author statement|GO:0005730//biological process| rRNA processing | traceable author statement|GO:0006364
| inferred from direct assay |GO:0005634
mal large subunit assembly and maintenance | inferred from mutant phenotype|GO:0000027
/cellular component| small nuclear ribonucleoprotein complex | inferred from direct assay|GO:0030532//cellular component| nucleus | inferred from direct a
c spindle checkpoint | inferred from mutant phenotype|GO:0007094//biological process| mitotic spindle checkpoint | inferred from genetic interaction |GO:0
bridge of spindle pole body | inferred from direct assay|GO:0005825//biological process| spindle pole body duplication (sensu Saccharomyces) | inferred f
cessing | inferred from physical interaction|GO:0006364
3//biological process| mitotic sister chromatid cohesion | inferred from mutant phenotype|GO:0007064
ent| mitochondrial inner membrane | inferred from direct assay|GO:0005743//biological process| aerobic respiration | inferred from mutant phenotype|GO:0
nent| small nucleolar ribonucleoprotein complex | inferred from physical interaction|GO:0005732//cellular component| nucleolus | inferred from direct assay
eus | inferred from physical interaction|GO:0005634//biological process| chromatin remodeling | inferred from physical interaction|GO:0006338
ular component| plasma membrane | inferred from direct assay|GO:0005886//biological process| vitamin/cofactor transport | inferred from direct assay|GO:
t| bud neck | traceable author statement|GO:0005935//cellular component| bud tip | inferred from direct assay |GO:0005934//biological process| exocytosis
GO:0000318//biological process| response to oxidative stress | inferred from mutant phenotype|GO:0006979//biological process| response to oxidative stre
| inferred from direct assay |GO:0005634
ar component| cytoplasm | inferred from curator|GO:0005737//biological process| protein deubiquitination | traceable author statement|GO:0016579
of transcription from Pol II promoter | inferred from mutant phenotype|GO:0006357
ogical process| karyogamy during conjugation with cellular fusion | inferred from mutant phenotype|GO:0000742//biological process| karyogamy during con
/cellular component| U4/U6 x U5 tri-snRNP complex | traceable author statement|GO:0046540//biological process| nuclear mRNA splicing, via spliceosom
mponent| nuclear pore | inferred from direct assay|GO:0005643//biological process| nuclear pore organization and biogenesis | traceable author statement|
016566//molecular function| specific transcriptional repressor activity | inferred from physical interaction |GO:0016566//molecular function| specific transcrip
56//biological process| aldehyde metabolism | inferred from sequence similarity|GO:0006081
lysome | inferred from direct assay|GO:0005844//cellular component| cytoplasm | traceable author statement |GO:0005737//biological process| mRNA cat
| inferred from direct assay |GO:0005634
tion| v-SNARE activity | inferred from mutant phenotype |GO:0005485//molecular function| v-SNARE activity | inferred from genetic interaction |GO:000548
lar signaling cascade | inferred from genetic interaction|GO:0007242
725//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| actin filament organization | inferred from mutant phenoty
0016455//cellular component| mediator complex | inferred from direct assay|GO:0000119//biological process| transcription from Pol II promoter | inferred fr
function| double-stranded DNA binding | inferred from direct assay |GO:0003690//cellular component| nucleus | inferred from direct assay|GO:0005634//ce
e|GO:0016763//molecular function| transferase activity, transferring pentosyl groups | inferred from genetic interaction |GO:0016763//molecular function| tra
component| proteasome complex (sensu Eukarya) | inferred from physical interaction|GO:0000502//biological process| protein monoubiquitination | tracea
al process| mitochondrial fission | inferred from physical interaction|GO:0000266//biological process| mitochondrial fission | inferred from mutant phenotyp
component| nucleus | traceable author statement|GO:0005634//biological process| DNA repair | traceable author statement|GO:0006281//biological proces
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
nent| signalosome complex | inferred from direct assay |GO:0008180//biological process| adaptation to pheromone during conjugation with cellular fusion |
ar component| nucleus | inferred from direct assay|GO:0005634//biological process| nuclear migration | inferred from mutant phenotype|GO:0007097//biol
mponent| nucleus | inferred from direct assay|GO:0005634//biological process| negative regulation of calcium ion-dependent exocytosis | inferred from dire
er activity | inferred from sequence similarity |GO:0008565//molecular function| protein transporter activity | inferred from physical interaction |GO:0008565/
ospholipid-translocating ATPase activity | traceable author statement |GO:0004012//cellular component| trans-Golgi network transport vesicle | inferred fro
on| ATP binding | inferred from sequence similarity |GO:0005524//molecular function| DNA binding | inferred from direct assay |GO:0003677//cellular comp
//cellular component| mitochondrial large ribosomal subunit | inferred from physical interaction|GO:0005762//biological process| protein biosynthesis | infe
| inferred from direct assay |GO:0005634
doplasmic reticulum | inferred from direct assay|GO:0005783//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological process|
cellular component| nucleolus | traceable author statement|GO:0005730//biological process| 35S primary transcript processing | traceable author statemen
asma membrane | inferred from direct assay|GO:0005886//cellular component| heterotrimeric G-protein complex | inferred from direct assay |GO:0005834
nt| bud neck | traceable author statement|GO:0005935//cellular component| spindle pole body | inferred from direct assay |GO:0005816//biological process
| cytoplasm | inferred from direct assay|GO:0005737
nt| nucleus | inferred from direct assay|GO:0005634//biological process| protein amino acid phosphorylation | inferred from direct assay|GO:0006468//biolo
dase activity | inferred from direct assay |GO:0004601//molecular function| heme oxygenase (decyclizing) activity | inferred from sequence similarity |GO:0
component| delta DNA polymerase complex | traceable author statement|GO:0005659//biological process| postreplication repair | traceable author statem
ent| chromatin | inferred from direct assay |GO:0000785//biological process| RNA splicing | inferred from physical interaction|GO:0008380//biological proce
c DNA synthesis | inferred from mutant phenotype|GO:0006279//biological process| premeiotic DNA synthesis | inferred from genetic interaction |GO:0006
iological process| protein neddylation | inferred from direct assay|GO:0045116//biological process| protein monoubiquitination | traceable author statemen
:0003844//molecular function| 1,4-alpha-glucan branching enzyme activity | inferred from genetic interaction |GO:0003844//cellular component| cytoplasm
P U1 | traceable author statement|GO:0005685//cellular component| snRNP U1 | inferred from physical interaction |GO:0005685//cellular component| snRN
90//cellular component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277
0008934//molecular function| inositol-1(or 4)-monophosphatase activity | inferred from direct assay |GO:0008934//cellular component| cytoplasm | inferred
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
ensed nuclear chromosome kinetochore | inferred from direct assay |GO:0000778//biological process| mitotic spindle checkpoint | inferred from mutant phe
O:0045462//molecular function| trichothecene 3-O-acetyltransferase activity | inferred from mutant phenotype |GO:0045462//biological process| secondary
0005085//molecular function| guanyl-nucleotide exchange factor activity | inferred from genetic interaction |GO:0005085//cellular component| Golgi appara
ponent| microtubule associated complex | inferred from physical interaction|GO:0005875//biological process| autophagy | inferred from mutant phenotype|
ent| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634
| inferred from direct assay |GO:0005634//biological process| negative regulation of gluconeogenesis | inferred from mutant phenotype|GO:0045721//biolo
inferred from direct assay |GO:0005634//biological process| protein-vacuolar targeting | inferred from mutant phenotype|GO:0006623
ular component| peroxisome | inferred from direct assay |GO:0005777//biological process| peroxisome organization and biogenesis | inferred from mutant p
ar component| mitochondrial small ribosomal subunit | inferred from direct assay|GO:0005763//biological process| translational initiation | inferred from mu
3//biological process| mitotic sister chromatid cohesion | inferred from mutant phenotype|GO:0007064//biological process| mitotic sister chromatid cohesion
olecular function| isoleucine-tRNA ligase activity | inferred from mutant phenotype |GO:0004822//cellular component| mitochondrion | inferred from mutant
| endosome | inferred from direct assay |GO:0005768//biological process| late endosome to vacuole transport | inferred from physical interaction|GO:00453
large subunit biogenesis | inferred from mutant phenotype|GO:0042273//biological process| host-pathogen interaction | inferred from mutant phenotype |G
200//cellular component| DASH complex | inferred from physical interaction|GO:0042729//cellular component| DASH complex | inferred from direct assay |
ence similarity|GO:0000014//cellular component| nucleus | inferred from sequence similarity|GO:0005634
003709//cellular component| transcription factor TFIIIC complex | traceable author statement|GO:0000127//biological process| transcription initiation from
molecular function| endodeoxyribonuclease activity | inferred from direct assay |GO:0004520//molecular function| RNA binding | inferred from direct assay
ar component| epsilon DNA polymerase complex | inferred from direct assay|GO:0008622//cellular component| replication fork | traceable author statemen
molecular function| tryptophan-tRNA ligase activity | inferred from mutant phenotype |GO:0004830//cellular component| mitochondrion | traceable author st
olecular function| Rab GTPase activator activity | inferred from physical interaction |GO:0005097//molecular function| Rab GTPase activator activity | inferr
inferred from sequence similarity |GO:0016887//cellular component| mitochondrial matrix | inferred from direct assay|GO:0005759//biological process| mito
ent| nuclear membrane | inferred from direct assay |GO:0005635//biological process| secretory pathway | inferred from mutant phenotype|GO:0045045
acceptor | inferred from sequence similarity|GO:0016616//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nuc
doplasmic reticulum | inferred from direct assay|GO:0005783//biological process| protein transport | inferred from direct assay|GO:0015031//biological pro
ular component| signalosome complex | traceable author statement|GO:0008180//cellular component| signalosome complex | inferred from direct assay |G
46//cellular component| mitochondrion | inferred from sequence similarity|GO:0005739//biological process| translational elongation | inferred from sequenc
nferred from direct assay|GO:0005829//biological process| peroxisome matrix protein import | inferred from mutant phenotype|GO:0016558
omponent| integral to membrane | inferred from direct assay |GO:0016021//cellular component| cytoplasm | inferred from direct assay |GO:0005737//cellula
ess| peroxisome organization and biogenesis | inferred from mutant phenotype|GO:0007031//biological process| peroxisome organization and biogenesis
ular component| mitochondrial large ribosomal subunit | traceable author statement|GO:0005762//biological process| protein biosynthesis | traceable autho
//cellular component| mitochondrial large ribosomal subunit | inferred from sequence similarity|GO:0005762//biological process| aerobic respiration | inferr
04416//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| carbohydrate metabolism | inferred from mutant pheno
y transcript processing | inferred from mutant phenotype|GO:0006365//biological process| ribosomal large subunit assembly and maintenance | traceable a
protein-peroxisome targeting | inferred from sequence similarity|GO:0006625
molecular function| coenzyme A transporter activity | inferred from mutant phenotype |GO:0015228//cellular component| mitochondrial inner membrane | in
ular component| mitochondrial large ribosomal subunit | traceable author statement|GO:0005762//biological process| protein biosynthesis | traceable autho
r component| nucleus | inferred from direct assay|GO:0005634//biological process| regulation of transcription, mating-type specific | inferred from direct as
RNA binding | inferred from genetic interaction |GO:0003723//cellular component| snRNP U1 | inferred from direct assay|GO:0005685//biological process|
n| DNA binding | inferred from direct assay |GO:0003677//cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| meioti
t| soluble fraction | inferred from direct assay|GO:0005625//cellular component| extracellular | inferred from direct assay |GO:0005576//biological process|
| inferred from direct assay |GO:0005634
nt| mitochondrial membrane | inferred from direct assay |GO:0005740//biological process| aerobic respiration | inferred from mutant phenotype|GO:000906
ction| DNA-dependent ATPase activity | inferred from direct assay |GO:0008094//cellular component| nucleus | inferred from mutant phenotype|GO:000563
GO:0045129//molecular function| NAD-independent histone deacetylase activity | inferred from direct assay |GO:0045129//molecular function| NAD-depen
mplex | inferred from physical interaction |GO:0000812//biological process| ER organization and biogenesis | inferred from mutant phenotype|GO:0007029
ular function| structural molecule activity | inferred from direct assay |GO:0005198//cellular component| SAGA complex | inferred from direct assay|GO:000
nt| nucleus | inferred from curator|GO:0005634//biological process| telomerase-independent telomere maintenance | inferred from genetic interaction|GO:0
om direct assay|GO:0042626//cellular component| integral to peroxisomal membrane | inferred from direct assay|GO:0005779//biological process| fatty ac
lar component| cytoplasm | inferred from direct assay|GO:0005737//biological process| glycyl-tRNA aminoacylation | inferred from sequence similarity|GO
ular function| protein translocase activity | inferred from genetic interaction |GO:0015450//cellular component| mitochondrial inner membrane | inferred from
ular function| 3'-5' exonuclease activity | inferred from mutant phenotype |GO:0008408//cellular component| cytoplasm | inferred from direct assay|GO:0005
/molecular function| mRNA binding | inferred from physical interaction |GO:0003729//cellular component| small nuclear ribonucleoprotein complex | inferre
m | inferred from direct assay |GO:0005737
cal process| mitochondrion organization and biogenesis | traceable author statement|GO:0007005//biological process| mitochondrion inheritance | traceab
| inferred from direct assay |GO:0005634
molecular function| acetyl-CoA carboxylase activity | inferred from genetic interaction |GO:0003989//cellular component| mitochondrion | inferred from direc
al process| response to dessication | inferred from expression pattern |GO:0009269//biological process| cell wall mannoprotein biosynthesis | inferred from
ar component| replication fork | traceable author statement|GO:0005657//biological process| mismatch repair | non-traceable author statement|GO:000629
| inferred from direct assay |GO:0005634//biological process| DNA metabolism | inferred from genetic interaction|GO:0006259
| inferred from direct assay |GO:0005634
| inferred from direct assay |GO:0005634
| inferred from direct assay |GO:0005634
//molecular function| structural constituent of ribosome | inferred from physical interaction |GO:0003735//cellular component| mitochondrial small ribosoma
rial inner membrane | inferred from direct assay|GO:0005743//biological process| protein complex assembly | inferred from physical interaction|GO:000646
//cellular component| DNA-directed RNA polymerase II, core complex | traceable author statement|GO:0005665//biological process| transcription from Pol
ocess| allantoin catabolism | inferred from mutant phenotype|GO:0000256
wall organization and biogenesis | inferred from mutant phenotype|GO:0007047
nent| small nucleolar ribonucleoprotein complex | inferred from physical interaction|GO:0005732//biological process| processing of 20S pre-rRNA | inferred
ular component| mitochondrial large ribosomal subunit | traceable author statement|GO:0005762//cellular component| mitochondrial large ribosomal subun
| nucleolus | inferred from direct assay|GO:0005730//biological process| rRNA metabolism | inferred from mutant phenotype|GO:0016072
0005085//molecular function| guanyl-nucleotide exchange factor activity | inferred from genetic interaction |GO:0005085//cellular component| Golgi appara
nt| snRNP U1 | inferred from direct assay|GO:0005685//cellular component| commitment complex | inferred from physical interaction |GO:0000243//biolog
ecular function| structural constituent of ribosome | inferred from direct assay |GO:0003735//cellular component| mitochondrial small ribosomal subunit | tra
onent| nucleus | traceable author statement|GO:0005634//biological process| double-strand break repair via nonhomologous end-joining | inferred from mu
ular component| mitochondrial large ribosomal subunit | traceable author statement|GO:0005762//biological process| protein biosynthesis | traceable autho
GO:0003702//cellular component| transcription factor TFIID complex | inferred from direct assay|GO:0005669//cellular component| nucleus | inferred from
al process| inner mitochondrial membrane organization and biogenesis | inferred from mutant phenotype|GO:0007007
drial matrix | traceable author statement|GO:0005759//biological process| protein complex assembly | inferred from physical interaction|GO:0006461//biolo
nt| exocyst | inferred from physical interaction|GO:0000145//biological process| polar budding | inferred from mutant phenotype|GO:0007121//biological pr
on| thymidylate kinase activity | inferred from direct assay |GO:0004798//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular c
:0030364//cellular component| mRNA cleavage factor complex | inferred from physical interaction|GO:0005849//cellular component| mitochondrion | inferre
on| GTPase activity | inferred from genetic interaction |GO:0003924//cellular component| nucleus | inferred from sequence similarity|GO:0005634//cellular
us | inferred from direct assay |GO:0005634//biological process| mitotic spindle checkpoint | inferred from mutant phenotype|GO:0007094//biological proce
mponent| Golgi trans face | inferred from direct assay|GO:0005802//biological process| protein processing | traceable author statement|GO:0016485
nent| cytoplasm | inferred from direct assay|GO:0005737//biological process| response to stress | inferred from mutant phenotype|GO:0006950//biological
ed from mutant phenotype |GO:0051087//cellular component| mitochondrion | inferred from direct assay|GO:0005739//biological process| iron-sulfur cluste
ipid metabolism | inferred from mutant phenotype|GO:0006629
ess| peroxisome organization and biogenesis | traceable author statement|GO:0007031//biological process| protein-peroxisome targeting | inferred from m
| inferred from direct assay |GO:0005634
onent| cytosol | inferred from direct assay|GO:0005829//cellular component| vacuolar membrane (sensu Fungi) | inferred from direct assay |GO:0000329//b
cular function| protein binding | inferred from mutant phenotype |GO:0005515//cellular component| spliceosome complex | inferred from direct assay|GO:0
56//biological process| aldehyde metabolism | inferred from sequence similarity|GO:0006081
ty|GO:0016763//molecular function| transferase activity, transferring pentosyl groups | inferred from mutant phenotype |GO:0016763//molecular function| tr
component| nucleus | inferred from direct assay|GO:0005634//biological process| meiosis | traceable author statement|GO:0007126
acceptor | inferred from sequence similarity|GO:0016616//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| meta
nt| alpha DNA polymerase:primase complex | inferred from physical interaction|GO:0005658//biological process| lagging strand elongation | inferred from p
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
251//cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| tRNA modification | inferred from direct assay|GO:0006400
function| maltose porter activity | inferred from direct assay |GO:0015581//molecular function| carbohydrate transporter activity | inferred from sequence si
40//cellular component| mitochondrial processing peptidase complex | inferred from direct assay|GO:0017087//biological process| mitochondrial processin
| inferred from direct assay |GO:0005634
matin silencing | inferred from mutant phenotype|GO:0006342
ar component| nucleus | inferred from direct assay|GO:0005634
ent| cytoplasm | traceable author statement|GO:0005737//biological process| response to stress | inferred from direct assay|GO:0006950
nce similarity|GO:0008757//molecular function| rRNA (uridine-2'-O-)-methyltransferase activity | inferred from mutant phenotype |GO:0008650//molecular f
gical process| protein neddylation | inferred from direct assay|GO:0045116
roxisomal membrane | traceable author statement|GO:0005778//cellular component| peroxisomal membrane | inferred from direct assay |GO:0005778//bio
008121//cellular component| respiratory chain complex III (sensu Eukarya) | inferred from direct assay|GO:0005750//cellular component| mitochondrion | in
| heme binding | inferred from physical interaction |GO:0020037//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological proces
m | traceable author statement |GO:0005737//biological process| mRNA catabolism | traceable author statement|GO:0006402//biological process| mRNA c
r component| nucleus | traceable author statement|GO:0005634//biological process| regulation of transcription, mating-type specific | traceable author stat
04663//cellular component| Rab-protein geranylgeranyltransferase complex | inferred from direct assay|GO:0005968//biological process| protein amino ac
158//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biolog
O:0016944//cellular component| Cdc73/Paf1 complex | traceable author statement|GO:0016593//cellular component| Cdc73/Paf1 complex | inferred from p
slation initiation factor activity | inferred from sequence similarity |GO:0003743//molecular function| translation initiation factor activity | inferred from mutan
r component| snRNP U2 | inferred from direct assay|GO:0005686//biological process| spliceosome assembly | inferred from mutant phenotype|GO:000024
| inferred from direct assay |GO:0005634
:0000221//biological process| vacuolar acidification | inferred from physical interaction|GO:0007035//biological process| vacuolar acidification | inferred fro
sol | inferred from direct assay|GO:0005829//biological process| protein localization | inferred from mutant phenotype|GO:0008104
om sequence similarity|GO:0042626//molecular function| ATPase activity, coupled to transmembrane movement of substances | inferred from mutant phe
ular function| N-acetyltransferase activity | inferred from direct assay |GO:0008080//biological process| sphingolipid biosynthesis | inferred from mutant phe
s| mitochondrion organization and biogenesis | inferred from mutant phenotype|GO:0007005
asma membrane | inferred from direct assay|GO:0005886//cellular component| heterotrimeric G-protein complex | traceable author statement |GO:000583
003709//cellular component| transcription factor TFIIIC complex | traceable author statement|GO:0000127//biological process| transcription initiation from
| inferred from direct assay |GO:0005634
function| protein kinase inhibitor activity | inferred from direct assay |GO:0004860//cellular component| cell wall (sensu Fungi) | traceable author statemen
plasm | inferred from direct assay |GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634
ular component| mitochondrial large ribosomal subunit | traceable author statement|GO:0005762//biological process| protein biosynthesis | traceable autho
ular function| chitin deacetylase activity | inferred from direct assay |GO:0004099//cellular component| chitosan layer of spore wall | inferred from sequence
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
ent| mitochondrion | inferred from direct assay|GO:0005739//biological process| mitochondrion organization and biogenesis | inferred from genetic interacti
llular component| DASH complex | inferred from physical interaction|GO:0042729//cellular component| DASH complex | inferred from direct assay |GO:004
atement|GO:0005753//biological process| ATP synthesis coupled proton transport | traceable author statement|GO:0015986//biological process| response
molecular function| inorganic diphosphatase activity | inferred from mutant phenotype |GO:0004427//cellular component| mitochondrion | inferred from mu
ular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634
ular component| mitochondrial large ribosomal subunit | traceable author statement|GO:0005762//biological process| protein biosynthesis | traceable autho
onent| mitochondrial matrix | inferred from direct assay|GO:0005759//cellular component| mitochondrion | inferred from direct assay |GO:0005739//biologic
conjugation with cellular fusion | inferred from expression pattern|GO:0000747
process| endocytosis | inferred from mutant phenotype|GO:0006897
assay|GO:0042800//molecular function| transcriptional activator activity | inferred from mutant phenotype |GO:0016563//molecular function| chromatin bind
molecular function| protein binding | inferred from physical interaction |GO:0005515//cellular component| plasma membrane | inferred from direct assay|GO
ar component| mitochondrial small ribosomal subunit | inferred from direct assay|GO:0005763//biological process| protein biosynthesis | inferred from direc
ellular component| protein phosphatase type 2A complex | traceable author statement|GO:0000159//biological process| bud growth | traceable author state
onent| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| snoR
r component| cell wall (sensu Fungi) | traceable author statement|GO:0009277//biological process| agglutination during conjugation with cellular fusion | tra
| nuclear chromosome | inferred from direct assay|GO:0000228//biological process| meiotic recombination | inferred from mutant phenotype|GO:0007131
mponent| nucleus | traceable author statement|GO:0005634//biological process| double-strand break repair via nonhomologous end-joining | inferred from
olecular function| NADH dehydrogenase activity | inferred from direct assay |GO:0003954//cellular component| mitochondrion | inferred from mutant pheno
ection | inferred from mutant phenotype|GO:0000282
onent| membrane | inferred from sequence similarity|GO:0016020//biological process| transport | inferred from sequence similarity|GO:0006810
ular component| mitochondrial large ribosomal subunit | traceable author statement|GO:0005762//biological process| protein biosynthesis | traceable autho
mponent| contractile ring (sensu Saccharomyces) | inferred from direct assay|GO:0000142//biological process| axial budding | inferred from mutant pheno
nt|GO:0016251//cellular component| transcription factor TFIID complex | traceable author statement|GO:0005669//cellular component| nucleus | inferred fr
process| conjugation with cellular fusion | inferred from expression pattern|GO:0000747
79//cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| regulation of meiosis | inferred from mutant phenotype|GO:00
3//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biologic
r component| spliceosome complex | inferred from direct assay|GO:0005681//biological process| nuclear mRNA splicing, via spliceosome | inferred from p
ecular function| structural constituent of ribosome | inferred from direct assay |GO:0003735//molecular function| RNA binding | inferred from sequence simi
l process| response to oxidative stress | inferred from mutant phenotype|GO:0006979
nt| cytosol | traceable author statement|GO:0005829//biological process| response to stress | inferred from mutant phenotype|GO:0006950//biological proc
ular component| mitochondrial large ribosomal subunit | traceable author statement|GO:0005762//cellular component| mitochondrial large ribosomal subun
olecular function| glutamate-tRNA ligase activity | inferred from mutant phenotype |GO:0004818//cellular component| mitochondrion | inferred from direct a
omponent| endoplasmic reticulum | traceable author statement|GO:0005783//biological process| ER-associated protein catabolism | inferred from direct as
ellular component| mitochondrion | inferred from sequence similarity|GO:0005739//cellular component| mitochondrion | inferred from mutant phenotype |GO
nction| protein binding | inferred from sequence similarity |GO:0005515//cellular component| dynactin complex | inferred from direct assay|GO:0005869//bi
ular function| transcription factor activity | inferred from mutant phenotype |GO:0003700//cellular component| spliceosome complex | traceable author state
quitin-protein ligase activity | traceable author statement |GO:0004842//cellular component| anaphase-promoting complex | traceable author statement|GO
cytoplasm | inferred from direct assay |GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| response
ocess| protein complex assembly | traceable author statement|GO:0006461
ular component| mitochondrial large ribosomal subunit | traceable author statement|GO:0005762//biological process| protein biosynthesis | traceable autho
ype peptidase activity | inferred from sequence similarity |GO:0008234//cellular component| soluble fraction | inferred from direct assay|GO:0005625
nt| snRNP U1 | inferred from direct assay|GO:0005685//cellular component| commitment complex | inferred from physical interaction |GO:0000243//biolog
uble-strand break formation | traceable author statement|GO:0042138//biological process| meiotic recombination | inferred from mutant phenotype |GO:000
llular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| NAD biosynthesis | inferred from mutant phenotype|GO:0009435
| inferred from direct assay |GO:0005634
nt| cytoplasm | inferred from direct assay|GO:0005737//biological process| aerobic respiration | inferred from physical interaction|GO:0009060
n| protein binding | inferred from mutant phenotype |GO:0005515//cellular component| mitochondrial sorting and assembly machinery complex | inferred fr
ar component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological proces
on| protein binding | inferred from physical interaction |GO:0005515//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular comp
cellular component| nucleus | inferred from physical interaction|GO:0005634//biological process| protein amino acid phosphorylation | traceable author sta
complex | inferred from direct assay |GO:0000818//biological process| chromosome segregation | inferred from direct assay|GO:0007059
ular component| mitochondrial large ribosomal subunit | traceable author statement|GO:0005762//biological process| protein biosynthesis | traceable autho
ucleus | inferred from direct assay|GO:0005634//biological process| DNA strand elongation | inferred from mutant phenotype|GO:0006271//biological proc
//molecular function| threonine ammonia-lyase activity | inferred from mutant phenotype |GO:0004794//molecular function| L-serine ammonia-lyase activity
ular function| protein transporter activity | inferred from mutant phenotype |GO:0008565//molecular function| protein binding | inferred from direct assay |G
04674//biological process| regulation of meiosis | inferred from mutant phenotype|GO:0040020//biological process| regulation of meiosis | inferred from gen
milarity|GO:0003704//molecular function| specific RNA polymerase II transcription factor activity | inferred from mutant phenotype |GO:0003704//cellular c
r component| nucleotide excision repair factor 4 complex | inferred from direct assay|GO:0000113//cellular component| repairosome | inferred from direct a
cular function| histone deacetylase activity | inferred from direct assay |GO:0004407//cellular component| nucleus | inferred from direct assay|GO:0005634
lar component| plasma membrane | inferred from direct assay|GO:0005886//cellular component| vacuolar membrane | inferred from mutant phenotype |GO
/molecular function| translation release factor activity | inferred from mutant phenotype |GO:0003747//cellular component| mitochondrion | inferred from mu
RNA binding | inferred from mutant phenotype |GO:0003723//cellular component| snRNP U2 | inferred from direct assay|GO:0005686//biological process|
tatement|GO:0000014//cellular component| nucleotide excision repair factor 3 complex | traceable author statement|GO:0000112//biological process| nucl
ESCRT I complex | traceable author statement |GO:0000813//biological process| protein-vacuolar targeting | inferred from physical interaction|GO:000662
ellular component| vacuole (sensu Fungi) | inferred from direct assay|GO:0000324//biological process| sporulation (sensu Fungi) | inferred from expression
ological process| serine family amino acid metabolism | non-traceable author statement|GO:0009069
ent| vacuole (sensu Fungi) | inferred from direct assay |GO:0000324
ss| late endosome to vacuole transport | inferred from mutant phenotype|GO:0045324//biological process| late endosome to vacuole transport | inferred fro
nent| nucleotide excision repair factor 1 complex | traceable author statement|GO:0000110//biological process| nucleotide-excision repair, DNA damage re
ular component| mitochondrial large ribosomal subunit | traceable author statement|GO:0005762//biological process| protein biosynthesis | traceable autho
gral to membrane | inferred from direct assay|GO:0016021//cellular component| Golgi apparatus | inferred from direct assay |GO:0005794//cellular compon
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
milarity|GO:0008418//molecular function| protein N-terminal asparagine amidohydrolase activity | inferred from mutant phenotype |GO:0008418//molecula
process| chromosome segregation | inferred from mutant phenotype|GO:0007059
//molecular function| structural constituent of ribosome | inferred from physical interaction |GO:0003735//cellular component| mitochondrial small ribosoma
gical process| pseudohyphal growth | inferred from genetic interaction|GO:0007124
| protein binding | inferred from direct assay |GO:0005515//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nu
romatin assembly complex | inferred from direct assay|GO:0005678//biological process| DNA damage response, signal transduction resulting in induction
5//molecular function| magnesium ion transporter activity | inferred from mutant phenotype |GO:0015095//molecular function| magnesium ion transporter a
ular component| mitochondrial small ribosomal subunit | traceable author statement|GO:0005763//biological process| protein biosynthesis | traceable autho
r component| mitochondrial outer membrane | inferred from direct assay |GO:0005741
ular function| transcription factor activity | inferred from mutant phenotype |GO:0003700//cellular component| nucleus | inferred from direct assay|GO:0005
component| intracellular | inferred from curator|GO:0005622//biological process| regulation of nitrogen utilization | inferred from mutant phenotype|GO:000
ological process| carbon utilization by utilization of organic compounds | inferred from mutant phenotype|GO:0015978//biological process| gluconeogenesis
in biosynthesis | inferred from mutant phenotype|GO:0006412
ar component| mitochondrial small ribosomal subunit | inferred from direct assay|GO:0005763//biological process| protein biosynthesis | inferred from direc
ysical interaction|GO:0005847//biological process| mRNA cleavage | inferred from physical interaction|GO:0006379//biological process| mRNA cleavage |
04460//cellular component| mitochondrial intermembrane space | inferred from direct assay|GO:0005758//biological process| electron transport | traceable
ecular function| transcription cofactor activity | inferred from direct assay |GO:0003712//cellular component| SAGA complex | inferred from direct assay|GO
t| soluble fraction | inferred from direct assay|GO:0005625//biological process| response to dessication | inferred from sequence similarity|GO:0009269//bi
r component| spore wall (sensu Fungi) | inferred from mutant phenotype |GO:0005619//biological process| spore wall assembly (sensu Fungi) | inferred fro
m mutant phenotype|GO:0046933//molecular function| structural molecule activity | inferred from physical interaction |GO:0005198//molecular function| stru
mplex | inferred from physical interaction |GO:0000812//biological process| chromatin remodeling | inferred from physical interaction|GO:0006338//biologica
al process| ethanol metabolism | inferred from mutant phenotype|GO:0006067
ular function| ubiquitin conjugating enzyme activity | inferred from direct assay |GO:0004840//molecular function| single-stranded DNA binding | inferred fro
| spore wall assembly (sensu Fungi) | inferred from physical interaction|GO:0030476//biological process| spore wall assembly (sensu Fungi) | inferred from
r component| nucleus | traceable author statement|GO:0005634//biological process| regulation of transcription, mating-type specific | traceable author stat
ar component| mitochondrial small ribosomal subunit | inferred from direct assay|GO:0005763//biological process| protein biosynthesis | inferred from direc
ponent| nucleus | traceable author statement|GO:0005634//cellular component| condensed nuclear chromosome kinetochore | traceable author statement
ecular function| peptidyltransferase activity | inferred from sequence similarity |GO:0000048//cellular component| mitochondrial large ribosomal subunit | tra
004165//molecular function| dodecenoyl-CoA delta-isomerase activity | inferred from direct assay |GO:0004165//cellular component| peroxisome | inferred
//molecular function| structural constituent of ribosome | inferred from physical interaction |GO:0003735//cellular component| mitochondrial large ribosoma
| inferred from direct assay |GO:0005634
atement|GO:0005753//biological process| ATP synthesis coupled proton transport | traceable author statement|GO:0015986
assay|GO:0042800//cellular component| COMPASS complex | inferred from physical interaction|GO:0048188//cellular component| nucleus | inferred from d
nent| COMA complex | inferred from direct assay |GO:0000817//cellular component| kinetochore | inferred from direct assay |GO:0000776//biological proce
ction| copper ion binding | inferred from mutant phenotype |GO:0005507//cellular component| cytoplasm | inferred from sequence similarity|GO:0005737//
| inferred from direct assay |GO:0005634//biological process| mitochondrion organization and biogenesis | inferred from mutant phenotype|GO:0007005
ss| zinc ion transport | inferred from mutant phenotype|GO:0006829
nt| ubiquitin ligase complex | inferred from sequence similarity|GO:0000151//biological process| ubiquitin-dependent protein catabolism | inferred from seq
tatement|GO:0000014//cellular component| nucleotide excision repair factor 1 complex | traceable author statement|GO:0000110//biological process| nucl
tein biosynthesis | traceable author statement|GO:0006412
membrane | traceable author statement|GO:0016020//biological process| vesicle fusion | traceable author statement|GO:0006906//biological process| Golg
l process| phospholipid biosynthesis | inferred from sequence similarity|GO:0008654
in targeting | inferred from physical interaction|GO:0006605
| inferred from direct assay |GO:0005634
ect assay|GO:0003908//cellular component| nucleus | inferred from curator|GO:0005634//biological process| DNA dealkylation | inferred from mutant phen
ular function| protein transporter activity | inferred from mutant phenotype |GO:0008565//cellular component| mitochondrial inner membrane protein inserti
lular component| plasma membrane | inferred from sequence similarity|GO:0005886//biological process| basic amino acid transport | inferred from direct a
sis | inferred from mutant phenotype|GO:0006897
nt| nucleus | inferred from curator|GO:0005634//biological process| telomerase-independent telomere maintenance | inferred from genetic interaction|GO:0
nent| nuclear chromatin | inferred from physical interaction|GO:0000790//biological process| mitotic sister chromatid cohesion | inferred from mutant phen
molecular function| cation:cation antiporter activity | inferred from mutant phenotype |GO:0015491//cellular component| plasma membrane | inferred from di
nce similarity|GO:0009013//molecular function| succinate-semialdehyde dehydrogenase [NAD(P)+] activity | inferred from mutant phenotype |GO:0009013/
ar component| mitochondrial small ribosomal subunit | inferred from direct assay|GO:0005763//biological process| protein biosynthesis | inferred from direc
ss| bud site selection | inferred from mutant phenotype|GO:0000282
| inferred from direct assay |GO:0005634//biological process| protein biosynthesis | inferred from expression pattern|GO:0006412
ar membrane | inferred from direct assay |GO:0005635//biological process| protein-nucleus import | inferred from direct assay|GO:0006606
mbrane fraction | inferred from direct assay |GO:0005624
6//molecular function| phenylalanine-tRNA ligase activity | inferred from mutant phenotype |GO:0004826//cellular component| mitochondrion | inferred from
nction| DNA bending activity | inferred from direct assay |GO:0008301//cellular component| condensed nuclear chromosome kinetochore | traceable autho
nt| nucleus | inferred from direct assay|GO:0005634//cellular component| chromatin | inferred from direct assay |GO:0000785
mitochondrion | inferred from direct assay|GO:0005739//biological process| protein biosynthesis | inferred from mutant phenotype|GO:0006412//biological
assay|GO:0042800//molecular function| transcription regulator activity | inferred from sequence similarity |GO:0030528//molecular function| chromatin bind
nce similarity|GO:0008757//molecular function| transcription cofactor activity | traceable author statement |GO:0003712//molecular function| transcription c
| inferred from direct assay |GO:0005634//biological process| processing of 20S pre-rRNA | inferred from mutant phenotype|GO:0030490
ar component| nucleus | non-traceable author statement|GO:0005634//biological process| nucleotide-excision repair | traceable author statement|GO:0006
lecular function| transcription cofactor activity | inferred from mutant phenotype |GO:0003712//molecular function| transcription cofactor activity | inferred fr
eus | inferred from direct assay |GO:0005634
008972//biological process| thiamin biosynthesis | inferred from genetic interaction|GO:0009228//biological process| thiamin biosynthesis | inferred from ex
e similarity|GO:0004702//molecular function| receptor signaling protein serine/threonine kinase activity | inferred from mutant phenotype |GO:0004702//bio
ar component| mitochondrial small ribosomal subunit | inferred from direct assay|GO:0005763//biological process| protein biosynthesis | inferred from direc
03887//cellular component| nucleus | inferred from sequence similarity|GO:0005634//biological process| sister chromatid cohesion | inferred from mutant p
| inferred from direct assay |GO:0005634
//molecular function| structural constituent of ribosome | inferred from physical interaction |GO:0003735//cellular component| mitochondrial small ribosoma
nt| mitochondrion | inferred from direct assay|GO:0005739//biological process| ribosome biogenesis | traceable author statement|GO:0007046
ular component| mitochondrial large ribosomal subunit | traceable author statement|GO:0005762//biological process| protein biosynthesis | traceable autho
450//cellular component| cytosol | traceable author statement|GO:0005829//biological process| glutamate biosynthesis | traceable author statement|GO:00
ar component| mitochondrial small ribosomal subunit | inferred from direct assay|GO:0005763//biological process| protein biosynthesis | inferred from direc
GO:0004722//molecular function| protein serine/threonine phosphatase activity | inferred from direct assay |GO:0004722//cellular component| cytoplasm | in
| nuclear chromosome | inferred from direct assay|GO:0000228//biological process| synaptonemal complex formation | inferred from physical interaction|G
| inferred from direct assay |GO:0005634
631//cellular component| mitochondrion | inferred from direct assay|GO:0005739//biological process| aerobic respiration | inferred from mutant phenotype|
us | inferred from direct assay |GO:0005730//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| tRNA processing | i
ular component| cytoplasm | inferred from curator|GO:0005737//biological process| protein deubiquitination | traceable author statement|GO:0016579
cellular component| spliceosome complex | inferred from direct assay|GO:0005681//biological process| cell cycle | traceable author statement|GO:0007049
omponent| cell wall (sensu Fungi) | inferred from direct assay |GO:0009277
membrane | inferred from direct assay |GO:0005628//biological process| spore wall assembly (sensu Fungi) | inferred from physical interaction|GO:0030476
008453//molecular function| alanine-glyoxylate transaminase activity | inferred from mutant phenotype |GO:0008453//biological process| glycine biosynthes
| inferred from direct assay |GO:0005634
cess| spore wall assembly (sensu Fungi) | inferred from mutant phenotype|GO:0030476
| inferred from direct assay |GO:0005634
nce similarity|GO:0008757//cellular component| cytoplasm | inferred from direct assay|GO:0005737
component| mitochondrion | inferred from direct assay|GO:0005739//cellular component| nucleus | inferred from direct assay |GO:0005634//biological proc
ular component| mitochondrial large ribosomal subunit | traceable author statement|GO:0005762//biological process| protein biosynthesis | traceable autho
om sequence similarity|GO:0042626//cellular component| mitochondrial inner membrane | inferred from direct assay|GO:0005743//biological process| aero
ay|GO:0016667//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:000
| RSC complex | inferred from physical interaction|GO:0016586//biological process| regulation of transcription, DNA-dependent | inferred from mutant phen
ular component| mitochondrial large ribosomal subunit | traceable author statement|GO:0005762//cellular component| mitochondrial large ribosomal subun
ar component| mitochondrial small ribosomal subunit | inferred from direct assay|GO:0005763//biological process| protein biosynthesis | inferred from direc
signal transduction during conjugation with cellular fusion | inferred from mutant phenotype|GO:0000750
t| vacuolar membrane (sensu Fungi) | inferred from direct assay|GO:0000329//biological process| secretory pathway | inferred from physical interaction|GO
r component| CCAAT-binding factor complex | traceable author statement|GO:0016602//biological process| transcription | traceable author statement|GO:0
cal process| cytochrome c oxidase biogenesis | inferred from mutant phenotype|GO:0008535
ecular function| aldehyde reductase activity | inferred from genetic interaction |GO:0004032//molecular function| aldehyde reductase activity | inferred from
nt| cytoplasm | inferred from direct assay|GO:0005737//biological process| mRNA catabolism, deadenylation-dependent | inferred from genetic interaction|
//molecular function| pseudouridylate synthase activity | inferred from mutant phenotype |GO:0004730//cellular component| mitochondrion | inferred from m
9888//molecular function| protein phosphatase regulator activity | inferred from physical interaction |GO:0019888//cellular component| protein phosphatase
| inferred from direct assay |GO:0005634
ss| cell cycle arrest in response to pheromone | inferred from physical interaction|GO:0000751//biological process| cell cycle arrest in response to pheromo
/molecular function| glutamate decarboxylase activity | inferred from physical interaction |GO:0004351//cellular component| cytoplasm | inferred from direc
:0030364//molecular function| protein binding | inferred from direct assay |GO:0005515//cellular component| mRNA cleavage factor complex | inferred from
ent| histone acetyltransferase complex | inferred from direct assay |GO:0000123//biological process| histone acetylation | inferred from direct assay|GO:001
ular component| mitochondrial large ribosomal subunit | traceable author statement|GO:0005762//cellular component| mitochondrial large ribosomal subun
mitochondrial inner membrane | inferred from direct assay|GO:0005743//biological process| protein biosynthesis | inferred from mutant phenotype|GO:00
nt| cytoplasm | inferred from direct assay|GO:0005737//biological process| meiosis | inferred from mutant phenotype|GO:0007126//biological process| meio
acceptor | inferred from sequence similarity|GO:0016616//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nuc
metabolism | inferred from genetic interaction |GO:0006259
molecular function| histone acetyltransferase activity | inferred from sequence similarity |GO:0004402//molecular function| histone acetyltransferase activity
l process| regulation of mitotic metaphase/anaphase transition | inferred from mutant phenotype|GO:0030071//biological process| meiotic recombination |
079//cellular component| mitochondrion | inferred from sequence similarity|GO:0005739//biological process| protein biosynthesis | inferred from sequence s
46//molecular function| translation elongation factor activity | inferred from mutant phenotype |GO:0003746//cellular component| mitochondrion | inferred fro
autophagy | inferred from mutant phenotype|GO:0006914
component| nuclear origin of replication recognition complex | traceable author statement|GO:0005664//biological process| chromatin silencing at silent m
nt|GO:0016251//molecular function| protein serine/threonine kinase activity | inferred from sequence similarity |GO:0004674//molecular function| histone ac
ent| mitochondrion | inferred from direct assay|GO:0005739
005088//molecular function| guanyl-nucleotide exchange factor activity | traceable author statement |GO:0005085//molecular function| signal transducer a
ecular function| aldo-keto reductase activity | inferred from direct assay |GO:0004033//cellular component| cytoplasm | inferred from direct assay|GO:00057
notype|GO:0003704//molecular function| specific RNA polymerase II transcription factor activity | inferred from direct assay |GO:0003704//cellular compone
| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| short-chai
|GO:0003704//cellular component| nucleus | inferred from curator|GO:0005634//biological process| positive regulation of transcription from Pol II promoter
quitin-protein ligase activity | traceable author statement |GO:0004842//cellular component| anaphase-promoting complex | traceable author statement|GO
ent| nucleotide excision repair factor 2 complex | inferred from direct assay|GO:0000111//cellular component| repairosome | inferred from direct assay |GO
ion| t-SNARE activity | inferred from physical interaction |GO:0005486//cellular component| prospore membrane | inferred from sequence similarity|GO:00
organization and biogenesis | inferred from mutant phenotype|GO:0007031//biological process| protein-peroxisome targeting | inferred from mutant pheno
ular component| mitochondrial small ribosomal subunit | traceable author statement|GO:0005763//cellular component| mitochondrial small ribosomal subun
ent| replication fork | inferred from genetic interaction |GO:0005657//biological process| DNA strand elongation | inferred from physical interaction|GO:0006
| THO complex | inferred from physical interaction|GO:0000347//cellular component| THO complex | inferred from mutant phenotype |GO:0000347//biologi
| THO complex | inferred from physical interaction|GO:0000347//cellular component| THO complex | inferred from mutant phenotype |GO:0000347//biologi
nce similarity|GO:0008757//cellular component| mitochondrion | inferred from direct assay|GO:0005739
ar component| cytoplasm | inferred from direct assay|GO:0005737//biological process| protein transport | inferred from sequence similarity|GO:0015031
ar component| integral to membrane | inferred from direct assay|GO:0016021//cellular component| mitochondrial inner membrane | inferred from direct ass
/cellular component| mitochondrion | inferred from direct assay|GO:0005739//biological process| phosphate transport | inferred from direct assay|GO:0006
| inferred from direct assay |GO:0005634
200//cellular component| dynactin complex | inferred from direct assay|GO:0005869//biological process| mitotic anaphase B | inferred from mutant phenoty
r component| nucleus | inferred from direct assay|GO:0005634//biological process| regulation of transcription, mating-type specific | inferred from direct as
1//cellular component| respiratory chain complex III (sensu Eukarya) | inferred from direct assay|GO:0005750//cellular component| mitochondrion | inferred
nent| mitochondrial intermembrane space | inferred from direct assay|GO:0005758//biological process| electron transport | traceable author statement|GO:
ed from mutant phenotype |GO:0051082//molecular function| --- | inferred from genetic interaction |GO:0051082//cellular component| nucleus | inferred from
membrane | inferred from direct assay |GO:0005886//biological process| conjugation with cellular fusion | inferred from mutant phenotype|GO:0000747
| inferred from direct assay |GO:0005634
protein transport | inferred from physical interaction|GO:0006886//biological process| intracellular protein transport | inferred from mutant phenotype |GO:0
nt| nucleus | inferred from curator|GO:0005634//biological process| telomerase-independent telomere maintenance | inferred from genetic interaction|GO:0
rred from mutant phenotype|GO:0006281
cellular component| Sin3 complex | inferred from physical interaction|GO:0016580//cellular component| nucleus | inferred from physical interaction |GO:00
ar component| mitochondrial small ribosomal subunit | inferred from direct assay|GO:0005763//biological process| protein biosynthesis | inferred from direc
red from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| response to stress | inferred
nent| actin cap (sensu Fungi) | inferred from physical interaction|GO:0030478//cellular component| contractile ring (sensu Saccharomyces) | inferred from
(sensu Fungi) | inferred from direct assay |GO:0000324//biological process| response to stress | inferred from direct assay|GO:0006950
cular function| serine-tRNA ligase activity | inferred from mutant phenotype |GO:0004828//molecular function| serine-tRNA ligase activity | inferred from gen
nt| mitochondrion | inferred from sequence similarity|GO:0005739
nt|GO:0016251//cellular component| transcription factor TFIID complex | traceable author statement|GO:0005669//biological process| transcription initiation
mponent| plasma membrane | inferred from sequence similarity|GO:0005886//cellular component| plasma membrane | inferred from mutant phenotype |GO
cal process| cytochrome c oxidase biogenesis | inferred from mutant phenotype|GO:0008535
ucose transporter activity | traceable author statement |GO:0005355//molecular function| receptor activity | traceable author statement |GO:0004872//cellul
| inferred from direct assay |GO:0005634
:0008793//molecular function| aromatic-amino-acid transaminase activity | inferred from direct assay |GO:0008793//cellular component| cytoplasm | inferre
tion| protein binding | inferred from sequence similarity |GO:0005515//molecular function| ribonuclease activity | inferred from sequence similarity |GO:000
erred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| response to stress | inferre
t| nucleolus | inferred from sequence similarity|GO:0005730//cellular component| nucleolus | inferred from direct assay |GO:0005730//biological process| c
in complex assembly | inferred from mutant phenotype|GO:0006461//biological process| protein complex assembly | inferred from genetic interaction |GO:
t| nucleolus | inferred from direct assay|GO:0005730//biological process| conjugation with cellular fusion | inferred from genetic interaction|GO:0000747//bi
ellular component| nucleus | inferred from curator|GO:0005634//biological process| DNA dealkylation | inferred from sequence similarity|GO:0006307//biolo
//cellular component| cytoplasm | inferred from sequence similarity|GO:0005737//biological process| beta-alanine biosynthesis | inferred from mutant phen
ular function| copper chaperone activity | inferred from mutant phenotype |GO:0016531//cellular component| cytosol | inferred from direct assay|GO:00058
ent| mitochondrial intermembrane space | inferred from direct assay|GO:0005758//biological process| electron transport | inferred from direct assay|GO:00
nt| nucleus | inferred from curator|GO:0005634//biological process| telomerase-independent telomere maintenance | inferred from genetic interaction|GO:0
O:0004424//cellular component| cell | traceable author statement|GO:0005623//biological process| histidine biosynthesis | traceable author statement|GO:0
l process| metabolism | inferred from sequence similarity|GO:0008152
/cellular component| plasma membrane | inferred from direct assay|GO:0005886//biological process| copper ion import | inferred from mutant phenotype|G
nt| nucleus | inferred from curator|GO:0005634//biological process| telomerase-independent telomere maintenance | inferred from genetic interaction|GO:0
O:0004424//molecular function| RNA helicase activity | inferred from direct assay |GO:0003724//cellular component| cytoplasm | inferred from curator|GO:0
molecular function| carboxy-lyase activity | inferred from sequence similarity |GO:0016831//molecular function| carboxy-lyase activity | inferred from mutant
ponent| plasma membrane | inferred from direct assay |GO:0005886//biological process| response to stress | inferred from direct assay|GO:0006950
ological process| phosphatidylcholine biosynthesis | traceable author statement|GO:0006656
gical process| protein biosynthesis | traceable author statement|GO:0006412
O:0005737//cellular component| vacuole (sensu Fungi) | inferred from direct assay |GO:0000324//biological process| nucleobase, nucleoside, nucleotide a
5737//biological process| methionine biosynthesis | inferred from mutant phenotype|GO:0009086
gical process| protein biosynthesis | traceable author statement|GO:0006412
mutant phenotype|GO:0006606
ical process| protein biosynthesis | traceable author statement|GO:0006412
gical process| protein biosynthesis | traceable author statement|GO:0006412
component| endoplasmic reticulum | inferred from sequence similarity|GO:0005783//cellular component| endoplasmic reticulum | inferred from mutant phen
porter activity | inferred from direct assay |GO:0005355//molecular function| fructose transporter activity | traceable author statement |GO:0005353//cellular
eable author statement|GO:0006591//biological process| arginine biosynthesis | traceable author statement |GO:0006526
e author statement|GO:0006526//biological process| argininosuccinate metabolism | traceable author statement |GO:0000053//biological process| citrullin
nent| peroxisome | inferred from direct assay|GO:0005777//biological process| methionine biosynthesis | inferred from mutant phenotype|GO:0009086
nt| cytoplasm | inferred from direct assay |GO:0005737//biological process| glycolysis | traceable author statement|GO:0006096
r component| endoplasmic reticulum | inferred from direct assay |GO:0005783//cellular component| vacuole (sensu Fungi) | inferred from direct assay |GO:
ate hydratase complex | inferred from direct assay |GO:0000015//biological process| glycolysis | traceable author statement|GO:0006096//biological proces
aceable author statement|GO:0006333
gical process| protein biosynthesis | traceable author statement|GO:0006412
interaction |GO:0000788//biological process| negative regulation of DNA recombination | inferred from mutant phenotype|GO:0045910//biological process
ession pattern |GO:0003704//cellular component| nuclear chromosome | inferred from direct assay|GO:0000228//biological process| regulation of meiosis
ecular function| methionine adenosyltransferase activity | inferred from genetic interaction |GO:0004478//cellular component| cytoplasm | inferred from dire
tor|GO:0005634//biological process| telomerase-independent telomere maintenance | inferred from genetic interaction|GO:0000722
n synthase complex | traceable author statement |GO:0000148//biological process| cell wall organization and biogenesis | traceable author statement|GO:0
aceable author statement|GO:0006261//biological process| dTMP biosynthesis | traceable author statement |GO:0006231
n pattern |GO:0007050//biological process| response to DNA damage stimulus | inferred from mutant phenotype |GO:0006974//biological process| respons
Fungi) | inferred from direct assay|GO:0030479//biological process| actin filament organization | inferred from direct assay|GO:0007015
omponent| sulfite reductase complex (NADPH) | inferred from direct assay |GO:0009337//cellular component| cytoplasm | inferred from direct assay |GO:0
raceable author statement |GO:0005759//biological process| mitochondrion organization and biogenesis | traceable author statement|GO:0007005
tor|GO:0005634//biological process| telomerase-independent telomere maintenance | inferred from genetic interaction|GO:0000722
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
l subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | traceable author statement|GO:0006412
gical process| protein biosynthesis | traceable author statement|GO:0006412//biological process| ribosomal small subunit assembly and maintenance | infe
tochondrion | traceable author statement |GO:0005739//biological process| ergosterol biosynthesis | traceable author statement|GO:0006696
ant phenotype |GO:0003704//cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| positive regulation of transcription f
drion | inferred from direct assay |GO:0005739//biological process| cell wall organization and biogenesis | inferred from sequence similarity|GO:0007047//b
cytoplasm | inferred from direct assay |GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| mRNA cata
hor statement|GO:0006183
olecular function| histidinol dehydrogenase activity | traceable author statement |GO:0004399//cellular component| cell | traceable author statement|GO:00
| inferred from sequence similarity|GO:0006950
mbrane | inferred from sequence similarity|GO:0005886//biological process| amino acid transport | inferred from direct assay|GO:0006865
rom direct assay |GO:0005886//biological process| cation transport | inferred from genetic interaction|GO:0006812
ngi) | inferred from direct assay|GO:0009277//biological process| cell wall organization and biogenesis | inferred from direct assay|GO:0007047
direct assay |GO:0005737//cellular component| Golgi membrane | inferred from direct assay |GO:0000139//biological process| vesicle-mediated transport
20//cellular component| vacuolar membrane (sensu Fungi) | inferred from direct assay|GO:0000329//cellular component| hydrogen-transporting ATPase V1
cular function| O-acetylhomoserine aminocarboxypropyltransferase activity | inferred from direct assay |GO:0003961//cellular component| cytoplasm | infer
ter assembly | traceable author statement|GO:0016226//biological process| iron-sulfur cluster assembly | inferred from sequence similarity |GO:0016226//b
traceable author statement|GO:0006414
from mutant phenotype|GO:0000011
eable author statement |GO:0000910//biological process| bud site selection | traceable author statement |GO:0000282
e shunt | traceable author statement|GO:0006098//biological process| glycolysis | inferred from mutant phenotype |GO:0006096//biological process| glucon
component| endoplasmic reticulum | inferred from sequence similarity|GO:0005783//cellular component| endoplasmic reticulum | inferred from mutant phen
um membrane | inferred from direct assay |GO:0005789//biological process| ergosterol biosynthesis | inferred from direct assay|GO:0006696
ne | inferred from direct assay|GO:0016021//cellular component| Golgi cis cisterna | inferred from direct assay |GO:0000137//biological process| cell wall o
ecular function| neutral amino acid transporter activity | inferred from genetic interaction |GO:0015175//cellular component| vacuole | inferred from mutant
:0005654//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| ribosome assembly | traceable author statement|GO:
component| Golgi apparatus | inferred from direct assay|GO:0005794//biological process| lipid glycosylation | inferred from mutant phenotype|GO:003025
d protein response, target gene transcriptional activation | traceable author statement|GO:0006990//biological process| phospholipid metabolism | traceabl
| inferred from sequence similarity|GO:0016020//biological process| fatty acid elongation, unsaturated fatty acid | inferred from mutant phenotype|GO:0019
sing | inferred from direct assay|GO:0016485
hondrion | inferred from sequence similarity|GO:0005739//cellular component| mitochondrion | inferred from physical interaction |GO:0005739//biological p
say |GO:0004582//cellular component| nuclear envelope-endoplasmic reticulum network | inferred from direct assay|GO:0042175//cellular component| end
m mutant phenotype|GO:0006555//biological process| sulfate assimilation | non-traceable author statement |GO:0000103
ecular function| DNA binding | inferred from direct assay |GO:0003677//cellular component| nucleus | traceable author statement|GO:0005634//cellular com
mbrane movement of ions, phosphorylative mechanism | inferred from mutant phenotype |GO:0015662//cellular component| membrane | inferred from seq
tor|GO:0005634//biological process| telomerase-independent telomere maintenance | inferred from genetic interaction|GO:0000722
nner membrane | traceable author statement|GO:0005743//cellular component| mitochondrial inner membrane | inferred from sequence similarity |GO:000
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
gical process| protein biosynthesis | traceable author statement|GO:0006412
direct assay |GO:0005634//cellular component| protein phosphatase type 2A complex | traceable author statement |GO:0000159//biological process| prote
ospholipase activity | inferred from direct assay |GO:0004622//cellular component| cell wall (sensu Fungi) | inferred from direct assay|GO:0009277//cellula
om direct assay |GO:0005634//biological process| GDP-mannose biosynthesis | inferred from mutant phenotype|GO:0009298//biological process| protein a
gulation of transcription from Pol II promoter | inferred from mutant phenotype|GO:0045944//biological process| aerobic respiration | inferred from mutant p
rmease activity | traceable author statement |GO:0005288//cellular component| plasma membrane | inferred from sequence similarity|GO:0005886//biolog
l organization and biogenesis | inferred from sequence similarity|GO:0007047//biological process| glucan metabolism | inferred from mutant phenotype |G
ect assay|GO:0006567//biological process| glycine biosynthesis | inferred from direct assay |GO:0006545
ferred from direct assay |GO:0005934//cellular component| plasma membrane | inferred from direct assay |GO:0005886//cellular component| endoplasmic
on and biogenesis | inferred from mutant phenotype|GO:0007047//biological process| cell wall organization and biogenesis | inferred from direct assay |GO
ay |GO:0005634//biological process| mRNA catabolism, nonsense-mediated | inferred from physical interaction|GO:0000184
ent| bud neck | inferred from direct assay |GO:0005935//cellular component| bud tip | inferred from direct assay |GO:0005934//cellular component| incipien
GO:0000307//biological process| cell cycle | traceable author statement|GO:0007049
r component| mitochondrial matrix | inferred from direct assay|GO:0005759//biological process| ornithine biosynthesis | traceable author statement|GO:00
x | inferred from direct assay |GO:0042729//cellular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement |GO:00058
port | traceable author statement|GO:0016192
rug | traceable author statement|GO:0042493//biological process| drug transport | traceable author statement |GO:0015893
sm | inferred from mutant phenotype|GO:0006555//biological process| sulfate assimilation | traceable author statement |GO:0000103
om genetic interaction|GO:0040020
om genetic interaction|GO:0040020
nferred from mutant phenotype |GO:0009651
endoplasmic reticulum lumen | inferred from direct assay |GO:0005788//cellular component| translocon | traceable author statement |GO:0005784//biolog
ssay |GO:0005634//biological process| G1-specific transcription in mitotic cell cycle | inferred from direct assay|GO:0000114
O:0005737//cellular component| vacuole (sensu Fungi) | inferred from direct assay |GO:0000324//biological process| nucleobase, nucleoside, nucleotide a
traceable author statement|GO:0006414
om direct assay |GO:0005737//biological process| leucine biosynthesis | traceable author statement|GO:0009098
nferred from mutant phenotype|GO:0030435//biological process| cellular response to starvation | inferred from mutant phenotype |GO:0009267//biological
e | inferred from direct assay |GO:0005811//biological process| acetate derivative biosynthesis | traceable author statement|GO:0030636//biological proces
/cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| methionine metabolism | traceable author statement|GO:0006
16944//molecular function| Pol II transcription elongation factor activity | inferred from genetic interaction |GO:0016944//cellular component| transcription e
erred from mutant phenotype|GO:0015940
microtubule | traceable author statement |GO:0005880//cellular component| kinetochore microtubule | traceable author statement |GO:0005828//cellular c
traceable author statement |GO:0005783//biological process| ergosterol biosynthesis | traceable author statement|GO:0006696
ical process| protein biosynthesis | traceable author statement|GO:0006412
n |GO:0015664//cellular component| integral to plasma membrane | inferred from sequence similarity|GO:0005887//biological process| nicotinamide monon
tance | inferred from mutant phenotype|GO:0042221
y|GO:0005840//cellular component| cytoplasm | inferred from direct assay |GO:0005737//cellular component| nucleus | inferred from direct assay |GO:000
t phenotype |GO:0003983//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| protein amino acid glycosylation | t
ical process| protein biosynthesis | traceable author statement|GO:0006412
n | inferred from direct assay |GO:0005625//biological process| lactate metabolism | inferred from sequence similarity|GO:0006089
anization and biogenesis | traceable author statement|GO:0007047
937//cellular component| cytosol | inferred from direct assay|GO:0005829//biological process| 'de novo' IMP biosynthesis | inferred from mutant phenotype|
leus | inferred from direct assay|GO:0005634//biological process| positive regulation of transcription from Pol II promoter | inferred from direct assay|GO:00
nferred from genetic interaction|GO:0006406
erred from direct assay|GO:0015914//biological process| Golgi to plasma membrane transport | inferred from mutant phenotype |GO:0006893
GO:0004748//molecular function| ribonucleoside-diphosphate reductase activity | inferred from expression pattern |GO:0004748//cellular component| cytop
zation and biogenesis | inferred from mutant phenotype|GO:0007047
| hydrogen-transporting ATPase V1 domain | traceable author statement |GO:0000221//biological process| vacuolar acidification | traceable author stateme
rom physical interaction|GO:0000790//biological process| regulation of transcription from Pol III promoter | inferred from mutant phenotype|GO:0006359//b
ble author statement|GO:0006537//biological process| citrate metabolism | traceable author statement |GO:0006101//biological process| glyoxylate cycle |
hatidylethanolamine biosynthesis | traceable author statement|GO:0006646
mino acid transport | inferred from mutant phenotype|GO:0000101
inferred from expression pattern|GO:0006986
nent| cell wall (sensu Fungi) | inferred from sequence similarity|GO:0009277//cellular component| cell wall (sensu Fungi) | inferred from direct assay |GO:00
oplasm | inferred from direct assay|GO:0005737
rocess| protein secretion | inferred from mutant phenotype |GO:0009306
on|GO:0007124
gical process| protein biosynthesis | traceable author statement|GO:0006412//biological process| ribosomal small subunit assembly and maintenance | infe
olecular function| mannosyltransferase activity | inferred from genetic interaction |GO:0000030//cellular component| intracellular | inferred from curator|GO:
m | inferred from direct assay |GO:0005737//biological process| traversing start control point of mitotic cell cycle | inferred from mutant phenotype|GO:0007
mbrane | inferred from sequence similarity|GO:0016020//cellular component| membrane | inferred from direct assay |GO:0016020//biological process| glyce
y |GO:0005634//biological process| cellular response to phosphate starvation | inferred from mutant phenotype|GO:0016036//biological process| cellular re
irect assay |GO:0005737//biological process| ER-associated protein catabolism | inferred from mutant phenotype|GO:0030433//biological process| autoph
om mutant phenotype|GO:0046688//biological process| response to copper ion | inferred from genetic interaction |GO:0046688//biological process| high af
from genetic interaction |GO:0006259
ical process| protein biosynthesis | traceable author statement|GO:0006412
rect assay |GO:0005576//cellular component| vacuole (sensu Fungi) | inferred from direct assay |GO:0000324
al subunit (sensu Eukarya) | traceable author statement|GO:0005843//biological process| protein biosynthesis | traceable author statement|GO:0006412//b
ble author statement |GO:0016020//cellular component| membrane | inferred from sequence similarity |GO:0016020//biological process| zinc ion homeost
from mutant phenotype|GO:0045922
uthor statement|GO:0006526
pe|GO:0005737//cellular component| nucleus | inferred from mutant phenotype |GO:0005634//cellular component| nucleus | inferred from direct assay |GO
nt| integral to membrane | inferred from sequence similarity|GO:0016021//cellular component| plasma membrane | inferred from direct assay |GO:0005886
unction| copper ion transporter activity | inferred from mutant phenotype |GO:0005375//cellular component| vacuolar membrane (sensu Fungi) | inferred fro
from direct assay |GO:0005634//biological process| pyrimidine salvage | inferred from mutant phenotype|GO:0008655//biological process| uridine catabolis
nt| cytoplasm | inferred from direct assay |GO:0005737//biological process| glycolysis | traceable author statement|GO:0006096
| inferred from direct assay |GO:0005783//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological process| vesicle fusion | trac
direct assay|GO:0006085
| inferred from direct assay |GO:0005783//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological process| conjugation with ce
ical process| protein biosynthesis | traceable author statement|GO:0006412
sical interaction |GO:0016251//molecular function| general RNA polymerase II transcription factor activity | inferred from direct assay |GO:0016251//cellular
all (sensu Fungi) | inferred from direct assay |GO:0009277//biological process| cellular response to phosphate starvation | traceable author statement|GO:0
m Pol II promoter | inferred from direct assay|GO:0045944
ellular component| nucleotide excision repair factor 3 complex | traceable author statement |GO:0000112//biological process| negative regulation of transc
from mutant phenotype|GO:0007165//biological process| adaptation to pheromone during conjugation with cellular fusion | traceable author statement |GO
ct assay |GO:0005635//biological process| endocytosis | inferred from mutant phenotype|GO:0006897
05634//biological process| sporulation (sensu Fungi) | inferred from genetic interaction|GO:0030437//biological process| RAS protein signal transduction |
activity | inferred from mutant phenotype |GO:0004579//cellular component| integral to membrane | inferred from mutant phenotype|GO:0016021//cellular c
assay |GO:0005737//biological process| NAD biosynthesis | inferred from mutant phenotype|GO:0009435
ical process| protein biosynthesis | traceable author statement|GO:0006412
mide biosynthesis | inferred from mutant phenotype|GO:0046513//biological process| aging | traceable author statement |GO:0007568
olism | traceable author statement|GO:0006020
uitination | inferred from direct assay|GO:0006513//biological process| chromatin assembly/disassembly | inferred from mutant phenotype |GO:0006333//bi
l subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | traceable author statement|GO:0006412
hor statement|GO:0005794//biological process| retrograde transport, endosome to Golgi | traceable author statement|GO:0042147//biological process| retr
ical process| protein biosynthesis | traceable author statement|GO:0006412
nteraction|GO:0008250//biological process| N-linked glycosylation via asparagine | inferred from mutant phenotype|GO:0018279//biological process| N-link
c reticulum membrane | traceable author statement|GO:0005789//cellular component| endoplasmic reticulum | inferred from direct assay |GO:0005783//bi
cellular component| mitochondrion | inferred from direct assay |GO:0005739//biological process| mitochondrial matrix protein import | inferred from physica
eable author statement|GO:0006413
ble author statement |GO:0005737//cellular component| nuclear pore | traceable author statement |GO:0005643//biological process| ER-associated protein
assembly (sensu Fungi) | inferred from mutant phenotype|GO:0030472//biological process| mitotic spindle assembly (sensu Fungi) | inferred from genetic
onent| RNA polymerase I upstream activating factor complex | traceable author statement|GO:0000500//biological process| transcription from Pol I promo
ay | inferred from physical interaction|GO:0045045//biological process| secretory pathway | inferred from mutant phenotype |GO:0045045//biological proces
ellular component| nucleus | traceable author statement|GO:0005634//biological process| transcription termination from Pol I promoter | traceable author s
se metabolism | traceable author statement |GO:0006144
s | inferred from direct assay |GO:0005634//biological process| homotypic vacuole fusion, non-autophagic | inferred from mutant phenotype|GO:0042145//b
erred from direct assay |GO:0005634//biological process| homoserine biosynthesis | traceable author statement|GO:0009090//biological process| threonin
ferred from genetic interaction |GO:0006694
o acid transport | inferred from direct assay|GO:0015802
|GO:0005634//biological process| mitochondrion organization and biogenesis | inferred from mutant phenotype|GO:0007005//biological process| response
o osmotic stress | inferred from mutant phenotype|GO:0006970//biological process| cytokinesis | inferred from mutant phenotype |GO:0000910
rred from direct assay|GO:0019439
red from genetic interaction|GO:0042493//biological process| phospholipid transport | inferred from direct assay |GO:0015914//biological process| phospho
all (sensu Fungi) | inferred from direct assay|GO:0009277//biological process| glycerophospholipid metabolism | inferred from mutant phenotype|GO:00066
| traceable author statement|GO:0030036//biological process| mRNA localization, intracellular | inferred from mutant phenotype |GO:0008298
protein amino acid palmitoylation | inferred from direct assay|GO:0018318//biological process| protein localization | inferred from mutant phenotype |GO:0
-phosphate shunt | inferred from sequence similarity|GO:0006098
similarity|GO:0006913
orylation | inferred from direct assay|GO:0006468
hatidylethanolamine biosynthesis | traceable author statement|GO:0006646
nthesis | traceable author statement|GO:0006696
erase-dependent telomere maintenance | inferred from genetic interaction |GO:0007004
gical process| protein biosynthesis | traceable author statement|GO:0006412//biological process| ribosomal small subunit assembly and maintenance | infe
n synthase complex | traceable author statement |GO:0000148//biological process| cell wall organization and biogenesis | traceable author statement|GO:0
rom direct assay |GO:0005737//biological process| response to heat | inferred from mutant phenotype|GO:0009408
mino acid biosynthesis | inferred from mutant phenotype|GO:0009070
:0000780//cellular component| condensed nuclear chromosome, pericentric region | inferred from genetic interaction |GO:0000780//cellular component| co
leus | inferred from curator |GO:0005634//biological process| positive regulation of transcription from Pol II promoter | inferred from sequence similarity|GO
assembly | inferred from mutant phenotype |GO:0016226//biological process| iron ion homeostasis | inferred from sequence similarity |GO:0006879//biolog
author statement|GO:0019346//biological process| cysteine metabolism | traceable author statement |GO:0006534//biological process| sulfur amino acid m
ex | inferred from direct assay |GO:0005938//biological process| sporulation (sensu Fungi) | inferred from mutant phenotype|GO:0030437
from direct assay |GO:0005576//biological process| cell wall organization and biogenesis | inferred from genetic interaction|GO:0007047
GO:0000220//biological process| vacuolar acidification | traceable author statement|GO:0007035
c reticulum membrane | traceable author statement|GO:0005789//cellular component| endoplasmic reticulum | inferred from direct assay |GO:0005783//bi
mponent| microsome | inferred from physical interaction |GO:0005792//cellular component| membrane fraction | inferred from direct assay |GO:0005624//b
onent| actin cap (sensu Fungi) | inferred from direct assay|GO:0030478//cellular component| membrane fraction | inferred from direct assay |GO:0005624/
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| aromatic amino acid family metabolism | inferred from mutant
ical process| protein biosynthesis | traceable author statement|GO:0006412
action|GO:0006810//biological process| transport | inferred from mutant phenotype |GO:0006810
onent| RNA polymerase I upstream activating factor complex | traceable author statement|GO:0000500//biological process| transcription from Pol I promo
aceable author statement|GO:0006333
direct assay|GO:0015857
ellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//biological process| dolichol-linked oligosaccharide biosynthesis | inferr
ess| proton transport | traceable author statement|GO:0015992//biological process| vacuolar acidification | traceable author statement |GO:0007035//biolog
d from direct assay |GO:0005634//biological process| tRNA modification | inferred from sequence similarity|GO:0006400
nt| integral to plasma membrane | inferred from mutant phenotype |GO:0005887//cellular component| endoplasmic reticulum | inferred from direct assay |G
hor statement |GO:0005624//biological process| transport | inferred from sequence similarity|GO:0006810
traceable author statement|GO:0006260
t assay |GO:0005737//biological process| glycolysis | traceable author statement|GO:0006096//biological process| gluconeogenesis | traceable author stat
423//molecular function| tRNA (guanine) methyltransferase activity | inferred from genetic interaction |GO:0016423//cellular component| cytoplasm | inferre
d from direct assay |GO:0000784//biological process| mRNA localization, intracellular | inferred from physical interaction|GO:0008298//biological process|
| inferred from mutant phenotype|GO:0016125
me | inferred from physical interaction|GO:0000398
bud neck | inferred from direct assay|GO:0005935//cellular component| mRNA cleavage and polyadenylation specificity factor complex | inferred from phys
component| Golgi apparatus | inferred from direct assay|GO:0005794//biological process| O-linked glycosylation | inferred from mutant phenotype|GO:0006
t| plasma membrane | traceable author statement|GO:0005886//cellular component| plasma membrane | inferred from sequence similarity |GO:0005886//
mate 5-kinase activity | inferred from genetic interaction |GO:0004349//molecular function| glutamate 5-kinase activity | inferred from direct assay |GO:0004
statement|GO:0005685//cellular component| snRNP U1 | inferred from physical interaction |GO:0005685//cellular component| snRNP U1 | inferred from dir
genesis | inferred from expression pattern|GO:0007031
| inferred from sequence similarity|GO:0006810
mbrane | inferred from sequence similarity|GO:0005886//biological process| amino acid transport | inferred from direct assay|GO:0006865
inferred from direct assay |GO:0005634//biological process| response to oxidative stress | inferred from mutant phenotype|GO:0006979//biological proces
ent| nucleosome remodeling complex | traceable author statement |GO:0005679//biological process| chromatin remodeling | traceable author statement|GO
cleotide biosynthesis | traceable author statement|GO:0006164//biological process| purine base metabolism | traceable author statement |GO:0006144//bio
anaerobic respiration | inferred from genetic interaction|GO:0009061//biological process| anaerobic respiration | inferred from expression pattern |GO:0009
ed from direct assay |GO:0005881//cellular component| spindle pole body | traceable author statement |GO:0005816//biological process| mitotic spindle or
hor statement|GO:0006183
ate hydratase complex | inferred from direct assay |GO:0000015//biological process| glycolysis | traceable author statement|GO:0006096//biological proces
l subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | traceable author statement|GO:0006412
from sequence similarity|GO:0030176//cellular component| integral to endoplasmic reticulum membrane | inferred from direct assay |GO:0030176//biolog
ferred from direct assay|GO:0005739//biological process| RNA splicing | inferred from genetic interaction|GO:0008380//biological process| iron ion transpo
omponent| DNA-directed RNA polymerase III complex | traceable author statement |GO:0005666//biological process| transcription from Pol III promoter | t
phosphate transporter activity | inferred from genetic interaction |GO:0015114//cellular component| membrane | inferred from direct assay|GO:0016020//b
molecular function| transcriptional elongation regulator activity | inferred from genetic interaction |GO:0003711//cellular component| nucleus | inferred from p
l subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | traceable author statement|GO:0006412
GO:0009060//biological process| aerobic respiration | inferred from genetic interaction |GO:0009060
ical process| protein biosynthesis | traceable author statement|GO:0006412//biological process| ribosomal large subunit assembly and maintenance | infe
O:0005737//cellular component| vacuole (sensu Fungi) | inferred from direct assay |GO:0000324//biological process| nucleobase, nucleoside, nucleotide a
om direct assay |GO:0005634//biological process| sulfur amino acid metabolism | inferred from mutant phenotype|GO:0000096
al process| negative regulation of transcription from Pol II promoter | traceable author statement|GO:0000122
0006//cellular component| integral to plasma membrane | inferred from sequence similarity|GO:0005887//cellular component| integral to plasma membran
4//biological process| mitochondrial matrix protein import | inferred from mutant phenotype|GO:0030150
uthor statement|GO:0005730//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| rRNA processing | traceable auth
s | inferred from mutant phenotype|GO:0006783
ical process| translational elongation | inferred from sequence similarity|GO:0006414//biological process| protein biosynthesis | traceable author statemen
ly amino acid biosynthesis | traceable author statement|GO:0009082
irect assay|GO:0005634//cellular component| nuclear chromosome, telomeric region | traceable author statement |GO:0000784//cellular component| nucle
pping | traceable author statement|GO:0016233//biological process| telomere maintenance | inferred from mutant phenotype |GO:0000723
maintenance | inferred from mutant phenotype|GO:0000002
ical process| ribosome biogenesis and assembly | inferred from direct assay|GO:0042254//biological process| ubiquitin-dependent protein catabolism | no
x | inferred from direct assay |GO:0042729//cellular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement |GO:00058
m direct assay |GO:0005634//biological process| arginine catabolism | traceable author statement|GO:0006527
amino acid transport | inferred from mutant phenotype|GO:0006865
|GO:0004366//molecular function| glycerol-3-phosphate O-acyltransferase activity | inferred from direct assay |GO:0004366//cellular component| endoplas
traceable author statement |GO:0003676//cellular component| polysome | traceable author statement|GO:0005844//cellular component| cytoplasm | inferre
port | inferred from mutant phenotype|GO:0015696//biological process| pseudohyphal growth | inferred from mutant phenotype |GO:0007124
red from direct assay |GO:0046961//cellular component| vacuolar membrane | inferred from direct assay|GO:0005774//cellular component| hydrogen-trans
8//biological process| protein amino acid geranylgeranylation | inferred from direct assay|GO:0018348
GO:0000307//biological process| regulation of glycogen catabolism | inferred from genetic interaction|GO:0005981//biological process| regulation of glycog
rom physical interaction|GO:0000790//biological process| regulation of transcription from Pol III promoter | inferred from mutant phenotype|GO:0006359//b
ceable author statement|GO:0046086//biological process| purine nucleotide biosynthesis | traceable author statement |GO:0006164
2//cellular component| cytoplasmic mRNA processing body | inferred from direct assay |GO:0000932//biological process| chromosome segregation | inferre
ogenesis | traceable author statement|GO:0007031
862//cellular component| cytosol | traceable author statement|GO:0005829//biological process| leucine biosynthesis | inferred from mutant phenotype|GO:0
, poly(A)-independent | inferred from physical interaction|GO:0030847//biological process| transcription termination from Pol II promoter, poly(A)-independe
GO:0004748//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:000563
nt| cytoplasm | inferred from direct assay |GO:0005737//biological process| sphingolipid biosynthesis | inferred from sequence similarity|GO:0030148//biolo
ocess| negative regulation of transcription from Pol II promoter | traceable author statement|GO:0000122
rom curator|GO:0005634//biological process| regulation of mitotic cell cycle | inferred from mutant phenotype|GO:0007346//biological process| negative re
olism | non-traceable author statement|GO:0016259//biological process| methionine metabolism | non-traceable author statement |GO:0006555
osynthesis | traceable author statement|GO:0006537//biological process| isocitrate metabolism | traceable author statement |GO:0006102
//molecular function| general transcriptional repressor activity | inferred from direct assay |GO:0016565//cellular component| nucleus | inferred from physic
e nucleation | inferred from physical interaction|GO:0007020
inferred from mutant phenotype |GO:0004088//cellular component| cytosol | traceable author statement|GO:0005829//biological process| arginine biosynt
plasma membrane | inferred from sequence similarity|GO:0005886//cellular component| plasma membrane | inferred from mutant phenotype |GO:000588
m direct assay |GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| actin filament depolymerization | in
mponent| mitochondrial inner membrane | inferred from sequence similarity|GO:0005743//biological process| heme biosynthesis | traceable author stateme
rganization and biogenesis | inferred from mutant phenotype|GO:0007047//biological process| intracellular protein transport | inferred from physical interac
m mutant phenotype |GO:0006623//biological process| protein-vacuolar targeting | inferred from genetic interaction |GO:0006623
traceable author statement|GO:0006414
n | inferred from direct assay |GO:0005624//biological process| vesicle-mediated transport | inferred from mutant phenotype|GO:0016192
ondrion | inferred from direct assay |GO:0005739//biological process| phosphate transport | inferred from direct assay|GO:0006817
ed from direct assay |GO:0005737//cellular component| nucleus | inferred from mutant phenotype |GO:0005634//cellular component| nucleus | inferred from
hesis | traceable author statement|GO:0006696
ellular | inferred from sequence similarity |GO:0005576//cellular component| extracellular | inferred from direct assay |GO:0005576//biological process| cyto
GO:0000220//biological process| vacuolar acidification | traceable author statement|GO:0007035
t| nuclear membrane | traceable author statement |GO:0005635//biological process| protein monoubiquitination | traceable author statement|GO:0006513/
plasm | inferred from mutant phenotype |GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| G2/M tra
0004637//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| purine nucleotide biosynthesis | traceable author stat
reticulum | inferred from sequence similarity|GO:0005783//cellular component| endoplasmic reticulum | inferred from mutant phenotype |GO:0005783//bio
gical process| protein biosynthesis | traceable author statement|GO:0006412
mponent| cytoplasm | inferred from direct assay|GO:0005737//biological process| nitrogen metabolism | inferred from sequence similarity|GO:0006807//bio
| inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| response to stress | in
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
4//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| NAD biosynthesis | inferred from mutant phenotype|GO:000
d from direct assay |GO:0005737//cellular component| vacuole (sensu Fungi) | inferred from direct assay |GO:0000324//biological process| phospholipid m
4//biological process| tRNA modification | inferred from mutant phenotype|GO:0006400
pe|GO:0005737//cellular component| nucleus | inferred from mutant phenotype |GO:0005634//cellular component| nucleus | inferred from direct assay |GO
ne | inferred from direct assay|GO:0016021//biological process| cell wall organization and biogenesis | inferred from mutant phenotype|GO:0007047//biolog
| vacuolar membrane (sensu Fungi) | inferred from direct assay |GO:0000329//cellular component| vacuole (sensu Fungi) | inferred from direct assay |GO:
nt| endoplasmic reticulum membrane | inferred from sequence similarity|GO:0005789//cellular component| endoplasmic reticulum membrane | inferred from
d from direct assay|GO:0005789//biological process| calcium ion homeostasis | inferred from mutant phenotype|GO:0006874//biological process| protein a
inferred from direct assay|GO:0046686//biological process| glutathione biosynthesis | traceable author statement |GO:0006750
mino acid biosynthesis | traceable author statement|GO:0009082
ription from Pol II promoter | inferred from direct assay|GO:0006366
organization and biogenesis | inferred from expression pattern |GO:0007047
ed from direct assay |GO:0005816//cellular component| cytoplasm | inferred from direct assay |GO:0005737//cellular component| nucleus | inferred from d
0005634//biological process| positive regulation of transcription from Pol II promoter | inferred from direct assay|GO:0045944//biological process| hyperosm
me a biosynthesis | inferred from mutant phenotype |GO:0006784//biological process| heme a biosynthesis | inferred from genetic interaction |GO:0006784
ble author statement|GO:0019740
gical process| protein biosynthesis | traceable author statement|GO:0006412
| inferred from mutant phenotype|GO:0016125
aceable author statement|GO:0006333
ss| iron ion homeostasis | inferred from mutant phenotype|GO:0006879//biological process| guanine nucleotide transport | inferred from direct assay |GO:0
rom direct assay |GO:0005634//biological process| AMP biosynthesis | traceable author statement|GO:0006167
nent| cytoplasm | inferred from direct assay |GO:0005737//biological process| response to oxidative stress | inferred from mutant phenotype|GO:0006979/
ct assay |GO:0005635//biological process| endocytosis | inferred from mutant phenotype|GO:0006897
l process| transcription from Pol I promoter | traceable author statement|GO:0006360
51//biological process| siroheme biosynthesis | inferred from sequence similarity|GO:0019354//biological process| siroheme biosynthesis | inferred from ge
n, DNA-dependent | inferred from sequence similarity|GO:0006355//biological process| carbohydrate metabolism | inferred from genetic interaction |GO:00
rect assay |GO:0005634//biological process| protein amino acid dephosphorylation | inferred from direct assay|GO:0006470//biological process| inactivatio
om mitosis | traceable author statement|GO:0007096
e similarity |GO:0016020//cellular component| endoplasmic reticulum | inferred from direct assay |GO:0005783//biological process| response to zinc ion | in
gical process| protein biosynthesis | traceable author statement|GO:0006412
red from physical interaction|GO:0030036
ation | inferred from expression pattern |GO:0009269
erred from direct assay |GO:0003682//cellular component| chromatin assembly complex | inferred from physical interaction|GO:0005678//cellular compone
gical process| protein biosynthesis | traceable author statement|GO:0006412
Golgi to ER | inferred from mutant phenotype|GO:0006890//biological process| ER to Golgi transport | inferred from mutant phenotype |GO:0006888
eplication factor C complex | inferred from direct assay |GO:0005663//biological process| sister chromatid cohesion | inferred from physical interaction|GO:
zation and biogenesis | inferred from mutant phenotype |GO:0007005
cription factor activity | inferred from genetic interaction |GO:0003700//cellular component| nucleus | inferred from curator|GO:0005634//biological process|
ar membrane (sensu Fungi) | inferred from direct assay|GO:0000329//biological process| histone dephosphorylation | inferred from direct assay|GO:00165
rred from direct assay |GO:0005634//biological process| aromatic amino acid family biosynthesis | traceable author statement|GO:0009073
0005634//biological process| regulation of meiosis | inferred from mutant phenotype|GO:0040020//biological process| regulation of meiosis | inferred from
m | traceable author statement|GO:0009092//biological process| methionine biosynthesis | traceable author statement |GO:0009086
hor statement|GO:0006183
onent| cytoplasm | inferred from direct assay|GO:0005737//cellular component| membrane fraction | inferred from sequence similarity |GO:0005624//biolog
ssay|GO:0005829//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| response to stress | traceable author statem
nferred from mutant phenotype|GO:0006078//biological process| beta-1,6 glucan biosynthesis | inferred from genetic interaction |GO:0006078
endent methyltransferase activity | inferred from sequence similarity |GO:0008757//cellular component| actin filament | inferred from physical interaction|G
m direct assay |GO:0005634//cellular component| histone acetyltransferase complex | inferred from physical interaction |GO:0000123//biological process| c
to stress | inferred from genetic interaction|GO:0006950
ma membrane | inferred from sequence similarity|GO:0005886//cellular component| plasma membrane | inferred from mutant phenotype |GO:0005886//bio
P complex | inferred from direct assay|GO:0005655//cellular component| ribonuclease MRP complex | inferred from direct assay |GO:0000172//biological
ivity | inferred from mutant phenotype |GO:0004169//cellular component| endoplasmic reticulum | traceable author statement|GO:0005783//biological proc
ccharomyces) | inferred from direct assay |GO:0000142//biological process| actin cable formation | inferred from genetic interaction|GO:0045011//biologic
ane targeting | inferred from genetic interaction |GO:0006612
ferred from direct assay |GO:0005634//biological process| regulation of cyclin dependent protein kinase activity | traceable author statement|GO:0000079
l subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | traceable author statement|GO:0006412//bi
substances | inferred from mutant phenotype |GO:0042626//molecular function| ATPase activity | inferred from direct assay |GO:0016887//molecular funct
und metabolism | traceable author statement|GO:0006730
reticulum membrane | inferred from sequence similarity|GO:0005789//cellular component| endoplasmic reticulum membrane | inferred from genetic intera
n | inferred from expression pattern |GO:0009269
r component| cytosolic ribosome (sensu Eukarya) | inferred from genetic interaction |GO:0005830//biological process| regulation of translational elongation
nferred from direct assay|GO:0005739//biological process| branched chain family amino acid biosynthesis | inferred from sequence similarity|GO:0009082/
curator|GO:0005783//biological process| N-linked glycosylation | traceable author statement|GO:0006487
rect assay |GO:0005634//biological process| response to unfolded protein | inferred from physical interaction|GO:0006986//biological process| response to
gical process| protein biosynthesis | traceable author statement|GO:0006412
nent| inner plaque of spindle pole body | inferred from direct assay |GO:0005822//cellular component| gamma-tubulin complex (sensu Saccharomyces) | in
direct assay|GO:0008361
ular component| vacuole (sensu Fungi) | inferred from direct assay|GO:0000324//biological process| zinc ion homeostasis | inferred from mutant phenotype
ily amino acid biosynthesis | traceable author statement|GO:0009082//biological process| mitochondrial genome maintenance | inferred from mutant phen
erred from mutant phenotype|GO:0016125
us | traceable author statement |GO:0005634//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| pseudohyphal gro
|GO:0004475//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| GDP-mannose biosynthesis | inferred from mut
cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| coenzyme A biosynthesis | inferred from sequence similarity|G
biosynthesis | traceable author statement|GO:0006696
endent methyltransferase activity | inferred from sequence similarity |GO:0008757//cellular component| actin filament | inferred from physical interaction|G
ar component| nuclear pore | traceable author statement|GO:0005643//biological process| nuclear pore organization and biogenesis | inferred from physic
om direct assay |GO:0005576//biological process| sucrose catabolism | traceable author statement|GO:0005987
tement |GO:0005782//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological process| malate metabolism | traceable author s
ponent| integral to membrane | inferred from direct assay |GO:0016021//biological process| sporulation (sensu Fungi) | inferred from mutant phenotype|GO
ar component| cytoplasm | inferred from direct assay |GO:0005737//biological process| protein biosynthesis | traceable author statement|GO:0006412
rol metabolism | inferred from mutant phenotype|GO:0006071
ate hydratase complex | inferred from direct assay |GO:0000015//biological process| glycolysis | traceable author statement|GO:0006096//biological proces
author statement|GO:0005880//cellular component| spindle microtubule | traceable author statement |GO:0005876//biological process| mitotic spindle ass
| thioredoxin peroxidase activity | inferred from direct assay |GO:0008379//cellular component| nucleus | inferred from sequence similarity|GO:0005634//ce
rect assay|GO:0006606
hionine metabolism | inferred from mutant phenotype|GO:0006555//biological process| sulfate assimilation | traceable author statement |GO:0000103
ical process| protein biosynthesis | traceable author statement|GO:0006412//biological process| ribosomal large subunit assembly and maintenance | infe
ellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| glycogen biosynthesis | inferred from genetic interaction|GO:00
|GO:0005643//biological process| protein-nucleus import | traceable author statement|GO:0006606
n from Pol II promoter | traceable author statement|GO:0006358//biological process| chromatin remodeling | traceable author statement |GO:0006338
process| hypusine biosynthesis from peptidyl-lysine | inferred from direct assay|GO:0008612
ical process| protein biosynthesis | traceable author statement|GO:0006412
tant phenotype|GO:0042273//biological process| processing of 27S pre-rRNA | inferred from mutant phenotype |GO:0030489
ed from physical interaction|GO:0005679//biological process| chromatin remodeling | inferred from sequence similarity|GO:0006338//biological process| ch
ogical process| endocytosis | inferred from mutant phenotype|GO:0006897
m genetic interaction|GO:0007047
hor statement|GO:0008152
mbrane | inferred from direct assay|GO:0005743//biological process| oxaloacetate transport | inferred from direct assay|GO:0015729//biological process| s
ar component| cytoplasm | inferred from direct assay |GO:0005737//biological process| protein biosynthesis | traceable author statement|GO:0006412
gical process| protein biosynthesis | traceable author statement|GO:0006412
onent| endoplasmic reticulum | traceable author statement|GO:0005783//biological process| sphingolipid biosynthesis | traceable author statement|GO:003
ical process| protein biosynthesis | traceable author statement|GO:0006412
thor statement |GO:0030133//biological process| small GTPase mediated signal transduction | traceable author statement|GO:0007264//biological process
ay |GO:0005634
:0016274//molecular function| protein-arginine N-methyltransferase activity | inferred from direct assay |GO:0016274//cellular component| nucleus | inferre
biological process| O-linked glycosylation | traceable author statement|GO:0006493
ed from direct assay |GO:0005634//biological process| actin cytoskeleton organization and biogenesis | inferred from mutant phenotype|GO:0030036//biolo
t| vacuole | inferred from mutant phenotype|GO:0005773//biological process| amino acid transport | inferred from sequence similarity|GO:0006865//biologic
vity | inferred from direct assay |GO:0019789//cellular component| septin ring | inferred from direct assay|GO:0005940//biological process| protein sumoyla
red from sequence similarity|GO:0005737//biological process| pentose-phosphate shunt | traceable author statement|GO:0006098//biological process| pen
gical process| protein biosynthesis | traceable author statement|GO:0006412
//cellular component| COPI-coated vesicle | inferred from direct assay|GO:0030137//biological process| intracellular protein transport | traceable author sta
ular component| eukaryotic translation initiation factor 3 complex | inferred from direct assay |GO:0005852//cellular component| cytoplasm | inferred from d
ction |GO:0016538//molecular function| cyclin-dependent protein kinase regulator activity | inferred from direct assay |GO:0016538//cellular component| nu
ytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//cellular component| nuclear ubiq
ed from mutant phenotype|GO:0006118
pe |GO:0015082//cellular component| plasma membrane | inferred from mutant phenotype|GO:0005886//biological process| magnesium ion transport | infe
ansporter activity | inferred from genetic interaction |GO:0015127//cellular component| vacuolar membrane | inferred from direct assay|GO:0005774//biolog
hysical interaction|GO:0006521//biological process| regulation of amino acid metabolism | inferred from mutant phenotype |GO:0006521
is | inferred from sequence similarity|GO:0006412
y | traceable author statement |GO:0005816//biological process| spindle pole body duplication (sensu Saccharomyces) | inferred from mutant phenotype|G
nteraction|GO:0008250//cellular component| endoplasmic reticulum | inferred from direct assay |GO:0005783//cellular component| nuclear membrane | inf
transferase activity | inferred from mutant phenotype |GO:0008168//cellular component| small nuclear ribonucleoprotein complex | traceable author statem
ferred from direct assay |GO:0004519//cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| meiotic DNA double-stran
m mutant phenotype|GO:0007131//biological process| meiotic recombination | inferred from genetic interaction |GO:0007131//biological process| telomeras
direct assay|GO:0005829//biological process| protein-vacuolar targeting | inferred from genetic interaction|GO:0006623
|GO:0005737//biological process| carbohydrate metabolism | inferred from mutant phenotype|GO:0005975
from direct assay |GO:0005576//biological process| cell wall organization and biogenesis | inferred from genetic interaction|GO:0007047
t| plasma membrane | inferred from mutant phenotype |GO:0005886//biological process| glycerophosphodiester transport | inferred from mutant phenotyp
drug | traceable author statement|GO:0042493//biological process| response to singlet oxygen | inferred from mutant phenotype |GO:0000304
ical process| protein biosynthesis | traceable author statement|GO:0006412
tochondrial intermembrane space | inferred from direct assay |GO:0005758//biological process| vitamin B2 biosynthesis | inferred from mutant phenotype|G
damage stimulus | inferred from direct assay|GO:0006974//biological process| cell ion homeostasis | inferred from mutant phenotype |GO:0006873//biolog
ct assay|GO:0005634//biological process| meiosis | inferred from mutant phenotype|GO:0007126//biological process| chromatin remodeling | inferred from
ceable author statement |GO:0005871//biological process| microtubule stabilization | inferred from mutant phenotype|GO:0007026//biological process| mit
gulation of transcription from Pol II promoter | inferred from mutant phenotype|GO:0045944//biological process| aerobic respiration | inferred from mutant p
ponent| plasma membrane | inferred from sequence similarity|GO:0005886//cellular component| plasma membrane | inferred from direct assay |GO:00058
nt| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleolus | inferred from direct assay |GO:0005730//cellular component| nucleu
ar | traceable author statement|GO:0005622//biological process| cell cycle-dependent actin filament reorganization | inferred from mutant phenotype|GO:0
ort | traceable author statement|GO:0006888
ytosol | inferred from direct assay|GO:0005829//biological process| small GTPase mediated signal transduction | inferred from physical interaction|GO:000
cytosol | traceable author statement|GO:0005829//biological process| glucose 6-phosphate utilization | inferred from sequence similarity|GO:0006010//biol
GO:0003702//molecular function| RNA polymerase II transcription factor activity | inferred from mutant phenotype |GO:0003702//cellular component| cytos
assay |GO:0005934//biological process| endocytosis | inferred from mutant phenotype|GO:0006897
from sequence similarity|GO:0006810
23//biological process| RNA elongation from Pol II promoter | inferred from sequence similarity|GO:0006368
erred from direct assay|GO:0005935//cellular component| plasma membrane | inferred from direct assay |GO:0005886//biological process| response to glu
GO:0005634//cellular component| nuclear chromatin | inferred from sequence similarity |GO:0000790//biological process| regulation of transcription from P
ssay |GO:0005737//biological process| cell wall biosynthesis (sensu Fungi) | inferred from genetic interaction|GO:0009272//biological process| small GTPa
rom physical interaction|GO:0000790//biological process| regulation of transcription from Pol III promoter | inferred from mutant phenotype|GO:0006359//b
ment|GO:0005967//cellular component| mitochondrion | inferred from mutant phenotype |GO:0005739//biological process| pyruvate metabolism | non-trace
eable author statement |GO:0000910//biological process| bud site selection | traceable author statement |GO:0000282
le | inferred from direct assay|GO:0005811//biological process| lipid metabolism | inferred from mutant phenotype|GO:0006629
iated transport | inferred from genetic interaction |GO:0016192
rt | inferred from mutant phenotype |GO:0006896
r statement |GO:0016337//biological process| pseudohyphal growth | inferred from mutant phenotype |GO:0007124//biological process| invasive growth (se
e to nitrogen starvation | traceable author statement|GO:0006995//biological process| asparagine catabolism | traceable author statement |GO:0006530
mpound metabolism | traceable author statement|GO:0006730
c interaction|GO:0008361
llular component| SAGA complex | inferred from direct assay |GO:0000124//biological process| histone acetylation | traceable author statement|GO:00165
e author statement |GO:0005801//cellular component| mannosyltransferase complex | inferred from physical interaction |GO:0000136//biological process|
eavage factor complex | inferred from physical interaction|GO:0005849//cellular component| cytoplasm | inferred from direct assay |GO:0005737//cellular c
m mutant phenotype|GO:0007121//biological process| actin filament organization | inferred from physical interaction |GO:0007015//biological process| resp
eable author statement|GO:0006413
tegral to plasma membrane | inferred from curator|GO:0005887//biological process| oligopeptide transport | inferred from sequence similarity|GO:0006857
from direct assay |GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| G1/S transition of mitotic cell c
llular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological pro
from direct assay|GO:0005634//cellular component| ubiquitin ligase complex | traceable author statement |GO:0000151//biological process| ubiquitin-depe
ent| membrane | inferred from sequence similarity|GO:0016020//biological process| myo-inositol transport | inferred from mutant phenotype|GO:0015798
ct assay |GO:0005794//cellular component| endoplasmic reticulum | inferred from direct assay |GO:0005783//biological process| vesicle organization and b
y |GO:0005643//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| protein-nucleus import | traceable author statem
onent| inner plaque of spindle pole body | inferred from direct assay |GO:0005822//biological process| microtubule nucleation | inferred from physical inter
tin cortical patch (sensu Fungi) | inferred from direct assay|GO:0030479//biological process| polar budding | inferred from mutant phenotype|GO:0007121//
//cellular component| integral to Golgi membrane | inferred from direct assay |GO:0030173//biological process| phosphoinositide metabolism | inferred from
hesis | traceable author statement|GO:0019856
34//biological process| deadenylation-dependent decapping | inferred from genetic interaction|GO:0000290
nt phenotype |GO:0004477//molecular function| formate-tetrahydrofolate ligase activity | traceable author statement |GO:0004329//molecular function| form
GO:0015319//cellular component| plasma membrane | inferred from sequence similarity|GO:0005886//cellular component| plasma membrane | inferred fro
olism | inferred from direct assay|GO:0006081//biological process| alcohol metabolism | inferred from direct assay |GO:0006066
physical interaction |GO:0016272//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological process| tubulin folding | inferred fr
gical process| protein biosynthesis | traceable author statement|GO:0006412
direct assay |GO:0005792//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological process| phospholipid transport | inferred f
om genetic interaction |GO:0006378
culum | inferred from direct assay |GO:0005783//biological process| ergosterol biosynthesis | traceable author statement|GO:0006696
ical process| protein processing | inferred from direct assay|GO:0016485//biological process| peptide pheromone maturation | inferred from mutant phenot
nization and biogenesis | traceable author statement|GO:0007047
direct assay |GO:0005634//biological process| alcohol metabolism | inferred from sequence similarity|GO:0006066
nferred from sequence similarity|GO:0016020//biological process| nitrogen utilization | inferred from mutant phenotype|GO:0019740//biological process| m
iosynthesis | inferred from mutant phenotype|GO:0019354//biological process| sulfate assimilation | inferred from mutant phenotype |GO:0000103
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ed from direct assay |GO:0005935//cellular component| bud tip | inferred from direct assay |GO:0005934//cellular component| polarisome | traceable autho
rom direct assay |GO:0005634//biological process| pantothenate biosynthesis | inferred from mutant phenotype|GO:0015940
y | traceable author statement |GO:0005816//biological process| spindle pole body duplication (sensu Saccharomyces) | inferred from mutant phenotype|G
ent| membrane | inferred from sequence similarity|GO:0016020//biological process| myo-inositol transport | inferred from mutant phenotype|GO:0015798
ndoplasmic reticulum | inferred from sequence similarity|GO:0005783//cellular component| endoplasmic reticulum | inferred from mutant phenotype |GO:00
y | inferred from physical interaction |GO:0004579//cellular component| oligosaccharyl transferase complex | inferred from physical interaction|GO:0008250
ence similarity|GO:0006810
Golgi to ER | inferred from mutant phenotype|GO:0006890//biological process| ER to Golgi transport | inferred from mutant phenotype |GO:0006888
on|GO:0008250//cellular component| endoplasmic reticulum lumen | traceable author statement |GO:0005788//biological process| N-linked glycosylation v
ane | inferred from sequence similarity|GO:0005743//biological process| transport | inferred from sequence similarity|GO:0006810
ferred from direct assay |GO:0016619//cellular component| mitochondrion | inferred from direct assay|GO:0005739//biological process| amino acid metabo
t | inferred from genetic interaction |GO:0015846
ed from mutant phenotype |GO:0030126//biological process| retrograde transport, Golgi to ER | inferred from mutant phenotype|GO:0006890//biological pr
s| oligosaccharide transport | inferred from mutant phenotype|GO:0015772//biological process| N-linked glycosylation | inferred from mutant phenotype |GO
r function| pre-mRNA cleavage factor activity | inferred from mutant phenotype |GO:0030363//cellular component| mRNA cleavage and polyadenylation sp
r fusion | inferred from genetic interaction|GO:0000747
ar component| outer plaque of spindle pole body | inferred from physical interaction|GO:0005824//cellular component| cytoplasm | inferred from direct assa
m direct assay |GO:0005783//biological process| protein-ER targeting | inferred from physical interaction|GO:0045047//biological process| protein-ER targ
enotype|GO:0006364
ceable author statement|GO:0005622//biological process| small GTPase mediated signal transduction | inferred from sequence similarity|GO:0007264//bio
ccharomyces) | inferred from direct assay |GO:0000142//biological process| actin cable formation | inferred from genetic interaction|GO:0045011//biologic
onent| endosome | inferred from direct assay |GO:0005768//cellular component| hydrogen-transporting ATPase V0 domain | traceable author statement |G
lasmic reticulum membrane | traceable author statement|GO:0005789//cellular component| nuclear membrane | traceable author statement |GO:0005635/
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
inferred from direct assay |GO:0030137//biological process| retrograde transport, Golgi to ER | inferred from mutant phenotype|GO:0006890//biological pro
from sequence similarity|GO:0016021//cellular component| integral to membrane | inferred from physical interaction |GO:0016021//cellular component| va
erred from mutant phenotype|GO:0030437//biological process| response to pH | inferred from mutant phenotype |GO:0009268//biological process| meiosis
omocitrate synthase activity | inferred from genetic interaction |GO:0004410//molecular function| homocitrate synthase activity | inferred from expression p
n| calcium ion transporter activity | inferred from mutant phenotype |GO:0015085//molecular function| calcium ion transporter activity | inferred from direct a
assay |GO:0005739//biological process| iron-sulfur cluster assembly | inferred from sequence similarity|GO:0016226//biological process| iron-sulfur cluster
direct assay |GO:0005794//cellular component| endoplasmic reticulum | inferred from direct assay |GO:0005783//biological process| vesicle fusion | tracea
chondrion | inferred from direct assay |GO:0005739//biological process| mitochondrion organization and biogenesis | traceable author statement|GO:0007
sponse to salt stress | inferred from mutant phenotype |GO:0009651//biological process| response to salt stress | inferred from genetic interaction |GO:000
inferred from mutant phenotype|GO:0009435
35//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| proline biosynthesis | inferred from sequence similarity|GO
ar component| cytoplasm | inferred from direct assay |GO:0005737//biological process| regulation of translational fidelity | inferred from mutant phenotype|G
ation | traceable author statement|GO:0006260
utilization | inferred from mutant phenotype|GO:0019740//biological process| regulation of transcription from Pol II promoter | inferred from mutant phenoty
hor statement|GO:0009102
gical process| protein biosynthesis | traceable author statement|GO:0006412
ponent| integral to endoplasmic reticulum membrane | inferred from direct assay|GO:0030176//biological process| attachment of GPI anchor to protein | in
rred from direct assay|GO:0006468//biological process| DNA-dependent DNA replication | inferred from genetic interaction |GO:0006261
ide biosynthesis | inferred from mutant phenotype|GO:0046513//biological process| replicative cell aging | inferred from mutant phenotype |GO:0001302//b
me | traceable author statement |GO:0000228//cellular component| nuclear chromosome | inferred from direct assay |GO:0000228//biological process| dou
| inferred from direct assay |GO:0005844//biological process| meiosis | inferred from mutant phenotype|GO:0007126//biological process| bud growth | infe
red from genetic interaction|GO:0009266
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
| inferred from direct assay |GO:0005737//biological process| actin polymerization and/or depolymerization | inferred from direct assay|GO:0008154//biolog
y | inferred from direct assay |GO:0004622//cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//biological process| phosp
inferred from genetic interaction|GO:0000722
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ent| cytoplasm | inferred from direct assay |GO:0005737//biological process| lysine biosynthesis, aminoadipic pathway | traceable author statement|GO:00
ological process| transcription from Pol II promoter | traceable author statement|GO:0006366
ndrion | inferred from mutant phenotype|GO:0005739//cellular component| mitochondrion | inferred from direct assay |GO:0005739//biological process| RN
membrane | inferred from mutant phenotype|GO:0005886//cellular component| plasma membrane | inferred from genetic interaction |GO:0005886//biolog
henotype|GO:0042493//biological process| positive regulation of protein-nucleus import | inferred from mutant phenotype |GO:0042307//biological process
otype|GO:0005789//biological process| dolichol-linked oligosaccharide biosynthesis | traceable author statement|GO:0006488//biological process| N-linked
nferred from genetic interaction|GO:0007017
or statement|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| nuclear organization and biogenesis
port | inferred from direct assay|GO:0006865
s | inferred from direct assay |GO:0005634//biological process| response to heat | inferred from mutant phenotype|GO:0009408//biological process| signal
) | inferred from mutant phenotype|GO:0030476//biological process| regulation of mitotic metaphase/anaphase transition | inferred from mutant phenotype
biosynthesis | traceable author statement|GO:0009228//biological process| RAS protein signal transduction | inferred from mutant phenotype |GO:000726
004775//molecular function| succinate-CoA ligase (ADP-forming) activity | inferred from direct assay |GO:0004775//cellular component| mitochondrion | in
e regulation of translation | inferred from direct assay |GO:0016478
ar component| cytoplasm | inferred from direct assay|GO:0005737//biological process| purine base biosynthesis | inferred from mutant phenotype|GO:0009
retrograde transport, Golgi to ER | inferred from mutant phenotype|GO:0006890//biological process| retrograde transport, Golgi to ER | inferred from gene
rocess| mitochondrial matrix protein import | inferred from physical interaction|GO:0030150//biological process| mitochondrial matrix protein import | inferre
| non-traceable author statement|GO:0006570
assay |GO:0005935//cellular component| bud | inferred from direct assay |GO:0005933//cellular component| cytoplasm | inferred from direct assay |GO:000
ical process| protein biosynthesis | traceable author statement|GO:0006412
ting-type cassette (sensu Fungi) | inferred from mutant phenotype|GO:0030466//biological process| chromatin silencing at silent mating-type cassette (sen
al subunit (sensu Eukarya) | traceable author statement|GO:0005843//biological process| protein biosynthesis | traceable author statement|GO:0006412//b
se-associated import motor | inferred from physical interaction |GO:0001405//biological process| mitochondrial matrix protein import | traceable author sta
ct assay |GO:0005886//biological process| steroid biosynthesis | inferred from mutant phenotype|GO:0006694//biological process| steroid biosynthesis | inf
aceable author statement|GO:0009098
chromatin | inferred from direct assay|GO:0000790//cellular component| nuclear chromosome, telomeric region | inferred from curator |GO:0000784//biolo
onent| mitochondrial membrane | inferred from sequence similarity|GO:0005740//biological process| dicarboxylic acid transport | inferred from sequence s
bud neck | inferred from direct assay|GO:0005935//cellular component| mRNA cleavage and polyadenylation specificity factor complex | inferred from phys
cytosolic small ribosomal subunit (sensu Eukarya) | inferred from direct assay|GO:0005843//cellular component| cytosolic ribosome (sensu Eukarya) | infe
rom direct assay |GO:0005634//biological process| pentose-phosphate shunt, oxidative branch | inferred from sequence similarity|GO:0009051//biological
metabolism | inferred from mutant phenotype|GO:0006665
ct assay |GO:0004489//molecular function| structural constituent of ribosome | traceable author statement |GO:0003735//cellular component| cell | traceab
from direct assay |GO:0005634//biological process| DNA repair | inferred from mutant phenotype|GO:0006281
ultidrug transporter activity | inferred from genetic interaction |GO:0015239//cellular component| integral to plasma membrane | inferred from direct assay|G
gical process| GPI anchor biosynthesis | inferred from mutant phenotype|GO:0006506
tion and biogenesis | traceable author statement|GO:0007047
eable author statement|GO:0006413
t phenotype |GO:0004671//cellular component| endoplasmic reticulum membrane | traceable author statement|GO:0005789//cellular component| endopla
e similarity |GO:0016020//cellular component| endoplasmic reticulum | inferred from direct assay |GO:0005783//biological process| zinc ion homeostasis |
eable author statement|GO:0000105
from mutant phenotype|GO:0019740//biological process| transport | inferred from mutant phenotype |GO:0006810
20//cellular component| vacuolar membrane (sensu Fungi) | inferred from direct assay|GO:0000329//cellular component| hydrogen-transporting ATPase V1
ular component| eukaryotic translation initiation factor 3 complex | inferred from direct assay |GO:0005852//biological process| translational initiation | infer
nferred from sequence similarity|GO:0005634//cellular component| nucleus | inferred from physical interaction |GO:0005634//cellular component| nucleus |
ological process| protein-mitochondrial targeting | inferred from physical interaction|GO:0006626//biological process| protein-mitochondrial targeting | inferr
from direct assay |GO:0005634//biological process| nucleotide metabolism | traceable author statement|GO:0009117
direct assay|GO:0015878
drial inner membrane | inferred from direct assay|GO:0005743//biological process| mitochondrial transport | inferred from direct assay|GO:0006839
mutant phenotype|GO:0045047
iption factor activity | inferred from direct assay |GO:0003700//molecular function| two-component response regulator activity | inferred from mutant pheno
nteraction|GO:0008250//biological process| N-linked glycosylation | inferred from physical interaction|GO:0006487
ription from Pol II promoter | inferred from direct assay|GO:0006366
nt phenotype|GO:0006611//biological process| mRNA-nucleus export | inferred from mutant phenotype |GO:0006406//biological process| ribosomal large s
inferred from mutant phenotype |GO:0004088//cellular component| cytosol | traceable author statement|GO:0005829//biological process| arginine biosynt
ar component| cytoplasm | inferred from direct assay |GO:0005737//biological process| regulation of translational fidelity | inferred from mutant phenotype|G
| inferred from direct assay |GO:0005844//cellular component| endoplasmic reticulum membrane | inferred from direct assay |GO:0005789//biological proc
me complex | inferred from genetic interaction|GO:0005681//cellular component| nuclear pore | inferred from direct assay |GO:0005643//cellular componen
red from mutant phenotype|GO:0007059//biological process| nuclear pore organization and biogenesis | traceable author statement |GO:0006999//biologic
gical process| protein biosynthesis | traceable author statement|GO:0006412
gical process| regulation of translational fidelity | inferred from mutant phenotype|GO:0006450//biological process| protein biosynthesis | traceable author s
t phenotype|GO:0000910
notype|GO:0006914//biological process| ER to Golgi transport | traceable author statement |GO:0006888
ed from mutant phenotype|GO:0006901//biological process| vesicle coating | inferred from genetic interaction |GO:0006901//biological process| ER to Golg
m mutant phenotype|GO:0000335
component| sulfite reductase complex (NADPH) | inferred from direct assay |GO:0009337//biological process| sulfate assimilation | traceable author statem
molecular function| long-chain-fatty-acid-CoA ligase activity | inferred from sequence similarity |GO:0004467//molecular function| long-chain-fatty-acid-CoA
t | traceable author statement|GO:0016192
vity | inferred from direct assay |GO:0004169//cellular component| endoplasmic reticulum membrane | traceable author statement|GO:0005789//biological
protein amino acid palmitoylation | inferred from direct assay|GO:0018318//biological process| protein-membrane targeting | inferred from mutant phenotyp
nent| plasma membrane | inferred from sequence similarity|GO:0005886//cellular component| plasma membrane | inferred from genetic interaction |GO:00
damage stimulus | inferred from direct assay|GO:0006974//biological process| cell ion homeostasis | inferred from physical interaction |GO:0006873//biolo
RNA cap complex | inferred from physical interaction|GO:0005845//biological process| negative regulation of translation | inferred from mutant phenotype|G
nucleolar ribonucleoprotein complex | traceable author statement |GO:0005732//cellular component| small nucleolar ribonucleoprotein complex | inferred fr
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ponent| integral to endoplasmic reticulum membrane | inferred from direct assay|GO:0030176//biological process| attachment of GPI anchor to protein | in
nization and biogenesis | inferred from physical interaction|GO:0030036//biological process| actin cytoskeleton organization and biogenesis | inferred from
0030508//molecular function| thiol-disulfide exchange intermediate activity | inferred from genetic interaction |GO:0030508//cellular component| intracellula
| inferred from physical interaction |GO:0005783//biological process| vesicle organization and biogenesis | inferred from physical interaction|GO:0016050
direct assay |GO:0005737//biological process| translational initiation | traceable author statement|GO:0006413
y | traceable author statement |GO:0005816//biological process| spindle pole body duplication (sensu Saccharomyces) | inferred from mutant phenotype|G
su Fungi) | inferred from mutant phenotype|GO:0030437//biological process| axial budding | inferred from mutant phenotype |GO:0007120//biological proc
inferred from physical interaction |GO:0005634//cellular component| vacuole (sensu Fungi) | inferred from physical interaction |GO:0000324//biological pro
rred from direct assay |GO:0005634//biological process| aromatic amino acid family biosynthesis | traceable author statement|GO:0009073
rect assay|GO:0045490//biological process| pseudohyphal growth | non-traceable author statement |GO:0007124
ponse to unfolded protein | inferred from mutant phenotype |GO:0006986
amino acid derivative catabolism | inferred from mutant phenotype|GO:0042219
inferred from mutant phenotype|GO:0009105
ical process| phosphatidylserine biosynthesis | traceable author statement|GO:0006659
anchor biosynthesis | inferred from mutant phenotype|GO:0006506//biological process| plasmid maintenance | inferred from mutant phenotype |GO:00062
n-traceable author statement|GO:0006110//biological process| fructose 2,6-bisphosphate metabolism | non-traceable author statement |GO:0006003
722//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biolo
ivity | inferred from mutant phenotype |GO:0004169//cellular component| endoplasmic reticulum | traceable author statement|GO:0005783//biological proc
aceable author statement|GO:0006333
eroxisome organization and biogenesis | inferred from physical interaction |GO:0007031//biological process| peroxisome organization and biogenesis | infe
ferred from physical interaction|GO:0006357//biological process| regulation of transcription from Pol II promoter | inferred from genetic interaction |GO:000
n factor activity | inferred from physical interaction |GO:0003743//cellular component| eukaryotic translation initiation factor 3 complex | inferred from physic
ble author statement |GO:0016020//cellular component| membrane | inferred from sequence similarity |GO:0016020//biological process| response to zinc
| ARF GTPase activator activity | inferred from direct assay |GO:0008060//cellular component| clathrin-coated vesicle | inferred from direct assay|GO:0030
ssay |GO:0005634//biological process| proteolysis and peptidolysis | inferred from mutant phenotype|GO:0006508//biological process| glycogen metabolis
tement|GO:0006970
ical process| translational elongation | inferred from sequence similarity|GO:0006414//biological process| protein biosynthesis | traceable author statemen
ant phenotype|GO:0006950//biological process| protein folding | inferred from mutant phenotype |GO:0006457
eable author statement|GO:0006413
acellular accumulation of glycerol | inferred from mutant phenotype|GO:0006973
molecular function| signal transducer activity | traceable author statement |GO:0004871//cellular component| bud neck | inferred from direct assay|GO:000
m direct assay|GO:0015867//biological process| GPI anchor biosynthesis | inferred from direct assay |GO:0006506
n| DNA binding | inferred from sequence similarity |GO:0003677//molecular function| DNA binding | inferred from physical interaction |GO:0003677//cellula
d from direct assay |GO:0005783//cellular component| nuclear membrane | inferred from direct assay |GO:0005635//cellular component| extracellular | infe
from sequence similarity|GO:0016021//cellular component| integral to membrane | inferred from physical interaction |GO:0016021//cellular component| va
ferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| pyrimidine nucleotide bio
gical process| protein biosynthesis | traceable author statement|GO:0006412
inferred from genetic interaction |GO:0045045
cription factor activity | inferred from direct assay |GO:0003700//cellular component| nucleus | inferred from physical interaction|GO:0005634//biological pro
mino acid dephosphorylation | inferred from sequence similarity|GO:0006470//biological process| regulation of translation | inferred from mutant phenotype
d from mutant phenotype|GO:0045117
eable author statement|GO:0006413
ment organization | inferred from sequence similarity|GO:0007015//biological process| endocytosis | inferred from sequence similarity |GO:0006897//biologi
d from direct assay|GO:0005643//biological process| nuclear pore organization and biogenesis | traceable author statement|GO:0006999//biological proces
hikimate 1-carboxyvinyltransferase activity | inferred from direct assay |GO:0003866//molecular function| 3-dehydroquinate synthase activity | inferred from
sister chromatid cohesion | traceable author statement |GO:0007064//biological process| mitotic sister chromatid cohesion | inferred from mutant phenoty
m mutant phenotype |GO:0000339//molecular function| RNA cap binding | inferred from genetic interaction |GO:0000339//cellular component| mRNA cap
ect assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| nucleotide metabolism | inferred from dir
utant phenotype|GO:0016192
GO:0004084//cellular component| mitochondrial matrix | inferred from direct assay|GO:0005759//biological process| branched chain family amino acid bios
plasma membrane | inferred from direct assay |GO:0005886//biological process| multidrug transport | inferred from mutant phenotype|GO:0006855
m | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| tryptophan biosynth
ed from genetic interaction|GO:0019985//biological process| DNA repair | inferred from direct assay |GO:0006281//biological process| DNA replication | inf
ed from mutant phenotype|GO:0006879//biological process| iron ion homeostasis | inferred from genetic interaction |GO:0006879
ogical process| mRNA cleavage | inferred from direct assay|GO:0006379//biological process| mRNA polyadenylation | inferred from direct assay |GO:0006
m direct assay |GO:0005737//biological process| tRNA modification | inferred from direct assay|GO:0006400//biological process| pseudouridine synthesis |
cellular component| mitochondrial matrix | traceable author statement |GO:0005759//cellular component| nuclear membrane | traceable author statement |
ll wall (sensu Fungi) | inferred from direct assay|GO:0009277//biological process| agglutination during conjugation with cellular fusion | inferred from mutan
uthor statement |GO:0003677//cellular component| nuclear chromatin | traceable author statement|GO:0000790//biological process| positive regulation of
al process| proton transport | inferred from direct assay|GO:0015992//biological process| regulation of pH | inferred from expression pattern |GO:0006885
ear chromosome | inferred from physical interaction|GO:0000228//biological process| negative regulation of transcription from Pol II promoter | inferred from
d from mutant phenotype|GO:0000065
0000776//cellular component| chromosome, pericentric region | inferred from direct assay |GO:0000775//biological process| meiotic sister chromatid segre
atement|GO:0005634//biological process| positive regulation of transcription from Pol II promoter | inferred from mutant phenotype|GO:0045944//biologica
e body duplication (sensu Saccharomyces) | inferred from mutant phenotype|GO:0007103//biological process| microtubule nucleation | inferred from physi
-Golgi transport | inferred from physical interaction|GO:0006891//biological process| ER to Golgi transport | inferred from mutant phenotype |GO:0006888
ent| shmoo tip | inferred from direct assay |GO:0005937//cellular component| bud tip | inferred from direct assay |GO:0005934//cellular component| incipie
mutant phenotype|GO:0008283//biological process| RAS protein signal transduction | traceable author statement |GO:0007265//biological process| G-prote
able author statement|GO:0006098//biological process| pentose-phosphate shunt | inferred from mutant phenotype |GO:0006098
ecular function| neutral amino acid transporter activity | inferred from genetic interaction |GO:0015175//cellular component| vacuole | inferred from mutant
9//biological process| mitochondrial electron transport, succinate to ubiquinone | traceable author statement|GO:0006121//biological process| tricarboxylic
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
9//cellular component| mannosyltransferase complex | inferred from physical interaction|GO:0000136//cellular component| mannosyltransferase complex |
action|GO:0016071
port | inferred from direct assay|GO:0006865
H complex | inferred from direct assay |GO:0042729//cellular component| kinetochore microtubule | inferred from direct assay |GO:0005828//cellular compo
iosynthesis | inferred from mutant phenotype|GO:0006412
ical process| N-linked glycosylation | traceable author statement|GO:0006487
ction| L-methionine transporter activity | inferred from genetic interaction |GO:0015191//cellular component| membrane | inferred from sequence similarity|G
mplex | traceable author statement|GO:0005680//biological process| cyclin catabolism | traceable author statement|GO:0008054//biological process| mitot
d protein response, target gene transcriptional activation | traceable author statement|GO:0006990//biological process| phospholipid metabolism | traceabl
ndle assembly | inferred from genetic interaction|GO:0007051//biological process| transcription initiation from Pol II promoter | inferred from direct assay |G
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
e nucleation | inferred from physical interaction|GO:0007020
ar component| integral to membrane of membrane fraction | inferred from direct assay |GO:0000299//biological process| ER-associated protein catabolism
d from mutant phenotype|GO:0007047//biological process| DNA replication | traceable author statement |GO:0006260
say |GO:0005634//biological process| processing of 27S pre-rRNA | inferred from mutant phenotype|GO:0030489//biological process| RNA catabolism | in
erred from physical interaction|GO:0006301//biological process| postreplication repair | inferred from genetic interaction |GO:0006301//biological process| D
yces) | inferred from mutant phenotype |GO:0001403
| inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred from sequence similarity|GO:0006319
16944//molecular function| Pol II transcription elongation factor activity | inferred from genetic interaction |GO:0016944//cellular component| transcription e
omponent| endoplasmic reticulum membrane | traceable author statement|GO:0005789//biological process| fatty acid desaturation | inferred from sequence
atement |GO:0006364
direct assay |GO:0005634//biological process| protein amino acid phosphorylation | inferred from direct assay|GO:0006468//biological process| bud site se
author statement|GO:0005829//biological process| glycolysis | traceable author statement|GO:0006096//biological process| pyruvate metabolism | traceab
ical process| protein biosynthesis | traceable author statement|GO:0006412//biological process| ribosomal large subunit assembly and maintenance | infe
nt| cytoplasm | non-traceable author statement |GO:0005737//biological process| peptide metabolism | inferred from mutant phenotype|GO:0006518
mino acid biosynthesis | inferred from mutant phenotype|GO:0009070
sport | inferred from mutant phenotype|GO:0015840//biological process| L-proline transport | inferred from mutant phenotype |GO:0015824
molecular function| transporter activity | inferred from sequence similarity |GO:0005215//cellular component| vacuolar membrane (sensu Fungi) | inferred fr
component| Golgi apparatus | inferred from sequence similarity|GO:0005794//biological process| O-linked glycosylation | inferred from mutant phenotype|
olism | inferred from direct assay |GO:0008614
nt|GO:0006906//biological process| intra-Golgi transport | traceable author statement |GO:0006891//biological process| retrograde transport, Golgi to ER |
erred from expression pattern|GO:0007126
t assay |GO:0005634//biological process| adenine catabolism | traceable author statement|GO:0006146
enotype|GO:0007124//biological process| bud site selection | inferred from mutant phenotype |GO:0000282
nt| mitochondrion | traceable author statement |GO:0005739//biological process| phosphatidylcholine biosynthesis | inferred from direct assay|GO:000665
ical process| protein biosynthesis | traceable author statement|GO:0006412//biological process| ribosomal large subunit assembly and maintenance | infe
m direct assay|GO:0005624//biological process| protein-Golgi retention | inferred from mutant phenotype|GO:0045053//biological process| vacuolar transpo
ellular component| SAGA complex | inferred from direct assay |GO:0000124//biological process| histone acetylation | traceable author statement|GO:0016
raceable author statement|GO:0006696
toplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| long-chain fat
ngi) | inferred from direct assay|GO:0000324//biological process| vacuolar protein catabolism | inferred from direct assay|GO:0007039
al process| response to stress | inferred from mutant phenotype|GO:0006950//biological process| response to stress | inferred from genetic interaction |GO
GO:0005634//cellular component| nuclear chromatin | inferred from sequence similarity |GO:0000790//biological process| regulation of transcription from P
activity | traceable author statement |GO:0003924//cellular component| shmoo tip | inferred from direct assay|GO:0005937//cellular component| bud neck |
m sequence similarity|GO:0005634//biological process| double-strand break repair via nonhomologous end-joining | inferred from direct assay|GO:0006303
/cellular component| cytosol | traceable author statement |GO:0005829//cellular component| lipid particle | inferred from direct assay |GO:0005811//cellula
g at telomere | inferred from mutant phenotype|GO:0006348//biological process| chromatin silencing at telomere | inferred from genetic interaction |GO:00
nferred from sequence similarity|GO:0005886//cellular component| plasma membrane | inferred from mutant phenotype |GO:0005886//biological process|
ellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| regulation of cell size | inferred from direct assay|GO:0008361//
ondrial inner membrane | inferred from direct assay|GO:0005743//biological process| mitochondrial inner membrane protein import | inferred from physica
ay |GO:0005634//biological process| protein amino acid phosphorylation | inferred from sequence similarity|GO:0006468
:0000817//cellular component| condensed nuclear chromosome kinetochore | inferred from genetic interaction |GO:0000778//cellular component| condens
s| phosphatidylcholine biosynthesis | traceable author statement|GO:0006656
sponse to glucose starvation | inferred from mutant phenotype |GO:0042149
n serine/threonine kinase activity | inferred from mutant phenotype |GO:0004674//molecular function| protein serine/threonine kinase activity | inferred from
direct assay |GO:0005634//biological process| protein amino acid phosphorylation | inferred from sequence similarity|GO:0006468
integral to membrane | inferred from sequence similarity|GO:0016021//cellular component| plasma membrane | inferred from direct assay |GO:0005886//c
s| attachment of GPI anchor to protein | inferred from sequence similarity|GO:0016255
ical process| protein biosynthesis | traceable author statement|GO:0006412
/biological process| processing of 20S pre-rRNA | inferred from physical interaction|GO:0030490//biological process| 35S primary transcript processing | tr
aceable author statement |GO:0004842//molecular function| ubiquitin-protein ligase activity | inferred from direct assay |GO:0004842//cellular component| c
O:0006897//biological process| DNA metabolism | inferred from genetic interaction |GO:0006259
cellular protein transport | inferred from genetic interaction|GO:0006886
irect assay |GO:0005634//biological process| glutathione metabolism | inferred from genetic interaction|GO:0006749
ical process| protein biosynthesis | traceable author statement|GO:0006412
sium channel activity | inferred from direct assay |GO:0005267//cellular component| plasma membrane | inferred from mutant phenotype|GO:0005886//cell
otype|GO:0006623
/S transition of mitotic cell cycle | inferred from mutant phenotype|GO:0000082//biological process| G1/S transition of mitotic cell cycle | inferred from gene
ct assay|GO:0006412
pe|GO:0005737//cellular component| nucleus | inferred from mutant phenotype |GO:0005634//cellular component| nucleus | inferred from direct assay |GO
x homeostasis | traceable author statement|GO:0030503//biological process| regulation of cell redox homeostasis | inferred from mutant phenotype |GO:0
|GO:0005737//biological process| carbohydrate metabolism | inferred from mutant phenotype|GO:0005975
| traceable author statement|GO:0000256
0329//cellular component| hydrogen-transporting ATPase V1 domain | traceable author statement |GO:0000221//biological process| vacuolar acidification
ity response | traceable author statement|GO:0042538//biological process| methionine biosynthesis | traceable author statement |GO:0009086//biological
| non-traceable author statement |GO:0004079//molecular function| biotin-[methylcrotonoyl-CoA-carboxylase] ligase activity | non-traceable author stateme
a membrane | inferred from direct assay |GO:0005886//biological process| aromatic amino acid transport | inferred from direct assay|GO:0015801
onent| transcription factor TFIIH complex | traceable author statement|GO:0005675//cellular component| nucleotide excision repair factor 3 complex | trace
ble author statement|GO:0007096//biological process| protein amino acid phosphorylation | inferred from direct assay |GO:0006468
onent| RNA polymerase I upstream activating factor complex | traceable author statement|GO:0000500//biological process| transcription from Pol I promo
rane | inferred from mutant phenotype |GO:0005886//biological process| sulfate transport | inferred from mutant phenotype|GO:0008272
mponent| cAMP-dependent protein kinase complex | traceable author statement|GO:0005952//cellular component| cytoplasm | traceable author statement
634//biological process| aerobic respiration | inferred from physical interaction|GO:0009060//biological process| nuclear mRNA splicing, via spliceosome | i
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
lasm | inferred from direct assay |GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| re-entry into mit
8152//biological process| metabolism | inferred from genetic interaction |GO:0008152
author statement |GO:0005739//biological process| lysine biosynthesis, aminoadipic pathway | non-traceable author statement|GO:0019878
ant phenotype |GO:0003704//cellular component| nucleus | inferred from sequence similarity|GO:0005634//cellular component| nucleus | inferred from mut
metabolism | inferred from genetic interaction|GO:0006139
|GO:0005737//biological process| carbohydrate metabolism | inferred from mutant phenotype|GO:0005975
|GO:0016538//cellular component| cyclin-dependent protein kinase holoenzyme complex | traceable author statement|GO:0000307//biological process| reg
nferred from direct assay|GO:0030488
embrane | inferred from direct assay|GO:0019897//biological process| sensory perception of chemical stimulus | inferred from mutant phenotype|GO:0007
c region | inferred from mutant phenotype |GO:0000781//biological process| DNA recombination | traceable author statement|GO:0006310//biological proce
osome | inferred from direct assay|GO:0005768//cellular component| cytoplasm | traceable author statement |GO:0005737//biological process| signal trans
etabolism | inferred from mutant phenotype |GO:0006077
d from direct assay|GO:0006816
assay |GO:0005634//biological process| protein localization | inferred from mutant phenotype|GO:0008104//biological process| protein localization | inferred
| inferred from direct assay |GO:0005783//biological process| conjugation with cellular fusion | inferred from expression pattern|GO:0000747
process| manganese ion homeostasis | inferred from mutant phenotype |GO:0030026//biological process| manganese ion homeostasis | inferred from gene
t | inferred from genetic interaction |GO:0015846
statement|GO:0006113//biological process| ethanol metabolism | traceable author statement |GO:0006067
synthesis | inferred from mutant phenotype |GO:0006038
er activity | traceable author statement |GO:0004871//cellular component| intracellular | traceable author statement|GO:0005622//biological process| smal
ear ribonucleoprotein complex | inferred from direct assay|GO:0030532//cellular component| commitment complex | inferred from physical interaction |GO
nfolded protein | inferred from mutant phenotype |GO:0006986
ct assay|GO:0005634//biological process| response to pH | inferred from direct assay|GO:0009268//biological process| regulation of transcription from Pol
ellular component| proteasome core complex (sensu Eukarya) | traceable author statement |GO:0005839//biological process| sporulation (sensu Fungi) | t
45129//molecular function| NAD-dependent histone deacetylase activity | inferred from physical interaction |GO:0017136//molecular function| NAD-depend
erred from sequence similarity|GO:0030121//cellular component| AP-1 adaptor complex | inferred from physical interaction |GO:0030121//biological proces
endent cotranslational membrane targeting, translocation | traceable author statement|GO:0006616
de assimilation | inferred from direct assay|GO:0019649
e base biosynthesis | traceable author statement|GO:0006207//biological process| 'de novo' IMP biosynthesis | traceable author statement |GO:0006189//
GO:0000307//biological process| cell cycle | traceable author statement|GO:0007049
r statement|GO:0005623//biological process| histidine biosynthesis | traceable author statement|GO:0000105
ogenesis | traceable author statement|GO:0006999//biological process| protein-nucleus export | traceable author statement |GO:0006611//biological proce
membrane fraction | inferred from sequence similarity|GO:0005624//biological process| cell wall organization and biogenesis | inferred from mutant phenoty
nent| nucleus | inferred from direct assay |GO:0005634//biological process| bud site selection | inferred from mutant phenotype|GO:0000282
ss| homotypic vacuole fusion, non-autophagic | inferred from direct assay |GO:0042145//biological process| vesicle docking during exocytosis | inferred fro
lgi to endosome transport | inferred from genetic interaction |GO:0006895
:0005654//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| ribosome assembly | traceable author statement|GO:
phorylation | inferred from direct assay|GO:0016311//biological process| cell wall organization and biogenesis | inferred from genetic interaction |GO:00070
endent cotranslational membrane targeting, translocation | traceable author statement|GO:0006616
ence similarity|GO:0006810
red from direct assay|GO:0005829//cellular component| nucleus | traceable author statement |GO:0005634//biological process| positive regulation of trans
n|GO:0016070
ng | traceable author statement|GO:0006613
ferred from direct assay |GO:0005737//biological process| steroid metabolism | inferred from mutant phenotype|GO:0008202
to osmotic stress | inferred from mutant phenotype|GO:0006970//biological process| cell wall chitin biosynthesis | traceable author statement |GO:000603
//molecular function| general transcriptional repressor activity | inferred from direct assay |GO:0016565//molecular function| transcription coactivator activit
cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| chromosom
e | inferred from genetic interaction|GO:0007242
ay |GO:0005887//biological process| signal transduction | inferred from genetic interaction|GO:0007165//biological process| cell wall organization and biog
metabolism | inferred from sequence similarity|GO:0006769//biological process| chromatin silencing at ribosomal DNA | inferred from mutant phenotype |G
ical process| protein biosynthesis | traceable author statement|GO:0006412
se to xenobiotic stimulus | inferred from mutant phenotype|GO:0009410
on | inferred from direct assay|GO:0006113
direct assay |GO:0005737//biological process| ER to Golgi transport | traceable author statement|GO:0006888//biological process| vacuole inheritance | inf
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ical process| protein biosynthesis | traceable author statement|GO:0006412
GO:0030447//biological process| unidimensional cell growth | inferred from mutant phenotype |GO:0009826//biological process| regulation of transcription
) | inferred from genetic interaction|GO:0000283
quence similarity|GO:0006457//biological process| protein folding | inferred from mutant phenotype |GO:0006457
say |GO:0005634
cessing | traceable author statement|GO:0006364//biological process| ribosomal large subunit assembly and maintenance | traceable author statement |G
eable author statement|GO:0006413
ical process| protein biosynthesis | traceable author statement|GO:0006412
ical process| translational elongation | inferred from sequence similarity|GO:0006414//biological process| protein biosynthesis | traceable author statemen
indle pole body | inferred from direct assay|GO:0005816//biological process| mitotic spindle assembly (sensu Fungi) | inferred from genetic interaction|GO
component| Golgi apparatus | inferred from direct assay|GO:0005794//biological process| protein amino acid glycosylation | inferred from mutant phenoty
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
o tip | inferred from direct assay|GO:0005937//cellular component| prospore membrane | traceable author statement |GO:0005628//cellular component| sp
|GO:0000906//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00056
04316//molecular function| 3-oxoacyl-[acyl-carrier protein] synthase activity | inferred from sequence similarity |GO:0004315//cellular component| fatty-acid
rocess| N-linked glycosylation | inferred from mutant phenotype|GO:0006487
assembly machinery complex | inferred from mutant phenotype |GO:0001401//cellular component| mitochondrial sorting and assembly machinery complex
hway | traceable author statement|GO:0007231//biological process| protein amino acid dephosphorylation | traceable author statement |GO:0006470//biol
author statement|GO:0006388
ect assay |GO:0005634//biological process| folic acid and derivative biosynthesis | inferred from mutant phenotype|GO:0009396
tion from Pol II promoter by pheromones | inferred from mutant phenotype|GO:0007329//biological process| pseudohyphal growth | inferred from mutant p
ant phenotype |GO:0003704//molecular function| DNA binding | inferred from direct assay |GO:0003677//cellular component| nucleus | inferred from direct
O:0003709//molecular function| RNA polymerase I transcription factor activity | traceable author statement |GO:0003701//molecular function| DNA binding |
n factor activity | inferred from physical interaction |GO:0003700//molecular function| transcription factor activity | inferred from mutant phenotype |GO:0003
henotype|GO:0006605//biological process| loss of chromatin silencing during replicative cell aging | inferred from mutant phenotype |GO:0001308//biologic
clustering | traceable author statement|GO:0045141//biological process| telomere clustering | inferred from direct assay |GO:0045141//biological process| s
mponent| nucleosome remodeling complex | traceable author statement |GO:0005679//cellular component| nucleus | inferred from direct assay |GO:00056
m physical interaction |GO:0003677//cellular component| nucleus | inferred from physical interaction|GO:0005634//biological process| response to drug | tr
olecular function| protein tyrosine phosphatase activity | inferred from sequence similarity |GO:0004725//cellular component| cytoplasm | inferred from dire
e | inferred from mutant phenotype |GO:0005774//biological process| polyamine transport | inferred from mutant phenotype|GO:0015846
ferred from mutant phenotype|GO:0006979//biological process| NADPH biosynthesis | inferred from direct assay |GO:0006741
membrane | inferred from sequence similarity|GO:0005886//cellular component| plasma membrane | inferred from mutant phenotype |GO:0005886//biolog
iration | inferred from genetic interaction|GO:0009061//biological process| aerobic respiration | inferred from mutant phenotype |GO:0009060//biological pr
05946//cellular component| alpha,alpha-trehalose-phosphate synthase complex (UDP-forming) | inferred from mutant phenotype |GO:0005946//cellular co
erred from direct assay |GO:0005634//biological process| phosphate metabolism | traceable author statement|GO:0006796
biosynthesis | traceable author statement|GO:0006592//biological process| arginine biosynthesis | traceable author statement |GO:0006526
ant phenotype|GO:0006950//biological process| protein folding | inferred from mutant phenotype |GO:0006457
from direct assay|GO:0006417
ponent| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| pan
erred from mutant phenotype|GO:0000266//biological process| mitochondrial fission | inferred from genetic interaction |GO:0000266
on and biogenesis | inferred from mutant phenotype|GO:0007047//biological process| cell wall organization and biogenesis | inferred from direct assay |GO
ment|GO:0000788//cellular component| nuclear nucleosome | inferred from direct assay |GO:0000788//biological process| chromatin assembly/disassembl
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ant phenotype|GO:0006281//biological process| carbohydrate metabolism | inferred from mutant phenotype |GO:0005975
omponent| integral to peroxisomal membrane | inferred from direct assay|GO:0005779//cellular component| cytoplasm | inferred from direct assay |GO:000
larity|GO:0009269
gical process| regulation of cell cycle | inferred from genetic interaction |GO:0000074
ct assay |GO:0005634//biological process| pyrimidine deoxyribonucleoside triphosphate catabolism | inferred from mutant phenotype|GO:0009213
nthesis | inferred from mutant phenotype|GO:0016126
su Fungi) | inferred from physical interaction |GO:0000324//biological process| vacuole fusion, non-autophagic | inferred from direct assay|GO:0042144//bi
plasm | inferred from direct assay |GO:0005737//biological process| RAS protein signal transduction | traceable author statement|GO:0007265//biological p
ar iron ion storage | inferred from mutant phenotype|GO:0006880
nferred from direct assay|GO:0015856//biological process| purine transport | inferred from direct assay |GO:0006863
ative regulation of transcription from Pol II promoter | inferred from physical interaction|GO:0000122//biological process| negative regulation of transcription
lism | traceable author statement|GO:0006103//biological process| tricarboxylic acid cycle | traceable author statement |GO:0006099
atement |GO:0005832//cellular component| cytoplasm | traceable author statement |GO:0005737//biological process| cytoskeleton organization and bioge
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
component| cytosol | traceable author statement|GO:0005829//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological process
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
mutant phenotype|GO:0006506//biological process| GPI anchor biosynthesis | inferred from genetic interaction |GO:0006506//biological process| GPI anc
oplasm | inferred from direct assay|GO:0005737//biological process| alanyl-tRNA aminoacylation | inferred from mutant phenotype|GO:0006419//biologica
hanism | inferred from mutant phenotype |GO:0046933//cellular component| proton-transporting ATP synthase, catalytic core (sensu Eukarya) | inferred fro
ivity | inferred from physical interaction |GO:0004175//molecular function| endopeptidase activity | inferred from genetic interaction |GO:0004175//cellular c
tion | traceable author statement|GO:0006436
ganization and biogenesis | traceable author statement|GO:0007005
GO:0004458//cellular component| mitochondrial inner membrane | inferred from direct assay|GO:0005743//biological process| aerobic respiration | inferre
d biogenesis | inferred from mutant phenotype|GO:0007047//biological process| microtubule stabilization | inferred from mutant phenotype |GO:0007026
traceable author statement|GO:0006414
y|GO:0005634//cellular component| kinetochore | traceable author statement |GO:0000776//biological process| methionine biosynthesis | inferred from mu
s| rRNA processing | inferred from mutant phenotype |GO:0006364
cosylation | inferred from direct assay|GO:0006493//biological process| N-glycan processing | inferred from mutant phenotype |GO:0006491
hondrion | traceable author statement |GO:0005739//biological process| phosphatidylserine metabolism | traceable author statement|GO:0006658//biologic
utant phenotype |GO:0000347//biological process| mRNA-nucleus export | inferred from mutant phenotype|GO:0006406//biological process| mRNA-nucleu
ssay |GO:0005622//biological process| asparagine catabolism | inferred from mutant phenotype|GO:0006530//biological process| asparagine catabolism |
mutant phenotype |GO:0006629
ar component| cytoplasm | inferred from direct assay |GO:0005737//biological process| ribosome biogenesis and assembly | inferred from direct assay|GO
t | inferred from genetic interaction |GO:0015846
gical process| phosphatidylinositol biosynthesis | traceable author statement|GO:0006661
sport | inferred from mutant phenotype |GO:0006888
su Saccharomyces) | inferred from direct assay|GO:0000134//biological process| endocytosis | inferred from mutant phenotype|GO:0006897
ble author statement|GO:0005829//biological process| pyrimidine base biosynthesis | traceable author statement|GO:0019856//biological process| phosph
ant phenotype |GO:0003704//cellular component| nucleus | inferred from physical interaction|GO:0005634//biological process| positive regulation of transc
mbrane movement of ions, phosphorylative mechanism | inferred from genetic interaction |GO:0015662//cellular component| plasma membrane | inferred fr
m | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| histone dephosphory
synthesis | traceable author statement|GO:0006164//biological process| purine base metabolism | traceable author statement |GO:0006144//biological pro
me | traceable author statement |GO:0005768//biological process| iron-siderochrome transport | inferred from mutant phenotype|GO:0015892
II promoter | inferred from direct assay|GO:0045944//biological process| sulfite transport | traceable author statement |GO:0000316
on |GO:0008308//molecular function| voltage-dependent ion-selective channel activity | inferred from direct assay |GO:0008308//cellular component| mitoc
assay|GO:0005773//cellular component| cytoplasm | inferred from direct assay |GO:0005737//cellular component| peripheral to membrane of membrane f
mutant phenotype|GO:0006506//biological process| GPI anchor biosynthesis | inferred from direct assay |GO:0006506
nt protein catabolism | inferred from mutant phenotype |GO:0006511//biological process| ubiquitin-dependent protein catabolism | inferred from direct assa
ytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634
om sequence similarity|GO:0006350
l process| transcription from Pol I promoter | traceable author statement|GO:0006360
us | inferred from direct assay |GO:0005634//biological process| diadenosine polyphosphate metabolism | inferred from direct assay|GO:0015959
nt phenotype |GO:0006623
nding | inferred from direct assay |GO:0003677//cellular component| nucleus | inferred from physical interaction|GO:0005634//biological process| entry into
able author statement|GO:0016579
r statement |GO:0005737//biological process| asparagine biosynthesis from oxaloacetate | traceable author statement|GO:0019266//biological process| ni
iosynthesis | inferred from mutant phenotype|GO:0006412
d from curator|GO:0006163
ct assay|GO:0042273//biological process| processing of 20S pre-rRNA | inferred from mutant phenotype |GO:0030490
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
nent| endoplasmic reticulum lumen | traceable author statement|GO:0005788//biological process| protein folding | inferred from mutant phenotype|GO:0006
4579//cellular component| endoplasmic reticulum membrane | inferred from mutant phenotype|GO:0005789//biological process| N-linked glycosylation | tra
membrane | inferred from sequence similarity|GO:0016021//biological process| drug transport | inferred from sequence similarity|GO:0015893//biological p
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
pe |GO:0004316//cellular component| mitochondrion | inferred from sequence similarity|GO:0005739//cellular component| mitochondrion | inferred from m
tion recognition complex | traceable author statement|GO:0005664//biological process| chromatin silencing at silent mating-type cassette (sensu Fungi) | t
1//cellular component| transcription elongation factor complex | inferred from physical interaction|GO:0008023//cellular component| alpha DNA polymerase
GO:0005685//cellular component| snRNP U1 | inferred from direct assay |GO:0005685//cellular component| commitment complex | traceable author statem
ulation of transcription from Pol II promoter | inferred from direct assay|GO:0045944
transcription elongation factor complex | inferred from physical interaction |GO:0008023//biological process| RNA elongation from Pol II promoter | inferre
ponent| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from physical interaction |GO:0005634//cellular compon
mutant phenotype |GO:0006412
| histone acetylation | inferred from physical interaction|GO:0016573//biological process| histone acetylation | inferred from direct assay |GO:0016573//bio
m | inferred from direct assay |GO:0005783//biological process| vesicle organization and biogenesis | inferred from mutant phenotype|GO:0016050//biolog
g | traceable author statement|GO:0008033
ct assay|GO:0005937//cellular component| bud neck | inferred from direct assay |GO:0005935//cellular component| bud tip | inferred from direct assay |GO
gical process| protein biosynthesis | traceable author statement|GO:0006412
binding | traceable author statement |GO:0003676//cellular component| mitochondrion | inferred from direct assay|GO:0005739//cellular component| cyto
anization and biogenesis | inferred from direct assay|GO:0030036
ct assay |GO:0005794//cellular component| endoplasmic reticulum | inferred from direct assay |GO:0005783//biological process| vesicle organization and b
| inferred from mutant phenotype |GO:0030127//cellular component| COPII vesicle coat | inferred from genetic interaction |GO:0030127//cellular compone
l subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | traceable author statement|GO:0006412
hesis-dependent strand annealing | traceable author statement|GO:0045003//biological process| double-strand break repair via single-strand annealing | in
omponent| DNA-directed RNA polymerase III complex | traceable author statement |GO:0005666//cellular component| DNA-directed RNA polymerase II, c
rocess| pseudohyphal growth | inferred from mutant phenotype |GO:0007124
inferred from direct assay |GO:0003723//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nuclear pore | infer
ogenesis | traceable author statement|GO:0006999//biological process| protein-nucleus export | traceable author statement |GO:0006611//biological proce
metabolism | inferred from direct assay|GO:0009092//biological process| threonine metabolism | traceable author statement |GO:0006566//biological proc
nt |GO:0005798//biological process| intra-Golgi transport | traceable author statement|GO:0006891//biological process| ER to Golgi transport | traceable au
r function| amino-acid N-acetyltransferase activity | inferred from direct assay |GO:0004042//cellular component| mitochondrial matrix | non-traceable auth
ogenesis | traceable author statement|GO:0006999//biological process| nuclear membrane organization and biogenesis | inferred from mutant phenotype
nt| ribosome | traceable author statement|GO:0005840//cellular component| cytoplasm | inferred from direct assay |GO:0005737//cellular component| nuc
nferred from mutant phenotype|GO:0007323//biological process| peptide pheromone maturation | inferred from direct assay |GO:0007323
thesis | inferred from direct assay|GO:0019856
helicase activity | inferred from mutant phenotype |GO:0003678//cellular component| nuclear telomeric heterochromatin | inferred from physical interaction|
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
process| aerobic respiration | inferred from physical interaction|GO:0009060
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ical process| protein biosynthesis | traceable author statement|GO:0006412
s| succinate transport | inferred from direct assay|GO:0015744//biological process| fumarate transport | inferred from direct assay |GO:0015741
mbrane | inferred from sequence similarity|GO:0016020//biological process| phosphate transport | inferred from genetic interaction|GO:0006817
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ble author statement|GO:0016579
able author statement |GO:0003689//cellular component| pre-replicative complex | traceable author statement|GO:0005656//biological process| pre-replica
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
on repair | traceable author statement|GO:0006301//biological process| mismatch repair | traceable author statement |GO:0006298//biological process| nu
0005634//biological process| chromosome condensation | traceable author statement|GO:0030261//biological process| protein sumoylation | inferred from
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
e similarity|GO:0006350
nent| endoplasmic reticulum membrane | inferred from direct assay |GO:0005789//cellular component| translocon | traceable author statement |GO:000578
gical process| protein biosynthesis | traceable author statement|GO:0006412
mponent| soluble fraction | inferred from direct assay|GO:0005625//biological process| nitrogen metabolism | inferred from mutant phenotype|GO:0006807
ces) | inferred from genetic interaction|GO:0001403
ical process| protein biosynthesis | traceable author statement|GO:0006412
39//biological process| phospholipid biosynthesis | inferred from mutant phenotype|GO:0008654
thor statement|GO:0006888
ytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| pantothenate
ocess| deadenylation-dependent decapping | inferred from mutant phenotype |GO:0000290
cular function| inorganic phosphate transporter activity | inferred from mutant phenotype |GO:0005315//molecular function| inorganic phosphate transporte
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
to membrane | inferred from sequence similarity |GO:0016021//cellular component| endosome | traceable author statement |GO:0005768//biological proc
gical process| protein biosynthesis | traceable author statement|GO:0006412
membrane | inferred from direct assay|GO:0010008//cellular component| plasma membrane | inferred from direct assay |GO:0005886//cellular component|
gical process| regulation of translational fidelity | inferred from mutant phenotype|GO:0006450//biological process| protein biosynthesis | traceable author s
atement|GO:0007120//biological process| bud growth | inferred from mutant phenotype |GO:0007117//biological process| bud growth | inferred from geneti
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ll biosynthesis (sensu Fungi) | inferred from direct assay|GO:0009272
| inferred from genetic interaction |GO:0030003//biological process| G1/S transition of mitotic cell cycle | inferred from genetic interaction |GO:0000082
nferred from direct assay|GO:0005886//biological process| sensory perception of chemical stimulus | inferred from mutant phenotype|GO:0007606//biologi
cess| protein metabolism | inferred from mutant phenotype|GO:0019538
physical interaction|GO:0000054//biological process| ribosome-nucleus export | inferred from mutant phenotype |GO:0000054
ion |GO:0004515//cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| NAD metabolism | traceable author statement
from mutant phenotype|GO:0019236
lar function| calcium-transporting ATPase activity | inferred from mutant phenotype |GO:0005388//molecular function| calcium-transporting ATPase activity
onent| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| hom
hor statement|GO:0006096//biological process| gluconeogenesis | traceable author statement |GO:0006094
gical process| protein biosynthesis | traceable author statement|GO:0006412
rom mutant phenotype|GO:0007047//biological process| protein targeting | inferred from mutant phenotype |GO:0006605//biological process| loss of chrom
hor statement|GO:0006183
ogenesis | inferred from mutant phenotype|GO:0007047
bolism | inferred from mutant phenotype|GO:0009437//biological process| alcohol metabolism | inferred from genetic interaction |GO:0006066
erred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| purine base metabolism | i
05634//biological process| sporulation (sensu Fungi) | inferred from genetic interaction|GO:0030437//biological process| RAS protein signal transduction |
nent| inner plaque of spindle pole body | inferred from direct assay |GO:0005822//cellular component| gamma-tubulin complex (sensu Saccharomyces) | in
mponent| nucleus | inferred from direct assay|GO:0005634//cellular component| soluble fraction | inferred from direct assay |GO:0005625//biological proces
ar component| small nucleolar ribonucleoprotein complex | inferred from physical interaction |GO:0005732//cellular component| nucleolus | inferred from d
ud tip | inferred from direct assay|GO:0005934//cellular component| plasma membrane | inferred from direct assay |GO:0005886//cellular component| vac
03702//cellular component| nucleus | inferred from curator|GO:0005634//biological process| negative regulation of transcription from Pol II promoter | inferr
gulation of transcription from Pol II promoter | inferred from mutant phenotype|GO:0045944//biological process| aerobic respiration | inferred from mutant p
ay |GO:0005634//biological process| mRNA catabolism, nonsense-mediated | inferred from physical interaction|GO:0000184
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
aceable author statement|GO:0006333
16944//cellular component| transcription elongation factor complex | inferred from direct assay|GO:0008023//biological process| regulation of transcription
mponent| endoplasmic reticulum membrane | inferred from mutant phenotype |GO:0005789//biological process| oligosaccharide-lipid intermediate assemb
| cytokinesis | inferred from mutant phenotype|GO:0000910
from mutant phenotype|GO:0006696
carbon utilization | inferred from physical interaction|GO:0015976//biological process| cell growth and/or maintenance | inferred from physical interaction |G
rred from mutant phenotype|GO:0019344
charide-lipid intermediate assembly | traceable author statement|GO:0006490
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
notype |GO:0008425//cellular component| mitochondrion | traceable author statement|GO:0005739//biological process| aerobic respiration | inferred from m
u Fungi) | inferred from mutant phenotype|GO:0009272//biological process| cell wall biosynthesis (sensu Fungi) | inferred from genetic interaction |GO:000
s| lagging strand elongation | traceable author statement|GO:0006273//biological process| DNA replication initiation | traceable author statement |GO:0006
doplasmic reticulum | traceable author statement|GO:0005783//biological process| ER-associated protein catabolism | inferred from direct assay|GO:00304
mbrane | inferred from direct assay |GO:0005635//biological process| spindle pole body duplication (sensu Saccharomyces) | traceable author statement|G
O:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| cell cycle arrest | traceable author statement|GO:00
ex assembly | inferred from physical interaction|GO:0006461//biological process| protein complex assembly | inferred from mutant phenotype |GO:000646
port | inferred from direct assay|GO:0006865
d from direct assay|GO:0005737//biological process| aromatic amino acid family biosynthesis | traceable author statement|GO:0009073
polymerase II transcription factor activity | traceable author statement |GO:0003702//molecular function| DNA binding | traceable author statement |GO:000
gral to plasma membrane | inferred from sequence similarity|GO:0005887//biological process| arsenite transport | inferred from genetic interaction|GO:001
ferred from genetic interaction |GO:0006694
sis | traceable author statement|GO:0007031
egral to plasma membrane | inferred from direct assay |GO:0005887//biological process| GPI anchor biosynthesis | inferred from mutant phenotype|GO:00
om mutant phenotype|GO:0005770//biological process| endocytosis | inferred from mutant phenotype|GO:0006897//biological process| protein-vacuolar ta
inferred from direct assay|GO:0051014//biological process| actin filament depolymerization | inferred from direct assay |GO:0030042//biological process| a
ation with cellular fusion | traceable author statement|GO:0000749
| inferred from mutant phenotype|GO:0030437//biological process| meiosis | inferred from mutant phenotype |GO:0007126
yces) | inferred from mutant phenotype|GO:0000065
ent telomere maintenance | inferred from mutant phenotype|GO:0007004
utant phenotype |GO:0006897
596//cellular component| intracellular | inferred from direct assay|GO:0005622//biological process| N-terminal peptidyl-methionine acetylation | inferred from
rred from direct assay |GO:0000329//biological process| sporulation (sensu Fungi) | inferred from mutant phenotype|GO:0030437//biological process| spo
ect assay |GO:0000131//biological process| actin filament organization | traceable author statement|GO:0007015
aceable author statement|GO:0006261//biological process| dTMP biosynthesis | traceable author statement |GO:0006231
from direct assay|GO:0006464
oplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
pe |GO:0016532//molecular function| superoxide dismutase copper chaperone activity | inferred from genetic interaction |GO:0016532//cellular componen
process| dolichol-linked oligosaccharide biosynthesis | traceable author statement|GO:0006488//biological process| protein amino acid glycosylation | infe
GO:0005768//cellular component| ESCRT I complex | traceable author statement |GO:0000813//biological process| protein-vacuolar targeting | inferred fro
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ssay |GO:0005634//biological process| regulation of cell cycle | traceable author statement|GO:0000074
nscription from Pol II promoter | inferred from direct assay|GO:0045944
from mutant phenotype|GO:0006644//biological process| phospholipid metabolism | inferred from genetic interaction |GO:0006644//biological process| va
GO:0016021//biological process| transport | inferred from sequence similarity|GO:0006810
cellular component| proteasome core complex (sensu Eukarya) | traceable author statement |GO:0005839//biological process| sporulation (sensu Fungi) |
cellular protein transport | inferred from genetic interaction|GO:0006886
rom sequence similarity|GO:0005634//biological process| meiotic recombination | inferred from genetic interaction|GO:0007131//biological process| DNA r
|GO:0004350//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005
nferred from genetic interaction|GO:0006406
ingolipid biosynthesis | traceable author statement|GO:0030148
irect assay |GO:0005634//biological process| DNA repair | inferred from mutant phenotype|GO:0006281
on |GO:0008308//cellular component| mitochondrial outer membrane | inferred from direct assay|GO:0005741//cellular component| mitochondrion | inferre
ction|GO:0006378//biological process| mRNA polyadenylation | inferred from mutant phenotype |GO:0006378//biological process| mRNA polyadenylation |
able author statement |GO:0005871//biological process| mitotic spindle assembly (sensu Fungi) | traceable author statement|GO:0030472//biological proce
ar function| aldehyde reductase activity | inferred from direct assay |GO:0004032//cellular component| cytosol | inferred from direct assay|GO:0005829//bio
erred from expression pattern|GO:0007067
from mutant phenotype |GO:0009013//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| response to oxidative s
process| ubiquitin-dependent protein catabolism | traceable author statement|GO:0006511
| nucleolus | inferred from direct assay |GO:0005730//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| processin
salvage | inferred from direct assay|GO:0019358//biological process| chromatin silencing at telomere | inferred from mutant phenotype |GO:0006348//biol
ellular component| proteasome core complex (sensu Eukarya) | traceable author statement |GO:0005839//biological process| sporulation (sensu Fungi) | t
cellular component| plasma membrane | inferred from sequence similarity|GO:0005886//cellular component| plasma membrane | inferred from mutant phe
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
spindle microtubule | traceable author statement|GO:0005876//cellular component| kinesin complex | traceable author statement |GO:0005871//cellular com
from mutant phenotype |GO:0005634//biological process| tRNA modification | inferred from direct assay|GO:0006400
ment|GO:0006096//biological process| pyruvate metabolism | traceable author statement |GO:0006090
GO:0016021//cellular component| endoplasmic reticulum | inferred from direct assay |GO:0005783//cellular component| cytoplasm | inferred from direct ass
component| ribosome | traceable author statement |GO:0005840//biological process| translational initiation | traceable author statement|GO:0006413
008177//cellular component| respiratory chain complex II (sensu Eukarya) | traceable author statement|GO:0005749//biological process| mitochondrial ele
or statement|GO:0007124//biological process| cell cycle arrest | traceable author statement |GO:0007050//biological process| protein amino acid phosphor
ponent| nucleus | inferred from direct assay |GO:0005634//biological process| purine nucleotide biosynthesis | traceable author statement|GO:0006164//bio
eacetylase activity | inferred from direct assay |GO:0004407//cellular component| histone deacetylase complex | inferred from direct assay|GO:0000118//bi
inone metabolism | inferred from mutant phenotype|GO:0006743
:0000780//cellular component| condensed nuclear chromosome, pericentric region | inferred from genetic interaction |GO:0000780//cellular component| co
s | inferred from direct assay |GO:0005634//biological process| adenine biosynthesis | traceable author statement|GO:0046084//biological process| purine
omatin remodeling | inferred from direct assay |GO:0006338
ent| mitochondrion | inferred from direct assay |GO:0005739//biological process| response to oxidative stress | inferred from mutant phenotype|GO:000697
ceable author statement|GO:0005622//biological process| small GTPase mediated signal transduction | inferred from sequence similarity|GO:0007264//bio
sical interaction|GO:0005634//biological process| amino acid biosynthesis | traceable author statement|GO:0008652//biological process| regulation of tran
O:0005933//cellular component| site of polarized growth (sensu Saccharomyces) | inferred from direct assay |GO:0000134//biological process| Rho protein
/biological process| processing of 20S pre-rRNA | inferred from physical interaction|GO:0030490//biological process| 35S primary transcript processing | tr
n serine/threonine kinase activity | inferred from mutant phenotype |GO:0004674//molecular function| protein serine/threonine kinase activity | inferred from
t protein catabolism | inferred from sequence similarity|GO:0006511
ence similarity|GO:0006810
sensu Saccharomyces) | inferred from direct assay |GO:0000142//biological process| actin polymerization and/or depolymerization | traceable author state
ed from mutant phenotype|GO:0042273//biological process| processing of 27S pre-rRNA | inferred from mutant phenotype |GO:0030489
mbrane | inferred from sequence similarity|GO:0016020//biological process| phosphate transport | inferred from genetic interaction|GO:0006817
om physical interaction|GO:0006270//biological process| DNA replication initiation | inferred from mutant phenotype |GO:0006270//biological process| DNA
egative regulation of transcription from Pol III promoter | inferred from mutant phenotype |GO:0016480
rred from sequence similarity|GO:0006790
sport | inferred from genetic interaction |GO:0006891
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
nteraction|GO:0008250//biological process| N-linked glycosylation | inferred from physical interaction|GO:0006487
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
iological process| transcription initiation from Pol II promoter | traceable author statement|GO:0006367
nt organization | inferred from mutant phenotype|GO:0007015
l subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | traceable author statement|GO:0006412//bi
ical process| protein biosynthesis | traceable author statement|GO:0006412
ion and biogenesis | inferred from mutant phenotype|GO:0030036//biological process| vacuole organization and biogenesis | inferred from mutant phenoty
| inferred from direct assay |GO:0005634//biological process| tryptophan biosynthesis | traceable author statement|GO:0000162//biological process| trypto
nucleus | inferred from direct assay|GO:0005634//biological process| sporulation (sensu Fungi) | inferred from mutant phenotype|GO:0030437//biological
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ogical process| mitochondrial processing | inferred from mutant phenotype|GO:0006627
from genetic interaction|GO:0006467
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
on | inferred from mutant phenotype|GO:0009303//biological process| regulation of transcription from Pol II promoter | inferred from mutant phenotype |GO:
0329//cellular component| hydrogen-transporting ATPase V1 domain | traceable author statement |GO:0000221//biological process| vacuolar acidification
brane transport | inferred from mutant phenotype |GO:0006893//biological process| cell wall chitin catabolism | inferred from mutant phenotype |GO:000603
y |GO:0005643//biological process| response to drug | traceable author statement|GO:0042493//biological process| protein-nucleus import | inferred from
ar component| nucleolus | inferred from direct assay |GO:0005730//biological process| 35S primary transcript processing | inferred from mutant phenotype|
smic reticulum | inferred from direct assay |GO:0005783//biological process| protein amino acid glycosylation | inferred from genetic interaction|GO:000648
GO:0005634//biological process| transcription | inferred from physical interaction|GO:0006350//biological process| transcription | inferred from genetic intera
ganization and biogenesis | inferred from mutant phenotype|GO:0007047
raceable author statement|GO:0005634//biological process| spindle pole body duplication (sensu Saccharomyces) | traceable author statement|GO:00071
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ed from direct assay|GO:0006429
tical patch (sensu Fungi) | inferred from direct assay |GO:0030479//cellular component| actin filament | traceable author statement |GO:0005884//cellular
l subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | traceable author statement|GO:0006412
from direct assay |GO:0005634//biological process| glutamate biosynthesis | inferred from genetic interaction|GO:0006537
port | inferred from direct assay|GO:0006865
d biosynthesis | inferred from mutant phenotype|GO:0008610//biological process| lipid biosynthesis | inferred from genetic interaction |GO:0008610//biolog
gical process| protein biosynthesis | traceable author statement|GO:0006412
d from direct assay |GO:0005778//cellular component| cytoplasm | inferred from direct assay |GO:0005737
uclear exosome (RNase complex) | inferred from direct assay |GO:0000176//biological process| mRNA catabolism | inferred from physical interaction|GO:0
inferred from direct assay |GO:0005634//biological process| coenzyme A biosynthesis | inferred from sequence similarity|GO:0015937
sical interaction|GO:0042273//biological process| ribosomal large subunit biogenesis | inferred from mutant phenotype |GO:0042273//biological process| m
paratus | traceable author statement|GO:0005794//biological process| protein amino acid glycosylation | traceable author statement|GO:0006486
rotein biosynthesis | inferred from sequence similarity|GO:0006412
red from curator|GO:0005622//biological process| amino acid metabolism | inferred from direct assay|GO:0006520
d from mutant phenotype |GO:0005515//cellular component| endoplasmic reticulum membrane | traceable author statement|GO:0005789//biological proce
ct assay |GO:0005622//biological process| nucleoside transport | inferred from direct assay|GO:0015858
acetylation | inferred from sequence similarity|GO:0006473
regulation of growth | inferred from mutant phenotype|GO:0040008//biological process| actin filament organization | inferred from mutant phenotype |GO:0
space | inferred from direct assay |GO:0005758//biological process| metal ion transport | inferred from sequence similarity|GO:0030001//biological proces
nal protein amino acid acetylation | inferred from direct assay |GO:0006474
arisome | traceable author statement |GO:0000133//biological process| Rho protein signal transduction | inferred from physical interaction|GO:0007266//b
| actin filament organization | inferred from physical interaction|GO:0007015//biological process| response to osmotic stress | inferred from mutant phenoty
esis | inferred from mutant phenotype|GO:0007047
ar component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological proce
nteraction|GO:0008250//biological process| N-linked glycosylation | inferred from physical interaction|GO:0006487
om sequence similarity|GO:0006350
:0000780//cellular component| condensed nuclear chromosome, pericentric region | inferred from genetic interaction |GO:0000780//cellular component| co
ydrogen-transporting ATPase V0 domain | traceable author statement |GO:0000220//biological process| vacuolar acidification | traceable author statemen
ical process| protein biosynthesis | traceable author statement|GO:0006412
enotype|GO:0006413
gical process| regulation of translational fidelity | inferred from sequence similarity|GO:0006450//biological process| regulation of translational fidelity | inferr
cellular component| integral to plasma membrane | traceable author statement |GO:0005887//biological process| axial budding | traceable author statemen
on | inferred from mutant phenotype |GO:0000335
enance | inferred from mutant phenotype |GO:0008151//biological process| signal transduction | inferred from mutant phenotype |GO:0007165//biological p
0329//cellular component| hydrogen-transporting ATPase V1 domain | traceable author statement |GO:0000221//biological process| vacuolar acidification
005621//biological process| bud site selection | inferred from mutant phenotype|GO:0000282//biological process| bud site selection | inferred from genetic i
port | inferred from genetic interaction |GO:0006826
45129//molecular function| NAD-dependent histone deacetylase activity | inferred from physical interaction |GO:0017136//molecular function| NAD-depend
5654//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| tRNA processing | inferred from mutant phenotype|GO:00
teraction |GO:0006364//biological process| chromatin silencing at telomere | inferred from mutant phenotype |GO:0006348
molecular function| transporter activity | inferred from sequence similarity |GO:0005215//cellular component| membrane | inferred from sequence similarity|
nferred from direct assay |GO:0005634//biological process| NAD metabolism | traceable author statement|GO:0019674
CoA carboxylase activity | inferred from sequence similarity |GO:0003989//molecular function| acetyl-CoA carboxylase activity | inferred from mutant phenot
process| translational initiation | inferred from direct assay|GO:0006413
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
rganization | inferred from mutant phenotype|GO:0007015//biological process| endocytosis | inferred from mutant phenotype |GO:0006897//biological proc
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
| spliceosome complex | traceable author statement|GO:0005681//biological process| formation of catalytic U2-type spliceosome for second transesterifica
erred from mutant phenotype|GO:0006897//biological process| fatty acid beta-oxidation | inferred from sequence similarity |GO:0006635
g | traceable author statement|GO:0007120//biological process| bud site selection | traceable author statement |GO:0000282
o plasma membrane | inferred from mutant phenotype |GO:0005887//biological process| response to osmotic stress | inferred from mutant phenotype|GO:0
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
mponent| phenylalanine-tRNA ligase complex | traceable author statement|GO:0009328//cellular component| cytoplasm | inferred from direct assay |GO:0
ochondrial large ribosomal subunit | inferred from physical interaction|GO:0005762//biological process| protein biosynthesis | traceable author statement|G
plex | inferred from direct assay|GO:0005885//biological process| actin filament organization | inferred from mutant phenotype|GO:0007015
molecular function| transporter activity | inferred from sequence similarity |GO:0005215//cellular component| membrane | inferred from sequence similarity|
gical process| protein biosynthesis | traceable author statement|GO:0006412
annel activity | inferred from direct assay |GO:0005267//molecular function| calcium channel activity | inferred from direct assay |GO:0005262//molecular fu
binding | inferred from direct assay |GO:0003779//cellular component| cytoskeleton | inferred from physical interaction|GO:0005856//cellular component| c
om mutant phenotype |GO:0006623
uthor statement|GO:0006696
/cellular component| nucleolus | inferred from direct assay |GO:0005730//cellular component| nucleus | inferred from direct assay |GO:0005634//biological
ur metabolism | inferred from sequence similarity |GO:0006790
ar | traceable author statement|GO:0005622//biological process| small GTPase mediated signal transduction | inferred from physical interaction|GO:00072
yces) | inferred from genetic interaction |GO:0001403
annel activity | inferred from direct assay |GO:0005267//molecular function| calcium channel activity | inferred from direct assay |GO:0005262//molecular fu
t| mitochondrial outer membrane | inferred from mutant phenotype |GO:0005741//cellular component| mitochondrial outer membrane | inferred from direct
| inferred from sequence similarity|GO:0006810
ose transporter activity | inferred from genetic interaction |GO:0005353//cellular component| plasma membrane | inferred from sequence similarity|GO:000
mplex assembly | inferred from direct assay |GO:0006461
olecular function| importin-alpha export receptor activity | inferred from genetic interaction |GO:0008262//cellular component| nuclear membrane | inferred
ferred from physical interaction|GO:0006338
direct assay |GO:0005634//cellular component| spindle pole | inferred from direct assay |GO:0000922//biological process| protein amino acid phosphoryla
ction|GO:0005946//cellular component| alpha,alpha-trehalose-phosphate synthase complex (UDP-forming) | inferred from mutant phenotype |GO:0005946
olar membrane | inferred from direct assay|GO:0005774//biological process| zinc ion homeostasis | inferred from mutant phenotype|GO:0006882//biologic
iological process| negative regulation of transcription from Pol II promoter, mitotic | traceable author statement|GO:0007070//biological process| transcripti
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
eletal protein binding | inferred from mutant phenotype |GO:0008092//cellular component| actin cortical patch (sensu Fungi) | inferred from direct assay|GO
doplasmic reticulum | inferred from direct assay |GO:0005783//biological process| ER-associated protein catabolism | inferred from mutant phenotype|GO:0
ect assay |GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| regulation of exit from mitosis | inferred
ase activity | inferred from direct assay |GO:0004816//cellular component| cytoplasm | traceable author statement|GO:0005737//biological process| aspara
rom direct assay |GO:0005634//biological process| tRNA processing | inferred from mutant phenotype|GO:0008033//biological process| tRNA processing
y|GO:0005937//cellular component| bud | inferred from direct assay |GO:0005933//cellular component| cytoplasm | inferred from direct assay |GO:0005737
nt phenotype|GO:0006281
m | traceable author statement |GO:0005737//biological process| cell proliferation | inferred from mutant phenotype|GO:0008283
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
olism | inferred from genetic interaction |GO:0006629//biological process| N-terminal protein myristoylation | inferred from mutant phenotype |GO:0006499/
atement |GO:0005832//cellular component| cytoplasm | traceable author statement |GO:0005737//biological process| cytoskeleton organization and bioge
l subunit (sensu Eukarya) | traceable author statement|GO:0005842//cellular component| nucleus | inferred from mutant phenotype |GO:0005634//biologic
n serine/threonine kinase activity | inferred from mutant phenotype |GO:0004674//molecular function| protein serine/threonine kinase activity | inferred from
n | inferred from direct assay|GO:0005625//cellular component| membrane fraction | inferred from direct assay |GO:0005624//biological process| secretory
t assay|GO:0005634//cellular component| condensed nuclear chromosome kinetochore | inferred from direct assay |GO:0000778//cellular component| kin
gical process| protein biosynthesis | traceable author statement|GO:0006412
hanism | inferred from physical interaction |GO:0046933//molecular function| hydrogen-transporting ATP synthase activity, rotational mechanism | inferred
t| plasma membrane | traceable author statement|GO:0005886//cellular component| plasma membrane | inferred from sequence similarity |GO:0005886//
endoplasmic reticulum membrane | inferred from direct assay |GO:0005789//biological process| positive regulation of transcription from Pol II promoter | i
vacuole organization and biogenesis | inferred from mutant phenotype|GO:0007033//biological process| response to stress | traceable author statement |G
ome segregation | inferred from mutant phenotype|GO:0007059
e subunit assembly and maintenance | inferred from physical interaction|GO:0000027//biological process| ribosomal large subunit assembly and maintenan
somal membrane | inferred from direct assay |GO:0005778//biological process| peroxisome organization and biogenesis | traceable author statement|GO:
l subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | traceable author statement|GO:0006412
hromatin remodeling | inferred from direct assay |GO:0006338
al process| transcription from Pol III promoter | traceable author statement|GO:0006383
ay |GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| histone deacetylation | inferred from direct ass
ical process| protein biosynthesis | traceable author statement|GO:0006412
statement|GO:0006113
ngation factor activity | inferred from genetic interaction |GO:0003746//cellular component| cytosolic ribosome (sensu Eukarya) | inferred from physical inte
y |GO:0005634//biological process| deoxycytidine catabolism | inferred from direct assay|GO:0006217//biological process| cytidine catabolism | inferred fro
to plasma membrane | inferred from direct assay|GO:0005887//cellular component| endoplasmic reticulum membrane | inferred from direct assay |GO:000
or activity | inferred from genetic interaction |GO:0005484//cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//biological
asm | inferred from direct assay |GO:0005737
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
4//cellular component| mitochondrion | inferred from direct assay |GO:0005739//biological process| mitochondrial matrix protein import | traceable author s
asm | inferred from direct assay|GO:0005737//cellular component| septin ring (sensu Saccharomyces) | traceable author statement |GO:0000144//biologic
s| response to salt stress | inferred from mutant phenotype|GO:0009651//biological process| transcription initiation from Pol II promoter | inferred from mut
anization and biogenesis | inferred from mutant phenotype |GO:0016044
n serine/threonine kinase activity | inferred from mutant phenotype |GO:0004674//molecular function| protein serine/threonine kinase activity | inferred from
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
| transcription from Pol II promoter | inferred from physical interaction|GO:0006366
direct assay |GO:0005634//biological process| response to stress | inferred from expression pattern|GO:0006950//biological process| glucose metabolism
aturation | inferred from mutant phenotype|GO:0007323
annosyltransferase activity | inferred from direct assay |GO:0000030//cellular component| membrane | traceable author statement|GO:0016020//cellular co
l subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | traceable author statement|GO:0006412
ize | inferred from direct assay|GO:0008361//biological process| 'de novo' pyrimidine base biosynthesis | traceable author statement |GO:0006207//biologi
nferred from direct assay|GO:0006457
t phenotype|GO:0006281//biological process| mitochondrial genome maintenance | inferred from mutant phenotype |GO:0000002
inferred from physical interaction|GO:0007096//biological process| regulation of exit from mitosis | inferred from mutant phenotype |GO:0007096//biologica
d from direct assay |GO:0005637//biological process| --- | traceable author statement|GO:0030969//biological process| tRNA splicing | inferred from mutant
ription from Pol II promoter | inferred from direct assay|GO:0006366
ed from mutant phenotype|GO:0042254
ological process| transcription from Pol II promoter | traceable author statement|GO:0006366
traceable author statement|GO:0006414
n, DNA-dependent | inferred from sequence similarity|GO:0006355//biological process| carbohydrate metabolism | inferred from sequence similarity |GO:0
rred from genetic interaction |GO:0030126//biological process| ER to Golgi transport | inferred from mutant phenotype|GO:0006888
-dependent | traceable author statement|GO:0006355//biological process| galactose metabolism | traceable author statement |GO:0006012
ent| nucleosome remodeling complex | traceable author statement |GO:0005679//biological process| chromatin remodeling | traceable author statement|GO
mic reticulum | inferred from direct assay |GO:0005783//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological process| phosp
brane | inferred from direct assay|GO:0005886//cellular component| endoplasmic reticulum | inferred from direct assay |GO:0005783//biological process| re
inferred from direct assay |GO:0000794//biological process| synaptonemal complex formation | inferred from curator|GO:0007130//biological process| mei
ical process| protein biosynthesis | traceable author statement|GO:0006412
gical process| protein biosynthesis | traceable author statement|GO:0006412
raction |GO:0006950
from mutant phenotype|GO:0006672
ssay|GO:0005788//biological process| response to unfolded protein | traceable author statement|GO:0006986//biological process| SRP-dependent cotrans
aceable author statement|GO:0006370
nfolded protein | inferred from mutant phenotype |GO:0006986
ellular component| proteasome core complex (sensu Eukarya) | traceable author statement |GO:0005839//biological process| ubiquitin-dependent protein
| inferred from direct assay|GO:0005634//biological process| hyperosmotic response | inferred from mutant phenotype|GO:0006972//biological process| hy
assay |GO:0005634//biological process| ethanol fermentation | traceable author statement|GO:0019655//biological process| pyruvate metabolism | tracea
(sensu Fungi) | inferred from direct assay|GO:0000329//biological process| iron ion transport | inferred from mutant phenotype|GO:0006826
gical process| aerobic respiration | inferred from mutant phenotype|GO:0009060//biological process| mitochondrial electron transport, ubiquinol to cytochro
on of transcription from Pol II promoter | traceable author statement|GO:0006357//biological process| glucose metabolism | traceable author statement |GO
ctivity | inferred from genetic interaction |GO:0015250//cellular component| plasma membrane | inferred from direct assay|GO:0005886//biological process
red from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| meiosis | inferred from muta
port | inferred from sequence similarity|GO:0006886
Golgi transport | inferred from mutant phenotype|GO:0006888
m mutant phenotype|GO:0006873//biological process| cell ion homeostasis | inferred from genetic interaction |GO:0006873
m direct assay|GO:0040031//biological process| tRNA modification | inferred from direct assay |GO:0006400//biological process| pseudouridine synthesis |
inferred from direct assay|GO:0018318//biological process| endocytosis | inferred from mutant phenotype |GO:0006897//biological process| signal transdu
us | inferred from direct assay|GO:0005634//biological process| pseudohyphal growth | inferred from genetic interaction|GO:0007124//biological process| G
molecular function| signal transducer activity | traceable author statement |GO:0004871//molecular function| transcription corepressor activity | traceable au
0005634//biological process| response to heat | traceable author statement|GO:0009408//biological process| response to dessication | inferred from seque
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
erred from direct assay |GO:0005783//cellular component| nuclear membrane | inferred from direct assay |GO:0005635
aceable author statement|GO:0000105
16944//molecular function| histone acetyltransferase activity | traceable author statement |GO:0004402//cellular component| DNA-directed RNA polymeras
ical process| protein biosynthesis | traceable author statement|GO:0006412//biological process| ribosomal large subunit assembly and maintenance | infe
genetic interaction|GO:0007049//biological process| cell cycle | inferred from expression pattern |GO:0007049//biological process| protein amino acid pho
component| ribosome | traceable author statement |GO:0005840//biological process| translational initiation | traceable author statement|GO:0006413
onent| Golgi membrane | traceable author statement |GO:0000139//biological process| phosphatidylcholine biosynthesis | inferred from direct assay|GO:0
ve stress | inferred from mutant phenotype|GO:0006979
olecular function| zinc ion transporter activity | inferred from genetic interaction |GO:0005385//cellular component| vacuole (sensu Fungi) | inferred from dir
m mutant phenotype |GO:0004702//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| MAPKKK cascade | inferre
enotype|GO:0030490
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ed from direct assay|GO:0005634//biological process| response to carbohydrate stimulus | inferred from mutant phenotype|GO:0009743//biological proces
esis | inferred from mutant phenotype|GO:0006526//biological process| mitochondrial ornithine transport | inferred from direct assay |GO:0000066
inferred from mutant phenotype|GO:0006644
mine/polyamine transporter activity | inferred from mutant phenotype |GO:0005275//cellular component| prospore membrane | inferred from direct assay|GO
llular component| cytoplasm | inferred from direct assay |GO:0005737
hondrial processing | inferred from direct assay|GO:0006627
ion | inferred from direct assay|GO:0005625//biological process| vitamin B2 biosynthesis | inferred from mutant phenotype|GO:0009231
m direct assay |GO:0000228//biological process| double-strand break repair via synthesis-dependent strand annealing | traceable author statement|GO:00
statement|GO:0006906
l subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | traceable author statement|GO:0006412
ocess| transcription termination from Pol II promoter, poly(A)-independent | inferred from physical interaction|GO:0030847//biological process| transcription
tor|GO:0005634//biological process| telomerase-independent telomere maintenance | inferred from genetic interaction|GO:0000722
aceable author statement|GO:0006333
ical process| protein biosynthesis | traceable author statement|GO:0006412
s | inferred from direct assay |GO:0005634//biological process| postreplication repair | traceable author statement|GO:0006301//biological process| mismat
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
assay |GO:0003723//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| regulation of cell size | inferred from mut
phenotype |GO:0004066//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| asparagine biosynthesis | traceable
a spliceosome | inferred from direct assay|GO:0000398
membrane | inferred from direct assay |GO:0005886//biological process| polar budding | inferred from mutant phenotype|GO:0007121//biological process
uence binding | inferred from genetic interaction |GO:0045015//cellular component| integral to endoplasmic reticulum membrane | inferred from direct assa
m direct assay |GO:0005634//biological process| heme biosynthesis | inferred from mutant phenotype|GO:0006783
omponent| nucleolus | inferred from direct assay |GO:0005730//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process|
ay |GO:0005634//biological process| pentose-phosphate shunt | inferred from genetic interaction|GO:0006098
d from direct assay|GO:0016192//biological process| protein transport | inferred from direct assay |GO:0015031//biological process| Golgi to plasma memb
m direct assay |GO:0005737//biological process| plasmid maintenance | inferred from mutant phenotype|GO:0006276//biological process| mitochondrial ge
from mutant phenotype |GO:0042800//molecular function| histone lysine N-methyltransferase activity (H3-K4 specific) | inferred from direct assay |GO:004
synthesis | inferred from mutant phenotype|GO:0009098//biological process| regulation of transcription from Pol II promoter | inferred from direct assay |GO
ogenesis | traceable author statement|GO:0006999//biological process| protein-nucleus export | traceable author statement |GO:0006611//biological proce
ces) | inferred from genetic interaction|GO:0001403
095//cellular component| plasma membrane | inferred from sequence similarity|GO:0005886//cellular component| plasma membrane | inferred from mutant
GO:0000307//biological process| cell cycle | traceable author statement|GO:0007049
c chromosome condensation | inferred from mutant phenotype|GO:0007076//biological process| mitotic sister chromatid cohesion | inferred from mutant ph
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
rial membrane | inferred from direct assay|GO:0005740//biological process| lipid biosynthesis | inferred from mutant phenotype|GO:0008610//biological pro
hor statement|GO:0019547
component| nucleus | inferred from direct assay |GO:0005634//biological process| protein complex assembly | inferred from physical interaction|GO:00064
component| ribosome | traceable author statement |GO:0005840//biological process| translational initiation | traceable author statement|GO:0006413
H complex | inferred from direct assay |GO:0042729//cellular component| spindle | inferred from direct assay |GO:0005819//cellular component| spindle po
nferred from direct assay |GO:0000932//biological process| deadenylation-dependent decapping | inferred from mutant phenotype|GO:0000290//biological
nferred from direct assay|GO:0005624
pha-glucoside:hydrogen symporter activity | traceable author statement |GO:0005352//molecular function| alpha-glucoside:hydrogen symporter activity | in
hor statement|GO:0006096//biological process| gluconeogenesis | traceable author statement |GO:0006094
cellular component| integral to plasma membrane | traceable author statement |GO:0005887//biological process| axial budding | traceable author statemen
e of membrane fraction | inferred from direct assay |GO:0000299//biological process| regulation of transcription | inferred from mutant phenotype|GO:00454
m | traceable author statement |GO:0005783//biological process| ergosterol biosynthesis | traceable author statement|GO:0006696
| inferred from direct assay|GO:0005730//cellular component| proteasome complex (sensu Eukarya) | inferred from physical interaction |GO:0000502//cell
ent| nucleosome remodeling complex | traceable author statement |GO:0005679//biological process| chromatin remodeling | traceable author statement|GO
gical process| protein biosynthesis | traceable author statement|GO:0006412
ed from curator|GO:0005622//biological process| allantoin catabolism | inferred from sequence similarity|GO:0000256//biological process| allantoin catabol
:0005634//biological process| nucleobase, nucleoside, nucleotide and nucleic acid metabolism | inferred from direct assay|GO:0006139
lex | inferred from direct assay |GO:0000119//biological process| transcription from Pol II promoter | inferred from direct assay|GO:0006366
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
rocess| nuclear mRNA splicing, via spliceosome | inferred from physical interaction|GO:0000398
ogenesis | traceable author statement|GO:0006999//biological process| protein-nucleus export | traceable author statement |GO:0006611//biological proce
al process| mitochondrial inner membrane protein import | inferred from physical interaction|GO:0045039//biological process| mitochondrial inner membran
gical process| protein biosynthesis | traceable author statement|GO:0006412
assay |GO:0000228//biological process| homologous chromosome segregation | inferred from physical interaction|GO:0045143//biological process| homo
cytoplasm | inferred from direct assay |GO:0005737
porter activity | inferred from direct assay |GO:0005355//molecular function| fructose transporter activity | traceable author statement |GO:0005353//cellular
tion| transcription coactivator activity | inferred from genetic interaction |GO:0003713//cellular component| nucleus | inferred from curator|GO:0005634//bio
esis | traceable author statement|GO:0006696
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
port | traceable author statement|GO:0016192
n filament organization | inferred from mutant phenotype|GO:0007015//biological process| N-glycan processing | traceable author statement |GO:0006491/
rom direct assay|GO:0006118
ention | inferred from mutant phenotype|GO:0045053//biological process| vacuolar transport | traceable author statement |GO:0007034//biological process
e author statement|GO:0006906//biological process| Golgi to plasma membrane transport | traceable author statement |GO:0006893
| ubiquitin-protein ligase activity | inferred from direct assay |GO:0004842//cellular component| endoplasmic reticulum membrane | inferred from direct ass
GO:0006906//biological process| intra-Golgi transport | traceable author statement |GO:0006891
ical process| protein biosynthesis | traceable author statement|GO:0006412
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
mponent| endoplasmic reticulum membrane | inferred from direct assay|GO:0005789//biological process| protein-ER targeting | inferred from mutant pheno
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
nferred from mutant phenotype|GO:0007094//biological process| mitotic spindle checkpoint | inferred from genetic interaction |GO:0007094
ositive regulation of transcription from Pol II promoter | inferred from mutant phenotype|GO:0045944//biological process| response to cold | inferred from m
roxisome organization and biogenesis | inferred from genetic interaction |GO:0007031//biological process| peroxisome organization and biogenesis | inferr
from direct assay|GO:0006434
d from direct assay |GO:0005637//biological process| --- | traceable author statement|GO:0030969//biological process| tRNA splicing | inferred from mutant
inferred from genetic interaction|GO:0000722
ding | inferred from physical interaction |GO:0003677//cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| transcripti
rred from direct assay |GO:0005634//biological process| cell cycle arrest | inferred from mutant phenotype|GO:0007050//biological process| signal transdu
component| cytosol | traceable author statement|GO:0005829//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological process
| ergosterol biosynthesis | traceable author statement|GO:0006696
t| mitochondrial large ribosomal subunit | inferred from physical interaction |GO:0005762//biological process| protein biosynthesis | traceable author statem
y |GO:0005634//biological process| response to drug | traceable author statement|GO:0042493//biological process| response to oxidative stress | traceabl
ay |GO:0005737
m direct assay|GO:0000316
gulation of transcription from Pol II promoter | inferred from mutant phenotype|GO:0045944//biological process| aerobic respiration | inferred from mutant p
nce similarity |GO:0005886//biological process| osmosensory signaling pathway via Sho1 osmosensor | traceable author statement|GO:0007232//biologica
ed from direct assay |GO:0008017//cellular component| actin cortical patch (sensu Fungi) | inferred from direct assay|GO:0030479//biological process| mic
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
rane | inferred from direct assay |GO:0005743//biological process| aerobic respiration | inferred from mutant phenotype|GO:0009060//biological process| p
ogenesis | traceable author statement|GO:0007031
16944//cellular component| transcription elongation factor complex | inferred from physical interaction|GO:0008023//cellular component| nucleus | inferred
ation during conjugation with cellular fusion | inferred from mutant phenotype |GO:0000752//biological process| conjugation with cellular fusion | inferred fr
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ence similarity|GO:0006810
l process| transcription from Pol I promoter | traceable author statement|GO:0006360
t biogenesis | inferred from mutant phenotype |GO:0042273
uclear exosome (RNase complex) | inferred from direct assay |GO:0000176//biological process| ribosome assembly | traceable author statement|GO:0042
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
n |GO:0030364//cellular component| mRNA cleavage factor complex | inferred from physical interaction|GO:0005849//cellular component| mRNA cleavage
0030508//molecular function| thiol-disulfide exchange intermediate activity | inferred from genetic interaction |GO:0030508//cellular component| intracellula
mponent| small nucleolar ribonucleoprotein complex | traceable author statement |GO:0005732//cellular component| small nucleolar ribonucleoprotein com
ype |GO:0004375//cellular component| mitochondrion | traceable author statement|GO:0005739//biological process| one-carbon compound metabolism | in
ical process| protein biosynthesis | traceable author statement|GO:0006412
gical process| protein biosynthesis | traceable author statement|GO:0006412
anchor biosynthesis | inferred from direct assay|GO:0006506
sis | inferred from physical interaction|GO:0006508//biological process| proteolysis and peptidolysis | inferred from mutant phenotype |GO:0006508//biolog
t | traceable author statement|GO:0016192
process| aerobic respiration | traceable author statement|GO:0009060
3//biological process| fatty acid metabolism | inferred from mutant phenotype|GO:0006631
erred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| vitamin B2 biosynthesis |
eus | inferred from direct assay|GO:0005634//biological process| G2/M-specific transcription in mitotic cell cycle | inferred from mutant phenotype|GO:0000
:0009277//cellular component| cytoplasm | inferred from direct assay |GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
l subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | traceable author statement|GO:0006412//bi
membrane fraction | inferred from sequence similarity|GO:0005624//biological process| cell wall organization and biogenesis | inferred from mutant phenoty
process| mannosyl diphosphorylinositol ceramide metabolism | inferred from direct assay|GO:0006676
from direct assay |GO:0005737//biological process| lipid transport | inferred from physical interaction|GO:0006869//biological process| lipid transport | infe
chromatin | inferred from direct assay|GO:0000790//cellular component| nuclear chromosome, telomeric region | inferred from curator |GO:0000784//biolo
ype |GO:0004375//cellular component| mitochondrion | traceable author statement|GO:0005739//biological process| one-carbon compound metabolism | in
d from mutant phenotype |GO:0000902
om direct assay |GO:0005634//biological process| protein amino acid acetylation | inferred from mutant phenotype|GO:0006473
mutant phenotype |GO:0004317//molecular function| [acyl-carrier protein] S-malonyltransferase activity | inferred from mutant phenotype |GO:0004314//mo
omponent| mitochondrial matrix | traceable author statement |GO:0005759//biological process| 2-oxoglutarate metabolism | traceable author statement|GO
us | inferred from direct assay|GO:0005634//biological process| response to acid | inferred from mutant phenotype|GO:0001101
onal elongation | inferred from physical interaction|GO:0006448//biological process| regulation of translational elongation | inferred from mutant phenotype
ctase activity | inferred from direct assay |GO:0004032//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucle
sion | inferred from physical interaction|GO:0008053//biological process| mitochondrial fusion | inferred from mutant phenotype |GO:0008053//biological pr
inferred from direct assay |GO:0005737//biological process| one-carbon compound metabolism | inferred from mutant phenotype|GO:0006730
ar component| cytoplasm | inferred from direct assay |GO:0005737//biological process| regulation of translational fidelity | inferred from mutant phenotype|G
nent| endoplasmic reticulum | inferred from direct assay|GO:0005783//biological process| protein folding | inferred from genetic interaction|GO:0006457
ellular component| polysome | traceable author statement|GO:0005844//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biologic
erred from direct assay |GO:0005816//biological process| microtubule-based process | inferred from physical interaction|GO:0007017//biological process| m
ellular component| endoplasmic reticulum membrane | inferred from expression pattern |GO:0005789
ant phenotype |GO:0006364
red from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| alpha-tubulin folding | inferre
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
erred from sequence similarity |GO:0016021//biological process| vesicle fusion | traceable author statement|GO:0006906//biological process| intra-Golgi tr
rocess| phosphatidylcholine biosynthesis | traceable author statement|GO:0006656
omponent| DNA-directed RNA polymerase III complex | traceable author statement |GO:0005666//cellular component| DNA-directed RNA polymerase II, c
ed from mutant phenotype |GO:0030126//biological process| retrograde transport, Golgi to ER | inferred from mutant phenotype|GO:0006890
gical process| protein biosynthesis | traceable author statement|GO:0006412
a-oxidation | traceable author statement|GO:0006635
y |GO:0005730//biological process| ribosome biogenesis and assembly | inferred from mutant phenotype|GO:0042254//biological process| rRNA processin
red from direct assay|GO:0006400
inferred from genetic interaction|GO:0000722
nd peptidolysis | inferred from mutant phenotype|GO:0006508
eraction|GO:0006406
atement|GO:0000145//cellular component| exocyst | inferred from physical interaction |GO:0000145//biological process| polar budding | inferred from muta
ect assay |GO:0005634//biological process| coenzyme A biosynthesis | inferred from sequence similarity|GO:0015937
om peptidyl-histidine | inferred from direct assay|GO:0017183
m mutant phenotype|GO:0045721
omoter | inferred from mutant phenotype|GO:0006366//biological process| transcription from Pol II promoter | inferred from direct assay |GO:0006366//biol
l subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | traceable author statement|GO:0006412
ical process| protein biosynthesis | traceable author statement|GO:0006412
O:0004425//molecular function| indole-3-glycerol-phosphate synthase activity | inferred from direct assay |GO:0004425//molecular function| anthranilate sy
pe |GO:0006888
ical process| translational elongation | inferred from sequence similarity|GO:0006414//biological process| protein biosynthesis | traceable author statemen
ological process| transcription from Pol II promoter | traceable author statement|GO:0006366
eterochromatin | inferred from direct assay|GO:0005724//cellular component| chromatin silencing complex | inferred from direct assay |GO:0005677//cellul
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
| traceable author statement |GO:0005739//biological process| mitochondrion organization and biogenesis | traceable author statement|GO:0007005//biol
ogenesis | traceable author statement|GO:0006999//biological process| protein-nucleus export | traceable author statement |GO:0006611//biological proce
I promoter | inferred from direct assay|GO:0006357
erred from mutant phenotype |GO:0006879
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
component| cytoplasm | inferred from direct assay|GO:0005737//biological process| sporulation (sensu Fungi) | inferred from mutant phenotype|GO:00304
on | inferred from direct assay |GO:0005625//cellular component| peripheral to membrane of membrane fraction | inferred from direct assay |GO:0000300//
ant phenotype|GO:0045132
ment |GO:0005634//biological process| G1-specific transcription in mitotic cell cycle | inferred from direct assay|GO:0000114
gical process| protein biosynthesis | traceable author statement|GO:0006412
omoter | inferred from mutant phenotype|GO:0000122
ical process| protein biosynthesis | traceable author statement|GO:0006412
abolism | inferred from sequence similarity|GO:0005975
o tip | inferred from direct assay|GO:0005937//cellular component| prospore membrane | traceable author statement |GO:0005628//cellular component| sp
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
acuole (sensu Fungi) | traceable author statement|GO:0000324//biological process| nitrogen metabolism | inferred from mutant phenotype|GO:0006807//b
| traceable author statement|GO:0005623//biological process| glutathione metabolism | inferred from direct assay|GO:0006749
| inferred from sequence similarity|GO:0006810
s | inferred from direct assay|GO:0005730//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| ribosome assembly
nt organization | inferred from mutant phenotype|GO:0007015
y |GO:0005634//biological process| endocytosis | inferred from mutant phenotype|GO:0006897//biological process| threonine metabolism | traceable autho
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
nferred from direct assay |GO:0006790
t assay |GO:0005634//biological process| tRNA modification | inferred from direct assay|GO:0006400
deacetylase complex | traceable author statement|GO:0000118//biological process| protein amino acid deacetylation | inferred from sequence similarity|GO
ence similarity|GO:0006810
l subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | traceable author statement|GO:0006412
ferred from direct assay |GO:0000139//biological process| ER to Golgi transport | traceable author statement|GO:0006888//biological process| protein com
t assay |GO:0005935//cellular component| bud | inferred from direct assay |GO:0005933//cellular component| nucleus | inferred from direct assay |GO:000
esis, completion of separation | inferred from mutant phenotype|GO:0007109
ecular function| neutral amino acid transporter activity | inferred from genetic interaction |GO:0015175//cellular component| vacuole | inferred from mutant
erred from sequence similarity|GO:0030121//cellular component| AP-1 adaptor complex | inferred from physical interaction |GO:0030121//biological proces
oxylic acid transport | inferred from direct assay|GO:0006842
tant phenotype|GO:0019654//biological process| acetyl-CoA biosynthesis | inferred from direct assay |GO:0006085
ization and biogenesis | inferred from curator|GO:0007047
:0005935//cellular component| bud tip | inferred from direct assay |GO:0005934//cellular component| central plaque of spindle pole body | inferred from dir
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
onent| RNA polymerase I upstream activating factor complex | traceable author statement|GO:0000500//biological process| transcription from Pol I promo
s| response to drug | inferred from mutant phenotype|GO:0042493//biological process| drug transport | inferred from mutant phenotype |GO:0015893
| signal transducer activity | inferred from physical interaction |GO:0004871//cellular component| intracellular | traceable author statement|GO:0005622//bi
mponent| proteasome complex (sensu Eukarya) | inferred from physical interaction |GO:0000502//biological process| ubiquitin-dependent protein catabolis
ess| base-excision repair, AP site formation | inferred from direct assay|GO:0006285//biological process| DNA repair | inferred from mutant phenotype |GO
physical interaction |GO:0016272//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological process| tubulin folding | inferred fr
or statement|GO:0000256
aceable author statement|GO:0006365
osis | inferred from mutant phenotype|GO:0040020//biological process| regulation of meiosis | inferred from genetic interaction |GO:0040020//biological pr
ical process| protein biosynthesis | traceable author statement|GO:0006412
gical process| protein biosynthesis | traceable author statement|GO:0006412
pe |GO:0015082//cellular component| plasma membrane | inferred from mutant phenotype|GO:0005886//biological process| magnesium ion transport | infe
ial outer membrane translocase complex | traceable author statement|GO:0005742//biological process| mitochondrial matrix protein import | inferred from
O:0005634//biological process| regulation of DNA replication | inferred from sequence similarity|GO:0006275//biological process| regulation of DNA replica
erred from mutant phenotype|GO:0000338
cellular component| integral to plasma membrane | traceable author statement |GO:0005887//biological process| axial budding | traceable author statemen
m | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| D-xylose metabolism
ponent| integral to endoplasmic reticulum membrane | inferred from direct assay|GO:0030176//biological process| attachment of GPI anchor to protein | in
ferred from mutant phenotype |GO:0008565//molecular function| ATPase stimulator activity | inferred from direct assay |GO:0001671//cellular component|
ose transporter activity | inferred from direct assay |GO:0005355//molecular function| fructose transporter activity | inferred from genetic interaction |GO:00
gical process| protein biosynthesis | traceable author statement|GO:0006412
ort | inferred from mutant phenotype|GO:0006913//biological process| protein-nucleus import | inferred from mutant phenotype |GO:0006606
e author statement|GO:0005794//biological process| vesicle-mediated transport | inferred from mutant phenotype|GO:0016192//biological process| vesicle
:0000228//biological process| homologous chromosome segregation | inferred from physical interaction|GO:0045143//biological process| homologous chr
n | inferred from mutant phenotype|GO:0006261
/S transition of mitotic cell cycle | inferred from physical interaction|GO:0000082//biological process| G1/S transition of mitotic cell cycle | inferred from mut
mbrane | inferred from direct assay |GO:0005789//biological process| retrograde transport, Golgi to ER | inferred from direct assay|GO:0006890//biological
rred from direct assay |GO:0005625//biological process| fermentation | inferred from sequence similarity|GO:0006113
//molecular function| ribulose-phosphate 3-epimerase activity | inferred from direct assay |GO:0004750//cellular component| cytosol | traceable author stat
ical process| protein biosynthesis | traceable author statement|GO:0006412
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
hanism | inferred from mutant phenotype |GO:0046933//cellular component| proton-transporting ATP synthase complex, coupling factor F(o) (sensu Eukary
ar component| cytoplasm | inferred from direct assay |GO:0005737//biological process| processing of 20S pre-rRNA | inferred from mutant phenotype|GO:0
al process| transcription from Pol III promoter | traceable author statement|GO:0006383
ation of transcription from Pol II promoter | inferred from genetic interaction|GO:0000122
0329//cellular component| hydrogen-transporting ATPase V1 domain | traceable author statement |GO:0000221//biological process| vacuolar acidification
| inferred from mutant phenotype |GO:0006888
P complex | inferred from direct assay|GO:0005655//cellular component| ribonuclease MRP complex | inferred from direct assay |GO:0000172//biological
l subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | traceable author statement|GO:0006412//bi
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
rred from direct assay|GO:0015677//biological process| iron ion transport | inferred from direct assay |GO:0006826
author statement|GO:0043037//biological process| D-amino acid catabolism | inferred from direct assay |GO:0019478
al process| spore germination (sensu Fungi) | traceable author statement|GO:0030470//biological process| endocytosis | traceable author statement |GO:0
direct assay |GO:0005935//cellular component| bud tip | inferred from direct assay |GO:0005934//cellular component| spindle pole body | inferred from dir
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
omplex | inferred from physical interaction |GO:0000799//biological process| mitotic chromosome condensation | traceable author statement|GO:0007076/
| inferred from sequence similarity|GO:0006810
om mutant phenotype |GO:0016020//biological process| sporulation (sensu Fungi) | inferred from mutant phenotype|GO:0030437//biological process| RAS
gical process| protein biosynthesis | traceable author statement|GO:0006412//biological process| ribosomal small subunit assembly and maintenance | infe
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
dase activity | inferred from direct assay |GO:0009003//cellular component| signal peptidase complex | inferred from direct assay|GO:0005787//cellular co
erred from direct assay |GO:0005933//biological process| osmosensory signaling pathway | inferred from genetic interaction|GO:0007231
RNA helicase activity | traceable author statement |GO:0004004//cellular component| spliceosome complex | traceable author statement|GO:0005681//ce
ndle pole body | inferred from direct assay |GO:0005816//biological process| mitotic spindle checkpoint | traceable author statement|GO:0007094//biologica
y |GO:0005634
ssay |GO:0005737//biological process| small GTPase mediated signal transduction | inferred from physical interaction|GO:0007264//biological process| sm
inferred from genetic interaction |GO:0045045
sphorylation | inferred from mutant phenotype|GO:0006470//biological process| protein amino acid dephosphorylation | inferred from direct assay |GO:0006
ed from genetic interaction |GO:0000074//biological process| DNA replication and chromosome cycle | inferred from mutant phenotype |GO:0000067
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
lum | inferred from direct assay |GO:0005783//cellular component| soluble fraction | inferred from direct assay |GO:0005625//cellular component| membra
rect assay |GO:0005624//biological process| sphingolipid biosynthesis | traceable author statement|GO:0030148//biological process| 3-keto-sphinganine m
nsu Eukarya) | traceable author statement |GO:0005830//biological process| nascent polypeptide association | inferred from physical interaction|GO:00064
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
from direct assay |GO:0005792//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological process| response to drug | inferred fr
lular component| plasma membrane | inferred from sequence similarity|GO:0005886//cellular component| plasma membrane | inferred from mutant pheno
anthranilate synthase activity | inferred from direct assay |GO:0004049//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological
ent| protein farnesyltransferase complex | inferred from direct assay|GO:0005965//biological process| protein amino acid geranylgeranylation | inferred from
ocess| cell wall organization and biogenesis | inferred from genetic interaction |GO:0007047
05634//biological process| ribosomal small subunit biogenesis | inferred from mutant phenotype|GO:0042274//biological process| processing of 20S pre-rR
lex | inferred from direct assay |GO:0042729//cellular component| spindle | inferred from direct assay |GO:0005819//cellular component| condensed nuclea
tant phenotype|GO:0006694//biological process| steroid biosynthesis | inferred from genetic interaction |GO:0006694
rug | traceable author statement|GO:0042493//biological process| transport | traceable author statement |GO:0006810
membrane space | inferred from direct assay |GO:0005758//biological process| RNA metabolism | inferred from direct assay|GO:0016070//biological proce
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
| inferred from direct assay|GO:0030482//cellular component| actin cortical patch (sensu Fungi) | inferred from direct assay |GO:0030479//biological proces
ular function| amylo-alpha-1,6-glucosidase activity | inferred from direct assay |GO:0004135//molecular function| 4-alpha-glucanotransferase activity | infer
ssay |GO:0005737//biological process| pseudohyphal growth | inferred from mutant phenotype|GO:0007124//biological process| protein amino acid phosph
|GO:0005886//biological process| response to singlet oxygen | inferred from mutant phenotype|GO:0000304
ial outer membrane translocase complex | traceable author statement|GO:0005742//biological process| mitochondrial inner membrane protein import | trac
ocess| lysine biosynthesis, aminoadipic pathway | traceable author statement|GO:0019878
drial inner membrane | inferred from sequence similarity|GO:0005743//biological process| L-glutamate transport | inferred from direct assay|GO:0015813//b
erred from direct assay |GO:0005798//cellular component| late endosome | inferred from direct assay |GO:0005770//biological process| intra-Golgi transpo
u Fungi) | inferred from direct assay |GO:0000329//biological process| protein ubiquitination | inferred from direct assay|GO:0016567
assay |GO:0005634//biological process| ethanol fermentation | traceable author statement|GO:0019655//biological process| pyruvate metabolism | tracea
t| plasma membrane | traceable author statement|GO:0005886//biological process| potassium ion homeostasis | inferred from direct assay|GO:0030007
0//biological process| transport | inferred from sequence similarity|GO:0006810
/cellular component| cytosol | traceable author statement |GO:0005829//cellular component| lipid particle | inferred from direct assay |GO:0005811//cellula
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ellular component| actin cortical patch (sensu Fungi) | inferred from direct assay|GO:0030479//biological process| regulation of endocytosis | inferred from
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ical process| translational elongation | inferred from sequence similarity|GO:0006414//biological process| protein biosynthesis | traceable author statemen
nsduction | non-traceable author statement|GO:0007165//biological process| protein amino acid phosphorylation | inferred from direct assay |GO:0006468
ent telomere maintenance | inferred from mutant phenotype|GO:0007004
nent| nucleus | inferred from physical interaction|GO:0005634//biological process| negative regulation of transcription from Pol II promoter | inferred from m
m mutant phenotype|GO:0045047//biological process| protein amino acid glycosylation | inferred from mutant phenotype |GO:0006486
embrane | inferred from mutant phenotype |GO:0005886//biological process| multidrug transport | inferred from mutant phenotype|GO:0006855
ement|GO:0006906//biological process| endocytosis | traceable author statement |GO:0006897//biological process| Golgi to plasma membrane transport |
inferred from mutant phenotype|GO:0007265
| traceable author statement|GO:0000324//biological process| sporulation | inferred from mutant phenotype|GO:0030435//biological process| microautopha
assay|GO:0016192//biological process| Golgi to vacuole transport | traceable author statement |GO:0006896//biological process| vacuole inheritance | infe
irect assay |GO:0005628//biological process| sporulation (sensu Fungi) | traceable author statement|GO:0030437//biological process| exocytosis | inferred
on of transcription from Pol II promoter | inferred from direct assay|GO:0045944//biological process| pseudohyphal growth | inferred from genetic interactio
s | inferred from mutant phenotype|GO:0006412
ical process| protein biosynthesis | traceable author statement|GO:0006412
ed from direct assay |GO:0005737//biological process| lysine biosynthesis | traceable author statement|GO:0009085
phingolipid metabolism | inferred from mutant phenotype|GO:0006665
ferred from genetic interaction |GO:0006694
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
5737//biological process| actin filament organization | traceable author statement|GO:0007015
cleavage and polyadenylation specificity factor complex | traceable author statement|GO:0005847//cellular component| mRNA cleavage and polyadenylatio
Fungi) | inferred from direct assay |GO:0030478//biological process| vesicle-mediated transport | inferred from physical interaction|GO:0016192//biological
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
t assay|GO:0005737//biological process| regulation of growth | inferred from mutant phenotype|GO:0040008
sport | inferred from sequence similarity|GO:0016192
l subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | traceable author statement|GO:0006412
x | inferred from direct assay |GO:0042729//cellular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement |GO:00058
inferred from genetic interaction|GO:0000722
red from sequence similarity |GO:0016020//biological process| nitrogen utilization | inferred from mutant phenotype|GO:0019740//biological process| trans
95//molecular function| S-adenosylmethionine transporter activity | inferred from direct assay |GO:0000095//cellular component| mitochondrial inner memb
al process| 35S primary transcript processing | traceable author statement|GO:0006365//biological process| rRNA modification | traceable author statemen
gical process| regulation of translational fidelity | inferred from mutant phenotype|GO:0006450//biological process| protein biosynthesis | traceable author s
omponent| DNA-directed RNA polymerase III complex | traceable author statement |GO:0005666//cellular component| DNA-directed RNA polymerase II, c
ellular component| nucleus | inferred from direct assay |GO:0005634//biological process| transcription initiation from Pol II promoter | traceable author state
ed glycosylation | inferred from mutant phenotype|GO:0006487
om mutant phenotype |GO:0005737//biological process| histidyl-tRNA aminoacylation | traceable author statement|GO:0006427//biological process| histid
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
from direct assay |GO:0005634//biological process| ubiquitin-dependent protein catabolism | inferred from physical interaction|GO:0006511//biological pro
ular component| eukaryotic translation initiation factor 3 complex | inferred from direct assay |GO:0005852//biological process| translational initiation | infer
Saccharomyces) | inferred from direct assay |GO:0000144//biological process| septin ring assembly | inferred from physical interaction|GO:0000921//biolo
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
process| aerobic respiration | traceable author statement|GO:0009060
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ess| alpha-glucoside transport | inferred from sequence similarity|GO:0000017
ein catabolism | inferred from physical interaction |GO:0030163//biological process| protein catabolism | inferred from mutant phenotype |GO:0030163//bio
aminoacylation | inferred from direct assay|GO:0006431//biological process| translational initiation | inferred from direct assay |GO:0006413
ing-type specific | traceable author statement|GO:0007532//biological process| regulation of transcription from Pol II promoter | traceable author statement
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
e |GO:0015077//molecular function| monovalent inorganic cation transporter activity | inferred from direct assay |GO:0015077//cellular component| late end
olipid biosynthesis | inferred from mutant phenotype|GO:0030148
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
| Rab GTPase activator activity | inferred from mutant phenotype |GO:0005097//molecular function| Rab GTPase activator activity | inferred from direct ass
sequence similarity|GO:0006397//biological process| mRNA processing | inferred from genetic interaction |GO:0006397
mponent| snRNP U5 | inferred from physical interaction |GO:0005682//cellular component| snRNP U5 | inferred from direct assay |GO:0005682//biological p
ion from Pol III promoter | inferred from mutant phenotype|GO:0006359//biological process| regulation of transcription from Pol III promoter | inferred from
d protein response, target gene transcriptional activation | traceable author statement|GO:0006990//biological process| phospholipid metabolism | traceabl
phenotype |GO:0004306//molecular function| ethanolamine-phosphate cytidylyltransferase activity | inferred from direct assay |GO:0004306//cellular comp
m physical interaction |GO:0003677//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from p
gical process| protein biosynthesis | traceable author statement|GO:0006412
from sequence similarity|GO:0016021//cellular component| integral to membrane | inferred from physical interaction |GO:0016021//cellular component| va
9773//cellular component| proteasome core complex (sensu Eukarya) | traceable author statement |GO:0005839//biological process| ubiquitin-dependent
erred from sequence similarity|GO:0008654
5634//biological process| rRNA processing | inferred from mutant phenotype|GO:0006364
d from sequence similarity|GO:0000398//biological process| nuclear mRNA splicing, via spliceosome | inferred from physical interaction |GO:0000398
l budding | inferred from mutant phenotype|GO:0007120//biological process| response to osmotic stress | inferred from mutant phenotype |GO:0006970//b
transport | inferred from sequence similarity|GO:0015811
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
able author statement|GO:0006562//biological process| glutamate biosynthesis | traceable author statement |GO:0006537
| traceable author statement |GO:0005739//biological process| mitochondrion organization and biogenesis | traceable author statement|GO:0007005//biol
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
hanism | inferred from mutant phenotype |GO:0046933//cellular component| proton-transporting ATP synthase, catalytic core (sensu Eukarya) | inferred fro
nent| cytoplasm | inferred from direct assay |GO:0005737//biological process| methionyl-tRNA aminoacylation | inferred from direct assay|GO:0006431
gical process| protein biosynthesis | traceable author statement|GO:0006412
ferred from mutant phenotype |GO:0007131
tase complex | inferred from physical interaction|GO:0017102//cellular component| methionyl glutamyl tRNA synthetase complex | inferred from mutant ph
phenotype |GO:0004066//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| asparagine biosynthesis | traceable
n | traceable author statement|GO:0016579
ed from physical interaction|GO:0005634//biological process| protein amino acid phosphorylation | inferred from sequence similarity|GO:0006468//biologic
0//biological process| transport | inferred from sequence similarity|GO:0006810
asm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| response to xeno
ical process| protein biosynthesis | traceable author statement|GO:0006412
27//biological process| regulation of exit from mitosis | inferred from genetic interaction |GO:0007096//biological process| mitotic cell cycle | inferred from ge
statement|GO:0006260
drial inner membrane | inferred from direct assay|GO:0005743//cellular component| mitochondrion | inferred from direct assay |GO:0005739//biological pro
omponent| soluble fraction | inferred from direct assay|GO:0005625//biological process| sporulation (sensu Fungi) | inferred from mutant phenotype|GO:00
me to vacuole transport | inferred from genetic interaction |GO:0045324
statement |GO:0000054
rred from mutant phenotype|GO:0005634//biological process| DNA repair | traceable author statement|GO:0006281//biological process| DNA replication | t
ellular component| SAGA complex | inferred from direct assay |GO:0000124//biological process| histone acetylation | traceable author statement|GO:0016
nt phenotype|GO:0040020//biological process| response to stress | inferred from mutant phenotype |GO:0006950//biological process| protein amino acid p
eable author statement|GO:0006413
H complex | inferred from direct assay |GO:0042729//cellular component| spindle | inferred from physical interaction |GO:0005819//cellular component| con
|GO:0004081//molecular function| bis(5'-nucleosyl)-tetraphosphatase (asymmetrical) activity | inferred from genetic interaction |GO:0004081//molecular fu
ferred from physical interaction|GO:0006513//biological process| protein monoubiquitination | inferred from mutant phenotype |GO:0006513//biological pro
maintenance | inferred from mutant phenotype|GO:0000002
om direct assay |GO:0005634//biological process| sulfur amino acid metabolism | inferred from mutant phenotype|GO:0000096
ical process| translational elongation | inferred from sequence similarity|GO:0006414//biological process| protein biosynthesis | traceable author statemen
cell wall organization and biogenesis | inferred from genetic interaction |GO:0007047//biological process| response to stress | inferred from mutant phenoty
ction|GO:0006412
rocessing | inferred from mutant phenotype|GO:0006365//biological process| ribosomal large subunit assembly and maintenance | inferred from mutant ph
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
otein-vacuolar targeting | inferred from physical interaction |GO:0006623//biological process| protein-vacuolar targeting | inferred from mutant phenotype |G
e peroxidase activity | inferred from mutant phenotype |GO:0004602//molecular function| glutathione peroxidase activity | inferred from genetic interaction |
2//cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//biological process| sphingolipid biosynthesis | traceable author sta
ferred from expression pattern|GO:0006537
ogical process| transcription initiation from Pol II promoter | inferred from direct assay|GO:0006367
ing-type specific | traceable author statement|GO:0007532//biological process| regulation of transcription from Pol II promoter | traceable author statement
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ar function| 2-isopropylmalate synthase activity | inferred from direct assay |GO:0003852//cellular component| mitochondrion | inferred from direct assay|G
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ne | inferred from direct assay |GO:0005789//biological process| sterol biosynthesis | traceable author statement|GO:0016126//biological process| sterol bi
m direct assay|GO:0005634//cellular component| SWR1 complex | inferred from physical interaction |GO:0000812//cellular component| nuclear chromatin
mponent| cAMP-dependent protein kinase complex | traceable author statement|GO:0005952//cellular component| cytoplasm | traceable author statement
eting | inferred from physical interaction|GO:0045047
erred from mutant phenotype|GO:0006629//biological process| lipid metabolism | inferred from genetic interaction |GO:0006629//biological process| N-term
d from direct assay|GO:0000398
4809//cellular component| mitochondrion | traceable author statement|GO:0005739//cellular component| nuclear outer membrane | inferred from direct ass
ical process| protein biosynthesis | traceable author statement|GO:0006412
ble author statement|GO:0000706
ssay|GO:0005737//biological process| sporulation | inferred from mutant phenotype|GO:0030435//biological process| sporulation | inferred from genetic int
chaperone regulator activity | inferred from genetic interaction |GO:0030188//molecular function| ATPase stimulator activity | inferred from direct assay |G
hore | inferred from direct assay |GO:0000778//biological process| chromosome segregation | inferred from physical interaction|GO:0007059
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
4//biological process| cell wall organization and biogenesis | inferred from mutant phenotype|GO:0007047//biological process| ribosomal large subunit-nuc
0//biological process| transcription from Pol I promoter | traceable author statement|GO:0006360
x | inferred from direct assay |GO:0042729//cellular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement |GO:00058
tive stress | inferred from mutant phenotype|GO:0006979
aceable author statement|GO:0005737//cellular component| cytoplasm | inferred from direct assay |GO:0005737//cellular component| pre-replicative comp
inferred from direct assay |GO:0005794//biological process| protein amino acid glycosylation | inferred from mutant phenotype|GO:0006486
-mediated transport | inferred from physical interaction|GO:0016192//biological process| isotropic bud growth | inferred from physical interaction |GO:00071
ble author statement|GO:0006094
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
sm | inferred from sequence similarity|GO:0019563//biological process| response to stress | inferred from mutant phenotype |GO:0006950
gical process| protein biosynthesis | traceable author statement|GO:0006412
16944//cellular component| transcription elongation factor complex | inferred from direct assay|GO:0008023//cellular component| cytoplasm | inferred from
ectrons within CoQH2-cytochrome c reductase complex activity | inferred from mutant phenotype |GO:0045153//cellular component| respiratory chain com
ern |GO:0004375//cellular component| mitochondrion | traceable author statement|GO:0005739//biological process| one-carbon compound metabolism | in
m sequence similarity |GO:0008614//biological process| pyridoxine metabolism | inferred from mutant phenotype |GO:0008614
e base biosynthesis | traceable author statement|GO:0006207//biological process| 'de novo' IMP biosynthesis | traceable author statement |GO:0006189//
om sequence similarity|GO:0006350
l subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | traceable author statement|GO:0006412
n-dependent protein catabolism | traceable author statement|GO:0006511
t| mitochondrial outer membrane | inferred from mutant phenotype |GO:0005741//cellular component| mitochondrial outer membrane | inferred from direct
genetic interaction|GO:0007049//biological process| cell cycle | inferred from expression pattern |GO:0007049//biological process| protein amino acid pho
us | inferred from curator|GO:0005634//biological process| transcription from Pol III promoter | inferred from genetic interaction|GO:0006383//biological pro
ensu Fungi) | inferred from expression pattern|GO:0030437
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
GO:0003922//biological process| GMP metabolism | traceable author statement|GO:0046037
ant phenotype|GO:0006281//biological process| DNA-dependent DNA replication | inferred from direct assay |GO:0006261
synthesis | traceable author statement|GO:0006696
utant phenotype|GO:0006914//biological process| protein-vacuolar targeting | inferred from mutant phenotype |GO:0006623
| COPII-coated vesicle | inferred from direct assay |GO:0030138//biological process| ER to Golgi transport | inferred from physical interaction|GO:0006888
ent| cytoplasm | inferred from direct assay |GO:0005737//biological process| glutamyl-tRNA aminoacylation | inferred from direct assay|GO:0006424
d from physical interaction|GO:0006893//biological process| Golgi to plasma membrane transport | inferred from genetic interaction |GO:0006893//biologica
n | inferred from mutant phenotype|GO:0006261
d from direct assay|GO:0005634//biological process| DNA repair | inferred from mutant phenotype|GO:0006281
mplex | traceable author statement|GO:0005680//biological process| cyclin catabolism | traceable author statement|GO:0008054//biological process| mitot
from direct assay |GO:0005737//cellular component| vacuole (sensu Fungi) | inferred from direct assay |GO:0000324//biological process| vacuolar protein
nization and biogenesis | inferred from physical interaction|GO:0030036//biological process| actin cytoskeleton organization and biogenesis | inferred from
porter activity | inferred from direct assay |GO:0005355//molecular function| fructose transporter activity | traceable author statement |GO:0005353//cellular
e author statement|GO:0006735//biological process| fatty acid beta-oxidation | traceable author statement |GO:0006635//biological process| malate metab
ant phenotype |GO:0006397
ER-associated protein catabolism | inferred from mutant phenotype|GO:0030433
n and biogenesis | inferred from direct assay|GO:0030036//biological process| osmosensory signaling pathway | traceable author statement |GO:0007231/
a membrane | inferred from sequence similarity|GO:0005886//cellular component| plasma membrane | inferred from mutant phenotype |GO:0005886//biol
romyces) | inferred from mutant phenotype|GO:0000501
ar component| cytoplasm | inferred from direct assay |GO:0005737//biological process| regulation of translational fidelity | inferred from mutant phenotype|G
from curator|GO:0006796
ical process| protein biosynthesis | traceable author statement|GO:0006412
atement |GO:0005832//cellular component| cytoplasm | traceable author statement |GO:0005737//cellular component| cytoplasm | inferred from direct ass
hing/recombination | inferred from mutant phenotype|GO:0007533//biological process| chromatin assembly/disassembly | inferred from physical interaction
uclear exosome (RNase complex) | inferred from direct assay |GO:0000176//biological process| mRNA catabolism | inferred from physical interaction|GO:0
nferred from sequence similarity |GO:0008614//biological process| pyridoxine metabolism | inferred from direct assay |GO:0008614
sical interaction|GO:0006338
rocess| transcription from Pol I promoter | traceable author statement|GO:0006360
2//cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//biological process| sphingolipid biosynthesis | traceable author sta
| inferred from direct assay |GO:0005625//biological process| pantothenate biosynthesis | inferred from sequence similarity|GO:0015940
|GO:0003709//cellular component| transcription factor complex | inferred from physical interaction|GO:0005667//biological process| transcription initiation
ence similarity|GO:0006810
y|GO:0006810//biological process| transport | inferred from mutant phenotype |GO:0006810
05829//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological process| protein folding | non-traceable author statement|GO:0
, non-autophagic | inferred from mutant phenotype |GO:0042144//biological process| protein localization | inferred from mutant phenotype |GO:0008104
nt| spindle microtubule | inferred from direct assay|GO:0005876//cellular component| kinetochore microtubule | inferred from direct assay |GO:0005828//bi
tant phenotype|GO:0006310//biological process| DNA recombination | inferred from genetic interaction |GO:0006310
ble author statement|GO:0006656
nferred from mutant phenotype|GO:0008033//biological process| tRNA processing | inferred from genetic interaction |GO:0008033
e |GO:0003906//molecular function| DNA-(apurinic or apyrimidinic site) lyase activity | inferred from direct assay |GO:0003906//cellular component| mitoch
inferred from physical interaction |GO:0000118//cellular component| histone deacetylase complex | inferred from direct assay |GO:0000118//biological pro
ansport | inferred from genetic interaction |GO:0006895
gical process| protein biosynthesis | traceable author statement|GO:0006412
ical process| protein biosynthesis | traceable author statement|GO:0006412
ogenesis | inferred from mutant phenotype|GO:0006999//biological process| nuclear membrane organization and biogenesis | inferred from mutant pheno
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
rt | inferred from mutant phenotype|GO:0006827
937//cellular component| cytosol | inferred from direct assay|GO:0005829//biological process| sporulation (sensu Fungi) | inferred from expression pattern|
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
drug | inferred from genetic interaction|GO:0042493//biological process| response to salt stress | inferred from mutant phenotype |GO:0009651//biological
mutant phenotype |GO:0006493//biological process| N-linked glycosylation | inferred from mutant phenotype |GO:0006487
llular component| membrane | inferred from sequence similarity|GO:0016020//biological process| monovalent inorganic cation transport | inferred from seq
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ble author statement|GO:0016579
smic microtubule | traceable author statement|GO:0005881//cellular component| kinesin complex | inferred from direct assay |GO:0005871//cellular compo
on|GO:0007124
| inferred from direct assay |GO:0005730//biological process| 35S primary transcript processing | traceable author statement|GO:0006365//biological proc
henotype|GO:0006406
traceable author statement|GO:0006414
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
nferred from direct assay|GO:0006464//biological process| G2/M transition of mitotic cell cycle | traceable author statement |GO:0000086//biological proces
mponent| microsome | inferred from physical interaction |GO:0005792//cellular component| membrane fraction | inferred from direct assay |GO:0005624//b
statement |GO:0005886//biological process| budding | traceable author statement|GO:0007114
t|GO:0007049//biological process| transcription | traceable author statement |GO:0006350//biological process| G1/S transition of mitotic cell cycle | inferred
23//cellular component| nucleus | inferred from physical interaction |GO:0005634//biological process| RNA elongation from Pol II promoter | inferred from p
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ivity | inferred from mutant phenotype |GO:0004169//cellular component| endoplasmic reticulum | traceable author statement|GO:0005783//biological proc
cellular | traceable author statement|GO:0005622//biological process| protein amino acid geranylgeranylation | inferred from direct assay|GO:0018348//bio
O:0003677//cellular component| nucleus | inferred from physical interaction|GO:0005634//biological process| mismatch repair | inferred from direct assay|G
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
0005634//biological process| NAD biosynthesis | inferred from mutant phenotype|GO:0009435//biological process| NAD biosynthesis | inferred from direct
O:0005634//biological process| mRNA-nucleus export | traceable author statement|GO:0006406
0005198//molecular function| structural molecule activity | inferred from mutant phenotype |GO:0005198//cellular component| proton-transporting ATP syn
ological process| transcription from Pol II promoter | traceable author statement|GO:0006366
uitin-dependent protein catabolism | traceable author statement|GO:0006511
ar component| cytoplasm | inferred from direct assay |GO:0005737//biological process| protein biosynthesis | traceable author statement|GO:0006412
gical process| protein biosynthesis | traceable author statement|GO:0006412
ear mRNA splicing, via spliceosome | inferred from genetic interaction |GO:0000398
eroxisome organization and biogenesis | inferred from mutant phenotype |GO:0007031//biological process| peroxisome organization and biogenesis | infer
1//molecular function| purine-nucleoside phosphorylase activity | inferred from direct assay |GO:0004731//biological process| purine nucleoside catabolism
GO:0004573//cellular component| endoplasmic reticulum membrane | inferred from direct assay|GO:0005789//biological process| cell wall organization an
ant phenotype|GO:0030490//biological process| rRNA processing | inferred from mutant phenotype |GO:0006364
physical interaction|GO:0006623//biological process| protein-vacuolar targeting | inferred from mutant phenotype |GO:0006623//biological process| protein
ed from direct assay |GO:0003720//molecular function| single-stranded DNA binding | traceable author statement |GO:0003697//cellular component| nucleo
e base biosynthesis | traceable author statement|GO:0006207//biological process| 'de novo' IMP biosynthesis | traceable author statement |GO:0006189//
biogenesis | inferred from mutant phenotype|GO:0007047//biological process| beta-1,3 glucan biosynthesis | inferred from mutant phenotype |GO:0006075
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
m | traceable author statement|GO:0008054//biological process| mitotic metaphase/anaphase transition | traceable author statement |GO:0007091//biolog
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
m mutant phenotype|GO:0019395//biological process| fatty acid oxidation | inferred from expression pattern |GO:0019395
t protein catabolism | inferred from sequence similarity|GO:0006511
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
d from sequence similarity |GO:0000324
nteraction|GO:0005937//biological process| protein modification | inferred from direct assay|GO:0006464//biological process| cellular morphogenesis durin
nferred from direct assay |GO:0005834//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological process| signal transduction du
component| cytosol | inferred from direct assay|GO:0005829//biological process| autophagy | inferred from mutant phenotype|GO:0006914
ct assay |GO:0005635//biological process| endocytosis | inferred from mutant phenotype|GO:0006897
atement |GO:0005832//cellular component| cytoplasm | traceable author statement |GO:0005737//cellular component| cytoplasm | inferred from direct ass
ytoplasm | traceable author statement|GO:0005737//biological process| response to hydrogen peroxide | inferred from mutant phenotype|GO:0042542//bio
component| DNA-directed RNA polymerase III complex | inferred from direct assay|GO:0005666//biological process| transcription initiation from Pol III pro
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
function| glycogen (starch) synthase activity | inferred from genetic interaction |GO:0004373//cellular component| cytoplasm | inferred from direct assay|G
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ctivity | inferred from direct assay |GO:0004842//cellular component| anaphase-promoting complex | traceable author statement|GO:0005680//biological p
nent| nucleus | inferred from direct assay |GO:0005634
ed from mutant phenotype |GO:0005737//biological process| valyl-tRNA aminoacylation | inferred from direct assay|GO:0006438
omponent| cytoplasm | inferred from direct assay|GO:0005737//biological process| hexose metabolism | inferred from mutant phenotype|GO:0019318//bio
| inferred from direct assay |GO:0005624//biological process| calcium-mediated signaling | inferred from mutant phenotype|GO:0019722//biological proces
y |GO:0005634//biological process| cytosine metabolism | inferred from mutant phenotype|GO:0019858
ical process| protein biosynthesis | traceable author statement|GO:0006412
777//biological process| protein-peroxisome targeting | inferred from physical interaction|GO:0006625//biological process| protein-peroxisome targeting | in
sical interaction |GO:0007046
om genetic interaction |GO:0006826
ar component| cytoplasm | inferred from direct assay |GO:0005737//biological process| protein biosynthesis | traceable author statement|GO:0006412
mbly (sensu Fungi) | inferred from direct assay |GO:0030476
synthesis | traceable author statement|GO:0019856
able author statement|GO:0006412
eticulum network | inferred from direct assay|GO:0042175//cellular component| soluble fraction | inferred from direct assay |GO:0005625//biological proces
ctose transporter activity | inferred from genetic interaction |GO:0005354//molecular function| fructose transporter activity | inferred from genetic interaction
d from direct assay|GO:0006468//biological process| DNA damage response, signal transduction resulting in cell cycle arrest | inferred from mutant pheno
O:0003701//molecular function| ribosomal DNA (rDNA) binding | inferred from physical interaction |GO:0000182//molecular function| ribosomal DNA (rDNA
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
osolic large ribosomal subunit (sensu Eukarya) | traceable author statement|GO:0005842//cellular component| cytoplasm | inferred from direct assay |GO:0
:0016274//molecular function| protein-arginine N-methyltransferase activity | inferred from mutant phenotype |GO:0016274//molecular function| protein-arg
essing | inferred from genetic interaction |GO:0016485
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ological process| cell projection biogenesis | inferred from mutant phenotype|GO:0030031//biological process| response to pheromone during conjugation w
atement |GO:0005832//cellular component| cytoplasm | traceable author statement |GO:0005737//biological process| cytoskeleton organization and bioge
inferred from direct assay |GO:0005737//cellular component| nuclear telomere cap complex | inferred from genetic interaction |GO:0000783//biological pro
ogenesis | inferred from mutant phenotype|GO:0006999//biological process| protein-nucleus export | traceable author statement |GO:0006611//biological
processing | traceable author statement|GO:0006365
gical process| protein biosynthesis | traceable author statement|GO:0006412
| protein biosynthesis | traceable author statement|GO:0006412
al process| transcription initiation from Pol III promoter | traceable author statement|GO:0006384
gical process| protein biosynthesis | traceable author statement|GO:0006412
n and biogenesis | inferred from genetic interaction |GO:0007047
m mutant phenotype|GO:0007165//biological process| protein amino acid phosphorylation | inferred from sequence similarity |GO:0006468
m direct assay |GO:0003924//cellular component| bud | traceable author statement|GO:0005933//cellular component| plasma membrane | inferred from dir
irect assay |GO:0005737//biological process| MAPKKK cascade | inferred from physical interaction|GO:0000165
GO:0005634//biological process| nuclear mRNA splicing, via spliceosome | inferred from physical interaction|GO:0000398
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ssay |GO:0005634//biological process| response to stress | inferred from mutant phenotype|GO:0006950//biological process| response to stress | inferred
author statement|GO:0009090//biological process| threonine metabolism | traceable author statement |GO:0006566//biological process| methionine metab
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
:0005634//biological process| cell growth and/or maintenance | inferred from mutant phenotype|GO:0008151//biological process| protein amino acid phosp
assay|GO:0005819//cellular component| prospore membrane | inferred from direct assay |GO:0005628//biological process| spore wall assembly (sensu Fu
recombination | inferred from mutant phenotype|GO:0007131//biological process| RNA elongation from Pol II promoter | inferred from direct assay |GO:00
on initiation factor activity | inferred from sequence similarity |GO:0003743//cellular component| cytosolic small ribosomal subunit (sensu Eukarya) | inferre
gical process| aerobic respiration | inferred from mutant phenotype|GO:0009060
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ss| ubiquitin-dependent protein catabolism | inferred from mutant phenotype|GO:0006511
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
red from mutant phenotype |GO:0006817
ochondrial small ribosomal subunit | traceable author statement|GO:0005763//cellular component| mitochondrial small ribosomal subunit | inferred from dir
mponent| phenylalanine-tRNA ligase complex | traceable author statement|GO:0009328//biological process| phenylalanyl-tRNA aminoacylation | traceable
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ical process| protein biosynthesis | traceable author statement|GO:0006412
c region | inferred from mutant phenotype |GO:0000781//biological process| DNA recombination | traceable author statement|GO:0006310//biological proce
membrane | inferred from direct assay |GO:0005789//biological process| water transport | inferred from sequence similarity|GO:0006833
ondrial outer membrane translocase complex | inferred from physical interaction|GO:0005742//cellular component| mitochondrial outer membrane transloc
d protein response, target gene transcriptional activation | traceable author statement|GO:0006990//biological process| phospholipid metabolism | traceabl
gical process| protein biosynthesis | traceable author statement|GO:0006412
ochondrion | inferred from mutant phenotype|GO:0005739//cellular component| cytoplasm | inferred from mutant phenotype |GO:0005737//biological proce
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
s| cell wall organization and biogenesis | traceable author statement|GO:0007047//biological process| cellular morphogenesis | traceable author statement
g | inferred from direct assay|GO:0006457
l subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | traceable author statement|GO:0006412
0//biological process| sterol transport | inferred from mutant phenotype|GO:0015918
otype |GO:0004314//cellular component| mitochondrion | inferred from sequence similarity|GO:0005739//cellular component| mitochondrion | inferred from
n, DNA-dependent | inferred from sequence similarity|GO:0006355//biological process| carbohydrate metabolism | inferred from sequence similarity |GO:0
ellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| protein biosynthesis | inferred from physical interaction|GO:0006
on| transcriptional activator activity | inferred from mutant phenotype |GO:0016563//molecular function| DNA binding | inferred from sequence similarity |GO
or statement|GO:0007126//biological process| negative regulation of transcription from Pol II promoter | inferred from direct assay |GO:0000122
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ferred from direct assay|GO:0000372
hesis | traceable author statement|GO:0006696
process| transcription from Pol III promoter | traceable author statement|GO:0006383
atin | traceable author statement|GO:0005724//cellular component| nucleus | traceable author statement |GO:0005634//cellular component| nuclear telome
erred from sequence similarity|GO:0030121//cellular component| AP-1 adaptor complex | inferred from physical interaction |GO:0030121//biological proces
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
m mutant phenotype |GO:0004702//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| MAPKKK cascade | inferre
GO:0000307//biological process| cell cycle | traceable author statement|GO:0007049
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ferred from direct assay|GO:0005739//biological process| RNA splicing | inferred from genetic interaction|GO:0008380//biological process| iron ion transpo
aceable author statement|GO:0006414
ed from mutant phenotype |GO:0000335
edoxin peroxidase activity | inferred from direct assay |GO:0008379//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological pro
gical process| GPI anchor biosynthesis | inferred from mutant phenotype|GO:0006506
onent| intermediate layer of spindle pole body | inferred from direct assay |GO:0005821//biological process| spindle pole body duplication (sensu Sacchar
NA polymerase II, core complex | inferred from sequence similarity |GO:0005665//biological process| transcription from Pol II promoter | inferred from muta
ical process| protein biosynthesis | traceable author statement|GO:0006412
milarity|GO:0006810
embly (sensu Fungi) | inferred from mutant phenotype|GO:0030472//biological process| mitotic spindle assembly (sensu Fungi) | inferred from genetic inte
| inferred from mutant phenotype|GO:0009303
ct assay |GO:0005634//biological process| sulfur metabolism | inferred from sequence similarity|GO:0006790
ical process| protein biosynthesis | traceable author statement|GO:0006412//biological process| ribosomal large subunit assembly and maintenance | infe
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
x | inferred from direct assay |GO:0000123//biological process| chromatin modification | inferred from sequence similarity|GO:0016568//biological process|
x | inferred from direct assay |GO:0042729//cellular component| cytosolic small ribosomal subunit (sensu Eukarya) | traceable author statement |GO:00058
erred from direct assay|GO:0019408//biological process| protein amino acid glycosylation | inferred from mutant phenotype |GO:0006486//biological proce
direct assay |GO:0005634//biological process| RNA processing | inferred from sequence similarity|GO:0006396
/cellular component| membrane fraction | inferred from sequence similarity|GO:0005624//biological process| cell wall organization and biogenesis | inferre
nt| endoplasmic reticulum membrane | inferred from sequence similarity|GO:0005789//cellular component| endoplasmic reticulum membrane | inferred from
otype|GO:0007126
gical process| protein biosynthesis | traceable author statement|GO:0006412//biological process| ribosomal small subunit assembly and maintenance | infe
ay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| L-serine metabolism | inferred from curator|GO:
n of transcription from Pol II promoter | inferred from genetic interaction|GO:0045944//biological process| glucose transport | inferred from genetic interact
ant phenotype|GO:0030490//biological process| ribosome biogenesis | inferred from mutant phenotype |GO:0007046
eraction |GO:0000228//biological process| chromatin silencing at silent mating-type cassette (sensu Fungi) | inferred from mutant phenotype|GO:0030466/
mponent| small nucleolar ribonucleoprotein complex | inferred from physical interaction |GO:0005732//cellular component| nucleolus | inferred from direct as
Saccharomyces) | inferred from sequence similarity|GO:0000501
say|GO:0005940//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| protein sumoylation | traceable author stateme
| inferred from expression pattern|GO:0019541//biological process| propionate metabolism | inferred from direct assay |GO:0019541//biological process| th
inferred from direct assay|GO:0005885//cellular component| mitochondrial membrane | traceable author statement |GO:0005740//biological process| actin
nucleus | inferred from direct assay |GO:0005634//biological process| NAD biosynthesis | inferred from mutant phenotype|GO:0009435//biological process|
ore | inferred from direct assay |GO:0005643//biological process| spindle pole body duplication (sensu Saccharomyces) | inferred from mutant phenotype|G
0//biological process| transport | inferred from sequence similarity|GO:0006810
us | inferred from direct assay|GO:0005730//biological process| rRNA processing | inferred from mutant phenotype|GO:0006364//biological process| rRNA
om mutant phenotype|GO:0007049//biological process| mRNA-binding (hnRNP) protein-nucleus import | inferred from sequence similarity |GO:0006609//b
d from direct assay|GO:0006430
inferred from direct assay|GO:0005829//biological process| NADPH regeneration | traceable author statement|GO:0006740//biological process| gluconeo
y|GO:0000245
chitin biosynthesis | inferred from mutant phenotype |GO:0006038
llular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological pro
O:0005967//cellular component| mitochondrion | inferred from direct assay |GO:0005739//biological process| pyruvate metabolism | traceable author state
rom sequence similarity|GO:0006897//biological process| endocytosis | inferred from physical interaction |GO:0006897
e acetylation | inferred from direct assay|GO:0016573//biological process| regulation of transcription from Pol II promoter | inferred from direct assay |GO:0
nt |GO:0005798//biological process| intra-Golgi transport | traceable author statement|GO:0006891//biological process| ER to Golgi transport | traceable au
phenotype |GO:0006623
0005634//biological process| protein-nucleus import | inferred from mutant phenotype|GO:0006606//biological process| ubiquitin-dependent protein catabo
red from direct assay |GO:0005634//biological process| signal transduction | traceable author statement|GO:0007165//biological process| post-Golgi transp
owth | inferred from mutant phenotype|GO:0030447//biological process| signal transduction | inferred from mutant phenotype |GO:0007165//biological pro
e-sugar transport | inferred from sequence similarity|GO:0015780
t of protein localization | inferred from mutant phenotype|GO:0045184//biological process| ER-associated protein catabolism | inferred from mutant phenot
complex | inferred from physical interaction|GO:0019005//cellular component| cytoplasm | inferred from direct assay |GO:0005737//cellular component| nu
uration | traceable author statement|GO:0007323//biological process| proteolysis and peptidolysis | traceable author statement |GO:0006508
cation | inferred from direct assay|GO:0000154
actin monomers | inferred from direct assay|GO:0042989//biological process| actin polymerization and/or depolymerization | inferred from physical interact
processing of 20S pre-rRNA | inferred from physical interaction|GO:0030490//biological process| processing of 20S pre-rRNA | inferred from mutant pheno
| inferred from direct assay |GO:0005737//biological process| regulation of transcription from Pol II promoter | inferred from physical interaction|GO:00063
vity | inferred from mutant phenotype |GO:0003825//cellular component| alpha,alpha-trehalose-phosphate synthase complex (UDP-forming) | inferred from
biosynthesis, aminoadipic pathway | traceable author statement|GO:0019878
|GO:0005634//biological process| rRNA metabolism | inferred from mutant phenotype|GO:0016072//biological process| protein-nucleus import | inferred fr
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
sensu Eukarya) | traceable author statement|GO:0005838//cellular component| endoplasmic reticulum | inferred from direct assay |GO:0005783//cellular c
nt| protein phosphatase type 2A complex | traceable author statement|GO:0000159//biological process| bud growth | traceable author statement|GO:00071
al process| transcription from Pol III promoter | traceable author statement|GO:0006383
mutant phenotype |GO:0007046
on| tRNA methyltransferase activity | inferred from direct assay |GO:0008175//cellular component| cytoplasm | inferred from direct assay|GO:0005737//bio
r statement|GO:0046107//biological process| regulation of transcription, DNA-dependent | traceable author statement |GO:0006355
gical process| protein biosynthesis | traceable author statement|GO:0006412
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
004775//molecular function| succinate-CoA ligase (ADP-forming) activity | inferred from direct assay |GO:0004775//cellular component| mitochondrion | in
rocess| nuclear mRNA splicing, via spliceosome | inferred from physical interaction|GO:0000398
nent| endoplasmic reticulum lumen | traceable author statement|GO:0005788//biological process| protein folding | inferred from mutant phenotype|GO:0006
ed from mutant phenotype|GO:0009435
GO:0005768//biological process| transport | inferred from sequence similarity|GO:0006810//biological process| transport | inferred from mutant phenotype
nction| mRNA methyltransferase activity | inferred from direct assay |GO:0008174//biological process| mRNA modification | inferred from sequence similari
t phenotype |GO:0005685//cellular component| snRNP U1 | inferred from genetic interaction |GO:0005685//cellular component| snRNP U1 | inferred from
genome maintenance | inferred from mutant phenotype|GO:0000002
from direct assay|GO:0005730//cellular component| nuclear telomeric heterochromatin | inferred from direct assay |GO:0005724//cellular component| chro
tion from Pol II promoter | inferred from mutant phenotype|GO:0045944//biological process| phospholipid biosynthesis | inferred from mutant phenotype |G
ar | traceable author statement|GO:0005622//biological process| actin cytoskeleton organization and biogenesis | inferred from genetic interaction|GO:003
utant phenotype|GO:0046459//biological process| chromatin silencing at telomere | inferred from genetic interaction |GO:0006348
complex | inferred from direct assay |GO:0008290//biological process| cell wall organization and biogenesis | inferred from physical interaction|GO:000704
direct assay |GO:0005634//biological process| protein monoubiquitination | traceable author statement|GO:0006513//biological process| postreplication rep
63//molecular function| chromatin binding | inferred from mutant phenotype |GO:0003682//cellular component| COMPASS complex | inferred from physica
O:0005634//biological process| nucleocytoplasmic transport | traceable author statement|GO:0006913
37//biological process| copper ion homeostasis | inferred from physical interaction|GO:0006878//biological process| copper ion homeostasis | inferred from
ogenesis | traceable author statement|GO:0006999//biological process| protein-nucleus export | traceable author statement |GO:0006611//biological proce
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
nt| prospore membrane | inferred from direct assay|GO:0005628//cellular component| protein phosphatase type 1 complex | inferred from physical interacti
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| phosphate transport | inferred from m
henotype|GO:0019541
//cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| regulation of transcription, mating-type specific | inferred from m
nent| endoplasmic reticulum membrane | inferred from direct assay|GO:0005789//biological process| protein-ER retention | inferred from mutant phenotype
activity | inferred from mutant phenotype |GO:0045703//molecular function| ketoreductase activity | inferred from genetic interaction |GO:0045703//cellular
05955//cellular component| calcineurin complex | inferred from physical interaction |GO:0005955//cellular component| cytoplasm | traceable author stateme
GO:0000812//biological process| protein-vacuolar targeting | inferred from mutant phenotype|GO:0006623//biological process| chromatin remodeling | infer
ction | traceable author statement|GO:0007265//biological process| G-protein signaling, coupled to cAMP nucleotide second messenger | traceable author
enotype|GO:0030490
GO:0000812//biological process| chromatin remodeling | inferred from physical interaction|GO:0006338//biological process| chromatin remodeling | inferred
e coat | inferred from direct assay |GO:0030127//cellular component| endoplasmic reticulum membrane | inferred from direct assay |GO:0005789//biologic
rect assay |GO:0005634//biological process| nitrogen metabolism | inferred from mutant phenotype|GO:0006807//biological process| protein amino acid de
ch assembly | inferred from mutant phenotype|GO:0000147
om mutant phenotype |GO:0004487//cellular component| cytosol | inferred from direct assay|GO:0005829//biological process| purine base biosynthesis | i
| inferred from direct assay |GO:0005880//cellular component| kinesin complex | traceable author statement |GO:0005871//biological process| mitotic spind
r |GO:0005634//biological process| DNA-dependent DNA replication | inferred from genetic interaction|GO:0006261//biological process| DNA replication | i
mitochondrion | inferred from direct assay|GO:0005739//biological process| terpenoid biosynthesis | inferred from mutant phenotype|GO:0016114//biologica
ess| proteolysis and peptidolysis | inferred from physical interaction|GO:0006508//biological process| proteolysis and peptidolysis | inferred from mutant ph
ect assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| nucleotide metabolism | inferred from dir
s| osmosensory signaling pathway via two-component system | inferred from mutant phenotype|GO:0007234//biological process| osmosensory signaling p
ion and biogenesis | traceable author statement|GO:0007031//biological process| protein monoubiquitination | traceable author statement |GO:0006513//b
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ical process| protein biosynthesis | traceable author statement|GO:0006412
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ferred from direct assay |GO:0005634//biological process| G2/M transition of mitotic cell cycle | inferred from mutant phenotype|GO:0000086//biological pr
atement|GO:0006906//biological process| Golgi to vacuole transport | traceable author statement |GO:0006896
ical process| protein biosynthesis | traceable author statement|GO:0006412
d from direct assay|GO:0016192//biological process| protein transport | inferred from direct assay |GO:0015031//biological process| Golgi to plasma memb
y |GO:0005737//cellular component| GARP complex | inferred from physical interaction |GO:0000938//biological process| retrograde transport, endosome t
hor statement|GO:0046294
cript processing | traceable author statement|GO:0006365//biological process| rRNA modification | traceable author statement |GO:0000154
author statement|GO:0043037//biological process| D-amino acid catabolism | inferred from direct assay |GO:0019478
ellular component| proteasome core complex (sensu Eukarya) | traceable author statement |GO:0005839//biological process| ubiquitin-dependent protein
pe |GO:0004422//molecular function| hypoxanthine phosphoribosyltransferase activity | inferred from genetic interaction |GO:0004422//cellular component|
onent| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| histo
g conjugation with cellular fusion | non-traceable author statement|GO:0000749
on |GO:0016758//cellular component| endoplasmic reticulum | inferred from mutant phenotype|GO:0005783//biological process| GPI anchor biosynthesis |
ch repair | traceable author statement|GO:0006298//biological process| DNA repair | inferred from mutant phenotype |GO:0006281//biological process| lea
9//biological process| mitochondrial electron transport, succinate to ubiquinone | traceable author statement|GO:0006121//biological process| tricarboxylic
ubiquitin-dependent protein catabolism | traceable author statement|GO:0006511
ical process| protein biosynthesis | traceable author statement|GO:0006412
| inferred from physical interaction |GO:0000243//biological process| nuclear mRNA splicing, via spliceosome | inferred from physical interaction|GO:0000
ecular function| siderochrome-iron transporter activity | inferred from genetic interaction |GO:0015343//molecular function| siderochrome-iron transporter a
al interaction |GO:0000938//biological process| retrograde transport, endosome to Golgi | inferred from direct assay|GO:0042147//biological process| Golg
m | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| response to stress | i
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
from direct assay |GO:0005634//biological process| tRNA modification | inferred from direct assay|GO:0006400
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
tabolism | inferred from mutant phenotype|GO:0006760
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ucleus | inferred from direct assay|GO:0005634//cellular component| SAGA complex | inferred from direct assay |GO:0000124//biological process| histone
on transport | inferred from sequence similarity|GO:0015693
endent cotranslational membrane targeting, translocation | traceable author statement|GO:0006616
eaminase activity | inferred from genetic interaction |GO:0004132//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological proc
cess| pseudohyphal growth | inferred from mutant phenotype|GO:0007124//biological process| axial budding | inferred from mutant phenotype |GO:000712
rred from mutant phenotype |GO:0008565//cellular component| mitochondrial inner membrane | inferred from direct assay|GO:0005743//cellular componen
74//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biologi
|GO:0007165//biological process| signal transduction | inferred from mutant phenotype |GO:0007165
uthor statement|GO:0008152
005829//cellular component| Golgi membrane | inferred from direct assay |GO:0000139//biological process| osmoregulation | traceable author statement|G
596//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| N-terminal peptidyl-methionine acetylation | inferred from
dc73/Paf1 complex | traceable author statement|GO:0016593//cellular component| Cdc73/Paf1 complex | inferred from physical interaction |GO:0016593//c
0005856//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological process| establishment of cell polarity (sensu Saccharomyce
cess| beta-1,6 glucan biosynthesis | traceable author statement|GO:0006078
assay |GO:0005940//cellular component| bud neck | inferred from direct assay |GO:0005935//biological process| protein amino acid phosphorylation | infer
ma membrane | inferred from sequence similarity|GO:0005886//biological process| amino acid transport | inferred from mutant phenotype|GO:0006865//bio
moo tip | inferred from direct assay |GO:0005937//cellular component| bud neck | inferred from direct assay |GO:0005935//cellular component| bud tip | infe
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
otype |GO:0004314//cellular component| mitochondrion | inferred from sequence similarity|GO:0005739//cellular component| mitochondrion | inferred from
ent| mitochondrion | inferred from direct assay|GO:0005739//biological process| protein biosynthesis | inferred from sequence similarity|GO:0006412//biolo
rane | non-traceable author statement|GO:0005886//biological process| extracellular carbohydrate transport | traceable author statement|GO:0006859//bio
ogenesis | traceable author statement|GO:0006999//biological process| protein-nucleus export | traceable author statement |GO:0006611//biological proce
gical process| protein biosynthesis | traceable author statement|GO:0006412
process| proteolysis and peptidolysis | inferred from physical interaction |GO:0006508
ed from curator|GO:0006810
om genetic interaction|GO:0005634//biological process| double-strand break repair via single-strand annealing | inferred from genetic interaction|GO:00450
erred from direct assay |GO:0005643//biological process| protein-nucleus import | inferred from physical interaction|GO:0006606
gulation of transcription from Pol II promoter | inferred from direct assay|GO:0045944//biological process| regulation of protein catabolism | inferred from m
on (sensu Fungi) | inferred from mutant phenotype|GO:0030437
ical process| protein biosynthesis | traceable author statement|GO:0006412
e |GO:0007126//biological process| invasive growth (sensu Saccharomyces) | inferred from mutant phenotype |GO:0001403
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
eosome complex | inferred from direct assay |GO:0005681//biological process| nuclear mRNA splicing, via spliceosome | inferred from genetic interaction|G
traceable author statement|GO:0006635
mutant phenotype |GO:0003924//cellular component| late endosome | inferred from mutant phenotype|GO:0005770//biological process| endocytosis | inferr
ication repair | traceable author statement|GO:0006301//biological process| mismatch repair | non-traceable author statement |GO:0006298//biological pro
o salt stress | inferred from physical interaction|GO:0009651//biological process| response to salt stress | inferred from genetic interaction |GO:0009651//b
tatement|GO:0006365//biological process| ribosomal small subunit assembly and maintenance | traceable author statement |GO:0000028
membrane | inferred from direct assay |GO:0005635//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| CDP-choli
sical interaction|GO:0042273//biological process| ribosomal large subunit biogenesis | inferred from mutant phenotype |GO:0042273//biological process| c
3//molecular function| 6-phosphofructo-2-kinase activity | inferred from sequence similarity |GO:0003873//cellular component| cytosol | traceable author sta
al process| transcription initiation from Pol III promoter | traceable author statement|GO:0006384
us | traceable author statement |GO:0005634//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| pseudohyphal gro
nent| endoplasmic reticulum | traceable author statement|GO:0005783//biological process| protein folding | inferred from genetic interaction|GO:0006457
| ARF GTPase activator activity | inferred from direct assay |GO:0008060//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biologi
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ceable author statement|GO:0006513//biological process| protein polyubiquitination | traceable author statement |GO:0000209
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
om mutant phenotype|GO:0009097//biological process| mitochondrial genome maintenance | inferred from mutant phenotype |GO:0000002
ellular component| cytoplasm | traceable author statement|GO:0005737//biological process| lysine biosynthesis, aminoadipic pathway | traceable author st
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
m mutant phenotype|GO:0010038//biological process| response to heat | inferred from mutant phenotype |GO:0009408
ed from mutant phenotype|GO:0000910
leus | inferred from direct assay |GO:0005634//biological process| coenzyme A biosynthesis | inferred from sequence similarity|GO:0015937
34//biological process| regulation of cell cycle | inferred from mutant phenotype|GO:0000074
aceable author statement|GO:0006333
nferred from direct assay|GO:0005745//cellular component| mitochondrial inner membrane | inferred from direct assay |GO:0005743//biological process| m
om physical interaction|GO:0006888
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
able author statement|GO:0006364//biological process| ribosomal large subunit assembly and maintenance | traceable author statement |GO:0000027
s| anaerobic respiration | traceable author statement|GO:0009061
O:0004379//cellular component| cytosol | inferred from direct assay|GO:0005829//biological process| N-terminal peptidyl-glycine N-myristoylation | traceab
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
plasma membrane | inferred from direct assay|GO:0005886//biological process| propionate metabolism | inferred from expression pattern|GO:0019541//bi
utant phenotype |GO:0000347//biological process| mRNA-nucleus export | inferred from mutant phenotype|GO:0006406//biological process| RNA elongati
ng | traceable author statement|GO:0006613
porter activity | inferred from direct assay |GO:0005355//molecular function| fructose transporter activity | traceable author statement |GO:0005353//cellular
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ma membrane | inferred from sequence similarity|GO:0005886//biological process| neutral amino acid transport | inferred from direct assay|GO:0015804
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
esis (sensu Fungi) | inferred from mutant phenotype|GO:0009272
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ctivity | inferred from genetic interaction |GO:0003883//cellular component| cytosol | traceable author statement|GO:0005829//biological process| pyrimidin
ss| copper ion homeostasis | inferred from mutant phenotype|GO:0006878//biological process| transcription initiation from Pol II promoter | inferred from se
y |GO:0000815//biological process| late endosome to vacuole transport | inferred from physical interaction|GO:0045324//biological process| protein-Golgi
693//cellular component| transcription factor complex | traceable author statement|GO:0005667//biological process| regulation of transcription | inferred from
ication fork | traceable author statement |GO:0005657//biological process| chromatin silencing at telomere | inferred from mutant phenotype|GO:0006348//
statement|GO:0005802//cellular component| early endosome | traceable author statement |GO:0005769//cellular component| Golgi trans cisterna | traceab
om direct assay |GO:0005634//cellular component| SWR1 complex | inferred from physical interaction |GO:0000812//biological process| regulation of tran
ct assay |GO:0005635//biological process| endocytosis | inferred from mutant phenotype|GO:0006897
statement|GO:0005802//cellular component| early endosome | traceable author statement |GO:0005769//cellular component| Golgi trans cisterna | traceab
biosynthesis | inferred from direct assay |GO:0006696
mutant phenotype |GO:0006276
etabolism | inferred from mutant phenotype|GO:0000096
/biological process| processing of 20S pre-rRNA | inferred from physical interaction|GO:0030490//biological process| 35S primary transcript processing | tr
cleus | inferred from direct assay|GO:0005634//biological process| lysine biosynthesis, aminoadipic pathway | traceable author statement|GO:0019878
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ar function| G-protein coupled receptor activity | inferred from mutant phenotype |GO:0004930//cellular component| plasma membrane | inferred from direc
d from expression pattern |GO:0009269//biological process| response to stress | inferred from expression pattern |GO:0006950
i transport | traceable author statement|GO:0006891//biological process| ER to Golgi transport | traceable author statement |GO:0006888
| inferred from genetic interaction |GO:0006888
ription from Pol II promoter | inferred from direct assay|GO:0006366
molecular function| transporter activity | inferred from sequence similarity |GO:0005215//cellular component| membrane | inferred from sequence similarity|
mitochondrial inner membrane | inferred from direct assay|GO:0005743//cellular component| mitochondrion | inferred from direct assay |GO:0005739//bio
ical process| protein biosynthesis | traceable author statement|GO:0006412
ant phenotype |GO:0003704//molecular function| specific RNA polymerase II transcription factor activity | inferred from genetic interaction |GO:0003704//ce
atement|GO:0007120//biological process| bud growth | inferred from mutant phenotype |GO:0007117//biological process| bud growth | inferred from geneti
| inferred from direct assay |GO:0005634//biological process| UDP-N-acetylglucosamine biosynthesis | inferred from mutant phenotype|GO:0006048//biol
rocess| nuclear mRNA splicing, via spliceosome | inferred from physical interaction|GO:0000398//biological process| nuclear mRNA splicing, via spliceoso
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
rred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| protein-nucleus import | inf
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
GO:0005634//biological process| G-protein signaling, coupled to cAMP nucleotide second messenger | inferred from mutant phenotype|GO:0007188
//cellular component| intracellular | traceable author statement|GO:0005622//biological process| purine nucleoside monophosphate biosynthesis | traceable
ion from Pol II promoter | inferred from mutant phenotype |GO:0006357//biological process| regulation of transcription from Pol II promoter | inferred from
sical interaction |GO:0003704//molecular function| specific RNA polymerase II transcription factor activity | inferred from mutant phenotype |GO:0003704//c
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ype|GO:0000755//biological process| cellular morphogenesis during conjugation with cellular fusion | inferred from mutant phenotype |GO:0000753
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
r maintenance | inferred from direct assay|GO:0008151
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
:0009277//cellular component| cytoplasm | inferred from direct assay |GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634
complex | inferred from direct assay |GO:0008290//biological process| cell wall organization and biogenesis | inferred from physical interaction|GO:000704
ed from direct assay |GO:0005739//biological process| glutamate biosynthesis | traceable author statement|GO:0006537//biological process| citrate metab
ical process| protein biosynthesis | traceable author statement|GO:0006412
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ctin cable formation | inferred from mutant phenotype|GO:0045011//biological process| actin cytoskeleton organization and biogenesis | inferred from muta
ceable author statement |GO:0005816//biological process| protein amino acid phosphorylation | inferred from direct assay|GO:0006468//biological process
tant phenotype |GO:0016571//biological process| regulation of cell size | inferred from genetic interaction |GO:0008361//biological process| meiosis | inferr
eable author statement|GO:0006415//biological process| mRNA catabolism, deadenylation-dependent | inferred from physical interaction |GO:0000288//bio
al process| transcription from Pol III promoter | traceable author statement|GO:0006383
uclear exosome (RNase complex) | inferred from direct assay |GO:0000176//biological process| mRNA catabolism | traceable author statement|GO:00064
005934//cellular component| exocyst | traceable author statement |GO:0000145//cellular component| exocyst | inferred from physical interaction |GO:00001
mponent| cytoplasm | inferred from direct assay|GO:0005737//biological process| thiamin biosynthesis | traceable author statement|GO:0009228
ay |GO:0005634
membrane fraction | inferred from direct assay |GO:0000300//cellular component| Golgi membrane | inferred from direct assay |GO:0000139//biological pro
s | inferred from physical interaction|GO:0005730//biological process| ribosomal large subunit assembly and maintenance | inferred from physical interactio
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ological process| protein deubiquitination | traceable author statement|GO:0016579
l process| transcription from Pol I promoter | traceable author statement|GO:0006360
direct assay |GO:0005737//biological process| signal transduction | inferred from physical interaction|GO:0007165
n | inferred from mutant phenotype|GO:0006261
uitin-dependent protein catabolism | traceable author statement|GO:0006511
sport | inferred from genetic interaction |GO:0006891
n | inferred from physical interaction|GO:0008053//biological process| mitochondrial fusion | inferred from mutant phenotype |GO:0008053//biological proce
ucleolus | inferred from direct assay |GO:0005730//biological process| processing of 20S pre-rRNA | inferred from physical interaction|GO:0030490//biolog
ent| intracellular | traceable author statement|GO:0005622//biological process| response to nutrients | inferred from mutant phenotype|GO:0007584//biolog
m mutant phenotype|GO:0006281//biological process| nucleobase, nucleoside, nucleotide and nucleic acid metabolism | inferred from genetic interaction |
hesis-dependent strand annealing | traceable author statement|GO:0045003//biological process| double-strand break repair via single-strand annealing | in
otic chromosome condensation | traceable author statement|GO:0007076//biological process| mitotic chromosome condensation | inferred from genetic in
ogenesis | inferred from physical interaction|GO:0006999//biological process| nuclear pore organization and biogenesis | inferred from mutant phenotype |
cess| spindle pole body duplication (sensu Saccharomyces) | inferred from mutant phenotype|GO:0007103//biological process| microtubule nucleation | in
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
pe |GO:0016149//cellular component| cytosol | inferred from physical interaction|GO:0005829//biological process| translational termination | inferred from s
cellular component| integral to membrane | inferred from direct assay|GO:0016021//cellular component| plasma membrane | inferred from direct assay |G
ence similarity|GO:0006810
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
irect assay |GO:0005634//biological process| tRNA processing | inferred from genetic interaction|GO:0008033//biological process| tRNA modification | infe
ogenesis | inferred from mutant phenotype|GO:0006999//biological process| nuclear membrane organization and biogenesis | inferred from mutant pheno
5634//biological process| processing of 20S pre-rRNA | traceable author statement|GO:0030490//biological process| processing of 20S pre-rRNA | inferred
eable author statement|GO:0006413
drion | inferred from direct assay |GO:0005739//biological process| oxygen and reactive oxygen species metabolism | inferred from mutant phenotype|GO:
:0000780//cellular component| condensed nuclear chromosome, pericentric region | inferred from genetic interaction |GO:0000780//cellular component| co
ed from direct assay|GO:0005634//biological process| nucleocytoplasmic transport | inferred from genetic interaction|GO:0006913//biological process| mR
ndrial matrix | inferred from direct assay|GO:0005759//cellular component| mitochondrion | inferred from direct assay |GO:0005739//biological process| iron
m | inferred from direct assay|GO:0005737//biological process| osmosensory signaling pathway | inferred from mutant phenotype|GO:0007231//biological
|GO:0004477//molecular function| formate-tetrahydrofolate ligase activity | inferred from direct assay |GO:0004329//cellular component| mitochondrion | in
ular component| soluble fraction | inferred from direct assay|GO:0005625//biological process| alcohol metabolism | inferred from direct assay|GO:0006066
mutant phenotype|GO:0009408//biological process| response to stress | inferred from mutant phenotype |GO:0006950//biological process| regulation of tra
ay |GO:0005634//biological process| pentose-phosphate shunt | inferred from genetic interaction|GO:0006098
ntegral to endoplasmic reticulum membrane | inferred from direct assay|GO:0030176//biological process| peptide pheromone maturation | inferred from dir
ose transporter activity | inferred from genetic interaction |GO:0005353//cellular component| plasma membrane | inferred from sequence similarity|GO:000
ization and biogenesis | inferred from genetic interaction |GO:0007047
d biogenesis | traceable author statement|GO:0007031
n ligase complex | traceable author statement|GO:0019005//cellular component| nuclear ubiquitin ligase complex | traceable author statement |GO:00001
ect assay |GO:0005634//biological process| ubiquitin cycle | traceable author statement|GO:0006512
matrix | inferred from direct assay|GO:0005759//biological process| heme a biosynthesis | inferred from mutant phenotype|GO:0006784//biological proces
om direct assay|GO:0005737//cellular component| nuclear pore | inferred from physical interaction |GO:0005643//biological process| mRNA-nucleus expor
l subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | traceable author statement|GO:0006412
ogenesis | inferred from mutant phenotype|GO:0006999//biological process| protein-nucleus export | traceable author statement |GO:0006611//biological
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
omponent| DNA-directed RNA polymerase III complex | traceable author statement |GO:0005666//biological process| transcription from Pol III promoter | t
/cellular component| cytosol | traceable author statement |GO:0005829//cellular component| lipid particle | inferred from direct assay |GO:0005811//biolog
cal process| protein biosynthesis | inferred from sequence similarity|GO:0006412
RNA splicing, via spliceosome | traceable author statement|GO:0048026//biological process| meiosis | traceable author statement |GO:0007126
ponent| nucleus | inferred from direct assay |GO:0005634//biological process| chromatin silencing at telomere | inferred from mutant phenotype|GO:000634
Pol II promoter | inferred from direct assay|GO:0006357
n | inferred from mutant phenotype|GO:0006261
cess| protein metabolism | inferred from mutant phenotype|GO:0019538
GO:0005634//biological process| GMP metabolism | traceable author statement|GO:0046037
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
| inferred from physical interaction |GO:0005783//cellular component| endoplasmic reticulum | inferred from direct assay |GO:0005783//biological process|
tant phenotype |GO:0006298
ble author statement|GO:0016579
molecular function| diacylglycerol pyrophosphate phosphatase activity | inferred from direct assay |GO:0000810//cellular component| vacuolar membrane (
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
su Fungi) | inferred from physical interaction |GO:0000324//biological process| vacuole fusion, non-autophagic | inferred from direct assay|GO:0042144//bi
| traceable author statement|GO:0000719
/cellular component| cytosol | traceable author statement |GO:0005829//cellular component| lipid particle | inferred from direct assay |GO:0005811//cellula
om mutant phenotype|GO:0006744
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ption | traceable author statement|GO:0006350//biological process| regulation of carbohydrate metabolism | traceable author statement |GO:0006109
n|GO:0007088
uclear chromosome kinetochore | inferred from direct assay |GO:0000778//biological process| spindle pole body duplication (sensu Saccharomyces) | trace
ce similarity|GO:0006281//biological process| DNA repair | inferred from direct assay |GO:0006281
body | inferred from direct assay|GO:0005816//biological process| spore wall assembly (sensu Fungi) | inferred from mutant phenotype|GO:0030476
mplex | traceable author statement|GO:0005680//biological process| cyclin catabolism | traceable author statement|GO:0008054//biological process| mitot
l process| transcription from Pol I promoter | traceable author statement|GO:0006360
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
etabolism | traceable author statement|GO:0006555
rom direct assay |GO:0005686//biological process| nuclear mRNA splicing, via spliceosome | inferred from physical interaction|GO:0000398
rom direct assay |GO:0005634//biological process| pyrimidine base biosynthesis | traceable author statement|GO:0019856
endent DNA replication | inferred from mutant phenotype|GO:0006261//biological process| DNA-dependent DNA replication | inferred from direct assay |GO
m | traceable author statement|GO:0008054//biological process| mitotic metaphase/anaphase transition | traceable author statement |GO:0007091//biologic
clear chromosome kinetochore | inferred from direct assay |GO:0000778//biological process| cell growth and/or maintenance | inferred from mutant phenot
sport | inferred from genetic interaction|GO:0008645
al process| transcription from Pol III promoter | traceable author statement|GO:0006383
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
eable author statement|GO:0006413
om direct assay |GO:0005634//biological process| serine family amino acid biosynthesis | inferred from mutant phenotype|GO:0009070
d from direct assay |GO:0005634//biological process| sporulation (sensu Fungi) | inferred from mutant phenotype|GO:0030437//biological process| protein
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ern |GO:0016538//biological process| premeiotic DNA synthesis | inferred from mutant phenotype|GO:0006279//biological process| premeiotic DNA synthe
rom direct assay |GO:0005737//biological process| response to heat | inferred from mutant phenotype|GO:0009408
base subcomplex (sensu Eukarya) | inferred from direct assay|GO:0008540//cellular component| proteasome regulatory particle (sensu Eukarya) | tracea
0//biological process| transport | inferred from sequence similarity|GO:0006810
tatement|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| response to stress | traceable author sta
0005934//cellular component| exocyst | inferred from physical interaction |GO:0000145//cellular component| incipient bud site | inferred from direct assay |G
ar component| nucleus | traceable author statement|GO:0005634//biological process| regulation of nitrogen utilization | inferred from mutant phenotype|GO
nent| nucleus | inferred from direct assay |GO:0005634
rocess| rRNA processing | inferred from mutant phenotype|GO:0006364//biological process| nuclear mRNA splicing, via spliceosome | inferred from physic
m mutant phenotype|GO:0006808
m | traceable author statement|GO:0006108//biological process| tricarboxylic acid cycle | traceable author statement |GO:0006099
9//cellular component| endoplasmic reticulum | inferred from direct assay |GO:0005783//biological process| ergosterol biosynthesis | inferred from direct a
e acetylation | inferred from direct assay|GO:0016573//biological process| regulation of transcription from Pol II promoter | inferred from mutant phenotype
mutant phenotype |GO:0006493//biological process| N-linked glycosylation | inferred from mutant phenotype |GO:0006487
ferred from direct assay |GO:0005625//cellular component| peripheral to membrane of membrane fraction | inferred from direct assay |GO:0000300//biolo
702//cellular component| vacuole | inferred from direct assay|GO:0005773//cellular component| nucleus | inferred from curator |GO:0005634//biological pro
omocitrate synthase activity | inferred from genetic interaction |GO:0004410//molecular function| homocitrate synthase activity | inferred from expression p
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
body | inferred from mutant phenotype|GO:0005816//cellular component| spindle pole body | inferred from direct assay |GO:0005816//biological process| s
ll cycle | inferred from mutant phenotype|GO:0000083
rotein catabolism | traceable author statement|GO:0030163
ssay |GO:0005634//biological process| mitosis | inferred from mutant phenotype|GO:0007067//biological process| nuclear organization and biogenesis | in
nferred from mutant phenotype|GO:0005739//cellular component| mitochondrion | inferred from genetic interaction |GO:0005739//biological process| iron
ant phenotype|GO:0006348//biological process| DNA metabolism | traceable author statement |GO:0006259//biological process| DNA damage response, s
ellular component| proteasome core complex (sensu Eukarya) | traceable author statement |GO:0005839//biological process| ubiquitin-dependent protein
| inferred from direct assay |GO:0005634//biological process| transcription initiation from Pol II promoter | inferred from direct assay|GO:0006367
4//biological process| vesicle fusion | inferred from mutant phenotype|GO:0006906//biological process| vesicle docking during exocytosis | inferred from ph
eptidase activity | inferred from mutant phenotype |GO:0004222//molecular function| metalloendopeptidase activity | inferred from direct assay |GO:000422
chromosome condensation | traceable author statement|GO:0007076//biological process| mitotic chromosome condensation | inferred from physical intera
ase complex | inferred from physical interaction |GO:0000118//biological process| chromatin silencing at silent mating-type cassette (sensu Fungi) | inferre
ssay|GO:0016363//biological process| tRNA-nucleus export | inferred from mutant phenotype|GO:0006409//biological process| tRNA splicing | inferred fro
omponent| nucleus | inferred from direct assay|GO:0005634//biological process| meiosis | inferred from mutant phenotype|GO:0007126//biological proces
37//biological process| beta-tubulin folding | traceable author statement|GO:0007025//biological process| post-chaperonin tubulin folding pathway | traceab
thesis from oxaloacetate | inferred from curator|GO:0019266//biological process| aspartate catabolism | traceable author statement |GO:0006533//biologic
ring (sensu Saccharomyces) | traceable author statement|GO:0000144//biological process| spore wall assembly (sensu Fungi) | traceable author stateme
sical interaction|GO:0042273//biological process| ribosomal large subunit biogenesis | inferred from mutant phenotype |GO:0042273
cytosol | traceable author statement|GO:0005829//biological process| glucose 6-phosphate utilization | inferred from sequence similarity|GO:0006010//biol
inferred from mutant phenotype |GO:0005215//molecular function| transporter activity | inferred from direct assay |GO:0005215//cellular component| plasm
al process| sporulation (sensu Fungi) | traceable author statement|GO:0030437//biological process| response to stress | traceable author statement |GO:00
red from direct assay|GO:0005739//cellular component| cytoplasm | inferred from direct assay |GO:0005737//cellular component| nucleus | inferred from d
integral to membrane | traceable author statement|GO:0016021//cellular component| shmoo tip | inferred from direct assay |GO:0005937//cellular compo
al process| transcription initiation from Pol III promoter | traceable author statement|GO:0006384
mbrane movement of ions, phosphorylative mechanism | inferred from genetic interaction |GO:0015662//cellular component| plasma membrane | inferred fr
O:0005935//cellular component| bud tip | inferred from direct assay |GO:0005934//cellular component| bud | inferred from direct assay |GO:0005933//cellu
ence similarity|GO:0006810
ody | inferred from mutant phenotype|GO:0000932//cellular component| cytoplasmic mRNA processing body | inferred from direct assay |GO:0000932//bio
/biological process| processing of 20S pre-rRNA | inferred from physical interaction|GO:0030490//biological process| 35S primary transcript processing | tr
ct assay |GO:0005635//biological process| iron ion homeostasis | inferred from mutant phenotype|GO:0006879//biological process| iron ion homeostasis |
ogenesis | traceable author statement|GO:0007031
ss| glucose metabolism | inferred from mutant phenotype|GO:0006006//biological process| glucose metabolism | inferred from genetic interaction |GO:000
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
m mutant phenotype|GO:0009408//biological process| ceramide metabolism | inferred from mutant phenotype |GO:0006672
GO:0008601//cellular component| cytosol | traceable author statement|GO:0005829//cellular component| cell fraction | inferred from direct assay |GO:0000
abolism | inferred from genetic interaction|GO:0046495//biological process| nicotinamide riboside metabolism | inferred from direct assay |GO:0046495
mplex | traceable author statement|GO:0005697//cellular component| telomerase holoenzyme complex | inferred from physical interaction |GO:0005697//c
nent| inner plaque of spindle pole body | inferred from direct assay |GO:0005822//cellular component| gamma-tubulin complex (sensu Saccharomyces) | in
y |GO:0005634//biological process| pyrimidine salvage | inferred from mutant phenotype|GO:0008655//biological process| pyrimidine salvage | inferred fro
ogical process| heme biosynthesis | inferred from mutant phenotype|GO:0006783
x | inferred from direct assay |GO:0042729//cellular component| cytosolic large ribosomal subunit (sensu Eukarya) | traceable author statement |GO:00058
O:0008135//molecular function| translation factor activity, nucleic acid binding | inferred from direct assay |GO:0008135//cellular component| mitochondrial i
factor linkage | inferred from direct assay|GO:0018065
ner membrane | inferred from sequence similarity|GO:0005743//biological process| mitochondrial pyruvate transport | inferred from mutant phenotype|GO:0
ity | inferred from direct assay |GO:0003825//cellular component| alpha,alpha-trehalose-phosphate synthase complex (UDP-forming) | inferred from physic
mary transcript processing | traceable author statement|GO:0006365//biological process| rRNA modification | traceable author statement |GO:0000154
telomere | inferred from mutant phenotype|GO:0006348
Golgi | inferred from physical interaction|GO:0042147
18024//molecular function| histone-lysine N-methyltransferase activity | inferred from mutant phenotype |GO:0018024//molecular function| histone-lysine N
ical process| protein biosynthesis | traceable author statement|GO:0006412
//biological process| protein-nucleus import | inferred from mutant phenotype|GO:0006606
05737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| mitotic checkpoint | inferred from mutant phenotype|GO:
author statement|GO:0030437//biological process| response to DNA damage stimulus | traceable author statement |GO:0006974//biological process| DNA
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ed from genetic interaction |GO:0007094
04610//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//bio
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ellular component| proteasome core complex (sensu Eukarya) | traceable author statement |GO:0005839//cellular component| nucleus | inferred from dire
inferred from direct assay|GO:0005829//biological process| NADPH regeneration | traceable author statement|GO:0006740//biological process| gluconeo
40//biological process| autophagy | inferred from mutant phenotype|GO:0006914//biological process| protein-vacuolar targeting | inferred from mutant phen
ugation with cellular fusion | inferred from mutant phenotype |GO:0000753
molecular function| transporter activity | inferred from sequence similarity |GO:0005215//cellular component| membrane | inferred from sequence similarity|
aceable author statement|GO:0005737//cellular component| cytoplasm | inferred from direct assay |GO:0005737//cellular component| pre-replicative comp
| spliceosome complex | traceable author statement|GO:0005681//biological process| U2-type spliceosome dissembly | traceable author statement|GO:00
ription from Pol II promoter | inferred from direct assay|GO:0006366
m direct assay |GO:0005515//cellular component| exocyst | traceable author statement|GO:0000145//cellular component| exocyst | inferred from physical in
ogenesis | traceable author statement|GO:0006999//biological process| protein-nucleus export | traceable author statement |GO:0006611//biological proce
5634//biological process| processing of 20S pre-rRNA | inferred from mutant phenotype|GO:0030490//biological process| cell growth and/or maintenance |
plasma membrane | inferred from sequence similarity|GO:0005886//cellular component| plasma membrane | inferred from mutant phenotype |GO:0005886
tion| DNA binding | traceable author statement |GO:0003677//cellular component| nucleus | traceable author statement|GO:0005634//cellular component|
rocess| rRNA processing | inferred from mutant phenotype|GO:0006364//biological process| nuclear mRNA splicing, via spliceosome | inferred from physic
action |GO:0005685//cellular component| snRNP U1 | inferred from direct assay |GO:0005685//cellular component| commitment complex | traceable autho
rity|GO:0005789//biological process| GPI anchor biosynthesis | inferred from sequence similarity|GO:0006506
om direct assay |GO:0005739//cellular component| replication fork | non-traceable author statement |GO:0005657//cellular component| nucleus | inferred f
phenotype|GO:0006914
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
leus | inferred from direct assay |GO:0005634//biological process| G2/M transition of mitotic cell cycle | inferred from mutant phenotype|GO:0000086//biolo
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ear mRNA splicing, via spliceosome | inferred from mutant phenotype |GO:0000398
n initiation from Pol II promoter | inferred from direct assay|GO:0006367
31//biological process| budding | inferred from mutant phenotype|GO:0007114//biological process| budding | inferred from genetic interaction |GO:0007114
rom direct assay|GO:0000262//biological process| mitochondrial genome maintenance | inferred from mutant phenotype|GO:0000002//biological process|
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
gical process| protein biosynthesis | traceable author statement|GO:0006412
sport | inferred from genetic interaction |GO:0006891//biological process| retrograde transport, vesicle recycling within Golgi | inferred from mutant phenot
chondrion | inferred from direct assay |GO:0005739//biological process| fatty acid metabolism | inferred from direct assay|GO:0006631
ar component| membrane fraction | inferred from direct assay |GO:0005624//biological process| dephosphorylation | inferred from sequence similarity|GO:0
plex | inferred from direct assay|GO:0005885//cellular component| mitochondrion | traceable author statement |GO:0005739//biological process| actin filam
mplex | traceable author statement|GO:0005680//biological process| cyclin catabolism | traceable author statement|GO:0008054//biological process| mitot
0//biological process| transcription from Pol I promoter | traceable author statement|GO:0006360
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ensation | inferred from physical interaction|GO:0007076//biological process| mitotic chromosome condensation | inferred from mutant phenotype |GO:000
ent| nucleosome remodeling complex | traceable author statement |GO:0005679//biological process| chromatin remodeling | traceable author statement|GO
ant phenotype|GO:0006914//biological process| protein-vacuolar targeting | inferred from mutant phenotype |GO:0006623
ellular component| bud neck | inferred from direct assay|GO:0005935//cellular component| plasma membrane | inferred from direct assay |GO:0005886//ce
otype|GO:0006281
red from direct assay|GO:0000244
henotype|GO:0045053//biological process| protein targeting | traceable author statement |GO:0006605
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
m | inferred from direct assay |GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| regulation of transc
processing of 20S pre-rRNA | inferred from physical interaction|GO:0030490//biological process| processing of 20S pre-rRNA | inferred from mutant pheno
nferred from expression pattern |GO:0006950
ya) | traceable author statement|GO:0005756//cellular component| proton-transporting ATP synthase, central stalk (sensu Eukarya) | inferred from mutant
m mutant phenotype|GO:0045721
tochondrial outer membrane | inferred from direct assay |GO:0005741//biological process| response to oxidative stress | inferred from mutant phenotype|G
sical interaction|GO:0042273//biological process| ribosomal large subunit biogenesis | inferred from mutant phenotype |GO:0042273//biological process| ri
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
n |GO:0030364//cellular component| mRNA cleavage factor complex | inferred from physical interaction|GO:0005849//cellular component| mRNA cleavage
omponent| DNA-directed RNA polymerase III complex | traceable author statement |GO:0005666//cellular component| DNA-directed RNA polymerase II, c
utant phenotype |GO:0000347//biological process| mRNA-nucleus export | inferred from mutant phenotype|GO:0006406//biological process| RNA elongati
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
omponent| cytoplasmic vesicle | inferred from direct assay|GO:0016023//biological process| manganese ion transport | inferred from sequence similarity|G
rred from direct assay|GO:0006302//biological process| base-excision repair, gap-filling | traceable author statement |GO:0006287
sensu Eukarya) | traceable author statement|GO:0005967//cellular component| mitochondrion | traceable author statement |GO:0005739//biological proces
iological process| transcription initiation from Pol II promoter | traceable author statement|GO:0006367//biological process| G1-specific transcription in mito
le author statement|GO:0005739//biological process| mitochondrial intermembrane space protein import | traceable author statement|GO:0045041//biolog
hondrial inner membrane protein insertion complex | inferred from direct assay|GO:0042721//biological process| mitochondrial inner membrane protein imp
wth | inferred from mutant phenotype|GO:0007124//biological process| invasive growth (sensu Saccharomyces) | inferred from genetic interaction |GO:000
olism | inferred from expression pattern|GO:0019541//biological process| citrate metabolism | traceable author statement |GO:0006101//biological process
olecular function| mannosyltransferase activity | inferred from genetic interaction |GO:0000030//cellular component| vacuole (sensu Fungi) | inferred from d
634//biological process| phosphorylation | traceable author statement|GO:0016310//biological process| telomerase-dependent telomere maintenance | infe
ty | inferred from direct assay |GO:0004823//molecular function| ribonuclease activity | inferred from sequence similarity |GO:0004540//molecular function|
08173//cellular component| nucleolus | traceable author statement|GO:0005730//biological process| rRNA processing | traceable author statement|GO:000
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ferred from direct assay|GO:0019942
rect assay |GO:0005737//biological process| ribosomal large subunit assembly and maintenance | inferred from mutant phenotype|GO:0000027//biologica
cription factor activity | inferred from mutant phenotype |GO:0003700//molecular function| transcription factor activity | inferred from genetic interaction |GO
c region | inferred from direct assay |GO:0000775//biological process| regulation of transcription from Pol II promoter | inferred from direct assay|GO:00063
nferred from direct assay|GO:0005745//cellular component| mitochondrial inner membrane | inferred from direct assay |GO:0005743//cellular component|
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
utant phenotype|GO:0016226
| inferred from direct assay |GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| regulation of transcri
e | inferred from sequence similarity|GO:0016020//biological process| allantoin transport | traceable author statement|GO:0015720
assembly machinery complex | inferred from direct assay |GO:0001401//biological process| protein complex assembly | inferred from physical interaction|
nferred from mutant phenotype|GO:0007094//biological process| mitotic spindle checkpoint | inferred from genetic interaction |GO:0007094//biological proc
nt phenotype|GO:0006606
0329//cellular component| hydrogen-transporting ATPase V1 domain | traceable author statement |GO:0000221//biological process| vacuolar acidification
erred from physical interaction|GO:0000290//biological process| deadenylation-dependent decapping | inferred from genetic interaction |GO:0000290
tubule associated complex | inferred from physical interaction |GO:0005875//biological process| autophagy | inferred from genetic interaction|GO:0006914
| thioredoxin peroxidase activity | inferred from direct assay |GO:0008379//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biologi
mosome kinetochore | traceable author statement|GO:0000778//cellular component| condensed nuclear chromosome kinetochore | inferred from direct ass
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ay |GO:0005886//cellular component| heterotrimeric G-protein complex | inferred from direct assay |GO:0005834//biological process| signal transduction du
component| vacuole (sensu Fungi) | inferred from direct assay|GO:0000324//biological process| basic amino acid transport | inferred from mutant phenoty
rocess| chromatin silencing at silent mating-type cassette (sensu Fungi) | traceable author statement|GO:0030466//biological process| DNA replication init
r of spore wall | inferred from sequence similarity|GO:0005631//biological process| spore wall assembly (sensu Fungi) | inferred from mutant phenotype|GO
P complex | inferred from direct assay|GO:0005655//cellular component| ribonuclease MRP complex | inferred from direct assay |GO:0000172//biological
porter activity | inferred from direct assay |GO:0005355//molecular function| fructose transporter activity | traceable author statement |GO:0005353//cellular
ant phenotype |GO:0003704//cellular component| nucleus | inferred from curator|GO:0005634//biological process| regulation of nitrogen utilization | inferred
ctivity | inferred from direct assay |GO:0003743//cellular component| cytosolic small ribosomal subunit (sensu Eukarya) | inferred from direct assay|GO:00
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
|GO:0008177//cellular component| mitochondrion | inferred from physical interaction|GO:0005739//biological process| cellular respiration | inferred from ge
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
e author statement|GO:0016579
prephenate pathway | traceable author statement|GO:0019274
05051//cellular component| cytosol | inferred from direct assay|GO:0005829//cellular component| peroxisomal matrix | traceable author statement |GO:000
osylation | inferred from mutant phenotype|GO:0006487
processing of 20S pre-rRNA | inferred from physical interaction|GO:0030490//biological process| processing of 20S pre-rRNA | inferred from mutant pheno
culum | inferred from direct assay|GO:0005783//biological process| ER-associated protein catabolism | inferred from mutant phenotype|GO:0030433
ssay |GO:0005634//biological process| regulation of transcription, DNA-dependent | inferred from mutant phenotype|GO:0006355//biological process| regu
red from direct assay |GO:0005730//biological process| processing of 27S pre-rRNA | inferred from mutant phenotype|GO:0030489//biological process| rib
assembly | inferred from mutant phenotype|GO:0000245
e nucleation | inferred from physical interaction|GO:0007020
3//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biologica
l II promoter | inferred from genetic interaction|GO:0006367
n (but not peptide) bonds, in linear amides | inferred from direct assay |GO:0016811//molecular function| NAD+ synthase (glutamine-hydrolyzing) activity |
e, signal transduction resulting in cell cycle arrest | inferred from physical interaction |GO:0000077//biological process| DNA damage response, signal tran
al process| transcription initiation from Pol III promoter | traceable author statement|GO:0006384
esicle coat | inferred from direct assay |GO:0030125//biological process| actin filament organization | inferred from sequence similarity|GO:0007015//biolog
processing | traceable author statement|GO:0006365//biological process| ribosomal large subunit assembly and maintenance | traceable author statemen
aryotic translation initiation factor 3 complex | inferred from physical interaction|GO:0005852//cellular component| eukaryotic translation initiation factor 3 c
arity |GO:0016491//cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//cellular component| nuclear membrane | inferred
transcription elongation factor complex | inferred from physical interaction |GO:0008023//cellular component| nucleus | inferred from direct assay |GO:000
nization and biogenesis | inferred from mutant phenotype|GO:0007047//biological process| N-linked glycosylation | inferred from sequence similarity |GO:0
ype |GO:0015125//cellular component| vacuole (sensu Fungi) | inferred from direct assay|GO:0000324//biological process| bile acid transport | inferred from
ellular component| proteasome core complex (sensu Eukarya) | traceable author statement |GO:0005839//biological process| ubiquitin-dependent protein
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ellular component| nucleus | inferred from direct assay|GO:0005634//biological process| myo-inositol metabolism | inferred from mutant phenotype|GO:000
ect assay |GO:0005934//cellular component| nucleus | inferred from direct assay |GO:0005634//cellular component| protein phosphatase type 2A complex
ion | traceable author statement|GO:0006513//biological process| protein polyubiquitination | traceable author statement |GO:0000209
direct assay |GO:0005759//biological process| fumarate metabolism | traceable author statement|GO:0006106//biological process| tricarboxylic acid cycle |
tor|GO:0005634//biological process| telomerase-independent telomere maintenance | inferred from genetic interaction|GO:0000722
anization and biogenesis | inferred from mutant phenotype |GO:0016044
inferred from direct assay |GO:0000775//biological process| nucleosome assembly | inferred from mutant phenotype|GO:0006334
m direct assay|GO:0030490//biological process| regulation of exit from mitosis | inferred from direct assay |GO:0007096//biological process| S phase of m
tylation | inferred from physical interaction|GO:0016575//biological process| histone deacetylation | inferred from mutant phenotype |GO:0016575//biologica
irect assay|GO:0008298
ical process| ribosome biogenesis and assembly | inferred from direct assay|GO:0042254//biological process| ubiquitin-dependent protein catabolism | no
biological process| O-linked glycosylation | traceable author statement|GO:0006493
5634//biological process| processing of 20S pre-rRNA | traceable author statement|GO:0030490
-oxidation | traceable author statement|GO:0006635
ellular component| SAGA complex | inferred from direct assay |GO:0000124//biological process| histone acetylation | traceable author statement|GO:0016
y |GO:0005634//biological process| aromatic amino acid family biosynthesis | traceable author statement|GO:0009073
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
n import | inferred from direct assay|GO:0015677
16944//molecular function| Pol II transcription elongation factor activity | inferred from genetic interaction |GO:0016944//cellular component| transcription e
s | inferred from genetic interaction |GO:0006031
omponent| nucleolus | traceable author statement|GO:0005730//cellular component| nucleolus | inferred from direct assay |GO:0005730//biological proces
ponent| integral to endoplasmic reticulum membrane | inferred from sequence similarity|GO:0030176//cellular component| integral to endoplasmic reticulu
mplex | traceable author statement|GO:0005680//biological process| cyclin catabolism | traceable author statement|GO:0008054//biological process| mitot
ay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| protein modification | inferred from direct assay
ription elongation factor complex | inferred from physical interaction|GO:0008023//biological process| RNA elongation from Pol II promoter | inferred from p
ogenesis | traceable author statement|GO:0006999//biological process| protein-nucleus export | traceable author statement |GO:0006611//biological proce
raceable author statement|GO:0006513//biological process| protein polyubiquitination | traceable author statement |GO:0000209
unit biogenesis | inferred from mutant phenotype |GO:0042273
ndoplasmic reticulum | inferred from direct assay |GO:0005783//biological process| ergosterol biosynthesis | inferred from mutant phenotype|GO:0006696
d from direct assay |GO:0005783//cellular component| cytoplasm | inferred from direct assay |GO:0005737
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
om genetic interaction|GO:0040020
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ctivator activity | inferred from mutant phenotype |GO:0016563//cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| t
otype|GO:0042493
ct assay |GO:0005634//biological process| regulation of transcription, DNA-dependent | traceable author statement|GO:0006355//biological process| galac
ant phenotype|GO:0006396//biological process| 35S primary transcript processing | inferred from mutant phenotype |GO:0006365
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
yphal growth | inferred from mutant phenotype|GO:0007124
m direct assay |GO:0005739//cellular component| nucleolus | inferred from direct assay |GO:0005730//cellular component| nucleus | inferred from direct ass
racellular | traceable author statement|GO:0005622//biological process| small GTPase mediated signal transduction | inferred from sequence similarity|GO
tant phenotype|GO:0006281//biological process| negative regulation of transcription from Pol II promoter | inferred from direct assay |GO:0000122
omponent| DNA-directed RNA polymerase III complex | traceable author statement |GO:0005666//cellular component| DNA-directed RNA polymerase II, c
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
|GO:0006281
ent| cytosol | inferred from direct assay|GO:0005829//biological process| formate catabolism | traceable author statement|GO:0042183//biological process
unit (sensu Eukarya) | inferred from direct assay|GO:0005842//cellular component| cytosol | inferred from direct assay |GO:0005829//biological process| rib
nferred from direct assay |GO:0005783//biological process| sterol metabolism | inferred from sequence similarity|GO:0016125//biological process| sterol tra
otein amino acid farnesylation | inferred from direct assay|GO:0018347
| glutathione catabolism | traceable author statement|GO:0006751
y |GO:0004113//cellular component| clathrin-coated vesicle | inferred from direct assay|GO:0030136//biological process| meiosis | inferred from expression
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
A binding | inferred from sequence similarity |GO:0000049//cellular component| mitochondrial small ribosomal subunit | traceable author statement|GO:000
ferred from mutant phenotype|GO:0015940//biological process| spermine biosynthesis | inferred from mutant phenotype |GO:0006597
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
action | inferred from direct assay|GO:0005624//biological process| vacuolar transport | inferred from mutant phenotype|GO:0007034//biological process| p
ar component| membrane fraction | inferred from direct assay |GO:0005624//biological process| dephosphorylation | inferred from sequence similarity|GO:0
erred from direct assay |GO:0005737//biological process| beta-alanine biosynthesis | inferred from mutant phenotype|GO:0019483//biological process| res
ondrial outer membrane translocase complex | inferred from physical interaction|GO:0005742//biological process| mitochondrial matrix protein import | infe
rred from direct assay |GO:0016020//biological process| vesicle organization and biogenesis | inferred from mutant phenotype|GO:0016050
005634//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| poly(A)+ mRNA-nucleus export | inferred from mutant p
mponent| cytoplasm | inferred from direct assay|GO:0005737//cellular component| protein phosphatase type 1 complex | traceable author statement |GO:
from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| ubiquitin-dependent protein ca
embrane | inferred from direct assay|GO:0019897//biological process| sensory perception of chemical stimulus | inferred from mutant phenotype|GO:0007
nuclear pore | inferred from genetic interaction |GO:0005643//cellular component| nuclear pore | inferred from direct assay |GO:0005643//biological proces
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
rom direct assay |GO:0005634//biological process| cAMP-mediated signaling | traceable author statement|GO:0019933
ondrial intermembrane space protein transporter complex | inferred from direct assay|GO:0042719//cellular component| mitochondrial intermembrane spa
processing | inferred from physical interaction |GO:0006465//biological process| signal peptide processing | inferred from mutant phenotype |GO:0006465/
ed from direct assay |GO:0005634//biological process| protein-ER targeting | inferred from physical interaction|GO:0045047
ar component| mitochondrion | inferred from direct assay |GO:0005739//biological process| aerobic respiration | inferred from mutant phenotype|GO:00090
notype |GO:0005634//biological process| meiotic recombination | inferred from genetic interaction|GO:0007131//biological process| DNA repair | inferred fr
red from direct assay|GO:0005739//cellular component| cytoplasm | inferred from direct assay |GO:0005737//cellular component| nucleus | inferred from d
red from sequence similarity |GO:0000799//cellular component| nuclear condensin complex | inferred from physical interaction |GO:0000799//biological pr
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
nt phenotype|GO:0006629
recognition particle | inferred from direct assay |GO:0005786//biological process| protein-ER targeting | inferred from mutant phenotype|GO:0045047//biol
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ellular component| nucleus | traceable author statement|GO:0005634//cellular component| histone deacetylase complex | inferred from physical interaction
ed from mutant phenotype|GO:0006879//biological process| iron ion homeostasis | inferred from genetic interaction |GO:0006879
ellular component| nucleotide excision repair factor 3 complex | traceable author statement |GO:0000112//biological process| negative regulation of transc
| spliceosome complex | traceable author statement|GO:0005681//cellular component| nucleus | traceable author statement |GO:0005634//biological proc
ay |GO:0005634//biological process| polyamine transport | inferred from mutant phenotype|GO:0015846//biological process| polyamine transport | inferred
ant phenotype |GO:0003704//molecular function| specific RNA polymerase II transcription factor activity | inferred from genetic interaction |GO:0003704//ce
nt| mitochondrial small ribosomal subunit | inferred from physical interaction|GO:0005763//biological process| protein modification | inferred from genetic in
mponent| nucleosome remodeling complex | traceable author statement |GO:0005679//cellular component| nucleus | inferred from direct assay |GO:00056
nferred from sequence similarity |GO:0008614//biological process| pyridoxine metabolism | inferred from direct assay |GO:0008614
omponent| COMPASS complex | inferred from physical interaction|GO:0048188//cellular component| nuclear chromatin | inferred from mutant phenotype |
ant phenotype |GO:0003704//cellular component| nucleus | inferred from curator|GO:0005634//biological process| nitrogen utilization | inferred from mutan
ane | inferred from sequence similarity|GO:0005743//cellular component| mitochondrial membrane | inferred from direct assay |GO:0005740//biological pro
ssay |GO:0005737//biological process| regulation of endocytosis | inferred from mutant phenotype|GO:0030100//biological process| actin cytoskeleton orga
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
|GO:0005622//biological process| protein transport | inferred from mutant phenotype|GO:0015031//biological process| protein transport | inferred from dire
phosphorylation | traceable author statement|GO:0006468//biological process| regulation of DNA replication | traceable author statement |GO:0006275//b
on of transcription from Pol II promoter | inferred from direct assay|GO:0045944//biological process| proline catabolism | inferred from mutant phenotype |G
P complex | inferred from direct assay|GO:0005655//cellular component| ribonuclease MRP complex | inferred from direct assay |GO:0000172//biological
ss| double-strand break repair via nonhomologous end-joining | inferred from direct assay |GO:0006303//biological process| double-strand break repair via
mponent| Golgi membrane | inferred from direct assay|GO:0000139//biological process| manganese ion homeostasis | inferred from mutant phenotype|GO
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ss| protein amino acid glycosylation | inferred from mutant phenotype|GO:0006486//biological process| protein amino acid glycosylation | inferred from dire
05955//cellular component| calcineurin complex | inferred from physical interaction |GO:0005955//cellular component| cytoplasm | traceable author stateme
ng | inferred from mutant phenotype|GO:0006623
e author statement|GO:0016579
ocessing | inferred from sequence similarity|GO:0006465//biological process| signal peptide processing | inferred from physical interaction |GO:0006465//b
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
xidative stress | inferred from mutant phenotype|GO:0006979
lation | traceable author statement|GO:0006473
ogical process| mRNA cleavage | inferred from direct assay|GO:0006379//biological process| mRNA polyadenylation | inferred from direct assay |GO:0006
ed from physical interaction |GO:0000324//biological process| vacuole fusion, non-autophagic | inferred from direct assay|GO:0042144//biological process
ogenesis | traceable author statement|GO:0007031
ent| nucleus | inferred from direct assay |GO:0005634//biological process| protein deglycosylation | inferred from direct assay|GO:0006517//biological proc
e of membrane fraction | inferred from direct assay |GO:0000300//biological process| cortical actin cytoskeleton organization and biogenesis | inferred from
om direct assay |GO:0005635//biological process| nuclear pore organization and biogenesis | traceable author statement|GO:0006999//biological process|
t| mitochondrial large ribosomal subunit | inferred from physical interaction |GO:0005762//biological process| protein biosynthesis | traceable author statem
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
rocess| chromatin silencing at silent mating-type cassette (sensu Fungi) | traceable author statement|GO:0030466//biological process| DNA replication init
om mutant phenotype|GO:0006407//biological process| ribosome-nucleus export | inferred from mutant phenotype |GO:0000054
from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| regulation of mitosis | inferred
interaction|GO:0007242
634//biological process| Rho protein signal transduction | inferred from sequence similarity|GO:0007266
ocess| mitochondrial genome maintenance | inferred from mutant phenotype |GO:0000002
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
s | inferred from direct assay|GO:0006508
physical interaction |GO:0016272//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological process| tubulin folding | inferred fr
933//cellular component| site of polarized growth (sensu Saccharomyces) | inferred from direct assay |GO:0000134//biological process| Rho protein signal
sport | inferred from genetic interaction |GO:0006891
membrane | inferred from direct assay|GO:0005886//cellular component| membrane fraction | inferred from direct assay |GO:0005624//biological process|
om mutant phenotype|GO:0005770//biological process| endocytosis | inferred from mutant phenotype|GO:0006897//biological process| protein-vacuolar ta
sical interaction|GO:0006260
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
atement |GO:0005832//cellular component| cytoplasm | traceable author statement |GO:0005737//biological process| cytoskeleton organization and bioge
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
aceable author statement|GO:0008299//biological process| ergosterol biosynthesis | traceable author statement |GO:0006696
cal process| protein biosynthesis | inferred from sequence similarity|GO:0006412
mbination | traceable author statement|GO:0006310
nt| nucleus | inferred from direct assay|GO:0005634//biological process| tRNA methylation | inferred from mutant phenotype|GO:0030488
d from mutant phenotype |GO:0006364
0//biological process| transcription from Pol I promoter | traceable author statement|GO:0006360
| inferred from direct assay|GO:0030488
m mutant phenotype|GO:0019655//biological process| thiamin biosynthesis | traceable author statement |GO:0009228//biological process| transcription from
red from mutant phenotype|GO:0006487//biological process| cell wall mannoprotein biosynthesis | inferred from mutant phenotype |GO:0000032
mplex | inferred from direct assay |GO:0000795//biological process| meiotic recombination | inferred from mutant phenotype|GO:0007131//biological proce
ssay |GO:0005737//biological process| endoplasmic reticulum inheritance | inferred from mutant phenotype|GO:0048309//biological process| mRNA localiz
nization and biogenesis | inferred from mutant phenotype|GO:0007047//biological process| N-linked glycosylation | inferred from sequence similarity |GO:0
nction| 2-amino-4-hydroxy-6-hydroxymethyldihydropteridine diphosphokinase activity | inferred from sequence similarity |GO:0003848//cellular component
ferase activity | inferred from direct assay |GO:0003919//cellular component| microsome | inferred from direct assay|GO:0005792//cellular component| mit
ponent| cytoplasm | inferred from direct assay|GO:0005737
s | inferred from sequence similarity|GO:0007046//biological process| ribosome biogenesis | inferred from physical interaction |GO:0007046//biological pro
ription from Pol II promoter | inferred from direct assay|GO:0006366
ceable author statement|GO:0005622//biological process| small GTPase mediated signal transduction | inferred from sequence similarity|GO:0007264//bio
plex assembly | inferred from mutant phenotype |GO:0006461
n |GO:0030364//cellular component| mRNA cleavage factor complex | inferred from physical interaction|GO:0005849//cellular component| mRNA cleavage
rom direct assay |GO:0005811//cellular component| endoplasmic reticulum | traceable author statement |GO:0005783//biological process| ergosterol biosy
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
nsu Eukarya) | inferred from curator |GO:0005830//biological process| nascent polypeptide association | inferred from physical interaction|GO:0006444
| thioredoxin peroxidase activity | inferred from direct assay |GO:0008379//cellular component| nucleus | inferred from sequence similarity|GO:0005634//ce
ogenesis | inferred from mutant phenotype|GO:0006999//biological process| protein-nucleus export | traceable author statement |GO:0006611//biological
assay |GO:0005634//biological process| protein monoubiquitination | traceable author statement|GO:0006513//biological process| protein polyubiquitination
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
hondrial processing | inferred from direct assay|GO:0006627
able author statement |GO:0005816//biological process| mitotic spindle assembly (sensu Fungi) | traceable author statement|GO:0030472//biological proc
lasm | inferred from direct assay|GO:0005737//biological process| urea metabolism | inferred from mutant phenotype|GO:0019627//biological process| alla
processing | traceable author statement|GO:0006365
nuclear mRNA splicing, via spliceosome | inferred from physical interaction|GO:0000398
phase B | inferred from mutant phenotype|GO:0000092//biological process| mitotic anaphase B | inferred from genetic interaction |GO:0000092
tion | inferred from expression pattern |GO:0030242//biological process| peroxisome degradation | inferred from direct assay |GO:0030242//biological proc
sporter activity | traceable author statement |GO:0005354//molecular function| fructose transporter activity | inferred from mutant phenotype |GO:0005353/
ance | inferred from mutant phenotype |GO:0000002
ecular function| cyclin-dependent protein kinase activity | inferred from mutant phenotype |GO:0004693//molecular function| cyclin-dependent protein kinas
005634//biological process| DNA repair | inferred from physical interaction|GO:0006281
ty | inferred from direct assay |GO:0004823//molecular function| ribonuclease activity | inferred from sequence similarity |GO:0004540//molecular function|
737//biological process| cytoskeleton organization and biogenesis | inferred from mutant phenotype|GO:0007010//biological process| cytoskeleton organiz
n| ubiquitin-protein ligase activity | inferred from mutant phenotype |GO:0004842//cellular component| nucleus | inferred from direct assay|GO:0005634//bi
| inferred from direct assay |GO:0004673//molecular function| two-component sensor molecule activity | traceable author statement |GO:0000155//cellular
action |GO:0000812//cellular component| histone acetyltransferase complex | inferred from physical interaction |GO:0000123//biological process| histone a
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
cess| protein metabolism | inferred from mutant phenotype|GO:0019538
ss| sodium ion homeostasis | inferred from genetic interaction |GO:0006883
ble author statement|GO:0006534//biological process| cysteinyl-tRNA aminoacylation | inferred from direct assay |GO:0006423
direct assay |GO:0005792//biological process| phospholipid transport | inferred from direct assay|GO:0015914
ucleotide biosynthesis | traceable author statement|GO:0006164//biological process| purine nucleotide biosynthesis | inferred from mutant phenotype |GO:
cal patch (sensu Fungi) | inferred from direct assay|GO:0030479//cellular component| incipient bud site | inferred from direct assay |GO:0000131//biologica
etic interaction|GO:0000082//biological process| regulation of cell cycle | inferred from mutant phenotype |GO:0000074
ical process| protein biosynthesis | traceable author statement|GO:0006412
aceable author statement|GO:0005737//cellular component| cytoplasm | inferred from direct assay |GO:0005737//cellular component| pre-replicative comp
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
from direct assay|GO:0005634//cellular component| ubiquitin ligase complex | traceable author statement |GO:0000151//biological process| ubiquitin-depe
mponent| mitochondrial large ribosomal subunit | inferred from sequence similarity|GO:0005762//cellular component| mitochondrial large ribosomal subuni
0030508//molecular function| thiol-disulfide exchange intermediate activity | inferred from genetic interaction |GO:0030508//molecular function| thiol-disulfid
| Rab GTPase activator activity | inferred from genetic interaction |GO:0005097//cellular component| cytosol | inferred from direct assay|GO:0005829//cellu
00009//cellular component| Golgi cis cisterna | inferred from direct assay|GO:0000137//biological process| N-linked glycoprotein maturation | non-traceabl
n interaction | inferred from mutant phenotype |GO:0030383
physical interaction |GO:0016272//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological process| tubulin folding | inferred fr
cal process| ER to Golgi transport | traceable author statement|GO:0006888//biological process| ER to Golgi transport | inferred from mutant phenotype |G
cal process| ATP synthesis coupled proton transport | traceable author statement|GO:0015986
able author statement|GO:0006370
mino acid dephosphorylation | inferred from direct assay|GO:0006470//biological process| adaptation to pheromone during conjugation with cellular fusion
|GO:0007165//biological process| signal transduction | inferred from mutant phenotype |GO:0007165
om direct assay|GO:0005811//cellular component| mitochondrial inner membrane | inferred from sequence similarity |GO:0005743//cellular component| m
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ed from direct assay |GO:0000178//biological process| mRNA catabolism | inferred from direct assay|GO:0006402
| traceable author statement |GO:0005739//biological process| mitochondrion organization and biogenesis | traceable author statement|GO:0007005//biol
mbly (sensu Fungi) | inferred from direct assay |GO:0030476
:0005737//biological process| guanine metabolism | inferred from sequence similarity|GO:0046098
phenotype|GO:0006629
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
O:0030014//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological process| regulation of transcription, DNA-dependent | infe
onent| membrane fraction | inferred from sequence similarity|GO:0005624//biological process| actin cytoskeleton organization and biogenesis | traceable a
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
O:0003702//cellular component| nucleoplasm | inferred from mutant phenotype|GO:0005654//biological process| methionine metabolism | inferred from mu
e stress | inferred from mutant phenotype|GO:0006979
direct assay |GO:0005634
rotein biosynthesis | inferred from direct assay|GO:0006412
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
se P complex | traceable author statement|GO:0005655//cellular component| ribonuclease MRP complex | traceable author statement |GO:0000172//biolo
component| nucleus | inferred from curator|GO:0005634//biological process| snoRNA metabolism | inferred from mutant phenotype|GO:0016074//biologic
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
y|GO:0005935//cellular component| bud tip | inferred from direct assay |GO:0005934//cellular component| incipient bud site | inferred from direct assay |GO
erred from direct assay |GO:0005634
ent| nucleosome remodeling complex | traceable author statement |GO:0005679//biological process| chromatin remodeling | traceable author statement|GO
0005634//biological process| NAD phosphorylation and dephosphorylation | inferred from direct assay|GO:0019675//biological process| iron ion homeosta
glycogen metabolism | inferred from mutant phenotype |GO:0005977
actose metabolism | traceable author statement|GO:0006012
inferred from direct assay|GO:0005634//biological process| protein amino acid phosphorylation | traceable author statement|GO:0006468//biological proce
GO:0008601//cellular component| cytosol | traceable author statement|GO:0005829//cellular component| cell fraction | inferred from direct assay |GO:0000
nferred from mutant phenotype |GO:0006979
ical process| protein biosynthesis | traceable author statement|GO:0006412
541//cellular component| proteasome regulatory particle (sensu Eukarya) | traceable author statement |GO:0005838//biological process| ubiquitin-depende
from mutant phenotype|GO:0006067
tatement|GO:0005847//cellular component| mRNA cleavage and polyadenylation specificity factor complex | inferred from physical interaction |GO:000584
processing of 20S pre-rRNA | inferred from physical interaction|GO:0030490//biological process| processing of 20S pre-rRNA | inferred from mutant pheno
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
//cellular component| nucleus | inferred from curator|GO:0005634//biological process| DNA repair | inferred from mutant phenotype|GO:0006281
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
mbrane movement of ions, phosphorylative mechanism | inferred from genetic interaction |GO:0015662//cellular component| plasma membrane | inferred fr
bending activity | inferred from direct assay |GO:0008301//molecular function| DNA binding | inferred from direct assay |GO:0003677//cellular component|
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ological process| transcription from Pol II promoter | traceable author statement|GO:0006366
ular | inferred from direct assay|GO:0005622//biological process| rRNA processing | inferred from mutant phenotype|GO:0006364
nt| endoplasmic reticulum membrane | inferred from sequence similarity|GO:0005789//cellular component| endoplasmic reticulum membrane | inferred from
GO:0005634//biological process| positive regulation of sister chromatid cohesion | inferred from physical interaction|GO:0045876//biological process| posit
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
on | inferred from mutant phenotype|GO:0006413
g-type specific | inferred from direct assay|GO:0007532
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
inferred from genetic interaction|GO:0000722
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
03702//cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| purine base biosynthesis | inferred from mutant phenotype
al process| response to stress | inferred from mutant phenotype|GO:0006950//biological process| response to stress | inferred from genetic interaction |GO
actor A complex | traceable author statement|GO:0005662//cellular component| chromosome, telomeric region | inferred from mutant phenotype |GO:0000
0005634//biological process| chromosome organization and biogenesis (sensu Eukarya) | inferred from mutant phenotype|GO:0007001//biological process
or statement|GO:0030490
ent| plasma membrane | inferred from direct assay|GO:0005886//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process|
iological process| transcription initiation from Pol II promoter | traceable author statement|GO:0006367
complex | inferred from physical interaction|GO:0005732//cellular component| nucleolus | traceable author statement |GO:0005730//biological process| pro
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ellular component| cytosolic ribosome (sensu Eukarya) | inferred from physical interaction|GO:0005830//cellular component| cytosol | inferred from direct a
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
d from direct assay|GO:0006816
t assay |GO:0005933//cellular component| intracellular | inferred from direct assay |GO:0005622//cellular component| incipient bud site | inferred from dire
e metabolism | non-traceable author statement |GO:0006000
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
r activity | inferred from physical interaction |GO:0003700//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nu
mutant phenotype|GO:0006511//biological process| double-strand break repair via nonhomologous end-joining | inferred from mutant phenotype |GO:000
interaction|GO:0005634//biological process| chromatin remodeling | inferred from physical interaction|GO:0006338//biological process| chromatin remodel
GO:0000778//biological process| chromosome segregation | inferred from mutant phenotype|GO:0007059
function| signal recognition particle binding | inferred from mutant phenotype |GO:0005047//cellular component| integral to endoplasmic reticulum membra
synthesis | inferred from mutant phenotype|GO:0008652//biological process| protein amino acid phosphorylation | inferred from direct assay |GO:0006468/
component| mitochondrion | inferred from sequence similarity|GO:0005739//biological process| heme biosynthesis | inferred from mutant phenotype|GO:0
rom sequence similarity|GO:0005634//biological process| meiotic recombination | inferred from genetic interaction|GO:0007131//biological process| DNA r
d from direct assay|GO:0005634//biological process| mitotic sister chromatid cohesion | inferred from mutant phenotype|GO:0007064//biological process|
eable author statement|GO:0030036//biological process| Rho protein signal transduction | inferred from genetic interaction |GO:0007266//biological proces
catabolism | traceable author statement|GO:0006562//biological process| glutamate biosynthesis | traceable author statement |GO:0006537
om direct assay|GO:0005844//biological process| regulation of translational termination | inferred from mutant phenotype|GO:0006449
mplex | inferred from direct assay|GO:0005681//biological process| nuclear mRNA splicing, via spliceosome | inferred from mutant phenotype|GO:0000398
red from mutant phenotype|GO:0006487//biological process| cell wall mannoprotein biosynthesis | inferred from mutant phenotype |GO:0000032
uclear exosome (RNase complex) | inferred from direct assay |GO:0000176//biological process| mRNA catabolism | inferred from physical interaction|GO:0
inferred from direct assay |GO:0003723//cellular component| nucleus | inferred from physical interaction|GO:0005634//cellular component| nucleus | inferr
eting | inferred from physical interaction|GO:0045047
d raft | inferred from direct assay|GO:0045121//cellular component| actin cortical patch (sensu Fungi) | inferred from direct assay |GO:0030479//biological
ances | inferred from direct assay |GO:0042626//cellular component| shmoo tip | inferred from direct assay|GO:0005937//cellular component| integral to pl
tion|GO:0006281//biological process| DNA-dependent DNA replication | inferred from genetic interaction |GO:0006261
us | inferred from direct assay |GO:0005634//biological process| regulation of transcription from Pol II promoter | traceable author statement|GO:0006357//
ct assay|GO:0005634
regation | inferred from mutant phenotype|GO:0045132//biological process| chromosome organization and biogenesis (sensu Eukarya) | inferred from mut
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ological process| myo-inositol metabolism | inferred from direct assay|GO:0006020
g | traceable author statement|GO:0006364
4//biological process| tRNA modification | inferred from mutant phenotype|GO:0006400
u Fungi) | inferred from mutant phenotype|GO:0009272//biological process| cell wall biosynthesis (sensu Fungi) | inferred from genetic interaction |GO:000
ansport | inferred from mutant phenotype|GO:0006913//biological process| protein-nucleus import, docking | inferred from physical interaction |GO:000005
sis | inferred from mutant phenotype |GO:0030036//biological process| traversing start control point of mitotic cell cycle | inferred from mutant phenotype |G
GO:0016251//cellular component| transcription factor complex | traceable author statement|GO:0005667//biological process| meiosis | inferred from mutan
t| mitochondrial large ribosomal subunit | inferred from physical interaction |GO:0005762//biological process| protein biosynthesis | traceable author statem
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
otein-peroxisome targeting | inferred from mutant phenotype |GO:0006625
mponent| mitochondrial large ribosomal subunit | inferred from physical interaction|GO:0005762//biological process| protein biosynthesis | inferred from ph
t phenotype|GO:0007129//biological process| meiosis | inferred from mutant phenotype |GO:0007126
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
assay |GO:0003684//cellular component| nuclear chromosome | inferred from direct assay|GO:0000228//biological process| mitotic recombination | inferre
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
activity | inferred from direct assay |GO:0008131//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| pantothena
from direct assay|GO:0045116
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
hor statement|GO:0006412
x | inferred from direct assay|GO:0005759//cellular component| mitochondrial inner membrane | inferred from direct assay |GO:0005743//biological proces
gase complex | traceable author statement |GO:0000152//biological process| protein ubiquitination | inferred from direct assay|GO:0016567//biological proc
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ical process| ribosome biogenesis and assembly | inferred from direct assay|GO:0042254//biological process| ubiquitin-dependent protein catabolism | no
rom mutant phenotype |GO:0008565//cellular component| mitochondrial intermembrane space protein transporter complex | inferred from direct assay|GO
direct assay|GO:0030488//biological process| translational initiation | traceable author statement |GO:0006413
ant phenotype |GO:0003704//cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| sterol transport | inferred from muta
lasma membrane | inferred from direct assay|GO:0005886//cellular component| vacuolar membrane | inferred from mutant phenotype |GO:0005774//biolo
ellular component| nucleotide excision repair factor 3 complex | traceable author statement |GO:0000112//biological process| negative regulation of transc
om direct assay|GO:0005625//biological process| regulation of proteolysis and peptidolysis | inferred from physical interaction|GO:0030162//biological proc
osylation | inferred from sequence similarity|GO:0006487
process| cytochrome c oxidase biogenesis | inferred from mutant phenotype|GO:0008535
onent| bud tip | inferred from direct assay|GO:0005934//biological process| small GTPase mediated signal transduction | inferred from physical interaction
rter activity | inferred from sequence similarity |GO:0015144//cellular component| plasma membrane | inferred from sequence similarity|GO:0005886//biolo
nuclear mRNA splicing, via spliceosome | inferred from physical interaction|GO:0000398
ription from Pol II promoter | inferred from direct assay|GO:0006366
onent| mitochondrion | inferred from direct assay|GO:0005739//cellular component| cytoplasm | inferred from direct assay |GO:0005737//cellular componen
mutant phenotype|GO:0006623//biological process| chromatin remodeling | inferred from physical interaction |GO:0006338//biological process| chromatin
complex formation | inferred from physical interaction |GO:0007130//biological process| synaptonemal complex formation | inferred from mutant phenotype
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
eogenesis | inferred from mutant phenotype|GO:0045721//biological process| vesicle-mediated transport | inferred from mutant phenotype |GO:0016192
sequence similarity|GO:0006461//biological process| rRNA processing | inferred from mutant phenotype |GO:0006364//biological process| ribosomal large
om physical interaction |GO:0008097//cellular component| nucleolus | inferred from physical interaction|GO:0005730//cellular component| nucleolus | infer
:0005886//biological process| multidrug transport | inferred from sequence similarity|GO:0006855//biological process| multidrug transport | inferred from ex
statement|GO:0007047//biological process| beta-1,3 glucan biosynthesis | traceable author statement |GO:0006075
ent| plasma membrane | inferred from direct assay|GO:0005886//biological process| drug transport | inferred from mutant phenotype|GO:0015893//biologic
etabolism | traceable author statement|GO:0006520//biological process| tryptophan biosynthesis | traceable author statement |GO:0000162
792//cellular component| endoplasmic reticulum | inferred from direct assay |GO:0005783//cellular component| nucleus | inferred from direct assay |GO:00
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ein signal transduction | traceable author statement|GO:0007266//biological process| apical bud growth | inferred from mutant phenotype |GO:0007118//bio
mponent| mitochondrial small ribosomal subunit | inferred from physical interaction|GO:0005763//biological process| protein biosynthesis | inferred from ph
oter | inferred from mutant phenotype|GO:0000122
genesis | inferred from mutant phenotype|GO:0045721//biological process| protein deubiquitination | traceable author statement |GO:0016579
d from mutant phenotype |GO:0015344//cellular component| cytoplasmic vesicle | inferred from direct assay|GO:0016023//cellular component| endosome |
doplasmic reticulum | inferred from direct assay|GO:0005783//biological process| glutathione metabolism | inferred from direct assay|GO:0006749
/S transition of mitotic cell cycle | inferred from physical interaction|GO:0000082//biological process| G1/S transition of mitotic cell cycle | inferred from mut
0005934//biological process| microtubule cytoskeleton organization and biogenesis | inferred from mutant phenotype|GO:0000226//biological process| nuc
from mutant phenotype|GO:0007124
romoter | inferred from direct assay|GO:0006367//biological process| allantoin catabolism | inferred from mutant phenotype |GO:0000256
mbrane space | inferred from direct assay |GO:0005758//biological process| zinc ion homeostasis | inferred from mutant phenotype|GO:0006882//biologica
nent| nuclear pore | traceable author statement |GO:0005643//biological process| spindle pole body duplication (sensu Saccharomyces) | inferred from mu
thiamin biosynthesis | inferred from expression pattern |GO:0009228
cytoplasm | inferred from direct assay|GO:0005737//biological process| thiamin diphosphate biosynthesis | traceable author statement|GO:0009229//biolog
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
0//biological process| sterol transport | inferred from mutant phenotype|GO:0015918
direct assay|GO:0030488
ent| cytosol | inferred from direct assay|GO:0005829//biological process| formate catabolism | traceable author statement|GO:0042183//biological process
ne | inferred from direct assay |GO:0005740//biological process| aerobic respiration | inferred from mutant phenotype|GO:0009060//biological process| pro
| inferred from sequence similarity|GO:0006465//biological process| signal peptide processing | inferred from physical interaction |GO:0006465//biological
sm | inferred from sequence similarity|GO:0005737//biological process| biotin biosynthesis | inferred from mutant phenotype|GO:0009102//biological proce
direct assay |GO:0000228//biological process| mitotic sister chromatid cohesion | inferred from mutant phenotype|GO:0007064//biological process| DNA re
ed from mutant phenotype|GO:0045026//biological process| plasma membrane fusion | inferred from expression pattern |GO:0045026
ction| phosphoprotein phosphatase activity | inferred from physical interaction |GO:0004721//molecular function| phosphoprotein phosphatase activity | inf
d from direct assay |GO:0005634//biological process| sodium ion homeostasis | inferred from mutant phenotype|GO:0006883//biological process| sodium i
mutant phenotype|GO:0000741//biological process| karyogamy | inferred from direct assay |GO:0000741
rganization and biogenesis | inferred from mutant phenotype|GO:0007047
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
131//biological process| cellular morphogenesis during vegetative growth | inferred from genetic interaction|GO:0000903
cal interaction|GO:0006338
ysical interaction|GO:0006338//biological process| chromatin assembly/disassembly | inferred from physical interaction |GO:0006333//biological process| D
O:0005737//biological process| DNA repair | inferred from mutant phenotype|GO:0006281//biological process| DNA repair | inferred from direct assay |GO:
onent| transcription factor TFIIH complex | traceable author statement|GO:0005675//cellular component| nucleotide excision repair factor 3 complex | trace
mponent| vacuolar membrane (sensu Fungi) | inferred from direct assay|GO:0000329//biological process| putrescine transport | inferred from direct assay
ed from mutant phenotype|GO:0007165//biological process| protein amino acid phosphorylation | inferred from sequence similarity |GO:0006468
ss| mitochondrial genome maintenance | traceable author statement |GO:0000002//biological process| mitochondrion inheritance | traceable author statem
gical process| protein processing | inferred from sequence similarity|GO:0016485
rocess| nuclear mRNA splicing, via spliceosome | inferred from physical interaction|GO:0000398
GO:0005634//biological process| bud growth | inferred from mutant phenotype|GO:0007117//biological process| bud growth | inferred from genetic interact
toplasm | inferred from direct assay |GO:0005737//biological process| filamentous growth | inferred from mutant phenotype|GO:0030447//biological proces
processing of 20S pre-rRNA | inferred from physical interaction|GO:0030490//biological process| processing of 20S pre-rRNA | inferred from mutant pheno
8//molecular function| hydrolase activity, acting on ester bonds | inferred from direct assay |GO:0016788//cellular component| cytoplasm | inferred from dire
GO:0005768//cellular component| ESCRT I complex | traceable author statement |GO:0000813//biological process| protein-vacuolar targeting | inferred fro
erogeneous nuclear ribonucleoprotein complex | inferred from sequence similarity |GO:0030530//cellular component| cytoplasm | inferred from direct assa
(sensu Eukarya) | traceable author statement|GO:0005838//biological process| ubiquitin-dependent protein catabolism | traceable author statement|GO:00
say |GO:0005737
| traceable author statement|GO:0030003
rred from genetic interaction |GO:0007165
023//biological process| RNA elongation from Pol II promoter | inferred from physical interaction|GO:0006368
phenotype|GO:0040020//biological process| protein amino acid phosphorylation | traceable author statement |GO:0006468
n amino acid phosphorylation | inferred from sequence similarity |GO:0006468
onent| endoplasmic reticulum membrane | inferred from direct assay|GO:0005789//cellular component| membrane fraction | inferred from sequence similar
ess| microtubule nucleation | inferred from physical interaction|GO:0007020//biological process| mitotic sister chromatid segregation | inferred from mutant
ant phenotype|GO:0009060//biological process| mRNA catabolism | inferred from mutant phenotype |GO:0006402
damage stimulus | inferred from direct assay|GO:0006974//biological process| cell ion homeostasis | inferred from mutant phenotype |GO:0006873//biolog
ar component| vacuolar membrane (sensu Fungi) | inferred from direct assay|GO:0000329//biological process| calcium ion homeostasis | inferred from mu
function| glutathione transferase activity | inferred from direct assay |GO:0004364//cellular component| cytoplasm | inferred from direct assay|GO:0005737
ct assay |GO:0005794//cellular component| endoplasmic reticulum | inferred from direct assay |GO:0005783//biological process| vesicle organization and b
nt| cytoplasm | inferred from direct assay|GO:0005737//biological process| protein amino acid phosphorylation | inferred from sequence similarity|GO:0006
m direct assay |GO:0003924//cellular component| bud | traceable author statement|GO:0005933//cellular component| plasma membrane | inferred from dir
ellular component| proteasome core complex (sensu Eukarya) | traceable author statement |GO:0005839//biological process| sporulation (sensu Fungi) | t
from direct assay |GO:0005634//biological process| G2/M transition of mitotic cell cycle | inferred from direct assay|GO:0000086//biological process| regul
ogenesis | inferred from mutant phenotype|GO:0006999//biological process| protein-nucleus export | traceable author statement |GO:0006611//biological
nucleolar ribonucleoprotein complex | traceable author statement |GO:0005732//cellular component| small nucleolar ribonucleoprotein complex | inferred fr
m direct assay |GO:0005634//biological process| regulation of meiosis | traceable author statement|GO:0040020//biological process| protein amino acid ph
ar component| mRNA cleavage and polyadenylation specificity factor complex | inferred from physical interaction |GO:0005847//biological process| transcr
hanism | inferred from physical interaction |GO:0046933//molecular function| hydrogen-transporting ATP synthase activity, rotational mechanism | inferred
n and biogenesis | inferred from mutant phenotype|GO:0007033//biological process| response to stress | inferred from mutant phenotype |GO:0006950
ytochrome c-heme linkage | inferred from direct assay|GO:0018063
rect assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| D-ribose metabolism | inferred from se
ent| nucleosome remodeling complex | traceable author statement |GO:0005679//biological process| chromatin remodeling | traceable author statement|GO
olism | inferred from physical interaction |GO:0006511//biological process| ubiquitin-dependent protein catabolism | inferred from genetic interaction |GO:0
m direct assay |GO:0005634//biological process| regulation of transcription, mating-type specific | inferred from mutant phenotype|GO:0007532//biological p
tement |GO:0005838//biological process| ubiquitin-dependent protein catabolism | traceable author statement|GO:0006511
rocess| nuclear mRNA splicing, via spliceosome | inferred from physical interaction|GO:0000398
| COPII-coated vesicle | inferred from direct assay |GO:0030138//biological process| ER to Golgi transport | inferred from physical interaction|GO:0006888
atement |GO:0005832//cellular component| cytoplasm | traceable author statement |GO:0005737//biological process| cytoskeleton organization and bioge
cellular protein transport | inferred from genetic interaction|GO:0006886
henotype|GO:0046688
m | inferred from sequence similarity|GO:0007039
component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process
irect assay|GO:0005730//cellular component| nuclear telomeric heterochromatin | inferred from direct assay |GO:0005724//cellular component| chromatin
GO:0016021//biological process| transport | inferred from sequence similarity|GO:0006810
unction| translation initiation factor activity | inferred from direct assay |GO:0003743//cellular component| eukaryotic translation initiation factor 3 complex |
:0000776//biological process| chromosome segregation | inferred from direct assay|GO:0007059
GO:0000307//biological process| regulation of glycogen catabolism | inferred from genetic interaction|GO:0005981//biological process| regulation of glycog
atement|GO:0006281//biological process| mutagenesis | traceable author statement |GO:0006280
assay |GO:0005737//biological process| NADH metabolism | inferred from direct assay|GO:0006734
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ell adhesion molecule binding | inferred from mutant phenotype |GO:0050839//cellular component| cell wall (sensu Fungi) | inferred from direct assay|GO:0
e |GO:0004315//cellular component| mitochondrion | traceable author statement|GO:0005739//biological process| hexadecanal biosynthesis | inferred from
H complex | inferred from direct assay |GO:0042729//cellular component| spindle | inferred from direct assay |GO:0005819//cellular component| spindle po
cal interaction|GO:0005829//biological process| response to stress | inferred from mutant phenotype|GO:0006950//biological process| response to stress |
eting | inferred from physical interaction|GO:0045047
| shmoo tip | inferred from direct assay|GO:0005937//cellular component| bud neck | inferred from direct assay |GO:0005935//cellular component| nucleus
nent| nucleus | inferred from physical interaction|GO:0005634//biological process| negative regulation of transcription from Pol II promoter | inferred from m
base subcomplex (sensu Eukarya) | inferred from direct assay|GO:0008540//cellular component| proteasome regulatory particle (sensu Eukarya) | tracea
say |GO:0005730//biological process| conjugation with cellular fusion | inferred from genetic interaction|GO:0000747//biological process| ribosomal large su
t| mitochondrial outer membrane | inferred from mutant phenotype |GO:0005741//cellular component| mitochondrial outer membrane | inferred from direct
eostasis | inferred from direct assay|GO:0030007
nferred from genetic interaction|GO:0007030
utant phenotype|GO:0006365//biological process| ribosome-nucleus export | traceable author statement |GO:0000054//biological process| ribosome-nucle
ferred from physical interaction|GO:0006338
Pol II promoter | inferred from direct assay|GO:0006357
rocess| nuclear mRNA splicing, via spliceosome | inferred from physical interaction|GO:0000398
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
rred from direct assay|GO:0015677//biological process| iron ion transport | inferred from direct assay |GO:0006826
base subcomplex (sensu Eukarya) | inferred from direct assay|GO:0008540//cellular component| proteasome regulatory particle (sensu Eukarya) | tracea
onent| soluble fraction | inferred from direct assay|GO:0005625//biological process| response to aluminum ion | inferred from mutant phenotype|GO:00100
red from direct assay|GO:0005739//cellular component| cytoplasm | inferred from direct assay |GO:0005737//cellular component| nucleus | inferred from d
0004482//cellular component| DNA-directed RNA polymerase II, holoenzyme | inferred from physical interaction|GO:0016591//cellular component| nucleus
able author statement|GO:0005730//biological process| 35S primary transcript processing | traceable author statement|GO:0006365
nt| endosome | inferred from direct assay |GO:0005768//cellular component| vacuole (sensu Fungi) | inferred from direct assay |GO:0000324//biological pro
rocess| rRNA processing | inferred from mutant phenotype|GO:0006364//biological process| nuclear mRNA splicing, via spliceosome | inferred from physic
cellular component| mitochondrial outer membrane translocase complex | inferred from mutant phenotype |GO:0005742//biological process| mitochondrial
ntry into mitotic cell cycle after pheromone arrest | inferred from mutant phenotype|GO:0000321//biological process| re-entry into mitotic cell cycle after ph
s| lagging strand elongation | traceable author statement|GO:0006273//biological process| DNA replication initiation | traceable author statement |GO:0006
physical interaction |GO:0006281
omocitrate synthase activity | inferred from genetic interaction |GO:0004410//molecular function| homocitrate synthase activity | inferred from expression p
from sequence similarity|GO:0016020//biological process| regulation of signal transduction | inferred from physical interaction|GO:0009966//biological pro
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
on factor C complex | inferred from direct assay|GO:0005663//biological process| sister chromatid cohesion | inferred from physical interaction|GO:000706
inferred from genetic interaction|GO:0000722
olism | inferred from sequence similarity|GO:0006629
mosome kinetochore | traceable author statement|GO:0000778//cellular component| condensed nuclear chromosome kinetochore | inferred from direct ass
d from expression pattern |GO:0009269
tivity | inferred from genetic interaction |GO:0008835//biological process| vitamin B2 biosynthesis | inferred from mutant phenotype|GO:0009231
ondrion organization and biogenesis | inferred from mutant phenotype|GO:0007005//biological process| translational initiation | inferred from physical inter
molecular function| inorganic phosphate transporter activity | inferred from genetic interaction |GO:0005315//cellular component| membrane | inferred from
matid cohesion | traceable author statement|GO:0007064//biological process| mitotic sister chromatid cohesion | inferred from mutant phenotype |GO:000
iption factor activity | inferred from genetic interaction |GO:0003700//cellular component| nucleus | traceable author statement|GO:0005634//biological pro
me to vacuole transport | inferred from genetic interaction |GO:0045324
| spliceosome complex | traceable author statement|GO:0005681//biological process| U2-type spliceosome dissembly | traceable author statement|GO:00
enotype|GO:0030490
ar component| nucleus | inferred from physical interaction|GO:0005634//biological process| protein amino acid phosphorylation | inferred from physical inte
t protein catabolism | inferred from sequence similarity|GO:0006511
|GO:0005634//biological process| ribosomal large subunit biogenesis | inferred from physical interaction|GO:0042273//biological process| ribosomal large
hysical interaction|GO:0006913
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
0435//biological process| protein processing | inferred from mutant phenotype |GO:0016485//biological process| protein processing | inferred from genetic
70//cellular component| peroxisomal matrix | inferred from direct assay|GO:0005782//biological process| sporulation (sensu Fungi) | inferred from mutant p
processing of 20S pre-rRNA | inferred from physical interaction|GO:0030490//biological process| processing of 20S pre-rRNA | inferred from mutant pheno
|GO:0000110//biological process| nucleotide-excision repair, DNA incision, 5'-to lesion | traceable author statement|GO:0006296//biological process| doub
ridylate synthase activity | inferred from sequence similarity |GO:0004730//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biologic
GO:0005634//biological process| glycogen biosynthesis | traceable author statement|GO:0005978
say|GO:0005788//biological process| --- | inferred from mutant phenotype|GO:0030968//biological process| N-linked glycoprotein maturation | inferred from
Fungi) | inferred from direct assay|GO:0000329//cellular component| extrinsic to vacuolar membrane | inferred from direct assay |GO:0000306//biological p
cell cycle arrest in response to pheromone | inferred from mutant phenotype |GO:0000751
m direct assay |GO:0003924//cellular component| bud | traceable author statement|GO:0005933//cellular component| plasma membrane | inferred from dir
atement|GO:0000145//cellular component| exocyst | inferred from physical interaction |GO:0000145//cellular component| site of polarized growth (sensu S
omponent| plasma membrane | inferred from direct assay|GO:0005886//cellular component| vacuolar membrane | inferred from direct assay |GO:0005774
ogenesis | traceable author statement|GO:0006999//biological process| protein-nucleus export | traceable author statement |GO:0006611//biological proce
rt | inferred from mutant phenotype |GO:0006896
rred from sequence similarity|GO:0006425//biological process| glutaminyl-tRNA aminoacylation | inferred from mutant phenotype |GO:0006425
steine-type peptidase activity | inferred from sequence similarity |GO:0008234//molecular function| cysteine-type peptidase activity | inferred from direct as
similarity|GO:0016070
mponent| cAMP-dependent protein kinase complex | traceable author statement|GO:0005952//cellular component| cytoplasm | traceable author statement
hanism | inferred from mutant phenotype |GO:0046933//cellular component| proton-transporting ATP synthase complex, coupling factor F(o) (sensu Eukary
arsenate | traceable author statement|GO:0046685
m | inferred from direct assay|GO:0005737//biological process| polyphosphate metabolism | inferred from direct assay|GO:0006797
l subunit (sensu Eukarya) | traceable author statement|GO:0005842//biological process| protein biosynthesis | traceable author statement|GO:0006412
tor|GO:0005634//biological process| telomerase-independent telomere maintenance | inferred from genetic interaction|GO:0000722
005634//biological process| RNA metabolism | inferred from sequence similarity|GO:0016070
silencing | inferred from mutant phenotype|GO:0006342//biological process| nucleosome assembly | inferred from mutant phenotype |GO:0006334//biolog
es) | inferred from direct assay|GO:0001403
leton organization and biogenesis | inferred from physical interaction|GO:0030036//biological process| actin filament organization | traceable author statem
nt| membrane | inferred from sequence similarity|GO:0016020//cellular component| endoplasmic reticulum | inferred from direct assay |GO:0005783//cellul
itochondrion | inferred from sequence similarity|GO:0005739//biological process| protein biosynthesis | inferred from direct assay|GO:0006412
nt| cytoplasm | inferred from direct assay|GO:0005737//biological process| mRNA processing | inferred from physical interaction|GO:0006397//biological pr
plasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from physical interaction |GO:0005634//cellular component| nucleus
| protein biosynthesis | traceable author statement|GO:0006412
nuclear mRNA splicing, via spliceosome | inferred from physical interaction|GO:0000398
in mitotic cell cycle | inferred from mutant phenotype|GO:0000083
hondrial outer membrane | inferred from direct assay|GO:0005741
ble author statement|GO:0005816//biological process| signal transduction | non-traceable author statement|GO:0007165//biological process| M phase of m
aratus | traceable author statement|GO:0005794//biological process| vacuolar transport | inferred from physical interaction|GO:0007034//biological process
silencing complex | inferred from mutant phenotype |GO:0005677//biological process| RAS protein signal transduction | traceable author statement|GO:00
d from physical interaction|GO:0000398//biological process| nuclear mRNA splicing, via spliceosome | inferred from mutant phenotype |GO:0000398
omponent| protein phosphatase type 1 complex | inferred from physical interaction|GO:0000164//biological process| cell growth and/or maintenance | infe
| traceable author statement |GO:0000398//biological process| nuclear mRNA splicing, via spliceosome | inferred from physical interaction |GO:0000398
ess| GPI anchor biosynthesis | inferred from sequence similarity|GO:0006506
:0005634//biological process| cell growth and/or maintenance | inferred from mutant phenotype|GO:0008151//biological process| protein amino acid phosp
GO:0005685//cellular component| snRNP U1 | inferred from direct assay |GO:0005685//cellular component| commitment complex | traceable author statem
ellular component| SAGA complex | inferred from direct assay |GO:0000124//biological process| histone acetylation | traceable author statement|GO:0016
ogical process| actin filament organization | traceable author statement|GO:0007015
OT core complex | inferred from physical interaction|GO:0030015//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological proce
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ellular component| nucleus | inferred from direct assay |GO:0005634
rred from direct assay |GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| peroxisome organization a
mutant phenotype|GO:0009060
n-transporting ATP synthase complex, coupling factor F(o) (sensu Eukarya) | inferred from sequence similarity|GO:0000276//cellular component| proton-tr
t| mitochondrial outer membrane | inferred from mutant phenotype |GO:0005741//cellular component| mitochondrial outer membrane | inferred from direct
n |GO:0030364//cellular component| mRNA cleavage factor complex | inferred from physical interaction|GO:0005849//cellular component| mRNA cleavage
om mutant phenotype |GO:0004659//cellular component| mitochondrial inner membrane | traceable author statement|GO:0005743//biological process| ubi
eraction|GO:0005934//cellular component| exocyst | traceable author statement |GO:0000145//cellular component| exocyst | inferred from physical interac
s| lipid storage | inferred from mutant phenotype|GO:0019915//biological process| lipid storage | inferred from direct assay |GO:0019915//biological process
ase holoenzyme complex | inferred from physical interaction |GO:0005697//cellular component| telomerase holoenzyme complex | inferred from direct ass
633//cellular component| cytoplasm | inferred from physical interaction|GO:0005737//cellular component| cytoplasm | inferred from curator |GO:0005737//c
| inferred from direct assay |GO:0005737//biological process| regulation of transcription from Pol II promoter | inferred from physical interaction|GO:00063
m | inferred from physical interaction|GO:0005737//biological process| response to stress | inferred from physical interaction|GO:0006950//biological proces
n|GO:0005737//biological process| protein folding | inferred from mutant phenotype|GO:0006457//biological process| protein folding | inferred from genetic
//cellular component| SWI/SNF complex | traceable author statement |GO:0016514//cellular component| nucleosome remodeling complex | traceable auth
008177//cellular component| respiratory chain complex II (sensu Eukarya) | traceable author statement|GO:0005749//biological process| mitochondrial ele
om direct assay |GO:0005794//cellular component| endoplasmic reticulum | inferred from direct assay |GO:0005783//biological process| ER to Golgi transp
| traceable author statement|GO:0005724//cellular component| nuclear membrane | inferred from direct assay |GO:0005635//cellular component| nuclear c
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
skeleton organization and biogenesis | inferred from mutant phenotype|GO:0030036//biological process| protein secretion | inferred from mutant phenotyp
thiamin biosynthesis | inferred from expression pattern |GO:0009228
substances | inferred from mutant phenotype |GO:0042626//cellular component| integral to peroxisomal membrane | inferred from direct assay|GO:000577
allyltranstransferase activity | traceable author statement |GO:0004161//molecular function| dimethylallyltranstransferase activity | inferred from direct assa
eting | inferred from physical interaction|GO:0045047
000145//cellular component| exocyst | inferred from physical interaction |GO:0000145//biological process| polar budding | inferred from mutant phenotype|
body | inferred from direct assay|GO:0005816//biological process| spore wall assembly (sensu Fungi) | inferred from mutant phenotype|GO:0030476//biolo
lex | inferred from direct assay|GO:0005663//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| sister chromatid co
ole (sensu Fungi) | inferred from direct assay |GO:0000324//biological process| homotypic vacuole fusion, non-autophagic | inferred from mutant phenotyp
hor statement|GO:0006402//biological process| mRNA catabolism | inferred from mutant phenotype |GO:0006402
m direct assay|GO:0005730//biological process| 35S primary transcript processing | inferred from mutant phenotype|GO:0006365
c interaction|GO:0019722//biological process| aerobic respiration | inferred from mutant phenotype |GO:0009060//biological process| transcription from mit
hor statement|GO:0006633
rred from mutant phenotype |GO:0000075
n | inferred from genetic interaction|GO:0006378
m direct assay |GO:0005737//biological process| glycolysis | traceable author statement|GO:0006096//biological process| gluconeogenesis | traceable auth
cal process| aerobic respiration | inferred from mutant phenotype|GO:0009060//biological process| protein biosynthesis | inferred from curator |GO:000641
dification | inferred from physical interaction|GO:0007035//biological process| vacuolar acidification | inferred from mutant phenotype |GO:0007035//biolog
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
g, via spliceosome | inferred from genetic interaction |GO:0000398
ription from Pol II promoter | inferred from direct assay|GO:0006366
005634//biological process| nuclear mRNA splicing, via spliceosome | inferred from physical interaction|GO:0000398
able author statement|GO:0006750
e activity | inferred from direct assay |GO:0004015//cellular component| cytoplasm | inferred from sequence similarity|GO:0005737//biological process| biot
uclear exosome (RNase complex) | inferred from direct assay |GO:0000176//biological process| mRNA catabolism | inferred from physical interaction|GO:0
|GO:0005737//cellular component| nucleus | inferred from genetic interaction |GO:0005634//cellular component| nucleus | inferred from direct assay |GO:0
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ponent| Golgi trans face | inferred from direct assay|GO:0005802//biological process| intracellular copper ion transport | inferred from mutant phenotype|GO
thor statement |GO:0005759//biological process| propionate metabolism | inferred from expression pattern|GO:0019541//biological process| glutamate bio
erred from physical interaction |GO:0005634//biological process| histone deacetylation | inferred from physical interaction|GO:0016575
gical process| intracellular protein transport | inferred from genetic interaction|GO:0006886
m direct assay|GO:0042273
i) | inferred from direct assay |GO:0009277//cellular component| extracellular | inferred from sequence similarity |GO:0005576//biological process| cytokine
red from sequence similarity|GO:0005977//biological process| glycogen metabolism | inferred from mutant phenotype |GO:0005977//biological process| gly
e base biosynthesis | traceable author statement|GO:0006207//biological process| 'de novo' IMP biosynthesis | traceable author statement |GO:0006189//
ed from direct assay |GO:0005935//cellular component| bud tip | inferred from direct assay |GO:0005934//cellular component| polarisome | traceable autho
s| lagging strand elongation | traceable author statement|GO:0006273//biological process| DNA replication initiation | traceable author statement |GO:0006
olymerase III complex | traceable author statement |GO:0005666//cellular component| nucleus | inferred from direct assay |GO:0005634//biological proces
t| mitochondrial large ribosomal subunit | inferred from physical interaction |GO:0005762//biological process| protein biosynthesis | traceable author statem
GO:0016272//cellular component| prefoldin complex | inferred from mutant phenotype |GO:0016272//biological process| cytoskeleton organization and biog
ellular component| mitochondrial matrix | traceable author statement |GO:0005759//cellular component| nuclear membrane | inferred from direct assay |GO
| Rab GTPase activator activity | inferred from mutant phenotype |GO:0005097//molecular function| Rab GTPase activator activity | inferred from direct ass
red from direct assay |GO:0000131//biological process| pseudohyphal growth | traceable author statement|GO:0007124//biological process| protein amino
author statement |GO:0007046
rred from mutant phenotype|GO:0006808//biological process| regulation of nitrogen utilization | inferred from genetic interaction |GO:0006808//biological pr
| inferred from direct assay|GO:0005634//biological process| RNA processing | inferred from mutant phenotype|GO:0006396//biological process| DNA repl
uclear exosome (RNase complex) | inferred from direct assay |GO:0000176//biological process| mRNA catabolism | inferred from physical interaction|GO:0
m direct assay |GO:0000372
05051//molecular function| peroxisome targeting sequence binding | inferred from direct assay |GO:0000268//cellular component| cytosol | inferred from dir
rred from physical interaction|GO:0009651//biological process| response to salt stress | inferred from genetic interaction |GO:0009651//biological process|
45129//molecular function| NAD-dependent histone deacetylase activity | inferred from physical interaction |GO:0017136//molecular function| NAD-depend
| inferred from direct assay |GO:0005783//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological process| conjugation with ce
ol | inferred from direct assay|GO:0005829//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| processing of 20S pr
05739//cellular component| presequence translocase-associated import motor | inferred from physical interaction |GO:0001405//biological process| mitoch
ble author statement|GO:0016579
tion recognition complex | traceable author statement|GO:0005664//biological process| chromatin silencing at silent mating-type cassette (sensu Fungi) | t
03702//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from physical interaction |GO:00056
08650//cellular component| mitochondrion | inferred from direct assay|GO:0005739//biological process| rRNA modification | inferred from mutant phenotype
nferred from physical interaction|GO:0008053//biological process| mitochondrial fusion | inferred from mutant phenotype |GO:0008053//biological process|
iological process| transcription initiation from Pol II promoter | traceable author statement|GO:0006367//biological process| G1-specific transcription in mito
rt | traceable author statement|GO:0006888
tement|GO:0005654//biological process| snoRNA metabolism | inferred from mutant phenotype|GO:0016074//biological process| transport | inferred from
mport | traceable author statement|GO:0030150//biological process| protein folding | traceable author statement |GO:0006457
m mutant phenotype|GO:0030437//biological process| conjugation with cellular fusion | inferred from mutant phenotype |GO:0000747//biological process| ri
nteraction|GO:0006402//biological process| mRNA catabolism | inferred from mutant phenotype |GO:0006402//biological process| nuclear mRNA splicing,
udding | inferred from mutant phenotype|GO:0007121//biological process| actin filament organization | inferred from physical interaction |GO:0007015//bio
al process| transcription initiation from Pol III promoter | traceable author statement|GO:0006384
nt| nucleus | inferred from direct assay|GO:0005634//biological process| tRNA methylation | inferred from mutant phenotype|GO:0030488
e|GO:0006897//biological process| protein amino acid phosphorylation | inferred from direct assay |GO:0006468//biological process| MAPKKK cascade du
5//biological process| spindle pole body duplication (sensu Saccharomyces) | inferred from mutant phenotype |GO:0007103//biological process| spindle po
ed from direct assay |GO:0005634//cellular component| histone acetyltransferase complex | inferred from physical interaction |GO:0000123//biological proc
om physical interaction|GO:0007165
hor statement |GO:0006364
ription from Pol II promoter | inferred from direct assay|GO:0006366
ochondrial small ribosomal subunit | traceable author statement|GO:0005763//cellular component| mitochondrial small ribosomal subunit | inferred from dir
amino acid phosphorylation | traceable author statement|GO:0006468//biological process| regulation of transcription from Pol II promoter | traceable autho
nent| vacuole (sensu Fungi) | inferred from direct assay|GO:0000324//biological process| protein folding | inferred from genetic interaction|GO:0006457
process| aerobic respiration | traceable author statement|GO:0009060
m mutant phenotype|GO:0045721
A synthesis | inferred from mutant phenotype|GO:0006279//biological process| premeiotic DNA synthesis | inferred from genetic interaction |GO:0006279//
bonucleoprotein complex | traceable author statement |GO:0005732//biological process| 35S primary transcript processing | traceable author statement|GO
ticle (sensu Eukarya) | traceable author statement|GO:0005838//cellular component| proteasome regulatory particle (sensu Eukarya) | inferred from direct
hor statement|GO:0000105
ect assay |GO:0005634//biological process| negative regulation of DNA recombination | non-traceable author statement|GO:0045910//biological process|
rom mutant phenotype|GO:0006445//biological process| regulation of translation | inferred from genetic interaction |GO:0006445
able author statement|GO:0006307
rred from direct assay|GO:0005634//cellular component| condensed nuclear chromosome | inferred from direct assay |GO:0000794//biological process| m
n-transporting ATP synthase complex, coupling factor F(o) (sensu Eukarya) | inferred from sequence similarity|GO:0000276//cellular component| proton-tr
damage stimulus | inferred from direct assay|GO:0006974//biological process| cell ion homeostasis | inferred from physical interaction |GO:0006873//biolo
chromatin | inferred from direct assay|GO:0000790//cellular component| nuclear chromosome, telomeric region | inferred from curator |GO:0000784//biolo
al interaction|GO:0006623//biological process| protein-vacuolar targeting | inferred from mutant phenotype |GO:0006623
ponent| cytoplasm | inferred from sequence similarity|GO:0005737//cellular component| cytoplasm | inferred from mutant phenotype |GO:0005737//biologic
al process| transcription from Pol III promoter | traceable author statement|GO:0006383
ellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| hexose metabolism | inferred from mutant phenotype|GO:00193
e segregation | inferred from physical interaction|GO:0007059
s| lagging strand elongation | traceable author statement|GO:0006273//biological process| DNA replication initiation | traceable author statement |GO:0006
e | traceable author statement|GO:0006097
ological process| conjugation with cellular fusion | inferred from genetic interaction|GO:0000747
ed from mutant phenotype |GO:0000335
clear mRNA splicing, via spliceosome | inferred from physical interaction |GO:0000398
red from direct assay|GO:0016310//biological process| arginine metabolism | inferred from mutant phenotype |GO:0006525
m | inferred from genetic interaction|GO:0006071
scription initiation from Pol II promoter | inferred from direct assay|GO:0006367//biological process| DNA metabolism | inferred from genetic interaction |GO
cription factor activity | inferred from direct assay |GO:0003700//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular componen
physical interaction |GO:0003729//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from dire
-mediated signaling | inferred from mutant phenotype|GO:0019722//biological process| cellular response to starvation | inferred from mutant phenotype |GO
otein-vacuolar targeting | inferred from physical interaction |GO:0006623//biological process| protein-vacuolar targeting | inferred from mutant phenotype |G
om direct assay |GO:0005634//cellular component| SWR1 complex | inferred from physical interaction |GO:0000812//biological process| snoRNA metabol
rocess| chromatin silencing at silent mating-type cassette (sensu Fungi) | traceable author statement|GO:0030466//biological process| DNA replication init
biological process| processing of 20S pre-rRNA | inferred from mutant phenotype|GO:0030490
00014//cellular component| nucleus | traceable author statement|GO:0005634//biological process| DNA repair | inferred from mutant phenotype|GO:000628
ction |GO:0000278
folding pathway | traceable author statement |GO:0007023
| inferred from sequence similarity|GO:0006810
t| mitochondrial large ribosomal subunit | inferred from physical interaction |GO:0005762//biological process| protein biosynthesis | traceable author statem
nferred from direct assay |GO:0005773//cellular component| late endosome | traceable author statement |GO:0005770//biological process| vacuolar transp
d from mutant phenotype|GO:0005794//cellular component| endosome | inferred from mutant phenotype |GO:0005768//biological process| Golgi to vacuole
direct assay |GO:0005886//biological process| sporulation (sensu Fungi) | inferred from mutant phenotype|GO:0030437//biological process| RAS protein s
| protein biosynthesis | traceable author statement|GO:0006412
O:0004368//molecular function| glycerol-3-phosphate dehydrogenase activity | inferred from direct assay |GO:0004368//cellular component| mitochondrion
ype |GO:0004933//cellular component| integral to plasma membrane | inferred from sequence similarity|GO:0005887//cellular component| integral to plasm
om direct assay|GO:0005770//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological process| vacuolar transport | inferred fro
Golgi | inferred from physical interaction|GO:0042147
rocess| rRNA processing | inferred from mutant phenotype|GO:0006364//biological process| nuclear mRNA splicing, via spliceosome | inferred from physic
ment|GO:0006906//biological process| endocytosis | traceable author statement |GO:0006897//biological process| Golgi to plasma membrane transport | t
ane targeting | inferred from genetic interaction |GO:0006612
aceable author statement|GO:0005737//cellular component| cytoplasm | inferred from direct assay |GO:0005737//cellular component| pre-replicative comp
ence similarity|GO:0006810
ondrial intermembrane space protein transporter complex | inferred from direct assay|GO:0042719//biological process| mitochondrial inner membrane pro
processing of 20S pre-rRNA | inferred from physical interaction|GO:0030490//biological process| processing of 20S pre-rRNA | inferred from mutant pheno
GO:0005730//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| rRNA processing | inferred from direct assay|GO:
processing | traceable author statement|GO:0006365//biological process| 35S primary transcript processing | inferred from physical interaction |GO:00063
e|GO:0018987//biological process| osmoregulation | inferred from genetic interaction |GO:0018987
ocess| heme a biosynthesis | traceable author statement|GO:0006784//biological process| protein complex assembly | inferred from mutant phenotype |G
d from direct assay|GO:0005737//biological process| xylulose catabolism | inferred from direct assay|GO:0005998
ay|GO:0005829//cellular component| peroxisome | inferred from direct assay |GO:0005777//biological process| protein-peroxisome targeting | inferred from
aceable author statement |GO:0003682//cellular component| cytoplasm | traceable author statement|GO:0005737//cellular component| cytoplasm | inferre
| transcription from Pol II promoter | inferred from physical interaction|GO:0006366//biological process| mitotic sister chromatid segregation | inferred from
45129//molecular function| NAD-dependent histone deacetylase activity | inferred from physical interaction |GO:0017136//molecular function| NAD-depend
ytosis | inferred from mutant phenotype |GO:0006897
sponse to osmotic stress | inferred from mutant phenotype|GO:0006970//biological process| cell wall chitin biosynthesis | inferred from mutant phenotype |
to stress | inferred from mutant phenotype|GO:0006950//biological process| trehalose catabolism | inferred from sequence similarity |GO:0005993//biolog
olism | traceable author statement|GO:0006511//biological process| protein modification | traceable author statement |GO:0006464
al targeting | inferred from genetic interaction|GO:0006626
ongation | inferred from physical interaction|GO:0006448//biological process| regulation of translational elongation | inferred from mutant phenotype |GO:00
osome, pericentric region | inferred from genetic interaction |GO:0000780//biological process| mitotic sister chromatid segregation | inferred from mutant p
processing of 20S pre-rRNA | inferred from physical interaction|GO:0030490//biological process| processing of 20S pre-rRNA | inferred from mutant pheno
biological process| G1/S transition of mitotic cell cycle | inferred from genetic interaction |GO:0000082
| inferred from sequence similarity|GO:0006810
atement|GO:0007046//biological process| ribosome biogenesis | inferred from direct assay |GO:0007046
om direct assay|GO:0005737//biological process| phosphatidylethanolamine biosynthesis | inferred from mutant phenotype|GO:0006646
16944//molecular function| histone acetyltransferase activity | traceable author statement |GO:0004402//cellular component| DNA-directed RNA polymeras
nt| cytoplasm | inferred from physical interaction|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| sp
assay |GO:0005634//biological process| response to stress | inferred from mutant phenotype|GO:0006950//biological process| tRNA modification | inferred
process| ubiquitin-dependent protein catabolism | traceable author statement|GO:0006511
ession pattern |GO:0009060
irect assay|GO:0005730//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| ribosomal large subunit-nucleus expo
ion |GO:0004515//cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| NAD metabolism | traceable author statement
rocess| nuclear mRNA splicing, via spliceosome | inferred from physical interaction|GO:0000398
:0005634//biological process| cell growth and/or maintenance | inferred from mutant phenotype|GO:0008151//biological process| protein amino acid phosp
sis | inferred from physical interaction|GO:0006508//biological process| proteolysis and peptidolysis | inferred from mutant phenotype |GO:0006508//biolog
thor statement|GO:0006302//biological process| DNA repair | inferred from mutant phenotype |GO:0006281
process| aerobic respiration | traceable author statement|GO:0009060
ic interaction|GO:0016973
ferred from direct assay|GO:0019942
olgi retention | inferred from mutant phenotype|GO:0045053//biological process| negative regulation of transcription by glucose | inferred from mutant phen
ma membrane | inferred from direct assay |GO:0005886//biological process| iron-siderochrome transport | inferred from mutant phenotype|GO:0015892//b
rect assay|GO:0005739//biological process| protein-lipoylation | inferred from sequence similarity|GO:0009249//biological process| protein-lipoylation | infe
cytoplasm | inferred from direct assay|GO:0005737//biological process| FAD biosynthesis | inferred from mutant phenotype|GO:0006747//biological proce
sis, contractile ring contraction | inferred from mutant phenotype|GO:0000916
ular component| protein phosphatase type 1 complex | inferred from direct assay|GO:0000164//biological process| response to heat | inferred from physica
| inferred from direct assay |GO:0005634//biological process| positive regulation of transcription from Pol II promoter | inferred from direct assay|GO:0045
processing of 20S pre-rRNA | inferred from physical interaction|GO:0030490//biological process| processing of 20S pre-rRNA | inferred from mutant pheno
ferred from direct assay |GO:0005739//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological process| mRNA metabolism | in
/cellular component| lipid particle | inferred from direct assay|GO:0005811//biological process| lipid storage | inferred from mutant phenotype|GO:0019915/
d from mutant phenotype |GO:0006623
processing | traceable author statement|GO:0006365//biological process| ribosomal large subunit assembly and maintenance | traceable author statemen
198//molecular function| structural molecule activity | inferred from sequence similarity |GO:0005198//cellular component| proton-transporting ATP synthas
7126//biological process| DNA unwinding | inferred from direct assay |GO:0006268
physical interaction |GO:0016272//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological process| tubulin folding | inferred fr
from sequence similarity|GO:0006810
rom mitochondrial promoter | inferred from mutant phenotype|GO:0006390//biological process| mitochondrial genome maintenance | inferred from mutant
m mutant phenotype|GO:0006623//biological process| chromatin remodeling | inferred from physical interaction |GO:0006338//biological process| chromat
ctose transporter activity | inferred from genetic interaction |GO:0005354//molecular function| fructose transporter activity | inferred from genetic interaction
mary transcript processing | traceable author statement|GO:0006365
9773//cellular component| proteasome core complex (sensu Eukarya) | traceable author statement |GO:0005839//biological process| ubiquitin-dependent
ellular fusion | inferred from mutant phenotype |GO:0000747
mbrane transport | inferred from physical interaction|GO:0006893//biological process| Golgi to plasma membrane transport | inferred from genetic interacti
nferred from mutant phenotype |GO:0005739//biological process| lysyl-tRNA aminoacylation | inferred from sequence similarity|GO:0006430//biological pro
tement |GO:0005838//biological process| ubiquitin-dependent protein catabolism | traceable author statement|GO:0006511
tatement|GO:0005847//cellular component| mRNA cleavage and polyadenylation specificity factor complex | inferred from physical interaction |GO:000584
arisome | traceable author statement |GO:0000133//biological process| Rho protein signal transduction | inferred from physical interaction|GO:0007266//b
005730//biological process| processing of 20S pre-rRNA | inferred from mutant phenotype|GO:0030490
ed from direct assay|GO:0005876//cellular component| kinetochore microtubule | inferred from direct assay |GO:0005828//biological process| microtubule/
y | inferred from mutant phenotype|GO:0042255//biological process| protein biosynthesis | inferred from direct assay |GO:0006412
nferred from mutant phenotype |GO:0006513//biological process| protein polyubiquitination | inferred from sequence similarity |GO:0000209//biological pro
693//cellular component| transcription factor TFIIH complex | traceable author statement|GO:0005675//biological process| negative regulation of transcriptio
mponent| cytoplasm | inferred from direct assay|GO:0005737//biological process| protein amino acid dephosphorylation | inferred from mutant phenotype|G
cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| RNA proce
activity | traceable author statement |GO:0000150//cellular component| cytoplasm | traceable author statement|GO:0005737//cellular component| cytoplasm
GO:0000307//biological process| regulation of glycogen catabolism | inferred from genetic interaction|GO:0005981//biological process| regulation of glycog
eable author statement|GO:0006906//biological process| Golgi to vacuole transport | traceable author statement |GO:0006896
AGA complex | inferred from direct assay|GO:0000124//biological process| histone acetylation | traceable author statement|GO:0016573//biological proce
t| mitochondrial large ribosomal subunit | inferred from physical interaction |GO:0005762//biological process| protein biosynthesis | traceable author statem
sport | inferred from genetic interaction |GO:0006891//biological process| retrograde transport, vesicle recycling within Golgi | inferred from mutant phenot
notype|GO:0006281
ogical process| ubiquitin-dependent protein catabolism | traceable author statement|GO:0006511
nt| nucleus | inferred from curator|GO:0005634//biological process| positive regulation of transcription from Pol II promoter | inferred from sequence similar
008330//biological process| regulation of S phase of mitotic cell cycle | inferred from mutant phenotype|GO:0007090//biological process| regulation of S ph
ulation of transcription from Pol II promoter | inferred from sequence similarity|GO:0045944
nce | inferred from genetic interaction|GO:0000002
on of transcription from Pol II promoter | inferred from direct assay|GO:0045944//biological process| gluconeogenesis | inferred from mutant phenotype |GO
P complex | inferred from direct assay|GO:0005655//cellular component| ribonuclease MRP complex | inferred from direct assay |GO:0000172//biological
rotein biosynthesis | inferred from direct assay|GO:0006412
mutant phenotype|GO:0009060//biological process| aerobic respiration | inferred from expression pattern |GO:0009060
atement |GO:0005832//cellular component| cytoplasm | traceable author statement |GO:0005737//cellular component| cytoplasm | inferred from direct ass
from direct assay|GO:0006400
eting | inferred from mutant phenotype |GO:0006623
nferred from direct assay|GO:0005737//biological process| glycerol metabolism | traceable author statement|GO:0006071
sensu Fungi) | traceable author statement |GO:0005619//cellular component| septin ring (sensu Saccharomyces) | traceable author statement |GO:000014
e segregation | inferred from physical interaction|GO:0007059
| inferred from direct assay |GO:0005737//biological process| regulation of transcription from Pol II promoter | inferred from physical interaction|GO:00063
om mutant phenotype|GO:0006979//biological process| high affinity iron ion transport | traceable author statement |GO:0006827//biological process| coppe
| snRNP U6 | inferred from direct assay|GO:0005688//cellular component| snRNP U4 | inferred from direct assay |GO:0005687//cellular component| snRN
om mutant phenotype |GO:0006623
nferred from mutant phenotype|GO:0000288
er activity | inferred from mutant phenotype |GO:0005215//cellular component| integral to membrane | inferred from sequence similarity|GO:0016021//biolo
ological process| transcription initiation from Pol II promoter | traceable author statement|GO:0006367
al process| transcription initiation from Pol III promoter | traceable author statement|GO:0006384
om mutant phenotype|GO:0045053//biological process| retrograde transport, endosome to Golgi | inferred from physical interaction |GO:0042147
ysical interaction |GO:0000938//biological process| retrograde transport, endosome to Golgi | inferred from direct assay|GO:0042147//biological process| v
om mutant phenotype|GO:0045053//biological process| retrograde transport, endosome to Golgi | inferred from physical interaction |GO:0042147
uitin-dependent protein catabolism | traceable author statement|GO:0006511
ar budding | inferred from mutant phenotype|GO:0007121//biological process| cell wall organization and biogenesis | inferred from mutant phenotype |GO:0
ication fork | traceable author statement |GO:0005657//biological process| mismatch repair | traceable author statement|GO:0006298//biological process| n
traceable author statement|GO:0005737//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological process| intracellular signali
:0000776//biological process| chromosome segregation | inferred from direct assay|GO:0007059
hor statement|GO:0005794//biological process| retrograde transport, endosome to Golgi | traceable author statement|GO:0042147//biological process| retr
erobic respiration | inferred from mutant phenotype|GO:0009060//biological process| aerobic respiration | inferred from expression pattern |GO:0009060//b
t assay |GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| nicotinate nucleotide salvage | inferred fr
cal interaction|GO:0006338
nslational elongation | inferred from genetic interaction|GO:0006414
O:0005783//cellular component| peripheral to membrane of membrane fraction | inferred from direct assay |GO:0000300//biological process| protein folding
gnal transduction | inferred from genetic interaction |GO:0007165//biological process| cell wall organization and biogenesis | inferred from mutant phenotyp
rom physical interaction|GO:0006406
t| cytoplasm | inferred from curator|GO:0005737//biological process| regulation of glycolysis | non-traceable author statement|GO:0006110//biological proc
raceable author statement|GO:0008614
) | inferred from direct assay |GO:0000329//biological process| late endosome to vacuole transport | inferred from genetic interaction|GO:0045324//biologi
ogical process| regulation of glycogen biosynthesis | inferred from genetic interaction|GO:0005979
process| chromatin silencing at telomere | inferred from mutant phenotype |GO:0006348
ration | inferred from genetic interaction|GO:0009060//biological process| mitochondrial transport | inferred from genetic interaction |GO:0006839
eacetylase activity | inferred from direct assay |GO:0004407//cellular component| histone deacetylase complex | inferred from direct assay|GO:0000118//bi
mponent| proteasome core complex (sensu Eukarya) | inferred from direct assay |GO:0005839//cellular component| proteasome regulatory particle (sensu
inferred from physical interaction|GO:0000243//biological process| U2-type nuclear mRNA branch site recognition | traceable author statement|GO:00003
y | inferred from direct assay |GO:0008538//cellular component| proteasome core complex (sensu Eukarya) | inferred from physical interaction|GO:000583
ferred from physical interaction|GO:0006338
t| mitochondrial large ribosomal subunit | inferred from physical interaction |GO:0005762//biological process| protein biosynthesis | traceable author statem
ogical process| transcription initiation from Pol II promoter | inferred from direct assay|GO:0006367
| inferred from mutant phenotype|GO:0006312//biological process| DNA recombination | inferred from mutant phenotype |GO:0006310//biological process
m physical interaction|GO:0016973//biological process| poly(A)+ mRNA-nucleus export | inferred from mutant phenotype |GO:0016973
one acetyltransferase complex | inferred from direct assay |GO:0000123//biological process| histone acetylation | inferred from direct assay|GO:0016573//
erred from sequence similarity|GO:0030121//cellular component| AP-1 adaptor complex | inferred from physical interaction |GO:0030121//biological proces
03706//cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| response to copper ion | inferred from mutant phenotype|
| inferred from sequence similarity|GO:0008623//cellular component| chromatin accessibility complex | inferred from physical interaction |GO:0008623//ce
ogenesis | traceable author statement|GO:0006999//biological process| protein-nucleus export | traceable author statement |GO:0006611//biological proce
actor 4 complex | inferred from direct assay|GO:0000113//cellular component| repairosome | inferred from direct assay |GO:0000108//biological process| n
m direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//cellular component| nuclear ubiquitin ligase complex |
red from direct assay |GO:0017004//biological process| mRNA processing | inferred from mutant phenotype |GO:0006397//biological process| mRNA proc
rotein biosynthesis | inferred from direct assay|GO:0006412
statement|GO:0030490
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ip | inferred from direct assay|GO:0005934//cellular component| incipient bud site | inferred from direct assay |GO:0000131//biological process| actin filame
ent| mitochondrion | inferred from mutant phenotype|GO:0005739//cellular component| mitochondrion | inferred from direct assay |GO:0005739//biological
ant phenotype |GO:0003704//cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| sterol transport | inferred from muta
component| ribosome | traceable author statement |GO:0005840//biological process| translational initiation | traceable author statement|GO:0006413
t protein catabolism | inferred from sequence similarity|GO:0006511
ct assay|GO:0015031
ochondrial small ribosomal subunit | traceable author statement|GO:0005763//cellular component| mitochondrial small ribosomal subunit | inferred from dir
ctose transporter activity | inferred from genetic interaction |GO:0005354//molecular function| fructose transporter activity | inferred from genetic interaction
red from physical interaction|GO:0006508
in amino acid phosphorylation | traceable author statement |GO:0006468//biological process| activation of MAPKK during osmolarity sensing | traceable a
t| mitochondrial large ribosomal subunit | inferred from physical interaction |GO:0005762//biological process| protein biosynthesis | traceable author statem
nsduction | inferred from mutant phenotype|GO:0007165//biological process| protein amino acid phosphorylation | inferred from direct assay |GO:0006468
| inferred from genetic interaction |GO:0030489//biological process| rRNA processing | inferred from mutant phenotype |GO:0006364
eable author statement|GO:0006906//biological process| retrograde transport, Golgi to ER | traceable author statement |GO:0006890
erred from direct assay|GO:0005677//biological process| chromatin silencing at silent mating-type cassette (sensu Fungi) | inferred from genetic interactio
se activity | inferred from direct assay |GO:0004520//cellular component| mitochondrial inner membrane | inferred from direct assay|GO:0005743//biologica
ar membrane | inferred from mutant phenotype|GO:0005774//cellular component| vacuolar membrane | inferred from direct assay |GO:0005774//biologica
nferred from direct assay|GO:0005624
0005934//cellular component| incipient bud site | inferred from direct assay |GO:0000131//biological process| mitochondrion inheritance | inferred from gen
ular component| septin ring | inferred from direct assay|GO:0005940//biological process| cytokinesis | inferred from sequence similarity|GO:0000910//biolog
ed from physical interaction|GO:0030014//biological process| regulation of transcription, DNA-dependent | inferred from physical interaction|GO:0006355//
lecular function| hydroxymethylbilane synthase activity | inferred from expression pattern |GO:0004418//cellular component| cytoplasm | inferred from direc
mbrane | inferred from sequence similarity|GO:0005886//cellular component| plasma membrane | inferred from mutant phenotype |GO:0005886//biologica
005686//biological process| spliceosome assembly | inferred from direct assay|GO:0000245
ferred from mutant phenotype|GO:0006914//biological process| protein-vacuolar targeting | inferred from mutant phenotype |GO:0006623
:0009277//cellular component| cytoplasm | inferred from direct assay |GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634
on factor C complex | inferred from sequence similarity|GO:0005663//cellular component| DNA replication factor C complex | inferred from direct assay |GO
rocessing | inferred from mutant phenotype|GO:0006365//biological process| ribosomal large subunit assembly and maintenance | inferred from mutant ph
al process| response to stress | inferred from mutant phenotype|GO:0006950//biological process| response to stress | inferred from genetic interaction |GO
sembly | inferred from mutant phenotype|GO:0000245//biological process| assembly of spliceosomal tri-snRNP | inferred from direct assay |GO:0000244
m direct assay|GO:0000228//biological process| establishment of protein localization | inferred from mutant phenotype|GO:0045184//biological process| es
processing of 20S pre-rRNA | inferred from physical interaction|GO:0030490//biological process| processing of 20S pre-rRNA | inferred from mutant pheno
uclear exosome (RNase complex) | inferred from direct assay |GO:0000176//biological process| mRNA catabolism | inferred from physical interaction|GO:0
hromatin silencing at silent mating-type cassette (sensu Fungi) | inferred from mutant phenotype|GO:0030466//biological process| chromatin silencing at te
raction |GO:0007117//biological process| microtubule-based process | inferred from sequence similarity |GO:0007017//biological process| microtubule-bas
rom sequence similarity|GO:0005886//biological process| vitamin/cofactor transport | inferred from mutant phenotype|GO:0015875//biological process| vita
n | traceable author statement|GO:0042138//biological process| meiotic recombination | inferred from mutant phenotype |GO:0007131
nsu Fungi) | inferred from direct assay |GO:0000324//biological process| manganese ion transport | inferred from mutant phenotype|GO:0006828
hanism | inferred from mutant phenotype |GO:0046933//cellular component| proton-transporting ATP synthase complex, coupling factor F(o) (sensu Eukary
nteraction |GO:0000812//biological process| chromatin remodeling | inferred from physical interaction|GO:0006338//biological process| chromatin remodeli
ssion | inferred from genetic interaction |GO:0000266
ay |GO:0005634
ular component| mitochondrial matrix | inferred from direct assay|GO:0005759//cellular component| mitochondrion | inferred from direct assay |GO:0005739
05737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| --- | inferred from direct assay|GO:0051085//biological p
interaction|GO:0016020//biological process| autophagy | inferred from direct assay|GO:0006914//biological process| protein-vacuolar targeting | inferred fr
ogenesis | inferred from mutant phenotype|GO:0006999//biological process| protein-nucleus export | traceable author statement |GO:0006611//biological
from mutant phenotype |GO:0003864//cellular component| mitochondrion | inferred from direct assay|GO:0005739//biological process| pantothenate biosy
uclear exosome (RNase complex) | inferred from direct assay |GO:0000176//biological process| mRNA catabolism | inferred from physical interaction|GO:0
eosome | traceable author statement|GO:0000788//biological process| chromatin silencing at silent mating-type cassette (sensu Fungi) | inferred from muta
erred from sequence similarity|GO:0008380
genetic interaction |GO:0006611
biogenesis | inferred from mutant phenotype|GO:0006999//biological process| rRNA-nucleus export | inferred from mutant phenotype |GO:0006407//biolog
cription from Pol II promoter | inferred from direct assay|GO:0045944//biological process| sulfur amino acid metabolism | inferred from mutant phenotype |
rom sequence similarity|GO:0006897//biological process| endocytosis | inferred from physical interaction |GO:0006897
ular component| endoplasmic reticulum membrane | traceable author statement|GO:0005789//biological process| vacuolar acidification | inferred from mu
ssembly | inferred from mutant phenotype |GO:0006461
ription from Pol II promoter | inferred from direct assay|GO:0006366
n | inferred from mutant phenotype|GO:0046686//biological process| positive regulation of transcription from Pol II promoter | inferred from direct assay |GO
ters | inferred from direct assay |GO:0016889//cellular component| nuclear chromosome | inferred from physical interaction|GO:0000228//biological proces
uclear exosome (RNase complex) | inferred from direct assay |GO:0000176//biological process| mRNA catabolism | inferred from mutant phenotype|GO:00
uence similarity |GO:0000703//molecular function| pyrimidine-specific oxidized base lesion DNA N-glycosylase activity | inferred from direct assay |GO:000
acid phosphorylation | inferred from sequence similarity |GO:0006468
n | inferred from mutant phenotype|GO:0046686//biological process| positive regulation of transcription from Pol II promoter | inferred from direct assay |GO
ponent| shmoo tip | inferred from direct assay|GO:0005937//biological process| regulation of G-protein coupled receptor protein signaling pathway | inferred
16944//cellular component| transcription elongation factor complex | inferred from direct assay|GO:0008023//biological process| regulation of transcription
direct assay |GO:0005737//biological process| glyoxylate cycle | traceable author statement|GO:0006097
d from direct assay|GO:0000398
rocess| transcription from Pol I promoter | traceable author statement|GO:0006360
r component| SAGA complex | inferred from direct assay |GO:0000124//biological process| histone acetylation | traceable author statement|GO:0016573//
nferred from direct assay|GO:0005811//biological process| protein amino acid glycosylation | inferred from mutant phenotype|GO:0006486//biological proc
author statement |GO:0004872//cellular component| plasma membrane | inferred from sequence similarity|GO:0005886//cellular component| plasma mem
0005934//cellular component| incipient bud site | inferred from direct assay |GO:0000131//biological process| mitochondrion inheritance | inferred from gen
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
leus | inferred from physical interaction|GO:0005634//biological process| sulfur amino acid metabolism | inferred from direct assay|GO:0000096
ed from genetic interaction |GO:0005681//cellular component| spliceosome complex | inferred from direct assay |GO:0005681//cellular component| nucleu
/S transition of mitotic cell cycle | inferred from physical interaction|GO:0000082//biological process| G1/S transition of mitotic cell cycle | inferred from mut
e similarity|GO:0030163
inferred from physical interaction |GO:0000118//cellular component| histone deacetylase complex | inferred from mutant phenotype |GO:0000118//biologi
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
from mutant phenotype|GO:0006906//biological process| vesicle docking during exocytosis | inferred from mutant phenotype |GO:0006904//biological pro
rect assay |GO:0005686//biological process| nuclear mRNA splicing, via spliceosome | inferred from mutant phenotype|GO:0000398//biological process| n
complex IV (sensu Eukarya) | inferred from physical interaction|GO:0005751//biological process| aerobic respiration | inferred from mutant phenotype|GO:
e segregation | inferred from physical interaction|GO:0007059
ceable author statement|GO:0006355//biological process| galactose metabolism | traceable author statement |GO:0006012
0030508//molecular function| glutathione peroxidase activity | inferred from direct assay |GO:0004602//molecular function| glutathione transferase activity |
nucleus | inferred from curator|GO:0005634//biological process| positive regulation of transcription from Pol II promoter | traceable author statement|GO:00
Cdc73/Paf1 complex | inferred from physical interaction |GO:0016593//cellular component| transcription elongation factor complex | inferred from physica
s | inferred from direct assay |GO:0005634//biological process| transcription | traceable author statement|GO:0006350//biological process| regulation of ca
se biogenesis | inferred from mutant phenotype|GO:0008535
hore | inferred from direct assay |GO:0000778//biological process| chromosome segregation | inferred from physical interaction|GO:0007059
inferred from genetic interaction|GO:0000722
or statement|GO:0006342
e | inferred from direct assay |GO:0005635//biological process| nuclear pore organization and biogenesis | inferred from genetic interaction|GO:0006999
no acid glycosylation | inferred from mutant phenotype|GO:0006486
nction| SUMO activating enzyme activity | inferred from direct assay |GO:0019948//cellular component| nucleus | inferred from direct assay|GO:0005634//b
nt| cytoplasm | non-traceable author statement |GO:0005737//biological process| peptide metabolism | inferred from mutant phenotype|GO:0006518
/cellular component| mitochondrion | inferred from sequence similarity|GO:0005739//cellular component| mitochondrion | inferred from mutant phenotype |
function| aminoacyl-tRNA hydrolase activity | inferred from direct assay |GO:0004045//cellular component| cytoplasm | inferred from curator|GO:0005737/
| protein biosynthesis | traceable author statement|GO:0006412
eable author statement |GO:0005680//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| regulation of cell size | in
|GO:0004366//molecular function| glycerol-3-phosphate O-acyltransferase activity | inferred from direct assay |GO:0004366//cellular component| endoplas
om mutant phenotype|GO:0000902
ulum | inferred from direct assay |GO:0005783//biological process| vesicle fusion | traceable author statement|GO:0006906//biological process| retrograde
d from mutant phenotype|GO:0005980
ed from mutant phenotype|GO:0045324
component| mitochondrial matrix | inferred from direct assay|GO:0005759//biological process| ornithine biosynthesis | traceable author statement|GO:0006
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
y | traceable author statement |GO:0004527//cellular component| nucleus | inferred from physical interaction|GO:0005634//biological process| mismatch re
inferred from genetic interaction|GO:0000722
| inferred from mutant phenotype |GO:0006623
steine-type peptidase activity | inferred from sequence similarity |GO:0008234//molecular function| cysteine-type peptidase activity | inferred from direct as
nferred from physical interaction |GO:0005634//biological process| meiotic recombination | inferred from mutant phenotype|GO:0007131//biological process
onent| RNA polymerase I upstream activating factor complex | traceable author statement|GO:0000500//biological process| transcription from Pol I promo
P complex | inferred from direct assay|GO:0005655//cellular component| ribonuclease MRP complex | inferred from direct assay |GO:0000172//biological
0006616//biological process| SRP-dependent cotranslational membrane targeting, translocation | inferred from genetic interaction |GO:0006616
olecular function| --- | inferred from genetic interaction |GO:0051082//cellular component| endoplasmic reticulum lumen | traceable author statement|GO:00
| inferred from sequence similarity|GO:0006810
ponent| integral to membrane | inferred from direct assay |GO:0016021//biological process| sporulation (sensu Fungi) | inferred from mutant phenotype|GO
iption factor activity | inferred from direct assay |GO:0003700//cellular component| nuclear chromosome | inferred from direct assay|GO:0000228//biologic
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
eraction |GO:0005685//cellular component| snRNP U1 | inferred from direct assay |GO:0005685//cellular component| commitment complex | traceable auth
traceable author statement |GO:0005737//biological process| nuclear migration | traceable author statement|GO:0007097//biological process| mitochondr
al membrane organization and biogenesis | inferred from direct assay |GO:0007007
ed from mutant phenotype|GO:0045324
from direct assay |GO:0005634
ription from Pol II promoter | inferred from direct assay|GO:0006366
a membrane | inferred from sequence similarity|GO:0005886//cellular component| extracellular | inferred from direct assay |GO:0005576//biological proces
mutant phenotype|GO:0016237
omponent| COMPASS complex | inferred from physical interaction|GO:0048188//cellular component| nuclear chromatin | inferred from mutant phenotype |
nferred from direct assay |GO:0005829//biological process| exocytosis | inferred from mutant phenotype|GO:0006887
| transcription from Pol II promoter | inferred from physical interaction|GO:0006366
0//biological process| transcription from Pol I promoter | traceable author statement|GO:0006360
4//cellular component| cytoplasm | inferred from physical interaction |GO:0005737//biological process| cell aging | inferred from mutant phenotype|GO:0007
inferred from genetic interaction|GO:0006888
processing | traceable author statement|GO:0006365
nferred from direct assay |GO:0005634//biological process| UDP-N-acetylglucosamine biosynthesis | inferred from direct assay|GO:0006048
nt| nucleolus | inferred from direct assay|GO:0005730//biological process| snRNA capping | inferred from mutant phenotype|GO:0006387
cal process| aerobic respiration | inferred from mutant phenotype|GO:0009060//biological process| aerobic respiration | inferred from expression pattern |G
haromyces) | inferred from mutant phenotype |GO:0000283//biological process| chromatin silencing at ribosomal DNA | inferred from mutant phenotype |GO
ng | inferred from physical interaction |GO:0003690//molecular function| double-stranded DNA binding | inferred from direct assay |GO:0003690//cellular co
otype |GO:0030364//cellular component| mRNA cleavage and polyadenylation specificity factor complex | inferred from physical interaction|GO:0005847//c
n | inferred from direct assay|GO:0019650
//biological process| rRNA processing | inferred from physical interaction|GO:0006364//biological process| rRNA processing | inferred from mutant phenoty
ological process| transcription from Pol II promoter | traceable author statement|GO:0006366
ocytosis | traceable author statement|GO:0006887
ription from Pol II promoter | inferred from direct assay|GO:0006366
ferred from direct assay |GO:0003680//molecular function| DNA secondary structure binding | inferred from direct assay |GO:0000217//cellular component
| protein biosynthesis | traceable author statement|GO:0006412
gical process| aerobic respiration | inferred from mutant phenotype|GO:0009060//biological process| mitochondrial electron transport, ubiquinol to cytochro
e author statement|GO:0005794//biological process| vesicle-mediated transport | inferred from mutant phenotype|GO:0016192//biological process| vesicle
m physical interaction|GO:0019933//biological process| cAMP-mediated signaling | inferred from genetic interaction |GO:0019933//biological process| prote
ess| DNA repair | inferred from mutant phenotype|GO:0006281//biological process| DNA repair | inferred from direct assay |GO:0006281
nt| mitochondrial small ribosomal subunit | inferred from direct assay |GO:0005763//biological process| protein biosynthesis | traceable author statement|GO
rred from direct assay|GO:0005737//biological process| glycerol catabolism | inferred from sequence similarity|GO:0019563//biological process| response
irect assay |GO:0005737//biological process| response to stress | traceable author statement|GO:0006950//biological process| trehalose catabolism | trace
O:0005462//cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//biological process| UDP-N-acetylglucosamine transport
ed from direct assay |GO:0005730//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| regulation of exit from mitosi
07//biological process| inner mitochondrial membrane organization and biogenesis | inferred from genetic interaction |GO:0007007//biological process| mit
action|GO:0005847//cellular component| nucleoplasm | inferred from physical interaction |GO:0005654//biological process| mRNA polyadenylation | inferre
iquitination | traceable author statement |GO:0000209
ferred from sequence similarity|GO:0006825//biological process| copper ion transport | inferred from genetic interaction |GO:0006825//biological process|
om mutant phenotype|GO:0016192//biological process| vesicle-mediated transport | inferred from genetic interaction |GO:0016192//biological process| ubi
mitochondrion | inferred from sequence similarity|GO:0005739//cellular component| mitochondrion | inferred from mutant phenotype |GO:0005739//biolog
scription initiation from Pol II promoter | inferred from direct assay|GO:0006367
n from Pol II promoter | inferred from mutant phenotype|GO:0045944//biological process| positive regulation of glycolysis | inferred from mutant phenotype
ess| nuclear mRNA splicing, via spliceosome | inferred from physical interaction|GO:0000398
ferred from mutant phenotype |GO:0030437//biological process| sporulation (sensu Fungi) | inferred from genetic interaction |GO:0030437//biological proc
596//cellular component| mitochondrion | inferred from direct assay|GO:0005739//cellular component| cytoplasm | inferred from curator |GO:0005737//biolo
inferred from sequence similarity|GO:0006338//biological process| chromatin remodeling | inferred from direct assay |GO:0006338
t| mitochondrial large ribosomal subunit | inferred from physical interaction |GO:0005762//biological process| protein biosynthesis | traceable author statem
inferred from mutant phenotype|GO:0043161//biological process| sporulation (sensu Fungi) | inferred from mutant phenotype |GO:0030437//biological pro
GO:0015230//cellular component| mitochondrion | inferred from sequence similarity|GO:0005739//biological process| flavin-adenine dinucleotide transport |
aceable author statement |GO:0005737//cellular component| nucleus | non-traceable author statement |GO:0005634//biological process| tRNA modificatio
ar component| peroxisomal matrix | traceable author statement|GO:0005782//cellular component| peroxisome | inferred from sequence similarity |GO:0005
ription from Pol II promoter | inferred from direct assay|GO:0006366
t| nucleus | inferred from sequence similarity|GO:0005634//cellular component| nucleus | inferred from physical interaction |GO:0005634//biological proces
om mutant phenotype |GO:0016074
peptidase activity | inferred from direct assay |GO:0004177//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| n
mponent| plasma membrane | inferred from direct assay|GO:0005886//biological process| response to stress | inferred from genetic interaction|GO:000695
and biogenesis | inferred from mutant phenotype |GO:0007005//biological process| protein biosynthesis | inferred from mutant phenotype |GO:0006412
on checkpoint | inferred from physical interaction |GO:0000076//biological process| DNA replication checkpoint | inferred from mutant phenotype |GO:0000
m | inferred from mutant phenotype|GO:0009437//biological process| alcohol metabolism | inferred from mutant phenotype |GO:0006066//biological proces
0006914//biological process| transport | inferred from direct assay |GO:0006810
ellular component| nucleotide excision repair factor 3 complex | traceable author statement |GO:0000112//biological process| negative regulation of transc
ction| transmembrane receptor activity | inferred from genetic interaction |GO:0004888//cellular component| integral to plasma membrane | inferred from di
traceable author statement|GO:0009277//cellular component| cell wall (sensu Fungi) | inferred from direct assay |GO:0009277//biological process| floccula
from direct assay |GO:0005634//biological process| tRNA modification | inferred from direct assay|GO:0006400
protein-nucleus export | inferred from mutant phenotype |GO:0006611//biological process| mRNA-nucleus export | inferred from mutant phenotype |GO:000
tor|GO:0005634//biological process| telomerase-independent telomere maintenance | inferred from genetic interaction|GO:0000722
um inheritance | inferred from mutant phenotype|GO:0048309//biological process| mRNA localization, intracellular | traceable author statement |GO:000829
ar component| mitochondrion | traceable author statement |GO:0005739//biological process| ubiquinone metabolism | inferred from mutant phenotype|GO
direct assay |GO:0005730
ption | traceable author statement|GO:0006350//biological process| regulation of carbohydrate metabolism | traceable author statement |GO:0006109
eosome complex | inferred from direct assay |GO:0005681//biological process| nuclear mRNA splicing, via spliceosome | inferred from genetic interaction|G
| spliceosome complex | traceable author statement|GO:0005681//biological process| U2-type nuclear mRNA branch site recognition | traceable author sta
enotype|GO:0007131//biological process| DNA recombination | inferred from mutant phenotype |GO:0006310//biological process| nucleobase, nucleoside,
:0009277//cellular component| cytoplasm | inferred from direct assay |GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634
say|GO:0005743//biological process| proteolysis and peptidolysis | inferred from mutant phenotype|GO:0006508//biological process| protein folding | inferre
processing of 20S pre-rRNA | inferred from physical interaction|GO:0030490//biological process| processing of 20S pre-rRNA | inferred from mutant pheno
GO:0016251//cellular component| transcription factor TFIIH complex | traceable author statement|GO:0005675//biological process| negative regulation of t
m direct assay |GO:0005634//biological process| negative regulation of transcription from Pol II promoter | inferred from direct assay|GO:0000122//biologic
logical process| proteolysis and peptidolysis | inferred from sequence similarity|GO:0006508//biological process| proteolysis and peptidolysis | inferred from
ct assay |GO:0005737//biological process| Golgi to endosome transport | inferred from mutant phenotype|GO:0006895
ssay |GO:0005737//biological process| intracellular protein transport | traceable author statement|GO:0006886
sing | inferred from mutant phenotype|GO:0006364//biological process| mitochondrial genome maintenance | inferred from mutant phenotype |GO:000000
reticulum | inferred from direct assay|GO:0005783//biological process| protein thiol-disulfide exchange | inferred from mutant phenotype|GO:0006467//biol
nferred from sequence similarity|GO:0008654//biological process| phospholipid biosynthesis | inferred from mutant phenotype |GO:0008654//biological pro
d from genetic interaction|GO:0030029//biological process| mitosis | inferred from mutant phenotype |GO:0007067//biological process| protein-nucleus exp
genesis | traceable author statement|GO:0007031//biological process| protein-peroxisome targeting | inferred from physical interaction |GO:0006625//biolo
//biological process| cytochrome bc(1) complex biogenesis | inferred from mutant phenotype|GO:0017062//biological process| aerobic respiration | inferred
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
n | inferred from direct assay |GO:0005739//biological process| RNA catabolism | inferred from mutant phenotype|GO:0006401//biological process| RNA ca
| fatty acid metabolism | inferred from mutant phenotype|GO:0006631//biological process| protein biosynthesis | traceable author statement |GO:0006412
molecular function| signal transducer activity | traceable author statement |GO:0004871//cellular component| bud neck | inferred from direct assay|GO:000
| protein biosynthesis | traceable author statement|GO:0006412
during conjugation with cellular fusion | inferred from mutant phenotype|GO:0000754//biological process| adaptation to pheromone during conjugation with
racellular | traceable author statement|GO:0005622//biological process| small GTPase mediated signal transduction | inferred from sequence similarity|GO
membrane | inferred from direct assay |GO:0005789//biological process| water transport | inferred from sequence similarity|GO:0006833
embrane | inferred from direct assay |GO:0005635//biological process| coenzyme A biosynthesis | inferred from sequence similarity|GO:0015937
:0000776//biological process| chromosome segregation | inferred from direct assay|GO:0007059
nding | inferred from direct assay |GO:0005515//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inf
inferred from mutant phenotype|GO:0000027
phosphorylation | traceable author statement|GO:0006468//biological process| regulation of DNA replication | traceable author statement |GO:0006275//b
eriplasmic space (sensu Fungi) | inferred from mutant phenotype |GO:0030287//biological process| thiamin transport | inferred from mutant phenotype|GO:
ceable author statement |GO:0007023
rom direct assay |GO:0003680//molecular function| DNA secondary structure binding | inferred from direct assay |GO:0000217//cellular component| nuclea
ism | inferred from mutant phenotype|GO:0007039
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
annel activity | inferred from direct assay |GO:0005267//molecular function| calcium channel activity | inferred from direct assay |GO:0005262//molecular fu
ent| plasma membrane | inferred from sequence similarity|GO:0005886//cellular component| plasma membrane | inferred from mutant phenotype |GO:000
morphogenesis during conjugation with cellular fusion | inferred from mutant phenotype|GO:0000753
ocess| transcription from Pol II promoter | inferred from direct assay|GO:0006366
s metabolism | traceable author statement|GO:0006800
port | inferred from mutant phenotype|GO:0015819//biological process| L-arginine transport | inferred from mutant phenotype |GO:0015809//biological pro
t phenotype|GO:0016485//biological process| aerobic respiration | inferred from mutant phenotype |GO:0009060//biological process| cytochrome c oxidas
m mutant phenotype|GO:0045721
| U4/U6 x U5 tri-snRNP complex | inferred from direct assay|GO:0046540//cellular component| snRNP U5 | traceable author statement |GO:0005682//biolo
inferred from mutant phenotype |GO:0007165
| traceable author statement|GO:0005724//cellular component| nuclear chromatin | traceable author statement |GO:0000790//biological process| chromati
ular component| SAGA complex | inferred from direct assay |GO:0000124//biological process| histone acetylation | traceable author statement|GO:001657
processing of 20S pre-rRNA | inferred from physical interaction|GO:0030490//biological process| processing of 20S pre-rRNA | inferred from mutant pheno
say |GO:0003906//molecular function| pyrimidine-specific oxidized base lesion DNA N-glycosylase activity | inferred from sequence similarity |GO:0000703
t| mitochondrial large ribosomal subunit | inferred from physical interaction |GO:0005762//biological process| protein biosynthesis | traceable author statem
eable author statement|GO:0007124//biological process| protein amino acid phosphorylation | traceable author statement |GO:0006468//biological proces
s| glucose metabolism | inferred from mutant phenotype|GO:0006006//biological process| glucose metabolism | inferred from genetic interaction |GO:0006
toplasm | inferred from direct assay|GO:0005737//biological process| response to pheromone | inferred from direct assay|GO:0019236//biological process
ct assay |GO:0006364
|GO:0006412
say |GO:0005576//biological process| signal transduction during conjugation with cellular fusion | inferred from mutant phenotype|GO:0000750//biological
mutant phenotype|GO:0006880//biological process| DNA-dependent DNA replication | inferred from mutant phenotype |GO:0006261
osynthesis | inferred from mutant phenotype|GO:0009396
ellular component| cytoplasm | inferred from direct assay |GO:0005737//biological process| plasma membrane fusion | traceable author statement|GO:004
d from direct assay |GO:0005634//biological process| sulfur metabolism | inferred from mutant phenotype|GO:0006790
nt| endoplasmic reticulum membrane | inferred from sequence similarity|GO:0005789//cellular component| endoplasmic reticulum membrane | inferred from
component| mitochondrial intermembrane space | inferred from direct assay|GO:0005758//biological process| cytochrome c-heme linkage | inferred from se
body | inferred from mutant phenotype|GO:0005816//cellular component| spindle pole body | inferred from direct assay |GO:0005816//biological process| s
O:0046820//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| para-aminobenzoic acid metabolism | inferred from
n | traceable author statement|GO:0006437
yces) | inferred from mutant phenotype |GO:0001403
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
from direct assay|GO:0005743//biological process| mitochondrial electron transport, NADH to ubiquinone | inferred from direct assay|GO:0006120
al process| sporulation (sensu Fungi) | traceable author statement|GO:0030437//biological process| response to unfolded protein | traceable author statem
ent| nucleosome remodeling complex | traceable author statement |GO:0005679//biological process| chromatin remodeling | traceable author statement|GO
ed from genetic interaction |GO:0006888
P complex | inferred from direct assay|GO:0005655//cellular component| ribonuclease MRP complex | inferred from direct assay |GO:0000172//biological
biological process| G2/M transition of mitotic cell cycle | inferred from mutant phenotype |GO:0000086
component| mitochondrial inner membrane | inferred from direct assay |GO:0005743//cellular component| mitochondrion | inferred from direct assay |GO:0
ss| vacuole fusion, non-autophagic | inferred from genetic interaction|GO:0042144
ological process| transcription initiation from Pol II promoter | traceable author statement|GO:0006367
| nucleus | inferred from direct assay|GO:0005634//biological process| protein sumoylation | inferred from direct assay|GO:0016925
tochrome c-heme linkage | inferred from genetic interaction |GO:0018063//biological process| mitochondrial membrane organization and biogenesis | infer
ssay |GO:0005634//biological process| response to oxidative stress | inferred from mutant phenotype|GO:0006979
59//biological process| protein complex assembly | inferred from physical interaction|GO:0006461//biological process| protein complex assembly | inferred
ochondrial large ribosomal subunit | traceable author statement|GO:0005762//biological process| protein biosynthesis | traceable author statement|GO:00
base subcomplex (sensu Eukarya) | inferred from direct assay|GO:0008540//cellular component| proteasome regulatory particle (sensu Eukarya) | tracea
eable author statement|GO:0005634//biological process| cell growth and/or maintenance | traceable author statement|GO:0008151//biological process| me
oacylation | inferred from mutant phenotype|GO:0006420//biological process| protein biosynthesis | inferred from sequence similarity |GO:0006412//biolog
GO:0000277//cellular component| cytosol | inferred from direct assay|GO:0005829//biological process| protein modification | inferred from direct assay|GO
16944//cellular component| DNA-directed RNA polymerase II, holoenzyme | traceable author statement|GO:0016591//cellular component| transcription elo
inferred from mutant phenotype|GO:0006623//biological process| cell cycle arrest in response to pheromone | inferred from physical interaction |GO:0000
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
rom direct assay |GO:0005634
um ion transporter activity | inferred from direct assay |GO:0015086//cellular component| vacuolar membrane (sensu Fungi) | inferred from direct assay|GO
onent| nucleus | inferred from physical interaction|GO:0005634//biological process| protein amino acid dephosphorylation | inferred from direct assay|GO:0
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ct assay |GO:0005656//biological process| DNA strand elongation | traceable author statement|GO:0006271//biological process| DNA replication initiation |
nent| spindle pole body | inferred from direct assay |GO:0005816//biological process| microtubule nucleation | inferred from physical interaction|GO:00070
mutant phenotype|GO:0007047
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
d from mutant phenotype|GO:0007131//biological process| DNA damage response, signal transduction resulting in cell cycle arrest | inferred from mutant
ed from direct assay |GO:0005634
tenance | traceable author statement |GO:0000027
e similarity|GO:0000245//biological process| spliceosome assembly | inferred from physical interaction |GO:0000245
| spliceosome complex | traceable author statement|GO:0005681//biological process| cis assembly of U2-type pre-catalytic spliceosome | traceable autho
ponent| nucleus | inferred from direct assay |GO:0005634//biological process| negative regulation of transcription from Pol II promoter by pheromones | infe
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
plasm | inferred from direct assay|GO:0005737//cellular component| soluble fraction | traceable author statement |GO:0005625
730//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| ribosome assembly | inferred from direct assay|GO:004225
nt phenotype|GO:0009060//biological process| cytochrome c oxidase biogenesis | inferred from direct assay |GO:0008535
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
nscription from Pol II promoter by pheromones | inferred from physical interaction|GO:0007329//biological process| positive regulation of transcription from
mutant phenotype |GO:0009060
005634//biological process| rRNA processing | inferred from physical interaction|GO:0006364
inding | inferred from direct assay |GO:0003677//cellular component| nucleus | inferred from physical interaction|GO:0005634//cellular component| nucleus
(sensu Eukarya) | traceable author statement|GO:0005838//biological process| ubiquitin-dependent protein catabolism | traceable author statement|GO:00
nsport | inferred from sequence similarity|GO:0016192
author statement|GO:0007534//biological process| mating-type switching/recombination | inferred from mutant phenotype |GO:0007533
gical process| iron-sulfur cluster assembly | inferred from mutant phenotype|GO:0016226//biological process| aerobic respiration | inferred from mutant phe
iosynthesis | inferred from mutant phenotype|GO:0006412
rocess| nuclear mRNA splicing, via spliceosome | inferred from physical interaction|GO:0000398
al process| transcription initiation from Pol III promoter | traceable author statement|GO:0006384
O:0003677//cellular component| nuclear chromosome | traceable author statement|GO:0000228//biological process| meiosis | traceable author statement|
entric region | inferred from direct assay |GO:0000780//biological process| meiosis | inferred from mutant phenotype|GO:0007126//biological process| siste
t assay |GO:0005737//cellular component| nuclear membrane | inferred from direct assay |GO:0005635//cellular component| nucleus | inferred from direct
ed from physical interaction|GO:0045324//biological process| late endosome to vacuole transport | inferred from mutant phenotype |GO:0045324
erred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| protein-nucleus import | in
23//biological process| RNA elongation from Pol II promoter | inferred from sequence similarity|GO:0006368
eogenesis | inferred from mutant phenotype|GO:0045721//biological process| protein monoubiquitination | traceable author statement |GO:0006513//biolog
atement|GO:0007120//biological process| bud growth | inferred from mutant phenotype |GO:0007117//biological process| bud growth | inferred from geneti
component| intracellular | traceable author statement|GO:0005622//biological process| small GTPase mediated signal transduction | inferred from physica
nent| cytoplasm | inferred from direct assay |GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634
al process| transcription from Pol III promoter | traceable author statement|GO:0006383
plex | inferred from physical interaction |GO:0005732//biological process| processing of 20S pre-rRNA | inferred from physical interaction|GO:0030490//bio
d from physical interaction|GO:0005739//cellular component| mitochondrion | inferred from direct assay |GO:0005739//biological process| NADH catabolism
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
eraction|GO:0006513
say |GO:0005634//biological process| DNA replication | inferred from physical interaction|GO:0006260
biosynthesis | traceable author statement|GO:0006537//biological process| isocitrate metabolism | traceable author statement |GO:0006102//biological pr
ant phenotype|GO:0006365
ble author statement|GO:0016579
from mutant phenotype|GO:0045941
ble author statement|GO:0016233
rocess| nuclear mRNA splicing, via spliceosome | inferred from physical interaction|GO:0000398
rane | inferred from sequence similarity|GO:0005886//cellular component| plasma membrane | inferred from mutant phenotype |GO:0005886//biological pr
d from direct assay|GO:0005739//biological process| leucyl-tRNA aminoacylation | inferred from direct assay|GO:0006429//biological process| Group I intr
| thioredoxin peroxidase activity | inferred from direct assay |GO:0008379//cellular component| mitochondrion | inferred from sequence similarity|GO:00057
ed from direct assay |GO:0005886//cellular component| cytoplasm | inferred from direct assay |GO:0005737//cellular component| nucleus | inferred from di
ess| hyperosmotic response | inferred from mutant phenotype|GO:0006972//biological process| hyperosmotic response | inferred from genetic interaction |G
sport | inferred from genetic interaction |GO:0006891
during conjugation with cellular fusion | inferred from genetic interaction|GO:0000754//biological process| protein deneddylation | inferred from mutant phen
red from curator|GO:0005634//biological process| heteroduplex formation | inferred from direct assay|GO:0030491//biological process| meiotic recombinat
ochondrion | inferred from direct assay |GO:0005739//biological process| glutamate biosynthesis | traceable author statement|GO:0006537//biological proc
utant phenotype|GO:0006364//biological process| nuclear mRNA splicing, via spliceosome | inferred from physical interaction |GO:0000398
on|GO:0006457
ochondrial small ribosomal subunit | traceable author statement|GO:0005763//cellular component| mitochondrial small ribosomal subunit | inferred from dir
ological process| glycogen biosynthesis | inferred from genetic interaction|GO:0005978
assay |GO:0005737//biological process| response to stress | traceable author statement|GO:0006950//biological process| trehalose catabolism | traceable
erred from direct assay |GO:0005737//biological process| beta-alanine biosynthesis | inferred from mutant phenotype|GO:0019483//biological process| po
rocessing | traceable author statement|GO:0006365//biological process| ribosomal large subunit assembly and maintenance | inferred from mutant phenot
gi) | inferred from mutant phenotype|GO:0030437//biological process| synaptonemal complex formation | inferred from mutant phenotype |GO:0007130//bio
t| mitochondrial large ribosomal subunit | inferred from physical interaction |GO:0005762//biological process| protein biosynthesis | traceable author statem
| cytoplasm | inferred from direct assay |GO:0005737//biological process| proteolysis and peptidolysis | traceable author statement|GO:0006508
myces) | inferred from mutant phenotype |GO:0000283
| protein biosynthesis | traceable author statement|GO:0006412
rect assay |GO:0005634//biological process| response to osmotic stress | inferred from genetic interaction|GO:0006970//biological process| protein amino
mplex | traceable author statement|GO:0005680//biological process| cyclin catabolism | traceable author statement|GO:0008054//biological process| mitot
netic interaction|GO:0042026//biological process| protein-mitochondrial targeting | inferred from genetic interaction |GO:0006626
hanism | inferred from mutant phenotype |GO:0046933//cellular component| proton-transporting ATP synthase complex, coupling factor F(o) (sensu Eukary
irect assay |GO:0005794//cellular component| GARP complex | inferred from physical interaction |GO:0000938//biological process| retrograde transport, e
aceable author statement|GO:0005737//cellular component| replication fork | inferred from direct assay |GO:0005657//cellular component| pre-replicative c
mponent| mitochondrial large ribosomal subunit | inferred from sequence similarity|GO:0005762//cellular component| mitochondrial large ribosomal subuni
ion |GO:0004515//cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| NAD metabolism | traceable author statement
nucleolar ribonucleoprotein complex | traceable author statement |GO:0005732//cellular component| small nucleolar ribonucleoprotein complex | inferred fr
is | inferred from mutant phenotype|GO:0006897//biological process| high affinity iron ion transport | inferred from physical interaction |GO:0006827
sical interaction|GO:0042273//biological process| ribosomal large subunit biogenesis | inferred from mutant phenotype |GO:0042273
ed from direct assay |GO:0000118//biological process| chromatin modification | inferred from sequence similarity|GO:0016568//biological process| chroma
ular component| incipient bud site | inferred from direct assay |GO:0000131
| inferred from mutant phenotype|GO:0045944//biological process| nucleotide-excision repair | inferred from mutant phenotype |GO:0006289//biological pr
ble author statement|GO:0016579
nner membrane | inferred from sequence similarity|GO:0005743//cellular component| mitochondrion | inferred from direct assay |GO:0005739//biological p
function| magnesium ion transporter activity | inferred from genetic interaction |GO:0015095//molecular function| magnesium ion transporter activity | infer
mplex | traceable author statement|GO:0005697//cellular component| telomerase holoenzyme complex | inferred from physical interaction |GO:0005697//c
erred from direct assay |GO:0006461
mplex | traceable author statement|GO:0005680//biological process| cyclin catabolism | traceable author statement|GO:0008054//biological process| mitot
| inferred from direct assay |GO:0000798//biological process| spore germination (sensu Fungi) | inferred from mutant phenotype|GO:0030470//biological p
rganization | inferred from mutant phenotype|GO:0007015//biological process| endocytosis | inferred from mutant phenotype |GO:0006897//biological proc
erred from direct assay |GO:0005737//biological process| NADPH regeneration | traceable author statement|GO:0006740//biological process| fatty acid be
le author statement|GO:0030437//biological process| protein deubiquitination | traceable author statement |GO:0016579//biological process| response to s
ent| nucleolus | inferred from direct assay|GO:0005730//biological process| rRNA processing | inferred from mutant phenotype|GO:0006364
n ion homeostasis | inferred from mutant phenotype|GO:0006879//biological process| heme a biosynthesis | inferred from mutant phenotype |GO:0006784
ellular component| SAGA complex | inferred from direct assay |GO:0000124//biological process| histone acetylation | traceable author statement|GO:0016
r component| mitochondrion | inferred from sequence similarity |GO:0005739//cellular component| cytoplasm | inferred from direct assay |GO:0005737//bio
expression pattern|GO:0006511
tor|GO:0005634//biological process| telomerase-independent telomere maintenance | inferred from genetic interaction|GO:0000722
onent| chromatin accessibility complex | inferred from sequence similarity|GO:0008623//cellular component| chromatin accessibility complex | inferred from
GO:0000307//biological process| regulation of phosphate metabolism | traceable author statement|GO:0019220
anslational initiation | inferred from mutant phenotype|GO:0006413//biological process| protein biosynthesis | inferred from direct assay |GO:0006412
s | inferred from direct assay|GO:0005730//biological process| negative regulation of DNA replication | inferred from direct assay|GO:0008156//biological p
from Pol II promoter | inferred from direct assay|GO:0045944
ment|GO:0006906//biological process| endocytosis | traceable author statement |GO:0006897//biological process| Golgi to plasma membrane transport | t
s| chromatin silencing at telomere | inferred from direct assay |GO:0006348
assay |GO:0005934//cellular component| membrane fraction | inferred from direct assay |GO:0005624//biological process| actin cytoskeleton organization
atement|GO:0007017
nt | inferred from genetic interaction |GO:0000076
er complex | traceable author statement|GO:0030904//cellular component| endosome | inferred from direct assay |GO:0005768//biological process| protein
ment|GO:0006364
mponent| nucleus | inferred from direct assay |GO:0005634//biological process| rRNA processing | inferred from mutant phenotype|GO:0006364//biological
inferred from genetic interaction |GO:0007094
on (sensu Saccharomyces) | inferred from mutant phenotype|GO:0007103//biological process| karyogamy during conjugation with cellular fusion | inferred
| inferred from mutant phenotype|GO:0009060
| nucleolus | inferred from direct assay |GO:0005730//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| processin
cal interaction|GO:0006338
nsport | inferred from direct assay|GO:0015875
005934//biological process| exocytosis | inferred from genetic interaction|GO:0006887
cal process| response to oxidative stress | inferred from genetic interaction |GO:0006979//biological process| response to oxidative stress | inferred from e
e author statement|GO:0016579
logical process| karyogamy during conjugation with cellular fusion | inferred from genetic interaction |GO:0000742
nuclear mRNA splicing, via spliceosome | inferred from physical interaction|GO:0000398
ogenesis | traceable author statement|GO:0006999//biological process| protein-nucleus export | inferred from mutant phenotype |GO:0006611//biological
6//molecular function| specific transcriptional repressor activity | inferred from genetic interaction |GO:0016566//molecular function| transcription factor acti
005737//biological process| mRNA catabolism | traceable author statement|GO:0006402//biological process| mRNA catabolism, nonsense-mediated | trac
ed from genetic interaction |GO:0005485//cellular component| Golgi membrane | traceable author statement|GO:0000139//biological process| intra-Golgi tr
nization | inferred from mutant phenotype|GO:0007015//biological process| response to stress | inferred from genetic interaction |GO:0006950//biological p
ription from Pol II promoter | inferred from direct assay|GO:0006366
rred from direct assay|GO:0005634//cellular component| condensed nuclear chromosome | inferred from direct assay |GO:0000794//biological process| m
n |GO:0016763//molecular function| transferase activity, transferring pentosyl groups | inferred from direct assay |GO:0016763//cellular component| cytopl
ess| protein monoubiquitination | traceable author statement|GO:0006513//biological process| protein polyubiquitination | traceable author statement |GO:0
ission | inferred from mutant phenotype |GO:0000266//biological process| mitochondrial fission | inferred from genetic interaction |GO:0000266//biological
atement|GO:0006281//biological process| mutagenesis | traceable author statement |GO:0006280
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
during conjugation with cellular fusion | inferred from mutant phenotype|GO:0000754//biological process| protein deneddylation | inferred from mutant phen
m mutant phenotype|GO:0007097//biological process| nuclear migration | inferred from genetic interaction |GO:0007097//biological process| mitotic chromo
ependent exocytosis | inferred from direct assay|GO:0045955//biological process| arginine metabolism | traceable author statement |GO:0006525
rom physical interaction |GO:0008565//molecular function| protein transporter activity | inferred from genetic interaction |GO:0008565//cellular component|
network transport vesicle | inferred from direct assay|GO:0030140//cellular component| plasma membrane | traceable author statement |GO:0005886//ce
rect assay |GO:0003677//cellular component| nucleus | inferred from mutant phenotype|GO:0005634//biological process| meiotic recombination | traceable
cal process| protein biosynthesis | inferred from curator|GO:0006412
ssay |GO:0005737//biological process| late endosome to vacuole transport | inferred from physical interaction|GO:0045324//biological process| late endoso
processing | traceable author statement|GO:0006365
nferred from direct assay |GO:0005834//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological process| signal transduction du
assay |GO:0005816//biological process| regulation of exit from mitosis | inferred from mutant phenotype|GO:0007096//biological process| protein amino ac
d from direct assay|GO:0006468//biological process| MAPKKK cascade during cell wall biogenesis | inferred from mutant phenotype |GO:0000196//biolog
nferred from sequence similarity |GO:0004392//molecular function| heme oxygenase (decyclizing) activity | inferred from expression pattern |GO:0004392/
ication repair | traceable author statement|GO:0006301//biological process| mismatch repair | traceable author statement |GO:0006298//biological process
eraction|GO:0008380//biological process| RNA splicing | inferred from mutant phenotype |GO:0008380//biological process| cell cycle | traceable author sta
erred from genetic interaction |GO:0006279
quitination | traceable author statement |GO:0006513//biological process| protein polyubiquitination | traceable author statement |GO:0000209
03844//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| glycogen metabolism | inferred from mutant phenotype
GO:0005685//cellular component| snRNP U1 | inferred from direct assay |GO:0005685//cellular component| commitment complex | traceable author statem
ellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological pr
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
e checkpoint | inferred from mutant phenotype|GO:0007094//biological process| mitotic spindle checkpoint | inferred from genetic interaction |GO:0007094
045462//biological process| secondary metabolism | inferred from sequence similarity|GO:0019748//biological process| secondary metabolism | inferred fro
5085//cellular component| Golgi apparatus | traceable author statement|GO:0005794//cellular component| Golgi apparatus | inferred from direct assay |GO
hagy | inferred from mutant phenotype|GO:0006914//biological process| autophagy | inferred from genetic interaction |GO:0006914//biological process| pro
m mutant phenotype|GO:0045721//biological process| regulation of nitrogen utilization | inferred from mutant phenotype |GO:0006808
otype|GO:0006623
and biogenesis | inferred from mutant phenotype|GO:0007031
anslational initiation | inferred from mutant phenotype|GO:0006413//biological process| protein biosynthesis | inferred from direct assay |GO:0006412
ocess| mitotic sister chromatid cohesion | inferred from genetic interaction |GO:0007064
t| mitochondrion | inferred from mutant phenotype|GO:0005739//biological process| isoleucyl-tRNA aminoacylation | inferred from sequence similarity|GO:
red from physical interaction|GO:0045324//biological process| late endosome to vacuole transport | inferred from mutant phenotype |GO:0045324
ion | inferred from mutant phenotype |GO:0030383
H complex | inferred from direct assay |GO:0042729//cellular component| spindle microtubule | inferred from direct assay |GO:0005876//cellular componen
al process| transcription initiation from Pol III promoter | traceable author statement|GO:0006384
NA binding | inferred from direct assay |GO:0003723//cellular component| mitochondrion | traceable author statement|GO:0005739//biological process| Gro
ication fork | traceable author statement |GO:0005657//biological process| chromatin silencing at telomere | inferred from mutant phenotype|GO:0006348//
nt| mitochondrion | traceable author statement|GO:0005739//biological process| tryptophanyl-tRNA aminoacylation | inferred from mutant phenotype|GO:0
| Rab GTPase activator activity | inferred from genetic interaction |GO:0005097//cellular component| intracellular | inferred from direct assay|GO:0005622/
y|GO:0005759//biological process| mitochondrial matrix protein import | inferred from direct assay|GO:0030150//biological process| response to stress | inf
om mutant phenotype|GO:0045045
|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634
rect assay|GO:0015031//biological process| ubiquitin-dependent protein catabolism | traceable author statement |GO:0006511//biological process| mRNA
complex | inferred from direct assay |GO:0008180//biological process| adaptation to pheromone during conjugation with cellular fusion | inferred from mut
onal elongation | inferred from sequence similarity|GO:0006414
phenotype|GO:0016558
from direct assay |GO:0005737//cellular component| membrane fraction | inferred from direct assay |GO:0005624//biological process| autophagy | inferred
roxisome organization and biogenesis | inferred from genetic interaction |GO:0007031//biological process| peroxisome organization and biogenesis | inferr
| protein biosynthesis | traceable author statement|GO:0006412
cal process| aerobic respiration | inferred from mutant phenotype|GO:0009060//biological process| aerobic respiration | inferred from expression pattern |G
etabolism | inferred from mutant phenotype|GO:0005975
ssembly and maintenance | traceable author statement |GO:0000027
ent| mitochondrial inner membrane | inferred from direct assay|GO:0005743//biological process| coenzyme A transport | inferred from mutant phenotype|G
| protein biosynthesis | traceable author statement|GO:0006412
g-type specific | inferred from direct assay|GO:0007532
assay|GO:0005685//biological process| nuclear mRNA splicing, via spliceosome | inferred from genetic interaction|GO:0000398
GO:0005634//biological process| meiotic DNA double-strand break formation | traceable author statement|GO:0042138//biological process| double-strand b
say |GO:0005576//biological process| signal transduction during conjugation with cellular fusion | inferred from mutant phenotype|GO:0000750//biological
red from mutant phenotype|GO:0009060//biological process| cytochrome c oxidase biogenesis | inferred from mutant phenotype |GO:0008535
red from mutant phenotype|GO:0005634//biological process| double-strand break repair via synthesis-dependent strand annealing | traceable author state
45129//molecular function| NAD-dependent histone deacetylase activity | inferred from physical interaction |GO:0017136//molecular function| NAD-depend
d from mutant phenotype|GO:0007029//biological process| chromatin remodeling | inferred from physical interaction |GO:0006338//biological process| chro
lex | inferred from direct assay|GO:0000124//biological process| histone acetylation | traceable author statement|GO:0016573//biological process| chromat
inferred from genetic interaction|GO:0000722
O:0005779//biological process| fatty acid transport | inferred from direct assay|GO:0015908
| inferred from sequence similarity|GO:0006426
hondrial inner membrane | inferred from direct assay|GO:0005743//biological process| protein stabilization | inferred from mutant phenotype|GO:0050821//
m | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| RNA processing | in
ear ribonucleoprotein complex | inferred from direct assay|GO:0030532//cellular component| commitment complex | inferred from physical interaction |GO
ss| mitochondrion inheritance | traceable author statement |GO:0000001
ent| mitochondrion | inferred from direct assay|GO:0005739//biological process| fatty acid biosynthesis | inferred from genetic interaction|GO:0006633
nnoprotein biosynthesis | inferred from mutant phenotype |GO:0000032
traceable author statement|GO:0006298//biological process| nucleotide-excision repair | traceable author statement |GO:0006289//biological process| lagg
mponent| mitochondrial small ribosomal subunit | inferred from physical interaction|GO:0005763//biological process| protein biosynthesis | inferred from cu
ed from physical interaction|GO:0006461//biological process| protein complex assembly | inferred from mutant phenotype |GO:0006461
ological process| transcription from Pol II promoter | traceable author statement|GO:0006366
processing of 20S pre-rRNA | inferred from physical interaction|GO:0030490//biological process| processing of 20S pre-rRNA | inferred from mutant pheno
t| mitochondrial large ribosomal subunit | inferred from physical interaction |GO:0005762//biological process| protein biosynthesis | traceable author statem
enotype|GO:0016072
5085//cellular component| Golgi apparatus | traceable author statement|GO:0005794//biological process| intracellular protein transport | inferred from physi
ysical interaction |GO:0000243//biological process| nuclear mRNA splicing, via spliceosome | inferred from physical interaction|GO:0000398
ochondrial small ribosomal subunit | traceable author statement|GO:0005763//cellular component| mitochondrial small ribosomal subunit | inferred from dir
mologous end-joining | inferred from mutant phenotype|GO:0006303
| protein biosynthesis | traceable author statement|GO:0006412
ar component| nucleus | inferred from direct assay |GO:0005634//biological process| transcription from Pol II promoter | inferred from physical interaction|G
physical interaction|GO:0006461//biological process| protein complex assembly | inferred from mutant phenotype |GO:0006461
phenotype|GO:0007121//biological process| vesicle fusion | traceable author statement |GO:0006906//biological process| vesicle docking during exocytos
om direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| DNA repair | inferred from mutant
ular component| mitochondrion | inferred from direct assay |GO:0005739//cellular component| nucleus | inferred from direct assay |GO:0005634//biologica
uence similarity|GO:0005634//cellular component| nucleus | inferred from genetic interaction |GO:0005634//biological process| nuclear organization and b
enotype|GO:0007094//biological process| mitotic spindle checkpoint | inferred from genetic interaction |GO:0007094//biological process| nucleocytoplasm
le author statement|GO:0016485
ant phenotype|GO:0006950//biological process| protein folding | inferred from mutant phenotype |GO:0006457
9//biological process| iron-sulfur cluster assembly | inferred from mutant phenotype|GO:0016226//biological process| aerobic respiration | inferred from mu
peroxisome targeting | inferred from mutant phenotype |GO:0006625
rred from direct assay |GO:0000329//biological process| vacuolar protein processing/maturation | inferred from mutant phenotype|GO:0006624
mplex | inferred from direct assay|GO:0005681//biological process| nuclear mRNA splicing, via spliceosome | inferred from direct assay|GO:0000398
pe |GO:0016763//molecular function| transferase activity, transferring pentosyl groups | inferred from genetic interaction |GO:0016763//cellular component
ent|GO:0007126
|GO:0005737//biological process| metabolism | inferred from sequence similarity|GO:0008152
ging strand elongation | inferred from physical interaction|GO:0006273
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
nferred from direct assay|GO:0006400
rter activity | inferred from sequence similarity |GO:0015144//cellular component| plasma membrane | inferred from sequence similarity|GO:0005886//biolo
ogical process| mitochondrial processing | inferred from direct assay|GO:0006627
ct assay|GO:0006950
nt phenotype |GO:0008650//molecular function| rRNA (uridine-2'-O-)-methyltransferase activity | inferred from direct assay |GO:0008650//molecular functio
ed from direct assay |GO:0005778//biological process| protein-peroxisome targeting | traceable author statement|GO:0006625//biological process| protein
//cellular component| mitochondrion | inferred from direct assay |GO:0005739//biological process| aerobic respiration | inferred from mutant phenotype|GO
ct assay|GO:0005737//biological process| response to stress | inferred from expression pattern|GO:0006950
O:0006402//biological process| mRNA catabolism, nonsense-mediated | traceable author statement |GO:0000184
ing-type specific | traceable author statement|GO:0007532//biological process| regulation of transcription from Pol II promoter | traceable author statement
8//biological process| protein amino acid geranylgeranylation | inferred from direct assay|GO:0018348
from direct assay |GO:0005634//biological process| protein amino acid dephosphorylation | inferred from sequence similarity|GO:0006470//biological proc
Cdc73/Paf1 complex | inferred from physical interaction |GO:0016593//cellular component| transcription elongation factor complex | inferred from physica
ion factor activity | inferred from mutant phenotype |GO:0003743//molecular function| RNA binding | inferred from direct assay |GO:0003723//cellular comp
red from mutant phenotype|GO:0000245
ess| vacuolar acidification | inferred from mutant phenotype |GO:0007035//biological process| vacuolar acidification | inferred from genetic interaction |GO:
e|GO:0008104
substances | inferred from mutant phenotype |GO:0042626//cellular component| mitochondrial inner membrane | inferred from direct assay|GO:0005743//b
biosynthesis | inferred from mutant phenotype|GO:0030148
raceable author statement |GO:0005834//biological process| signal transduction during conjugation with cellular fusion | inferred from mutant phenotype|G
al process| transcription initiation from Pol III promoter | traceable author statement|GO:0006384
nsu Fungi) | traceable author statement|GO:0009277//biological process| response to heat | inferred from direct assay|GO:0009408//biological process| ce
| protein biosynthesis | traceable author statement|GO:0006412
r of spore wall | inferred from sequence similarity|GO:0005631//biological process| spore wall assembly (sensu Fungi) | inferred from mutant phenotype|GO
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
genesis | inferred from genetic interaction|GO:0007005//biological process| protein biosynthesis | inferred from mutant phenotype |GO:0006412//biological
lex | inferred from direct assay |GO:0042729//cellular component| spindle | inferred from direct assay |GO:0005819//cellular component| condensed nuclea
0015986//biological process| response to dessication | inferred from sequence similarity |GO:0009269//biological process| response to dessication | inferre
nent| mitochondrion | inferred from mutant phenotype|GO:0005739//biological process| aerobic respiration | inferred from mutant phenotype|GO:0009060
ect assay |GO:0005634
| protein biosynthesis | traceable author statement|GO:0006412
om direct assay |GO:0005739//biological process| RNA catabolism | inferred from mutant phenotype|GO:0006401//biological process| RNA catabolism | in
63//molecular function| chromatin binding | inferred from mutant phenotype |GO:0003682//cellular component| COMPASS complex | inferred from physica
mbrane | inferred from direct assay|GO:0005886//cellular component| vacuolar membrane | inferred from direct assay |GO:0005774//biological process| ce
rotein biosynthesis | inferred from direct assay|GO:0006412
ess| bud growth | traceable author statement|GO:0007117//biological process| mitotic spindle checkpoint | inferred from physical interaction |GO:0007094/
|GO:0005634//biological process| snoRNA metabolism | inferred from mutant phenotype|GO:0016074
ing conjugation with cellular fusion | traceable author statement|GO:0000752
from mutant phenotype|GO:0007131
omologous end-joining | inferred from physical interaction|GO:0006303
chondrion | inferred from mutant phenotype|GO:0005739//cellular component| mitochondrion | inferred from direct assay |GO:0005739//biological process
ence similarity|GO:0006810
| protein biosynthesis | traceable author statement|GO:0006412//biological process| ribosomal large subunit assembly and maintenance | inferred from seq
l budding | inferred from mutant phenotype|GO:0007120//biological process| actin filament organization | traceable author statement |GO:0007015//biologi
ellular component| nucleus | inferred from direct assay |GO:0005634//biological process| transcription initiation from Pol II promoter | traceable author state
nferred from mutant phenotype|GO:0040020//biological process| histone methylation | inferred from direct assay |GO:0016571//biological process| chroma
om direct assay |GO:0005634//biological process| tRNA methylation | inferred from direct assay|GO:0030488
icing, via spliceosome | inferred from physical interaction|GO:0000398//biological process| nuclear mRNA splicing, via spliceosome | inferred from mutant
A binding | inferred from sequence similarity |GO:0003723//cellular component| mitochondrial small ribosomal subunit | traceable author statement|GO:000
henotype|GO:0006950//biological process| SRP-dependent cotranslational membrane targeting, translocation | inferred from mutant phenotype |GO:0006
t| mitochondrial large ribosomal subunit | inferred from physical interaction |GO:0005762//biological process| protein biosynthesis | traceable author statem
t| mitochondrion | inferred from direct assay|GO:0005739//biological process| glutamyl-tRNA aminoacylation | inferred from mutant phenotype|GO:000642
tein catabolism | inferred from direct assay|GO:0030433
n | inferred from mutant phenotype |GO:0005739//biological process| ethanol fermentation | inferred from sequence similarity|GO:0019655//biological proc
rred from direct assay|GO:0005869//biological process| mitotic anaphase B | inferred from mutant phenotype|GO:0000092//biological process| mitotic ana
osome complex | traceable author statement|GO:0005681//biological process| response to xenobiotic stimulus | inferred from mutant phenotype|GO:00094
mplex | traceable author statement|GO:0005680//biological process| cyclin catabolism | traceable author statement|GO:0008054//biological process| mitot
0005634//biological process| response to heat | traceable author statement|GO:0009408//biological process| response to dessication | inferred from seque
| protein biosynthesis | traceable author statement|GO:0006412
d from direct assay|GO:0005625
ysical interaction |GO:0000243//biological process| nuclear mRNA splicing, via spliceosome | inferred from physical interaction|GO:0000398
ferred from mutant phenotype |GO:0007131
ed from mutant phenotype|GO:0009435
al interaction|GO:0009060
sembly machinery complex | inferred from direct assay|GO:0001401//biological process| outer mitochondrial membrane organization and biogenesis | infer
t assay |GO:0005634//biological process| MAPKKK cascade during cell wall biogenesis | inferred from mutant phenotype|GO:0000196//biological process|
rect assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| G1/S transition of mitotic cell cycle | tra
phosphorylation | traceable author statement|GO:0006468//biological process| regulation of transcription from Pol II promoter | traceable author statemen
ct assay|GO:0007059
| protein biosynthesis | traceable author statement|GO:0006412
henotype|GO:0006271//biological process| DNA replication initiation | inferred from physical interaction |GO:0006270//biological process| DNA replication
nction| L-serine ammonia-lyase activity | inferred from sequence similarity |GO:0003941//molecular function| L-serine ammonia-lyase activity | inferred from
binding | inferred from direct assay |GO:0005515//cellular component| mitochondrial inner membrane presequence translocase complex | inferred from di
egulation of meiosis | inferred from genetic interaction |GO:0040020//biological process| protein amino acid phosphorylation | inferred from sequence simil
ant phenotype |GO:0003704//cellular component| nucleus | inferred from curator|GO:0005634//biological process| positive regulation of transcription from P
nt| repairosome | inferred from direct assay |GO:0000108//biological process| nucleotide-excision repair, DNA damage recognition | traceable author state
nferred from direct assay|GO:0005634//cellular component| histone deacetylase complex | inferred from physical interaction |GO:0000118//biological proce
e | inferred from mutant phenotype |GO:0005774//biological process| polyamine transport | inferred from mutant phenotype|GO:0015846
onent| mitochondrion | inferred from mutant phenotype|GO:0005739//cellular component| mitochondrion | inferred from direct assay |GO:0005739//biologic
ssay|GO:0005686//biological process| nuclear mRNA splicing, via spliceosome | inferred from physical interaction|GO:0000398//biological process| nuclea
|GO:0000112//biological process| nucleotide-excision repair, DNA incision, 3'-to lesion | traceable author statement|GO:0006295
d from physical interaction|GO:0006623//biological process| protein-vacuolar targeting | inferred from mutant phenotype |GO:0006623//biological process|
ensu Fungi) | inferred from expression pattern|GO:0030437
some to vacuole transport | inferred from genetic interaction |GO:0045324//biological process| protein-Golgi retention | inferred from mutant phenotype |GO
eotide-excision repair, DNA damage recognition | traceable author statement|GO:0000715
| protein biosynthesis | traceable author statement|GO:0006412
ct assay |GO:0005794//cellular component| endoplasmic reticulum | inferred from direct assay |GO:0005783//biological process| vesicle organization and b
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
ant phenotype |GO:0008418//molecular function| protein N-terminal asparagine amidohydrolase activity | inferred from direct assay |GO:0008418//cellular c
mponent| mitochondrial small ribosomal subunit | inferred from sequence similarity|GO:0005763//cellular component| mitochondrial small ribosomal subun
ay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//cellular component| proteasome complex (sensu Eukarya) | inferre
gnal transduction resulting in induction of apoptosis | inferred from mutant phenotype|GO:0008630
function| magnesium ion transporter activity | inferred from genetic interaction |GO:0015095//cellular component| mitochondrial inner membrane | inferred
| protein biosynthesis | traceable author statement|GO:0006412
us | inferred from direct assay|GO:0005634//biological process| phospholipid metabolism | inferred from mutant phenotype|GO:0006644
nferred from mutant phenotype|GO:0006808
8//biological process| gluconeogenesis | inferred from mutant phenotype |GO:0006094
rotein biosynthesis | inferred from direct assay|GO:0006412
//biological process| mRNA cleavage | inferred from mutant phenotype |GO:0006379//biological process| mRNA cleavage | inferred from genetic interactio
process| electron transport | traceable author statement|GO:0006118
omplex | inferred from direct assay|GO:0000124//biological process| sporulation (sensu Fungi) | traceable author statement|GO:0030437//biological proces
m sequence similarity|GO:0009269//biological process| response to dessication | inferred from expression pattern |GO:0009269//biological process| respo
ll assembly (sensu Fungi) | inferred from mutant phenotype|GO:0030476//biological process| spore wall assembly (sensu Fungi) | inferred from expression
|GO:0005198//molecular function| structural molecule activity | inferred from mutant phenotype |GO:0005198//cellular component| proton-transporting ATP
sical interaction|GO:0006338//biological process| chromatin remodeling | inferred from genetic interaction |GO:0006338//biological process| chromatin rem
gle-stranded DNA binding | inferred from direct assay |GO:0003697//cellular component| nuclear chromatin | inferred from direct assay|GO:0000790//biolo
assembly (sensu Fungi) | inferred from mutant phenotype |GO:0030476//biological process| protein complex assembly | inferred from mutant phenotype |G
ing-type specific | traceable author statement|GO:0007532//biological process| regulation of transcription from Pol II promoter | traceable author statement
rotein biosynthesis | inferred from direct assay|GO:0006412
netochore | traceable author statement |GO:0000778//biological process| mitotic spindle assembly (sensu Fungi) | inferred from mutant phenotype|GO:003
ochondrial large ribosomal subunit | traceable author statement|GO:0005762//biological process| protein biosynthesis | traceable author statement|GO:00
ular component| peroxisome | inferred from direct assay|GO:0005777//biological process| fatty acid beta-oxidation | inferred from direct assay|GO:0006635
mponent| mitochondrial large ribosomal subunit | inferred from physical interaction|GO:0005762//biological process| protein biosynthesis | inferred from cu
ar component| nucleus | inferred from direct assay |GO:0005634//biological process| histone methylation | inferred from direct assay|GO:0016571
ct assay |GO:0000776//biological process| microtubule/kinetochore interaction | inferred from physical interaction|GO:0008608//biological process| microtu
om sequence similarity|GO:0005737//biological process| response to metal ion | inferred from mutant phenotype|GO:0010038
from mutant phenotype|GO:0007005
t protein catabolism | inferred from sequence similarity|GO:0006511
|GO:0000110//biological process| nucleotide-excision repair, DNA incision, 5'-to lesion | traceable author statement|GO:0006296//biological process| doub
t|GO:0006906//biological process| Golgi to plasma membrane transport | traceable author statement |GO:0006893
ealkylation | inferred from mutant phenotype|GO:0006307
ondrial inner membrane protein insertion complex | traceable author statement|GO:0042721//cellular component| mitochondrial intermembrane space | tra
o acid transport | inferred from direct assay|GO:0015802
inferred from genetic interaction|GO:0000722
d cohesion | inferred from mutant phenotype|GO:0007064//biological process| DNA repair | inferred from direct assay |GO:0006281//biological process| DN
nt| plasma membrane | inferred from direct assay|GO:0005886//biological process| monovalent inorganic cation homeostasis | inferred from mutant phenot
from mutant phenotype |GO:0009013//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| response to oxidative s
rotein biosynthesis | inferred from direct assay|GO:0006412
n|GO:0006412
rect assay|GO:0006606
mponent| mitochondrion | inferred from mutant phenotype|GO:0005739//biological process| protein biosynthesis | inferred from mutant phenotype|GO:000
mosome kinetochore | traceable author statement|GO:0000778//biological process| centromere/kinetochore complex maturation | traceable author statem
ant phenotype|GO:0006412//biological process| mRNA processing | inferred from mutant phenotype |GO:0006397
28//molecular function| chromatin binding | inferred from mutant phenotype |GO:0003682//cellular component| COMPASS complex | inferred from physica
712//molecular function| transcription cofactor activity | inferred from mutant phenotype |GO:0003712//molecular function| transcription cofactor activity | in
enotype|GO:0030490
r | traceable author statement|GO:0006289//biological process| transcription-coupled nucleotide-excision repair | traceable author statement |GO:0006283
anscription cofactor activity | inferred from genetic interaction |GO:0003712//cellular component| SAGA complex | inferred from direct assay|GO:0000124//
thiamin biosynthesis | inferred from expression pattern |GO:0009228
m mutant phenotype |GO:0004702//biological process| MAPKKK cascade | inferred from mutant phenotype|GO:0000165
rotein biosynthesis | inferred from direct assay|GO:0006412
matid cohesion | inferred from mutant phenotype|GO:0007062//biological process| sister chromatid cohesion | inferred from genetic interaction |GO:000706
mponent| mitochondrial small ribosomal subunit | inferred from sequence similarity|GO:0005763//cellular component| mitochondrial small ribosomal subun
or statement|GO:0007046
| protein biosynthesis | traceable author statement|GO:0006412
sis | traceable author statement|GO:0006537//biological process| isocitrate metabolism | traceable author statement |GO:0006102
rotein biosynthesis | inferred from direct assay|GO:0006412
722//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biolo
n | inferred from physical interaction|GO:0007130//biological process| synaptonemal complex formation | inferred from mutant phenotype |GO:0007130//b
ation | inferred from mutant phenotype|GO:0009060//biological process| fatty acid biosynthesis | inferred from mutant phenotype |GO:0006633
biological process| tRNA processing | inferred from direct assay|GO:0008033
ble author statement|GO:0016579
aceable author statement|GO:0007049//biological process| nuclear mRNA splicing, via spliceosome | traceable author statement |GO:0000398
d from physical interaction|GO:0030476//biological process| meiosis | inferred from expression pattern |GO:0007126
/biological process| glycine biosynthesis | inferred from mutant phenotype|GO:0006545//biological process| glycine biosynthesis | inferred from genetic int
ct assay |GO:0005634//biological process| mitochondrial genome maintenance | inferred from direct assay|GO:0000002
| protein biosynthesis | traceable author statement|GO:0006412
y|GO:0005743//biological process| aerobic respiration | inferred from mutant phenotype|GO:0009060
us | inferred from direct assay |GO:0005634//biological process| response to oxidative stress | inferred from mutant phenotype|GO:0006979
-dependent | inferred from mutant phenotype|GO:0006355
t| mitochondrial large ribosomal subunit | inferred from physical interaction |GO:0005762//biological process| protein biosynthesis | traceable author statem
rotein biosynthesis | inferred from direct assay|GO:0006412
y | inferred from physical interaction|GO:0045045//biological process| secretory pathway | inferred from genetic interaction |GO:0045045
ption | traceable author statement|GO:0006350//biological process| regulation of carbohydrate metabolism | traceable author statement |GO:0006109
hyde reductase activity | inferred from direct assay |GO:0004032//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular compon
dent | inferred from genetic interaction|GO:0000288
ponent| mitochondrion | inferred from mutant phenotype|GO:0005739//biological process| pseudouridine synthesis | inferred from mutant phenotype|GO:00
llular component| protein phosphatase type 1 complex | inferred from physical interaction|GO:0000164//biological process| protein amino acid dephosphor
cell cycle arrest in response to pheromone | inferred from mutant phenotype |GO:0000751
ponent| cytoplasm | inferred from direct assay|GO:0005737//biological process| response to oxidative stress | inferred from mutant phenotype|GO:0006979
cleavage factor complex | inferred from physical interaction|GO:0005849//biological process| mRNA cleavage | inferred from direct assay|GO:0006379//bio
ion | inferred from direct assay|GO:0016573//biological process| chromatin modification | inferred from sequence similarity |GO:0016568//biological proces
t| mitochondrial large ribosomal subunit | inferred from physical interaction |GO:0005762//biological process| protein biosynthesis | traceable author statem
nferred from mutant phenotype|GO:0006412
|GO:0007126//biological process| meiosis | inferred from genetic interaction |GO:0007126//biological process| cell cycle | inferred from mutant phenotype
|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| metabolism | inferred from sequence similarity|G
ction| histone acetyltransferase activity | inferred from physical interaction |GO:0004402//cellular component| cytoplasm | inferred from direct assay|GO:00
gical process| meiotic recombination | inferred from mutant phenotype |GO:0007131
biosynthesis | inferred from sequence similarity|GO:0006412//biological process| protein biosynthesis | inferred from mutant phenotype |GO:0006412
component| mitochondrion | inferred from mutant phenotype|GO:0005739//biological process| translational elongation | inferred from sequence similarity|G
rocess| chromatin silencing at silent mating-type cassette (sensu Fungi) | traceable author statement|GO:0030466//biological process| DNA replication init
004674//molecular function| histone acetyltransferase activity | inferred from direct assay |GO:0004402//cellular component| transcription factor TFIID com
molecular function| signal transducer activity | traceable author statement |GO:0004871//molecular function| transcription corepressor activity | traceable au
m | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| D-xylose metabolism
assay |GO:0003704//cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| positive regulation of gluconeogenesis | in
005634//biological process| short-chain fatty acid metabolism | inferred from mutant phenotype|GO:0046459//biological process| chromatin silencing at tel
on of transcription from Pol II promoter | inferred from direct assay|GO:0045944//biological process| pseudohyphal growth | inferred from mutant phenotyp
mplex | traceable author statement|GO:0005680//biological process| cyclin catabolism | traceable author statement|GO:0008054//biological process| mitot
osome | inferred from direct assay |GO:0000108//biological process| nucleotide-excision repair, DNA damage recognition | traceable author statement|GO
ferred from sequence similarity|GO:0005628//cellular component| prospore membrane | inferred from mutant phenotype |GO:0005628//biological process|
targeting | inferred from mutant phenotype |GO:0006625
nt| mitochondrial small ribosomal subunit | inferred from direct assay |GO:0005763//biological process| protein biosynthesis | traceable author statement|GO
rred from physical interaction|GO:0006271//biological process| DNA strand elongation | inferred from genetic interaction |GO:0006271
utant phenotype |GO:0000347//biological process| mRNA-nucleus export | inferred from mutant phenotype|GO:0006406//biological process| RNA elongati
utant phenotype |GO:0000347//biological process| mRNA-nucleus export | inferred from mutant phenotype|GO:0006406//biological process| RNA elongati
m sequence similarity|GO:0015031
ner membrane | inferred from direct assay |GO:0005743//biological process| RNA metabolism | inferred from mutant phenotype|GO:0016070//biological pr
rt | inferred from direct assay|GO:0006817
phase B | inferred from mutant phenotype|GO:0000092//biological process| mitotic anaphase B | inferred from genetic interaction |GO:0000092
g-type specific | inferred from direct assay|GO:0007532
ar component| mitochondrion | inferred from direct assay |GO:0005739//biological process| aerobic respiration | inferred from genetic interaction|GO:0009
sport | traceable author statement|GO:0006118
ular component| nucleus | inferred from physical interaction|GO:0005634//cellular component| histone deacetylase complex | inferred from physical interac
om mutant phenotype|GO:0000747
inferred from mutant phenotype |GO:0006886//biological process| regulation of pH | inferred from mutant phenotype |GO:0006885//biological process| reg
inferred from genetic interaction|GO:0000722
erred from physical interaction |GO:0005634//biological process| histone deacetylation | inferred from physical interaction|GO:0016575
rotein biosynthesis | inferred from direct assay|GO:0006412
al process| response to stress | inferred from direct assay|GO:0006950//biological process| protein folding | inferred from direct assay |GO:0006457
sensu Saccharomyces) | inferred from direct assay |GO:0000142//biological process| actin polymerization and/or depolymerization | traceable author state
t assay|GO:0006950
-tRNA ligase activity | inferred from genetic interaction |GO:0004828//cellular component| mitochondrion | inferred from mutant phenotype|GO:0005739//ce
iological process| transcription initiation from Pol II promoter | traceable author statement|GO:0006367//biological process| G1-specific transcription in mito
e | inferred from mutant phenotype |GO:0005886//biological process| thiamin transport | traceable author statement|GO:0015888
author statement |GO:0004872//cellular component| plasma membrane | inferred from direct assay|GO:0005886//biological process| response to glucose
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological
rred from sequence similarity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//m
cal process| response to stress | inferred from sequence similarity|GO:0006950//biological process| response to stress | inferred from direct assay |GO:000
say |GO:0005730//biological process| conjugation with cellular fusion | inferred from genetic interaction|GO:0000747//biological process| ribosomal large su
| inferred from genetic interaction |GO:0006461
om genetic interaction|GO:0000747//biological process| ribosomal large subunit assembly and maintenance | inferred from physical interaction |GO:00000
sequence similarity|GO:0006307//biological process| DNA dealkylation | inferred from genetic interaction |GO:0006307//biological process| DNA dealkylati
osynthesis | inferred from mutant phenotype|GO:0019483//biological process| response to stress | inferred from expression pattern |GO:0006950//biologica
| inferred from direct assay|GO:0005829//cellular component| mitochondrial intermembrane space | inferred from direct assay |GO:0005758//biological pr
port | inferred from direct assay|GO:0006118
inferred from genetic interaction|GO:0000722
esis | traceable author statement|GO:0000105
port | inferred from mutant phenotype|GO:0015677
inferred from genetic interaction|GO:0000722
cytoplasm | inferred from curator|GO:0005737//cellular component| cell | traceable author statement |GO:0005623//biological process| translational initiatio
xy-lyase activity | inferred from mutant phenotype |GO:0016831//molecular function| pyruvate decarboxylase activity | inferred from sequence similarity |GO
d from direct assay|GO:0006950
| nucleobase, nucleoside, nucleotide and nucleic acid metabolism | inferred from genetic interaction|GO:0006139
c reticulum | inferred from mutant phenotype |GO:0005783//biological process| dolichol-linked oligosaccharide biosynthesis | traceable author statement|G
uthor statement |GO:0005353//cellular component| plasma membrane | inferred from direct assay|GO:0005886//biological process| hexose transport | trac
O:0000053//biological process| citrulline metabolism | non-traceable author statement |GO:0000052
m mutant phenotype|GO:0009086
Fungi) | inferred from direct assay |GO:0000324//biological process| proton transport | inferred from direct assay|GO:0015992//biological process| regulatio
tement|GO:0006096//biological process| gluconeogenesis | traceable author statement |GO:0006094
otype|GO:0045910//biological process| negative regulation of DNA recombination | inferred from genetic interaction |GO:0045910//biological process| regu
ological process| regulation of meiosis | inferred from physical interaction|GO:0040020//biological process| regulation of meiosis | inferred from expression
mponent| cytoplasm | inferred from direct assay|GO:0005737//biological process| methionine metabolism | traceable author statement|GO:0006555
on|GO:0000722
esis | traceable author statement|GO:0007047//biological process| beta-1,3 glucan biosynthesis | traceable author statement |GO:0006075
O:0006974//biological process| response to DNA damage stimulus | inferred from expression pattern |GO:0006974//biological process| cell cycle checkpoin
t assay|GO:0007015
asm | inferred from direct assay |GO:0005737//biological process| amino acid biosynthesis | traceable author statement|GO:0008652//biological process|
author statement|GO:0007005
on|GO:0000722
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
able author statement|GO:0006412
bunit assembly and maintenance | inferred from mutant phenotype |GO:0000028
or statement|GO:0006696
ss| positive regulation of transcription from Pol II promoter | inferred from physical interaction|GO:0045944//biological process| positive regulation of transc
om sequence similarity|GO:0007047//biological process| cell wall organization and biogenesis | inferred from mutant phenotype |GO:0007047
005634//biological process| mRNA catabolism, nonsense-mediated | inferred from direct assay|GO:0000184
cell | traceable author statement|GO:0005623//biological process| histidine biosynthesis | traceable author statement|GO:0000105
ct assay|GO:0006865
m direct assay|GO:0007047
al process| vesicle-mediated transport | inferred from genetic interaction|GO:0016192//biological process| steroid biosynthesis | inferred from mutant phen
nent| hydrogen-transporting ATPase V1 domain | traceable author statement |GO:0000221//biological process| protein metabolism | inferred from direct as
1//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| cysteine biosynthesis | traceable author statement|GO:0019
om sequence similarity |GO:0016226//biological process| iron ion homeostasis | inferred from mutant phenotype |GO:0006879
GO:0006096//biological process| gluconeogenesis | traceable author statement |GO:0006094
c reticulum | inferred from mutant phenotype |GO:0005783//biological process| dolichol-linked oligosaccharide biosynthesis | traceable author statement|G
direct assay|GO:0006696
0000137//biological process| cell wall organization and biogenesis | inferred from mutant phenotype|GO:0007047//biological process| beta-1,6 glucan biosy
ponent| vacuole | inferred from mutant phenotype|GO:0005773//biological process| neutral amino acid transport | inferred from mutant phenotype|GO:0015
mbly | traceable author statement|GO:0042255//biological process| ribosomal large subunit-nucleus export | inferred from physical interaction |GO:000005
ed from mutant phenotype|GO:0030259//biological process| nucleotide-sugar transport | inferred from mutant phenotype |GO:0015780//biological process
ss| phospholipid metabolism | traceable author statement |GO:0006644//biological process| regulation of transcription from Pol II promoter | traceable auth
erred from mutant phenotype|GO:0019368
l interaction |GO:0005739//biological process| branched chain family amino acid biosynthesis | inferred from mutant phenotype|GO:0009082//biological pr
|GO:0042175//cellular component| endoplasmic reticulum | inferred from direct assay |GO:0005783//biological process| GPI anchor biosynthesis | inferred
or statement|GO:0005634//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| regulation of sulfur metabolism | infe
mponent| membrane | inferred from sequence similarity|GO:0016020//cellular component| membrane | inferred from mutant phenotype |GO:0016020//biolo
on|GO:0000722
erred from sequence similarity |GO:0005743//biological process| heme biosynthesis | traceable author statement|GO:0006783
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
GO:0000159//biological process| protein amino acid dephosphorylation | traceable author statement|GO:0006470
from direct assay|GO:0009277//cellular component| extracellular | inferred from direct assay |GO:0005576//biological process| glycerophospholipid metabo
:0009298//biological process| protein amino acid glycosylation | inferred from mutant phenotype |GO:0006486//biological process| cell wall mannoprotein b
bic respiration | inferred from mutant phenotype |GO:0009060
equence similarity|GO:0005886//biological process| basic amino acid transport | inferred from direct assay|GO:0015802
m | inferred from mutant phenotype |GO:0006073//biological process| glucan metabolism | inferred from genetic interaction |GO:0006073
5886//cellular component| endoplasmic reticulum | inferred from direct assay |GO:0005783//cellular component| extracellular | inferred from direct assay |G
genesis | inferred from direct assay |GO:0007047
:0005934//cellular component| incipient bud site | inferred from direct assay |GO:0000131//biological process| Rho protein signal transduction | inferred fro
sis | traceable author statement|GO:0006592//biological process| arginine biosynthesis | traceable author statement |GO:0006526
traceable author statement |GO:0005842//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological process| protein biosynthes
ent |GO:0000103
author statement |GO:0005784//biological process| protein-ER targeting | inferred from mutant phenotype|GO:0045047//biological process| SRP-dependen
| nucleobase, nucleoside, nucleotide and nucleic acid metabolism | inferred from genetic interaction|GO:0006139
ant phenotype |GO:0009267//biological process| vacuolar protein catabolism | traceable author statement |GO:0007039//biological process| vacuolar prote
tement|GO:0030636//biological process| fatty acid metabolism | traceable author statement |GO:0006631//biological process| fermentation | traceable auth
m | traceable author statement|GO:0006555
44//cellular component| transcription elongation factor complex | inferred from physical interaction|GO:0008023//cellular component| nucleus | inferred from
hor statement |GO:0005828//cellular component| polar microtubule | traceable author statement |GO:0005827//cellular component| spindle pole body | infe
biological process| nicotinamide mononucleotide transport | inferred from mutant phenotype|GO:0015890//biological process| nicotinamide mononucleotide
us | inferred from direct assay |GO:0005634//biological process| regulation of translational initiation | inferred from mutant phenotype|GO:0006446//biologic
ss| protein amino acid glycosylation | traceable author statement|GO:0006486//biological process| UDP-glucose metabolism | inferred from mutant phenot
y|GO:0006089
hesis | inferred from mutant phenotype|GO:0006189//biological process| 'de novo' IMP biosynthesis | inferred from direct assay |GO:0006189//biological pr
moter | inferred from direct assay|GO:0045944//biological process| arginine metabolism | traceable author statement |GO:0006525
t phenotype |GO:0006893
O:0004748//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:000563
acidification | traceable author statement|GO:0007035
rom mutant phenotype|GO:0006359//biological process| regulation of transcription from Pol III promoter | inferred from genetic interaction |GO:0006359//b
//biological process| glyoxylate cycle | traceable author statement |GO:0006097
ngi) | inferred from direct assay |GO:0009277//cellular component| ribosome | inferred from direct assay |GO:0005840//biological process| cell wall organiz
bunit assembly and maintenance | inferred from mutant phenotype |GO:0000028
intracellular | inferred from curator|GO:0005622//biological process| sphingolipid biosynthesis | traceable author statement|GO:0030148//biological proces
erred from mutant phenotype|GO:0007089//biological process| regulation of transcription from Pol II promoter | inferred from physical interaction |GO:0006
GO:0016020//biological process| glycerol catabolism | inferred from mutant phenotype|GO:0019563//biological process| glycerol catabolism | inferred from
0016036//biological process| cellular response to phosphate starvation | inferred from direct assay |GO:0016036//biological process| phosphate metabolis
O:0030433//biological process| autophagy | inferred from mutant phenotype |GO:0006914//biological process| ER to Golgi transport | traceable author stat
O:0046688//biological process| high affinity iron ion transport | inferred from mutant phenotype |GO:0006827
eable author statement|GO:0006412//biological process| ribosomal small subunit assembly and maintenance | inferred from mutant phenotype |GO:000002
0//biological process| zinc ion homeostasis | inferred from sequence similarity|GO:0006882//biological process| zinc ion homeostasis | inferred from mutan
ucleus | inferred from direct assay |GO:0005634//biological process| mRNA-nucleus export | traceable author statement|GO:0006406//biological process| m
nferred from direct assay |GO:0005886//biological process| cytosine transport | inferred from direct assay|GO:0015856//biological process| purine transpor
membrane (sensu Fungi) | inferred from direct assay|GO:0000329//biological process| intracellular copper ion transport | inferred from mutant phenotype|
55//biological process| uridine catabolism | inferred from direct assay |GO:0006218
/biological process| vesicle fusion | traceable author statement|GO:0006906//biological process| Golgi to plasma membrane transport | traceable author st
/biological process| conjugation with cellular fusion | inferred from genetic interaction|GO:0000747
om direct assay |GO:0016251//cellular component| nucleoplasm | inferred from physical interaction|GO:0005654//biological process| transcription initiation
ation | traceable author statement|GO:0016036//biological process| phosphate metabolism | traceable author statement |GO:0006796
process| negative regulation of transcription from Pol II promoter, mitotic | traceable author statement|GO:0007070//biological process| transcription initia
usion | traceable author statement |GO:0000754//biological process| adaptation to pheromone during conjugation with cellular fusion | inferred from mutan
ess| RAS protein signal transduction | inferred from genetic interaction |GO:0007265//biological process| pseudohyphal growth | inferred from genetic inter
tant phenotype|GO:0016021//cellular component| oligosaccharyl transferase complex | inferred from physical interaction |GO:0008250//biological process|
ment |GO:0007568
om mutant phenotype |GO:0006333//biological process| protein polyubiquitination | inferred from direct assay |GO:0000209
able author statement|GO:0006412
nt|GO:0042147//biological process| retrograde transport, endosome to Golgi | inferred from mutant phenotype |GO:0042147//biological process| intracellula
GO:0018279//biological process| N-linked glycosylation via asparagine | inferred from genetic interaction |GO:0018279//biological process| protein comple
red from direct assay |GO:0005783//biological process| fatty acid elongation | inferred from mutant phenotype|GO:0030497//biological process| sphingolip
x protein import | inferred from physical interaction|GO:0030150
ological process| ER-associated protein catabolism | inferred from mutant phenotype|GO:0030433//biological process| vesicle budding | inferred from muta
y (sensu Fungi) | inferred from genetic interaction |GO:0030472//biological process| meiotic G2/MI transition | inferred from mutant phenotype |GO:000831
process| transcription from Pol I promoter | traceable author statement|GO:0006360
notype |GO:0045045//biological process| secretory pathway | inferred from genetic interaction |GO:0045045
om Pol I promoter | traceable author statement|GO:0006363//biological process| regulation of transcription from Pol II promoter | traceable author stateme
rom mutant phenotype|GO:0042145//biological process| homotypic vacuole fusion, non-autophagic | inferred from direct assay |GO:0042145//biological pr
:0009090//biological process| threonine metabolism | traceable author statement |GO:0006566//biological process| methionine metabolism | traceable aut
0007005//biological process| response to DNA damage stimulus | inferred from mutant phenotype |GO:0006974
nt phenotype |GO:0000910
:0015914//biological process| phospholipid biosynthesis | inferred from mutant phenotype |GO:0008654
rred from mutant phenotype|GO:0006650
t phenotype |GO:0008298
inferred from mutant phenotype |GO:0008104//biological process| RAS protein signal transduction | inferred from mutant phenotype |GO:0007265
bunit assembly and maintenance | inferred from mutant phenotype |GO:0000028
esis | traceable author statement|GO:0007047//biological process| beta-1,3 glucan biosynthesis | traceable author statement |GO:0006075
n |GO:0000780//cellular component| condensed nuclear chromosome kinetochore | inferred from physical interaction |GO:0000778//cellular component| co
| inferred from sequence similarity|GO:0045944
equence similarity |GO:0006879//biological process| iron ion homeostasis | inferred from mutant phenotype |GO:0006879
biological process| sulfur amino acid metabolism | traceable author statement |GO:0000096
enotype|GO:0030437
raction|GO:0007047
red from direct assay |GO:0005783//biological process| fatty acid elongation | inferred from mutant phenotype|GO:0030497//biological process| sphingolip
rred from direct assay |GO:0005624//biological process| sphingolipid biosynthesis | traceable author statement|GO:0030148
erred from direct assay |GO:0005624//biological process| actin cytoskeleton organization and biogenesis | inferred from mutant phenotype|GO:0030036//b
mily metabolism | inferred from mutant phenotype|GO:0009072//biological process| aromatic amino acid family metabolism | inferred from genetic interactio
process| transcription from Pol I promoter | traceable author statement|GO:0006360
ed oligosaccharide biosynthesis | inferred from mutant phenotype|GO:0006488//biological process| protein amino acid glycosylation | inferred from sequen
author statement |GO:0007035//biological process| vacuole organization and biogenesis | inferred from mutant phenotype |GO:0007033//biological proce
eticulum | inferred from direct assay |GO:0005783//biological process| sulfur metabolism | inferred from expression pattern|GO:0006790
luconeogenesis | traceable author statement |GO:0006094
cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological
ction|GO:0008298//biological process| mRNA localization, intracellular | inferred from mutant phenotype |GO:0008298//biological process| telomerase-dep
city factor complex | inferred from physical interaction |GO:0005847//cellular component| nucleolus | inferred from direct assay |GO:0005730//cellular comp
erred from mutant phenotype|GO:0006493//biological process| N-glycan processing | inferred from mutant phenotype |GO:0006491//biological process| ce
om sequence similarity |GO:0005886//cellular component| plasma membrane | inferred from mutant phenotype |GO:0005886//biological process| ammoni
y | inferred from direct assay |GO:0004349//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| proline biosynthes
mponent| snRNP U1 | inferred from direct assay |GO:0005685//cellular component| commitment complex | traceable author statement |GO:0000243//cellu
ct assay|GO:0006865
notype|GO:0006979//biological process| response to oxidative stress | inferred from genetic interaction |GO:0006979
odeling | traceable author statement|GO:0006338
ble author statement |GO:0006144//biological process| purine base metabolism | inferred from mutant phenotype |GO:0006144
rred from expression pattern |GO:0009061
6//biological process| mitotic spindle orientation (sensu Fungi) | inferred from mutant phenotype|GO:0030607//biological process| mitotic spindle orientatio
tement|GO:0006096//biological process| gluconeogenesis | traceable author statement |GO:0006094
able author statement|GO:0006412
from direct assay |GO:0030176//biological process| ER to Golgi transport | inferred from physical interaction|GO:0006888//biological process| ER to Golgi
80//biological process| iron ion transport | inferred from mutant phenotype |GO:0006826//biological process| transport | inferred from sequence similarity |G
s| transcription from Pol III promoter | traceable author statement|GO:0006383//biological process| transcription from Pol I promoter | traceable author stat
erred from direct assay|GO:0016020//biological process| phosphate transport | inferred from sequence similarity|GO:0006817//biological process| phospha
ar component| nucleus | inferred from physical interaction|GO:0005634//biological process| negative regulation of phosphorylation | inferred from direct ass
able author statement|GO:0006412
bunit assembly and maintenance | inferred from mutant phenotype |GO:0000027
| nucleobase, nucleoside, nucleotide and nucleic acid metabolism | inferred from genetic interaction|GO:0006139
omponent| integral to plasma membrane | inferred from mutant phenotype |GO:0005887//biological process| high-affinity zinc ion transport | inferred from m
ess| rRNA processing | traceable author statement|GO:0006364//biological process| ribosomal small subunit assembly and maintenance | traceable autho
osynthesis | traceable author statement |GO:0006412
GO:0000784//cellular component| nuclear chromosome | inferred from physical interaction |GO:0000228//biological process| loss of chromatin silencing | in
henotype |GO:0000723
uitin-dependent protein catabolism | non-traceable author statement |GO:0006511//biological process| protein biosynthesis | traceable author statement |G
traceable author statement |GO:0005842//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological process| protein biosynthes
004366//cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//biological process| phospholipid biosynthesis | inferred from
/cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological process| regulation of translational termination | traceable author state
phenotype |GO:0007124
74//cellular component| hydrogen-transporting ATPase V0 domain | traceable author statement |GO:0000220//biological process| vacuolar acidification | tr
biological process| regulation of glycogen biosynthesis | inferred from genetic interaction |GO:0005979
rom mutant phenotype|GO:0006359//biological process| regulation of transcription from Pol III promoter | inferred from genetic interaction |GO:0006359//b
ent |GO:0006164
ess| chromosome segregation | inferred from mutant phenotype|GO:0007059//biological process| regulation of translational initiation | inferred from mutan
| inferred from mutant phenotype|GO:0009098
rom Pol II promoter, poly(A)-independent | inferred from mutant phenotype |GO:0030847//biological process| transcription termination from Pol II promoter
inferred from direct assay |GO:0005634//biological process| DNA replication | traceable author statement|GO:0006260
sequence similarity|GO:0030148//biological process| sphingolipid biosynthesis | inferred from mutant phenotype |GO:0030148//biological process| sphingo
07346//biological process| negative regulation of transcription from Pol II promoter, mitotic | inferred from direct assay |GO:0007070
hor statement |GO:0006555
atement |GO:0006102
mponent| nucleus | inferred from physical interaction|GO:0005634//cellular component| nucleus | inferred from direct assay |GO:0005634//biological proces
29//biological process| arginine biosynthesis | traceable author statement|GO:0006526
ed from mutant phenotype |GO:0005886//biological process| L-histidine transport | inferred from mutant phenotype|GO:0015817//biological process| manga
ess| actin filament depolymerization | inferred from physical interaction|GO:0030042//biological process| actin filament depolymerization | inferred from gen
biosynthesis | traceable author statement|GO:0006783
ransport | inferred from physical interaction |GO:0006886//biological process| intracellular protein transport | inferred from mutant phenotype |GO:0006886
enotype|GO:0016192
y|GO:0006817
lular component| nucleus | inferred from direct assay |GO:0005634//biological process| regulation of cell size | inferred from direct assay|GO:0008361//bio
y |GO:0005576//biological process| cytokinesis, completion of separation | inferred from sequence similarity|GO:0007109//biological process| cytokinesis, c
ceable author statement|GO:0006513//biological process| protein polyubiquitination | traceable author statement |GO:0000209
:0005634//biological process| G2/M transition of mitotic cell cycle | inferred from mutant phenotype|GO:0000086//biological process| G2/M transition of mit
ide biosynthesis | traceable author statement|GO:0006164//biological process| purine base metabolism | traceable author statement |GO:0006144
m mutant phenotype |GO:0005783//biological process| fatty acid metabolism | inferred from mutant phenotype|GO:0006631
m sequence similarity|GO:0006807//biological process| nitrogen metabolism | inferred from expression pattern |GO:0006807//biological process| glutamine
ological process| response to stress | inferred from expression pattern|GO:0006950
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
ferred from mutant phenotype|GO:0009435
24//biological process| phospholipid metabolism | inferred from mutant phenotype|GO:0006644//biological process| phospholipid metabolism | inferred fro
ucleus | inferred from direct assay |GO:0005634//biological process| mRNA-nucleus export | traceable author statement|GO:0006406//biological process| m
mutant phenotype|GO:0007047//biological process| beta-1,6 glucan biosynthesis | inferred from sequence similarity |GO:0006078//biological process| bet
Fungi) | inferred from direct assay |GO:0000324
mic reticulum membrane | inferred from genetic interaction |GO:0005789//biological process| ubiquitin-dependent protein catabolism | inferred from geneti
:0006874//biological process| protein amino acid glycosylation | inferred from mutant phenotype |GO:0006486
r component| nucleus | inferred from direct assay |GO:0005634//cellular component| protein phosphatase type 2A complex | traceable author statement |G
:0045944//biological process| hyperosmotic response | traceable author statement |GO:0006972//biological process| protein amino acid phosphorylation |
d from genetic interaction |GO:0006784
sport | inferred from direct assay |GO:0001408//biological process| mitochondrial genome maintenance | inferred from mutant phenotype |GO:0000002//bio
from mutant phenotype|GO:0006979//biological process| response to oxidative stress | inferred from genetic interaction |GO:0006979//biological process|
roheme biosynthesis | inferred from genetic interaction |GO:0019354//biological process| uroporphyrinogen III biosynthesis | non-traceable author stateme
nferred from genetic interaction |GO:0005975
0006470//biological process| inactivation of MAPK during osmolarity sensing | inferred from genetic interaction |GO:0000173//biological process| regulation
ogical process| response to zinc ion | inferred from sequence similarity|GO:0010043//biological process| zinc ion homeostasis | inferred from sequence sim
raction|GO:0005678//cellular component| nuclear chromatin | inferred from physical interaction |GO:0000790//cellular component| nuclear chromatin | infer
mutant phenotype |GO:0006888
| inferred from physical interaction|GO:0007062//biological process| mismatch repair | traceable author statement |GO:0006298//biological process| leadin
rator|GO:0005634//biological process| positive regulation of glycolysis | inferred from mutant phenotype|GO:0045821//biological process| positive regulatio
| inferred from direct assay|GO:0016576//biological process| protein amino acid dephosphorylation | inferred from direct assay |GO:0006470
statement|GO:0009073
s| regulation of meiosis | inferred from genetic interaction |GO:0040020//biological process| regulation of meiosis | inferred from expression pattern |GO:00
nt |GO:0009086
equence similarity |GO:0005624//biological process| actin cytoskeleton organization and biogenesis | traceable author statement|GO:0030036//biological p
nse to stress | traceable author statement|GO:0006950//biological process| response to stress | inferred from mutant phenotype |GO:0006950//biological p
c interaction |GO:0006078
nt | inferred from physical interaction|GO:0005884//cellular component| actin filament | inferred from direct assay |GO:0005884//biological process| actin cy
on |GO:0000123//biological process| chromatin silencing at telomere | inferred from mutant phenotype|GO:0006348//biological process| chromatin assem
m mutant phenotype |GO:0005886//biological process| peptide transport | inferred from mutant phenotype|GO:0015833
direct assay |GO:0000172//biological process| tRNA processing | traceable author statement|GO:0008033//biological process| rRNA processing | traceab
statement|GO:0005783//biological process| O-linked glycosylation | inferred from sequence similarity|GO:0006493//biological process| O-linked glycosylatio
netic interaction|GO:0045011//biological process| vesicle-mediated transport | traceable author statement |GO:0016192//biological process| mRNA localiza
aceable author statement|GO:0000079
able author statement|GO:0006412//biological process| ribosomal large subunit assembly and maintenance | inferred from mutant phenotype |GO:000002
ct assay |GO:0016887//molecular function| peptide-transporting ATPase activity | inferred from mutant phenotype |GO:0015440//cellular component| mitoc
membrane | inferred from genetic interaction |GO:0005789//cellular component| endoplasmic reticulum membrane | inferred from direct assay |GO:0005789
s| regulation of translational elongation | inferred from sequence similarity|GO:0006448//biological process| regulation of translational elongation | inferred
from sequence similarity|GO:0009082//biological process| branched chain family amino acid biosynthesis | inferred from direct assay |GO:0009082
06986//biological process| response to unfolded protein | inferred from mutant phenotype |GO:0006986//biological process| protein amino acid dephospho
n complex (sensu Saccharomyces) | inferred from physical interaction |GO:0000928//biological process| microtubule nucleation | traceable author stateme
stasis | inferred from mutant phenotype|GO:0006882//biological process| zinc ion transport | non-traceable author statement |GO:0006829//biological proc
aintenance | inferred from mutant phenotype |GO:0000002
//biological process| pseudohyphal growth | traceable author statement|GO:0007124//biological process| invasive growth (sensu Saccharomyces) | tracea
nnose biosynthesis | inferred from mutant phenotype|GO:0009298//biological process| GDP-mannose biosynthesis | inferred from direct assay |GO:00092
sis | inferred from sequence similarity|GO:0015937//biological process| coenzyme A biosynthesis | inferred from physical interaction |GO:0015937//biologic
nt | inferred from physical interaction|GO:0005884//cellular component| actin filament | inferred from direct assay |GO:0005884//biological process| actin cy
n and biogenesis | inferred from physical interaction|GO:0006999//biological process| nuclear pore organization and biogenesis | inferred from mutant phen
malate metabolism | traceable author statement|GO:0006108//biological process| glyoxylate cycle | traceable author statement |GO:0006097//biological pr
) | inferred from mutant phenotype|GO:0030437//biological process| nuclear organization and biogenesis | inferred from mutant phenotype |GO:0006997//
ble author statement|GO:0006412
tement|GO:0006096//biological process| gluconeogenesis | traceable author statement |GO:0006094
//biological process| mitotic spindle assembly (sensu Fungi) | traceable author statement|GO:0030472//biological process| mitotic anaphase B | traceable a
m sequence similarity|GO:0005634//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| regulation of cell redox hom
le author statement |GO:0000103
bunit assembly and maintenance | inferred from mutant phenotype |GO:0000027
nferred from genetic interaction|GO:0005978
ble author statement |GO:0006338
ity|GO:0006338//biological process| chromatin remodeling | inferred from direct assay |GO:0006338
say|GO:0015729//biological process| sulfate transport | inferred from direct assay |GO:0008272
ble author statement|GO:0006412
s | traceable author statement|GO:0030148//biological process| sphingolipid metabolism | inferred from sequence similarity |GO:0006665//biological proce
ement|GO:0007264//biological process| polar budding | inferred from mutant phenotype |GO:0007121//biological process| vesicle fusion | traceable author
4//cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| peptidyl-arginine modification | inferred from sequence similar
m mutant phenotype|GO:0030036//biological process| protein kinase cascade | inferred from mutant phenotype |GO:0007243//biological process| cell wall
quence similarity|GO:0006865//biological process| amino acid transport | inferred from genetic interaction |GO:0006865
40//biological process| protein sumoylation | inferred from sequence similarity|GO:0016925//biological process| protein sumoylation | inferred from mutant
nt|GO:0006098//biological process| pentose-phosphate shunt | inferred from mutant phenotype |GO:0006098
protein transport | traceable author statement|GO:0006886
component| cytoplasm | inferred from direct assay |GO:0005737//biological process| translational initiation | inferred from mutant phenotype|GO:0006413//b
y |GO:0016538//cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| transcription | inferred from physical interaction|
5634//cellular component| nuclear ubiquitin ligase complex | traceable author statement |GO:0000152//biological process| ubiquitin-dependent protein cata
process| magnesium ion transport | inferred from direct assay|GO:0015693//biological process| di-, tri-valent inorganic cation transport | inferred from sequ
from direct assay|GO:0005774//biological process| bilirubin transport | inferred from mutant phenotype|GO:0015723//biological process| bilirubin transpor
notype |GO:0006521
ces) | inferred from mutant phenotype|GO:0007103//biological process| nuclear migration during conjugation with cellular fusion | inferred from mutant phen
ar component| nuclear membrane | inferred from direct assay |GO:0005635//biological process| cell cycle | inferred from direct assay|GO:0007049//biolog
tein complex | traceable author statement|GO:0030532//cellular component| small nucleolar ribonucleoprotein complex | inferred from physical interaction
ical process| meiotic DNA double-strand break formation | traceable author statement|GO:0042138//biological process| double-strand break repair via non
0007131//biological process| telomerase-dependent telomere maintenance | inferred from mutant phenotype |GO:0007004//biological process| regulation o
raction|GO:0007047
nsport | inferred from mutant phenotype|GO:0001407
nt phenotype |GO:0000304
esis | inferred from mutant phenotype|GO:0009231//biological process| aerobic respiration | inferred from mutant phenotype |GO:0009060
mutant phenotype |GO:0006873//biological process| protein amino acid phosphorylation | inferred from direct assay |GO:0006468//biological process| regu
| chromatin remodeling | inferred from direct assay |GO:0006338
e|GO:0007026//biological process| mitotic anaphase B | inferred from mutant phenotype |GO:0000092//biological process| nuclear migration (sensu Sacch
bic respiration | inferred from mutant phenotype |GO:0009060
| inferred from direct assay |GO:0005886//biological process| protein metabolism | inferred from sequence similarity|GO:0019538//biological process| prote
O:0005730//cellular component| nucleus | inferred from direct assay |GO:0005634//cellular component| nuclear chromatin | inferred from sequence similar
inferred from mutant phenotype|GO:0030037//biological process| small GTPase mediated signal transduction | inferred from physical interaction |GO:000
erred from physical interaction|GO:0007264//biological process| actin filament organization | inferred from mutant phenotype |GO:0007015//biological proc
sequence similarity|GO:0006010//biological process| glucose 6-phosphate utilization | inferred from mutant phenotype |GO:0006010//biological process| g
GO:0003702//cellular component| cytosol | inferred from direct assay|GO:0005829//cellular component| nucleus | inferred from direct assay |GO:0005634//b
886//biological process| response to glucose stimulus | inferred from mutant phenotype|GO:0009749//biological process| endocytosis | inferred from genet
ocess| regulation of transcription from Pol III promoter | inferred from mutant phenotype|GO:0006359//biological process| regulation of transcription from Po
009272//biological process| small GTPase mediated signal transduction | inferred from physical interaction |GO:0007264//biological process| small GTPase
rom mutant phenotype|GO:0006359//biological process| regulation of transcription from Pol III promoter | inferred from genetic interaction |GO:0006359//b
ocess| pyruvate metabolism | non-traceable author statement|GO:0006090
/biological process| invasive growth (sensu Saccharomyces) | inferred from mutant phenotype |GO:0001403
able author statement |GO:0006530
traceable author statement|GO:0016573//biological process| chromatin modification | traceable author statement |GO:0016568
tion |GO:0000136//biological process| N-linked glycosylation | inferred from mutant phenotype|GO:0006487//biological process| N-linked glycosylation | inf
m direct assay |GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| mRNA cleavage | inferred from dir
|GO:0007015//biological process| response to osmotic stress | inferred from mutant phenotype |GO:0006970//biological process| endocytosis | inferred fro
from sequence similarity|GO:0006857//biological process| oligopeptide transport | inferred from direct assay |GO:0006857
rocess| G1/S transition of mitotic cell cycle | inferred from genetic interaction|GO:0000082//biological process| G1/S transition of mitotic cell cycle | inferred
rect assay |GO:0005634//biological process| pentose-phosphate shunt | inferred from genetic interaction|GO:0006098
151//biological process| ubiquitin-dependent protein catabolism | traceable author statement|GO:0006511//biological process| G2/M transition of mitotic ce
from mutant phenotype|GO:0015798
cal process| vesicle organization and biogenesis | inferred from physical interaction|GO:0016050//biological process| vesicle organization and biogenesis
nucleus import | traceable author statement|GO:0006606
nucleation | inferred from physical interaction|GO:0007020
from mutant phenotype|GO:0007121//biological process| response to osmotic stress | inferred from mutant phenotype |GO:0006970//biological process| e
sphoinositide metabolism | inferred from mutant phenotype|GO:0030384//biological process| dephosphorylation | inferred from direct assay |GO:0016311
GO:0004329//molecular function| formate-tetrahydrofolate ligase activity | inferred from mutant phenotype |GO:0004329//cellular component| cytoplasm |
ponent| plasma membrane | inferred from mutant phenotype |GO:0005886//biological process| phosphate transport | inferred from mutant phenotype|GO:0
cal process| tubulin folding | inferred from sequence similarity|GO:0007021//biological process| tubulin folding | inferred from mutant phenotype |GO:00070
cess| phospholipid transport | inferred from direct assay|GO:0015914//biological process| cell wall organization and biogenesis | inferred from genetic inter
ment|GO:0006696
aturation | inferred from mutant phenotype |GO:0007323
pe|GO:0019740//biological process| meiosis | inferred from expression pattern |GO:0007126//biological process| acetate transport | inferred from mutant p
utant phenotype |GO:0000103
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
mponent| polarisome | traceable author statement |GO:0000133//cellular component| incipient bud site | inferred from direct assay |GO:0000131//biologica
ces) | inferred from mutant phenotype|GO:0007103//biological process| nuclear migration during conjugation with cellular fusion | inferred from mutant phen
from mutant phenotype|GO:0015798
inferred from mutant phenotype |GO:0005783//biological process| dolichol-linked oligosaccharide biosynthesis | traceable author statement|GO:0006488//
d from physical interaction|GO:0008250//biological process| N-linked glycosylation | traceable author statement|GO:0006487//biological process| N-linked g
mutant phenotype |GO:0006888
ogical process| N-linked glycosylation via asparagine | inferred from physical interaction|GO:0018279//biological process| N-linked glycosylation | inferred f
y|GO:0006810
/biological process| amino acid metabolism | inferred from mutant phenotype|GO:0006520//biological process| pyruvate metabolism | inferred from mutant
phenotype|GO:0006890//biological process| ER to Golgi transport | inferred from mutant phenotype |GO:0006888
on | inferred from mutant phenotype |GO:0006487
RNA cleavage and polyadenylation specificity factor complex | inferred from physical interaction|GO:0005847//cellular component| nucleus | inferred from
nt| cytoplasm | inferred from direct assay |GO:0005737//biological process| response to drug | inferred from mutant phenotype|GO:0042493//biological pro
47//biological process| protein-ER targeting | inferred from mutant phenotype |GO:0045047//biological process| chromatin silencing at telomere | inferred fr
m sequence similarity|GO:0007264//biological process| actin filament organization | traceable author statement |GO:0007015//biological process| establish
netic interaction|GO:0045011//biological process| vesicle-mediated transport | traceable author statement |GO:0016192//biological process| mRNA localiza
domain | traceable author statement |GO:0000220//biological process| vacuolar acidification | traceable author statement|GO:0007035
ceable author statement |GO:0005635//biological process| --- | traceable author statement|GO:0030969//biological process| unfolded protein response, ac
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
phenotype|GO:0006890//biological process| retrograde transport, Golgi to ER | inferred from direct assay |GO:0006890//biological process| ER to Golgi tr
|GO:0016021//cellular component| vacuolar lumen | inferred from direct assay |GO:0005775//biological process| membrane disassembly | inferred from m
O:0009268//biological process| meiosis | inferred from mutant phenotype |GO:0007126//biological process| negative regulation of transcription from Pol II p
ase activity | inferred from expression pattern |GO:0004410//cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| lysin
ansporter activity | inferred from direct assay |GO:0015085//cellular component| vacuolar membrane | inferred from sequence similarity|GO:0005774//cellul
//biological process| iron-sulfur cluster assembly | inferred from mutant phenotype |GO:0016226//biological process| iron ion homeostasis | inferred from s
ological process| vesicle fusion | traceable author statement|GO:0006906//biological process| intra-Golgi transport | traceable author statement |GO:00068
| traceable author statement|GO:0007005
erred from genetic interaction |GO:0009651
| inferred from sequence similarity|GO:0006561//biological process| proline biosynthesis | inferred from mutant phenotype |GO:0006561
elity | inferred from mutant phenotype|GO:0006450//biological process| protein biosynthesis | traceable author statement |GO:0006412
romoter | inferred from mutant phenotype |GO:0006357
ttachment of GPI anchor to protein | inferred from mutant phenotype|GO:0016255
raction |GO:0006261
rom mutant phenotype |GO:0001302//biological process| replicative cell aging | inferred from expression pattern |GO:0001302
y |GO:0000228//biological process| double-strand break repair via synthesis-dependent strand annealing | traceable author statement|GO:0045003//biolog
6//biological process| bud growth | inferred from mutant phenotype |GO:0007117//biological process| regulation of mitosis | inferred from mutant phenotype
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
from direct assay|GO:0008154//biological process| polar budding | inferred from mutant phenotype |GO:0007121//biological process| actin filament organ
GO:0005783//biological process| phosphatidylcholine metabolism | inferred from mutant phenotype|GO:0046470
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
ay | traceable author statement|GO:0019878//biological process| lysine biosynthesis, aminoadipic pathway | non-traceable author statement |GO:0019878
y |GO:0005739//biological process| RNA processing | inferred from mutant phenotype|GO:0006396
enetic interaction |GO:0005886//biological process| uridine transport | inferred from mutant phenotype|GO:0015862//biological process| uridine transport |
otype |GO:0042307//biological process| cell ion homeostasis | inferred from mutant phenotype |GO:0006873//biological process| mRNA splice site selectio
O:0006488//biological process| N-linked glycosylation | inferred from mutant phenotype |GO:0006487
s| nuclear organization and biogenesis | inferred from sequence similarity|GO:0006997//biological process| nuclear organization and biogenesis | inferred f
O:0009408//biological process| signal transduction | inferred from mutant phenotype |GO:0007165//biological process| pseudohyphal growth | inferred from
sition | inferred from mutant phenotype |GO:0030071
d from mutant phenotype |GO:0007265
cellular component| mitochondrion | inferred from direct assay|GO:0005739//biological process| succinyl-CoA metabolism | traceable author statement|GO
ferred from mutant phenotype|GO:0009113//biological process| serine family amino acid biosynthesis | inferred from mutant phenotype |GO:0009070//biolo
nsport, Golgi to ER | inferred from genetic interaction |GO:0006890//biological process| retrograde transport, Golgi to ER | inferred from direct assay |GO:0
ochondrial matrix protein import | inferred from mutant phenotype |GO:0030150
sm | inferred from direct assay |GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| establishment and
cing at silent mating-type cassette (sensu Fungi) | inferred from genetic interaction |GO:0030466//biological process| pseudohyphal growth | inferred from
eable author statement|GO:0006412//biological process| ribosomal small subunit assembly and maintenance | inferred from mutant phenotype |GO:000002
ix protein import | traceable author statement|GO:0030150
gical process| steroid biosynthesis | inferred from genetic interaction |GO:0006694
ferred from curator |GO:0000784//biological process| chromatin silencing at telomere | inferred from direct assay|GO:0006348
id transport | inferred from sequence similarity|GO:0006835//biological process| dicarboxylic acid transport | inferred from direct assay |GO:0006835
city factor complex | inferred from physical interaction |GO:0005847//cellular component| nucleolus | inferred from direct assay |GO:0005730//cellular comp
ytosolic ribosome (sensu Eukarya) | inferred from direct assay |GO:0005830//biological process| translational initiation | inferred from mutant phenotype|GO
ence similarity|GO:0009051//biological process| pentose-phosphate shunt, oxidative branch | inferred from expression pattern |GO:0009051//biological pro
3735//cellular component| cell | traceable author statement|GO:0005623//biological process| methionine metabolism | traceable author statement|GO:0006
membrane | inferred from direct assay|GO:0005887//biological process| response to toxin | inferred from mutant phenotype|GO:0009636//biological process
0005789//cellular component| endoplasmic reticulum membrane | inferred from direct assay |GO:0005789//biological process| peptide pheromone matura
ogical process| zinc ion homeostasis | inferred from sequence similarity|GO:0006882//biological process| zinc ion homeostasis | inferred from mutant phen
nent| hydrogen-transporting ATPase V1 domain | traceable author statement |GO:0000221//biological process| protein metabolism | inferred from direct as
al process| translational initiation | inferred from direct assay|GO:0006413
0005634//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| peroxisome organization and biogenesis | inferred from
protein-mitochondrial targeting | inferred from genetic interaction |GO:0006626//biological process| protein-membrane targeting | inferred from physical in
from direct assay|GO:0006839
or activity | inferred from mutant phenotype |GO:0000156//molecular function| two-component response regulator activity | inferred from direct assay |GO:0
6//biological process| ribosomal large subunit-nucleus export | inferred from mutant phenotype |GO:0000055
29//biological process| arginine biosynthesis | traceable author statement|GO:0006526
elity | inferred from mutant phenotype|GO:0006450//biological process| protein biosynthesis | traceable author statement |GO:0006412
ect assay |GO:0005789//biological process| mRNA localization, intracellular | inferred from physical interaction|GO:0008298//biological process| chromoso
ssay |GO:0005643//cellular component| nuclear membrane | inferred from direct assay |GO:0005635//biological process| mitotic spindle assembly (sensu
uthor statement |GO:0006999//biological process| protein-nucleus export | traceable author statement |GO:0006611//biological process| ribosomal protein
otein biosynthesis | traceable author statement |GO:0006412
006901//biological process| ER to Golgi transport | inferred from mutant phenotype |GO:0006888
e assimilation | traceable author statement|GO:0000103
ular function| long-chain-fatty-acid-CoA ligase activity | inferred from mutant phenotype |GO:0004467//cellular component| plasma membrane | inferred fro
hor statement|GO:0005789//biological process| O-linked glycosylation | inferred from mutant phenotype|GO:0006493//biological process| O-linked glycosy
rgeting | inferred from mutant phenotype |GO:0006612
nferred from genetic interaction |GO:0005886//biological process| pantothenate transport | inferred from mutant phenotype|GO:0015887//biological proces
hysical interaction |GO:0006873//biological process| protein amino acid phosphorylation | inferred from direct assay |GO:0006468//biological process| reg
ion | inferred from mutant phenotype|GO:0016478//biological process| negative regulation of translation | inferred from genetic interaction |GO:0016478
ribonucleoprotein complex | inferred from direct assay |GO:0005732//biological process| processing of 20S pre-rRNA | inferred from physical interaction|G
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
ttachment of GPI anchor to protein | inferred from mutant phenotype|GO:0016255
anization and biogenesis | inferred from genetic interaction |GO:0030036
30508//cellular component| intracellular | traceable author statement|GO:0005622//biological process| response to oxidative stress | inferred from mutant p
rom physical interaction|GO:0016050
ces) | inferred from mutant phenotype|GO:0007103//biological process| nuclear migration during conjugation with cellular fusion | inferred from mutant phen
enotype |GO:0007120//biological process| ER to Golgi transport | inferred from physical interaction |GO:0006888//biological process| ER to Golgi transpor
nteraction |GO:0000324//biological process| filamentous growth | inferred from mutant phenotype|GO:0030447//biological process| signal transduction | tr
statement|GO:0009073
rred from mutant phenotype |GO:0006276
le author statement |GO:0006003
from direct assay |GO:0005634//biological process| protein amino acid phosphorylation | inferred from sequence similarity|GO:0006468//biological proces
statement|GO:0005783//biological process| O-linked glycosylation | inferred from sequence similarity|GO:0006493//biological process| O-linked glycosylatio
ome organization and biogenesis | inferred from mutant phenotype |GO:0007031
erred from genetic interaction |GO:0006357
factor 3 complex | inferred from physical interaction|GO:0005852//biological process| processing of 20S pre-rRNA | inferred from mutant phenotype|GO:0
0//biological process| response to zinc ion | inferred from sequence similarity|GO:0010043//biological process| zinc ion homeostasis | inferred from sequen
le | inferred from direct assay|GO:0030136//biological process| intra-Golgi transport | inferred from sequence similarity|GO:0006891//biological process| in
biological process| glycogen metabolism | inferred from mutant phenotype |GO:0005977
osynthesis | traceable author statement |GO:0006412
ck | inferred from direct assay|GO:0005935//cellular component| incipient bud site | inferred from direct assay |GO:0000131//biological process| small GTP
ysical interaction |GO:0003677//cellular component| nucleus | inferred from physical interaction|GO:0005634//biological process| positive regulation of tran
/cellular component| extracellular | inferred from direct assay |GO:0005576//biological process| cytokinesis, completion of separation | inferred from mutan
|GO:0016021//cellular component| vacuolar lumen | inferred from direct assay |GO:0005775//biological process| membrane disassembly | inferred from m
gical process| pyrimidine nucleotide biosynthesis | inferred from mutant phenotype|GO:0006221
interaction|GO:0005634//biological process| amino acid catabolism | inferred from mutant phenotype|GO:0009063//biological process| amino acid catabol
ation | inferred from mutant phenotype |GO:0006445
quence similarity |GO:0006897//biological process| actin cortical patch assembly | inferred from sequence similarity |GO:0000147
atement|GO:0006999//biological process| nuclear membrane organization and biogenesis | inferred from mutant phenotype |GO:0006998//biological proce
uinate synthase activity | inferred from direct assay |GO:0003856//molecular function| 3-dehydroquinate dehydratase activity | inferred from direct assay |G
ohesion | inferred from mutant phenotype |GO:0007064
0339//cellular component| mRNA cap complex | traceable author statement|GO:0005845//cellular component| mRNA cap complex | inferred from physica
ucleotide metabolism | inferred from direct assay|GO:0009117
branched chain family amino acid biosynthesis | inferred from mutant phenotype|GO:0009082//biological process| branched chain family amino acid biosy
mutant phenotype|GO:0006855
biological process| tryptophan biosynthesis | traceable author statement|GO:0000162//biological process| tryptophan biosynthesis | inferred from mutant ph
biological process| DNA replication | inferred from direct assay |GO:0006260
n | inferred from direct assay |GO:0006378
cal process| pseudouridine synthesis | inferred from direct assay |GO:0001522
embrane | traceable author statement |GO:0005635//biological process| ergosterol biosynthesis | traceable author statement|GO:0006696
with cellular fusion | inferred from mutant phenotype|GO:0000752
ological process| positive regulation of transcription | traceable author statement|GO:0045941//biological process| chromatin silencing at silent mating-type
rom expression pattern |GO:0006885
ption from Pol II promoter | inferred from mutant phenotype|GO:0000122
process| meiotic sister chromatid segregation | inferred from mutant phenotype|GO:0045144//biological process| mitotic sister chromatid segregation | infer
tant phenotype|GO:0045944//biological process| positive regulation of glycolysis | inferred from mutant phenotype |GO:0045821
otubule nucleation | inferred from physical interaction |GO:0007020
from mutant phenotype |GO:0006888
O:0005934//cellular component| incipient bud site | inferred from direct assay |GO:0000131//biological process| Rho protein signal transduction | inferred fr
O:0007265//biological process| G-protein signaling, adenylate cyclase activating pathway | inferred from direct assay |GO:0007189
|GO:0006098
ponent| vacuole | inferred from mutant phenotype|GO:0005773//biological process| neutral amino acid transport | inferred from mutant phenotype|GO:0015
6121//biological process| tricarboxylic acid cycle | traceable author statement |GO:0006099
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
onent| mannosyltransferase complex | inferred from direct assay |GO:0000136//biological process| N-glycan processing | traceable author statement|GO:0
ect assay |GO:0005828//cellular component| spindle | inferred from physical interaction |GO:0005819//cellular component| condensed nuclear chromosom
ne | inferred from sequence similarity|GO:0016020//biological process| amino acid transport | inferred from mutant phenotype|GO:0006865//biological proc
GO:0008054//biological process| mitotic metaphase/anaphase transition | traceable author statement |GO:0007091//biological process| ubiquitin-depende
ss| phospholipid metabolism | traceable author statement |GO:0006644//biological process| regulation of transcription from Pol II promoter | traceable auth
romoter | inferred from direct assay |GO:0006367
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
ess| ER-associated protein catabolism | inferred from mutant phenotype|GO:0030433//biological process| ER to Golgi transport | inferred from direct assa
biological process| RNA catabolism | inferred from physical interaction |GO:0006401
ion |GO:0006301//biological process| DNA repair | inferred from direct assay |GO:0006281
nce similarity|GO:0006319
44//cellular component| transcription elongation factor complex | inferred from physical interaction|GO:0008023//cellular component| nucleus | inferred from
d desaturation | inferred from sequence similarity|GO:0006636//biological process| fatty acid desaturation | inferred from mutant phenotype |GO:0006636//
006468//biological process| bud site selection | inferred from mutant phenotype |GO:0000282
rocess| pyruvate metabolism | traceable author statement |GO:0006090
bunit assembly and maintenance | inferred from mutant phenotype |GO:0000027
mutant phenotype|GO:0006518
henotype |GO:0015824
ar membrane (sensu Fungi) | inferred from direct assay|GO:0000329//biological process| transport | inferred from sequence similarity|GO:0006810
ation | inferred from mutant phenotype|GO:0006493//biological process| N-glycan processing | inferred from mutant phenotype |GO:0006491//biological pro
ss| retrograde transport, Golgi to ER | traceable author statement |GO:0006890//biological process| ER to Golgi transport | traceable author statement |GO
inferred from direct assay|GO:0006656
bunit assembly and maintenance | inferred from mutant phenotype |GO:0000027
3//biological process| vacuolar transport | inferred from mutant phenotype |GO:0007034//biological process| peroxisome organization and biogenesis | infe
| traceable author statement|GO:0016573//biological process| chromatin modification | traceable author statement |GO:0016568//biological process| prote
5634//biological process| long-chain fatty acid transport | inferred from mutant phenotype|GO:0015909//biological process| fatty acid metabolism | inferred
ssay|GO:0007039
s | inferred from genetic interaction |GO:0006950//biological process| proteolysis and peptidolysis | inferred from genetic interaction |GO:0006508//biologic
ocess| regulation of transcription from Pol III promoter | inferred from mutant phenotype|GO:0006359//biological process| regulation of transcription from Po
05937//cellular component| bud neck | inferred from direct assay |GO:0005935//cellular component| bud tip | inferred from direct assay |GO:0005934//cellu
nferred from direct assay|GO:0006303//biological process| DNA repair | inferred from genetic interaction |GO:0006281
rom direct assay |GO:0005811//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological process| glycolysis | traceable author s
nferred from genetic interaction |GO:0006348
ype |GO:0005886//biological process| transport | inferred from sequence similarity|GO:0006810//biological process| transport | inferred from mutant pheno
ferred from direct assay|GO:0008361//biological process| protein amino acid phosphorylation | inferred from sequence similarity |GO:0006468//biological p
e protein import | inferred from physical interaction|GO:0045039//biological process| mitochondrial inner membrane protein import | inferred from mutant ph
0000778//cellular component| condensed nuclear chromosome kinetochore | inferred from direct assay |GO:0000778//biological process| microtubule/kine
/threonine kinase activity | inferred from direct assay |GO:0004674//biological process| protein amino acid phosphorylation | inferred from direct assay|GO:
y|GO:0006468
erred from direct assay |GO:0005886//cellular component| endoplasmic reticulum | inferred from direct assay |GO:0005783//cellular component| cytoplasm
| 35S primary transcript processing | traceable author statement |GO:0006365//biological process| rRNA modification | traceable author statement |GO:00
ay |GO:0004842//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:00
m mutant phenotype|GO:0005886//cellular component| plasma membrane | inferred from direct assay |GO:0005886//biological process| potassium ion hom
of mitotic cell cycle | inferred from genetic interaction |GO:0000082
ucleus | inferred from direct assay |GO:0005634//biological process| mRNA-nucleus export | traceable author statement|GO:0006406//biological process| m
inferred from mutant phenotype |GO:0030503//biological process| regulation of cell redox homeostasis | inferred from direct assay |GO:0030503
ological process| vacuolar acidification | traceable author statement|GO:0007035
or statement |GO:0009086//biological process| sulfate assimilation | traceable author statement |GO:0000103
activity | non-traceable author statement |GO:0004078//molecular function| biotin-[acetyl-CoA-carboxylase] ligase activity | inferred from mutant phenotyp
rom direct assay|GO:0015801
excision repair factor 3 complex | traceable author statement |GO:0000112//biological process| negative regulation of transcription from Pol II promoter, mi
y |GO:0006468
process| transcription from Pol I promoter | traceable author statement|GO:0006360
enotype|GO:0008272
ytoplasm | traceable author statement |GO:0005737//biological process| RAS protein signal transduction | traceable author statement|GO:0007265//biolog
ear mRNA splicing, via spliceosome | inferred from physical interaction |GO:0000398
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
34//biological process| re-entry into mitotic cell cycle after pheromone arrest | inferred from genetic interaction|GO:0000321//biological process| regulation
r statement|GO:0019878
omponent| nucleus | inferred from mutant phenotype |GO:0005634//biological process| response to oxidative stress | inferred from sequence similarity|GO
nt|GO:0000307//biological process| regulation of glycogen catabolism | inferred from genetic interaction|GO:0005981//biological process| regulation of gly
erred from mutant phenotype|GO:0007606//biological process| sensory perception of chemical stimulus | inferred from genetic interaction |GO:0007606
tatement|GO:0006310//biological process| double-strand break repair | traceable author statement |GO:0006302//biological process| postreplication repair
05737//biological process| signal transduction | inferred from mutant phenotype|GO:0007165//biological process| vacuolar transport | traceable author sta
al process| protein localization | inferred from genetic interaction |GO:0008104//biological process| transcription initiation from Pol II promoter | inferred from
ion pattern|GO:0000747
se ion homeostasis | inferred from genetic interaction |GO:0030026//biological process| DNA repair | inferred from mutant phenotype |GO:0006281//biolog
GO:0005622//biological process| small GTPase mediated signal transduction | traceable author statement|GO:0007264//biological process| polar budding
inferred from physical interaction |GO:0000243//biological process| nuclear mRNA splicing, via spliceosome | inferred from physical interaction|GO:00003
ss| regulation of transcription from Pol II promoter | inferred from mutant phenotype |GO:0006357//biological process| glucose metabolism | inferred from m
al process| sporulation (sensu Fungi) | traceable author statement|GO:0030437//biological process| response to stress | traceable author statement |GO:00
7136//molecular function| NAD-dependent histone deacetylase activity | inferred from direct assay |GO:0017136//cellular component| histone deacetylase
raction |GO:0030121//biological process| vesicle-mediated transport | inferred from sequence similarity|GO:0016192//biological process| vesicle-mediated
eable author statement |GO:0006189//biological process| purine ribonucleoside salvage | traceable author statement |GO:0006166//biological process| try
atement |GO:0006611//biological process| ribosomal protein-nucleus import | traceable author statement |GO:0006610//biological process| mRNA-binding
genesis | inferred from mutant phenotype|GO:0007047//biological process| O-linked glycosylation | inferred from mutant phenotype |GO:0006493//biologic
phenotype|GO:0000282
docking during exocytosis | inferred from mutant phenotype |GO:0006904//biological process| Golgi to endosome transport | inferred from genetic interacti
mbly | traceable author statement|GO:0042255//biological process| ribosomal large subunit-nucleus export | inferred from physical interaction |GO:000005
ed from genetic interaction |GO:0007047//biological process| endocytosis | inferred from genetic interaction |GO:0006897//biological process| phosphatidy
cal process| positive regulation of transcription from Pol II promoter | inferred from direct assay|GO:0045944//biological process| regulation of nitrogen utiliz
aceable author statement |GO:0006038//biological process| cytokinesis | inferred from mutant phenotype |GO:0000910
unction| transcription coactivator activity | inferred from physical interaction |GO:0003713//molecular function| transcription coactivator activity | inferred fro
005634//biological process| chromosome segregation | inferred from mutant phenotype|GO:0007059//biological process| chromosome segregation | inferre
process| cell wall organization and biogenesis | inferred from genetic interaction |GO:0007047
NA | inferred from mutant phenotype |GO:0000183
ogical process| vacuole inheritance | inferred from direct assay |GO:0000011
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
cal process| regulation of transcription from Pol II promoter | inferred from genetic interaction |GO:0006357//biological process| chromatin silencing at telom
enance | traceable author statement |GO:0000027
osynthesis | traceable author statement |GO:0006412//biological process| ribosomal large subunit assembly and maintenance | inferred from mutant pheno
) | inferred from genetic interaction|GO:0030472//biological process| microtubule nucleation | inferred from physical interaction |GO:0007020
sylation | inferred from mutant phenotype|GO:0006486
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
|GO:0005628//cellular component| spore wall (sensu Fungi) | traceable author statement |GO:0005619//cellular component| septin ring (sensu Saccharom
| inferred from direct assay |GO:0005634//biological process| vitamin B2 biosynthesis | inferred from mutant phenotype|GO:0009231
0004315//cellular component| fatty-acid synthase complex | traceable author statement|GO:0005835//biological process| protein-cofactor linkage | traceabl
rting and assembly machinery complex | inferred from direct assay |GO:0001401//biological process| mitochondrial outer membrane protein import | inferre
le author statement |GO:0006470//biological process| signal transduction during conjugation with cellular fusion | traceable author statement |GO:0000750
hyphal growth | inferred from mutant phenotype |GO:0007124//biological process| invasive growth (sensu Saccharomyces) | inferred from mutant phenoty
mponent| nucleus | inferred from direct assay|GO:0005634//biological process| zinc ion homeostasis | inferred from mutant phenotype|GO:0006882//biolog
701//molecular function| DNA binding | traceable author statement |GO:0003677//molecular function| DNA binding | inferred from physical interaction |GO:
erred from mutant phenotype |GO:0003700//molecular function| transcription factor activity | inferred from genetic interaction |GO:0003700//cellular compo
utant phenotype |GO:0001308//biological process| loss of chromatin silencing during replicative cell aging | inferred from genetic interaction |GO:0001308/
say |GO:0045141//biological process| synapsis | inferred from mutant phenotype |GO:0007129//biological process| synapsis | inferred from direct assay |G
| inferred from direct assay |GO:0005634//biological process| chromatin remodeling | traceable author statement|GO:0006338
iological process| response to drug | traceable author statement|GO:0042493//biological process| regulation of transcription from Pol II promoter | traceab
mponent| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634
enotype|GO:0015846
mutant phenotype |GO:0005886//biological process| sulfate transport | inferred from mutant phenotype|GO:0008272//biological process| sulfate transport |
phenotype |GO:0009060//biological process| mitochondrial transport | inferred from mutant phenotype |GO:0006839
nt phenotype |GO:0005946//cellular component| alpha,alpha-trehalose-phosphate synthase complex (UDP-forming) | inferred from genetic interaction |GO
statement |GO:0006526
y |GO:0005634//biological process| pantothenate biosynthesis | inferred from mutant phenotype|GO:0015940
on |GO:0000266
genesis | inferred from direct assay |GO:0007047//biological process| regulation of pH | inferred from genetic interaction |GO:0006885
ocess| chromatin assembly/disassembly | traceable author statement|GO:0006333//biological process| chromatin assembly/disassembly | inferred from dir
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
m | inferred from direct assay |GO:0005737//biological process| ATP transport | inferred from direct assay|GO:0015867//biological process| peroxisome or
mutant phenotype|GO:0009213
rred from direct assay|GO:0042144//biological process| regulation of cell redox homeostasis | traceable author statement |GO:0030503//biological process
or statement|GO:0007265//biological process| traversing start control point of mitotic cell cycle | inferred from mutant phenotype |GO:0007089//biological p
ess| negative regulation of transcription from Pol II promoter | inferred from mutant phenotype |GO:0000122
ent |GO:0006099
s| cytoskeleton organization and biogenesis | traceable author statement|GO:0007010//biological process| protein folding | traceable author statement |GO
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
assay |GO:0005737//biological process| glycolysis | traceable author statement|GO:0006096//biological process| gluconeogenesis | traceable author statem
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
:0006506//biological process| GPI anchor biosynthesis | inferred from direct assay |GO:0006506
ant phenotype|GO:0006419//biological process| alanyl-tRNA aminoacylation | inferred from genetic interaction |GO:0006419
lytic core (sensu Eukarya) | inferred from mutant phenotype|GO:0005754//cellular component| soluble fraction | inferred from direct assay |GO:0005625//b
etic interaction |GO:0004175//cellular component| proteasome complex (sensu Eukarya) | inferred from physical interaction|GO:0000502//biological proces
al process| aerobic respiration | inferred from mutant phenotype|GO:0009060//biological process| carbohydrate metabolism | inferred from mutant phenoty
rom mutant phenotype |GO:0007026
hionine biosynthesis | inferred from mutant phenotype|GO:0009086//biological process| DNA replication and chromosome cycle | inferred from mutant phe
phenotype |GO:0006491
author statement|GO:0006658//biological process| phosphatidylglycerol biosynthesis | traceable author statement |GO:0006655
6406//biological process| mRNA-nucleus export | inferred from genetic interaction |GO:0006406//biological process| RNA elongation from Pol II promoter |
gical process| asparagine catabolism | inferred from genetic interaction |GO:0006530
sembly | inferred from direct assay|GO:0042254//biological process| protein biosynthesis | traceable author statement |GO:0006412//biological process| rib
phenotype|GO:0006897
O:0019856//biological process| phospholipid biosynthesis | traceable author statement |GO:0008654//biological process| CTP biosynthesis | traceable auth
l process| positive regulation of transcription from Pol II promoter | inferred from mutant phenotype|GO:0045944//biological process| multidrug transport | i
ponent| plasma membrane | inferred from direct assay|GO:0005886//biological process| sodium ion transport | inferred from mutant phenotype|GO:00068
iological process| histone dephosphorylation | inferred from direct assay|GO:0016576//biological process| protein amino acid dephosphorylation | inferred
statement |GO:0006144//biological process| purine base metabolism | inferred from mutant phenotype |GO:0006144
phenotype|GO:0015892
nt |GO:0000316
GO:0008308//cellular component| mitochondrial outer membrane | inferred from direct assay|GO:0005741//cellular component| mitochondrion | inferred from
peripheral to membrane of membrane fraction | inferred from direct assay |GO:0000300//biological process| protein-vacuolar targeting | inferred from muta
n catabolism | inferred from direct assay |GO:0006511
rom direct assay|GO:0015959
0005634//biological process| entry into meiosis | inferred from mutant phenotype|GO:0042061//biological process| negative regulation of transcription, mit
ent|GO:0019266//biological process| nitrogen metabolism | non-traceable author statement |GO:0006807//biological process| glutamate metabolism | non-
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
erred from mutant phenotype|GO:0006457
cal process| N-linked glycosylation | traceable author statement|GO:0006487//biological process| N-linked glycosylation | inferred from physical interaction
nce similarity|GO:0015893//biological process| drug transport | inferred from expression pattern |GO:0015893
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
onent| mitochondrion | inferred from mutant phenotype |GO:0005739//biological process| aerobic respiration | inferred from mutant phenotype|GO:000906
mating-type cassette (sensu Fungi) | traceable author statement|GO:0030466//biological process| DNA replication initiation | traceable author statement |G
ar component| alpha DNA polymerase:primase complex | inferred from direct assay |GO:0005658//cellular component| nuclear chromatin | traceable auth
ment complex | traceable author statement |GO:0000243//cellular component| commitment complex | inferred from physical interaction |GO:0000243//biolo
longation from Pol II promoter | inferred from physical interaction|GO:0006368
eraction |GO:0005634//cellular component| nucleus | inferred from direct assay |GO:0005634//cellular component| proteasome complex (sensu Eukarya) |
ed from direct assay |GO:0016573//biological process| regulation of transcription from Pol II promoter | inferred from physical interaction |GO:0006357
mutant phenotype|GO:0016050//biological process| vesicle organization and biogenesis | inferred from genetic interaction |GO:0016050//biological proces
bud tip | inferred from direct assay |GO:0005934//cellular component| plasma membrane | inferred from direct assay |GO:0005886//cellular component| so
GO:0005739//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological process| response to antibiotic | inferred from direct assa
cal process| vesicle organization and biogenesis | inferred from physical interaction|GO:0016050//biological process| vesicle organization and biogenesis
action |GO:0030127//cellular component| endoplasmic reticulum | inferred from direct assay |GO:0005783//cellular component| peripheral to membrane of
able author statement|GO:0006412
k repair via single-strand annealing | inferred from mutant phenotype |GO:0045002//biological process| DNA recombinase assembly | traceable author sta
nt| DNA-directed RNA polymerase II, core complex | traceable author statement |GO:0005665//biological process| transcription from Pol III promoter | trac
cellular component| nuclear pore | inferred from direct assay |GO:0005643//biological process| mRNA-nucleus export | inferred from mutant phenotype|GO
atement |GO:0006611//biological process| ribosomal protein-nucleus import | traceable author statement |GO:0006610//biological process| mRNA-binding
atement |GO:0006566//biological process| methionine metabolism | traceable author statement |GO:0006555//biological process| isoleucine metabolism |
ss| ER to Golgi transport | traceable author statement |GO:0006888
ochondrial matrix | non-traceable author statement|GO:0005759//biological process| cell wall organization and biogenesis | inferred from mutant phenotyp
nesis | inferred from mutant phenotype |GO:0006998//biological process| protein-nucleus export | traceable author statement |GO:0006611//biological proc
GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| translational initiation | traceable author statemen
ct assay |GO:0007323
atin | inferred from physical interaction|GO:0005724//biological process| DNA replication | inferred from physical interaction|GO:0006260//biological proces
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
m direct assay |GO:0015741
tic interaction|GO:0006817
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
005656//biological process| pre-replicative complex formation and maintenance | traceable author statement|GO:0006267
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
nt |GO:0006298//biological process| nucleotide-excision repair | traceable author statement |GO:0006289//biological process| base-excision repair | tracea
ess| protein sumoylation | inferred from direct assay |GO:0016925
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
aceable author statement |GO:0005784//biological process| cotranslational membrane targeting | traceable author statement|GO:0006613
from mutant phenotype|GO:0006807
5634//biological process| pantothenate biosynthesis | inferred from mutant phenotype|GO:0015940//biological process| spermidine biosynthesis | inferred
unction| inorganic phosphate transporter activity | inferred from direct assay |GO:0005315//cellular component| integral to plasma membrane | inferred from
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
atement |GO:0005768//biological process| ferric-enterobactin transport | inferred from mutant phenotype|GO:0015685
say |GO:0005886//cellular component| vacuolar membrane | inferred from direct assay |GO:0005774//cellular component| Golgi membrane | inferred from
otein biosynthesis | traceable author statement |GO:0006412
cess| bud growth | inferred from genetic interaction |GO:0007117//biological process| protein amino acid phosphorylation | inferred from sequence similarit
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
om genetic interaction |GO:0000082
mutant phenotype|GO:0007606//biological process| sensory perception of chemical stimulus | inferred from genetic interaction |GO:0007606
etabolism | traceable author statement|GO:0019674
n| calcium-transporting ATPase activity | inferred from direct assay |GO:0005388//cellular component| Golgi apparatus | traceable author statement|GO:00
|GO:0005634//biological process| homoserine biosynthesis | traceable author statement|GO:0009090//biological process| threonine metabolism | traceable
6605//biological process| loss of chromatin silencing during replicative cell aging | inferred from mutant phenotype |GO:0001308//biological process| loss o
interaction |GO:0006066
cal process| purine base metabolism | inferred from mutant phenotype|GO:0006144
ess| RAS protein signal transduction | inferred from genetic interaction |GO:0007265//biological process| pseudohyphal growth | inferred from genetic inter
n complex (sensu Saccharomyces) | inferred from physical interaction |GO:0000928//biological process| mitotic spindle assembly (sensu Fungi) | inferred
assay |GO:0005625//biological process| glutamate biosynthesis | inferred from mutant phenotype|GO:0006537//biological process| glutamate biosynthesi
component| nucleolus | inferred from direct assay |GO:0005730//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process
GO:0005886//cellular component| vacuolar membrane | inferred from mutant phenotype |GO:0005774//biological process| polyamine transport | inferred f
anscription from Pol II promoter | inferred from direct assay|GO:0000122
bic respiration | inferred from mutant phenotype |GO:0009060
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
cal process| regulation of transcription from Pol II promoter | inferred from mutant phenotype|GO:0006357
osaccharide-lipid intermediate assembly | inferred from mutant phenotype|GO:0006490//biological process| dolichol-linked oligosaccharide biosynthesis | t
ce | inferred from physical interaction |GO:0008151
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
ess| aerobic respiration | inferred from mutant phenotype|GO:0009060//biological process| ubiquinone metabolism | inferred from mutant phenotype |GO:0
erred from genetic interaction |GO:0009272
| traceable author statement |GO:0006270//biological process| DNA replication, synthesis of RNA primer | traceable author statement |GO:0006269
m | inferred from direct assay|GO:0030433
omyces) | traceable author statement|GO:0007103//biological process| mitotic anaphase | traceable author statement |GO:0000090
est | traceable author statement|GO:0007050//biological process| protein amino acid phosphorylation | traceable author statement |GO:0006468//biologica
ed from mutant phenotype |GO:0006461
ement|GO:0009073
g | traceable author statement |GO:0003677//cellular component| nucleus | inferred from curator|GO:0005634//biological process| regulation of glucose im
ferred from genetic interaction|GO:0015700
inferred from mutant phenotype|GO:0006506
biological process| protein-vacuolar targeting | inferred from mutant phenotype |GO:0006623
ay |GO:0030042//biological process| actin filament organization | inferred from physical interaction |GO:0007015//biological process| actin filament organiz
yl-methionine acetylation | inferred from mutant phenotype|GO:0017196//biological process| N-terminal peptidyl-methionine acetylation | inferred from gene
e|GO:0030437//biological process| sporulation (sensu Fungi) | inferred from direct assay |GO:0030437//biological process| vacuole organization and bioge
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
ction |GO:0016532//cellular component| cytosol | inferred from direct assay|GO:0005829//cellular component| mitochondrial inner membrane | inferred from
protein amino acid glycosylation | inferred from mutant phenotype |GO:0006486
protein-vacuolar targeting | inferred from physical interaction|GO:0006623//biological process| protein-vacuolar targeting | inferred from mutant phenotype
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
n |GO:0006644//biological process| vacuole inheritance | inferred from mutant phenotype |GO:0000011
al process| sporulation (sensu Fungi) | traceable author statement|GO:0030437//biological process| response to stress | traceable author statement |GO:0
GO:0007131//biological process| DNA repair | inferred from mutant phenotype |GO:0006281
s | inferred from direct assay |GO:0005634//biological process| proline biosynthesis | traceable author statement|GO:0006561//biological process| proline b
lar component| mitochondrion | inferred from direct assay |GO:0005739//biological process| ion transport | inferred from sequence similarity|GO:0006811/
gical process| mRNA polyadenylation | inferred from genetic interaction |GO:0006378
atement|GO:0030472//biological process| mitotic anaphase B | inferred from mutant phenotype |GO:0000092//biological process| mitotic sister chromatid
red from direct assay|GO:0005829//biological process| carbohydrate metabolism | inferred from mutant phenotype|GO:0005975//biological process| carbo
ogical process| response to oxidative stress | inferred from mutant phenotype|GO:0006979//biological process| response to oxidative stress | inferred from
0005634//biological process| processing of 20S pre-rRNA | inferred from physical interaction|GO:0030490//biological process| processing of 20S pre-rRNA
m mutant phenotype |GO:0006348//biological process| chromatin silencing at ribosomal DNA | inferred from mutant phenotype |GO:0000183
al process| sporulation (sensu Fungi) | traceable author statement|GO:0030437//biological process| response to stress | traceable author statement |GO:00
membrane | inferred from mutant phenotype |GO:0005886//biological process| S-methylmethionine transport | inferred from mutant phenotype|GO:00158
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
or statement |GO:0005871//cellular component| spindle pole body | inferred from direct assay |GO:0005816//biological process| microtubule nucleation | in
ent| cytoplasm | inferred from direct assay |GO:0005737//biological process| transport | inferred from sequence similarity|GO:0006810
le author statement|GO:0006413
9//biological process| mitochondrial electron transport, succinate to ubiquinone | traceable author statement|GO:0006121//biological process| tricarboxylic a
process| protein amino acid phosphorylation | inferred from sequence similarity |GO:0006468//biological process| signal transduction during conjugation w
able author statement|GO:0006164//biological process| purine base metabolism | traceable author statement |GO:0006144//biological process| purine base
rred from direct assay|GO:0000118//biological process| protein amino acid deacetylation | inferred from direct assay|GO:0006476//biological process| regu
n |GO:0000780//cellular component| condensed nuclear chromosome kinetochore | inferred from physical interaction |GO:0000778//cellular component| co
O:0046084//biological process| purine nucleotide biosynthesis | traceable author statement |GO:0006164
red from mutant phenotype|GO:0006979
m sequence similarity|GO:0007264//biological process| cell wall organization and biogenesis | inferred from sequence similarity |GO:0007047//biological pr
2//biological process| regulation of transcription from Pol II promoter | inferred from mutant phenotype |GO:0006357
000134//biological process| Rho protein signal transduction | inferred from physical interaction|GO:0007266//biological process| Rho protein signal transdu
| 35S primary transcript processing | traceable author statement |GO:0006365//biological process| rRNA modification | traceable author statement |GO:00
/threonine kinase activity | inferred from direct assay |GO:0004674//biological process| protein amino acid phosphorylation | inferred from direct assay|GO:
polymerization | traceable author statement|GO:0008154//biological process| polar budding | inferred from mutant phenotype |GO:0007121//biological proc
notype |GO:0030489
tic interaction|GO:0006817
|GO:0006270//biological process| DNA unwinding | inferred from mutant phenotype |GO:0006268
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
able author statement|GO:0006412//biological process| ribosomal large subunit assembly and maintenance | inferred from mutant phenotype |GO:000002
genesis | inferred from mutant phenotype |GO:0007033//biological process| phosphatidylethanolamine biosynthesis | inferred from mutant phenotype |GO
GO:0000162//biological process| tryptophan biosynthesis | inferred from mutant phenotype |GO:0000162
nt phenotype|GO:0030437//biological process| chromatin remodeling | inferred from physical interaction |GO:0006338
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
| inferred from mutant phenotype |GO:0006357//biological process| chromatin remodeling | inferred from physical interaction |GO:0006338
ological process| vacuolar acidification | traceable author statement|GO:0007035
ed from mutant phenotype |GO:0006039//biological process| conjugation with cellular fusion | inferred from mutant phenotype |GO:0000747
protein-nucleus import | inferred from direct assay |GO:0006606
sing | inferred from mutant phenotype|GO:0006365//biological process| ribosomal large subunit assembly and maintenance | inferred from mutant phenoty
ed from genetic interaction|GO:0006486
anscription | inferred from genetic interaction |GO:0006350
| traceable author statement|GO:0007103
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
uthor statement |GO:0005884//cellular component| SWR1 complex | inferred from physical interaction |GO:0000812//cellular component| contractile ring (s
able author statement|GO:0006412
enetic interaction |GO:0008610//biological process| N-linked glycosylation | inferred from mutant phenotype |GO:0006487
inferred from physical interaction|GO:0006402//biological process| 35S primary transcript processing | traceable author statement |GO:0006365
ilarity|GO:0015937
pe |GO:0042273//biological process| mRNA catabolism | inferred from mutant phenotype |GO:0006402//biological process| rRNA processing | inferred from
uthor statement|GO:0006486
tatement|GO:0005789//biological process| SRP-dependent cotranslational membrane targeting, translocation | traceable author statement|GO:0006616
inferred from mutant phenotype |GO:0007015//biological process| response to stress | traceable author statement |GO:0006950//biological process| endoc
milarity|GO:0030001//biological process| metal ion transport | inferred from direct assay |GO:0030001//biological process| cytochrome c oxidase biogenes
om physical interaction|GO:0007266//biological process| polar budding | traceable author statement |GO:0007121//biological process| actin filament organi
c stress | inferred from mutant phenotype |GO:0006970//biological process| cytokinesis | inferred from mutant phenotype |GO:0000910
ct assay |GO:0005634//biological process| response to stress | inferred from mutant phenotype|GO:0006950//biological process| ubiquitin-dependent prote
n |GO:0000780//cellular component| condensed nuclear chromosome, pericentric region | inferred from direct assay |GO:0000780//cellular component| co
cidification | traceable author statement|GO:0007035//biological process| polyphosphate metabolism | inferred from mutant phenotype |GO:0006797
egulation of translational fidelity | inferred from mutant phenotype |GO:0006450//biological process| protein biosynthesis | traceable author statement |GO:
ial budding | traceable author statement|GO:0007120//biological process| bud site selection | traceable author statement |GO:0000282
t phenotype |GO:0007165//biological process| pseudohyphal growth | inferred from mutant phenotype |GO:0007124
ological process| vacuolar acidification | traceable author statement|GO:0007035
d site selection | inferred from genetic interaction |GO:0000282
7136//molecular function| NAD-dependent histone deacetylase activity | inferred from direct assay |GO:0017136//cellular component| nucleus | inferred fro
inferred from mutant phenotype|GO:0008033
ane | inferred from sequence similarity|GO:0016020//cellular component| mitochondrion | inferred from direct assay |GO:0005739//biological process| trans
e activity | inferred from mutant phenotype |GO:0003989//cellular component| cytosol | traceable author statement|GO:0005829//cellular component| endo
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
enotype |GO:0006897//biological process| actin cortical patch assembly | inferred from mutant phenotype |GO:0000147
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
spliceosome for second transesterification step | traceable author statement|GO:0000358
milarity |GO:0006635
| inferred from mutant phenotype|GO:0006970//biological process| establishment of cell polarity (sensu Saccharomyces) | inferred from genetic interaction
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
asm | inferred from direct assay |GO:0005737//biological process| phenylalanyl-tRNA aminoacylation | traceable author statement|GO:0006432
ynthesis | traceable author statement|GO:0006412
phenotype|GO:0007015
ane | inferred from sequence similarity|GO:0016020//biological process| transport | inferred from sequence similarity|GO:0006810
direct assay |GO:0005262//molecular function| voltage-gated ion channel activity | inferred from direct assay |GO:0005244//molecular function| calcium act
on|GO:0005856//cellular component| cytoskeleton | inferred from mutant phenotype |GO:0005856//cellular component| ER-Golgi intermediate compartme
m direct assay |GO:0005634//biological process| processing of 20S pre-rRNA | inferred from physical interaction|GO:0030490//biological process| 35S prim
ed from physical interaction|GO:0007264//biological process| pseudohyphal growth | inferred from physical interaction |GO:0007124//biological process| is
direct assay |GO:0005262//molecular function| voltage-gated ion channel activity | inferred from direct assay |GO:0005244//molecular function| calcium act
outer membrane | inferred from direct assay |GO:0005741//cellular component| nuclear inner membrane | traceable author statement |GO:0005637//cellu
erred from sequence similarity|GO:0005886//biological process| hexose transport | inferred from genetic interaction|GO:0008645
mponent| nuclear membrane | inferred from direct assay|GO:0005635//biological process| protein-nucleus export | inferred from physical interaction|GO:00
ocess| protein amino acid phosphorylation | inferred from direct assay|GO:0006468//biological process| DNA-dependent DNA replication | traceable autho
d from mutant phenotype |GO:0005946//cellular component| alpha,alpha-trehalose-phosphate synthase complex (UDP-forming) | inferred from genetic inte
utant phenotype|GO:0006882//biological process| zinc ion transport | inferred from sequence similarity |GO:0006829//biological process| zinc ion transport
0007070//biological process| transcription initiation from Pol II promoter | traceable author statement |GO:0006367
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
u Fungi) | inferred from direct assay|GO:0030479//biological process| polar budding | inferred from mutant phenotype|GO:0007121//biological process| cel
| inferred from mutant phenotype|GO:0030433//biological process| vesicle organization and biogenesis | inferred from mutant phenotype |GO:0016050//bi
regulation of exit from mitosis | inferred from physical interaction|GO:0007096//biological process| regulation of exit from mitosis | inferred from genetic inte
GO:0005737//biological process| asparaginyl-tRNA aminoacylation | inferred from sequence similarity|GO:0006421//biological process| asparaginyl-tRNA a
//biological process| tRNA processing | inferred from genetic interaction |GO:0008033
nferred from direct assay |GO:0005737//cellular component| incipient bud site | inferred from direct assay |GO:0000131//biological process| cell wall organ
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
from mutant phenotype |GO:0006499//biological process| N-terminal protein myristoylation | inferred from genetic interaction |GO:0006499
s| cytoskeleton organization and biogenesis | traceable author statement|GO:0007010//biological process| protein folding | traceable author statement |GO
utant phenotype |GO:0005634//biological process| protein biosynthesis | traceable author statement|GO:0006412
/threonine kinase activity | inferred from direct assay |GO:0004674//biological process| protein amino acid phosphorylation | inferred from direct assay|GO:
0005624//biological process| secretory pathway | inferred from physical interaction|GO:0045045//biological process| secretory pathway | inferred from gen
|GO:0000778//cellular component| kinetochore | inferred from direct assay |GO:0000776//biological process| mitotic spindle checkpoint | traceable author
ctivity, rotational mechanism | inferred from mutant phenotype |GO:0046933//cellular component| proton-transporting ATP synthase, central stalk (sensu E
om sequence similarity |GO:0005886//cellular component| plasma membrane | inferred from mutant phenotype |GO:0005886//biological process| ammoni
of transcription from Pol II promoter | inferred from mutant phenotype|GO:0045944//biological process| response to cold | inferred from mutant phenotype
o stress | traceable author statement |GO:0006950//biological process| phospholipid metabolism | inferred from mutant phenotype |GO:0006644//biologica
large subunit assembly and maintenance | inferred from mutant phenotype |GO:0000027//biological process| ribosomal large subunit assembly and maint
nesis | traceable author statement|GO:0007031//biological process| protein-peroxisome targeting | inferred from mutant phenotype |GO:0006625
able author statement|GO:0006412
deacetylation | inferred from direct assay|GO:0016575
u Eukarya) | inferred from physical interaction|GO:0005830//biological process| translational elongation | inferred from genetic interaction|GO:0006414
ocess| cytidine catabolism | inferred from direct assay |GO:0006216
ne | inferred from direct assay |GO:0005789//cellular component| vacuolar membrane | inferred from direct assay |GO:0005774//biological process| carniti
m direct assay|GO:0005783//biological process| retrograde transport, Golgi to ER | inferred from mutant phenotype|GO:0006890//biological process| retrog
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
atrix protein import | traceable author statement|GO:0030150
uthor statement |GO:0000144//biological process| polar budding | traceable author statement|GO:0007121//biological process| axial budding | traceable au
rom Pol II promoter | inferred from mutant phenotype |GO:0006367
/threonine kinase activity | inferred from direct assay |GO:0004674//biological process| protein amino acid phosphorylation | inferred from direct assay|GO:
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
biological process| glucose metabolism | inferred from sequence similarity |GO:0006006
hor statement|GO:0016020//cellular component| Golgi cis-face | traceable author statement |GO:0005801//cellular component| mannosyltransferase comp
able author statement|GO:0006412
author statement |GO:0006207//biological process| 'de novo' IMP biosynthesis | traceable author statement |GO:0006189//biological process| purine ribonu
|GO:0000002
tant phenotype |GO:0007096//biological process| nucleolus organization and biogenesis | inferred from mutant phenotype |GO:0007000//biological proces
ss| tRNA splicing | inferred from mutant phenotype |GO:0006388//biological process| tRNA splicing | inferred from direct assay |GO:0006388
nferred from sequence similarity |GO:0005975
pe|GO:0006888
statement |GO:0006012
odeling | traceable author statement|GO:0006338
GO:0005737//biological process| phosphatidic acid biosynthesis | inferred from mutant phenotype|GO:0006654
ay |GO:0005783//biological process| response to glucose stimulus | inferred from mutant phenotype|GO:0009749//biological process| endocytosis | inferre
r|GO:0007130//biological process| meiosis | inferred from mutant phenotype |GO:0007126
gical process| SRP-dependent cotranslational membrane targeting, translocation | traceable author statement |GO:0006616//biological process| karyogam
al process| ubiquitin-dependent protein catabolism | traceable author statement|GO:0006511
pe|GO:0006972//biological process| hyperosmotic response | inferred from genetic interaction |GO:0006972//biological process| invasive growth (sensu Sa
process| pyruvate metabolism | traceable author statement |GO:0006090
phenotype|GO:0006826
electron transport, ubiquinol to cytochrome c | inferred from direct assay |GO:0006122
olism | traceable author statement |GO:0006006
assay|GO:0005886//biological process| water transport | inferred from mutant phenotype|GO:0006833
l process| meiosis | inferred from mutant phenotype|GO:0007126//biological process| meiosis | inferred from genetic interaction |GO:0007126//biological p
cal process| pseudouridine synthesis | inferred from direct assay |GO:0001522
6897//biological process| signal transduction during conjugation with cellular fusion | inferred from genetic interaction |GO:0000750
ion|GO:0007124//biological process| G2-specific transcription in mitotic cell cycle | inferred from physical interaction |GO:0000116//biological process| G2-
ption corepressor activity | traceable author statement |GO:0003714//cellular component| bud neck | inferred from direct assay|GO:0005935//cellular comp
se to dessication | inferred from sequence similarity |GO:0009269//biological process| response to dessication | inferred from expression pattern |GO:0009
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
mponent| DNA-directed RNA polymerase II, holoenzyme | inferred from direct assay|GO:0016591//cellular component| transcription elongation factor comp
bunit assembly and maintenance | inferred from mutant phenotype |GO:0000027
ogical process| protein amino acid phosphorylation | inferred from direct assay |GO:0006468
le author statement|GO:0006413
hesis | inferred from direct assay|GO:0006656
acuole (sensu Fungi) | inferred from direct assay|GO:0000324//biological process| zinc ion homeostasis | inferred from mutant phenotype|GO:0006882//bio
cal process| MAPKKK cascade | inferred from mutant phenotype|GO:0000165
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
notype|GO:0009743//biological process| response to carbohydrate stimulus | inferred from direct assay |GO:0009743//biological process| regulation of tra
om direct assay |GO:0000066
embrane | inferred from direct assay|GO:0005628//biological process| spore wall assembly (sensu Fungi) | inferred from mutant phenotype|GO:0030476//b
notype|GO:0009231
ng | traceable author statement|GO:0045003//biological process| double-strand break repair via single-strand annealing | inferred from genetic interaction
able author statement|GO:0006412
30847//biological process| transcription termination from Pol II promoter, poly(A) coupled | inferred from physical interaction |GO:0030846
on|GO:0000722
O:0006301//biological process| mismatch repair | non-traceable author statement |GO:0006298//biological process| nucleotide-excision repair | traceable a
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
egulation of cell size | inferred from mutant phenotype|GO:0008361//biological process| regulation of cell size | inferred from genetic interaction |GO:00083
ss| asparagine biosynthesis | traceable author statement|GO:0006529
otype|GO:0007121//biological process| axial budding | inferred from mutant phenotype |GO:0007120//biological process| endocytosis | inferred from muta
m membrane | inferred from direct assay|GO:0030176//biological process| protein-ER retention | inferred from genetic interaction|GO:0006621
ssay |GO:0005634//biological process| transcription from Pol I promoter | traceable author statement|GO:0006360
logical process| Golgi to plasma membrane transport | inferred from direct assay |GO:0006893//biological process| intracellular protein transport | inferred
76//biological process| mitochondrial genome maintenance | inferred from mutant phenotype |GO:0000002
ic) | inferred from direct assay |GO:0042800//cellular component| COMPASS complex | inferred from physical interaction|GO:0048188//cellular componen
romoter | inferred from direct assay |GO:0006357
atement |GO:0006611//biological process| ribosomal protein-nucleus import | traceable author statement |GO:0006610//biological process| mRNA-binding
asma membrane | inferred from mutant phenotype |GO:0005886//biological process| S-adenosylmethionine transport | inferred from mutant phenotype|GO
atid cohesion | inferred from mutant phenotype |GO:0007064
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
phenotype|GO:0008610//biological process| lipid biosynthesis | inferred from direct assay |GO:0008610//biological process| mitochondrial membrane orga
ed from physical interaction|GO:0006461//biological process| protein complex assembly | inferred from mutant phenotype |GO:0006461//biological process
le author statement|GO:0006413
05819//cellular component| spindle pole body | inferred from direct assay |GO:0005816//cellular component| condensed nuclear chromosome kinetochore
ant phenotype|GO:0000290//biological process| mRNA catabolism, nonsense-mediated | inferred from mutant phenotype |GO:0000184
coside:hydrogen symporter activity | inferred from direct assay |GO:0005352//cellular component| membrane fraction | traceable author statement|GO:000
ial budding | traceable author statement|GO:0007120//biological process| bud site selection | traceable author statement |GO:0000282
rred from mutant phenotype|GO:0045449//biological process| regulation of transcription | inferred from genetic interaction |GO:0045449//biological proces
nt|GO:0006696
physical interaction |GO:0000502//cellular component| proteasome complex (sensu Eukarya) | inferred from direct assay |GO:0000502//biological process
odeling | traceable author statement|GO:0006338
6//biological process| allantoin catabolism | inferred from mutant phenotype |GO:0000256//biological process| allantoin catabolism | inferred from genetic i
assay|GO:0006139
rect assay|GO:0006366
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
atement |GO:0006611//biological process| ribosomal protein-nucleus import | traceable author statement |GO:0006610//biological process| mRNA-binding
process| mitochondrial inner membrane protein import | inferred from mutant phenotype |GO:0045039
GO:0045143//biological process| homologous chromosome segregation | inferred from mutant phenotype |GO:0045143//biological process| meiotic chrom
uthor statement |GO:0005353//cellular component| plasma membrane | inferred from sequence similarity|GO:0005886//biological process| hexose transpo
inferred from curator|GO:0005634//biological process| positive regulation of transcription from Pol II promoter | inferred from sequence similarity|GO:0045
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
ceable author statement |GO:0006491//biological process| mannan metabolism | traceable author statement |GO:0006080//biological process| cell wall ma
ement |GO:0007034//biological process| protein-vacuolar targeting | traceable author statement |GO:0006623//biological process| protein amino acid phosp
ent |GO:0006893
m membrane | inferred from direct assay|GO:0005789//biological process| ER-associated protein catabolism | traceable author statement|GO:0030433//bi
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
targeting | inferred from mutant phenotype|GO:0045047
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
teraction |GO:0007094
ess| response to cold | inferred from mutant phenotype |GO:0009409//biological process| response to cold | inferred from expression pattern |GO:0009409
me organization and biogenesis | inferred from direct assay |GO:0007031
ss| tRNA splicing | inferred from mutant phenotype |GO:0006388//biological process| tRNA splicing | inferred from direct assay |GO:0006388
0005634//biological process| transcription | inferred from physical interaction|GO:0006350//biological process| transcription | inferred from mutant phenotyp
050//biological process| signal transduction during conjugation with cellular fusion | traceable author statement |GO:0000750//biological process| signal tra
assay |GO:0005737//biological process| glycolysis | traceable author statement|GO:0006096//biological process| gluconeogenesis | traceable author state
n biosynthesis | traceable author statement|GO:0006412
response to oxidative stress | traceable author statement |GO:0006979//biological process| transcription | traceable author statement |GO:0006350
bic respiration | inferred from mutant phenotype |GO:0009060
uthor statement|GO:0007232//biological process| pseudohyphal growth | inferred from mutant phenotype |GO:0007124
y|GO:0030479//biological process| microtubule-based process | inferred from physical interaction|GO:0007017//biological process| actin filament organiza
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
ype|GO:0009060//biological process| protein biosynthesis | inferred from mutant phenotype |GO:0006412
/cellular component| nucleus | inferred from physical interaction |GO:0005634//cellular component| nuclear chromosome, telomeric region | inferred from d
ugation with cellular fusion | inferred from mutant phenotype |GO:0000747
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
| traceable author statement|GO:0042255//biological process| mRNA catabolism | inferred from physical interaction |GO:0006402//biological process| 35S
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
9//cellular component| mRNA cleavage and polyadenylation specificity factor complex | traceable author statement |GO:0005847//biological process| mRN
30508//cellular component| intracellular | traceable author statement|GO:0005622//biological process| response to oxidative stress | inferred from mutant p
small nucleolar ribonucleoprotein complex | inferred from physical interaction |GO:0005732//biological process| processing of 20S pre-rRNA | inferred from
one-carbon compound metabolism | inferred from mutant phenotype|GO:0006730//biological process| one-carbon compound metabolism | inferred from g
mutant phenotype |GO:0006508//biological process| replicative cell aging | inferred from mutant phenotype |GO:0001302
cal process| vitamin B2 biosynthesis | inferred from mutant phenotype|GO:0009231
ferred from mutant phenotype|GO:0000117
nferred from direct assay |GO:0005634//cellular component| vacuolar membrane (sensu Fungi) | inferred from direct assay |GO:0000329//biological proces
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
able author statement|GO:0006412//biological process| ribosomal large subunit assembly and maintenance | inferred from mutant phenotype |GO:000002
genesis | inferred from mutant phenotype|GO:0007047//biological process| O-linked glycosylation | inferred from mutant phenotype |GO:0006493//biologic
biological process| lipid transport | inferred from genetic interaction |GO:0006869//biological process| lipid metabolism | inferred from mutant phenotype |G
ferred from curator |GO:0000784//biological process| chromatin silencing at telomere | inferred from direct assay|GO:0006348
one-carbon compound metabolism | inferred from mutant phenotype|GO:0006730//biological process| one-carbon compound metabolism | inferred from g
m mutant phenotype |GO:0004314//molecular function| [acyl-carrier protein] S-acetyltransferase activity | inferred from mutant phenotype |GO:0004313//ce
bolism | traceable author statement|GO:0006103//biological process| tricarboxylic acid cycle | traceable author statement |GO:0006099
ation | inferred from mutant phenotype |GO:0006448
O:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| D-xylose metabolism | inferred from direct assay|G
phenotype |GO:0008053//biological process| mitochondrial fusion | inferred from genetic interaction |GO:0008053//biological process| transport | inferred f
nt phenotype|GO:0006730
elity | inferred from mutant phenotype|GO:0006450//biological process| protein biosynthesis | traceable author statement |GO:0006412
om genetic interaction|GO:0006457
om direct assay |GO:0005737//biological process| protein biosynthesis | traceable author statement|GO:0006412
tion|GO:0007017//biological process| microtubule-based process | inferred from mutant phenotype |GO:0007017
l process| alpha-tubulin folding | inferred from physical interaction|GO:0007024//biological process| alpha-tubulin folding | inferred from mutant phenotype
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
06906//biological process| intra-Golgi transport | traceable author statement |GO:0006891
nt| DNA-directed RNA polymerase II, core complex | traceable author statement |GO:0005665//biological process| transcription from Pol III promoter | trac
phenotype|GO:0006890
54//biological process| rRNA processing | inferred from mutant phenotype |GO:0006364
ess| polar budding | inferred from mutant phenotype|GO:0007121//biological process| vesicle fusion | traceable author statement |GO:0006906//biological
d from direct assay |GO:0006366//biological process| chromatin remodeling | inferred from direct assay |GO:0006338//biological process| DNA repair | infe
able author statement|GO:0006412
425//molecular function| anthranilate synthase activity | inferred from direct assay |GO:0004049//cellular component| cytoplasm | inferred from direct assay
osynthesis | traceable author statement |GO:0006412
from direct assay |GO:0005677//cellular component| nuclear telomere cap complex | inferred from direct assay |GO:0000783//biological process| chromat
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
ble author statement|GO:0007005//biological process| iron ion homeostasis | inferred from direct assay |GO:0006879
atement |GO:0006611//biological process| ribosomal protein-nucleus import | traceable author statement |GO:0006610//biological process| mRNA-binding
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
rred from mutant phenotype|GO:0030437//biological process| response to stress | inferred from mutant phenotype |GO:0006950//biological process| respo
erred from direct assay |GO:0000300//biological process| intra-Golgi transport | inferred from physical interaction|GO:0006891//biological process| intra-G
|GO:0005628//cellular component| spore wall (sensu Fungi) | traceable author statement |GO:0005619//cellular component| septin ring (sensu Saccharom
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
rom mutant phenotype|GO:0006807//biological process| proteolysis and peptidolysis | traceable author statement |GO:0006508//biological process| proteo
iological process| ribosome assembly | inferred from mutant phenotype|GO:0042255//biological process| rRNA processing | inferred from genetic interactio
hreonine metabolism | traceable author statement |GO:0006566
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
n | inferred from sequence similarity|GO:0006476//biological process| regulation of transcription, DNA-dependent | inferred from sequence similarity |GO:0
able author statement|GO:0006412
06888//biological process| protein complex assembly | inferred from direct assay |GO:0006461
us | inferred from direct assay |GO:0005634//biological process| establishment and/or maintenance of cell polarity (sensu Saccharomyces) | inferred from
ponent| vacuole | inferred from mutant phenotype|GO:0005773//biological process| neutral amino acid transport | inferred from mutant phenotype|GO:0015
raction |GO:0030121//biological process| vesicle-mediated transport | inferred from sequence similarity|GO:0016192//biological process| vesicle-mediated
of spindle pole body | inferred from direct assay |GO:0005823//cellular component| cytoplasm | traceable author statement |GO:0005737//cellular compon
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
process| transcription from Pol I promoter | traceable author statement|GO:0006360
mutant phenotype |GO:0015893
able author statement|GO:0005622//biological process| small GTPase mediated signal transduction | inferred from physical interaction|GO:0007264//biolo
| ubiquitin-dependent protein catabolism | inferred from mutant phenotype|GO:0006511//biological process| protein complex assembly | inferred from phys
r | inferred from mutant phenotype |GO:0006281
cal process| tubulin folding | inferred from sequence similarity|GO:0007021//biological process| tubulin folding | inferred from mutant phenotype |GO:00070
interaction |GO:0040020//biological process| protein amino acid phosphorylation | inferred from sequence similarity |GO:0006468
process| magnesium ion transport | inferred from direct assay|GO:0015693//biological process| di-, tri-valent inorganic cation transport | inferred from sequ
al matrix protein import | inferred from physical interaction|GO:0030150//biological process| mitochondrial matrix protein import | inferred from mutant phen
ical process| regulation of DNA replication | inferred from genetic interaction |GO:0006275//biological process| DNA replication | inferred from mutant phen
ial budding | traceable author statement|GO:0007120//biological process| bud site selection | traceable author statement |GO:0000282
ological process| D-xylose metabolism | inferred from mutant phenotype|GO:0042732//biological process| D-xylose metabolism | inferred from direct assay
ttachment of GPI anchor to protein | inferred from mutant phenotype|GO:0016255
say |GO:0001671//cellular component| mitochondrial inner membrane presequence translocase complex | inferred from physical interaction|GO:0005744//
nferred from genetic interaction |GO:0005353//cellular component| plasma membrane | inferred from sequence similarity|GO:0005886//biological process|
phenotype |GO:0006606
O:0016192//biological process| vesicle-mediated transport | inferred from genetic interaction |GO:0016192//biological process| exocytosis | inferred from m
43//biological process| homologous chromosome segregation | inferred from mutant phenotype |GO:0045143//biological process| chromatin silencing at rib
of mitotic cell cycle | inferred from mutant phenotype |GO:0000082//biological process| G1/S transition of mitotic cell cycle | inferred from genetic interactio
m direct assay|GO:0006890//biological process| ER to Golgi transport | inferred from physical interaction |GO:0006888//biological process| ER to Golgi tran
mponent| cytosol | traceable author statement|GO:0005829//biological process| pentose-phosphate shunt | inferred from mutant phenotype|GO:0006098
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
plex, coupling factor F(o) (sensu Eukarya) | inferred from physical interaction|GO:0000276//cellular component| proton-transporting ATP synthase complex
| inferred from mutant phenotype|GO:0030490//biological process| protein biosynthesis | traceable author statement |GO:0006412
ological process| vacuolar acidification | traceable author statement|GO:0007035
direct assay |GO:0000172//biological process| tRNA processing | traceable author statement|GO:0008033//biological process| rRNA processing | traceab
able author statement|GO:0006412//biological process| ribosomal large subunit assembly and maintenance | inferred from mutant phenotype |GO:000002
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
sis | traceable author statement |GO:0006897//biological process| protein monoubiquitination | traceable author statement |GO:0006513//biological proces
nt| spindle pole body | inferred from direct assay |GO:0005816//cellular component| cytoplasm | inferred from direct assay |GO:0005737//cellular compone
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
ceable author statement|GO:0007076//biological process| mitotic chromosome condensation | inferred from mutant phenotype |GO:0007076//biological pr
|GO:0030437//biological process| RAS protein signal transduction | inferred from mutant phenotype |GO:0007265
bunit assembly and maintenance | inferred from mutant phenotype |GO:0000028
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
m direct assay|GO:0005787//cellular component| endoplasmic reticulum | inferred from direct assay |GO:0005783//biological process| signal peptide proces
eraction|GO:0007231
able author statement|GO:0005681//cellular component| nucleus | inferred from direct assay |GO:0005634//cellular component| transcription export comple
uthor statement|GO:0007094//biological process| microtubule stabilization | inferred from mutant phenotype |GO:0007026//biological process| microtubule
on|GO:0007264//biological process| small GTPase mediated signal transduction | inferred from curator |GO:0007264
on | inferred from direct assay |GO:0006470//biological process| signal transduction during conjugation with cellular fusion | inferred from physical interactio
mutant phenotype |GO:0000067
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
0005625//cellular component| membrane fraction | inferred from direct assay |GO:0005624//biological process| calcium-mediated signaling | inferred from
ological process| 3-keto-sphinganine metabolism | inferred from physical interaction |GO:0006666
red from physical interaction|GO:0006444
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
l process| response to drug | inferred from genetic interaction|GO:0042493//biological process| sterol biosynthesis | inferred from mutant phenotype |GO:0
membrane | inferred from mutant phenotype |GO:0005886//biological process| low-affinity zinc ion transport | inferred from sequence similarity|GO:0006831
m direct assay|GO:0005737//biological process| tryptophan biosynthesis | traceable author statement|GO:0000162//biological process| tryptophan biosynth
acid geranylgeranylation | inferred from direct assay|GO:0018348//biological process| protein amino acid farnesylation | inferred from direct assay |GO:001
ical process| processing of 20S pre-rRNA | inferred from mutant phenotype |GO:0030490
/cellular component| condensed nuclear chromosome, pericentric region | inferred from direct assay |GO:0000780//cellular component| condensed nuclea
ct assay|GO:0016070//biological process| nucleotide metabolism | traceable author statement |GO:0009117//biological process| DNA metabolism | inferre
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
t assay |GO:0030479//biological process| polar budding | inferred from mutant phenotype|GO:0007121//biological process| actin filament organization | infe
alpha-glucanotransferase activity | inferred from sequence similarity |GO:0004134//molecular function| 4-alpha-glucanotransferase activity | inferred from m
cal process| protein amino acid phosphorylation | inferred from sequence similarity |GO:0006468//biological process| signal transduction during conjugatio
al inner membrane protein import | traceable author statement|GO:0045039//biological process| mitochondrial matrix protein import | traceable author stat
erred from direct assay|GO:0015813//biological process| L-aspartate transport | inferred from direct assay |GO:0015810
/biological process| intra-Golgi transport | inferred from mutant phenotype|GO:0006891//biological process| ER to Golgi transport | inferred from mutant ph
say|GO:0016567
process| pyruvate metabolism | traceable author statement |GO:0006090
erred from direct assay|GO:0030007
rom direct assay |GO:0005811//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological process| glycolysis | traceable author s
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
gulation of endocytosis | inferred from mutant phenotype|GO:0030100//biological process| actin filament organization | inferred from mutant phenotype |GO
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
osynthesis | traceable author statement |GO:0006412
ferred from direct assay |GO:0006468
n from Pol II promoter | inferred from mutant phenotype|GO:0000122//biological process| negative regulation of transcription from Pol II promoter | inferred
type |GO:0006486
nt phenotype|GO:0006855
Golgi to plasma membrane transport | traceable author statement |GO:0006893
0435//biological process| microautophagy | inferred from mutant phenotype |GO:0016237//biological process| cellular response to starvation | inferred from
gical process| vacuole inheritance | inferred from direct assay |GO:0000011
biological process| exocytosis | inferred from genetic interaction |GO:0006887//biological process| phospholipid metabolism | inferred from mutant phenoty
growth | inferred from genetic interaction |GO:0007124//biological process| starch catabolism | inferred from mutant phenotype |GO:0005983
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
ent| mRNA cleavage and polyadenylation specificity factor complex | inferred from physical interaction |GO:0005847//biological process| mRNA cleavage |
cal interaction|GO:0016192//biological process| vesicle-mediated transport | inferred from mutant phenotype |GO:0016192//biological process| isotropic bu
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
able author statement|GO:0006412
traceable author statement |GO:0005842//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological process| protein biosynthes
GO:0019740//biological process| transport | inferred from mutant phenotype |GO:0006810
component| mitochondrial inner membrane | inferred from sequence similarity|GO:0005743//cellular component| mitochondrion | inferred from direct assay
modification | traceable author statement |GO:0000154
otein biosynthesis | traceable author statement |GO:0006412
nt| DNA-directed RNA polymerase II, core complex | traceable author statement |GO:0005665//biological process| transcription from Pol III promoter | trac
Pol II promoter | traceable author statement|GO:0006367//biological process| G1-specific transcription in mitotic cell cycle | inferred from physical interact
GO:0006427//biological process| histidyl-tRNA aminoacylation | inferred from mutant phenotype |GO:0006427
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
interaction|GO:0006511//biological process| DNA repair | inferred from mutant phenotype |GO:0006281//biological process| DNA repair | inferred from gen
al process| translational initiation | inferred from direct assay|GO:0006413
physical interaction|GO:0000921//biological process| septin ring assembly | inferred from mutant phenotype |GO:0000921//biological process| septin ring a
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
m mutant phenotype |GO:0030163//biological process| meiosis I | inferred from mutant phenotype |GO:0007127//biological process| meiosis I | inferred from
irect assay |GO:0006413
promoter | traceable author statement |GO:0006357
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
0015077//cellular component| late endosome | inferred from direct assay|GO:0005770//biological process| monovalent inorganic cation homeostasis | infe
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
ctivator activity | inferred from direct assay |GO:0005097//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| vesic
direct assay |GO:0005682//biological process| nuclear mRNA splicing, via spliceosome | inferred from physical interaction|GO:0000398
on from Pol III promoter | inferred from genetic interaction |GO:0006359//biological process| regulation of transcription from Pol III promoter | inferred from
ss| phospholipid metabolism | traceable author statement |GO:0006644//biological process| regulation of transcription from Pol II promoter | traceable auth
rect assay |GO:0004306//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay
ar component| nucleus | inferred from physical interaction |GO:0005634//cellular component| nucleus | inferred from direct assay |GO:0005634//biological p
|GO:0016021//cellular component| vacuolar lumen | inferred from direct assay |GO:0005775//biological process| membrane disassembly | inferred from m
ological process| ubiquitin-dependent protein catabolism | traceable author statement|GO:0006511
physical interaction |GO:0000398
om mutant phenotype |GO:0006970//biological process| cytokinesis | inferred from mutant phenotype |GO:0000910
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
ble author statement|GO:0007005//biological process| iron ion homeostasis | inferred from direct assay |GO:0006879
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
lytic core (sensu Eukarya) | inferred from sequence similarity|GO:0005754//cellular component| proton-transporting ATP synthase, catalytic core (sensu Eu
red from direct assay|GO:0006431
tase complex | inferred from mutant phenotype |GO:0017102//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological process|
ss| asparagine biosynthesis | traceable author statement|GO:0006529
uence similarity|GO:0006468//biological process| protein amino acid phosphorylation | inferred from mutant phenotype |GO:0006468//biological process| D
4//biological process| response to xenobiotic stimulus | inferred from mutant phenotype|GO:0009410
ess| mitotic cell cycle | inferred from genetic interaction |GO:0000278//biological process| mitotic cell cycle | inferred from expression pattern |GO:0000278
ect assay |GO:0005739//biological process| mitochondrial transport | inferred from direct assay|GO:0006839
inferred from mutant phenotype|GO:0030437//biological process| meiosis | inferred from mutant phenotype |GO:0007126//biological process| response to
//biological process| DNA replication | traceable author statement |GO:0006260//biological process| replicative cell aging | inferred from mutant phenotype
| traceable author statement|GO:0016573//biological process| chromatin modification | traceable author statement |GO:0016568//biological process| prote
biological process| protein amino acid phosphorylation | inferred from direct assay |GO:0006468
|GO:0005819//cellular component| condensed nuclear chromosome kinetochore | inferred from physical interaction |GO:0000778//biological process| mito
interaction |GO:0004081//molecular function| bis(5'-nucleosyl)-tetraphosphatase (asymmetrical) activity | inferred from direct assay |GO:0004081//cellular
henotype |GO:0006513//biological process| protein polyubiquitination | inferred from physical interaction |GO:0000209//biological process| protein polyubiq
osynthesis | traceable author statement |GO:0006412
to stress | inferred from mutant phenotype |GO:0006950//biological process| response to stress | inferred from genetic interaction |GO:0006950
maintenance | inferred from mutant phenotype |GO:0000027
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
ing | inferred from mutant phenotype |GO:0006623
vity | inferred from genetic interaction |GO:0004602//cellular component| intracellular | inferred from physical interaction|GO:0005622//biological process| r
ipid biosynthesis | traceable author statement|GO:0030148//biological process| calcium-mediated signaling | inferred from mutant phenotype |GO:0019722
promoter | traceable author statement |GO:0006357
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
hondrion | inferred from direct assay|GO:0005739//biological process| leucine biosynthesis | inferred from genetic interaction|GO:0009098
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
O:0016126//biological process| sterol biosynthesis | inferred from direct assay |GO:0016126
cellular component| nuclear chromatin | inferred from direct assay |GO:0000790//cellular component| histone acetyltransferase complex | inferred from dire
ytoplasm | traceable author statement |GO:0005737//biological process| RAS protein signal transduction | inferred from mutant phenotype|GO:0007265//b
O:0006629//biological process| N-terminal protein myristoylation | inferred from mutant phenotype |GO:0006499//biological process| N-terminal protein my
ter membrane | inferred from direct assay |GO:0005640//biological process| tRNA methylation | inferred from mutant phenotype|GO:0030488
s| sporulation | inferred from genetic interaction |GO:0030435//biological process| meiotic recombination | inferred from mutant phenotype |GO:0007131//b
r activity | inferred from direct assay |GO:0001671//cellular component| cytosol | inferred from direct assay|GO:0005829//biological process| protein-mitoch
interaction|GO:0007059
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
al process| ribosomal large subunit-nucleus export | traceable author statement |GO:0000055//biological process| ribosomal large subunit-nucleus export |
traceable author statement |GO:0005842//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological process| protein biosynthes
ellular component| pre-replicative complex | inferred from direct assay |GO:0005656//cellular component| nucleus | inferred from direct assay |GO:0005634
phenotype|GO:0006486
ed from physical interaction |GO:0007119//biological process| apical bud growth | inferred from physical interaction |GO:0007118//biological process| endo
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
enotype |GO:0006950
r component| cytoplasm | inferred from direct assay |GO:0005737//biological process| regulation of transcription from Pol II promoter | inferred from mutan
ular component| respiratory chain complex III (sensu Eukarya) | inferred from direct assay|GO:0005750//cellular component| mitochondrial electron transp
one-carbon compound metabolism | inferred from mutant phenotype|GO:0006730//biological process| one-carbon compound metabolism | inferred from g
eable author statement |GO:0006189//biological process| purine ribonucleoside salvage | traceable author statement |GO:0006166//biological process| try
able author statement|GO:0006412
outer membrane | inferred from direct assay |GO:0005741//cellular component| nuclear inner membrane | traceable author statement |GO:0005637//cellu
ogical process| protein amino acid phosphorylation | inferred from direct assay |GO:0006468
nteraction|GO:0006383//biological process| rRNA processing | inferred from mutant phenotype |GO:0006364
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
from physical interaction|GO:0006888
d from direct assay|GO:0006424
netic interaction |GO:0006893//biological process| exocytosis | inferred from genetic interaction |GO:0006887
GO:0008054//biological process| mitotic metaphase/anaphase transition | traceable author statement |GO:0007091//biological process| ubiquitin-depende
4//biological process| vacuolar protein catabolism | traceable author statement|GO:0007039
anization and biogenesis | inferred from genetic interaction |GO:0030036
uthor statement |GO:0005353//cellular component| plasma membrane | inferred from sequence similarity|GO:0005886//biological process| hexose transpo
6635//biological process| malate metabolism | traceable author statement |GO:0006108//biological process| glyoxylate cycle | traceable author statement |G
ceable author statement |GO:0007231//biological process| protein amino acid phosphorylation | traceable author statement |GO:0006468//biological proces
m mutant phenotype |GO:0005886//biological process| choline transport | inferred from sequence similarity|GO:0015871//biological process| choline transp
elity | inferred from mutant phenotype|GO:0006450//biological process| protein biosynthesis | traceable author statement |GO:0006412
nt| cytoplasm | inferred from direct assay |GO:0005737//biological process| cytoskeleton organization and biogenesis | traceable author statement|GO:000
mbly | inferred from physical interaction |GO:0006333//biological process| chromatin assembly/disassembly | inferred from mutant phenotype |GO:0006333
inferred from physical interaction|GO:0006402//biological process| 35S primary transcript processing | traceable author statement |GO:0006365
y |GO:0008614
ipid biosynthesis | traceable author statement|GO:0030148//biological process| calcium-mediated signaling | inferred from mutant phenotype |GO:0019722
imilarity|GO:0015940
logical process| transcription initiation from Pol III promoter | inferred from sequence similarity|GO:0006384//biological process| transcription initiation from
non-traceable author statement|GO:0006457
om mutant phenotype |GO:0008104
red from direct assay |GO:0005828//biological process| chromosome segregation | traceable author statement|GO:0007059//biological process| protein am
n |GO:0008033
O:0003906//cellular component| mitochondrion | inferred from direct assay|GO:0005739//cellular component| nucleus | inferred from direct assay |GO:0005
ect assay |GO:0000118//biological process| chromatin silencing at silent mating-type cassette (sensu Fungi) | inferred from mutant phenotype|GO:003046
ogenesis | inferred from mutant phenotype |GO:0006998//biological process| protein-nucleus export | traceable author statement |GO:0006611//biological
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
ngi) | inferred from expression pattern|GO:0030437//biological process| aerobic respiration | inferred from expression pattern |GO:0009060//biological proc
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
ant phenotype |GO:0009651//biological process| regulation of transcription from Pol II promoter | inferred from sequence similarity |GO:0006357
anic cation transport | inferred from sequence similarity|GO:0015672//biological process| monovalent inorganic cation transport | inferred from mutant phen
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
ect assay |GO:0005871//cellular component| spindle | inferred from direct assay |GO:0005819//cellular component| spindle pole body | inferred from direct
statement|GO:0006365//biological process| rRNA modification | traceable author statement |GO:0000154
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
tement |GO:0000086//biological process| mitotic spindle elongation | inferred from mutant phenotype |GO:0000022
rred from direct assay |GO:0005624//biological process| sphingolipid biosynthesis | traceable author statement|GO:0030148
S transition of mitotic cell cycle | inferred from genetic interaction |GO:0000082
n from Pol II promoter | inferred from physical interaction|GO:0006368//biological process| regulation of transcription, DNA-dependent | inferred from muta
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
statement|GO:0005783//biological process| O-linked glycosylation | inferred from sequence similarity|GO:0006493//biological process| O-linked glycosylatio
red from direct assay|GO:0018348//biological process| small GTPase mediated signal transduction | traceable author statement |GO:0007264//biological p
ch repair | inferred from direct assay|GO:0006298
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
NAD biosynthesis | inferred from direct assay |GO:0009435
mponent| proton-transporting ATP synthase, stator stalk (sensu Eukarya) | traceable author statement|GO:0000274//cellular component| proton-transporti
ble author statement|GO:0006412
me organization and biogenesis | inferred from expression pattern |GO:0007031
process| purine nucleoside catabolism | inferred from mutant phenotype|GO:0006152
gical process| cell wall organization and biogenesis | inferred from sequence similarity|GO:0007047//biological process| cell wall organization and biogene
O:0006623//biological process| protein-membrane targeting | inferred from physical interaction |GO:0006612//biological process| protein-membrane targeti
O:0003697//cellular component| nucleolus | inferred from direct assay|GO:0005730//cellular component| telomerase holoenzyme complex | traceable auth
eable author statement |GO:0006189//biological process| purine ribonucleoside salvage | traceable author statement |GO:0006166//biological process| try
d from mutant phenotype |GO:0006075//biological process| bud site selection | inferred from mutant phenotype |GO:0000282
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
author statement |GO:0007091//biological process| ubiquitin-dependent protein catabolism | traceable author statement |GO:0006511//biological process|
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
process| cellular morphogenesis during conjugation with cellular fusion | inferred from mutant phenotype |GO:0000753
ological process| signal transduction during conjugation with cellular fusion | inferred from mutant phenotype|GO:0000750
phenotype|GO:0006914
nt| cytoplasm | inferred from direct assay |GO:0005737//biological process| cytoskeleton organization and biogenesis | traceable author statement|GO:000
m mutant phenotype|GO:0042542//biological process| osmosensory signaling pathway via two-component system | traceable author statement |GO:00072
s| transcription initiation from Pol III promoter | inferred from physical interaction|GO:0006384//biological process| transcription initiation from Pol III promot
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
ytoplasm | inferred from direct assay|GO:0005737//biological process| glycogen metabolism | inferred from sequence similarity|GO:0005977//biological pro
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
or statement|GO:0005680//biological process| cyclin catabolism | traceable author statement|GO:0008054//biological process| mitotic metaphase/anaphas
m mutant phenotype|GO:0019318//biological process| hexose metabolism | inferred from genetic interaction |GO:0019318//biological process| protein ami
notype|GO:0019722//biological process| response to heat | inferred from direct assay |GO:0009408//biological process| sphingolipid metabolism | inferred
cess| protein-peroxisome targeting | inferred from mutant phenotype |GO:0006625
ble author statement|GO:0006412
assay |GO:0005625//biological process| intracellular protein transport | inferred from mutant phenotype|GO:0006886
ctivity | inferred from genetic interaction |GO:0005353//cellular component| plasma membrane | inferred from sequence similarity|GO:0005886//biological p
cle arrest | inferred from mutant phenotype |GO:0000077//biological process| cell cycle checkpoint | inferred from mutant phenotype |GO:0000075
ecular function| ribosomal DNA (rDNA) binding | inferred from mutant phenotype |GO:0000182//cellular component| RNA polymerase I upstream activatin
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
lasm | inferred from direct assay |GO:0005737//biological process| negative regulation of nuclear mRNA splicing, via spliceosome | inferred from mutant p
016274//molecular function| protein-arginine N-methyltransferase activity | inferred from genetic interaction |GO:0016274//molecular function| protein-argin
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
nse to pheromone during conjugation with cellular fusion | traceable author statement |GO:0000749
s| cytoskeleton organization and biogenesis | traceable author statement|GO:0007010//biological process| protein folding | traceable author statement |GO
nteraction |GO:0000783//biological process| anti-apoptosis | inferred from direct assay|GO:0006916//biological process| telomere maintenance | inferred fr
or statement |GO:0006611//biological process| ribosomal protein-nucleus import | traceable author statement |GO:0006610//biological process| mRNA-bin
similarity |GO:0006468
nt| plasma membrane | inferred from direct assay |GO:0005886//biological process| small GTPase mediated signal transduction | traceable author stateme
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
process| response to stress | inferred from direct assay |GO:0006950
//biological process| methionine metabolism | traceable author statement |GO:0006555
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
gical process| protein amino acid phosphorylation | inferred from direct assay |GO:0006468
rocess| spore wall assembly (sensu Fungi) | inferred from mutant phenotype|GO:0030476//biological process| sporulation | inferred from mutant phenotyp
oter | inferred from direct assay |GO:0006368
somal subunit (sensu Eukarya) | inferred from physical interaction|GO:0005843//biological process| mature ribosome assembly | inferred from mutant phen
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
all ribosomal subunit | inferred from direct assay |GO:0005763//biological process| protein biosynthesis | traceable author statement|GO:0006412//biologic
alanyl-tRNA aminoacylation | traceable author statement|GO:0006432
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
tatement|GO:0006310//biological process| double-strand break repair | traceable author statement |GO:0006302//biological process| postreplication repair
milarity|GO:0006833
mitochondrial outer membrane translocase complex | inferred from mutant phenotype |GO:0005742//biological process| mitochondrial matrix protein impor
ss| phospholipid metabolism | traceable author statement |GO:0006644//biological process| regulation of transcription from Pol II promoter | traceable auth
notype |GO:0005737//biological process| glycyl-tRNA aminoacylation | inferred from sequence similarity|GO:0006426//biological process| glycyl-tRNA am
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
hogenesis | traceable author statement |GO:0000902
able author statement|GO:0006412
mponent| mitochondrion | inferred from mutant phenotype |GO:0005739//biological process| aerobic respiration | inferred from mutant phenotype|GO:00090
nferred from sequence similarity |GO:0005975
rred from physical interaction|GO:0006412//biological process| protein biosynthesis | inferred from mutant phenotype |GO:0006412//biological process| pro
g | inferred from sequence similarity |GO:0003677//molecular function| DNA binding | inferred from physical interaction |GO:0003677//molecular function| D
m direct assay |GO:0000122
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
34//cellular component| nuclear telomere cap complex | inferred from direct assay |GO:0000783//biological process| telomerase-dependent telomere main
raction |GO:0030121//biological process| vesicle-mediated transport | inferred from sequence similarity|GO:0016192//biological process| vesicle-mediated
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
cal process| MAPKKK cascade | inferred from mutant phenotype|GO:0000165
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
80//biological process| iron ion transport | inferred from mutant phenotype |GO:0006826//biological process| transport | inferred from sequence similarity |G
irect assay|GO:0005737//biological process| regulation of cell redox homeostasis | inferred from mutant phenotype|GO:0030503//biological process| regul
pole body duplication (sensu Saccharomyces) | inferred from mutant phenotype|GO:0007103//biological process| microtubule nucleation | inferred from p
om Pol II promoter | inferred from mutant phenotype|GO:0006366
ensu Fungi) | inferred from genetic interaction |GO:0030472//biological process| meiosis | inferred from mutant phenotype |GO:0007126
bunit assembly and maintenance | inferred from mutant phenotype |GO:0000027
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
larity|GO:0016568//biological process| chromatin modification | inferred from physical interaction |GO:0016568//biological process| chromatin modification
traceable author statement |GO:0005843//biological process| protein biosynthesis | traceable author statement|GO:0006412//biological process| ribosoma
enotype |GO:0006486//biological process| protein amino acid glycosylation | inferred from direct assay |GO:0006486
ll organization and biogenesis | inferred from mutant phenotype|GO:0007047//biological process| N-linked glycosylation | inferred from mutant phenotype |
mic reticulum membrane | inferred from genetic interaction |GO:0005789//biological process| ubiquitin-dependent protein catabolism | inferred from geneti
bunit assembly and maintenance | inferred from mutant phenotype |GO:0000028
metabolism | inferred from curator|GO:0006563
ansport | inferred from genetic interaction |GO:0015758//biological process| protein amino acid phosphorylation | inferred from sequence similarity |GO:00
d from mutant phenotype|GO:0030466//biological process| chromatin silencing at silent mating-type cassette (sensu Fungi) | inferred from genetic interacti
nent| nucleolus | inferred from direct assay |GO:0005730//biological process| processing of 20S pre-rRNA | inferred from physical interaction|GO:0030490
sumoylation | traceable author statement|GO:0016925
ay |GO:0019541//biological process| threonine catabolism | inferred from expression pattern |GO:0006567
|GO:0005740//biological process| actin cortical patch assembly | inferred from mutant phenotype|GO:0000147
otype|GO:0009435//biological process| NAD biosynthesis | inferred from direct assay |GO:0009435
es) | inferred from mutant phenotype|GO:0007103//biological process| microtubule nucleation | inferred from physical interaction |GO:0007020//biological
GO:0006364//biological process| rRNA processing | inferred from genetic interaction |GO:0006364
om sequence similarity |GO:0006609//biological process| mRNA-binding (hnRNP) protein-nucleus import | inferred from physical interaction |GO:0006609/
0006740//biological process| gluconeogenesis | traceable author statement |GO:0006094
rect assay |GO:0005634//biological process| protein folding | inferred from sequence similarity|GO:0006457//biological process| protein folding | inferred fr
ate metabolism | traceable author statement|GO:0006090
moter | inferred from direct assay |GO:0006357
ss| ER to Golgi transport | traceable author statement |GO:0006888
ss| ubiquitin-dependent protein catabolism | inferred from mutant phenotype |GO:0006511//biological process| RNA-nucleus export | inferred from mutant p
5//biological process| post-Golgi transport | inferred from genetic interaction |GO:0006892//biological process| cytokinesis | inferred from mutant phenotyp
henotype |GO:0007165//biological process| cell adhesion | inferred from mutant phenotype |GO:0007155//biological process| protein amino acid phosphor
tabolism | inferred from mutant phenotype |GO:0030433
y |GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| response to DNA damage stimulus | inferred fro
r statement |GO:0006508
ization | inferred from physical interaction |GO:0008154//biological process| actin polymerization and/or depolymerization | inferred from mutant phenotype
pre-rRNA | inferred from mutant phenotype |GO:0030490
ed from physical interaction|GO:0006357//biological process| poly(A) tail shortening | inferred from direct assay |GO:0000289
complex (UDP-forming) | inferred from physical interaction|GO:0005946//cellular component| alpha,alpha-trehalose-phosphate synthase complex (UDP-fo
ess| protein-nucleus import | inferred from direct assay |GO:0006606//biological process| rRNA-nucleus export | inferred from mutant phenotype |GO:0006
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
m direct assay |GO:0005783//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological process| ubiquitin-dependent protein cata
traceable author statement|GO:0007117//biological process| mitotic spindle checkpoint | inferred from physical interaction |GO:0007094//biological proce
red from direct assay|GO:0005737//biological process| tRNA methylation | inferred from direct assay|GO:0030488//biological process| protein biosynthesis
nt |GO:0006355
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
cellular component| mitochondrion | inferred from direct assay|GO:0005739//biological process| succinyl-CoA metabolism | traceable author statement|GO
erred from mutant phenotype|GO:0006457
port | inferred from mutant phenotype |GO:0006810//biological process| protein-vacuolar targeting | inferred from mutant phenotype |GO:0006623
cation | inferred from sequence similarity|GO:0016556//biological process| mRNA modification | inferred from mutant phenotype |GO:0016556//biological p
component| snRNP U1 | inferred from direct assay |GO:0005685//biological process| mRNA splice site selection | inferred from mutant phenotype|GO:000
GO:0005724//cellular component| chromatin silencing complex | inferred from direct assay |GO:0005677//cellular component| nuclear telomere cap compl
sis | inferred from mutant phenotype |GO:0008654//biological process| negative regulation of transcription from Pol II promoter | inferred from mutant pheno
erred from genetic interaction|GO:0030036//biological process| small GTPase mediated signal transduction | inferred from physical interaction |GO:00072
n |GO:0006348
ed from physical interaction|GO:0007047//biological process| actin filament organization | inferred from mutant phenotype |GO:0007015//biological process
//biological process| postreplication repair | inferred from mutant phenotype |GO:0006301//biological process| postreplication repair | inferred from genetic
MPASS complex | inferred from physical interaction|GO:0048188//cellular component| nuclear chromatin | inferred from mutant phenotype |GO:0000790//bi
copper ion homeostasis | inferred from mutant phenotype |GO:0006878//biological process| regulation of translation | inferred from physical interaction |G
atement |GO:0006611//biological process| ribosomal protein-nucleus import | traceable author statement |GO:0006610//biological process| mRNA-binding
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
mplex | inferred from physical interaction |GO:0000164//biological process| spore wall assembly (sensu Fungi) | inferred from mutant phenotype|GO:00304
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
| phosphate transport | inferred from mutant phenotype|GO:0006817
n, mating-type specific | inferred from mutant phenotype|GO:0007532//biological process| pseudohyphal growth | inferred from mutant phenotype |GO:000
ntion | inferred from mutant phenotype|GO:0006621
netic interaction |GO:0045703//cellular component| integral to membrane | inferred from sequence similarity|GO:0016021//cellular component| endoplasm
t| cytoplasm | traceable author statement |GO:0005737//biological process| cell wall organization and biogenesis | inferred from mutant phenotype|GO:000
l process| chromatin remodeling | inferred from physical interaction |GO:0006338//biological process| chromatin remodeling | inferred from genetic interact
e second messenger | traceable author statement |GO:0007188//biological process| meiosis | inferred from mutant phenotype |GO:0007126//biological pro
rocess| chromatin remodeling | inferred from genetic interaction |GO:0006338//biological process| chromatin remodeling | inferred from direct assay |GO:0
om direct assay |GO:0005789//biological process| vesicle-mediated transport | inferred from direct assay|GO:0016192//biological process| autophagy | infe
ological process| protein amino acid dephosphorylation | inferred from direct assay |GO:0006470
al process| purine base biosynthesis | inferred from mutant phenotype|GO:0009113//biological process| purine base biosynthesis | inferred from direct assa
05871//biological process| mitotic spindle orientation (sensu Fungi) | inferred from mutant phenotype|GO:0030607//biological process| mitotic spindle orien
//biological process| DNA replication | inferred from mutant phenotype |GO:0006260
utant phenotype|GO:0016114//biological process| terpenoid biosynthesis | inferred from genetic interaction |GO:0016114//biological process| terpenoid bio
d peptidolysis | inferred from mutant phenotype |GO:0006508
ucleotide metabolism | inferred from direct assay|GO:0009117
ical process| osmosensory signaling pathway via two-component system | inferred from direct assay |GO:0007234//biological process| response to osmoti
able author statement |GO:0006513//biological process| protein polyubiquitination | traceable author statement |GO:0000209
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
t phenotype|GO:0000086//biological process| G2/M transition of mitotic cell cycle | inferred from genetic interaction |GO:0000086//biological process| S ph
logical process| Golgi to plasma membrane transport | inferred from direct assay |GO:0006893//biological process| intracellular protein transport | inferred
cess| retrograde transport, endosome to Golgi | inferred from direct assay|GO:0042147//biological process| Golgi to vacuole transport | inferred from mutan
statement |GO:0000154
al process| ubiquitin-dependent protein catabolism | traceable author statement|GO:0006511
tion |GO:0004422//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0
|GO:0005634//biological process| histone acetylation | non-traceable author statement|GO:0016573
cal process| GPI anchor biosynthesis | traceable author statement|GO:0006506
e |GO:0006281//biological process| leading strand elongation | inferred from direct assay |GO:0006272
6121//biological process| tricarboxylic acid cycle | traceable author statement |GO:0006099
rred from physical interaction|GO:0000398
nction| siderochrome-iron transporter activity | inferred from direct assay |GO:0015343//cellular component| cytoplasmic vesicle | traceable author statemen
|GO:0042147//biological process| Golgi to vacuole transport | inferred from mutant phenotype |GO:0006896
ological process| response to stress | inferred from physical interaction|GO:0006950//biological process| response to stress | inferred from mutant phenoty
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
O:0000124//biological process| histone acetylation | traceable author statement|GO:0016573//biological process| chromatin modification | traceable author
ect assay|GO:0005737//biological process| pyrimidine nucleotide metabolism | inferred from mutant phenotype|GO:0006220//biological process| pyrimidine
ed from mutant phenotype |GO:0007120//biological process| bud growth | inferred from mutant phenotype |GO:0007117//biological process| response to o
assay|GO:0005743//cellular component| mitochondrion | inferred from direct assay |GO:0005739//cellular component| presequence translocase-associate
rom direct assay |GO:0005634//biological process| peptidyl-arginine methylation | inferred from direct assay|GO:0018216
gulation | traceable author statement|GO:0018987//biological process| vacuole organization and biogenesis | inferred from mutant phenotype |GO:000703
-methionine acetylation | inferred from mutant phenotype|GO:0017196
om physical interaction |GO:0016593//cellular component| transcription elongation factor complex | inferred from physical interaction |GO:0008023//cellula
nt of cell polarity (sensu Saccharomyces) | inferred from mutant phenotype|GO:0000283//biological process| actin cortical patch assembly | inferred from m
otein amino acid phosphorylation | inferred from direct assay|GO:0006468//biological process| septin checkpoint | inferred from mutant phenotype |GO:000
m mutant phenotype|GO:0006865//biological process| amino acid transport | inferred from direct assay |GO:0006865
05935//cellular component| bud tip | inferred from direct assay |GO:0005934//cellular component| actin filament | inferred from direct assay |GO:0005884//c
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
mponent| mitochondrion | inferred from mutant phenotype |GO:0005739//biological process| aerobic respiration | inferred from mutant phenotype|GO:00090
sequence similarity|GO:0006412//biological process| protein biosynthesis | inferred from curator |GO:0006412
ble author statement|GO:0006859//biological process| galactose metabolism | traceable author statement |GO:0006012
atement |GO:0006611//biological process| ribosomal protein-nucleus import | traceable author statement |GO:0006610//biological process| mRNA-binding
rred from genetic interaction|GO:0045002//biological process| double-strand break repair via break-induced replication | traceable author statement |GO:0
of protein catabolism | inferred from mutant phenotype |GO:0042176//biological process| cadmium ion homeostasis | inferred from mutant phenotype |GO
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
ome | inferred from genetic interaction|GO:0000398//biological process| nuclear mRNA splicing, via spliceosome | inferred from direct assay |GO:0000398
/biological process| endocytosis | inferred from mutant phenotype|GO:0006897//biological process| protein-vacuolar targeting | inferred from mutant pheno
statement |GO:0006298//biological process| nucleotide-excision repair | traceable author statement |GO:0006289//biological process| base-excision repair
om genetic interaction |GO:0009651//biological process| polar budding | inferred from mutant phenotype |GO:0007121//biological process| cell wall organiz
atement |GO:0000028
005634//biological process| CDP-choline pathway | inferred from direct assay|GO:0006657//biological process| phosphatidylcholine biosynthesis | inferred
pe |GO:0042273//biological process| chromosome organization and biogenesis (sensu Eukarya) | inferred from genetic interaction |GO:0007001
omponent| cytosol | traceable author statement|GO:0005829//biological process| gluconeogenesis | traceable author statement|GO:0006094
//biological process| pseudohyphal growth | traceable author statement|GO:0007124//biological process| invasive growth (sensu Saccharomyces) | tracea
rom genetic interaction|GO:0006457
rom direct assay|GO:0005737//biological process| intra-Golgi transport | inferred from sequence similarity|GO:0006891//biological process| intra-Golgi tran
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
om sequence similarity |GO:0003964//molecular function| alkylbase DNA N-glycosylase activity | inferred from direct assay |GO:0003905//molecular functio
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
henotype |GO:0000002
inoadipic pathway | traceable author statement|GO:0019878//biological process| protein-cofactor linkage | inferred from direct assay |GO:0018065
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
ce similarity|GO:0015937
say |GO:0005743//biological process| mitochondrial intermembrane space protein import | traceable author statement|GO:0045041//biological process| pro
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
able author statement |GO:0000027
ptidyl-glycine N-myristoylation | traceable author statement|GO:0018008
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
om expression pattern|GO:0019541//biological process| organic acid transport | inferred from direct assay |GO:0015849//biological process| transport | trac
6406//biological process| RNA elongation from Pol II promoter | inferred from mutant phenotype |GO:0006368//biological process| DNA recombination | inf
uthor statement |GO:0005353//cellular component| plasma membrane | inferred from sequence similarity|GO:0005886//biological process| hexose transpo
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
erred from direct assay|GO:0015804
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
:0005829//biological process| pyrimidine base biosynthesis | traceable author statement|GO:0019856//biological process| phospholipid biosynthesis | trace
n from Pol II promoter | inferred from sequence similarity |GO:0006367
5324//biological process| protein-Golgi retention | inferred from mutant phenotype |GO:0045053
regulation of transcription | inferred from physical interaction|GO:0045449//biological process| regulation of transcription | inferred from mutant phenotype |
from mutant phenotype|GO:0006348//biological process| mismatch repair | traceable author statement |GO:0006298//biological process| nucleotide-excis
mponent| Golgi trans cisterna | traceable author statement |GO:0000138//biological process| vesicle fusion | traceable author statement|GO:0006906
2//biological process| regulation of transcription from Pol II promoter | inferred from mutant phenotype|GO:0006357//biological process| chromatin remodel
mponent| Golgi trans cisterna | traceable author statement |GO:0000138//biological process| vesicle fusion | traceable author statement|GO:0006906
| 35S primary transcript processing | traceable author statement |GO:0006365//biological process| rRNA modification | traceable author statement |GO:00
able author statement|GO:0019878
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
plasma membrane | inferred from direct assay|GO:0005886//biological process| G-protein coupled receptor protein signaling pathway | inferred from physic
atement |GO:0006888
ane | inferred from sequence similarity|GO:0016020//biological process| transport | inferred from sequence similarity|GO:0006810
ed from direct assay |GO:0005739//biological process| misfolded or incompletely synthesized protein catabolism | inferred from mutant phenotype|GO:000
m genetic interaction |GO:0003704//cellular component| nucleus | inferred from physical interaction|GO:0005634//biological process| positive regulation o
cess| bud growth | inferred from genetic interaction |GO:0007117//biological process| protein amino acid phosphorylation | inferred from sequence similarit
m mutant phenotype|GO:0006048//biological process| UDP-N-acetylglucosamine biosynthesis | inferred from direct assay |GO:0006048
| nuclear mRNA splicing, via spliceosome | inferred from mutant phenotype |GO:0000398
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
al process| protein-nucleus import | inferred from sequence similarity|GO:0006606//biological process| protein-nucleus import | inferred from mutant pheno
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
m mutant phenotype|GO:0007188
monophosphate biosynthesis | traceable author statement|GO:0009127//biological process| histidine biosynthesis | traceable author statement |GO:000010
on from Pol II promoter | inferred from genetic interaction |GO:0006357
om mutant phenotype |GO:0003704//cellular component| nucleus | inferred from curator|GO:0005634//biological process| positive regulation of transcriptio
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
mutant phenotype |GO:0000753
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
nferred from direct assay |GO:0005634//cellular component| vacuolar membrane (sensu Fungi) | inferred from direct assay |GO:0000329//biological proces
ed from physical interaction|GO:0007047//biological process| actin filament organization | inferred from mutant phenotype |GO:0007015//biological process
06537//biological process| citrate metabolism | traceable author statement |GO:0006101//biological process| tricarboxylic acid cycle | traceable author state
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
on and biogenesis | inferred from mutant phenotype |GO:0030036
assay|GO:0006468//biological process| nuclear division | inferred from mutant phenotype |GO:0000280
361//biological process| meiosis | inferred from expression pattern |GO:0007126//biological process| protein monoubiquitination | inferred from mutant phe
m physical interaction |GO:0000288//biological process| mRNA catabolism, deadenylation-dependent | inferred from mutant phenotype |GO:0000288
traceable author statement|GO:0006402//biological process| mRNA catabolism | inferred from mutant phenotype |GO:0006402//biological process| 35S pr
ed from physical interaction |GO:0000145//cellular component| site of polarized growth (sensu Saccharomyces) | inferred from direct assay |GO:0000134/
uthor statement|GO:0009228
rect assay |GO:0000139//biological process| signal transduction | inferred from mutant phenotype|GO:0007165//biological process| transport | inferred from
nance | inferred from physical interaction|GO:0000027
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
enotype |GO:0008053//biological process| mitochondrion organization and biogenesis | traceable author statement |GO:0007005//biological process| mitoc
hysical interaction|GO:0030490//biological process| ribosome biogenesis | traceable author statement |GO:0007046//biological process| ribosome biogene
mutant phenotype|GO:0007584//biological process| protein kinase cascade | inferred from mutant phenotype |GO:0007243//biological process| protein am
sm | inferred from genetic interaction |GO:0006139
k repair via single-strand annealing | inferred from mutant phenotype |GO:0045002//biological process| DNA recombinase assembly | traceable author sta
condensation | inferred from genetic interaction |GO:0007076
esis | inferred from mutant phenotype |GO:0006999//biological process| nuclear pore organization and biogenesis | inferred from genetic interaction |GO:0
cal process| microtubule nucleation | inferred from physical interaction |GO:0007020
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
anslational termination | inferred from sequence similarity|GO:0006415//biological process| translational termination | inferred from mutant phenotype |GO:
mbrane | inferred from direct assay |GO:0005886//cellular component| endoplasmic reticulum | inferred from direct assay |GO:0005783//biological process
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
ogical process| tRNA modification | inferred from direct assay |GO:0006400
ogenesis | inferred from mutant phenotype |GO:0006998//biological process| protein-nucleus export | traceable author statement |GO:0006611//biological
| processing of 20S pre-rRNA | inferred from mutant phenotype |GO:0030490
| inferred from mutant phenotype|GO:0006800
n |GO:0000780//cellular component| condensed nuclear chromosome, pericentric region | inferred from direct assay |GO:0000780//cellular component| co
n|GO:0006913//biological process| mRNA-nucleus export | inferred from genetic interaction |GO:0006406
y |GO:0005739//biological process| iron incorporation into metallo-sulfur cluster | inferred from mutant phenotype|GO:0018283//biological process| iron inco
ant phenotype|GO:0007231//biological process| actin filament organization | inferred from mutant phenotype |GO:0007015//biological process| protein amin
//cellular component| mitochondrion | inferred from direct assay|GO:0005739//biological process| folic acid biosynthesis | inferred from direct assay|GO:00
nferred from direct assay|GO:0006066
50//biological process| regulation of transcription from Pol II promoter | inferred from direct assay |GO:0006357
heromone maturation | inferred from direct assay|GO:0007323
erred from sequence similarity|GO:0005886//biological process| hexose transport | inferred from genetic interaction|GO:0008645
raceable author statement |GO:0000152//biological process| ubiquitin-dependent protein catabolism | traceable author statement|GO:0006511//biological
enotype|GO:0006784//biological process| heme a biosynthesis | inferred from genetic interaction |GO:0006784
ological process| mRNA-nucleus export | inferred from mutant phenotype|GO:0006406//biological process| mRNA-nucleus export | inferred from genetic in
able author statement|GO:0006412
or statement |GO:0006611//biological process| ribosomal protein-nucleus import | traceable author statement |GO:0006610//biological process| mRNA-bin
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
s| transcription from Pol III promoter | traceable author statement|GO:0006383//biological process| transcription from Pol I promoter | traceable author stat
rom direct assay |GO:0005811//biological process| glycolysis | traceable author statement|GO:0006096//biological process| gluconeogenesis | traceable a
hor statement |GO:0007126
red from mutant phenotype|GO:0006348
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
ssay |GO:0005783//biological process| vesicle organization and biogenesis | inferred from physical interaction|GO:0016050//biological process| conjugatio
lular component| vacuolar membrane (sensu Fungi) | traceable author statement|GO:0000329//cellular component| vacuolar membrane (sensu Fungi) | in
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
rred from direct assay|GO:0042144//biological process| regulation of cell redox homeostasis | traceable author statement |GO:0030503//biological process
rom direct assay |GO:0005811//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological process| glycolysis | traceable author s
om sequence similarity |GO:0003964//molecular function| alkylbase DNA N-glycosylase activity | inferred from direct assay |GO:0003905//molecular functio
e author statement |GO:0006109
lication (sensu Saccharomyces) | traceable author statement|GO:0007103//biological process| mitotic spindle checkpoint | traceable author statement |GO
m mutant phenotype|GO:0030476
GO:0008054//biological process| mitotic metaphase/anaphase transition | traceable author statement |GO:0007091//biological process| ubiquitin-depende
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
interaction|GO:0000398
lication | inferred from direct assay |GO:0006261
uthor statement |GO:0007091//biological process| ubiquitin-dependent protein catabolism | traceable author statement |GO:0006511//biological process| m
ntenance | inferred from mutant phenotype|GO:0008151//biological process| signal transduction | inferred from mutant phenotype |GO:0007165//biological
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
notype|GO:0009070
O:0030437//biological process| protein amino acid phosphorylation | inferred from sequence similarity |GO:0006468
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
ogical process| premeiotic DNA synthesis | inferred from genetic interaction |GO:0006279//biological process| G1/S transition of mitotic cell cycle | inferred
latory particle (sensu Eukarya) | traceable author statement |GO:0005838//biological process| ubiquitin-dependent protein catabolism | traceable author st
esponse to stress | traceable author statement|GO:0006950//biological process| regulation of transcription, DNA-dependent | traceable author statement |G
t bud site | inferred from direct assay |GO:0000131//biological process| exocytosis | inferred from physical interaction|GO:0006887//biological process| exo
n | inferred from mutant phenotype|GO:0006808//biological process| transcription initiation from Pol II promoter | inferred from direct assay |GO:0006367
, via spliceosome | inferred from physical interaction |GO:0000398
t |GO:0006099
rol biosynthesis | inferred from direct assay|GO:0006696
moter | inferred from mutant phenotype |GO:0006357
from direct assay |GO:0000300//biological process| intra-Golgi transport | inferred from physical interaction|GO:0006891//biological process| intra-Golgi tr
om curator |GO:0005634//biological process| response to cadmium ion | inferred from mutant phenotype|GO:0046686//biological process| positive regulatio
ase activity | inferred from expression pattern |GO:0004410//cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| lysin
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
say |GO:0005816//biological process| sporulation (sensu Fungi) | inferred from mutant phenotype|GO:0030437
uclear organization and biogenesis | inferred from mutant phenotype |GO:0006997//biological process| nucleocytoplasmic transport | inferred from mutant
GO:0005739//biological process| iron ion homeostasis | inferred from mutant phenotype|GO:0006879//biological process| iron ion homeostasis | inferred f
ical process| DNA damage response, signal transduction resulting in cell cycle arrest | inferred from mutant phenotype |GO:0000077
al process| ubiquitin-dependent protein catabolism | traceable author statement|GO:0006511
rom direct assay|GO:0006367
ing during exocytosis | inferred from physical interaction |GO:0006904//biological process| exocytosis | inferred from physical interaction |GO:0006887//bio
inferred from direct assay |GO:0004222//cellular component| mitochondrial intermembrane space | inferred from direct assay|GO:0005758//cellular compo
ensation | inferred from physical interaction |GO:0007076
ng-type cassette (sensu Fungi) | inferred from mutant phenotype|GO:0030466//biological process| regulation of transcription from Pol II promoter | inferred
al process| tRNA splicing | inferred from mutant phenotype |GO:0006388
notype|GO:0007126//biological process| protein amino acid phosphorylation | inferred from direct assay |GO:0006468
eronin tubulin folding pathway | traceable author statement |GO:0007023
uthor statement |GO:0006533//biological process| aspartate biosynthesis | inferred from curator |GO:0006532
ensu Fungi) | traceable author statement|GO:0030476//biological process| polar budding | traceable author statement |GO:0007121//biological process| ax
pe |GO:0042273
sequence similarity|GO:0006010//biological process| glucose 6-phosphate utilization | inferred from mutant phenotype |GO:0006010//biological process| g
GO:0005215//cellular component| plasma membrane | inferred from direct assay|GO:0005886//cellular component| cytoplasm | inferred from direct assay |
ss | traceable author statement |GO:0006950//biological process| protein monoubiquitination | traceable author statement |GO:0006513//biological proces
ar component| nucleus | inferred from direct assay |GO:0005634//biological process| nucleoside catabolism | inferred from mutant phenotype|GO:0009164
ct assay |GO:0005937//cellular component| bud neck | inferred from direct assay |GO:0005935//biological process| peptide pheromone maturation | inferre
ponent| plasma membrane | inferred from direct assay|GO:0005886//biological process| sodium ion transport | inferred from mutant phenotype|GO:00068
d from direct assay |GO:0005933//cellular component| cytoplasm | inferred from direct assay |GO:0005737//cellular component| incipient bud site | inferred
ed from direct assay |GO:0000932//biological process| mRNA catabolism | traceable author statement|GO:0006402//biological process| deadenylation-de
| 35S primary transcript processing | traceable author statement |GO:0006365//biological process| rRNA modification | traceable author statement |GO:00
logical process| iron ion homeostasis | inferred from genetic interaction |GO:0006879
erred from genetic interaction |GO:0006006
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
n | inferred from direct assay |GO:0000267//biological process| mitotic spindle assembly (sensu Fungi) | inferred from mutant phenotype|GO:0030472//biol
ed from direct assay |GO:0046495
om physical interaction |GO:0005697//cellular component| telomerase holoenzyme complex | inferred from direct assay |GO:0005697//cellular component|
n complex (sensu Saccharomyces) | inferred from physical interaction |GO:0000928//biological process| mitotic spindle assembly (sensu Fungi) | inferred
ocess| pyrimidine salvage | inferred from genetic interaction |GO:0008655
traceable author statement |GO:0005842//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological process| protein biosynthes
35//cellular component| mitochondrial inner membrane | traceable author statement|GO:0005743//biological process| protein biosynthesis | traceable auth
| inferred from mutant phenotype|GO:0006850//biological process| transport | inferred from sequence similarity |GO:0006810
ex (UDP-forming) | inferred from physical interaction|GO:0005946//cellular component| alpha,alpha-trehalose-phosphate synthase complex (UDP-forming)
le author statement |GO:0000154
4//molecular function| histone-lysine N-methyltransferase activity | inferred from direct assay |GO:0018024//cellular component| nucleus | inferred from ph
| inferred from mutant phenotype|GO:0007093//biological process| negative regulation of exit from mitosis | inferred from mutant phenotype |GO:0001100
|GO:0006974//biological process| DNA recombination | inferred from mutant phenotype |GO:0006310//biological process| DNA recombination | inferred fro
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
ed from direct assay |GO:0005634//biological process| N-acetylglucosamine biosynthesis | traceable author statement|GO:0006045
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
component| nucleus | inferred from direct assay |GO:0005634//biological process| sporulation (sensu Fungi) | traceable author statement|GO:0030437//bio
0006740//biological process| gluconeogenesis | traceable author statement |GO:0006094
ar targeting | inferred from mutant phenotype |GO:0006623
ane | inferred from sequence similarity|GO:0016020//biological process| transport | inferred from sequence similarity|GO:0006810
ellular component| pre-replicative complex | inferred from direct assay |GO:0005656//cellular component| nucleus | inferred from direct assay |GO:0005634
bly | traceable author statement|GO:0000391
nent| exocyst | inferred from physical interaction |GO:0000145//biological process| polar budding | inferred from mutant phenotype|GO:0007121//biological
atement |GO:0006611//biological process| ribosomal protein-nucleus import | traceable author statement |GO:0006610//biological process| mRNA-binding
cess| cell growth and/or maintenance | inferred from mutant phenotype |GO:0008151//biological process| rRNA processing | inferred from physical interac
d from mutant phenotype |GO:0005886//biological process| allantoate transport | inferred from mutant phenotype|GO:0015719
ent|GO:0005634//cellular component| nucleus | inferred from physical interaction |GO:0005634//cellular component| nuclear chromatin | inferred from direc
, via spliceosome | inferred from physical interaction |GO:0000398
commitment complex | traceable author statement |GO:0000243//cellular component| commitment complex | inferred from physical interaction |GO:000024
cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| DNA recombination | inferred from mutant phenotype|GO:00063
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
m mutant phenotype|GO:0000086//biological process| G2/M transition of mitotic cell cycle | inferred from genetic interaction |GO:0000086//biological proces
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
from genetic interaction |GO:0007114//biological process| cellular morphogenesis | inferred from mutant phenotype |GO:0000902//biological process| cell
otype|GO:0000002//biological process| mitochondrion inheritance | inferred from mutant phenotype |GO:0000001
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
hin Golgi | inferred from mutant phenotype |GO:0000301
assay|GO:0006631
inferred from sequence similarity|GO:0016311//biological process| cell wall organization and biogenesis | inferred from mutant phenotype |GO:0007047//b
0005739//biological process| actin filament organization | inferred from mutant phenotype|GO:0007015
GO:0008054//biological process| mitotic metaphase/anaphase transition | traceable author statement |GO:0007091//biological process| ubiquitin-depende
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
ferred from mutant phenotype |GO:0007076//biological process| mitotic sister chromatid cohesion | inferred from mutant phenotype |GO:0007064//biologic
odeling | traceable author statement|GO:0006338
red from direct assay |GO:0005886//cellular component| cytosol | inferred from direct assay |GO:0005829//biological process| endocytosis | inferred from m
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
biological process| regulation of transcription from Pol II promoter | inferred from physical interaction|GO:0006357//biological process| response to pherom
pre-rRNA | inferred from mutant phenotype |GO:0030490
(sensu Eukarya) | inferred from mutant phenotype |GO:0005756//biological process| ATP synthesis coupled proton transport | inferred from mutant phenot
ess | inferred from mutant phenotype|GO:0006979//biological process| ergosterol biosynthesis | inferred from direct assay |GO:0006696//biological process
pe |GO:0042273//biological process| ribosome assembly | traceable author statement |GO:0042255//biological process| cytokinesis, contractile ring forma
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
9//cellular component| mRNA cleavage and polyadenylation specificity factor complex | traceable author statement |GO:0005847//biological process| trans
nt| DNA-directed RNA polymerase II, core complex | traceable author statement |GO:0005665//biological process| transcription from Pol III promoter | trac
6406//biological process| RNA elongation from Pol II promoter | inferred from mutant phenotype |GO:0006368//biological process| DNA recombination | inf
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
rt | inferred from sequence similarity|GO:0006828//biological process| manganese ion transport | inferred from genetic interaction |GO:0006828
|GO:0006287
tement |GO:0005739//biological process| acetyl-CoA biosynthesis from pyruvate | traceable author statement|GO:0006086
ocess| G1-specific transcription in mitotic cell cycle | inferred from physical interaction |GO:0000114
author statement|GO:0045041//biological process| mitochondrion organization and biogenesis | inferred from mutant phenotype |GO:0007005
ochondrial inner membrane protein import | inferred from physical interaction|GO:0045039//biological process| mitochondrial inner membrane protein impo
ferred from genetic interaction |GO:0001403
ment |GO:0006101//biological process| tricarboxylic acid cycle | traceable author statement |GO:0006099
vacuole (sensu Fungi) | inferred from direct assay|GO:0000324//biological process| sphingolipid biosynthesis | inferred from mutant phenotype|GO:003014
dependent telomere maintenance | inferred from mutant phenotype |GO:0007004//biological process| response to DNA damage stimulus | traceable autho
arity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//molecular function| DNA-d
ng | traceable author statement|GO:0006364
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
ant phenotype|GO:0000027//biological process| ribosomal large subunit assembly and maintenance | inferred from genetic interaction |GO:0000027
| inferred from genetic interaction |GO:0003700//cellular component| nucleus | inferred from physical interaction|GO:0005634//biological process| respons
r | inferred from direct assay|GO:0006357
say |GO:0005743//cellular component| mitochondrion | inferred from direct assay |GO:0005739//cellular component| cytoplasm | inferred from direct assay
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
iological process| regulation of transcription from Pol II promoter | inferred from physical interaction|GO:0006357//biological process| response to pheromo
nt|GO:0015720
bly | inferred from physical interaction|GO:0006461//biological process| protein complex assembly | inferred from mutant phenotype |GO:0006461
teraction |GO:0007094//biological process| conjugation with cellular fusion | inferred from mutant phenotype |GO:0000747
ological process| vacuolar acidification | traceable author statement|GO:0007035
m genetic interaction |GO:0000290
d from genetic interaction|GO:0006914//biological process| protein-vacuolar targeting | inferred from mutant phenotype |GO:0006623
rom direct assay|GO:0005737//biological process| regulation of cell redox homeostasis | inferred from mutant phenotype|GO:0030503//biological process|
e kinetochore | inferred from direct assay |GO:0000778//biological process| mitotic spindle checkpoint | inferred from mutant phenotype|GO:0007094
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
ological process| signal transduction during conjugation with cellular fusion | traceable author statement|GO:0000750//biological process| signal transductio
ansport | inferred from mutant phenotype|GO:0015802//biological process| basic amino acid transport | inferred from genetic interaction |GO:0015802//bio
biological process| DNA replication initiation | traceable author statement |GO:0006270//biological process| pre-replicative complex formation and mainten
gi) | inferred from mutant phenotype|GO:0030476//biological process| spore wall assembly (sensu Fungi) | inferred from direct assay |GO:0030476
direct assay |GO:0000172//biological process| tRNA processing | traceable author statement|GO:0008033//biological process| rRNA processing | traceab
uthor statement |GO:0005353//cellular component| plasma membrane | inferred from sequence similarity|GO:0005886//biological process| hexose transpo
egulation of nitrogen utilization | inferred from mutant phenotype|GO:0006808//biological process| regulation of nitrogen utilization | inferred from genetic in
rya) | inferred from direct assay|GO:0005843//biological process| translational initiation | inferred from direct assay|GO:0006413
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
s| cellular respiration | inferred from genetic interaction|GO:0045333
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
x | traceable author statement |GO:0005782//cellular component| peroxisomal matrix | inferred from direct assay |GO:0005782//biological process| peroxiso
pre-rRNA | inferred from mutant phenotype |GO:0030490
m mutant phenotype|GO:0030433
|GO:0006355//biological process| regulation of cell cycle | inferred from mutant phenotype |GO:0000074//biological process| regulation of cell cycle | inferr
pe|GO:0030489//biological process| ribosomal large subunit assembly and maintenance | inferred from physical interaction |GO:0000027
m direct assay |GO:0005634//biological process| heme biosynthesis | inferred from mutant phenotype|GO:0006783
hase (glutamine-hydrolyzing) activity | inferred from sequence similarity |GO:0003952//molecular function| NAD+ synthase (glutamine-hydrolyzing) activity
ss| DNA damage response, signal transduction resulting in cell cycle arrest | inferred from genetic interaction |GO:0000077
equence similarity|GO:0007015//biological process| endocytosis | inferred from sequence similarity |GO:0006897//biological process| Golgi to endosome t
aintenance | traceable author statement |GO:0000027
ukaryotic translation initiation factor 3 complex | inferred from direct assay |GO:0005852//cellular component| ribosome | traceable author statement |GO:0
mponent| nuclear membrane | inferred from direct assay |GO:0005635
us | inferred from direct assay |GO:0005634//biological process| RNA elongation from Pol II promoter | inferred from physical interaction|GO:0006368
nferred from sequence similarity |GO:0006487
ocess| bile acid transport | inferred from mutant phenotype|GO:0015721
al process| ubiquitin-dependent protein catabolism | traceable author statement|GO:0006511
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
nferred from mutant phenotype|GO:0006020//biological process| myo-inositol metabolism | inferred from genetic interaction |GO:0006020//biological proce
protein phosphatase type 2A complex | traceable author statement |GO:0000159//biological process| pseudohyphal growth | inferred from mutant phenoty
ment |GO:0000209
ogical process| tricarboxylic acid cycle | traceable author statement |GO:0006099
on|GO:0000722
e|GO:0006334
7096//biological process| S phase of mitotic cell cycle | inferred from direct assay |GO:0000084
tant phenotype |GO:0016575//biological process| chromatin silencing | inferred from mutant phenotype |GO:0006342//biological process| chromatin silenc
uitin-dependent protein catabolism | non-traceable author statement |GO:0006511//biological process| protein biosynthesis | traceable author statement |G
| traceable author statement|GO:0016573//biological process| chromatin modification | traceable author statement |GO:0016568//biological process| prote
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
44//cellular component| transcription elongation factor complex | inferred from physical interaction|GO:0008023//cellular component| nucleus | inferred from
assay |GO:0005730//biological process| 35S primary transcript processing | traceable author statement|GO:0006365//biological process| 35S primary tran
onent| integral to endoplasmic reticulum membrane | inferred from mutant phenotype |GO:0030176//biological process| attachment of GPI anchor to prote
GO:0008054//biological process| mitotic metaphase/anaphase transition | traceable author statement |GO:0007091//biological process| ubiquitin-depende
modification | inferred from direct assay|GO:0006464
on from Pol II promoter | inferred from physical interaction|GO:0006368//biological process| chromatin remodeling | inferred from direct assay |GO:0006338
atement |GO:0006611//biological process| ribosomal protein-nucleus import | traceable author statement |GO:0006610//biological process| mRNA-binding
d from mutant phenotype|GO:0006696
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
say|GO:0005634//biological process| thiamin biosynthesis | traceable author statement|GO:0009228
GO:0006355//biological process| galactose metabolism | traceable author statement |GO:0006012
|GO:0006365
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
onent| nucleus | inferred from direct assay |GO:0005634//biological process| tRNA modification | inferred from mutant phenotype|GO:0006400
| inferred from sequence similarity|GO:0007264
om direct assay |GO:0000122
nt| DNA-directed RNA polymerase II, core complex | traceable author statement |GO:0005665//biological process| transcription from Pol III promoter | trac
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
ement|GO:0042183//biological process| formate catabolism | inferred from genetic interaction |GO:0042183//biological process| NADH regeneration | trace
ay |GO:0005829//biological process| ribosomal large subunit assembly and maintenance | inferred from mutant phenotype|GO:0000027
:0016125//biological process| sterol transport | inferred from mutant phenotype |GO:0015918
cess| meiosis | inferred from expression pattern|GO:0007126//biological process| DNA metabolism | inferred from genetic interaction |GO:0006259
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
nit | traceable author statement|GO:0005763//cellular component| mitochondrial small ribosomal subunit | inferred from direct assay |GO:0005763//biologic
type |GO:0006597
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
ype|GO:0007034//biological process| protein-vacuolar targeting | inferred from direct assay |GO:0006623//biological process| protein amino acid phosphory
inferred from sequence similarity|GO:0016311//biological process| cell wall organization and biogenesis | inferred from genetic interaction |GO:0007047//b
pe|GO:0019483//biological process| response to stress | inferred from expression pattern |GO:0006950//biological process| polyamine catabolism | inferred
mitochondrial matrix protein import | inferred from physical interaction|GO:0030150//biological process| mitochondrial matrix protein import | inferred from m
phenotype|GO:0016050
nucleus export | inferred from mutant phenotype|GO:0016973//biological process| mRNA polyadenylation | inferred from direct assay |GO:0006378
plex | traceable author statement |GO:0000164//biological process| cell growth and/or maintenance | traceable author statement|GO:0008151//biological p
rocess| ubiquitin-dependent protein catabolism | inferred from sequence similarity|GO:0006511//biological process| ubiquitin-dependent protein catabolism
erred from mutant phenotype|GO:0007606//biological process| sensory perception of chemical stimulus | inferred from genetic interaction |GO:0007606
assay |GO:0005643//biological process| RNA-nucleus export | inferred from mutant phenotype|GO:0006405//biological process| RNA elongation from Pol
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
nent| mitochondrial intermembrane space | inferred from direct assay |GO:0005758//biological process| mitochondrial inner membrane protein import | infe
from mutant phenotype |GO:0006465//biological process| signal peptide processing | inferred from genetic interaction |GO:0006465
erred from mutant phenotype|GO:0009060//biological process| mitochondrial electron transport, ubiquinol to cytochrome c | inferred from direct assay |GO:
ogical process| DNA repair | inferred from genetic interaction |GO:0006281
ar component| nucleus | inferred from direct assay |GO:0005634//biological process| nucleoside catabolism | inferred from mutant phenotype|GO:0009164
interaction |GO:0000799//biological process| mitotic chromosome condensation | inferred from mutant phenotype|GO:0007076//biological process| mitotic
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
m mutant phenotype|GO:0045047//biological process| SRP-dependent cotranslational membrane targeting, signal sequence recognition | inferred from mu
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
plex | inferred from physical interaction |GO:0000118//cellular component| histone deacetylase complex | inferred from direct assay |GO:0000118//biologic
process| negative regulation of transcription from Pol II promoter, mitotic | traceable author statement|GO:0007070//biological process| transcription initia
atement |GO:0005634//biological process| U2-type catalytic spliceosome formation for first transesterification step | traceable author statement|GO:00003
process| polyamine transport | inferred from genetic interaction |GO:0015846//biological process| cell ion homeostasis | inferred from mutant phenotype |G
m genetic interaction |GO:0003704//cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| positive regulation of transc
n modification | inferred from genetic interaction|GO:0006464//biological process| protein biosynthesis | inferred from physical interaction |GO:0006412
| inferred from direct assay |GO:0005634//biological process| chromatin remodeling | traceable author statement|GO:0006338
y |GO:0008614
atin | inferred from mutant phenotype |GO:0000790//biological process| histone methylation | inferred from direct assay|GO:0016571//biological process| c
trogen utilization | inferred from mutant phenotype|GO:0019740//biological process| regulation of transcription from Pol II promoter | inferred from sequenc
ect assay |GO:0005740//biological process| transport | inferred from sequence similarity|GO:0006810//biological process| transport | inferred from mutant
ogical process| actin cytoskeleton organization and biogenesis | inferred from mutant phenotype |GO:0030036
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
ss| protein transport | inferred from direct assay |GO:0015031
able author statement |GO:0006275//biological process| DNA replication initiation | traceable author statement |GO:0006270
sm | inferred from mutant phenotype |GO:0006562
direct assay |GO:0000172//biological process| tRNA processing | traceable author statement|GO:0008033//biological process| rRNA processing | traceab
process| double-strand break repair via homologous recombination | inferred from direct assay |GO:0000724
is | inferred from mutant phenotype|GO:0030026//biological process| manganese ion homeostasis | inferred from genetic interaction |GO:0030026
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
o acid glycosylation | inferred from direct assay |GO:0006486
t| cytoplasm | traceable author statement |GO:0005737//biological process| cell ion homeostasis | inferred from mutant phenotype|GO:0006873//biological
m physical interaction |GO:0006465//biological process| signal peptide processing | inferred from mutant phenotype |GO:0006465//biological process| sign
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
n | inferred from direct assay |GO:0006378
assay|GO:0042144//biological process| regulation of proteolysis and peptidolysis | inferred from mutant phenotype |GO:0030162
ect assay|GO:0006517//biological process| misfolded or incompletely synthesized protein catabolism | inferred from mutant phenotype |GO:0006515
nization and biogenesis | inferred from mutant phenotype|GO:0030866//biological process| protein secretion | inferred from mutant phenotype |GO:000930
ment|GO:0006999//biological process| protein-nucleus export | traceable author statement |GO:0006611//biological process| ribosomal protein-nucleus im
n biosynthesis | traceable author statement|GO:0006412
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
biological process| DNA replication initiation | traceable author statement |GO:0006270//biological process| pre-replicative complex formation and mainten
rocess| regulation of mitosis | inferred from mutant phenotype|GO:0007088//biological process| ubiquitin-dependent protein catabolism | inferred from cura
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
cal process| tubulin folding | inferred from mutant phenotype|GO:0007021//biological process| tubulin folding | inferred from genetic interaction |GO:00070
/biological process| Rho protein signal transduction | inferred from physical interaction|GO:0007266//biological process| Rho protein signal transduction | i
ssay |GO:0005624//biological process| transport | inferred from sequence similarity|GO:0006810
biological process| protein-vacuolar targeting | inferred from mutant phenotype |GO:0006623
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
s| cytoskeleton organization and biogenesis | traceable author statement|GO:0007010//biological process| protein folding | traceable author statement |GO
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
enotype|GO:0030488
28//biological process| transcription from Pol II promoter | inferred from mutant phenotype |GO:0006366
tant phenotype |GO:0000032
enotype|GO:0007131//biological process| chromatin assembly/disassembly | inferred from mutant phenotype |GO:0006333//biological process| DNA stran
8309//biological process| mRNA localization, intracellular | inferred from mutant phenotype |GO:0008298
nferred from sequence similarity |GO:0006487
arity |GO:0003848//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| folic acid and derivative biosynthesis | infer
|GO:0005792//cellular component| mitochondrial inner membrane | inferred from direct assay |GO:0005743//biological process| FMN biosynthesis | inferre
nteraction |GO:0007046//biological process| ribosome biogenesis | inferred from genetic interaction |GO:0007046
m sequence similarity|GO:0007264//biological process| actin filament organization | traceable author statement |GO:0007015//biological process| exocytos
9//cellular component| mRNA cleavage and polyadenylation specificity factor complex | traceable author statement |GO:0005847//biological process| mRN
83//biological process| ergosterol biosynthesis | traceable author statement|GO:0006696
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
m physical interaction|GO:0006444
m sequence similarity|GO:0005634//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| regulation of cell redox hom
or statement |GO:0006611//biological process| ribosomal protein-nucleus import | traceable author statement |GO:0006610//biological process| mRNA-bin
gical process| protein polyubiquitination | traceable author statement |GO:0000209
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
tatement|GO:0030472//biological process| mitotic anaphase B | traceable author statement |GO:0000092
e|GO:0019627//biological process| allantoin catabolism | traceable author statement |GO:0000256
tic interaction |GO:0000092
ect assay |GO:0030242//biological process| autophagy | inferred from mutant phenotype |GO:0006914//biological process| protein-vacuolar targeting | infer
from mutant phenotype |GO:0005353//cellular component| plasma membrane | inferred from direct assay|GO:0005886//biological process| hexose transp
unction| cyclin-dependent protein kinase activity | inferred from direct assay |GO:0004693//cellular component| nucleus | inferred from direct assay|GO:000
arity |GO:0004540//molecular function| RNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003964//molecular function| DNA-d
ological process| cytoskeleton organization and biogenesis | inferred from genetic interaction |GO:0007010//biological process| response to stress | inferre
rred from direct assay|GO:0005634//biological process| histone ubiquitination | inferred from mutant phenotype|GO:0016574//biological process| histone m
uthor statement |GO:0000155//cellular component| plasma membrane | inferred from sequence similarity|GO:0005886//biological process| response to hy
:0000123//biological process| histone acetylation | inferred from physical interaction|GO:0016573//biological process| chromatin modification | inferred from
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
| inferred from mutant phenotype |GO:0006164
m direct assay |GO:0000131//biological process| polar budding | inferred from mutant phenotype|GO:0007121//biological process| cell wall organization a
ellular component| pre-replicative complex | inferred from direct assay |GO:0005656//cellular component| nucleus | inferred from direct assay |GO:0005634
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
151//biological process| ubiquitin-dependent protein catabolism | traceable author statement|GO:0006511//biological process| G2/M transition of mitotic ce
| mitochondrial large ribosomal subunit | inferred from physical interaction |GO:0005762//biological process| aerobic respiration | inferred from mutant phe
30508//molecular function| thiol-disulfide exchange intermediate activity | inferred from direct assay |GO:0030508//cellular component| mitochondrial matri
ed from direct assay|GO:0005829//cellular component| soluble fraction | inferred from direct assay |GO:0005625//biological process| vesicle-mediated tran
glycoprotein maturation | non-traceable author statement|GO:0006492
cal process| tubulin folding | inferred from sequence similarity|GO:0007021//biological process| tubulin folding | inferred from mutant phenotype |GO:00070
ort | inferred from mutant phenotype |GO:0006888//biological process| ER to Golgi transport | inferred from genetic interaction |GO:0006888
during conjugation with cellular fusion | inferred from mutant phenotype |GO:0000754
y |GO:0005743//cellular component| mitochondrial inner membrane | inferred from direct assay |GO:0005743//cellular component| cytoplasm | inferred from
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
ble author statement|GO:0007005//biological process| iron ion homeostasis | inferred from direct assay |GO:0006879
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
of transcription, DNA-dependent | inferred from physical interaction|GO:0006355//biological process| regulation of transcription, DNA-dependent | inferred
ganization and biogenesis | traceable author statement|GO:0030036//biological process| response to heat | inferred from sequence similarity |GO:0009408
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
thionine metabolism | inferred from mutant phenotype|GO:0006555//biological process| transcription from Pol II promoter | inferred from mutant phenotype
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
e author statement |GO:0000172//biological process| tRNA processing | traceable author statement|GO:0008033//biological process| rRNA processing | tra
utant phenotype|GO:0016074//biological process| RNA catabolism | inferred from mutant phenotype |GO:0006401//biological process| RNA catabolism | in
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
bud site | inferred from direct assay |GO:0000131//biological process| cellular morphogenesis during conjugation with cellular fusion | traceable author state
odeling | traceable author statement|GO:0006338
//biological process| iron ion homeostasis | inferred from genetic interaction |GO:0006879
tatement|GO:0006468//biological process| regulation of transcription from Pol II promoter | traceable author statement |GO:0006357
n | inferred from direct assay |GO:0000267//biological process| mitotic spindle assembly (sensu Fungi) | inferred from mutant phenotype|GO:0030472//biol
//biological process| ubiquitin-dependent protein catabolism | traceable author statement|GO:0006511
d from physical interaction |GO:0005847//biological process| mRNA cleavage | traceable author statement|GO:0006379//biological process| mRNA cleavag
pre-rRNA | inferred from mutant phenotype |GO:0030490
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
tant phenotype|GO:0006281
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
ponent| plasma membrane | inferred from direct assay|GO:0005886//biological process| sodium ion transport | inferred from mutant phenotype|GO:00068
say |GO:0003677//cellular component| nucleus | traceable author statement|GO:0005634//biological process| positive regulation of transcription from Pol I
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
e|GO:0006364
mic reticulum membrane | inferred from genetic interaction |GO:0005789//biological process| ubiquitin-dependent protein catabolism | inferred from geneti
|GO:0045876//biological process| positive regulation of sister chromatid cohesion | inferred from genetic interaction |GO:0045876
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
thesis | inferred from mutant phenotype|GO:0009113//biological process| purine base biosynthesis | inferred from direct assay |GO:0009113//biological pro
s | inferred from genetic interaction |GO:0006950//biological process| proteolysis and peptidolysis | inferred from genetic interaction |GO:0006508//biologic
erred from mutant phenotype |GO:0000781//biological process| DNA recombination | traceable author statement|GO:0006310//biological process| double-s
otype|GO:0007001//biological process| DNA recombination | inferred from mutant phenotype |GO:0006310//biological process| telomere maintenance | in
ssay |GO:0005634//biological process| response to salt stress | inferred from mutant phenotype|GO:0009651//biological process| signal transduction | infe
t |GO:0005730//biological process| processing of 20S pre-rRNA | inferred from physical interaction|GO:0030490//biological process| rRNA processing | tra
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
mponent| cytosol | inferred from direct assay |GO:0005829//biological process| protein biosynthesis | inferred from physical interaction|GO:0006412//biolog
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
nt| incipient bud site | inferred from direct assay |GO:0000131//biological process| regulation of cell shape | inferred from genetic interaction|GO:0008360//b
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
y|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| positive regulation of transcription from Pol II pro
ferred from mutant phenotype |GO:0006303
biological process| chromatin remodeling | inferred from mutant phenotype |GO:0006338//biological process| chromatin remodeling | inferred from genetic
gral to endoplasmic reticulum membrane | inferred from direct assay|GO:0030176//biological process| protein-ER targeting | inferred from mutant phenoty
ferred from direct assay |GO:0006468//biological process| regulation of translational initiation | inferred from direct assay |GO:0006446
inferred from mutant phenotype|GO:0006783
GO:0007131//biological process| DNA repair | inferred from mutant phenotype |GO:0006281
type|GO:0007064//biological process| chromosome segregation | inferred from direct assay |GO:0007059
action |GO:0007266//biological process| establishment of cell polarity (sensu Saccharomyces) | inferred from mutant phenotype |GO:0000283
statement |GO:0006537
type|GO:0006449
d from mutant phenotype|GO:0000398
tant phenotype |GO:0000032
inferred from physical interaction|GO:0006402//biological process| 35S primary transcript processing | traceable author statement |GO:0006365
34//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| poly(A)+ mRNA-nucleus export | inferred from physical inter
m direct assay |GO:0030479//biological process| polar budding | inferred from mutant phenotype|GO:0007121//biological process| response to osmotic stre
5937//cellular component| integral to plasma membrane | traceable author statement |GO:0005887//biological process| peptide pheromone export | traceab
eable author statement|GO:0006357//biological process| glucose metabolism | traceable author statement |GO:0006006
sis (sensu Eukarya) | inferred from mutant phenotype |GO:0007001//biological process| DNA unwinding | inferred from direct assay |GO:0006268//biologica
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
erred from genetic interaction |GO:0009272
d from physical interaction |GO:0000059//biological process| protein-nucleus import, docking | inferred from mutant phenotype |GO:0000059
cle | inferred from mutant phenotype |GO:0007089
process| meiosis | inferred from mutant phenotype|GO:0007126//biological process| meiosis | inferred from genetic interaction |GO:0007126//biological pro
n biosynthesis | traceable author statement|GO:0006412//biological process| ribosomal large subunit assembly and maintenance | inferred from sequence
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
protein biosynthesis | inferred from physical interaction|GO:0006412//biological process| protein biosynthesis | inferred from mutant phenotype |GO:00064
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
process| mitotic recombination | inferred from mutant phenotype|GO:0006312//biological process| DNA recombination | inferred from mutant phenotype |G
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
05737//biological process| pantothenate biosynthesis | inferred from mutant phenotype|GO:0015940//biological process| polyamine catabolism | inferred fr
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
assay |GO:0005743//biological process| protein biosynthesis | inferred from mutant phenotype|GO:0006412//biological process| Group I intron splicing | in
ect assay|GO:0016567//biological process| cell cycle | traceable author statement |GO:0007049//biological process| ubiquitin-dependent protein catabolism
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
uitin-dependent protein catabolism | non-traceable author statement |GO:0006511//biological process| protein biosynthesis | traceable author statement |G
omplex | inferred from direct assay|GO:0042719//cellular component| mitochondrial intermembrane space | traceable author statement |GO:0005758//biolo
ss| sterol transport | inferred from mutant phenotype|GO:0015918//biological process| regulation of transcription from Pol II promoter | inferred from seque
mutant phenotype |GO:0005774//biological process| polyamine transport | inferred from mutant phenotype|GO:0015846
process| negative regulation of transcription from Pol II promoter, mitotic | traceable author statement|GO:0007070//biological process| transcription initia
nteraction|GO:0030162//biological process| regulation of proteolysis and peptidolysis | inferred from direct assay |GO:0030162
tion | inferred from physical interaction|GO:0007264//biological process| bud growth | inferred from physical interaction |GO:0007117//biological process| c
sequence similarity|GO:0005886//biological process| carbohydrate transport | inferred from sequence similarity|GO:0008643//biological process| carbohyd
assay |GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| removal of tRNA 3'-trailer sequence | inferr
006338//biological process| chromatin remodeling | inferred from genetic interaction |GO:0006338//biological process| chromatin remodeling | inferred from
ation | inferred from mutant phenotype |GO:0007130
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
om mutant phenotype |GO:0016192
64//biological process| ribosomal large subunit assembly and maintenance | traceable author statement |GO:0000027//biological process| ribosomal large
0//cellular component| nucleolus | inferred from direct assay |GO:0005730//biological process| processing of 27S pre-rRNA | inferred from mutant phenoty
s| multidrug transport | inferred from expression pattern |GO:0006855
utant phenotype|GO:0015893//biological process| monocarboxylic acid transport | inferred from mutant phenotype |GO:0015718
statement |GO:0000162
eus | inferred from direct assay |GO:0005634//biological process| ER-associated protein catabolism | inferred from mutant phenotype|GO:0030433//biologi
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
m mutant phenotype |GO:0007118//biological process| protein amino acid phosphorylation | traceable author statement |GO:0006468//biological process|
protein biosynthesis | inferred from physical interaction|GO:0006412
r statement |GO:0016579
6023//cellular component| endosome | traceable author statement |GO:0005768//biological process| iron-siderochrome transport | inferred from mutant ph
om direct assay|GO:0006749
of mitotic cell cycle | inferred from mutant phenotype |GO:0000082//biological process| G1/S transition of mitotic cell cycle | inferred from genetic interactio
e|GO:0000226//biological process| nuclear migration (sensu Saccharomyces) | inferred from mutant phenotype |GO:0000065
enotype |GO:0000256
tant phenotype|GO:0006882//biological process| zinc ion homeostasis | inferred from genetic interaction |GO:0006882//biological process| copper ion hom
su Saccharomyces) | inferred from mutant phenotype|GO:0007103//biological process| microtubule nucleation | inferred from physical interaction |GO:000
author statement|GO:0009229//biological process| thiamin diphosphate biosynthesis | inferred from mutant phenotype |GO:0009229
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
ement|GO:0042183//biological process| formate catabolism | inferred from genetic interaction |GO:0042183//biological process| NADH regeneration | trace
e|GO:0009060//biological process| protein complex assembly | inferred from mutant phenotype |GO:0006461
al interaction |GO:0006465//biological process| signal peptide processing | inferred from mutant phenotype |GO:0006465//biological process| signal peptid
henotype|GO:0009102//biological process| biotin biosynthesis | inferred from direct assay |GO:0009102
O:0007064//biological process| DNA repair | inferred from mutant phenotype |GO:0006281//biological process| DNA repair | inferred from genetic interactio
tern |GO:0045026
osphoprotein phosphatase activity | inferred from genetic interaction |GO:0004721//cellular component| mRNA cleavage and polyadenylation specificity fa
:0006883//biological process| sodium ion homeostasis | inferred from genetic interaction |GO:0006883
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
ion |GO:0006333//biological process| DNA-dependent DNA replication | inferred from physical interaction |GO:0006261
repair | inferred from direct assay |GO:0006281
excision repair factor 3 complex | traceable author statement |GO:0000112//biological process| negative regulation of transcription from Pol II promoter, mi
e transport | inferred from direct assay|GO:0015847//biological process| transport | traceable author statement |GO:0006810
uence similarity |GO:0006468
on inheritance | traceable author statement |GO:0000001
d growth | inferred from genetic interaction |GO:0007117//biological process| nucleosome assembly | inferred from sequence similarity |GO:0006334//biolog
enotype|GO:0030447//biological process| cell aging | inferred from mutant phenotype |GO:0007569//biological process| signal transduction | inferred from m
pre-rRNA | inferred from mutant phenotype |GO:0030490
mponent| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634
protein-vacuolar targeting | inferred from physical interaction|GO:0006623//biological process| protein-vacuolar targeting | inferred from mutant phenotype
nt| cytoplasm | inferred from direct assay |GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| poly(A)+
sm | traceable author statement|GO:0006511
raction | inferred from sequence similarity |GO:0005624//biological process| actin cytoskeleton organization and biogenesis | traceable author statement|G
atid segregation | inferred from mutant phenotype |GO:0000070//biological process| nuclear migration (sensu Saccharomyces) | inferred from mutant phen
mutant phenotype |GO:0006873//biological process| protein amino acid phosphorylation | inferred from direct assay |GO:0006468//biological process| regu
um ion homeostasis | inferred from mutant phenotype|GO:0006874//biological process| calcium ion transport | inferred from sequence similarity |GO:00068
inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| regulation of cell redox
cal process| vesicle organization and biogenesis | inferred from physical interaction|GO:0016050//biological process| vesicle organization and biogenesis
rred from sequence similarity|GO:0006468//biological process| G1/S transition of mitotic cell cycle | inferred from genetic interaction |GO:0000082
nt| plasma membrane | inferred from direct assay |GO:0005886//biological process| small GTPase mediated signal transduction | traceable author stateme
al process| sporulation (sensu Fungi) | traceable author statement|GO:0030437//biological process| response to stress | traceable author statement |GO:00
GO:0000086//biological process| regulation of cyclin dependent protein kinase activity | inferred from mutant phenotype |GO:0000079//biological process|
or statement |GO:0006611//biological process| ribosomal protein-nucleus import | traceable author statement |GO:0006610//biological process| mRNA-bin
ribonucleoprotein complex | inferred from physical interaction |GO:0005732//biological process| processing of 20S pre-rRNA | inferred from physical intera
ological process| protein amino acid phosphorylation | traceable author statement |GO:0006468//biological process| G2/M transition of mitotic cell cycle | t
O:0005847//biological process| transcription termination from Pol II promoter, poly(A)-independent | inferred from physical interaction|GO:0030847//biologi
ctivity, rotational mechanism | inferred from mutant phenotype |GO:0046933//cellular component| proton-transporting ATP synthase, central stalk (sensu E
m mutant phenotype |GO:0006950
D-ribose metabolism | inferred from sequence similarity|GO:0006014
odeling | traceable author statement|GO:0006338
inferred from genetic interaction |GO:0006511
nt phenotype|GO:0007532//biological process| regulation of transcription, mating-type specific | inferred from direct assay |GO:0007532
from physical interaction|GO:0006888
s| cytoskeleton organization and biogenesis | traceable author statement|GO:0007010//biological process| protein folding | traceable author statement |GO
ssay |GO:0005634//biological process| mRNA-binding (hnRNP) protein-nucleus import | inferred from sequence similarity|GO:0006609//biological process
05724//cellular component| chromatin silencing complex | inferred from direct assay |GO:0005677//cellular component| nuclear telomere cap complex | inf
translation initiation factor 3 complex | inferred from physical interaction|GO:0005852//cellular component| eukaryotic translation initiation factor 3 complex
biological process| regulation of glycogen biosynthesis | inferred from genetic interaction |GO:0005979
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
ungi) | inferred from direct assay|GO:0009277//biological process| agglutination during conjugation with cellular fusion | inferred from mutant phenotype|G
exadecanal biosynthesis | inferred from sequence similarity|GO:0006634//biological process| hexadecanal biosynthesis | inferred from mutant phenotype |
05819//cellular component| spindle pole body | inferred from direct assay |GO:0005816//cellular component| condensed nuclear chromosome kinetochore
biological process| response to stress | inferred from genetic interaction |GO:0006950
0005935//cellular component| nucleus | inferred from direct assay |GO:0005634//cellular component| incipient bud site | inferred from direct assay |GO:00
n from Pol II promoter | inferred from mutant phenotype|GO:0000122//biological process| negative regulation of transcription from Pol II promoter | inferred
latory particle (sensu Eukarya) | traceable author statement |GO:0005838//cellular component| nucleus | inferred from direct assay |GO:0005634//biologica
//biological process| ribosomal large subunit assembly and maintenance | inferred from sequence similarity |GO:0000027//biological process| ribosomal la
outer membrane | inferred from direct assay |GO:0005741//cellular component| nuclear inner membrane | traceable author statement |GO:0005637//cellu
54//biological process| ribosome-nucleus export | inferred from physical interaction |GO:0000054//biological process| ribosome-nucleus export | inferred fr
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
latory particle (sensu Eukarya) | traceable author statement |GO:0005838//biological process| ubiquitin-dependent protein catabolism | traceable author st
rred from mutant phenotype|GO:0010044//biological process| regulation of nitrogen utilization | inferred from physical interaction |GO:0006808//biological p
ar component| nucleus | inferred from direct assay |GO:0005634//biological process| nucleoside catabolism | inferred from mutant phenotype|GO:0009164
O:0016591//cellular component| nucleus | inferred from physical interaction |GO:0005634//biological process| mRNA capping | inferred from direct assay|GO
ent|GO:0006365
rect assay |GO:0000324//biological process| homotypic vacuole fusion, non-autophagic | inferred from mutant phenotype|GO:0042145//biological process
, via spliceosome | inferred from physical interaction |GO:0000398
742//biological process| mitochondrial outer membrane protein import | inferred from mutant phenotype|GO:0045040//biological process| mitochondrial ma
| re-entry into mitotic cell cycle after pheromone arrest | inferred from genetic interaction |GO:0000321
| traceable author statement |GO:0006270//biological process| DNA replication, synthesis of RNA primer | traceable author statement |GO:0006269
ase activity | inferred from expression pattern |GO:0004410//cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| lysin
nteraction|GO:0009966//biological process| regulation of signal transduction | inferred from mutant phenotype |GO:0009966
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
d from physical interaction|GO:0007062//biological process| mismatch repair | traceable author statement |GO:0006298//biological process| leading strand
e kinetochore | inferred from direct assay |GO:0000778//biological process| chromosome segregation | inferred from mutant phenotype|GO:0007059
tant phenotype|GO:0009231
al initiation | inferred from physical interaction |GO:0006413
r component| membrane | inferred from sequence similarity|GO:0016020//biological process| phosphate transport | inferred from sequence similarity|GO:0
erred from mutant phenotype |GO:0007064
statement|GO:0005634//biological process| response to xenobiotic stimulus | inferred from mutant phenotype|GO:0009410
bly | traceable author statement|GO:0000391
phorylation | inferred from physical interaction|GO:0006468//biological process| protein amino acid phosphorylation | inferred from direct assay |GO:000646
73//biological process| ribosomal large subunit biogenesis | inferred from mutant phenotype |GO:0042273//biological process| mRNA localization, intracellu
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
tein processing | inferred from genetic interaction |GO:0016485//biological process| protein processing | inferred from direct assay |GO:0016485//biologica
(sensu Fungi) | inferred from mutant phenotype|GO:0030437//biological process| sporulation (sensu Fungi) | inferred from expression pattern |GO:003043
pre-rRNA | inferred from mutant phenotype |GO:0030490
GO:0006296//biological process| double-strand break repair via single-strand annealing, removal of nonhomologous ends | traceable author statement |G
rom direct assay|GO:0005737//biological process| vitamin B2 biosynthesis | inferred from mutant phenotype|GO:0009231
glycoprotein maturation | inferred from mutant phenotype |GO:0006492//biological process| protein folding | inferred from mutant phenotype |GO:0006457
direct assay |GO:0000306//biological process| late endosome to vacuole transport | inferred from genetic interaction|GO:0045324//biological process| hom
nt| plasma membrane | inferred from direct assay |GO:0005886//biological process| small GTPase mediated signal transduction | traceable author stateme
nent| site of polarized growth (sensu Saccharomyces) | inferred from direct assay |GO:0000134//biological process| polar budding | inferred from mutant p
nferred from direct assay |GO:0005774//cellular component| cytoplasm | inferred from direct assay |GO:0005737//cellular component| membrane fraction |
atement |GO:0006611//biological process| ribosomal protein-nucleus import | traceable author statement |GO:0006610//biological process| mRNA-binding
ant phenotype |GO:0006425
ptidase activity | inferred from direct assay |GO:0008234//cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| chromo
ytoplasm | traceable author statement |GO:0005737//biological process| pseudohyphal growth | inferred from mutant phenotype|GO:0007124//biological p
plex, coupling factor F(o) (sensu Eukarya) | inferred from physical interaction|GO:0000276//cellular component| proton-transporting ATP synthase complex
ay|GO:0006797
able author statement|GO:0006412
on|GO:0000722
mutant phenotype |GO:0006334//biological process| DNA repair | inferred from mutant phenotype |GO:0006281
t organization | traceable author statement |GO:0007015
from direct assay |GO:0005783//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| zinc ion homeostasis | inferred
m direct assay|GO:0006412
l interaction|GO:0006397//biological process| mRNA processing | inferred from mutant phenotype |GO:0006397//biological process| postreplication repair
0005634//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| regulation of transcription | traceable author statemen
7165//biological process| M phase of mitotic cell cycle | inferred from mutant phenotype |GO:0000087
raction|GO:0007034//biological process| vacuolar transport | inferred from mutant phenotype |GO:0007034//biological process| protein-vacuolar targeting |
on | traceable author statement|GO:0007265//biological process| chromatin silencing | inferred from mutant phenotype |GO:0006342//biological process| n
mutant phenotype |GO:0000398
| cell growth and/or maintenance | inferred from mutant phenotype|GO:0008151//biological process| negative regulation of transcription from Pol II promote
om physical interaction |GO:0000398
gical process| protein amino acid phosphorylation | inferred from direct assay |GO:0006468
ment complex | traceable author statement |GO:0000243//cellular component| commitment complex | inferred from physical interaction |GO:0000243//biolo
| traceable author statement|GO:0016573//biological process| chromatin modification | traceable author statement |GO:0016568//biological process| prote
ct assay |GO:0005737//biological process| regulation of transcription from Pol II promoter | inferred from physical interaction|GO:0006357//biological proce
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
cal process| peroxisome organization and biogenesis | inferred from mutant phenotype|GO:0007031//biological process| regulation of transcription from Po
0000276//cellular component| proton-transporting ATP synthase complex, coupling factor F(o) (sensu Eukarya) | inferred from physical interaction |GO:000
outer membrane | inferred from direct assay |GO:0005741//cellular component| nuclear inner membrane | traceable author statement |GO:0005637//cellu
9//cellular component| mRNA cleavage and polyadenylation specificity factor complex | traceable author statement |GO:0005847//biological process| mRN
nt|GO:0005743//biological process| ubiquinone metabolism | inferred from mutant phenotype|GO:0006743
exocyst | inferred from physical interaction |GO:0000145//biological process| polar budding | inferred from mutant phenotype|GO:0007121//biological proce
assay |GO:0019915//biological process| triacylglycerol biosynthesis | inferred from mutant phenotype |GO:0019432//biological process| triacylglycerol bios
yme complex | inferred from direct assay |GO:0005697//cellular component| nucleus | inferred from direct assay |GO:0005634//cellular component| telome
| inferred from curator |GO:0005737//cellular component| nucleus | inferred from physical interaction |GO:0005634//cellular component| nucleus | inferred
ed from physical interaction|GO:0006357//biological process| poly(A) tail shortening | inferred from mutant phenotype |GO:0000289//biological process| po
raction|GO:0006950//biological process| response to stress | inferred from mutant phenotype |GO:0006950//biological process| response to stress | inferre
| protein folding | inferred from genetic interaction |GO:0006457
me remodeling complex | traceable author statement |GO:0005679//cellular component| transcription factor TFIIF complex | traceable author statement |GO
9//biological process| mitochondrial electron transport, succinate to ubiquinone | traceable author statement|GO:0006121//biological process| tricarboxylic a
/biological process| ER to Golgi transport | inferred from mutant phenotype|GO:0006888
0005635//cellular component| nuclear chromatin | traceable author statement |GO:0000790//biological process| chromatin silencing | inferred from mutant
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
cretion | inferred from mutant phenotype |GO:0009306//biological process| phosphatidylethanolamine biosynthesis | inferred from mutant phenotype |GO:0
| inferred from direct assay|GO:0005779//biological process| fatty acid transport | inferred from mutant phenotype|GO:0015908
erase activity | inferred from direct assay |GO:0004161//cellular component| cytosol | traceable author statement|GO:0005829//biological process| farnesyl
ding | inferred from mutant phenotype|GO:0007121//biological process| vesicle fusion | traceable author statement |GO:0006906//biological process| vesic
m mutant phenotype|GO:0030476//biological process| meiosis | traceable author statement |GO:0007126
/biological process| sister chromatid cohesion | inferred from physical interaction|GO:0007062//biological process| mismatch repair | traceable author state
phagic | inferred from mutant phenotype|GO:0042145//biological process| homotypic vacuole fusion, non-autophagic | inferred from direct assay |GO:0042
ological process| transcription from mitochondrial promoter | inferred from mutant phenotype |GO:0006390//biological process| transcription from Pol II pro
cess| gluconeogenesis | traceable author statement |GO:0006094
esis | inferred from curator |GO:0006412
mutant phenotype |GO:0007035//biological process| vacuolar acidification | inferred from genetic interaction |GO:0007035
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
y|GO:0005737//biological process| biotin biosynthesis | inferred from mutant phenotype|GO:0009102//biological process| biotin biosynthesis | inferred from
inferred from physical interaction|GO:0006402//biological process| 35S primary transcript processing | traceable author statement |GO:0006365
cleus | inferred from direct assay |GO:0005634//biological process| signal transduction | inferred from mutant phenotype|GO:0007165//biological process| c
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
ort | inferred from mutant phenotype|GO:0015680//biological process| copper ion transport | traceable author statement |GO:0006825
9541//biological process| glutamate biosynthesis | traceable author statement |GO:0006537//biological process| citrate metabolism | traceable author state
action|GO:0016575
O:0005576//biological process| cytokinesis, completion of separation | inferred from sequence similarity|GO:0007109//biological process| cytokinesis, comp
e |GO:0005977//biological process| glycogen metabolism | inferred from genetic interaction |GO:0005977
eable author statement |GO:0006189//biological process| purine ribonucleoside salvage | traceable author statement |GO:0006166//biological process| try
mponent| polarisome | traceable author statement |GO:0000133//cellular component| incipient bud site | inferred from direct assay |GO:0000131//biologica
| traceable author statement |GO:0006270//biological process| DNA replication, synthesis of RNA primer | traceable author statement |GO:0006269//biolog
assay |GO:0005634//biological process| transcription from Pol III promoter | traceable author statement|GO:0006383
n biosynthesis | traceable author statement|GO:0006412
ess| cytoskeleton organization and biogenesis | inferred from mutant phenotype|GO:0007010//biological process| protein folding | inferred from sequence s
mbrane | inferred from direct assay |GO:0005635//biological process| ergosterol biosynthesis | traceable author statement|GO:0006696
ctivator activity | inferred from direct assay |GO:0005097//cellular component| Golgi apparatus | inferred from direct assay|GO:0005794//biological process|
7124//biological process| protein amino acid phosphorylation | inferred from direct assay |GO:0006468//biological process| signal transduction during conju
interaction |GO:0006808//biological process| transcription | traceable author statement |GO:0006350
0006396//biological process| DNA replication | traceable author statement |GO:0006260
inferred from physical interaction|GO:0006402//biological process| 35S primary transcript processing | traceable author statement |GO:0006365
r component| cytosol | inferred from direct assay|GO:0005829//cellular component| peroxisome | inferred from direct assay |GO:0005777//biological proce
ction |GO:0009651//biological process| actin filament organization | traceable author statement |GO:0007015//biological process| actin filament organizatio
7136//molecular function| NAD-dependent histone deacetylase activity | inferred from direct assay |GO:0017136//cellular component| histone deacetylase
/biological process| conjugation with cellular fusion | inferred from genetic interaction|GO:0000747
iological process| processing of 20S pre-rRNA | inferred from sequence similarity|GO:0030490//biological process| processing of 20S pre-rRNA | inferred f
GO:0001405//biological process| mitochondrial matrix protein import | inferred from mutant phenotype|GO:0030150
mating-type cassette (sensu Fungi) | traceable author statement|GO:0030466//biological process| DNA replication initiation | traceable author statement |G
ed from physical interaction |GO:0005634//biological process| sterol biosynthesis | inferred from mutant phenotype|GO:0016126//biological process| steroid
cation | inferred from mutant phenotype|GO:0000154
ype |GO:0008053//biological process| mitochondrion organization and biogenesis | traceable author statement |GO:0007005
ocess| G1-specific transcription in mitotic cell cycle | inferred from physical interaction |GO:0000114
gical process| transport | inferred from mutant phenotype |GO:0006810
pe |GO:0000747//biological process| ribosome-nucleus export | inferred from physical interaction |GO:0000054//biological process| ribosome-nucleus expo
gical process| nuclear mRNA splicing, via spliceosome | inferred from mutant phenotype |GO:0000398
physical interaction |GO:0007015//biological process| endocytosis | inferred from mutant phenotype |GO:0006897//biological process| cytokinesis | inferre
enotype|GO:0030488
ological process| MAPKKK cascade during cell wall biogenesis | inferred from mutant phenotype |GO:0000196//biological process| MAPKKK cascade duri
007103//biological process| spindle pole body duplication (sensu Saccharomyces) | inferred from genetic interaction |GO:0007103//biological process| reg
teraction |GO:0000123//biological process| histone acetylation | inferred from direct assay|GO:0016573//biological process| chromatin silencing at telomer
all ribosomal subunit | inferred from direct assay |GO:0005763//biological process| protein biosynthesis | traceable author statement|GO:0006412//biologic
n from Pol II promoter | traceable author statement |GO:0006357
m genetic interaction|GO:0006457
rom genetic interaction |GO:0006279//biological process| G2/M transition of mitotic cell cycle | inferred from mutant phenotype |GO:0000086//biological pr
cessing | traceable author statement|GO:0006365//biological process| rRNA modification | traceable author statement |GO:0000154
e (sensu Eukarya) | inferred from direct assay |GO:0005838//biological process| ubiquitin-dependent protein catabolism | inferred from physical interaction|
ment|GO:0045910//biological process| DNA replication | traceable author statement |GO:0006260//biological process| telomere maintenance | traceable au
ay |GO:0000794//biological process| meiotic recombination | inferred from mutant phenotype|GO:0007131//biological process| meiosis | inferred from muta
0000276//cellular component| proton-transporting ATP synthase complex, coupling factor F(o) (sensu Eukarya) | inferred from physical interaction |GO:000
hysical interaction |GO:0006873//biological process| protein amino acid phosphorylation | inferred from direct assay |GO:0006468//biological process| reg
ferred from curator |GO:0000784//biological process| chromatin silencing at telomere | inferred from direct assay|GO:0006348
utant phenotype |GO:0005737//biological process| acetate biosynthesis | inferred from mutant phenotype|GO:0019413
rred from mutant phenotype|GO:0019318//biological process| hexose metabolism | inferred from genetic interaction |GO:0019318//biological process| prot
| traceable author statement |GO:0006270//biological process| DNA replication, synthesis of RNA primer | traceable author statement |GO:0006269//biolog
m | inferred from genetic interaction |GO:0006259
assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| calcium-mediated signaling | inferred from
component| nucleus | inferred from direct assay |GO:0005634//cellular component| cytoplasmic mRNA processing body | inferred from direct assay |GO:00
on | inferred from mutant phenotype |GO:0009267//biological process| sphingolipid metabolism | inferred from mutant phenotype |GO:0006665//biological p
ing | inferred from mutant phenotype |GO:0006623
2//biological process| snoRNA metabolism | inferred from mutant phenotype|GO:0016074//biological process| 35S primary transcript processing | inferred f
biological process| DNA replication initiation | traceable author statement |GO:0006270//biological process| pre-replicative complex formation and mainten
red from mutant phenotype|GO:0006281//biological process| DNA repair | inferred from genetic interaction |GO:0006281//biological process| lagging stran
n biosynthesis | traceable author statement|GO:0006412
770//biological process| vacuolar transport | inferred from mutant phenotype|GO:0007034//biological process| vacuolar transport | inferred from genetic inte
68//biological process| Golgi to vacuole transport | inferred from mutant phenotype|GO:0006896
437//biological process| RAS protein signal transduction | traceable author statement |GO:0007265//biological process| adenylate cyclase activation | trace
68//cellular component| mitochondrion | inferred from sequence similarity|GO:0005739//cellular component| mitochondrion | inferred from mutant phenotyp
7//cellular component| integral to plasma membrane | inferred from direct assay |GO:0005887//biological process| signal transduction during conjugation w
rocess| vacuolar transport | inferred from sequence similarity|GO:0007034//biological process| vacuolar transport | inferred from genetic interaction |GO:00
, via spliceosome | inferred from physical interaction |GO:0000398
Golgi to plasma membrane transport | traceable author statement |GO:0006893
ellular component| pre-replicative complex | inferred from direct assay |GO:0005656//cellular component| nucleus | inferred from direct assay |GO:0005634
ess| mitochondrial inner membrane protein import | inferred from physical interaction|GO:0045039//biological process| mitochondrial inner membrane prote
pre-rRNA | inferred from mutant phenotype |GO:0030490
essing | inferred from direct assay|GO:0006364//biological process| DNA replication initiation | inferred from direct assay |GO:0006270
ed from physical interaction |GO:0006365//biological process| 35S primary transcript processing | inferred from mutant phenotype |GO:0006365//biological
ly | inferred from mutant phenotype |GO:0006461
ein-peroxisome targeting | inferred from physical interaction|GO:0006625//biological process| protein-peroxisome targeting | inferred from mutant phenotyp
cellular component| cytoplasm | inferred from direct assay |GO:0005737//cellular component| pre-replicative complex | inferred from direct assay |GO:0005
chromatid segregation | inferred from mutant phenotype |GO:0000070
7136//molecular function| NAD-dependent histone deacetylase activity | inferred from direct assay |GO:0017136//cellular component| histone deacetylase
esis | inferred from mutant phenotype |GO:0006038//biological process| cytokinesis | inferred from mutant phenotype |GO:0000910
quence similarity |GO:0005993//biological process| trehalose catabolism | inferred from mutant phenotype |GO:0005993//biological process| trehalose cat
t |GO:0006464
nferred from mutant phenotype |GO:0006448
id segregation | inferred from mutant phenotype|GO:0000070
pre-rRNA | inferred from mutant phenotype |GO:0030490
enotype|GO:0006646
mponent| DNA-directed RNA polymerase II, holoenzyme | inferred from direct assay|GO:0016591//cellular component| transcription elongation factor comp
ay |GO:0005634//biological process| sporulation (sensu Fungi) | inferred from mutant phenotype|GO:0030437//biological process| ultradian rhythm | inferre
l process| tRNA modification | inferred from direct assay |GO:0006400
ribosomal large subunit-nucleus export | inferred from mutant phenotype|GO:0000055
etabolism | traceable author statement|GO:0019674
gical process| protein amino acid phosphorylation | inferred from direct assay |GO:0006468
mutant phenotype |GO:0006508//biological process| replicative cell aging | inferred from mutant phenotype |GO:0001302
by glucose | inferred from mutant phenotype |GO:0045014//biological process| protein-vacuolar targeting | inferred from physical interaction |GO:0006623
om mutant phenotype|GO:0015892//biological process| iron ion homeostasis | inferred from mutant phenotype |GO:0006879//biological process| iron ion h
ogical process| protein-lipoylation | inferred from mutant phenotype |GO:0009249
enotype|GO:0006747//biological process| FAD biosynthesis | inferred from direct assay |GO:0006747
esponse to heat | inferred from physical interaction|GO:0009408//biological process| response to heat | inferred from mutant phenotype |GO:0009408//biolo
er | inferred from direct assay|GO:0045944//biological process| multidrug transport | inferred from mutant phenotype |GO:0006855
pre-rRNA | inferred from mutant phenotype |GO:0030490
ological process| mRNA metabolism | inferred from mutant phenotype|GO:0016071
d from mutant phenotype|GO:0019915//biological process| triacylglycerol biosynthesis | inferred from mutant phenotype |GO:0019432//biological process|
aintenance | traceable author statement |GO:0000027
nent| proton-transporting ATP synthase, stator stalk (sensu Eukarya) | traceable author statement|GO:0000274//cellular component| proton-transporting A
cal process| tubulin folding | inferred from sequence similarity|GO:0007021//biological process| tubulin folding | inferred from mutant phenotype |GO:00070
me maintenance | inferred from mutant phenotype |GO:0000002
O:0006338//biological process| chromatin remodeling | inferred from genetic interaction |GO:0006338//biological process| chromatin remodeling | inferred fr
ctivity | inferred from genetic interaction |GO:0005353//cellular component| plasma membrane | inferred from sequence similarity|GO:0005886//biological p
ological process| ubiquitin-dependent protein catabolism | traceable author statement|GO:0006511
ansport | inferred from genetic interaction |GO:0006893//biological process| exocytosis | inferred from genetic interaction |GO:0006887
e similarity|GO:0006430//biological process| lysyl-tRNA aminoacylation | inferred from mutant phenotype |GO:0006430
d from physical interaction |GO:0005847//biological process| mRNA cleavage | traceable author statement|GO:0006379//biological process| mRNA cleavag
om physical interaction|GO:0007266//biological process| polar budding | traceable author statement |GO:0007121//biological process| actin filament organi
5828//biological process| microtubule/kinetochore interaction | inferred from mutant phenotype|GO:0008608//biological process| chromosome segregation
|GO:0006412
e similarity |GO:0000209//biological process| protein polyubiquitination | inferred from mutant phenotype |GO:0000209
cess| negative regulation of transcription from Pol II promoter, mitotic | traceable author statement|GO:0007070//biological process| protein amino acid ph
on | inferred from mutant phenotype|GO:0006470//biological process| protein amino acid dephosphorylation | inferred from direct assay |GO:0006470
005634//biological process| RNA processing | inferred from direct assay|GO:0006396
005737//cellular component| cytoplasmic mRNA processing body | inferred from mutant phenotype |GO:0000932//cellular component| cytoplasmic mRNA
biological process| regulation of glycogen biosynthesis | inferred from mutant phenotype |GO:0005979//biological process| regulation of glycogen biosynth
atement|GO:0016573//biological process| chromatin modification | traceable author statement |GO:0016568//biological process| transcription from Pol II pr
n biosynthesis | traceable author statement|GO:0006412
hin Golgi | inferred from mutant phenotype |GO:0000301
omoter | inferred from sequence similarity|GO:0045944//biological process| positive regulation of transcription from Pol II promoter | inferred from mutant p
0//biological process| regulation of S phase of mitotic cell cycle | inferred from genetic interaction |GO:0007090//biological process| protein amino acid deph
is | inferred from mutant phenotype |GO:0006094
direct assay |GO:0000172//biological process| tRNA processing | traceable author statement|GO:0008033//biological process| rRNA processing | traceab
nt| cytoplasm | inferred from direct assay |GO:0005737//biological process| cytoskeleton organization and biogenesis | traceable author statement|GO:000
raceable author statement |GO:0000144//biological process| spore wall assembly (sensu Fungi) | traceable author statement|GO:0030476//biological proc
ed from physical interaction|GO:0006357//biological process| poly(A) tail shortening | inferred from direct assay |GO:0000289
GO:0006827//biological process| copper ion transport | inferred from mutant phenotype |GO:0006825
O:0005687//cellular component| snRNP U5 | inferred from direct assay |GO:0005682//biological process| nuclear mRNA splicing, via spliceosome | tracea
sequence similarity|GO:0016021//biological process| water transport | inferred from sequence similarity|GO:0006833
ical interaction |GO:0042147
say|GO:0042147//biological process| vesicle organization and biogenesis | inferred from mutant phenotype |GO:0016050//biological process| apical bud g
ical interaction |GO:0042147
| inferred from mutant phenotype |GO:0007047//biological process| response to osmotic stress | inferred from mutant phenotype |GO:0006970//biological p
ment|GO:0006298//biological process| nucleotide-excision repair | traceable author statement |GO:0006289//biological process| lagging strand elongation |
/biological process| intracellular signaling cascade | inferred from mutant phenotype|GO:0007242
nt|GO:0042147//biological process| retrograde transport, endosome to Golgi | inferred from mutant phenotype |GO:0042147//biological process| intracellula
om expression pattern |GO:0009060//biological process| protein biosynthesis | inferred from direct assay |GO:0006412
cotinate nucleotide salvage | inferred from sequence similarity|GO:0019358//biological process| cell aging | inferred from mutant phenotype |GO:0007569//
0300//biological process| protein folding | inferred from genetic interaction|GO:0006457//biological process| karyogamy during conjugation with cellular fusi
enesis | inferred from mutant phenotype |GO:0007047//biological process| cell wall organization and biogenesis | inferred from genetic interaction |GO:000
statement|GO:0006110//biological process| fructose 2,6-bisphosphate metabolism | non-traceable author statement |GO:0006003
enetic interaction|GO:0045324//biological process| homotypic vacuole fusion, non-autophagic | inferred from direct assay |GO:0042145//biological process
etic interaction |GO:0006839
rred from direct assay|GO:0000118//biological process| chromatin silencing at silent mating-type cassette (sensu Fungi) | inferred from mutant phenotype|
proteasome regulatory particle (sensu Eukarya) | inferred from physical interaction |GO:0005838//biological process| ubiquitin-dependent protein catabolis
traceable author statement|GO:0000370
d from physical interaction|GO:0005839//cellular component| proteasome core complex (sensu Eukarya) | inferred from genetic interaction |GO:0005839//b
n biosynthesis | traceable author statement|GO:0006412//biological process| mitochondrial genome maintenance | inferred from mutant phenotype |GO:00
otype |GO:0006310//biological process| mismatch repair | inferred from mutant phenotype |GO:0006298//biological process| removal of nonhomologous en
ype |GO:0016973
ferred from direct assay|GO:0016573//biological process| regulation of transcription from Pol II promoter | inferred from mutant phenotype |GO:0006357//b
raction |GO:0030121//biological process| vesicle-mediated transport | inferred from sequence similarity|GO:0016192//biological process| vesicle-mediated
r ion | inferred from mutant phenotype|GO:0046688//biological process| transcription initiation from Pol II promoter | inferred from sequence similarity |GO:
m physical interaction |GO:0008623//cellular component| nucleus | inferred from physical interaction |GO:0005634//biological process| negative regulation o
atement |GO:0006611//biological process| ribosomal protein-nucleus import | traceable author statement |GO:0006610//biological process| mRNA-binding
say |GO:0000108//biological process| nucleotide-excision repair, DNA damage recognition | traceable author statement|GO:0000715
ent| nuclear ubiquitin ligase complex | traceable author statement |GO:0000152//cellular component| contractile ring (sensu Saccharomyces) | inferred fro
06397//biological process| mRNA processing | inferred from direct assay |GO:0006397
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
000131//biological process| actin filament organization | traceable author statement|GO:0007015//biological process| exocytosis | traceable author stateme
m direct assay |GO:0005739//biological process| methionyl-tRNA aminoacylation | inferred from sequence similarity|GO:0006431//biological process| methi
ss| sterol transport | inferred from mutant phenotype|GO:0015918//biological process| regulation of transcription from Pol II promoter | inferred from seque
le author statement|GO:0006413
all ribosomal subunit | inferred from direct assay |GO:0005763//biological process| protein biosynthesis | traceable author statement|GO:0006412//biologic
ctivity | inferred from genetic interaction |GO:0005353//cellular component| plasma membrane | inferred from sequence similarity|GO:0005886//biological p
during osmolarity sensing | traceable author statement |GO:0000168
n biosynthesis | traceable author statement|GO:0006412
nferred from direct assay |GO:0006468
pe |GO:0006364
ment |GO:0006890
Fungi) | inferred from genetic interaction|GO:0030466//biological process| establishment of chromatin silencing | inferred from mutant phenotype |GO:0006
om direct assay|GO:0005743//biological process| RNA catabolism | inferred from direct assay|GO:0006401//biological process| DNA recombination | inferr
m direct assay |GO:0005774//biological process| polyphosphate metabolism | inferred from mutant phenotype|GO:0006797//biological process| polyphosp
hondrion inheritance | inferred from genetic interaction|GO:0000001
equence similarity|GO:0000910//biological process| cytokinesis | inferred from physical interaction |GO:0000910//biological process| cytokinesis | inferred
rom physical interaction|GO:0006355//biological process| regulation of transcription, DNA-dependent | inferred from mutant phenotype |GO:0006355//biolo
ponent| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| he
ant phenotype |GO:0005886//biological process| urea transport | inferred from sequence similarity|GO:0015840//biological process| urea transport | inferre
enotype |GO:0006623
nferred from direct assay |GO:0005634//cellular component| vacuolar membrane (sensu Fungi) | inferred from direct assay |GO:0000329//biological proces
omplex | inferred from direct assay |GO:0005663//biological process| sister chromatid cohesion | inferred from physical interaction|GO:0007062//biologica
maintenance | inferred from mutant phenotype |GO:0000027
s | inferred from genetic interaction |GO:0006950//biological process| proteolysis and peptidolysis | inferred from genetic interaction |GO:0006508//biologic
erred from direct assay |GO:0000244
pe|GO:0045184//biological process| establishment of protein localization | inferred from direct assay |GO:0045184//biological process| telomerase-depend
pre-rRNA | inferred from mutant phenotype |GO:0030490
inferred from physical interaction|GO:0006402//biological process| 35S primary transcript processing | traceable author statement |GO:0006365
gical process| chromatin silencing at telomere | inferred from mutant phenotype |GO:0006348//biological process| chromatin silencing at ribosomal DNA |
17//biological process| microtubule-based process | inferred from genetic interaction |GO:0007017//biological process| microtubule cytoskeleton organizatio
pe|GO:0015875//biological process| vitamin/cofactor transport | inferred from direct assay |GO:0015875//biological process| biotin biosynthesis | inferred fro
ype |GO:0007131
tant phenotype|GO:0006828
plex, coupling factor F(o) (sensu Eukarya) | inferred from physical interaction|GO:0000276//cellular component| proton-transporting ATP synthase complex
biological process| chromatin remodeling | inferred from genetic interaction |GO:0006338//biological process| chromatin remodeling | inferred from direct a
nferred from direct assay |GO:0005739//biological process| carbohydrate metabolism | inferred from mutant phenotype|GO:0005975
direct assay|GO:0051085//biological process| response to stress | inferred from direct assay |GO:0006950
s| protein-vacuolar targeting | inferred from physical interaction |GO:0006623//biological process| protein-vacuolar targeting | inferred from mutant phenotyp
or statement |GO:0006611//biological process| ribosomal protein-nucleus import | traceable author statement |GO:0006610//biological process| mRNA-bin
/biological process| pantothenate biosynthesis | inferred from mutant phenotype|GO:0015940
inferred from physical interaction|GO:0006402//biological process| 35S primary transcript processing | traceable author statement |GO:0006365
sette (sensu Fungi) | inferred from mutant phenotype|GO:0030466//biological process| chromatin modification | inferred from mutant phenotype |GO:00165
mutant phenotype |GO:0006407//biological process| mRNA-nucleus export | inferred from mutant phenotype |GO:0006406//biological process| ribosome-n
ism | inferred from mutant phenotype |GO:0000096
acuolar acidification | inferred from mutant phenotype|GO:0007035//biological process| protein complex assembly | inferred from mutant phenotype |GO:00
romoter | inferred from direct assay |GO:0045944
eraction|GO:0000228//biological process| meiotic DNA double-strand break formation | traceable author statement|GO:0042138
inferred from mutant phenotype|GO:0006402//biological process| 35S primary transcript processing | traceable author statement |GO:0006365
ty | inferred from direct assay |GO:0000703//cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| base-excision repai
romoter | inferred from direct assay |GO:0045944
ptor protein signaling pathway | inferred from physical interaction|GO:0008277//biological process| regulation of G-protein coupled receptor protein signalin
cal process| regulation of transcription from Pol II promoter | inferred from mutant phenotype|GO:0006357
eable author statement|GO:0016573//biological process| chromatin modification | traceable author statement |GO:0016568
henotype|GO:0006486//biological process| protein amino acid glycosylation | inferred from direct assay |GO:0006486
5886//cellular component| plasma membrane | inferred from mutant phenotype |GO:0005886//biological process| response to glucose stimulus | inferred f
hondrion inheritance | inferred from genetic interaction|GO:0000001
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
m direct assay|GO:0000096
O:0005681//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| nuclear mRNA splicing, via spliceosome | inferred fro
of mitotic cell cycle | inferred from mutant phenotype |GO:0000082//biological process| G1/S transition of mitotic cell cycle | inferred from genetic interactio
utant phenotype |GO:0000118//biological process| histone deacetylation | inferred from direct assay|GO:0016575//biological process| regulation of transcr
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
henotype |GO:0006904//biological process| Golgi to vacuole transport | inferred from physical interaction |GO:0006896//biological process| Golgi to vacuo
ype|GO:0000398//biological process| nuclear mRNA splicing, via spliceosome | inferred from genetic interaction |GO:0000398//biological process| spliceos
n | inferred from mutant phenotype|GO:0009060
nction| glutathione transferase activity | inferred from direct assay |GO:0004364//cellular component| cytosol | inferred from direct assay|GO:0005829//cellu
ter | traceable author statement|GO:0045944//biological process| meiosis | inferred from mutant phenotype |GO:0007126//biological process| mitosis | trac
factor complex | inferred from physical interaction |GO:0008023//biological process| RNA elongation from Pol II promoter | inferred from physical interactio
50//biological process| regulation of carbohydrate metabolism | traceable author statement |GO:0006109
interaction|GO:0007059
om genetic interaction|GO:0006999
erred from direct assay|GO:0005634//biological process| protein sumoylation | inferred from mutant phenotype|GO:0016925//biological process| protein su
mutant phenotype|GO:0006518
rion | inferred from mutant phenotype |GO:0005739//biological process| ethanol metabolism | inferred from mutant phenotype|GO:0006067
m | inferred from curator|GO:0005737//biological process| protein biosynthesis | inferred from curator|GO:0006412
ical process| regulation of cell size | inferred from direct assay|GO:0008361//biological process| cyclin catabolism | traceable author statement |GO:00080
004366//cellular component| endoplasmic reticulum | inferred from direct assay|GO:0005783//cellular component| cytoplasm | inferred from direct assay |G
006906//biological process| retrograde transport, Golgi to ER | traceable author statement |GO:0006890
| traceable author statement|GO:0006592//biological process| arginine biosynthesis | traceable author statement |GO:0006526
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
05634//biological process| mismatch repair | inferred from mutant phenotype|GO:0006298
ptidase activity | inferred from direct assay |GO:0008234//cellular component| nuclear pore | inferred from direct assay|GO:0005643//cellular component| n
notype|GO:0007131//biological process| nucleotide-excision repair | inferred from mutant phenotype |GO:0006289//biological process| DNA damage respo
process| transcription from Pol I promoter | traceable author statement|GO:0006360
direct assay |GO:0000172//biological process| tRNA processing | traceable author statement|GO:0008033//biological process| rRNA processing | traceab
etic interaction |GO:0006616
men | traceable author statement|GO:0005788//cellular component| endoplasmic reticulum lumen | inferred from sequence similarity |GO:0005788//cellular
) | inferred from mutant phenotype|GO:0030437//biological process| meiosis | inferred from mutant phenotype |GO:0007126//biological process| nuclear o
om direct assay|GO:0000228//biological process| meiosis | inferred from mutant phenotype|GO:0007126//biological process| meiosis | inferred from genet
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
| commitment complex | traceable author statement |GO:0000243//cellular component| commitment complex | inferred from physical interaction |GO:0000
007097//biological process| mitochondrion organization and biogenesis | traceable author statement |GO:0007005//biological process| mitochondrion inher
assay |GO:0005576//biological process| phosphoinositide metabolism | inferred from mutant phenotype|GO:0030384//biological process| phosphoinositid
atin | inferred from mutant phenotype |GO:0000790//biological process| histone methylation | inferred from direct assay|GO:0016571//biological process| c
erred from mutant phenotype|GO:0007569//biological process| chromatin silencing | inferred from mutant phenotype |GO:0006342//biological process| est
direct assay|GO:0006048
enotype|GO:0006387
on | inferred from expression pattern |GO:0009060//biological process| protein biosynthesis | inferred from curator |GO:0006412
A | inferred from mutant phenotype |GO:0000183
m direct assay |GO:0003690//cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| meiotic DNA double-strand break fo
om physical interaction|GO:0005847//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| transcription termination fr
cessing | inferred from mutant phenotype |GO:0006364
ssay |GO:0000217//cellular component| nuclear cohesin complex | inferred from direct assay|GO:0000798//biological process| mitotic sister chromatid coh
electron transport, ubiquinol to cytochrome c | inferred from mutant phenotype |GO:0006122
O:0016192//biological process| vesicle-mediated transport | inferred from genetic interaction |GO:0016192//biological process| exocytosis | inferred from m
|GO:0019933//biological process| protein ubiquitination | traceable author statement |GO:0016567//biological process| protein complex assembly | inferred
assay |GO:0006281
nthesis | traceable author statement|GO:0006412
0019563//biological process| response to stress | inferred from mutant phenotype |GO:0006950
al process| trehalose catabolism | traceable author statement |GO:0005993
| UDP-N-acetylglucosamine transport | inferred from mutant phenotype|GO:0015788//biological process| cell wall chitin biosynthesis | inferred from mutan
process| regulation of exit from mitosis | inferred from physical interaction|GO:0007096//biological process| regulation of exit from mitosis | inferred from g
n |GO:0007007//biological process| mitochondrion organization and biogenesis | inferred from mutant phenotype |GO:0007005
ocess| mRNA polyadenylation | inferred from mutant phenotype|GO:0006378//biological process| mRNA polyadenylation | inferred from direct assay |GO:
tion |GO:0006825//biological process| protein complex assembly | inferred from mutant phenotype |GO:0006461
n |GO:0016192//biological process| ubiquitin-dependent protein catabolism | inferred from mutant phenotype |GO:0006511
mutant phenotype |GO:0005739//biological process| protein biosynthesis | inferred from sequence similarity|GO:0006412//biological process| protein biosyn
olysis | inferred from mutant phenotype |GO:0045821
teraction |GO:0030437//biological process| vesicle docking during exocytosis | inferred from physical interaction |GO:0006904//biological process| vesicle
ferred from curator |GO:0005737//biological process| N-terminal peptidyl-methionine acetylation | inferred from mutant phenotype|GO:0017196
y |GO:0006338
n biosynthesis | traceable author statement|GO:0006412
phenotype |GO:0030437//biological process| glycogen metabolism | inferred from mutant phenotype |GO:0005977
flavin-adenine dinucleotide transport | inferred from mutant phenotype|GO:0015883
4//biological process| tRNA modification | inferred from direct assay|GO:0006400
red from sequence similarity |GO:0005777//cellular component| mitochondrion | inferred from sequence similarity |GO:0005739//biological process| carnitin
raction |GO:0005634//biological process| positive regulation of transcription from Pol II promoter | inferred from physical interaction|GO:0045944//biologica
ay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| protein catabolism | inferred from direct assay|
ed from genetic interaction|GO:0006950
om mutant phenotype |GO:0006412
erred from mutant phenotype |GO:0000076
otype |GO:0006066//biological process| alcohol metabolism | inferred from genetic interaction |GO:0006066
process| negative regulation of transcription from Pol II promoter, mitotic | traceable author statement|GO:0007070//biological process| transcription initia
to plasma membrane | inferred from direct assay|GO:0005887//biological process| cell wall organization and biogenesis | inferred from mutant phenotype|
O:0009277//biological process| flocculation (sensu Saccharomyces) | inferred from mutant phenotype|GO:0000501//biological process| flocculation (sensu
nferred from mutant phenotype |GO:0006406
on|GO:0000722
raceable author statement |GO:0008298
m | inferred from mutant phenotype|GO:0006743
e author statement |GO:0006109
ome | inferred from genetic interaction|GO:0000398//biological process| nuclear mRNA splicing, via spliceosome | inferred from direct assay |GO:0000398
h site recognition | traceable author statement|GO:0000370
gical process| nucleobase, nucleoside, nucleotide and nucleic acid metabolism | inferred from genetic interaction |GO:0006139//biological process| DNA da
nferred from direct assay |GO:0005634//cellular component| vacuolar membrane (sensu Fungi) | inferred from direct assay |GO:0000329//biological proces
ological process| protein folding | inferred from direct assay |GO:0006457
pre-rRNA | inferred from mutant phenotype |GO:0030490
ogical process| negative regulation of transcription from Pol II promoter, mitotic | traceable author statement|GO:0007070//biological process| transcription
om direct assay|GO:0000122//biological process| DNA damage response, signal transduction resulting in cell cycle arrest | traceable author statement |GO
oteolysis and peptidolysis | inferred from physical interaction |GO:0006508//biological process| proteolysis and peptidolysis | inferred from mutant phenotyp
d from mutant phenotype |GO:0000002
m mutant phenotype|GO:0006467//biological process| protein folding | inferred from mutant phenotype |GO:0006457
phenotype |GO:0008654//biological process| inner mitochondrial membrane organization and biogenesis | inferred from mutant phenotype |GO:0007007
biological process| protein-nucleus export | inferred from mutant phenotype |GO:0006611//biological process| protein-nucleus export | inferred from genetic
physical interaction |GO:0006625//biological process| protein-peroxisome targeting | inferred from genetic interaction |GO:0006625
l process| aerobic respiration | inferred from mutant phenotype |GO:0009060//biological process| mitochondrial electron transport, ubiquinol to cytochrome
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
O:0006401//biological process| RNA catabolism | inferred from direct assay |GO:0006401
eable author statement |GO:0006412
ck | inferred from direct assay|GO:0005935//cellular component| incipient bud site | inferred from direct assay |GO:0000131//biological process| small GTP
to pheromone during conjugation with cellular fusion | inferred from genetic interaction |GO:0000754//biological process| protein deneddylation | inferred f
| inferred from sequence similarity|GO:0007264//biological process| pseudohyphal growth | inferred from sequence similarity |GO:0007124//biological pro
milarity|GO:0006833
uence similarity|GO:0015937
5737//cellular component| nucleus | inferred from sequence similarity |GO:0005634//cellular component| nucleus | inferred from mutant phenotype |GO:000
able author statement |GO:0006275//biological process| DNA replication initiation | traceable author statement |GO:0006270
t | inferred from mutant phenotype|GO:0015888
O:0000217//cellular component| nuclear condensin complex | traceable author statement|GO:0000799//cellular component| nuclear condensin complex | i
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
direct assay |GO:0005262//molecular function| voltage-gated ion channel activity | inferred from direct assay |GO:0005244//molecular function| calcium act
erred from mutant phenotype |GO:0005886//biological process| iron-siderochrome transport | inferred from mutant phenotype|GO:0015892
henotype |GO:0015809//biological process| L-arginine transport | inferred from genetic interaction |GO:0015809
ological process| cytochrome c oxidase biogenesis | inferred from mutant phenotype |GO:0008535
e author statement |GO:0005682//biological process| U2-type spliceosome conformational change to release U4 and U1 | traceable author statement|GO:
0000790//biological process| chromatin silencing | inferred from mutant phenotype|GO:0006342//biological process| chromatin silencing | inferred from dir
raceable author statement|GO:0016573//biological process| chromatin modification | traceable author statement |GO:0016568
pre-rRNA | inferred from mutant phenotype |GO:0030490
from sequence similarity |GO:0000703//molecular function| pyrimidine-specific oxidized base lesion DNA N-glycosylase activity | inferred from direct assa
n biosynthesis | traceable author statement|GO:0006412
ement |GO:0006468//biological process| signal transduction during conjugation with cellular fusion | traceable author statement |GO:0000750
rred from genetic interaction |GO:0006006
assay|GO:0019236//biological process| signal transduction during filamentous growth | inferred from physical interaction |GO:0001402//biological process|
ant phenotype|GO:0000750//biological process| signal transduction during conjugation with cellular fusion | inferred from genetic interaction |GO:0000750
ype |GO:0006261
n | traceable author statement|GO:0045026//biological process| regulation of cell shape | inferred from mutant phenotype |GO:0008360//biological process
mic reticulum membrane | inferred from genetic interaction |GO:0005789//biological process| ubiquitin-dependent protein catabolism | inferred from geneti
hrome c-heme linkage | inferred from sequence similarity|GO:0018063//biological process| cytochrome c-heme linkage | inferred from mutant phenotype |G
say |GO:0005816//biological process| sporulation | inferred from mutant phenotype|GO:0030435//biological process| sporulation | inferred from expression
benzoic acid metabolism | inferred from mutant phenotype|GO:0046482
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
from direct assay|GO:0006120
olded protein | traceable author statement |GO:0006986//biological process| response to stress | traceable author statement |GO:0006950//biological proce
odeling | traceable author statement|GO:0006338
direct assay |GO:0000172//biological process| tRNA processing | traceable author statement|GO:0008033//biological process| rRNA processing | traceab
drion | inferred from direct assay |GO:0005739//biological process| ubiquinone biosynthesis | inferred from direct assay|GO:0006744//biological process| u
ay|GO:0016925
ane organization and biogenesis | inferred from mutant phenotype |GO:0007006
s| protein complex assembly | inferred from mutant phenotype |GO:0006461
sis | traceable author statement|GO:0006412//biological process| ribosomal large subunit assembly and maintenance | inferred from sequence similarity |G
latory particle (sensu Eukarya) | traceable author statement |GO:0005838//cellular component| nucleus | inferred from direct assay |GO:0005634//biologica
nt|GO:0008151//biological process| meiosis | traceable author statement |GO:0007126//biological process| mitosis | traceable author statement |GO:00070
quence similarity |GO:0006412//biological process| protein biosynthesis | inferred from mutant phenotype |GO:0006412
ication | inferred from direct assay|GO:0006464
1//cellular component| transcription elongation factor complex | inferred from direct assay |GO:0008023//biological process| regulation of transcription from
ed from physical interaction |GO:0000751//biological process| cell cycle arrest in response to pheromone | inferred from mutant phenotype |GO:0000751
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
u Fungi) | inferred from direct assay|GO:0000329//biological process| bilirubin transport | inferred from mutant phenotype|GO:0015723//biological process|
lation | inferred from direct assay|GO:0006470//biological process| transcription | inferred from mutant phenotype |GO:0006350
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
cal process| DNA replication initiation | traceable author statement |GO:0006270//biological process| pre-replicative complex formation and maintenance |
ed from physical interaction|GO:0007020
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
cell cycle arrest | inferred from mutant phenotype |GO:0000077
catalytic spliceosome | traceable author statement|GO:0000360
m Pol II promoter by pheromones | inferred from mutant phenotype|GO:0046020//biological process| chromatin silencing at telomere | inferred from mutan
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
| inferred from direct assay|GO:0042255//biological process| 35S primary transcript processing | inferred from direct assay |GO:0006365//biological proces
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
positive regulation of transcription from Pol II promoter by pheromones | inferred from mutant phenotype |GO:0007329//biological process| beta-tubulin fol
:0005634//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| DNA replication | inferred from physical interaction|G
sm | traceable author statement|GO:0006511
notype |GO:0007533
c respiration | inferred from mutant phenotype |GO:0009060//biological process| mitochondrial electron transport, ubiquinol to cytochrome c | inferred from
| meiosis | traceable author statement|GO:0007126//biological process| mismatch repair | traceable author statement |GO:0006298
|GO:0007126//biological process| sister chromatid cohesion | traceable author statement |GO:0007062
mponent| nucleus | inferred from direct assay |GO:0005634
utant phenotype |GO:0045324
cal process| protein-nucleus import | inferred from sequence similarity|GO:0006606//biological process| protein-nucleus import | inferred from mutant phen
author statement |GO:0006513//biological process| protein polyubiquitination | traceable author statement |GO:0000209
cess| bud growth | inferred from genetic interaction |GO:0007117//biological process| protein amino acid phosphorylation | inferred from sequence similarit
nal transduction | inferred from physical interaction|GO:0007264//biological process| bud growth | inferred from physical interaction |GO:0007117//biologica
m physical interaction|GO:0030490//biological process| processing of 20S pre-rRNA | inferred from mutant phenotype |GO:0030490//biological process| cy
9//biological process| NADH catabolism | inferred from physical interaction|GO:0006737
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
statement |GO:0006102//biological process| tricarboxylic acid cycle | traceable author statement |GO:0006099
phenotype |GO:0005886//biological process| lactate transport | inferred from mutant phenotype|GO:0015727//biological process| lactate transport | inferre
06429//biological process| Group I intron splicing | inferred from mutant phenotype |GO:0000372
red from sequence similarity|GO:0005739//cellular component| mitochondrion | inferred from direct assay |GO:0005739//biological process| regulation of c
component| nucleus | inferred from direct assay |GO:0005634//biological process| signal transduction during conjugation with cellular fusion | inferred from
nse | inferred from genetic interaction |GO:0006972//biological process| regulation of transcription from Pol II promoter | traceable author statement |GO:00
neddylation | inferred from mutant phenotype |GO:0000338
biological process| meiotic recombination | inferred from mutant phenotype |GO:0007131//biological process| meiotic recombination | inferred from genetic
statement|GO:0006537//biological process| isocitrate metabolism | traceable author statement |GO:0006102//biological process| tricarboxylic acid cycle | t
nteraction |GO:0000398
all ribosomal subunit | inferred from direct assay |GO:0005763//biological process| protein biosynthesis | traceable author statement|GO:0006412//biologic
cess| trehalose catabolism | traceable author statement |GO:0005993
pe|GO:0019483//biological process| polyamine catabolism | inferred from mutant phenotype |GO:0006598//biological process| polyamine catabolism | infer
ntenance | inferred from mutant phenotype |GO:0000027
m mutant phenotype |GO:0007130//biological process| mitotic sister chromatid cohesion | traceable author statement |GO:0007064//biological process| m
n biosynthesis | traceable author statement|GO:0006412
thor statement|GO:0006508
970//biological process| protein amino acid dephosphorylation | inferred from direct assay |GO:0006470//biological process| tRNA splicing | inferred from m
GO:0008054//biological process| mitotic metaphase/anaphase transition | traceable author statement |GO:0007091//biological process| ubiquitin-depende
plex, coupling factor F(o) (sensu Eukarya) | inferred from physical interaction|GO:0000276//cellular component| proton-transporting ATP synthase complex
logical process| retrograde transport, endosome to Golgi | inferred from direct assay|GO:0042147//biological process| actin filament-based process | inferr
57//cellular component| pre-replicative complex | inferred from direct assay |GO:0005656//biological process| establishment of chromatin silencing | inferred
| mitochondrial large ribosomal subunit | inferred from physical interaction |GO:0005762//biological process| aerobic respiration | inferred from mutant phe
etabolism | traceable author statement|GO:0019674
ribonucleoprotein complex | inferred from physical interaction |GO:0005732//biological process| processing of 20S pre-rRNA | inferred from physical intera
hysical interaction |GO:0006827
pe |GO:0042273
O:0016568//biological process| chromatin modification | inferred from physical interaction |GO:0016568//biological process| chromatin modification | inferre
phenotype |GO:0006289//biological process| DNA repair | inferred from mutant phenotype |GO:0006281//biological process| DNA repair | inferred from ge
direct assay |GO:0005739//biological process| manganese ion transport | inferred from mutant phenotype|GO:0006828//biological process| transport | infe
agnesium ion transporter activity | inferred from direct assay |GO:0015095//cellular component| mitochondrial inner membrane | inferred from direct assay|
om physical interaction |GO:0005697//cellular component| telomerase holoenzyme complex | inferred from direct assay |GO:0005697//cellular component|
GO:0008054//biological process| mitotic metaphase/anaphase transition | traceable author statement |GO:0007091//biological process| ubiquitin-depende
nt phenotype|GO:0030470//biological process| mitotic sister chromatid cohesion | inferred from mutant phenotype |GO:0007064//biological process| cytog
enotype |GO:0006897//biological process| actin cortical patch assembly | inferred from mutant phenotype |GO:0000147
06740//biological process| fatty acid beta-oxidation | inferred from mutant phenotype |GO:0006635//biological process| isocitrate metabolism | traceable au
6579//biological process| response to stress | traceable author statement |GO:0006950//biological process| protein monoubiquitination | traceable author s
phenotype|GO:0006364
from mutant phenotype |GO:0006784//biological process| heme a biosynthesis | inferred from genetic interaction |GO:0006784
| traceable author statement|GO:0016573//biological process| chromatin modification | traceable author statement |GO:0016568//biological process| prote
red from direct assay |GO:0005737//biological process| protein biosynthesis | inferred from sequence similarity|GO:0006412
on|GO:0000722
tin accessibility complex | inferred from physical interaction |GO:0008623//cellular component| epsilon DNA polymerase complex | inferred from direct assa
d from direct assay |GO:0006412
direct assay|GO:0008156//biological process| extrachromosomal circular DNA accumulation during cell aging | inferred from mutant phenotype |GO:00075
Golgi to plasma membrane transport | traceable author statement |GO:0006893
rocess| actin cytoskeleton organization and biogenesis | inferred from mutant phenotype|GO:0030036//biological process| actin cortical patch assembly | tr
GO:0005768//biological process| protein-Golgi retention | inferred from mutant phenotype|GO:0045053//biological process| retrograde transport, endosome
ant phenotype|GO:0006364//biological process| nuclear mRNA splicing, via spliceosome | inferred from physical interaction |GO:0000398
onjugation with cellular fusion | inferred from mutant phenotype |GO:0000742//biological process| karyogamy during conjugation with cellular fusion | inferr
0005634//biological process| processing of 20S pre-rRNA | inferred from physical interaction|GO:0030490//biological process| processing of 20S pre-rRNA
nse to oxidative stress | inferred from expression pattern |GO:0006979
nt phenotype |GO:0006611//biological process| ribosomal protein-nucleus import | traceable author statement |GO:0006610//biological process| mRNA-bin
ecular function| transcription factor activity | traceable author statement |GO:0003700//molecular function| DNA binding | inferred from direct assay |GO:00
catabolism, nonsense-mediated | traceable author statement |GO:0000184
00139//biological process| intra-Golgi transport | inferred from sequence similarity|GO:0006891//biological process| intra-Golgi transport | inferred from mut
c interaction |GO:0006950//biological process| endocytosis | inferred from mutant phenotype |GO:0006897//biological process| protein amino acid dephosp
ay |GO:0000794//biological process| meiotic recombination | inferred from mutant phenotype|GO:0007131//biological process| meiosis | inferred from muta
O:0016763//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| charged-tRNA modification | inferred from mutant
tion | traceable author statement |GO:0000209
tic interaction |GO:0000266//biological process| mitochondrial genome maintenance | inferred from mutant phenotype |GO:0000002//biological process| m
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
neddylation | inferred from mutant phenotype |GO:0000338
097//biological process| mitotic chromosome condensation | inferred from mutant phenotype |GO:0007076//biological process| mitotic chromosome conde
uthor statement |GO:0006525
ion |GO:0008565//cellular component| mitochondrial intermembrane space protein transporter complex | inferred from direct assay|GO:0042719//cellular c
ble author statement |GO:0005886//cellular component| Golgi membrane | inferred from direct assay |GO:0000139//biological process| processing of 20S
cess| meiotic recombination | traceable author statement|GO:0007131
045324//biological process| late endosome to vacuole transport | inferred from mutant phenotype |GO:0045324//biological process| protein-Golgi retention
ological process| signal transduction during conjugation with cellular fusion | inferred from mutant phenotype|GO:0000750
6//biological process| protein amino acid phosphorylation | inferred from direct assay |GO:0006468//biological process| cytokinesis | inferred from mutant p
mutant phenotype |GO:0000196//biological process| MAPKKK cascade during cell wall biogenesis | inferred from genetic interaction |GO:0000196
from expression pattern |GO:0004392//molecular function| heme oxygenase (decyclizing) activity | inferred from direct assay |GO:0004392//cellular compo
ement |GO:0006298//biological process| nucleotide-excision repair | traceable author statement |GO:0006289//biological process| base-excision repair | tra
rocess| cell cycle | traceable author statement |GO:0007049//biological process| DNA replication | inferred from mutant phenotype |GO:0006260//biologica
or statement |GO:0000209
olism | inferred from mutant phenotype|GO:0005977
ment complex | traceable author statement |GO:0000243//cellular component| commitment complex | inferred from physical interaction |GO:0000243//biolo
irect assay |GO:0005634//biological process| myo-inositol metabolism | inferred from direct assay|GO:0006020
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
from genetic interaction |GO:0007094
ss| secondary metabolism | inferred from mutant phenotype |GO:0019748
aratus | inferred from direct assay |GO:0005794//cellular component| nucleus | inferred from sequence similarity |GO:0005634//biological process| intracel
n |GO:0006914//biological process| protein-vacuolar targeting | inferred from mutant phenotype |GO:0006623
ype |GO:0006808
d from direct assay |GO:0006412
| inferred from sequence similarity|GO:0006428//biological process| isoleucyl-tRNA aminoacylation | inferred from mutant phenotype |GO:0006428//biologi
utant phenotype |GO:0045324
ssay |GO:0005876//cellular component| spindle | inferred from physical interaction |GO:0005819//cellular component| spindle pole body | inferred from dire
nt|GO:0005739//biological process| Group I intron splicing | inferred from direct assay|GO:0000372
from mutant phenotype|GO:0006348//biological process| mismatch repair | traceable author statement |GO:0006298//biological process| nucleotide-excis
| inferred from mutant phenotype|GO:0006436
nferred from direct assay|GO:0005622//biological process| vesicle-mediated transport | inferred from genetic interaction|GO:0016192
ogical process| response to stress | inferred from direct assay |GO:0006950//biological process| protein folding | inferred from direct assay |GO:0006457//
O:0006511//biological process| mRNA processing | traceable author statement |GO:0006397
with cellular fusion | inferred from mutant phenotype|GO:0000754//biological process| protein deneddylation | inferred from mutant phenotype |GO:000033
biological process| autophagy | inferred from mutant phenotype|GO:0006914//biological process| protein-vacuolar targeting | inferred from mutant phenotyp
me organization and biogenesis | inferred from direct assay |GO:0007031
on | inferred from expression pattern |GO:0009060//biological process| protein biosynthesis | inferred from physical interaction |GO:0006412
port | inferred from mutant phenotype|GO:0015880
38//biological process| double-strand break repair via nonhomologous end-joining | inferred from mutant phenotype |GO:0006303//biological process| dou
ant phenotype|GO:0000750//biological process| signal transduction during conjugation with cellular fusion | inferred from genetic interaction |GO:0000750
nt phenotype |GO:0008535
rand annealing | traceable author statement|GO:0045003//biological process| double-strand break repair via single-strand annealing | inferred from mutant
7136//molecular function| NAD-dependent histone deacetylase activity | inferred from direct assay |GO:0017136//cellular component| histone deacetylase
|GO:0006338//biological process| chromatin remodeling | inferred from genetic interaction |GO:0006338//biological process| chromatin remodeling | inferr
O:0016573//biological process| chromatin modification | traceable author statement |GO:0016568//biological process| protein complex assembly | inferred f
from mutant phenotype|GO:0050821//biological process| protein stabilization | inferred from direct assay |GO:0050821//biological process| protein comple
biological process| RNA processing | inferred from mutant phenotype|GO:0006396
inferred from physical interaction |GO:0000243//biological process| nuclear mRNA splicing, via spliceosome | inferred from physical interaction|GO:00003
m genetic interaction|GO:0006633
|GO:0006289//biological process| lagging strand elongation | traceable author statement |GO:0006273//biological process| leading strand elongation | trac
protein biosynthesis | inferred from curator|GO:0006412
otype |GO:0006461
pre-rRNA | inferred from mutant phenotype |GO:0030490
n biosynthesis | traceable author statement|GO:0006412//biological process| mitochondrial genome maintenance | inferred from mutant phenotype |GO:00
r protein transport | inferred from physical interaction|GO:0006886//biological process| intracellular protein transport | inferred from genetic interaction |GO
interaction|GO:0000398
all ribosomal subunit | inferred from direct assay |GO:0005763//biological process| protein biosynthesis | traceable author statement|GO:0006412//biologic
ter | inferred from physical interaction|GO:0006366
ocess| vesicle docking during exocytosis | traceable author statement |GO:0006904//biological process| Golgi to plasma membrane transport | traceable a
ess| DNA repair | inferred from mutant phenotype|GO:0006281//biological process| mutagenesis | inferred from mutant phenotype |GO:0006280//biologica
m direct assay |GO:0005634//biological process| mRNA cleavage | inferred from direct assay|GO:0006379//biological process| mRNA polyadenylation | inf
al process| nuclear organization and biogenesis | inferred from sequence similarity|GO:0006997//biological process| nuclear organization and biogenesis
4//biological process| nucleocytoplasmic transport | inferred from physical interaction |GO:0006913//biological process| nucleocytoplasmic transport | inferr
| aerobic respiration | inferred from mutant phenotype |GO:0009060
ant phenotype|GO:0006624
d from direct assay|GO:0000398
tion |GO:0016763//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| purine nucleotide biosynthesis | traceable a
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
sequence similarity|GO:0005886//biological process| carbohydrate transport | inferred from sequence similarity|GO:0008643//biological process| carbohyd
assay |GO:0008650//molecular function| rRNA methyltransferase activity | inferred from mutant phenotype |GO:0008649//cellular component| nucleolus | i
O:0006625//biological process| protein-peroxisome targeting | inferred from physical interaction |GO:0006625//biological process| protein-peroxisome targ
n | inferred from mutant phenotype|GO:0009060//biological process| mitochondrial electron transport, ubiquinol to cytochrome c | inferred from mutant phe
promoter | traceable author statement |GO:0006357
similarity|GO:0006470//biological process| glycogen metabolism | inferred from mutant phenotype |GO:0005977
factor complex | inferred from physical interaction |GO:0008023//biological process| RNA elongation from Pol II promoter | inferred from physical interactio
rect assay |GO:0003723//cellular component| mitochondrion | inferred from mutant phenotype|GO:0005739//cellular component| mitochondrion | inferred f
| inferred from genetic interaction |GO:0007035
erred from direct assay|GO:0005743//biological process| iron ion homeostasis | inferred from mutant phenotype|GO:0006879
on | inferred from mutant phenotype|GO:0000750
ay|GO:0009408//biological process| cell wall organization and biogenesis | inferred from genetic interaction |GO:0007047
gi) | inferred from mutant phenotype|GO:0030476//biological process| spore wall assembly (sensu Fungi) | inferred from direct assay |GO:0030476
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
nt phenotype |GO:0006412//biological process| tRNA 5'-leader removal | inferred from direct assay |GO:0001682
/cellular component| condensed nuclear chromosome kinetochore | inferred from direct assay |GO:0000778//biological process| mitotic spindle assembly (
ocess| response to dessication | inferred from expression pattern |GO:0009269
d from mutant phenotype|GO:0009060
biological process| RNA catabolism | inferred from direct assay |GO:0006401
MPASS complex | inferred from physical interaction|GO:0048188//cellular component| nuclear chromatin | inferred from mutant phenotype |GO:0000790//bi
ay |GO:0005774//biological process| cell cycle-dependent actin filament reorganization | traceable author statement|GO:0030037//biological process| Rho
rom physical interaction |GO:0007094//biological process| actin filament organization | traceable author statement |GO:0007015//biological process| protei
ssay |GO:0005739//biological process| ethanol fermentation | inferred from mutant phenotype|GO:0019655//biological process| NADH oxidation | inferred
bly and maintenance | inferred from sequence similarity |GO:0000027
author statement |GO:0007015//biological process| response to osmotic stress | inferred from genetic interaction |GO:0006970
Pol II promoter | traceable author statement|GO:0006367//biological process| G1-specific transcription in mitotic cell cycle | inferred from physical interact
O:0016571//biological process| chromatin silencing at telomere | inferred from mutant phenotype |GO:0006348
via spliceosome | inferred from mutant phenotype |GO:0000398
it | traceable author statement|GO:0005763//cellular component| mitochondrial small ribosomal subunit | inferred from direct assay |GO:0005763//biologic
rred from mutant phenotype |GO:0006616//biological process| protein folding | inferred from direct assay |GO:0006457
n biosynthesis | traceable author statement|GO:0006412
ed from mutant phenotype|GO:0006424//biological process| protein biosynthesis | inferred from sequence similarity |GO:0006412//biological process| prote
similarity|GO:0019655//biological process| ethanol fermentation | inferred from mutant phenotype |GO:0019655//biological process| ethanol fermentation |
000092//biological process| mitotic anaphase B | inferred from genetic interaction |GO:0000092
rred from mutant phenotype|GO:0009410
GO:0008054//biological process| mitotic metaphase/anaphase transition | traceable author statement |GO:0007091//biological process| ubiquitin-depende
se to dessication | inferred from sequence similarity |GO:0009269//biological process| response to dessication | inferred from expression pattern |GO:0009
interaction|GO:0000398
ane organization and biogenesis | inferred from mutant phenotype|GO:0007008//biological process| outer mitochondrial membrane organization and bioge
otype|GO:0000196//biological process| MAPKKK cascade during cell wall biogenesis | inferred from genetic interaction |GO:0000196
G1/S transition of mitotic cell cycle | traceable author statement|GO:0000082//biological process| regulation of cyclin dependent protein kinase activity | in
I promoter | traceable author statement |GO:0006357
0//biological process| DNA replication initiation | inferred from mutant phenotype |GO:0006270
e ammonia-lyase activity | inferred from mutant phenotype |GO:0003941//cellular component| mitochondrion | inferred from direct assay|GO:0005739//biol
translocase complex | inferred from direct assay|GO:0005744//cellular component| mitochondrion | inferred from direct assay |GO:0005739//cellular comp
orylation | inferred from sequence similarity |GO:0006468
ositive regulation of transcription from Pol II promoter | inferred from mutant phenotype|GO:0045944//biological process| aromatic amino acid family catabo
age recognition | traceable author statement|GO:0000715
eraction |GO:0000118//biological process| histone deacetylation | inferred from direct assay|GO:0016575//biological process| regulation of transcription, D
enotype|GO:0015846
om direct assay |GO:0005739//biological process| translational termination | inferred from sequence similarity|GO:0006415//biological process| translationa
GO:0000398//biological process| nuclear mRNA splicing, via spliceosome | inferred from genetic interaction |GO:0000398
ype |GO:0006623//biological process| protein-membrane targeting | inferred from physical interaction |GO:0006612//biological process| protein-membrane
n | inferred from mutant phenotype |GO:0045053
cal process| vesicle organization and biogenesis | inferred from physical interaction|GO:0016050//biological process| vesicle organization and biogenesis
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
m direct assay |GO:0008418//cellular component| mitochondrion | inferred from direct assay|GO:0005739//biological process| protein catabolism | inferred
t| mitochondrial small ribosomal subunit | inferred from physical interaction |GO:0005763//biological process| protein biosynthesis | inferred from curator|G
ome complex (sensu Eukarya) | inferred from direct assay |GO:0000502//biological process| protein catabolism | inferred from curator|GO:0030163
itochondrial inner membrane | inferred from direct assay|GO:0005743//biological process| mitochondrial magnesium ion transport | inferred from sequence
notype|GO:0006644
avage | inferred from genetic interaction |GO:0006379//biological process| mRNA cleavage | inferred from direct assay |GO:0006379//biological process| m
atement|GO:0030437//biological process| histone acetylation | traceable author statement |GO:0016573//biological process| chromatin modification | tracea
GO:0009269//biological process| response to osmotic stress | inferred from expression pattern |GO:0006970
sensu Fungi) | inferred from expression pattern |GO:0030476
ar component| proton-transporting ATP synthase, stator stalk (sensu Eukarya) | traceable author statement|GO:0000274//cellular component| proton-trans
338//biological process| chromatin remodeling | inferred from direct assay |GO:0006338
d from direct assay|GO:0000790//biological process| DNA repair | inferred from mutant phenotype|GO:0006281
bly | inferred from mutant phenotype |GO:0006461
promoter | traceable author statement |GO:0006357
ferred from mutant phenotype|GO:0030472
sis | traceable author statement|GO:0006412
inferred from direct assay|GO:0006635
protein biosynthesis | inferred from curator|GO:0006412
rom direct assay|GO:0016571
O:0008608//biological process| microtubule/kinetochore interaction | inferred from direct assay |GO:0008608
GO:0006296//biological process| double-strand break repair via single-strand annealing, removal of nonhomologous ends | traceable author statement |G
mitochondrial intermembrane space | traceable author statement |GO:0005758//biological process| mitochondrial inner membrane protein import | inferred f
y |GO:0006281//biological process| DNA replication | inferred from mutant phenotype |GO:0006260
meostasis | inferred from mutant phenotype|GO:0030004
ogical process| response to oxidative stress | inferred from mutant phenotype|GO:0006979//biological process| response to oxidative stress | inferred from
ferred from mutant phenotype|GO:0006412
ex maturation | traceable author statement|GO:0000069
PASS complex | inferred from physical interaction|GO:0048188//cellular component| nuclear chromatin | inferred from mutant phenotype |GO:0000790//bi
nction| transcription cofactor activity | inferred from genetic interaction |GO:0003712//cellular component| mitochondrial matrix | traceable author statement
ceable author statement |GO:0006283
erred from direct assay|GO:0000124//biological process| histone acetylation | traceable author statement|GO:0016573//biological process| chromatin mod
d from genetic interaction |GO:0007062
t| mitochondrial small ribosomal subunit | inferred from physical interaction |GO:0005763//biological process| aerobic respiration | inferred from mutant phe
t |GO:0006102
from direct assay |GO:0005634//biological process| protein amino acid phosphorylation | inferred from sequence similarity|GO:0006468//biological proces
om mutant phenotype |GO:0007130//biological process| DNA replication and chromosome cycle | traceable author statement |GO:0000067
nt phenotype |GO:0006633
hor statement |GO:0000398
biosynthesis | inferred from genetic interaction |GO:0006545
phenotype|GO:0006979
n biosynthesis | traceable author statement|GO:0006412
action |GO:0045045
e author statement |GO:0006109
ct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| D-xylose metabolism | inferred from dire
inferred from mutant phenotype|GO:0001522//biological process| rRNA modification | inferred from mutant phenotype |GO:0000154
rocess| protein amino acid dephosphorylation | inferred from physical interaction|GO:0006470
ed from mutant phenotype|GO:0006979//biological process| glutamate catabolism | inferred from sequence similarity |GO:0006538//biological process| glu
rred from direct assay|GO:0006379//biological process| mRNA polyadenylation | inferred from direct assay |GO:0006378//biological process| transcription
milarity |GO:0016568//biological process| chromatin modification | inferred from physical interaction |GO:0016568//biological process| chromatin modificati
n biosynthesis | traceable author statement|GO:0006412
ycle | inferred from mutant phenotype |GO:0007049//biological process| protein amino acid phosphorylation | inferred from direct assay |GO:0006468
m | inferred from sequence similarity|GO:0008152
asm | inferred from direct assay|GO:0005737//biological process| histone acetylation | non-traceable author statement|GO:0016573
mutant phenotype |GO:0006412
on | inferred from sequence similarity|GO:0006414//biological process| translational elongation | inferred from mutant phenotype |GO:0006414
biological process| DNA replication initiation | traceable author statement |GO:0006270//biological process| pre-replicative complex formation and mainten
mponent| transcription factor TFIID complex | traceable author statement|GO:0005669//biological process| protein amino acid phosphorylation | inferred fro
ption corepressor activity | traceable author statement |GO:0003714//cellular component| bud neck | inferred from direct assay|GO:0005935//cellular comp
ological process| D-xylose metabolism | inferred from direct assay|GO:0042732//biological process| arabinose metabolism | inferred from direct assay |GO
itive regulation of gluconeogenesis | inferred from physical interaction|GO:0045722//biological process| positive regulation of gluconeogenesis | inferred fro
gical process| chromatin silencing at telomere | inferred from genetic interaction |GO:0006348
growth | inferred from mutant phenotype |GO:0007124//biological process| pseudohyphal growth | inferred from direct assay |GO:0007124
GO:0008054//biological process| mitotic metaphase/anaphase transition | traceable author statement |GO:0007091//biological process| ubiquitin-depende
nition | traceable author statement|GO:0000715
type |GO:0005628//biological process| spore wall assembly (sensu Fungi) | inferred from mutant phenotype|GO:0030476//biological process| vesicle fusio
nthesis | traceable author statement|GO:0006412
ction |GO:0006271
6406//biological process| RNA elongation from Pol II promoter | inferred from mutant phenotype |GO:0006368//biological process| DNA recombination | inf
6406//biological process| RNA elongation from Pol II promoter | inferred from mutant phenotype |GO:0006368//biological process| DNA recombination | inf
phenotype|GO:0016070//biological process| aerobic respiration | inferred from mutant phenotype |GO:0009060//biological process| protein biosynthesis |
tic interaction |GO:0000092
erred from genetic interaction|GO:0009060//biological process| mitochondrial electron transport, ubiquinol to cytochrome c | inferred from mutant phenotyp
complex | inferred from physical interaction |GO:0000118//biological process| chromatin silencing | inferred from physical interaction|GO:0006342//biologic
e |GO:0006885//biological process| regulation of pH | inferred from genetic interaction |GO:0006885
action|GO:0016575
from direct assay |GO:0006457
polymerization | traceable author statement|GO:0008154//biological process| polar budding | inferred from mutant phenotype |GO:0007121//biological proc
om mutant phenotype|GO:0005739//cellular component| mitochondrion | inferred from genetic interaction |GO:0005739//cellular component| cytoplasm | in
ocess| G1-specific transcription in mitotic cell cycle | inferred from mutant phenotype |GO:0000114
biological process| response to glucose stimulus | inferred from mutant phenotype|GO:0009749//biological process| signal transduction | traceable author s
direct assay |GO:0005634//biological process| aromatic amino acid family metabolism | inferred from mutant phenotype|GO:0009072//biological process|
om sequence similarity |GO:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecu
ss | inferred from direct assay |GO:0006950//biological process| SRP-dependent cotranslational membrane targeting, translocation | inferred from mutant
//biological process| ribosomal large subunit assembly and maintenance | inferred from sequence similarity |GO:0000027//biological process| ribosomal la
ed from physical interaction |GO:0000027//biological process| ribosomal large subunit assembly and maintenance | inferred from mutant phenotype |GO:00
307//biological process| DNA dealkylation | inferred from expression pattern |GO:0006307
ression pattern |GO:0006950//biological process| polyamine catabolism | inferred from mutant phenotype |GO:0006598//biological process| polyamine cat
irect assay |GO:0005758//biological process| intracellular copper ion transport | inferred from physical interaction|GO:0015680//biological process| intracel
biological process| translational initiation | inferred from mutant phenotype|GO:0006413//biological process| histidine biosynthesis | traceable author statem
| inferred from sequence similarity |GO:0004737//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| phenylalani
ynthesis | traceable author statement|GO:0006488//biological process| protein amino acid glycosylation | inferred from mutant phenotype |GO:0006486
logical process| hexose transport | traceable author statement|GO:0008645
:0015992//biological process| regulation of pH | inferred from expression pattern |GO:0006885
|GO:0045910//biological process| regulation of transcription, DNA-dependent | inferred from mutant phenotype |GO:0006355
n of meiosis | inferred from expression pattern |GO:0040020//biological process| negative regulation of transcription from Pol II promoter | inferred from ph
author statement|GO:0006555
statement |GO:0006075
biological process| cell cycle checkpoint | inferred from mutant phenotype |GO:0000075//biological process| cell cycle checkpoint | inferred from expressio
ment|GO:0008652//biological process| cell wall organization and biogenesis | inferred from mutant phenotype |GO:0007047//biological process| sulfate ass
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
al process| positive regulation of transcription from Pol II promoter | inferred from mutant phenotype |GO:0045944//biological process| phospholipid biosyn
phenotype |GO:0007047
t|GO:0000105
osynthesis | inferred from mutant phenotype |GO:0006694//biological process| steroid biosynthesis | inferred from genetic interaction |GO:0006694
ein metabolism | inferred from direct assay|GO:0019538//biological process| vacuolar acidification | traceable author statement |GO:0007035//biological pr
| traceable author statement|GO:0019344//biological process| methionine metabolism | inferred from mutant phenotype |GO:0006555
ynthesis | traceable author statement|GO:0006488//biological process| protein amino acid glycosylation | inferred from mutant phenotype |GO:0006486
ological process| beta-1,6 glucan biosynthesis | inferred from sequence similarity |GO:0006078//biological process| beta-1,6 glucan biosynthesis | inferred
erred from mutant phenotype|GO:0015804//biological process| neutral amino acid transport | inferred from genetic interaction |GO:0015804
d from physical interaction |GO:0000055//biological process| ribosomal large subunit-nucleus export | inferred from mutant phenotype |GO:0000055
otype |GO:0015780//biological process| nucleotide-sugar transport | inferred from direct assay |GO:0015780//biological process| N-linked glycosylation | in
on from Pol II promoter | traceable author statement |GO:0006357
phenotype|GO:0009082//biological process| branched chain family amino acid biosynthesis | inferred from direct assay |GO:0009082
ess| GPI anchor biosynthesis | inferred from mutant phenotype|GO:0006506//biological process| O-linked glycosylation | inferred from mutant phenotype |G
s| regulation of sulfur metabolism | inferred from direct assay|GO:0042762//biological process| regulation of transcription from Pol II promoter | traceable a
mutant phenotype |GO:0016020//biological process| iron ion homeostasis | inferred from mutant phenotype|GO:0006879//biological process| copper ion h
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
al process| glycerophospholipid metabolism | inferred from mutant phenotype|GO:0006650//biological process| glycerophospholipid metabolism | inferred f
ogical process| cell wall mannoprotein biosynthesis | inferred from mutant phenotype |GO:0000032
eraction |GO:0006073
racellular | inferred from direct assay |GO:0005576//biological process| cell wall organization and biogenesis | inferred from mutant phenotype|GO:0007047
protein signal transduction | inferred from physical interaction|GO:0007266//biological process| axial budding | inferred from mutant phenotype |GO:000712
|GO:0006526
/biological process| protein biosynthesis | traceable author statement|GO:0006412
047//biological process| SRP-dependent cotranslational membrane targeting, translocation | traceable author statement |GO:0006616
039//biological process| vacuolar protein catabolism | inferred from mutant phenotype |GO:0007039
l process| fermentation | traceable author statement |GO:0006113
lular component| nucleus | inferred from direct assay |GO:0005634//biological process| RNA elongation from Pol II promoter | inferred from physical interac
ular component| spindle pole body | inferred from direct assay |GO:0005816//biological process| homologous chromosome segregation | traceable author s
process| nicotinamide mononucleotide transport | inferred from expression pattern |GO:0015890
utant phenotype|GO:0006446//biological process| regulation of translational initiation | inferred from direct assay |GO:0006446
etabolism | inferred from mutant phenotype |GO:0006011
irect assay |GO:0006189//biological process| purine nucleotide biosynthesis | inferred from mutant phenotype |GO:0006164//biological process| purine nuc
|GO:0006525
inferred from direct assay |GO:0005634//biological process| DNA replication | traceable author statement|GO:0006260
om genetic interaction |GO:0006359//biological process| regulation of transcription from Pol III promoter | inferred from direct assay |GO:0006359//biologic
40//biological process| cell wall organization and biogenesis | inferred from mutant phenotype|GO:0007047//biological process| cell wall organization and b
ement|GO:0030148//biological process| sphingolipid biosynthesis | inferred from mutant phenotype |GO:0030148//biological process| mannose inositol ph
rred from physical interaction |GO:0006357//biological process| poly(A) tail shortening | inferred from mutant phenotype |GO:0000289//biological process| p
ess| glycerol catabolism | inferred from genetic interaction |GO:0019563//biological process| glycerol transport | inferred from mutant phenotype |GO:0015
ological process| phosphate metabolism | traceable author statement |GO:0006796
o Golgi transport | traceable author statement |GO:0006888//biological process| ER to Golgi transport | inferred from mutant phenotype |GO:0006888
ed from mutant phenotype |GO:0000028
ion homeostasis | inferred from mutant phenotype |GO:0006882//biological process| lipid metabolism | traceable author statement |GO:0006629
ment|GO:0006406//biological process| mRNA-nucleus export | inferred from genetic interaction |GO:0006406
56//biological process| purine transport | inferred from direct assay |GO:0006863
sport | inferred from mutant phenotype|GO:0015680//biological process| copper ion import | inferred from genetic interaction |GO:0015677
embrane transport | traceable author statement |GO:0006893
ological process| transcription initiation from Pol II promoter | inferred from sequence similarity|GO:0006367//biological process| transcription initiation from
ent |GO:0006796
//biological process| transcription initiation from Pol II promoter | traceable author statement |GO:0006367//biological process| nucleotide-excision repair |
with cellular fusion | inferred from mutant phenotype |GO:0000754
phal growth | inferred from genetic interaction |GO:0007124//biological process| glycogen metabolism | inferred from genetic interaction |GO:0005977//biolo
ction |GO:0008250//biological process| N-linked glycosylation | inferred from physical interaction|GO:0006487//biological process| protein amino acid glyco
042147//biological process| intracellular protein transport | traceable author statement |GO:0006886//biological process| intracellular protein transport | infe
279//biological process| protein complex assembly | inferred from mutant phenotype |GO:0006461
030497//biological process| sphingolipid biosynthesis | inferred from mutant phenotype |GO:0030148//biological process| post-Golgi transport | inferred fro
s| vesicle budding | inferred from mutant phenotype |GO:0006900//biological process| ER to Golgi transport | traceable author statement |GO:0006888
ed from mutant phenotype |GO:0008315//biological process| meiotic G2/MI transition | inferred from expression pattern |GO:0008315//biological process| G
II promoter | traceable author statement |GO:0006357
direct assay |GO:0042145//biological process| vacuole organization and biogenesis | inferred from mutant phenotype |GO:0007033//biological process| G1
methionine metabolism | traceable author statement |GO:0006555
utant phenotype |GO:0007265
statement |GO:0006075
n |GO:0000778//cellular component| condensed nuclear chromosome kinetochore | inferred from mutant phenotype |GO:0000778//biological process| chro
030497//biological process| sphingolipid biosynthesis | inferred from mutant phenotype |GO:0030148//biological process| vesicle-mediated transport | infer
from mutant phenotype|GO:0030036//biological process| response to heat | inferred from mutant phenotype |GO:0009408//biological process| Rho protein
bolism | inferred from genetic interaction |GO:0009072
cid glycosylation | inferred from sequence similarity |GO:0006486//biological process| protein amino acid glycosylation | inferred from mutant phenotype |G
enotype |GO:0007033//biological process| endocytosis | inferred from mutant phenotype |GO:0006897//biological process| iron ion homeostasis | inferred f
pattern|GO:0006790
direct assay |GO:0005634//biological process| tRNA methylation | inferred from sequence similarity|GO:0030488//biological process| tRNA methylation | i
98//biological process| telomerase-dependent telomere maintenance | inferred from physical interaction |GO:0007004//biological process| telomerase-depe
rect assay |GO:0005730//cellular component| protein phosphatase type 1 complex | inferred from direct assay |GO:0000164//biological process| transcript
pe |GO:0006491//biological process| cell wall mannoprotein biosynthesis | inferred from mutant phenotype |GO:0000032
:0005886//biological process| ammonium transport | inferred from sequence similarity|GO:0015696//biological process| ammonium transport | inferred from
//biological process| proline biosynthesis | inferred from direct assay|GO:0006561
e author statement |GO:0000243//cellular component| commitment complex | inferred from physical interaction |GO:0000243//biological process| mRNA sp
gical process| mitotic spindle orientation (sensu Fungi) | inferred from genetic interaction |GO:0030607//biological process| mitotic sister chromatid segrega
06888//biological process| ER to Golgi transport | inferred from genetic interaction |GO:0006888//biological process| amino acid transport | inferred from mu
ort | inferred from sequence similarity |GO:0006810
m Pol I promoter | traceable author statement |GO:0006360
:0006817//biological process| phosphate transport | inferred from mutant phenotype |GO:0006817//biological process| phosphate transport | inferred from
hosphorylation | inferred from direct assay|GO:0042326//biological process| mRNA processing | inferred from mutant phenotype |GO:0006397//biological p
inity zinc ion transport | inferred from mutant phenotype|GO:0006830
mbly and maintenance | traceable author statement |GO:0000028
process| loss of chromatin silencing | inferred from direct assay|GO:0006345
nthesis | traceable author statement |GO:0006412
/biological process| protein biosynthesis | traceable author statement|GO:0006412
hospholipid biosynthesis | inferred from mutant phenotype|GO:0008654//biological process| phospholipid biosynthesis | inferred from genetic interaction |G
nal termination | traceable author statement|GO:0006449//biological process| mRNA catabolism | traceable author statement |GO:0006402//biological pro
gical process| vacuolar acidification | traceable author statement|GO:0007035//biological process| vacuolar transport | inferred from mutant phenotype |GO
om genetic interaction |GO:0006359//biological process| regulation of transcription from Pol III promoter | inferred from direct assay |GO:0006359//biologic
slational initiation | inferred from mutant phenotype |GO:0006446//biological process| regulation of translational initiation | inferred from genetic interaction
ription termination from Pol II promoter, poly(A)-independent | inferred from genetic interaction |GO:0030847
O:0030148//biological process| sphingolipid biosynthesis | inferred from direct assay |GO:0030148//biological process| 3-keto-sphinganine metabolism | inf
ay |GO:0007070
assay |GO:0005634//biological process| negative regulation of transcription | inferred from physical interaction|GO:0016481//biological process| negative r
GO:0015817//biological process| manganese ion transport | inferred from mutant phenotype |GO:0006828
nt depolymerization | inferred from genetic interaction |GO:0030042//biological process| response to osmotic stress | inferred from mutant phenotype |GO:
from mutant phenotype |GO:0006886
ed from direct assay|GO:0008361//biological process| G1/S transition of mitotic cell cycle | inferred from mutant phenotype |GO:0000082
7109//biological process| cytokinesis, completion of separation | inferred from expression pattern |GO:0007109//biological process| cell wall organization a
ological process| G2/M transition of mitotic cell cycle | inferred from expression pattern |GO:0000086//biological process| regulation of cyclin dependent pro
author statement |GO:0006144
0006807//biological process| glutamine biosynthesis | traceable author statement |GO:0006542
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//molecular function| specific RNA polyme
phospholipid metabolism | inferred from genetic interaction |GO:0006644//biological process| vacuole inheritance | inferred from mutant phenotype |GO:00
ment|GO:0006406//biological process| mRNA-nucleus export | inferred from genetic interaction |GO:0006406
y |GO:0006078//biological process| beta-1,6 glucan biosynthesis | inferred from mutant phenotype |GO:0006078
otein catabolism | inferred from genetic interaction|GO:0006511
omplex | traceable author statement |GO:0000159//biological process| protein amino acid dephosphorylation | traceable author statement|GO:0006470//bi
| protein amino acid phosphorylation | traceable author statement |GO:0006468
m mutant phenotype |GO:0000002//biological process| mitochondrial genome maintenance | inferred from genetic interaction |GO:0000002
ction |GO:0006979//biological process| transcription | inferred from physical interaction |GO:0006350//biological process| transcription | inferred from gene
nthesis | non-traceable author statement |GO:0006780//biological process| methionine metabolism | inferred from mutant phenotype |GO:0006555//biologi
0000173//biological process| regulation of cyclin dependent protein kinase activity | inferred from physical interaction |GO:0000079//biological process| reg
meostasis | inferred from sequence similarity |GO:0006882//biological process| zinc ion homeostasis | inferred from mutant phenotype |GO:0006882//biolo
ar component| nuclear chromatin | inferred from direct assay |GO:0000790//biological process| chromatin silencing at silent mating-type cassette (sensu Fu
GO:0006298//biological process| leading strand elongation | inferred from direct assay |GO:0006272
21//biological process| positive regulation of glycolysis | inferred from genetic interaction |GO:0045821//biological process| transcription | inferred from phys
direct assay |GO:0006470
nferred from expression pattern |GO:0040020//biological process| G2/M transition of mitotic cell cycle | inferred from sequence similarity |GO:0000086//biol
or statement|GO:0030036//biological process| response to heat | inferred from sequence similarity |GO:0009408//biological process| response to heat | inf
t phenotype |GO:0006950//biological process| regulation of transcription, DNA-dependent | traceable author statement |GO:0006355
O:0005884//biological process| actin cytoskeleton organization and biogenesis | inferred from direct assay|GO:0030036
8//biological process| chromatin assembly/disassembly | inferred from direct assay |GO:0006333
al process| rRNA processing | traceable author statement |GO:0006364
biological process| O-linked glycosylation | inferred from mutant phenotype |GO:0006493
192//biological process| mRNA localization, intracellular | traceable author statement |GO:0008298//biological process| actin polymerization and/or depoly
ed from mutant phenotype |GO:0000027
O:0015440//cellular component| mitochondrial inner membrane | inferred from direct assay|GO:0005743//biological process| oligopeptide transport | inferr
nferred from direct assay |GO:0005789//biological process| very-long-chain fatty acid metabolism | inferred from physical interaction|GO:0000038//biologic
on of translational elongation | inferred from genetic interaction |GO:0006448
from direct assay |GO:0009082
process| protein amino acid dephosphorylation | inferred from direct assay |GO:0006470//biological process| inactivation of MAPK during osmolarity sensin
e nucleation | traceable author statement|GO:0007020
tatement |GO:0006829//biological process| cobalt ion transport | non-traceable author statement |GO:0006824//biological process| glutathione metabolism
rowth (sensu Saccharomyces) | traceable author statement |GO:0001403//biological process| flocculation (sensu Saccharomyces) | inferred from mutant p
| inferred from direct assay |GO:0009298//biological process| protein amino acid glycosylation | inferred from mutant phenotype |GO:0006486//biological p
sical interaction |GO:0015937//biological process| response to salt stress | inferred from genetic interaction |GO:0009651
O:0005884//biological process| actin cytoskeleton organization and biogenesis | inferred from direct assay|GO:0030036
biogenesis | inferred from mutant phenotype |GO:0006999
r statement |GO:0006097//biological process| gluconeogenesis | traceable author statement |GO:0006094
rom mutant phenotype |GO:0006997//biological process| nuclear organization and biogenesis | inferred from genetic interaction |GO:0006997
ocess| mitotic anaphase B | traceable author statement |GO:0000092
al process| regulation of cell redox homeostasis | inferred from mutant phenotype|GO:0030503//biological process| regulation of cell redox homeostasis | i
imilarity |GO:0006665//biological process| sphingolipid metabolism | inferred from mutant phenotype |GO:0006665
ocess| vesicle fusion | traceable author statement |GO:0006906//biological process| Golgi to plasma membrane transport | traceable author statement |GO
cation | inferred from sequence similarity|GO:0018195//biological process| peptidyl-arginine modification | inferred from direct assay |GO:0018195//biologic
:0007243//biological process| cell wall organization and biogenesis | inferred from mutant phenotype |GO:0007047//biological process| protein amino acid
ein sumoylation | inferred from mutant phenotype |GO:0016925
from mutant phenotype|GO:0006413//biological process| translational initiation | inferred from genetic interaction |GO:0006413//biological process| transla
ion | inferred from physical interaction|GO:0006350//biological process| transcription | inferred from mutant phenotype |GO:0006350//biological process| tr
ocess| ubiquitin-dependent protein catabolism | traceable author statement|GO:0006511//biological process| G2/M transition of mitotic cell cycle | inferred f
ic cation transport | inferred from sequence similarity |GO:0015674//biological process| di-, tri-valent inorganic cation transport | inferred from mutant phen
3//biological process| bilirubin transport | inferred from genetic interaction |GO:0015723//biological process| response to metal ion | traceable author statem
llular fusion | inferred from mutant phenotype |GO:0000743
from direct assay|GO:0007049//biological process| N-linked glycosylation | inferred from physical interaction |GO:0006487
plex | inferred from physical interaction |GO:0005732//cellular component| nucleolus | inferred from direct assay |GO:0005730//biological process| processi
ess| double-strand break repair via nonhomologous end-joining | inferred from mutant phenotype |GO:0006303//biological process| DNA repair | inferred fr
007004//biological process| regulation of DNA recombination | inferred from mutant phenotype |GO:0000018
enotype |GO:0009060
GO:0006468//biological process| regulation of transcription from Pol III promoter | inferred from direct assay |GO:0006359//biological process| regulation o
rocess| nuclear migration (sensu Saccharomyces) | inferred from mutant phenotype |GO:0000065
|GO:0019538//biological process| protein metabolism | inferred from direct assay |GO:0019538
matin | inferred from sequence similarity |GO:0000790//biological process| plasmid maintenance | inferred from mutant phenotype|GO:0006276
rred from physical interaction |GO:0007264
henotype |GO:0007015//biological process| actin filament organization | inferred from direct assay |GO:0007015
ype |GO:0006010//biological process| glucose 1-phosphate utilization | inferred from sequence similarity |GO:0006008//biological process| glucose 1-phos
erred from direct assay |GO:0005634//biological process| negative regulation of transcription from Pol II promoter | inferred from mutant phenotype|GO:000
cess| endocytosis | inferred from genetic interaction |GO:0006897//biological process| protein amino acid phosphorylation | inferred from sequence similari
cess| regulation of transcription from Pol III promoter | inferred from genetic interaction |GO:0006359//biological process| regulation of transcription from Po
7264//biological process| small GTPase mediated signal transduction | inferred from curator |GO:0007264
om genetic interaction |GO:0006359//biological process| regulation of transcription from Pol III promoter | inferred from direct assay |GO:0006359//biologic
cal process| N-linked glycosylation | inferred from direct assay |GO:0006487
ess| mRNA cleavage | inferred from direct assay|GO:0006379//biological process| mRNA polyadenylation | inferred from mutant phenotype |GO:0006378/
gical process| endocytosis | inferred from mutant phenotype |GO:0006897
transition of mitotic cell cycle | inferred from expression pattern |GO:0000082
al process| G2/M transition of mitotic cell cycle | inferred from mutant phenotype |GO:0000086//biological process| G2/M transition of mitotic cell cycle | infe
s| vesicle organization and biogenesis | inferred from genetic interaction |GO:0016050
ype |GO:0006970//biological process| endocytosis | inferred from mutant phenotype |GO:0006897
erred from direct assay |GO:0016311
4329//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//biolo
| inferred from mutant phenotype|GO:0006817
rred from mutant phenotype |GO:0007021
biogenesis | inferred from genetic interaction |GO:0007047
etate transport | inferred from mutant phenotype |GO:0006846//biological process| transport | inferred from mutant phenotype |GO:0006810//biological pro
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
m direct assay |GO:0000131//biological process| Rho protein signal transduction | inferred from physical interaction|GO:0007266//biological process| pseu
llular fusion | inferred from mutant phenotype |GO:0000743
ceable author statement|GO:0006488//biological process| protein amino acid glycosylation | inferred from mutant phenotype |GO:0006486
0006487//biological process| N-linked glycosylation | inferred from physical interaction |GO:0006487
cess| N-linked glycosylation | inferred from direct assay |GO:0006487
vate metabolism | inferred from mutant phenotype |GO:0006090
lar component| nucleus | inferred from direct assay |GO:0005634//biological process| transcription termination from Pol II promoter, poly(A)-independent |
phenotype|GO:0042493//biological process| response to drug | inferred from genetic interaction |GO:0042493//biological process| cation homeostasis | infe
matin silencing at telomere | inferred from mutant phenotype |GO:0006348//biological process| chromatin silencing at telomere | inferred from direct assay
0007015//biological process| establishment of cell polarity (sensu Saccharomyces) | inferred from physical interaction |GO:0000283//biological process| es
192//biological process| mRNA localization, intracellular | traceable author statement |GO:0008298//biological process| actin polymerization and/or depoly
ement|GO:0007035
process| unfolded protein response, activation of signaling protein kinase/endonuclease | traceable author statement |GO:0006987//biological process| pro
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
6890//biological process| ER to Golgi transport | inferred from physical interaction |GO:0006888
embrane disassembly | inferred from mutant phenotype|GO:0030397//biological process| membrane disassembly | inferred from direct assay |GO:003039
e regulation of transcription from Pol II promoter | inferred from direct assay |GO:0000122
|GO:0005634//biological process| lysine biosynthesis, aminoadipic pathway | traceable author statement|GO:0019878
sequence similarity|GO:0005774//cellular component| vacuole (sensu Fungi) | inferred from direct assay |GO:0000324//biological process| calcium ion hom
| iron ion homeostasis | inferred from sequence similarity |GO:0006879//biological process| iron ion homeostasis | inferred from mutant phenotype |GO:000
raceable author statement |GO:0006891//biological process| retrograde transport, Golgi to ER | traceable author statement |GO:0006890//biological proce
notype |GO:0006561
ment |GO:0006412
author statement|GO:0045003//biological process| double-strand break repair via single-strand annealing | inferred from mutant phenotype |GO:0045002
mitosis | inferred from mutant phenotype |GO:0007088//biological process| spindle assembly | inferred from mutant phenotype |GO:0007051//biological pro
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
biological process| actin filament organization | inferred from direct assay |GO:0007015//biological process| response to osmotic stress | inferred from muta
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
ceable author statement |GO:0019878
/biological process| uridine transport | inferred from genetic interaction |GO:0015862
ical process| mRNA splice site selection | inferred from genetic interaction |GO:0006376
organization and biogenesis | inferred from genetic interaction |GO:0006997//biological process| nucleocytoplasmic transport | traceable author statement
ss| pseudohyphal growth | inferred from mutant phenotype |GO:0007124//biological process| response to stress | inferred from mutant phenotype |GO:000
bolism | traceable author statement|GO:0006104//biological process| succinyl-CoA metabolism | inferred from direct assay |GO:0006104//biological proces
m mutant phenotype |GO:0009070//biological process| L-serine biosynthesis | inferred from sequence similarity |GO:0006564//biological process| L-serine b
o ER | inferred from direct assay |GO:0006890//biological process| ER to Golgi transport | inferred from mutant phenotype |GO:0006888//biological process
/biological process| establishment and/or maintenance of cell polarity (sensu Saccharomyces) | inferred from mutant phenotype|GO:0030012//biological p
| pseudohyphal growth | inferred from genetic interaction |GO:0007124//biological process| regulation of cell cycle | inferred from mutant phenotype |GO:0
ed from mutant phenotype |GO:0000028
from direct assay |GO:0006835
rect assay |GO:0005730//cellular component| protein phosphatase type 1 complex | inferred from direct assay |GO:0000164//biological process| transcript
on | inferred from mutant phenotype|GO:0006413//biological process| translational initiation | inferred from direct assay |GO:0006413
on pattern |GO:0009051//biological process| tRNA processing | inferred from mutant phenotype |GO:0008033//biological process| tRNA processing | inferr
| traceable author statement|GO:0006555//biological process| methionine metabolism | inferred from mutant phenotype |GO:0006555//biological process|
notype|GO:0009636//biological process| response to toxin | inferred from genetic interaction |GO:0009636
al process| peptide pheromone maturation | traceable author statement|GO:0007323
omeostasis | inferred from mutant phenotype |GO:0006882//biological process| lipid metabolism | traceable author statement |GO:0006629
ein metabolism | inferred from direct assay|GO:0019538//biological process| vacuolar acidification | traceable author statement |GO:0007035//biological pr
anization and biogenesis | inferred from mutant phenotype|GO:0007031//biological process| transcription | traceable author statement |GO:0006350//biolo
ane targeting | inferred from physical interaction |GO:0006612//biological process| protein-membrane targeting | inferred from genetic interaction |GO:0006
tivity | inferred from direct assay |GO:0000156//cellular component| nucleus | inferred from physical interaction|GO:0005634//cellular component| nucleus
ment |GO:0006412
008298//biological process| chromosome segregation | inferred from mutant phenotype |GO:0007059
cess| mitotic spindle assembly (sensu Fungi) | traceable author statement|GO:0030472//biological process| DNA replication | traceable author statement |
1//biological process| ribosomal protein-nucleus import | traceable author statement |GO:0006610//biological process| mRNA-binding (hnRNP) protein-nuc
onent| plasma membrane | inferred from sequence similarity|GO:0005886//cellular component| plasma membrane | inferred from mutant phenotype |GO:0
3//biological process| O-linked glycosylation | inferred from direct assay |GO:0006493
notype|GO:0015887//biological process| pantothenate transport | inferred from genetic interaction |GO:0015887//biological process| endocytosis | inferred
|GO:0006468//biological process| regulation of transcription from Pol III promoter | inferred from direct assay |GO:0006359//biological process| regulation
om genetic interaction |GO:0016478
NA | inferred from physical interaction|GO:0030490//biological process| ribosome biogenesis | traceable author statement |GO:0007046//biological process
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
oxidative stress | inferred from mutant phenotype|GO:0006979//biological process| response to oxidative stress | inferred from genetic interaction |GO:0006
llular fusion | inferred from mutant phenotype |GO:0000743
iological process| ER to Golgi transport | inferred from mutant phenotype |GO:0006888
ogical process| signal transduction | traceable author statement |GO:0007165//biological process| cell adhesion | inferred from mutant phenotype |GO:000
milarity|GO:0006468//biological process| protein amino acid phosphorylation | inferred from direct assay |GO:0006468
biological process| O-linked glycosylation | inferred from mutant phenotype |GO:0006493
inferred from mutant phenotype|GO:0030490//biological process| protein biosynthesis | inferred from sequence similarity |GO:0006412//biological process
on homeostasis | inferred from sequence similarity |GO:0006882//biological process| zinc ion homeostasis | inferred from mutant phenotype |GO:0006882
ity|GO:0006891//biological process| intra-Golgi transport | inferred from genetic interaction |GO:0006891//biological process| ER to Golgi transport | inferre
000131//biological process| small GTPase mediated signal transduction | traceable author statement|GO:0007264//biological process| pseudohyphal grow
gical process| positive regulation of transcription | inferred from physical interaction|GO:0045941//biological process| positive regulation of transcription | in
ion of separation | inferred from mutant phenotype|GO:0007109
embrane disassembly | inferred from mutant phenotype|GO:0030397//biological process| membrane disassembly | inferred from direct assay |GO:003039
biological process| amino acid catabolism | inferred from genetic interaction |GO:0009063//biological process| regulation of transcription, DNA-dependent
|GO:0000147
enotype |GO:0006998//biological process| protein-nucleus export | traceable author statement |GO:0006611//biological process| ribosomal protein-nucleus
e activity | inferred from direct assay |GO:0003855//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| aromatic a
NA cap complex | inferred from physical interaction |GO:0005845//cellular component| cytoplasmic mRNA processing body | inferred from mutant phenotyp
branched chain family amino acid biosynthesis | inferred from direct assay |GO:0009082//biological process| amino acid catabolism | traceable author state
n biosynthesis | inferred from mutant phenotype |GO:0000162
tatement|GO:0006696
hromatin silencing at silent mating-type cassette (sensu Fungi) | traceable author statement |GO:0030466//biological process| DNA replication | traceable
otic sister chromatid segregation | inferred from mutant phenotype |GO:0000070
protein signal transduction | inferred from physical interaction|GO:0007266//biological process| axial budding | inferred from mutant phenotype |GO:00071
y |GO:0007189
erred from mutant phenotype|GO:0015804//biological process| neutral amino acid transport | inferred from genetic interaction |GO:0015804
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
sing | traceable author statement|GO:0006491//biological process| mannan metabolism | traceable author statement |GO:0006080//biological process| cell
onent| condensed nuclear chromosome kinetochore | inferred from physical interaction |GO:0000778//biological process| mitotic spindle assembly (sensu
phenotype|GO:0006865//biological process| amino acid transport | inferred from genetic interaction |GO:0006865
//biological process| ubiquitin-dependent protein catabolism | traceable author statement |GO:0006511//biological process| mitotic sister chromatid segreg
on from Pol II promoter | traceable author statement |GO:0006357
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
lgi transport | inferred from direct assay |GO:0006888
lular component| nucleus | inferred from direct assay |GO:0005634//biological process| RNA elongation from Pol II promoter | inferred from physical interac
from mutant phenotype |GO:0006636//biological process| mitochondrion inheritance | traceable author statement |GO:0000001
quence similarity|GO:0006810
phenotype |GO:0006491//biological process| cell wall mannoprotein biosynthesis | inferred from mutant phenotype |GO:0000032
nsport | traceable author statement |GO:0006888
ome organization and biogenesis | inferred from mutant phenotype |GO:0007031//biological process| peroxisome organization and biogenesis | inferred fr
GO:0016568//biological process| protein amino acid acetylation | inferred from physical interaction |GO:0006473//biological process| transcription initiation
ocess| fatty acid metabolism | inferred from mutant phenotype |GO:0006631//biological process| fatty acid metabolism | inferred from direct assay |GO:000
netic interaction |GO:0006508//biological process| protein amino acid phosphorylation | inferred from sequence similarity |GO:0006468//biological process|
cess| regulation of transcription from Pol III promoter | inferred from genetic interaction |GO:0006359//biological process| regulation of transcription from Po
d from direct assay |GO:0005934//cellular component| 1,3-beta-glucan synthase complex | inferred from direct assay |GO:0000148//biological process| sm
process| glycolysis | traceable author statement|GO:0006096//biological process| gluconeogenesis | traceable author statement |GO:0006094
transport | inferred from mutant phenotype |GO:0006810
nce similarity |GO:0006468//biological process| protein amino acid phosphorylation | inferred from genetic interaction |GO:0006468//biological process| age
protein import | inferred from mutant phenotype |GO:0045039
78//biological process| microtubule/kinetochore interaction | inferred from mutant phenotype|GO:0008608//biological process| microtubule/kinetochore inte
ylation | inferred from direct assay|GO:0006468
005783//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological process| cell surface receptor linked signal transduction | infer
n | traceable author statement |GO:0000154
eus | inferred from direct assay |GO:0005634//cellular component| nuclear ubiquitin ligase complex | traceable author statement |GO:0000152//biological p
//biological process| potassium ion homeostasis | inferred from mutant phenotype|GO:0030007//biological process| potassium ion homeostasis | inferred f
ment|GO:0006406//biological process| mRNA-nucleus export | inferred from genetic interaction |GO:0006406
m direct assay |GO:0030503
activity | inferred from mutant phenotype |GO:0004077//molecular function| biotin-[acetyl-CoA-carboxylase] ligase activity | inferred from direct assay |GO:0
of transcription from Pol II promoter, mitotic | traceable author statement|GO:0007070//biological process| transcription initiation from Pol II promoter | trace
e author statement|GO:0007265//biological process| pseudohyphal growth | inferred from mutant phenotype |GO:0007124//biological process| protein amin
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
000321//biological process| regulation of cyclin dependent protein kinase activity | traceable author statement |GO:0000079
| inferred from sequence similarity|GO:0006979//biological process| response to oxidative stress | inferred from mutant phenotype |GO:0006979//biologic
81//biological process| regulation of glycogen biosynthesis | inferred from mutant phenotype |GO:0005979//biological process| regulation of glycogen biosy
m genetic interaction |GO:0007606
ological process| postreplication repair | traceable author statement |GO:0006301//biological process| nucleotide-excision repair | traceable author stateme
acuolar transport | traceable author statement |GO:0007034//biological process| vacuolar transport | inferred from mutant phenotype |GO:0007034//biologic
tion from Pol II promoter | inferred from direct assay |GO:0006367
mutant phenotype |GO:0006281//biological process| conjugation with cellular fusion | traceable author statement |GO:0000747
7264//biological process| polar budding | traceable author statement |GO:0007121//biological process| axial budding | traceable author statement |GO:0007
ed from physical interaction|GO:0000398
s| glucose metabolism | inferred from mutant phenotype |GO:0006006//biological process| invasive growth (sensu Saccharomyces) | inferred from direct a
ss | traceable author statement |GO:0006950//biological process| ubiquitin-dependent protein catabolism | traceable author statement |GO:0006511
llular component| histone deacetylase complex | inferred from physical interaction|GO:0000118//biological process| negative regulation of meiosis | inferre
2//biological process| vesicle-mediated transport | inferred from physical interaction |GO:0016192
nt |GO:0006166//biological process| tryptophan biosynthesis | traceable author statement |GO:0000162//biological process| histidine biosynthesis | traceab
610//biological process| mRNA-binding (hnRNP) protein-nucleus import | traceable author statement |GO:0006609//biological process| snRNP protein-nuc
tant phenotype |GO:0006493//biological process| N-linked glycosylation | inferred from mutant phenotype |GO:0006487
ansport | inferred from genetic interaction |GO:0006895
d from physical interaction |GO:0000055//biological process| ribosomal large subunit-nucleus export | inferred from mutant phenotype |GO:0000055
06897//biological process| phosphatidylinositol biosynthesis | inferred from direct assay |GO:0006661
cal process| regulation of nitrogen utilization | inferred from mutant phenotype |GO:0006808//biological process| regulation of nitrogen utilization | inferred
ription coactivator activity | inferred from mutant phenotype |GO:0003713//molecular function| transcription coactivator activity | inferred from genetic intera
cess| chromosome segregation | inferred from genetic interaction |GO:0007059//biological process| protein targeting | inferred from physical interaction |GO
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
al process| chromatin silencing at telomere | inferred from genetic interaction |GO:0006348//biological process| chromatin silencing at ribosomal DNA | inf
intenance | inferred from mutant phenotype |GO:0000027
interaction |GO:0007020
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
mponent| septin ring (sensu Saccharomyces) | traceable author statement |GO:0000144//biological process| axial budding | traceable author statement|GO
type|GO:0009231
ess| protein-cofactor linkage | traceable author statement|GO:0018065//biological process| fatty acid biosynthesis | traceable author statement |GO:00066
outer membrane protein import | inferred from curator|GO:0045040
ceable author statement |GO:0000750//biological process| inactivation of MAPK during osmolarity sensing | traceable author statement |GO:0000173
myces) | inferred from mutant phenotype |GO:0001403//biological process| conjugation with cellular fusion | traceable author statement |GO:0000747
mutant phenotype|GO:0006882//biological process| regulation of transcription from Pol II promoter | inferred from mutant phenotype |GO:0006357
inferred from physical interaction |GO:0003677//cellular component| transcription factor TFIID complex | traceable author statement|GO:0005669//cellular
eraction |GO:0003700//cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| cellular response to phosphate starvation
from genetic interaction |GO:0001308//biological process| mRNA catabolism, deadenylation-dependent | inferred from genetic interaction |GO:0000288
synapsis | inferred from direct assay |GO:0007129
scription from Pol II promoter | traceable author statement |GO:0006357
ay |GO:0005634
//biological process| sulfate transport | inferred from genetic interaction |GO:0008272
| inferred from genetic interaction |GO:0005946//biological process| response to stress | inferred from mutant phenotype|GO:0006950//biological process|
tion |GO:0006885
sembly/disassembly | inferred from direct assay |GO:0006333
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
867//biological process| peroxisome organization and biogenesis | inferred from mutant phenotype |GO:0007031//biological process| fatty acid beta-oxidat
ement |GO:0030503//biological process| response to oxidative stress | inferred from sequence similarity |GO:0006979//biological process| DNA-dependent
nt phenotype |GO:0007089//biological process| regulation of cell cycle | inferred from mutant phenotype |GO:0000074
olding | traceable author statement |GO:0006457
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
coneogenesis | traceable author statement |GO:0006094
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
rred from direct assay |GO:0005625//biological process| ATP synthesis coupled proton transport | inferred from sequence similarity|GO:0015986//biologica
eraction|GO:0000502//biological process| protein deubiquitination | traceable author statement|GO:0016579//biological process| endocytosis | inferred from
abolism | inferred from mutant phenotype |GO:0005975
osome cycle | inferred from mutant phenotype |GO:0000067
RNA elongation from Pol II promoter | inferred from mutant phenotype |GO:0006368//biological process| DNA recombination | inferred from mutant pheno
nt |GO:0006412//biological process| ribosomal small subunit assembly and maintenance | inferred from mutant phenotype |GO:0000028
cess| CTP biosynthesis | traceable author statement |GO:0006241
ological process| multidrug transport | inferred from physical interaction |GO:0006855//biological process| multidrug transport | inferred from mutant phenot
red from mutant phenotype|GO:0006814
mino acid dephosphorylation | inferred from direct assay |GO:0006470
omponent| mitochondrion | inferred from direct assay |GO:0005739//biological process| aerobic respiration | inferred from mutant phenotype|GO:0009060/
vacuolar targeting | inferred from mutant phenotype|GO:0006623
negative regulation of transcription, mitotic | inferred from mutant phenotype |GO:0007068
process| glutamate metabolism | non-traceable author statement |GO:0006536//biological process| aspartate catabolism | traceable author statement |GO
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
ation | inferred from physical interaction |GO:0006487
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
ed from mutant phenotype|GO:0009060//biological process| fatty acid metabolism | inferred from sequence similarity |GO:0006631//biological process| fatt
nitiation | traceable author statement |GO:0006270//biological process| pre-replicative complex formation and maintenance | traceable author statement |G
ent| nuclear chromatin | traceable author statement |GO:0000790//biological process| RNA elongation from Pol II promoter | inferred from physical interact
physical interaction |GO:0000243//biological process| nuclear mRNA splicing, via spliceosome | inferred from physical interaction|GO:0000398
roteasome complex (sensu Eukarya) | inferred from physical interaction |GO:0000502//biological process| histone ubiquitination | inferred from mutant phe
physical interaction |GO:0006357
action |GO:0016050//biological process| ER to Golgi transport | inferred from physical interaction |GO:0006888
|GO:0005886//cellular component| soluble fraction | inferred from direct assay |GO:0005625//biological process| Rho protein signal transduction | traceab
e to antibiotic | inferred from direct assay|GO:0046677
s| vesicle organization and biogenesis | inferred from genetic interaction |GO:0016050
component| peripheral to membrane of membrane fraction | inferred from physical interaction |GO:0000300//cellular component| peripheral to membrane o
binase assembly | traceable author statement |GO:0000730//biological process| DNA recombinase assembly | inferred from direct assay |GO:0000730//bio
ranscription from Pol III promoter | traceable author statement|GO:0006383//biological process| transcription from Pol II promoter | traceable author statem
t | inferred from mutant phenotype|GO:0006406
610//biological process| mRNA-binding (hnRNP) protein-nucleus import | traceable author statement |GO:0006609//biological process| snRNP protein-nuc
gical process| isoleucine metabolism | traceable author statement |GO:0006549
enesis | inferred from mutant phenotype|GO:0007047//biological process| ornithine biosynthesis | traceable author statement |GO:0006592//biological proc
tatement |GO:0006611//biological process| ribosomal protein-nucleus import | traceable author statement |GO:0006610//biological process| mRNA-binding
al initiation | traceable author statement|GO:0006413//biological process| translational initiation | inferred from sequence similarity |GO:0006413//biological
raction|GO:0006260//biological process| DNA replication | inferred from mutant phenotype |GO:0006260//biological process| DNA replication | inferred from
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
l process| base-excision repair | traceable author statement |GO:0006284//biological process| mutagenesis | traceable author statement |GO:0006280//bio
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
statement|GO:0006613
ess| spermidine biosynthesis | inferred from mutant phenotype |GO:0008295
ral to plasma membrane | inferred from sequence similarity|GO:0005887//cellular component| integral to plasma membrane | inferred from direct assay |G
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
onent| Golgi membrane | inferred from direct assay |GO:0000139//biological process| signal transduction | traceable author statement|GO:0007165//biolog
ation | inferred from sequence similarity |GO:0006468//biological process| septin ring assembly | inferred from mutant phenotype |GO:0000921//biological
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
nteraction |GO:0007606
us | traceable author statement|GO:0005794//biological process| secretory pathway | inferred from mutant phenotype|GO:0045045//biological process| ma
ocess| threonine metabolism | traceable author statement |GO:0006566//biological process| methionine metabolism | traceable author statement |GO:0006
GO:0001308//biological process| loss of chromatin silencing during replicative cell aging | inferred from genetic interaction |GO:0001308//biological proces
phal growth | inferred from genetic interaction |GO:0007124//biological process| glycogen metabolism | inferred from genetic interaction |GO:0005977//biolo
ndle assembly (sensu Fungi) | inferred from mutant phenotype|GO:0030472//biological process| microtubule nucleation | inferred from physical interaction
logical process| glutamate biosynthesis | inferred from genetic interaction |GO:0006537
ssay |GO:0005634//biological process| processing of 20S pre-rRNA | inferred from physical interaction|GO:0030490//biological process| 35S primary trans
rocess| polyamine transport | inferred from mutant phenotype|GO:0015846
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
-linked oligosaccharide biosynthesis | traceable author statement |GO:0006488
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
inferred from mutant phenotype |GO:0006743
author statement |GO:0006269
nt |GO:0000090
hor statement |GO:0006468//biological process| signal transduction during conjugation with cellular fusion | inferred from direct assay |GO:0000750
gical process| regulation of glucose import | inferred from expression pattern|GO:0046324//biological process| glucose metabolism | traceable author state
ological process| actin filament organization | inferred from mutant phenotype |GO:0007015
hionine acetylation | inferred from genetic interaction |GO:0017196//biological process| cytoskeleton organization and biogenesis | inferred from mutant ph
ocess| vacuole organization and biogenesis | inferred from mutant phenotype |GO:0007033//biological process| autophagy | inferred from mutant phenotyp
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
hondrial inner membrane | inferred from direct assay |GO:0005743//biological process| intracellular copper ion transport | inferred from sequence similarity
geting | inferred from mutant phenotype |GO:0006623//biological process| protein-membrane targeting | inferred from physical interaction |GO:0006612//bio
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
ess | traceable author statement |GO:0006950//biological process| ubiquitin-dependent protein catabolism | traceable author statement |GO:0006511
:0006561//biological process| proline biosynthesis | inferred from direct assay |GO:0006561
rom sequence similarity|GO:0006811//biological process| ion transport | inferred from genetic interaction |GO:0006811
gical process| mitotic sister chromatid segregation | traceable author statement |GO:0000070
GO:0005975//biological process| carbohydrate metabolism | inferred from direct assay |GO:0005975
ponse to oxidative stress | inferred from genetic interaction |GO:0006979//biological process| response to oxidative stress | inferred from expression pattern
process| processing of 20S pre-rRNA | inferred from mutant phenotype |GO:0030490
phenotype |GO:0000183
ss | traceable author statement |GO:0006950//biological process| ubiquitin-dependent protein catabolism | traceable author statement |GO:0006511
red from mutant phenotype|GO:0015806
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
cal process| microtubule nucleation | inferred from physical interaction|GO:0007020//biological process| mitotic anaphase B | inferred from mutant phenoty
arity|GO:0006810
6121//biological process| tricarboxylic acid cycle | traceable author statement |GO:0006099
ignal transduction during conjugation with cellular fusion | traceable author statement |GO:0000750
006144//biological process| purine base metabolism | inferred from mutant phenotype |GO:0006144
y|GO:0006476//biological process| regulation of transcription, DNA-dependent | traceable author statement |GO:0006355//biological process| establishmen
n |GO:0000778//cellular component| condensed nuclear chromosome kinetochore | inferred from mutant phenotype |GO:0000778//biological process| chro
e similarity |GO:0007047//biological process| microtubule-based process | inferred from mutant phenotype |GO:0007017//biological process| actin filamen
al process| Rho protein signal transduction | inferred from genetic interaction |GO:0007266//biological process| establishment of cell polarity (sensu Sacch
n | traceable author statement |GO:0000154
ylation | inferred from direct assay|GO:0006468
henotype |GO:0007121//biological process| axial budding | inferred from mutant phenotype |GO:0007120//biological process| response to osmotic stress |
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
ed from mutant phenotype |GO:0000027
| inferred from mutant phenotype |GO:0006646
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
nteraction |GO:0006338
phenotype |GO:0000747
tenance | inferred from mutant phenotype |GO:0000027
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
//cellular component| contractile ring (sensu Saccharomyces) | inferred from direct assay |GO:0000142//cellular component| histone acetyltransferase com
thor statement |GO:0006365
rocess| rRNA processing | inferred from mutant phenotype |GO:0006364
eable author statement|GO:0006616
GO:0006950//biological process| endocytosis | inferred from mutant phenotype |GO:0006897
ocess| cytochrome c oxidase biogenesis | inferred from sequence similarity |GO:0008535//biological process| cytochrome c oxidase biogenesis | inferred fr
iological process| actin filament organization | inferred from physical interaction |GO:0007015//biological process| response to osmotic stress | traceable a
otype |GO:0000910
cal process| ubiquitin-dependent protein catabolism | inferred from physical interaction |GO:0006511//biological process| ubiquitin-dependent protein cata
|GO:0000780//cellular component| condensed nuclear chromosome kinetochore | inferred from physical interaction |GO:0000778//cellular component| co
mutant phenotype |GO:0006797
hesis | traceable author statement |GO:0006412//biological process| ribosomal small subunit assembly and maintenance | inferred from sequence similarit
ment |GO:0000282
llular component| nucleus | inferred from physical interaction|GO:0005634//cellular component| histone deacetylase complex | inferred from physical intera
|GO:0005739//biological process| transport | inferred from sequence similarity|GO:0006810
GO:0005829//cellular component| endoplasmic reticulum membrane | inferred from direct assay |GO:0005789//biological process| nuclear membrane orga
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
yces) | inferred from genetic interaction |GO:0000283
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
thor statement|GO:0006432
|GO:0006810
05244//molecular function| calcium activated cation channel activity | inferred from direct assay |GO:0005227//cellular component| vacuole (sensu Fungi) |
ent| ER-Golgi intermediate compartment | inferred from physical interaction |GO:0005793//biological process| cell cycle-dependent actin filament reorganiz
0030490//biological process| 35S primary transcript processing | traceable author statement |GO:0006365//biological process| rRNA modification | traceab
on |GO:0007124//biological process| isotropic bud growth | inferred from physical interaction |GO:0007119//biological process| apical bud growth | inferred
05244//molecular function| calcium activated cation channel activity | inferred from direct assay |GO:0005227//cellular component| vacuole (sensu Fungi) |
e author statement |GO:0005637//cellular component| tRNA-intron endonuclease complex | traceable author statement |GO:0000214//biological process| tR
GO:0008645
ferred from physical interaction|GO:0006611//biological process| protein-nucleus export | inferred from genetic interaction |GO:0006611
dent DNA replication | traceable author statement |GO:0006261//biological process| DNA-dependent DNA replication | inferred from mutant phenotype |G
DP-forming) | inferred from genetic interaction |GO:0005946//biological process| response to stress | inferred from direct assay|GO:0006950//biological pro
9//biological process| zinc ion transport | inferred from mutant phenotype |GO:0006829
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
e|GO:0007121//biological process| cell wall organization and biogenesis | inferred from mutant phenotype |GO:0007047//biological process| actin filament
om mutant phenotype |GO:0016050//biological process| vesicle organization and biogenesis | inferred from genetic interaction |GO:0016050//biological pro
from mitosis | inferred from genetic interaction |GO:0007096
biological process| asparaginyl-tRNA aminoacylation | inferred from genetic interaction |GO:0006421//biological process| asparaginyl-tRNA aminoacylation
131//biological process| cell wall organization and biogenesis | inferred from mutant phenotype|GO:0007047//biological process| cell wall organization and
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
nteraction |GO:0006499
olding | traceable author statement |GO:0006457
ylation | inferred from direct assay|GO:0006468
secretory pathway | inferred from genetic interaction |GO:0045045
c spindle checkpoint | traceable author statement|GO:0007094//biological process| protein amino acid phosphorylation | inferred from direct assay |GO:000
g ATP synthase, central stalk (sensu Eukarya) | inferred from sequence similarity|GO:0005756//cellular component| proton-transporting ATP synthase, cen
:0005886//biological process| ammonium transport | inferred from sequence similarity|GO:0015696//biological process| ammonium transport | inferred from
cold | inferred from mutant phenotype |GO:0009409//biological process| response to cold | inferred from expression pattern |GO:0009409//biological proce
ant phenotype |GO:0006644//biological process| phospholipid metabolism | inferred from genetic interaction |GO:0006644
omal large subunit assembly and maintenance | inferred from genetic interaction |GO:0000027
tant phenotype |GO:0006625
om genetic interaction|GO:0006414
GO:0005774//biological process| carnitine transport | inferred from direct assay|GO:0015879//biological process| response to osmotic stress | inferred from
GO:0006890//biological process| retrograde transport, Golgi to ER | inferred from genetic interaction |GO:0006890
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
al process| axial budding | traceable author statement |GO:0007120//biological process| cell wall organization and biogenesis | traceable author statement
ylation | inferred from direct assay|GO:0006468
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
component| mannosyltransferase complex | inferred from physical interaction |GO:0000136//biological process| N-linked glycosylation | inferred from muta
6189//biological process| purine ribonucleoside salvage | traceable author statement |GO:0006166//biological process| tryptophan biosynthesis | traceable
notype |GO:0007000//biological process| chromatin silencing at ribosomal DNA | inferred from physical interaction |GO:0000183//biological process| chrom
rect assay |GO:0006388
biological process| endocytosis | inferred from genetic interaction |GO:0006897//biological process| protein amino acid phosphorylation | inferred from sequ
0006616//biological process| karyogamy during conjugation with cellular fusion | inferred from mutant phenotype |GO:0000742//biological process| karyoga
cal process| invasive growth (sensu Saccharomyces) | inferred from mutant phenotype |GO:0001403
c interaction |GO:0007126//biological process| transcription | traceable author statement |GO:0006350//biological process| G1/S-specific transcription in m
n |GO:0000750
n |GO:0000116//biological process| G2-specific transcription in mitotic cell cycle | inferred from mutant phenotype |GO:0000116//biological process| regulat
irect assay|GO:0005935//cellular component| nucleus | traceable author statement |GO:0005634//cellular component| incipient bud site | inferred from dire
rred from expression pattern |GO:0009269//biological process| response to dessication | inferred from direct assay |GO:0009269//biological process| cell a
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
nt| transcription elongation factor complex | inferred from direct assay |GO:0008023//biological process| regulation of transcription from Pol II promoter | inf
om mutant phenotype|GO:0006882//biological process| zinc ion transport | inferred from genetic interaction |GO:0006829//biological process| cobalt ion tra
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
43//biological process| regulation of transcription, DNA-dependent | inferred from mutant phenotype |GO:0006355//biological process| regulation of transcr
rom mutant phenotype|GO:0030476//biological process| amine/polyamine transport | inferred from mutant phenotype |GO:0015837
aling | inferred from genetic interaction |GO:0045002//biological process| DNA recombinase assembly | traceable author statement |GO:0000730//biologica
eraction |GO:0030846
nucleotide-excision repair | traceable author statement |GO:0006289//biological process| base-excision repair | traceable author statement |GO:0006284//
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
ed from genetic interaction |GO:0008361
cess| endocytosis | inferred from mutant phenotype |GO:0006897//biological process| cytokinesis | inferred from mutant phenotype |GO:0000910//biologic
ic interaction|GO:0006621
intracellular protein transport | inferred from direct assay |GO:0006886
ction|GO:0048188//cellular component| nucleus | inferred from sequence similarity |GO:0005634//biological process| histone methylation | inferred from m
610//biological process| mRNA-binding (hnRNP) protein-nucleus import | traceable author statement |GO:0006609//biological process| snRNP protein-nuc
rt | inferred from mutant phenotype|GO:0015805
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
process| mitochondrial membrane organization and biogenesis | inferred from mutant phenotype |GO:0007006
otype |GO:0006461//biological process| 35S primary transcript processing | inferred from mutant phenotype |GO:0006365//biological process| rRNA proce
nsed nuclear chromosome kinetochore | inferred from direct assay |GO:0000778//biological process| mitotic spindle assembly (sensu Fungi) | inferred from
otype |GO:0000184
on | traceable author statement|GO:0005624//biological process| trehalose transport | inferred from direct assay|GO:0015771//biological process| alpha-glu
ment |GO:0000282
action |GO:0045449//biological process| establishment and/or maintenance of cell polarity (sensu Saccharomyces) | inferred from mutant phenotype |GO:
assay |GO:0000502//biological process| protein catabolism | inferred from physical interaction|GO:0030163//biological process| protein catabolism | inferre
oin catabolism | inferred from genetic interaction |GO:0000256
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
610//biological process| mRNA-binding (hnRNP) protein-nucleus import | traceable author statement |GO:0006609//biological process| snRNP protein-nuc
143//biological process| meiotic chromosome segregation | inferred from mutant phenotype |GO:0045132//biological process| DNA replication | inferred fro
886//biological process| hexose transport | traceable author statement|GO:0008645
red from sequence similarity|GO:0045944//biological process| positive regulation of transcription from Pol II promoter | inferred from physical interaction |G
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
006080//biological process| cell wall mannoprotein biosynthesis | traceable author statement |GO:0000032
gical process| protein amino acid phosphorylation | inferred from direct assay |GO:0006468
able author statement|GO:0030433//biological process| ER-associated protein catabolism | inferred from physical interaction |GO:0030433//biological proc
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
d from expression pattern |GO:0009409//biological process| fatty acid metabolism | inferred from mutant phenotype |GO:0006631
rect assay |GO:0006388
cription | inferred from mutant phenotype |GO:0006350//biological process| transcription | inferred from genetic interaction |GO:0006350
0000750//biological process| signal transduction during conjugation with cellular fusion | inferred from physical interaction |GO:0000750//biological proces
uconeogenesis | traceable author statement |GO:0006094
author statement |GO:0006350
ogical process| actin filament organization | inferred from physical interaction |GO:0007015//biological process| actin filament organization | inferred from m
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
ome, telomeric region | inferred from direct assay |GO:0000784//cellular component| kinetochore | inferred from direct assay |GO:0000776//biological proc
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
|GO:0006402//biological process| 35S primary transcript processing | traceable author statement |GO:0006365
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
GO:0005847//biological process| mRNA cleavage | traceable author statement|GO:0006379//biological process| mRNA cleavage | inferred from direct ass
oxidative stress | inferred from mutant phenotype|GO:0006979//biological process| response to oxidative stress | inferred from genetic interaction |GO:0006
cessing of 20S pre-rRNA | inferred from physical interaction|GO:0030490//biological process| 35S primary transcript processing | traceable author stateme
compound metabolism | inferred from genetic interaction |GO:0006730//biological process| glycine metabolism | inferred from mutant phenotype |GO:0006
assay |GO:0000329//biological process| SRP-dependent cotranslational membrane targeting, translocation | inferred from direct assay|GO:0006616//biolo
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
ed from mutant phenotype |GO:0000027
tant phenotype |GO:0006493//biological process| N-linked glycosylation | inferred from mutant phenotype |GO:0006487
m | inferred from mutant phenotype |GO:0006629//biological process| lipid metabolism | inferred from genetic interaction |GO:0006629//biological process
compound metabolism | inferred from genetic interaction |GO:0006730
om mutant phenotype |GO:0004313//cellular component| fatty-acid synthase complex | inferred from direct assay|GO:0005835//cellular component| cytoso
ment |GO:0006099
tabolism | inferred from direct assay|GO:0042732//biological process| arabinose metabolism | inferred from mutant phenotype |GO:0019566//biological pro
biological process| transport | inferred from sequence similarity |GO:0006810
ment |GO:0006412
ding | inferred from mutant phenotype |GO:0007024//biological process| post-chaperonin tubulin folding pathway | inferred from physical interaction |GO:0
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
ranscription from Pol III promoter | traceable author statement|GO:0006383//biological process| transcription from Pol II promoter | traceable author statem
hor statement |GO:0006906//biological process| vesicle docking during exocytosis | traceable author statement |GO:0006904//biological process| Golgi to p
38//biological process| DNA repair | inferred from mutant phenotype |GO:0006281//biological process| DNA repair | inferred from direct assay |GO:0006281
cytoplasm | inferred from direct assay|GO:0005737//biological process| tryptophan biosynthesis | traceable author statement|GO:0000162
O:0000783//biological process| chromatin silencing | traceable author statement|GO:0006342//biological process| double-strand break repair via nonhomolo
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
610//biological process| mRNA-binding (hnRNP) protein-nucleus import | traceable author statement |GO:0006609//biological process| snRNP protein-nuc
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
GO:0006950//biological process| response to stress | inferred from genetic interaction |GO:0006950//biological process| proteolysis and peptidolysis | infer
O:0006891//biological process| intra-Golgi transport | inferred from genetic interaction |GO:0006891//biological process| ER to Golgi transport | inferred fro
mponent| septin ring (sensu Saccharomyces) | traceable author statement |GO:0000144//biological process| axial budding | traceable author statement|GO
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
GO:0006508//biological process| proteolysis and peptidolysis | inferred from mutant phenotype |GO:0006508
essing | inferred from genetic interaction |GO:0006364
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
nferred from sequence similarity |GO:0006355//biological process| establishment and/or maintenance of chromatin architecture | inferred from sequence s
sensu Saccharomyces) | inferred from mutant phenotype|GO:0030012//biological process| regulation of exit from mitosis | inferred from mutant phenotype
erred from mutant phenotype|GO:0015804//biological process| neutral amino acid transport | inferred from genetic interaction |GO:0015804
2//biological process| vesicle-mediated transport | inferred from physical interaction |GO:0016192
atement |GO:0005737//cellular component| incipient bud site | inferred from direct assay |GO:0000131//biological process| budding | inferred from mutant p
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//molecular function| specific RNA polyme
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//molecular function| specific RNA polyme
physical interaction|GO:0007264//biological process| pseudohyphal growth | inferred from physical interaction |GO:0007124//biological process| isotropic b
complex assembly | inferred from physical interaction |GO:0006461//biological process| protein complex assembly | inferred from mutant phenotype |GO:0
rred from mutant phenotype |GO:0007021
|GO:0006468
ic cation transport | inferred from sequence similarity |GO:0015674//biological process| di-, tri-valent inorganic cation transport | inferred from mutant phen
otein import | inferred from mutant phenotype |GO:0030150
replication | inferred from mutant phenotype |GO:0006260//biological process| DNA replication | inferred from genetic interaction |GO:0006260
ment |GO:0000282
metabolism | inferred from direct assay |GO:0042732//biological process| arabinose metabolism | inferred from mutant phenotype |GO:0019566//biologica
rom physical interaction|GO:0005744//cellular component| presequence translocase-associated import motor | inferred from physical interaction |GO:0001
arity|GO:0005886//biological process| hexose transport | inferred from genetic interaction|GO:0008645
al process| exocytosis | inferred from mutant phenotype |GO:0006887
ical process| chromatin silencing at ribosomal DNA | inferred from direct assay |GO:0000183
l cycle | inferred from genetic interaction |GO:0000082
88//biological process| ER to Golgi transport | inferred from mutant phenotype |GO:0006888
rom mutant phenotype|GO:0006098
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
on-transporting ATP synthase complex, coupling factor F(o) (sensu Eukarya) | inferred from mutant phenotype |GO:0000276//biological process| ATP synth
t |GO:0006412
al process| rRNA processing | traceable author statement |GO:0006364
ed from mutant phenotype |GO:0000027
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
ement |GO:0006513//biological process| protein polyubiquitination | traceable author statement |GO:0000209
assay |GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634//cellular component| protein phosphatase type 2A complex | tra
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
phenotype |GO:0007076//biological process| mitotic sister chromatid segregation | traceable author statement |GO:0000070
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
ological process| signal peptide processing | inferred from sequence similarity|GO:0006465//biological process| signal peptide processing | inferred from p
component| transcription export complex | inferred from physical interaction |GO:0000346//biological process| mRNA-nucleus export | inferred from physica
07026//biological process| microtubule nucleation | inferred from physical interaction |GO:0007020//biological process| microtubule depolymerization | infer
usion | inferred from physical interaction |GO:0000750//biological process| signal transduction during conjugation with cellular fusion | inferred from mutan
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
um-mediated signaling | inferred from mutant phenotype|GO:0019722//biological process| sphingolipid metabolism | inferred from direct assay |GO:00066
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
inferred from mutant phenotype |GO:0016126//biological process| phospholipid transport | inferred from direct assay |GO:0015914
d from sequence similarity|GO:0006831//biological process| low-affinity zinc ion transport | inferred from mutant phenotype |GO:0006831
biological process| tryptophan biosynthesis | inferred from mutant phenotype |GO:0000162
on | inferred from direct assay |GO:0018347//biological process| peptide pheromone maturation | inferred from direct assay |GO:0007323
cellular component| condensed nuclear chromosome kinetochore | inferred from direct assay |GO:0000778//biological process| mitotic spindle assembly (s
ical process| DNA metabolism | inferred from direct assay |GO:0006259//biological process| purine nucleotide biosynthesis | traceable author statement |G
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
rocess| actin filament organization | inferred from physical interaction |GO:0007015//biological process| actin filament organization | inferred from mutant p
anotransferase activity | inferred from mutant phenotype |GO:0004134//molecular function| 4-alpha-glucanotransferase activity | inferred from direct assay
| signal transduction during conjugation with cellular fusion | traceable author statement |GO:0000750
x protein import | traceable author statement |GO:0030150
olgi transport | inferred from mutant phenotype |GO:0006888
process| glycolysis | traceable author statement|GO:0006096//biological process| gluconeogenesis | traceable author statement |GO:0006094
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
n | inferred from mutant phenotype |GO:0007015//biological process| actin filament organization | inferred from genetic interaction |GO:0007015//biologica
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
nscription from Pol II promoter | inferred from genetic interaction |GO:0000122
ar response to starvation | inferred from mutant phenotype |GO:0009267//biological process| vacuolar protein catabolism | traceable author statement |GO
abolism | inferred from mutant phenotype |GO:0006644//biological process| phospholipid metabolism | inferred from direct assay |GO:0006644
phenotype |GO:0005983
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
//biological process| mRNA cleavage | traceable author statement|GO:0006379//biological process| mRNA cleavage | inferred from mutant phenotype |GO
016192//biological process| isotropic bud growth | inferred from physical interaction |GO:0007119//biological process| isotropic bud growth | inferred from m
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
/biological process| protein biosynthesis | traceable author statement|GO:0006412
ochondrion | inferred from direct assay |GO:0005739//biological process| S-adenosylmethionine transport | inferred from mutant phenotype|GO:0015805//
ranscription from Pol III promoter | traceable author statement|GO:0006383//biological process| transcription from Pol II promoter | traceable author statem
ll cycle | inferred from physical interaction |GO:0000114
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
process| DNA repair | inferred from genetic interaction |GO:0006281
00921//biological process| septin ring assembly | inferred from genetic interaction |GO:0000921//biological process| cytokinesis | inferred from genetic inter
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
logical process| meiosis I | inferred from expression pattern |GO:0007127
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
ent inorganic cation homeostasis | inferred from mutant phenotype|GO:0030004//biological process| endosome transport | inferred from mutant phenotype
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
GO:0005737//biological process| vesicle-mediated transport | inferred from direct assay|GO:0016192
raction|GO:0000398
on from Pol III promoter | inferred from direct assay |GO:0006359//biological process| regulation of transcription from Pol II promoter | inferred from sequen
on from Pol II promoter | traceable author statement |GO:0006357
nt| nucleus | inferred from direct assay |GO:0005634//biological process| phosphatidylethanolamine biosynthesis | traceable author statement|GO:0006646
direct assay |GO:0005634//biological process| response to drug | traceable author statement|GO:0042493//biological process| regulation of transcription f
embrane disassembly | inferred from mutant phenotype|GO:0030397//biological process| membrane disassembly | inferred from direct assay |GO:003039
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
ATP synthase, catalytic core (sensu Eukarya) | inferred from mutant phenotype |GO:0005754//biological process| ATP synthesis coupled proton transport
ssay |GO:0005737//biological process| tRNA aminoacylation for protein translation | inferred from mutant phenotype|GO:0006418//biological process| tRN
ype |GO:0006468//biological process| DNA damage response, signal transduction resulting in cell cycle arrest | inferred from mutant phenotype |GO:00000
d from expression pattern |GO:0000278
07126//biological process| response to stress | inferred from mutant phenotype |GO:0006950//biological process| response to stress | inferred from genetic
aging | inferred from mutant phenotype |GO:0001302//biological process| DNA synthesis during DNA repair | inferred from mutant phenotype |GO:0000731
GO:0016568//biological process| protein amino acid acetylation | inferred from physical interaction |GO:0006473//biological process| transcription initiation
|GO:0000778//biological process| mitotic spindle assembly (sensu Fungi) | inferred from physical interaction|GO:0030472
om direct assay |GO:0004081//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct a
09//biological process| protein polyubiquitination | inferred from mutant phenotype |GO:0000209//biological process| mitochondrion inheritance | inferred fr
tic interaction |GO:0006950
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
tion|GO:0005622//biological process| response to oxidative stress | inferred from mutant phenotype|GO:0006979
d from mutant phenotype |GO:0019722
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
teraction|GO:0009098
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
ransferase complex | inferred from direct assay |GO:0000123//biological process| histone acetylation | inferred from direct assay|GO:0016573//biological p
rom mutant phenotype|GO:0007265//biological process| pseudohyphal growth | inferred from mutant phenotype |GO:0007124//biological process| protein
ological process| N-terminal protein myristoylation | inferred from genetic interaction |GO:0006499
t phenotype|GO:0030488
om mutant phenotype |GO:0007131//biological process| meiosis | inferred from mutant phenotype |GO:0007126//biological process| meiosis | inferred from
829//biological process| protein-mitochondrial targeting | inferred from mutant phenotype|GO:0006626
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
osomal large subunit-nucleus export | inferred from genetic interaction |GO:0000055
/biological process| protein biosynthesis | traceable author statement|GO:0006412
nferred from direct assay |GO:0005634//biological process| DNA replication initiation | traceable author statement|GO:0006270//biological process| DNA u
|GO:0007118//biological process| endocytosis | inferred from physical interaction |GO:0006897//biological process| cytokinesis | inferred from mutant phen
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
m Pol II promoter | inferred from mutant phenotype|GO:0006357
mponent| mitochondrial electron transport chain | traceable author statement |GO:0005746//cellular component| mitochondrial inner membrane | traceable
compound metabolism | inferred from genetic interaction |GO:0006730
nt |GO:0006166//biological process| tryptophan biosynthesis | traceable author statement |GO:0000162//biological process| histidine biosynthesis | traceab
e author statement |GO:0005637//cellular component| tRNA-intron endonuclease complex | traceable author statement |GO:0000214//biological process| tR
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
//biological process| ubiquitin-dependent protein catabolism | traceable author statement |GO:0006511//biological process| mitotic sister chromatid segreg
886//biological process| hexose transport | traceable author statement|GO:0008645
te cycle | traceable author statement |GO:0006097
tement |GO:0006468//biological process| activation of MAPKK during osmolarity sensing | traceable author statement |GO:0000168
871//biological process| choline transport | inferred from mutant phenotype |GO:0015871
ment |GO:0006412
is | traceable author statement|GO:0007010//biological process| protein folding | traceable author statement |GO:0006457
d from mutant phenotype |GO:0006333//biological process| chromatin assembly/disassembly | inferred from genetic interaction |GO:0006333
thor statement |GO:0006365
d from mutant phenotype |GO:0019722
cal process| transcription initiation from Pol III promoter | inferred from physical interaction |GO:0006384
0007059//biological process| protein amino acid phosphorylation | inferred from physical interaction |GO:0006468//biological process| protein amino acid p
s | inferred from direct assay |GO:0005634//biological process| base-excision repair | inferred from direct assay|GO:0006284//biological process| DNA rep
ed from mutant phenotype|GO:0030466//biological process| regulation of mitosis | inferred from physical interaction |GO:0007088//biological process| regu
hor statement |GO:0006611//biological process| ribosomal protein-nucleus import | traceable author statement |GO:0006610//biological process| mRNA-bin
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
n pattern |GO:0009060//biological process| 'de novo' IMP biosynthesis | inferred from mutant phenotype |GO:0006189//biological process| 'de novo' IMP b
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
ence similarity |GO:0006357
n transport | inferred from mutant phenotype |GO:0015672
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
spindle pole body | inferred from direct assay |GO:0005816//biological process| mitotic spindle orientation (sensu Fungi) | traceable author statement|GO:0
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
n, DNA-dependent | inferred from mutant phenotype |GO:0006355//biological process| nucleosome assembly | inferred from direct assay |GO:0006334//bio
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
biological process| O-linked glycosylation | inferred from mutant phenotype |GO:0006493
or statement |GO:0007264//biological process| calcium ion homeostasis | inferred from mutant phenotype |GO:0006874//biological process| establishment
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//molecular function| specific RNA polyme
4//cellular component| proton-transporting ATP synthase, stator stalk (sensu Eukarya) | inferred from sequence similarity |GO:0000274//cellular componen
ess| cell wall organization and biogenesis | inferred from mutant phenotype |GO:0007047
ical process| protein-membrane targeting | inferred from mutant phenotype |GO:0006612
e holoenzyme complex | traceable author statement |GO:0005697//cellular component| telomerase holoenzyme complex | inferred from physical interaction
nt |GO:0006166//biological process| tryptophan biosynthesis | traceable author statement |GO:0000162//biological process| histidine biosynthesis | traceab
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
ment |GO:0006511//biological process| mitotic sister chromatid segregation | traceable author statement |GO:0000070//biological process| mitotic spindle e
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//molecular function| specific RNA polyme
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
is | traceable author statement|GO:0007010//biological process| protein folding | traceable author statement |GO:0006457
traceable author statement |GO:0007234//biological process| osmosensory signaling pathway via two-component system | inferred from direct assay |GO
anscription initiation from Pol III promoter | inferred from direct assay |GO:0006384
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
e similarity|GO:0005977//biological process| glycogen metabolism | inferred from mutant phenotype |GO:0005977//biological process| glycogen metabolis
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
al process| mitotic metaphase/anaphase transition | traceable author statement |GO:0007091//biological process| ubiquitin-dependent protein catabolism |
019318//biological process| protein amino acid phosphorylation | inferred from mutant phenotype |GO:0006468//biological process| protein amino acid pho
ess| sphingolipid metabolism | inferred from direct assay |GO:0006665
nce similarity|GO:0005886//biological process| hexose transport | inferred from genetic interaction|GO:0008645
utant phenotype |GO:0000075
RNA polymerase I upstream activating factor complex | traceable author statement|GO:0000500//cellular component| RNA polymerase I upstream activa
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
a spliceosome | inferred from mutant phenotype|GO:0048025//biological process| negative regulation of translation | traceable author statement |GO:0016
6274//molecular function| protein-arginine N-methyltransferase activity | inferred from direct assay |GO:0016274//cellular component| bud neck | inferred fr
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
olding | traceable author statement |GO:0006457
ess| telomere maintenance | inferred from mutant phenotype |GO:0000723
006610//biological process| mRNA-binding (hnRNP) protein-nucleus import | traceable author statement |GO:0006609//biological process| snRNP protein
ransduction | traceable author statement|GO:0007264//biological process| polar budding | traceable author statement |GO:0007121//biological process| ax
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
ulation | inferred from mutant phenotype |GO:0030435//biological process| sporulation | inferred from expression pattern |GO:0030435//biological process|
e assembly | inferred from mutant phenotype|GO:0042256//biological process| regulation of translational initiation | inferred from physical interaction |GO:0
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
author statement|GO:0006412//biological process| protein biosynthesis | inferred from direct assay |GO:0006412
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
ological process| postreplication repair | traceable author statement |GO:0006301//biological process| nucleotide-excision repair | traceable author stateme
ess| mitochondrial matrix protein import | inferred from physical interaction|GO:0030150//biological process| mitochondrial matrix protein import | inferred f
on from Pol II promoter | traceable author statement |GO:0006357
26//biological process| glycyl-tRNA aminoacylation | inferred from mutant phenotype |GO:0006426//biological process| transcription termination | inferred fr
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
erred from mutant phenotype|GO:0009060//biological process| fatty acid metabolism | inferred from sequence similarity |GO:0006631//biological process| f
e |GO:0006412//biological process| protein biosynthesis | inferred from genetic interaction |GO:0006412
on |GO:0003677//molecular function| DNA binding | inferred from direct assay |GO:0003677//cellular component| nucleus | inferred from physical interactio
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
telomerase-dependent telomere maintenance | inferred from mutant phenotype|GO:0007004//biological process| transcription from Pol III promoter | infer
2//biological process| vesicle-mediated transport | inferred from physical interaction |GO:0016192
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
ort | inferred from sequence similarity |GO:0006810
GO:0030503//biological process| regulation of cell redox homeostasis | inferred from direct assay |GO:0030503//biological process| response to oxidative
microtubule nucleation | inferred from physical interaction |GO:0007020
otype |GO:0007126
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
ogical process| chromatin modification | inferred from mutant phenotype |GO:0016568
:0006412//biological process| ribosomal small subunit assembly and maintenance | inferred from mutant phenotype |GO:0000028
ation | inferred from mutant phenotype |GO:0006487
otein catabolism | inferred from genetic interaction|GO:0006511
erred from sequence similarity |GO:0006468
Fungi) | inferred from genetic interaction |GO:0030466//biological process| chromatin silencing at telomere | inferred from mutant phenotype |GO:0006348
from physical interaction|GO:0030490//biological process| nuclear mRNA splicing, via spliceosome | inferred from physical interaction |GO:0000398
al interaction |GO:0007020//biological process| protein-nucleus import | inferred from physical interaction |GO:0006606//biological process| RNA-nucleus e
rom physical interaction |GO:0006609//biological process| mRNA-binding (hnRNP) protein-nucleus import | inferred from mutant phenotype |GO:0006609/
cal process| protein folding | inferred from physical interaction |GO:0006457//biological process| protein folding | inferred from mutant phenotype |GO:0006
-nucleus export | inferred from mutant phenotype |GO:0006405//biological process| G1/S transition of mitotic cell cycle | inferred from mutant phenotype |G
inesis | inferred from mutant phenotype |GO:0000910
l process| protein amino acid phosphorylation | inferred from mutant phenotype |GO:0006468
to DNA damage stimulus | inferred from physical interaction|GO:0006974//biological process| response to DNA damage stimulus | inferred from mutant p
zation | inferred from mutant phenotype |GO:0008154//biological process| polar budding | inferred from mutant phenotype |GO:0007121
e-phosphate synthase complex (UDP-forming) | inferred from mutant phenotype |GO:0005946//cellular component| alpha,alpha-trehalose-phosphate synth
erred from mutant phenotype |GO:0006407//biological process| ribosome-nucleus export | inferred from mutant phenotype |GO:0000054
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
ocess| ubiquitin-dependent protein catabolism | traceable author statement|GO:0006511
raction |GO:0007094//biological process| actin filament organization | traceable author statement |GO:0007015//biological process| protein amino acid dep
biological process| protein biosynthesis | inferred from mutant phenotype |GO:0006412
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
bolism | traceable author statement|GO:0006104//biological process| succinyl-CoA metabolism | inferred from direct assay |GO:0006104//biological proces
utant phenotype |GO:0006623
t phenotype |GO:0016556//biological process| meiosis | inferred from mutant phenotype |GO:0007126
ferred from mutant phenotype|GO:0006376//biological process| mRNA splice site selection | inferred from genetic interaction |GO:0006376
omponent| nuclear telomere cap complex | inferred from direct assay |GO:0000783//biological process| chromatin silencing | traceable author statement|G
I promoter | inferred from mutant phenotype |GO:0000122
ed from physical interaction |GO:0007264//biological process| bud growth | inferred from physical interaction |GO:0007117//biological process| cell wall org
otype |GO:0007015//biological process| response to osmotic stress | inferred from mutant phenotype |GO:0006970//biological process| endocytosis | inferr
eplication repair | inferred from genetic interaction |GO:0006301//biological process| protein polyubiquitination | traceable author statement |GO:0000209
om mutant phenotype |GO:0000790//biological process| histone methylation | inferred from direct assay|GO:0016571//biological process| chromatin silenci
n | inferred from physical interaction |GO:0006445//biological process| regulation of translation | inferred from mutant phenotype |GO:0006445//biological p
610//biological process| mRNA-binding (hnRNP) protein-nucleus import | traceable author statement |GO:0006609//biological process| snRNP protein-nuc
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
erred from mutant phenotype|GO:0030476
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
erred from mutant phenotype |GO:0007124
16021//cellular component| endoplasmic reticulum | inferred from direct assay |GO:0005783//biological process| fatty acid elongation | inferred from seque
nferred from mutant phenotype|GO:0007047//biological process| cell wall organization and biogenesis | inferred from genetic interaction |GO:0007047//bio
modeling | inferred from genetic interaction |GO:0006338//biological process| chromatin remodeling | inferred from direct assay |GO:0006338
phenotype |GO:0007126//biological process| regulation of cell cycle | inferred from mutant phenotype |GO:0000074
eling | inferred from direct assay |GO:0006338
92//biological process| autophagy | inferred from mutant phenotype |GO:0006914
biosynthesis | inferred from direct assay |GO:0009113//biological process| one-carbon compound metabolism | inferred from mutant phenotype |GO:0006
biological process| mitotic spindle orientation (sensu Fungi) | inferred from genetic interaction |GO:0030607//biological process| mitotic spindle assembly (s
6114//biological process| terpenoid biosynthesis | inferred from direct assay |GO:0016114
biological process| response to osmotic stress | traceable author statement |GO:0006970
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
GO:0000086//biological process| S phase of mitotic cell cycle | inferred from mutant phenotype |GO:0000084//biological process| S phase of mitotic cell c
intracellular protein transport | inferred from direct assay |GO:0006886
vacuole transport | inferred from mutant phenotype |GO:0006896
leus | inferred from direct assay |GO:0005634//biological process| purine nucleotide biosynthesis | traceable author statement|GO:0006164
mic vesicle | traceable author statement|GO:0016023//cellular component| plasma membrane | inferred from sequence similarity |GO:0005886//cellular co
o stress | inferred from mutant phenotype |GO:0006950//biological process| response to stress | inferred from expression pattern |GO:0006950//biological
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
romatin modification | traceable author statement |GO:0016568
0006220//biological process| pyrimidine nucleotide metabolism | inferred from genetic interaction |GO:0006220
117//biological process| response to osmotic stress | inferred from mutant phenotype |GO:0006970//biological process| protein amino acid phosphorylatio
nt| presequence translocase-associated import motor | inferred from physical interaction |GO:0001405//biological process| mitochondrial matrix protein im
ed from mutant phenotype |GO:0007033//biological process| Golgi to vacuole transport | inferred from mutant phenotype |GO:0006896//biological process|
ysical interaction |GO:0008023//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| chromosome segregation | infer
ortical patch assembly | inferred from mutant phenotype |GO:0000147
erred from mutant phenotype |GO:0000135//biological process| septin checkpoint | inferred from genetic interaction |GO:0000135//biological process| G2/
erred from direct assay |GO:0005884//cellular component| polarisome | traceable author statement |GO:0000133//cellular component| incipient bud site | in
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
erred from mutant phenotype|GO:0009060//biological process| fatty acid metabolism | inferred from sequence similarity |GO:0006631//biological process| f
610//biological process| mRNA-binding (hnRNP) protein-nucleus import | traceable author statement |GO:0006609//biological process| snRNP protein-nuc
ion | traceable author statement |GO:0000727//biological process| telomerase-independent telomere maintenance | inferred from mutant phenotype |GO:0
| inferred from mutant phenotype |GO:0006876
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
ferred from direct assay |GO:0000398
targeting | inferred from mutant phenotype |GO:0006623
biological process| base-excision repair | traceable author statement |GO:0006284//biological process| mutagenesis | traceable author statement |GO:0006
21//biological process| cell wall organization and biogenesis | inferred from mutant phenotype |GO:0007047//biological process| response to osmotic stres
sphatidylcholine biosynthesis | inferred from direct assay |GO:0006656
etic interaction |GO:0007001
statement|GO:0006094
rowth (sensu Saccharomyces) | traceable author statement |GO:0001403//biological process| flocculation (sensu Saccharomyces) | inferred from mutant p
891//biological process| intra-Golgi transport | inferred from genetic interaction |GO:0006891//biological process| ER to Golgi transport | inferred from sequ
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
assay |GO:0003905//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecular function| RNA
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
rom direct assay |GO:0018065
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
nt|GO:0045041//biological process| proteolysis and peptidolysis | inferred from mutant phenotype |GO:0006508//biological process| protein complex assem
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//molecular function| specific RNA polyme
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
849//biological process| transport | traceable author statement |GO:0006810
gical process| DNA recombination | inferred from mutant phenotype |GO:0006310
886//biological process| hexose transport | traceable author statement|GO:0008645
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
ocess| phospholipid biosynthesis | traceable author statement |GO:0008654
tion | inferred from mutant phenotype |GO:0045449//biological process| meiosis | traceable author statement |GO:0007126//biological process| protein am
98//biological process| nucleotide-excision repair | traceable author statement |GO:0006289//biological process| lagging strand elongation | traceable autho
ble author statement|GO:0006906
biological process| chromatin remodeling | inferred from physical interaction |GO:0006338//biological process| chromatin remodeling | inferred from direct
ble author statement|GO:0006906
n | traceable author statement |GO:0000154
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
signaling pathway | inferred from physical interaction|GO:0007186//biological process| G-protein coupled receptor protein signaling pathway | inferred from
|GO:0006810
nferred from mutant phenotype|GO:0006515
iological process| positive regulation of transcription from Pol II promoter | inferred from sequence similarity|GO:0045944//biological process| positive regu
ation | inferred from sequence similarity |GO:0006468//biological process| septin ring assembly | inferred from mutant phenotype |GO:0000921//biological
assay |GO:0006048
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
eus import | inferred from mutant phenotype |GO:0006606
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
raceable author statement |GO:0000105
ocess| positive regulation of transcription from Pol II promoter | inferred from sequence similarity|GO:0045944//biological process| positive regulation of tra
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
assay |GO:0000329//biological process| SRP-dependent cotranslational membrane targeting, translocation | inferred from direct assay|GO:0006616//biolo
otype |GO:0007015//biological process| response to osmotic stress | inferred from mutant phenotype |GO:0006970//biological process| endocytosis | inferr
xylic acid cycle | traceable author statement |GO:0006099
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
biquitination | inferred from mutant phenotype |GO:0006513
mutant phenotype |GO:0000288
GO:0006402//biological process| 35S primary transcript processing | traceable author statement |GO:0006365
ferred from direct assay |GO:0000134//cellular component| incipient bud site | traceable author statement |GO:0000131//biological process| polar budding
logical process| transport | inferred from mutant phenotype |GO:0006810
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
GO:0007005//biological process| mitochondrial genome maintenance | inferred from mutant phenotype |GO:0000002
6//biological process| ribosome biogenesis | inferred from direct assay |GO:0007046
007243//biological process| protein amino acid phosphorylation | traceable author statement |GO:0006468//biological process| establishment of cell polarit
binase assembly | traceable author statement |GO:0000730//biological process| DNA recombinase assembly | inferred from direct assay |GO:0000730//bio
inferred from genetic interaction |GO:0006999//biological process| protein-nucleus export | traceable author statement |GO:0006611//biological process| ri
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
| inferred from mutant phenotype |GO:0006415
assay |GO:0005783//biological process| fatty acid transport | inferred from direct assay|GO:0015908
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
hor statement |GO:0006611//biological process| ribosomal protein-nucleus import | traceable author statement |GO:0006610//biological process| mRNA-bin
|GO:0000780//cellular component| condensed nuclear chromosome kinetochore | inferred from physical interaction |GO:0000778//cellular component| co
O:0018283//biological process| iron incorporation into metallo-sulfur cluster | inferred from genetic interaction |GO:0018283//biological process| iron ion hom
07015//biological process| protein amino acid phosphorylation | traceable author statement |GO:0006468//biological process| activation of MAPK during os
esis | inferred from direct assay|GO:0046656//biological process| purine fermentation | inferred from direct assay |GO:0019653//biological process| acetate
GO:0008645
hor statement|GO:0006511//biological process| G2/M transition of mitotic cell cycle | inferred from physical interaction |GO:0000086//biological process| G
ucleus export | inferred from genetic interaction |GO:0006406
006610//biological process| mRNA-binding (hnRNP) protein-nucleus import | traceable author statement |GO:0006609//biological process| snRNP protein
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
m Pol I promoter | traceable author statement |GO:0006360
process| gluconeogenesis | traceable author statement |GO:0006094
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
016050//biological process| conjugation with cellular fusion | inferred from expression pattern |GO:0000747
vacuolar membrane (sensu Fungi) | inferred from direct assay |GO:0000329//biological process| signal transduction | traceable author statement|GO:0007
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
ement |GO:0030503//biological process| response to oxidative stress | inferred from sequence similarity |GO:0006979//biological process| DNA-dependent
process| glycolysis | traceable author statement|GO:0006096//biological process| gluconeogenesis | traceable author statement |GO:0006094
assay |GO:0003905//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecular function| RNA
kpoint | traceable author statement |GO:0007094
//biological process| ubiquitin-dependent protein catabolism | traceable author statement |GO:0006511//biological process| mitotic sister chromatid segreg
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
ent |GO:0006511//biological process| mitotic sister chromatid segregation | traceable author statement |GO:0000070//biological process| mitotic spindle el
nt phenotype |GO:0007165//biological process| pseudohyphal growth | inferred from mutant phenotype |GO:0007124
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//molecular function| specific RNA polyme
transition of mitotic cell cycle | inferred from genetic interaction |GO:0000082//biological process| regulation of cyclin dependent protein kinase activity | tra
protein catabolism | traceable author statement|GO:0006511
pendent | traceable author statement |GO:0006355
n|GO:0006887//biological process| exocytosis | inferred from mutant phenotype |GO:0006887//biological process| exocytosis | inferred from genetic interac
erred from direct assay |GO:0006367
06891//biological process| intra-Golgi transport | inferred from genetic interaction |GO:0006891//biological process| ER to Golgi transport | inferred from gen
86//biological process| positive regulation of transcription from Pol II promoter | inferred from direct assay |GO:0045944//biological process| signal transduc
|GO:0005634//biological process| lysine biosynthesis, aminoadipic pathway | traceable author statement|GO:0019878
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//molecular function| specific RNA polyme
lasmic transport | inferred from mutant phenotype |GO:0006913//biological process| protein monoubiquitination | traceable author statement |GO:0006513
ocess| iron ion homeostasis | inferred from genetic interaction |GO:0006879//biological process| mitochondrial processing | inferred from mutant phenotype
ype |GO:0000077
m physical interaction |GO:0006887//biological process| exocytosis | inferred from mutant phenotype |GO:0006887
ect assay|GO:0005758//cellular component| cytoplasm | traceable author statement |GO:0005737//cellular component| cytoplasm | inferred from direct ass
scription from Pol II promoter | inferred from mutant phenotype |GO:0006357//biological process| regulation of transcription from Pol II promoter | inferred f
nt |GO:0007121//biological process| axial budding | traceable author statement |GO:0007120//biological process| cell wall organization and biogenesis | tra
ype |GO:0006010//biological process| glucose 1-phosphate utilization | inferred from sequence similarity |GO:0006008//biological process| glucose 1-phos
cytoplasm | inferred from direct assay |GO:0005737//cellular component| vacuole (sensu Fungi) | inferred from direct assay |GO:0000324//biological proces
ement |GO:0006513//biological process| protein polyubiquitination | traceable author statement |GO:0000209
d from mutant phenotype|GO:0009164
peptide pheromone maturation | inferred from sequence similarity|GO:0007323//biological process| peptide pheromone maturation | inferred from mutant p
red from mutant phenotype|GO:0006814
component| incipient bud site | inferred from direct assay |GO:0000131//biological process| maintenance of cell polarity (sensu Fungi) | inferred from mutan
//biological process| deadenylation-dependent decapping | inferred from direct assay |GO:0000290
n | traceable author statement |GO:0000154
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
m mutant phenotype|GO:0030472//biological process| response to osmotic stress | inferred from mutant phenotype |GO:0006970//biological process| resp
say |GO:0005697//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| telomerase-dependent telomere maintenance
ndle assembly (sensu Fungi) | inferred from mutant phenotype|GO:0030472//biological process| microtubule nucleation | inferred from physical interaction
/biological process| protein biosynthesis | traceable author statement|GO:0006412
s| protein biosynthesis | traceable author statement|GO:0006412
hate synthase complex (UDP-forming) | inferred from mutant phenotype |GO:0005946//cellular component| alpha,alpha-trehalose-phosphate synthase com
component| nucleus | inferred from physical interaction|GO:0005634//biological process| histone methylation | inferred from mutant phenotype|GO:001657
d from mutant phenotype |GO:0001100//biological process| negative regulation of exit from mitosis | inferred from genetic interaction |GO:0001100
ocess| DNA recombination | inferred from genetic interaction |GO:0006310
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
ent|GO:0006045
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
ble author statement|GO:0030437//biological process| response to stress | traceable author statement |GO:0006950//biological process| ubiquitin-depend
|GO:0006810
nferred from direct assay |GO:0005634//biological process| DNA replication initiation | traceable author statement|GO:0006270//biological process| DNA re
ant phenotype|GO:0007121//biological process| vesicle fusion | traceable author statement |GO:0006906//biological process| vesicle docking during exocy
610//biological process| mRNA-binding (hnRNP) protein-nucleus import | traceable author statement |GO:0006609//biological process| snRNP protein-nuc
cessing | inferred from physical interaction |GO:0006364
| nuclear chromatin | inferred from direct assay |GO:0000790//biological process| regulation of transcription from Pol II promoter | traceable author stateme
d from physical interaction |GO:0000243//biological process| nuclear mRNA splicing, via spliceosome | inferred from mutant phenotype|GO:0000398
red from mutant phenotype|GO:0006310//biological process| nucleotide-excision repair | inferred from mutant phenotype |GO:0006289//biological process
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//molecular function| specific RNA polyme
raction |GO:0000086//biological process| S phase of mitotic cell cycle | inferred from mutant phenotype |GO:0000084//biological process| S phase of mitot
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
|GO:0000902//biological process| cellular morphogenesis | inferred from genetic interaction |GO:0000902
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
om mutant phenotype |GO:0007047//biological process| endocytosis | inferred from genetic interaction |GO:0006897
//biological process| ubiquitin-dependent protein catabolism | traceable author statement |GO:0006511//biological process| mitotic sister chromatid segreg
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
tant phenotype |GO:0007064//biological process| sister chromatid cohesion | traceable author statement |GO:0007062//biological process| DNA topologic
l process| endocytosis | inferred from mutant phenotype|GO:0006897//biological process| sphingolipid metabolism | inferred from mutant phenotype |GO:0
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
biological process| response to pheromone during conjugation with cellular fusion | inferred from mutant phenotype |GO:0000749//biological process| poly(
ransport | inferred from mutant phenotype|GO:0015986
assay |GO:0006696//biological process| electron transport | inferred from direct assay |GO:0006118
ess| cytokinesis, contractile ring formation | inferred from mutant phenotype |GO:0000915
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
GO:0005847//biological process| transcription termination from Pol II promoter, poly(A)-independent | inferred from physical interaction|GO:0030847//biolo
ranscription from Pol III promoter | traceable author statement|GO:0006383//biological process| transcription from Pol II promoter | traceable author statem
gical process| DNA recombination | inferred from mutant phenotype |GO:0006310
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
etic interaction |GO:0006828
nt phenotype |GO:0007005
hondrial inner membrane protein import | inferred from genetic interaction |GO:0045039
red from mutant phenotype|GO:0030148
NA damage stimulus | traceable author statement |GO:0006974
O:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecular function| mRNA bindin
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
genetic interaction |GO:0000027
O:0005634//biological process| response to xenobiotic stimulus | inferred from mutant phenotype|GO:0009410
cytoplasm | inferred from direct assay |GO:0005737//biological process| mitochondrial intermembrane space protein import | traceable author statement|G
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
ological process| response to pheromone during conjugation with cellular fusion | inferred from mutant phenotype |GO:0000749//biological process| poly(A
utant phenotype |GO:0006461
ype |GO:0006623
otype|GO:0030503//biological process| regulation of cell redox homeostasis | inferred from direct assay |GO:0030503//biological process| response to met
m mutant phenotype|GO:0007094
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
0//biological process| signal transduction during conjugation with cellular fusion | inferred from physical interaction |GO:0000750//biological process| signa
m genetic interaction |GO:0015802//biological process| intracellular protein transport | inferred from mutant phenotype |GO:0006886//biological process| re
icative complex formation and maintenance | traceable author statement |GO:0006267
rom direct assay |GO:0030476
al process| rRNA processing | traceable author statement |GO:0006364
886//biological process| hexose transport | traceable author statement|GO:0008645
gen utilization | inferred from genetic interaction |GO:0006808//biological process| nitrogen metabolism | traceable author statement |GO:0006807//biologic
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
O:0005782//biological process| peroxisome organization and biogenesis | traceable author statement|GO:0007031//biological process| protein-peroxisome
process| regulation of cell cycle | inferred from genetic interaction |GO:0000074
raction |GO:0000027
nthase (glutamine-hydrolyzing) activity | inferred from mutant phenotype |GO:0003952//molecular function| NAD+ synthase (glutamine-hydrolyzing) activity
iological process| Golgi to endosome transport | inferred from mutant phenotype |GO:0006895//biological process| actin cortical patch assembly | inferred
me | traceable author statement |GO:0005840//cellular component| cytoplasm | inferred from direct assay |GO:0005737//cellular component| incipient bud
physical interaction|GO:0006368
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
eraction |GO:0006020//biological process| myo-inositol metabolism | inferred from direct assay |GO:0006020
l growth | inferred from mutant phenotype|GO:0007124//biological process| bud growth | traceable author statement |GO:0007117//biological process| mito
2//biological process| chromatin silencing | inferred from genetic interaction |GO:0006342
nthesis | traceable author statement |GO:0006412
GO:0016568//biological process| protein amino acid acetylation | inferred from physical interaction |GO:0006473//biological process| transcription initiation
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
lular component| nucleus | inferred from direct assay |GO:0005634//biological process| RNA elongation from Pol II promoter | inferred from physical interac
65//biological process| 35S primary transcript processing | inferred from mutant phenotype |GO:0006365
ess| attachment of GPI anchor to protein | inferred from sequence similarity|GO:0016255//biological process| attachment of GPI anchor to protein | inferred
//biological process| ubiquitin-dependent protein catabolism | traceable author statement |GO:0006511//biological process| mitotic sister chromatid segreg
nferred from direct assay |GO:0006338
610//biological process| mRNA-binding (hnRNP) protein-nucleus import | traceable author statement |GO:0006609//biological process| snRNP protein-nuc
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
nt phenotype|GO:0006400
ranscription from Pol III promoter | traceable author statement|GO:0006383//biological process| transcription from Pol II promoter | traceable author statem
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
cal process| NADH regeneration | traceable author statement |GO:0006735
notype|GO:0000027
netic interaction |GO:0006259
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//molecular function| specific RNA polyme
om direct assay |GO:0005763//biological process| protein biosynthesis | traceable author statement|GO:0006412//biological process| protein biosynthesis
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
process| protein amino acid phosphorylation | inferred from direct assay |GO:0006468//biological process| vacuole inheritance | inferred from mutant phen
om genetic interaction |GO:0007047//biological process| endocytosis | inferred from genetic interaction |GO:0006897
rocess| polyamine catabolism | inferred from mutant phenotype |GO:0006598//biological process| polyamine catabolism | inferred from genetic interaction
l matrix protein import | inferred from mutant phenotype |GO:0030150
from direct assay |GO:0006378
or statement|GO:0008151//biological process| regulation of carbohydrate metabolism | traceable author statement |GO:0006109//biological process| regul
ubiquitin-dependent protein catabolism | inferred from curator |GO:0006511
m genetic interaction |GO:0007606
ical process| RNA elongation from Pol II promoter | inferred from mutant phenotype |GO:0006368//biological process| DNA recombination | inferred from m
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
al inner membrane protein import | inferred from physical interaction|GO:0045039//biological process| mitochondrial inner membrane protein import | inferr
on |GO:0006465
ome c | inferred from direct assay |GO:0006122
d from mutant phenotype|GO:0009164
O:0007076//biological process| mitotic chromosome condensation | inferred from genetic interaction |GO:0007076//biological process| mitotic sister chrom
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
equence recognition | inferred from mutant phenotype |GO:0006617
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
om direct assay |GO:0000118//biological process| chromatin silencing | inferred from mutant phenotype|GO:0006342//biological process| chromatin silenc
//biological process| transcription initiation from Pol II promoter | traceable author statement |GO:0006367//biological process| nucleotide-excision repair |
traceable author statement|GO:0000356
sis | inferred from mutant phenotype |GO:0006873//biological process| cell ion homeostasis | inferred from genetic interaction |GO:0006873//biological pro
al process| positive regulation of transcription from Pol II promoter | inferred from sequence similarity|GO:0045944//biological process| positive regulation o
m physical interaction |GO:0006412
say|GO:0016571//biological process| chromatin silencing at telomere | inferred from mutant phenotype |GO:0006348
Pol II promoter | inferred from sequence similarity |GO:0006357//biological process| regulation of transcription from Pol II promoter | inferred from mutant p
ocess| transport | inferred from mutant phenotype |GO:0006810//biological process| transport | inferred from direct assay |GO:0006810
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
al process| rRNA processing | traceable author statement |GO:0006364
enetic interaction |GO:0030026
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
ant phenotype|GO:0006873//biological process| adaptation to pheromone during conjugation with cellular fusion | inferred from mutant phenotype |GO:000
|GO:0006465//biological process| signal peptide processing | inferred from genetic interaction |GO:0006465//biological process| signal peptide processing
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
mutant phenotype |GO:0006515
ed from mutant phenotype |GO:0009306//biological process| protein secretion | inferred from genetic interaction |GO:0009306//biological process| actin fila
process| ribosomal protein-nucleus import | traceable author statement |GO:0006610//biological process| mRNA-binding (hnRNP) protein-nucleus import
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
icative complex formation and maintenance | traceable author statement |GO:0006267
protein catabolism | inferred from curator |GO:0006511//biological process| negative regulation of DNA transposition | inferred from mutant phenotype |GO
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
ed from genetic interaction |GO:0007021
ess| Rho protein signal transduction | inferred from genetic interaction |GO:0007266//biological process| establishment of cell polarity (sensu Saccharomyc
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
olding | traceable author statement |GO:0006457
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
006333//biological process| DNA strand elongation | inferred from mutant phenotype |GO:0006271//biological process| DNA topological change | inferred f
acid and derivative biosynthesis | inferred from mutant phenotype|GO:0009396
cal process| FMN biosynthesis | inferred from mutant phenotype|GO:0009398//biological process| FMN biosynthesis | inferred from direct assay |GO:0009
0007015//biological process| exocytosis | inferred from mutant phenotype |GO:0006887//biological process| establishment of cell polarity (sensu Saccharo
GO:0005847//biological process| mRNA cleavage | traceable author statement|GO:0006379//biological process| mRNA cleavage | inferred from direct ass
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//molecular function| specific RNA polyme
al process| regulation of cell redox homeostasis | inferred from mutant phenotype|GO:0030503//biological process| regulation of cell redox homeostasis | i
006610//biological process| mRNA-binding (hnRNP) protein-nucleus import | traceable author statement |GO:0006609//biological process| snRNP protein
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
ocess| protein-vacuolar targeting | inferred from mutant phenotype |GO:0006623//biological process| protein-vacuolar targeting | inferred from expression p
886//biological process| hexose transport | traceable author statement|GO:0008645
us | inferred from direct assay|GO:0005634//biological process| cell cycle | inferred from mutant phenotype|GO:0007049//biological process| cell cycle | in
O:0003964//molecular function| DNA-directed DNA polymerase activity | inferred from sequence similarity |GO:0003887//molecular function| mRNA bindin
cal process| response to stress | inferred from expression pattern |GO:0006950
0016574//biological process| histone methylation | inferred from mutant phenotype |GO:0016571//biological process| protein monoubiquitination | inferred
886//biological process| response to hydrogen peroxide | inferred from mutant phenotype|GO:0042542//biological process| osmosensory signaling pathway
s| chromatin modification | inferred from physical interaction |GO:0016568//biological process| chromatin remodeling | inferred from physical interaction |G
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
ogical process| cell wall organization and biogenesis | inferred from mutant phenotype |GO:0007047//biological process| actin filament organization | inferr
nferred from direct assay |GO:0005634//biological process| DNA replication initiation | traceable author statement|GO:0006270//biological process| DNA u
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//molecular function| specific RNA polyme
al process| G2/M transition of mitotic cell cycle | inferred from mutant phenotype |GO:0000086//biological process| G2/M transition of mitotic cell cycle | infe
c respiration | inferred from mutant phenotype|GO:0009060//biological process| aerobic respiration | inferred from expression pattern |GO:0009060//biologi
ellular component| mitochondrial matrix | traceable author statement|GO:0005759//biological process| response to oxidative stress | inferred from mutant p
ological process| vesicle-mediated transport | inferred from genetic interaction|GO:0016192
rred from mutant phenotype |GO:0007021
nteraction |GO:0006888
ar component| cytoplasm | inferred from direct assay |GO:0005737//biological process| mitochondrial processing | inferred from mutant phenotype|GO:000
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
ranscription, DNA-dependent | inferred from mutant phenotype |GO:0006355
from sequence similarity |GO:0009408//biological process| response to heat | inferred from genetic interaction |GO:0009408//biological process| Rho prote
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
moter | inferred from mutant phenotype |GO:0006366//biological process| transcription from Pol II promoter | inferred from genetic interaction |GO:0006366
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
ological process| rRNA processing | traceable author statement |GO:0006364
biological process| RNA catabolism | inferred from direct assay |GO:0006401//biological process| Ty3 element transposition | inferred from mutant phenoty
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
h cellular fusion | traceable author statement|GO:0000753//biological process| cellular morphogenesis during conjugation with cellular fusion | inferred from
ent |GO:0006357
m mutant phenotype|GO:0030472//biological process| response to osmotic stress | inferred from mutant phenotype |GO:0006970//biological process| resp
379//biological process| mRNA cleavage | inferred from mutant phenotype |GO:0006379//biological process| mRNA cleavage | inferred from direct assay |
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
red from mutant phenotype|GO:0006814
ve regulation of transcription from Pol II promoter | inferred from direct assay|GO:0045944//biological process| signal transduction | inferred from mutant p
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
otein catabolism | inferred from genetic interaction|GO:0006511
|GO:0045876
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
rect assay |GO:0009113//biological process| transcription from Pol II promoter | inferred from sequence similarity |GO:0006366//biological process| transc
netic interaction |GO:0006508//biological process| protein amino acid phosphorylation | inferred from sequence similarity |GO:0006468//biological process|
:0006310//biological process| double-strand break repair | traceable author statement |GO:0006302//biological process| postreplication repair | traceable a
cal process| telomere maintenance | inferred from mutant phenotype |GO:0000723
gical process| signal transduction | inferred from mutant phenotype |GO:0007165//biological process| regulation of transcription from Pol II promoter | infer
ological process| rRNA processing | traceable author statement |GO:0006364
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
hysical interaction|GO:0006412//biological process| protein biosynthesis | inferred from mutant phenotype |GO:0006412
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
rom genetic interaction|GO:0008360//biological process| cytokinesis, completion of separation | inferred from mutant phenotype |GO:0007109
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
egulation of transcription from Pol II promoter | inferred from sequence similarity|GO:0045944//biological process| positive regulation of transcription from P
matin remodeling | inferred from genetic interaction |GO:0006338
argeting | inferred from mutant phenotype|GO:0045047
ssay |GO:0006446
nt phenotype |GO:0000283
thor statement |GO:0006365
eus export | inferred from physical interaction|GO:0016973//biological process| poly(A)+ mRNA-nucleus export | inferred from genetic interaction |GO:0016
gical process| response to osmotic stress | inferred from mutant phenotype |GO:0006970//biological process| endocytosis | inferred from mutant phenotype
ss| peptide pheromone export | traceable author statement|GO:0000770
m direct assay |GO:0006268//biological process| mitotic sister chromatid segregation | inferred from mutant phenotype |GO:0000070
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
phenotype |GO:0000059
interaction |GO:0007126//biological process| negative regulation of transcription from Pol II promoter | traceable author statement |GO:0000122
maintenance | inferred from sequence similarity |GO:0000027
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
red from mutant phenotype |GO:0006412
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
on | inferred from mutant phenotype |GO:0006310//biological process| mismatch repair | inferred from mutant phenotype |GO:0006298//biological process|
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
cess| polyamine catabolism | inferred from mutant phenotype |GO:0006598//biological process| polyamine catabolism | inferred from genetic interaction |G
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
cal process| Group I intron splicing | inferred from genetic interaction |GO:0000372
| ubiquitin-dependent protein catabolism | traceable author statement |GO:0006511
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
nthesis | traceable author statement |GO:0006412
e author statement |GO:0005758//biological process| mitochondrial inner membrane protein import | inferred from physical interaction|GO:0045039//biolog
m Pol II promoter | inferred from sequence similarity |GO:0006357//biological process| regulation of transcription from Pol II promoter | inferred from mutan
//biological process| transcription initiation from Pol II promoter | traceable author statement |GO:0006367//biological process| nucleotide-excision repair |
on |GO:0007117//biological process| cell wall organization and biogenesis | inferred from physical interaction |GO:0007047//biological process| actin filam
0008643//biological process| carbohydrate transport | inferred from direct assay |GO:0008643
oval of tRNA 3'-trailer sequence | inferred from direct assay|GO:0042779
ss| chromatin remodeling | inferred from direct assay |GO:0006338
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
27//biological process| ribosomal large subunit assembly and maintenance | inferred from physical interaction |GO:0000027
e-rRNA | inferred from mutant phenotype|GO:0030489//biological process| ribosomal large subunit assembly and maintenance | inferred from physical inte
mutant phenotype|GO:0030433//biological process| protein transport | inferred from direct assay |GO:0015031//biological process| cell cycle | inferred from
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
ment |GO:0006468//biological process| cytokinesis | inferred from mutant phenotype |GO:0000910//biological process| establishment of cell polarity (sensu
ome transport | inferred from mutant phenotype|GO:0015892//biological process| iron ion homeostasis | inferred from mutant phenotype |GO:0006879//bio
l cycle | inferred from genetic interaction |GO:0000082
82//biological process| copper ion homeostasis | inferred from genetic interaction |GO:0006878//biological process| superoxide metabolism | inferred from
rred from physical interaction |GO:0007020
ype |GO:0009229
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
cal process| NADH regeneration | traceable author statement |GO:0006735
6465//biological process| signal peptide processing | inferred from genetic interaction |GO:0006465
repair | inferred from genetic interaction |GO:0006281//biological process| DNA-dependent DNA replication | inferred from physical interaction |GO:00062
vage and polyadenylation specificity factor complex | inferred from physical interaction|GO:0005847//cellular component| nucleus | inferred from physical in
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
of transcription from Pol II promoter, mitotic | traceable author statement|GO:0007070//biological process| transcription initiation from Pol II promoter | trace
equence similarity |GO:0006334//biological process| nucleosome assembly | inferred from direct assay |GO:0006334//biological process| M phase of mitot
ss| signal transduction | inferred from mutant phenotype |GO:0007165//biological process| protein amino acid phosphorylation | inferred from mutant phen
ay |GO:0005634
geting | inferred from mutant phenotype |GO:0006623//biological process| protein-membrane targeting | inferred from physical interaction |GO:0006612//bio
:0005634//biological process| poly(A)+ mRNA-nucleus export | inferred from physical interaction|GO:0016973
genesis | traceable author statement|GO:0030036//biological process| response to heat | inferred from sequence similarity |GO:0009408//biological proces
haromyces) | inferred from mutant phenotype |GO:0000065//biological process| mitotic spindle elongation | inferred from mutant phenotype |GO:0000022
GO:0006468//biological process| regulation of transcription from Pol III promoter | inferred from direct assay |GO:0006359//biological process| regulation o
ed from sequence similarity |GO:0006816//biological process| calcium ion transport | inferred from mutant phenotype |GO:0006816
ogical process| regulation of cell redox homeostasis | traceable author statement|GO:0030503//biological process| regulation of cell redox homeostasis | in
s| vesicle organization and biogenesis | inferred from genetic interaction |GO:0016050
netic interaction |GO:0000082
ransduction | traceable author statement|GO:0007264//biological process| polar budding | traceable author statement |GO:0007121//biological process| ax
ss | traceable author statement |GO:0006950//biological process| ubiquitin-dependent protein catabolism | traceable author statement |GO:0006511
ype |GO:0000079//biological process| regulation of cyclin dependent protein kinase activity | inferred from genetic interaction |GO:0000079
006610//biological process| mRNA-binding (hnRNP) protein-nucleus import | traceable author statement |GO:0006609//biological process| snRNP protein
pre-rRNA | inferred from physical interaction|GO:0030490//biological process| 35S primary transcript processing | traceable author statement |GO:000636
G2/M transition of mitotic cell cycle | traceable author statement |GO:0000086//biological process| S phase of mitotic cell cycle | traceable author stateme
hysical interaction|GO:0030847//biological process| transcription termination from Pol II promoter, poly(A) coupled | inferred from physical interaction |GO:0
g ATP synthase, central stalk (sensu Eukarya) | inferred from sequence similarity|GO:0005756//cellular component| proton-transporting ATP synthase, cen
assay |GO:0007532
olding | traceable author statement |GO:0006457
milarity|GO:0006609//biological process| mRNA-binding (hnRNP) protein-nucleus import | inferred from physical interaction |GO:0006609//biological proces
ent| nuclear telomere cap complex | inferred from direct assay |GO:0000783//biological process| chromatin silencing at silent mating-type cassette (sensu
ic translation initiation factor 3 complex | inferred from direct assay |GO:0005852//cellular component| cytoplasm | inferred from physical interaction |GO:0
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| nucleus | inferred fro
on | inferred from mutant phenotype|GO:0000752
esis | inferred from mutant phenotype |GO:0006634
nsed nuclear chromosome kinetochore | inferred from direct assay |GO:0000778//biological process| mitotic spindle assembly (sensu Fungi) | inferred from
site | inferred from direct assay |GO:0000131//biological process| small GTPase mediated signal transduction | traceable author statement|GO:0007264//b
nscription from Pol II promoter | inferred from genetic interaction |GO:0000122
m direct assay |GO:0005634//biological process| ubiquitin-dependent protein catabolism | traceable author statement|GO:0006511
00027//biological process| ribosomal large subunit assembly and maintenance | inferred from mutant phenotype |GO:0000027
e author statement |GO:0005637//cellular component| tRNA-intron endonuclease complex | traceable author statement |GO:0000214//biological process| tR
s| ribosome-nucleus export | inferred from mutant phenotype |GO:0000054
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
protein catabolism | traceable author statement|GO:0006511
al interaction |GO:0006808//biological process| regulation of nitrogen utilization | inferred from mutant phenotype |GO:0006808//biological process| regulati
d from mutant phenotype|GO:0009164
capping | inferred from direct assay|GO:0006370
otype|GO:0042145//biological process| homotypic vacuole fusion, non-autophagic | inferred from direct assay |GO:0042145//biological process| protein tra
0//biological process| mitochondrial matrix protein import | inferred from physical interaction |GO:0030150//biological process| mitochondrial matrix protein
author statement |GO:0006269
|GO:0005634//biological process| lysine biosynthesis, aminoadipic pathway | traceable author statement|GO:0019878
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
6298//biological process| leading strand elongation | inferred from direct assay |GO:0006272//biological process| cell cycle checkpoint | inferred from mutan
m mutant phenotype|GO:0007059
nferred from sequence similarity|GO:0006817//biological process| phosphate transport | inferred from mutant phenotype |GO:0006817//biological process
inferred from direct assay |GO:0006468//biological process| transcription | inferred from physical interaction |GO:0006350//biological process| transcriptio
process| mRNA localization, intracellular | inferred from mutant phenotype |GO:0008298
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
m direct assay |GO:0016485//biological process| proteolysis and peptidolysis | inferred from mutant phenotype |GO:0006508//biological process| invasive g
ed from expression pattern |GO:0030437//biological process| fatty acid catabolism | inferred from sequence similarity |GO:0009062//biological process| fatt
s ends | traceable author statement |GO:0000736//biological process| removal of nonhomologous ends | traceable author statement |GO:0000735
from mutant phenotype |GO:0006457
|GO:0045324//biological process| homotypic vacuole fusion, non-autophagic | inferred from direct assay |GO:0042145//biological process| vesicle docking
ransduction | traceable author statement|GO:0007264//biological process| polar budding | traceable author statement |GO:0007121//biological process| ax
polar budding | inferred from mutant phenotype|GO:0007121//biological process| vesicle fusion | traceable author statement |GO:0006906//biological proc
ellular component| membrane fraction | inferred from direct assay |GO:0005624//biological process| actin filament organization | inferred from physical inter
610//biological process| mRNA-binding (hnRNP) protein-nucleus import | traceable author statement |GO:0006609//biological process| snRNP protein-nuc
O:0005634//biological process| chromosome condensation | inferred from mutant phenotype|GO:0030261//biological process| protein desumoylation | infe
nt phenotype|GO:0007124//biological process| protein amino acid phosphorylation | traceable author statement |GO:0006468
on-transporting ATP synthase complex, coupling factor F(o) (sensu Eukarya) | inferred from mutant phenotype |GO:0000276//biological process| ATP synth
rocess| zinc ion homeostasis | inferred from mutant phenotype|GO:0006882
ological process| postreplication repair | inferred from physical interaction |GO:0006301//biological process| postreplication repair | inferred from genetic int
anscription | traceable author statement|GO:0045449//biological process| regulation of transcription | inferred from direct assay |GO:0045449//biological pr
al process| protein-vacuolar targeting | inferred from physical interaction |GO:0006623//biological process| protein-vacuolar targeting | inferred from mutan
pe |GO:0006342//biological process| nucleosome assembly | inferred from mutant phenotype |GO:0006334//biological process| DNA repair | inferred from
tion of transcription from Pol II promoter | inferred from genetic interaction |GO:0000122
physical interaction |GO:0000243//biological process| nuclear mRNA splicing, via spliceosome | inferred from mutant phenotype|GO:0000398
GO:0016568//biological process| protein amino acid acetylation | inferred from physical interaction |GO:0006473//biological process| transcription initiation
eraction|GO:0006357//biological process| conjugation with cellular fusion | inferred from mutant phenotype |GO:0000747//biological process| poly(A) tail sh
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
ess| regulation of transcription from Pol II promoter | inferred from genetic interaction |GO:0006357
erred from physical interaction |GO:0000276//cellular component| proton-transporting ATP synthase complex, coupling factor F(o) (sensu Eukarya) | inferre
e author statement |GO:0005637//cellular component| tRNA-intron endonuclease complex | traceable author statement |GO:0000214//biological process| tR
GO:0005847//biological process| mRNA cleavage | traceable author statement|GO:0006379//biological process| mRNA cleavage | inferred from direct ass
henotype|GO:0007121//biological process| vesicle fusion | traceable author statement |GO:0006906//biological process| vesicle docking during exocytosis
/biological process| triacylglycerol biosynthesis | inferred from direct assay |GO:0019432
O:0005634//cellular component| telomerase catalytic core complex | traceable author statement |GO:0000333//biological process| telomerase-dependent t
cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| coenzyme A biosynthesis | inferred from sequence similarity|GO
pe |GO:0000289//biological process| poly(A) tail shortening | inferred from direct assay |GO:0000289
cal process| response to stress | inferred from expression pattern |GO:0006950//biological process| protein folding | inferred from physical interaction |GO:
mplex | traceable author statement |GO:0005674//cellular component| transcription factor TFIID complex | traceable author statement |GO:0005669//biolog
6121//biological process| tricarboxylic acid cycle | traceable author statement |GO:0006099
omatin silencing | inferred from mutant phenotype|GO:0006342//biological process| chromatin silencing | inferred from direct assay |GO:0006342//biologica
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
inferred from mutant phenotype |GO:0006646//biological process| MAPKKK cascade | inferred from mutant phenotype |GO:0000165//biological process| M
O:0005829//biological process| farnesyl diphosphate biosynthesis | inferred from direct assay|GO:0045337//biological process| isoprenoid biosynthesis | inf
|GO:0006906//biological process| vesicle docking during exocytosis | traceable author statement |GO:0006904//biological process| Golgi to plasma memb
mismatch repair | traceable author statement |GO:0006298//biological process| leading strand elongation | inferred from direct assay |GO:0006272
c | inferred from direct assay |GO:0042145//biological process| vacuole organization and biogenesis | inferred from mutant phenotype |GO:0007033
al process| transcription from Pol II promoter | inferred from mutant phenotype |GO:0006366
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
cess| biotin biosynthesis | inferred from direct assay |GO:0009102
thor statement |GO:0006365
type|GO:0007165//biological process| cell wall organization and biogenesis | traceable author statement |GO:0007047//biological process| protein amino a
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
ent |GO:0006825
te metabolism | traceable author statement |GO:0006101//biological process| tricarboxylic acid cycle | traceable author statement |GO:0006099
//biological process| cytokinesis, completion of separation | inferred from expression pattern |GO:0007109
nt |GO:0006166//biological process| tryptophan biosynthesis | traceable author statement |GO:0000162//biological process| histidine biosynthesis | traceab
m direct assay |GO:0000131//biological process| Rho protein signal transduction | inferred from physical interaction|GO:0007266//biological process| pseu
author statement |GO:0006269//biological process| DNA synthesis during DNA repair | inferred from mutant phenotype |GO:0000731
otein folding | inferred from sequence similarity |GO:0006457//biological process| protein folding | inferred from mutant phenotype |GO:0006457
ement|GO:0006696
assay|GO:0005794//biological process| vesicle-mediated transport | inferred from direct assay|GO:0016192
ocess| signal transduction during conjugation with cellular fusion | traceable author statement |GO:0000750//biological process| bud site selection | inferred
thor statement |GO:0006365
t assay |GO:0005777//biological process| peroxisome organization and biogenesis | traceable author statement|GO:0007031//biological process| protein-p
gical process| actin filament organization | inferred from physical interaction |GO:0007015
llular component| histone deacetylase complex | traceable author statement|GO:0000118//cellular component| histone deacetylase complex | inferred from
processing of 20S pre-rRNA | inferred from mutant phenotype |GO:0030490
nitiation | traceable author statement |GO:0006270//biological process| pre-replicative complex formation and maintenance | traceable author statement |G
GO:0016126//biological process| steroid metabolism | inferred from mutant phenotype |GO:0008202
ogical process| ribosome-nucleus export | inferred from mutant phenotype |GO:0000054
/biological process| cytokinesis | inferred from mutant phenotype |GO:0000910//biological process| actin cortical patch assembly | traceable author statem
ogical process| MAPKKK cascade during cell wall biogenesis | inferred from genetic interaction |GO:0000196
n |GO:0007103//biological process| regulation of cell cycle | inferred from mutant phenotype |GO:0000074
process| chromatin silencing at telomere | inferred from mutant phenotype |GO:0006348
author statement|GO:0006412//biological process| protein biosynthesis | inferred from direct assay |GO:0006412
phenotype |GO:0000086//biological process| G2/M transition of mitotic cell cycle | inferred from expression pattern |GO:0000086//biological process| G1/S
nt |GO:0000154
sm | inferred from physical interaction|GO:0006511//biological process| ubiquitin-dependent protein catabolism | inferred from mutant phenotype |GO:000
s| telomere maintenance | traceable author statement |GO:0000723//biological process| negative regulation of DNA transposition | inferred from mutant ph
al process| meiosis | inferred from mutant phenotype |GO:0007126//biological process| meiotic joint molecule formation | inferred from mutant phenotype |G
erred from physical interaction |GO:0000276//cellular component| proton-transporting ATP synthase complex, coupling factor F(o) (sensu Eukarya) | inferre
|GO:0006468//biological process| regulation of transcription from Pol III promoter | inferred from direct assay |GO:0006359//biological process| regulation
|GO:0019318//biological process| protein amino acid phosphorylation | inferred from sequence similarity |GO:0006468//biological process| protein amino a
author statement |GO:0006269//biological process| DNA synthesis during DNA repair | inferred from mutant phenotype |GO:0000731
um-mediated signaling | inferred from physical interaction|GO:0019722//biological process| calcium-mediated signaling | inferred from mutant phenotype |
ody | inferred from direct assay |GO:0000932//biological process| mRNA catabolism | traceable author statement|GO:0006402//biological process| deaden
nt phenotype |GO:0006665//biological process| sphingolipid metabolism | inferred from genetic interaction |GO:0006665
rimary transcript processing | inferred from mutant phenotype |GO:0006365//biological process| regulation of transcription from Pol II promoter | inferred fr
icative complex formation and maintenance | traceable author statement |GO:0006267
6281//biological process| lagging strand elongation | inferred from mutant phenotype |GO:0006273//biological process| lagging strand elongation | inferred
lar transport | inferred from genetic interaction |GO:0007034//biological process| autophagy | inferred from direct assay |GO:0006914//biological process| p
ess| adenylate cyclase activation | traceable author statement |GO:0007190//biological process| pseudohyphal growth | inferred from mutant phenotype |G
ndrion | inferred from mutant phenotype |GO:0005739//biological process| NADH oxidation | inferred from direct assay|GO:0006116//biological process| ca
gnal transduction during conjugation with cellular fusion | inferred from sequence similarity|GO:0000750//biological process| signal transduction during con
nferred from genetic interaction |GO:0007034
nferred from direct assay |GO:0005634//biological process| DNA replication initiation | traceable author statement|GO:0006270//biological process| DNA u
s| mitochondrial inner membrane protein import | inferred from mutant phenotype |GO:0045039//biological process| mitochondrial inner membrane protein
ssay |GO:0006270
ant phenotype |GO:0006365//biological process| ribosomal large subunit assembly and maintenance | inferred from mutant phenotype |GO:0000027
rgeting | inferred from mutant phenotype |GO:0006625
x | inferred from direct assay |GO:0005656//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| DNA replication init
llular component| histone deacetylase complex | inferred from physical interaction|GO:0000118//biological process| negative regulation of meiosis | inferre
e |GO:0000910
5993//biological process| trehalose catabolism | inferred from direct assay |GO:0005993
nt| transcription elongation factor complex | inferred from direct assay |GO:0008023//biological process| regulation of transcription from Pol II promoter | inf
gical process| ultradian rhythm | inferred from mutant phenotype |GO:0007624//biological process| multidrug transport | inferred from physical interaction |
from physical interaction |GO:0006623//biological process| protein-vacuolar targeting | inferred from mutant phenotype |GO:0006623
:0006879//biological process| iron ion homeostasis | inferred from expression pattern |GO:0006879
m mutant phenotype |GO:0009408//biological process| meiosis | inferred from physical interaction |GO:0007126//biological process| mitotic spindle checkpo
|GO:0006855
ype |GO:0019432//biological process| triacylglycerol biosynthesis | inferred from direct assay |GO:0019432
lular component| proton-transporting ATP synthase, stator stalk (sensu Eukarya) | inferred from sequence similarity |GO:0000274//biological process| ATP
rred from mutant phenotype |GO:0007021//biological process| protein folding | inferred from sequence similarity |GO:0006457//biological process| protein f
cess| chromatin remodeling | inferred from direct assay |GO:0006338
nce similarity|GO:0005886//biological process| hexose transport | inferred from genetic interaction|GO:0008645
ction |GO:0006887
379//biological process| mRNA cleavage | inferred from direct assay |GO:0006379//biological process| mRNA polyadenylation | traceable author statemen
iological process| actin filament organization | inferred from physical interaction |GO:0007015//biological process| establishment of cell polarity (sensu Sac
ical process| chromosome segregation | traceable author statement |GO:0007059
logical process| protein amino acid phosphorylation | traceable author statement |GO:0006468//biological process| transcription initiation from Pol II promo
ed from direct assay |GO:0006470
ellular component| cytoplasmic mRNA processing body | inferred from direct assay |GO:0000932//biological process| filamentous growth | inferred from m
ocess| regulation of glycogen biosynthesis | inferred from genetic interaction |GO:0005979
cal process| transcription from Pol II promoter | inferred from mutant phenotype |GO:0006366
Pol II promoter | inferred from mutant phenotype |GO:0045944//biological process| thiamin biosynthesis | traceable author statement |GO:0009228
ogical process| protein amino acid dephosphorylation | inferred from direct assay |GO:0006470
al process| rRNA processing | traceable author statement |GO:0006364
is | traceable author statement|GO:0007010//biological process| protein folding | traceable author statement |GO:0006457
statement|GO:0030476//biological process| cell wall organization and biogenesis | traceable author statement |GO:0007047//biological process| cellular mo
mRNA splicing, via spliceosome | traceable author statement|GO:0000398
16050//biological process| apical bud growth | inferred from direct assay |GO:0007118//biological process| protein-vacuolar targeting | inferred from mutant
nt phenotype |GO:0006970//biological process| endocytosis | inferred from mutant phenotype |GO:0006897//biological process| exocytosis | inferred from m
al process| lagging strand elongation | traceable author statement |GO:0006273//biological process| leading strand elongation | traceable author statemen
042147//biological process| intracellular protein transport | traceable author statement |GO:0006886//biological process| intracellular protein transport | infe
from mutant phenotype |GO:0007569//biological process| cell aging | inferred from expression pattern |GO:0007569//biological process| chromatin silencin
my during conjugation with cellular fusion | inferred from mutant phenotype |GO:0000742//biological process| karyogamy during conjugation with cellular fu
ferred from genetic interaction |GO:0007047
|GO:0006003
assay |GO:0042145//biological process| vacuole organization and biogenesis | inferred from mutant phenotype |GO:0007033//biological process| Golgi to e
ungi) | inferred from mutant phenotype|GO:0030466//biological process| protein amino acid deacetylation | inferred from direct assay |GO:0006476//biolog
s| ubiquitin-dependent protein catabolism | traceable author statement|GO:0006511//biological process| G2/M transition of mitotic cell cycle | inferred from
rom genetic interaction |GO:0005839//biological process| protein catabolism | inferred from mutant phenotype|GO:0030163
nferred from mutant phenotype |GO:0000002
process| removal of nonhomologous ends | traceable author statement |GO:0000735
om mutant phenotype |GO:0006357//biological process| regulation of cell cycle | inferred from mutant phenotype |GO:0000074
2//biological process| vesicle-mediated transport | inferred from physical interaction |GO:0016192
inferred from sequence similarity |GO:0006367//biological process| transcription initiation from Pol II promoter | inferred from mutant phenotype |GO:0006
ological process| negative regulation of transcription from Pol II promoter by pheromones | inferred from mutant phenotype|GO:0046020//biological proces
610//biological process| mRNA-binding (hnRNP) protein-nucleus import | traceable author statement |GO:0006609//biological process| snRNP protein-nuc
ment|GO:0000715
g (sensu Saccharomyces) | inferred from direct assay |GO:0000142//biological process| ubiquitin-dependent protein catabolism | traceable author statemen
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
s| exocytosis | traceable author statement |GO:0006887
GO:0006431//biological process| methionyl-tRNA aminoacylation | inferred from mutant phenotype |GO:0006431
m Pol II promoter | inferred from sequence similarity |GO:0006357//biological process| regulation of transcription from Pol II promoter | inferred from mutan
author statement|GO:0006412//biological process| protein biosynthesis | inferred from direct assay |GO:0006412
nce similarity|GO:0005886//biological process| hexose transport | inferred from genetic interaction|GO:0008645
erred from mutant phenotype |GO:0006343
al process| DNA recombination | inferred from mutant phenotype |GO:0006310//biological process| DNA catabolism | inferred from direct assay |GO:00063
006797//biological process| polyphosphate metabolism | inferred from direct assay |GO:0006797
ological process| cytokinesis | inferred from mutant phenotype |GO:0000910//biological process| cellular morphogenesis | inferred from sequence similarit
mutant phenotype |GO:0006355//biological process| regulation of transcription, DNA-dependent | inferred from genetic interaction |GO:0006355
y |GO:0005634//biological process| heme biosynthesis | inferred from mutant phenotype|GO:0006783
logical process| urea transport | inferred from mutant phenotype |GO:0015840
assay |GO:0000329//biological process| SRP-dependent cotranslational membrane targeting, translocation | inferred from direct assay|GO:0006616//biolo
ical interaction|GO:0007062//biological process| mismatch repair | traceable author statement |GO:0006298//biological process| leading strand elongation
netic interaction |GO:0006508//biological process| protein amino acid phosphorylation | inferred from sequence similarity |GO:0006468//biological process|
biological process| telomerase-dependent telomere maintenance | inferred from mutant phenotype |GO:0007004//biological process| DNA damage respon
thor statement |GO:0006365
hromatin silencing at ribosomal DNA | inferred from mutant phenotype |GO:0000183
s| microtubule cytoskeleton organization and biogenesis | inferred from mutant phenotype |GO:0000226//biological process| microtubule cytoskeleton orga
rocess| biotin biosynthesis | inferred from mutant phenotype |GO:0009102
on-transporting ATP synthase complex, coupling factor F(o) (sensu Eukarya) | inferred from mutant phenotype |GO:0000276//biological process| ATP synth
matin remodeling | inferred from direct assay |GO:0006338
ype|GO:0005975
rgeting | inferred from mutant phenotype |GO:0006623
006610//biological process| mRNA-binding (hnRNP) protein-nucleus import | traceable author statement |GO:0006609//biological process| snRNP protein
thor statement |GO:0006365
red from mutant phenotype |GO:0016568//biological process| chromatin silencing at telomere | inferred from mutant phenotype |GO:0006348
06406//biological process| ribosome-nucleus export | inferred from mutant phenotype |GO:0000054
inferred from mutant phenotype |GO:0006461//biological process| glycogen metabolism | inferred from direct assay |GO:0005977
hor statement |GO:0006365
biological process| base-excision repair, AP site formation | inferred from direct assay|GO:0006285//biological process| base-excision repair | inferred from
rotein coupled receptor protein signaling pathway | inferred from mutant phenotype |GO:0008277//biological process| signal transduction during conjugatio
sponse to glucose stimulus | inferred from mutant phenotype|GO:0009749//biological process| signal transduction | traceable author statement |GO:00071
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
A splicing, via spliceosome | inferred from genetic interaction|GO:0000398//biological process| nuclear mRNA splicing, via spliceosome | inferred from dire
l cycle | inferred from genetic interaction |GO:0000082
iological process| regulation of transcription, DNA-dependent | inferred from direct assay |GO:0006355
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
896//biological process| Golgi to vacuole transport | inferred from genetic interaction |GO:0006896
O:0000398//biological process| spliceosome assembly | inferred from direct assay |GO:0000245
ed from direct assay|GO:0005829//cellular component| mitochondrion | inferred from direct assay |GO:0005739//biological process| regulation of cell redox
07126//biological process| mitosis | traceable author statement |GO:0007067//biological process| karyogamy during conjugation with cellular fusion | inferre
moter | inferred from physical interaction|GO:0006368//biological process| transcription from Pol II promoter | inferred from mutant phenotype |GO:000636
0016925//biological process| protein sumoylation | inferred from direct assay |GO:0016925
phenotype|GO:0006067
raceable author statement |GO:0008054//biological process| mitotic metaphase/anaphase transition | traceable author statement |GO:0007091//biological
ytoplasm | inferred from direct assay |GO:0005737//biological process| phospholipid biosynthesis | inferred from mutant phenotype|GO:0008654//biologica
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
ay|GO:0005643//cellular component| nuclear membrane | inferred from direct assay |GO:0005635//biological process| protein desumoylation | inferred from
biological process| DNA damage response, signal transduction resulting in cell cycle arrest | inferred from mutant phenotype |GO:0000077
al process| rRNA processing | traceable author statement |GO:0006364
uence similarity |GO:0005788//cellular component| endoplasmic reticulum lumen | inferred from direct assay |GO:0005788//biological process| protein tran
0007126//biological process| nuclear organization and biogenesis | inferred from mutant phenotype |GO:0006997//biological process| nuclear organization
process| meiosis | inferred from genetic interaction |GO:0007126//biological process| meiosis | inferred from expression pattern |GO:0007126//biological p
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
red from physical interaction |GO:0000243//biological process| nuclear mRNA splicing, via spliceosome | inferred from physical interaction|GO:0000398
biological process| mitochondrion inheritance | inferred from direct assay |GO:0000001
84//biological process| phosphoinositide metabolism | inferred from direct assay |GO:0030384//biological process| phosphatidylserine catabolism | inferred
say|GO:0016571//biological process| chromatin silencing at telomere | inferred from mutant phenotype |GO:0006348
e |GO:0006342//biological process| establishment of cell polarity (sensu Saccharomyces) | inferred from genetic interaction |GO:0000283
ss| meiotic DNA double-strand break formation | traceable author statement|GO:0042138//biological process| double-strand break repair via nonhomologo
cal process| transcription termination from Pol II promoter, poly(A)-independent | inferred from physical interaction|GO:0030847//biological process| transc
al process| mitotic sister chromatid cohesion | inferred from mutant phenotype|GO:0007064//biological process| mitotic sister chromatid segregation | inferr
al process| exocytosis | inferred from mutant phenotype |GO:0006887
ss| protein complex assembly | inferred from sequence similarity |GO:0006461//biological process| protein complex assembly | inferred from genetic interac
hitin biosynthesis | inferred from mutant phenotype |GO:0006038
on of exit from mitosis | inferred from genetic interaction |GO:0007096//biological process| protein amino acid dephosphorylation | inferred from direct assa
lation | inferred from direct assay |GO:0006378
6412//biological process| protein biosynthesis | inferred from mutant phenotype |GO:0006412
O:0006904//biological process| vesicle docking during exocytosis | inferred from mutant phenotype |GO:0006904//biological process| vesicle docking during
ant phenotype|GO:0017196
GO:0005739//biological process| carnitine metabolism | inferred from mutant phenotype|GO:0009437
sical interaction|GO:0045944//biological process| positive regulation of transcription from Pol II promoter | inferred from genetic interaction |GO:0045944//b
catabolism | inferred from direct assay|GO:0030163//biological process| lipid metabolism | inferred from mutant phenotype |GO:0006629//biological proces
//biological process| transcription initiation from Pol II promoter | traceable author statement |GO:0006367//biological process| nucleotide-excision repair |
esis | inferred from mutant phenotype|GO:0007047//biological process| cell wall organization and biogenesis | inferred from genetic interaction |GO:00070
/biological process| flocculation (sensu Saccharomyces) | inferred from genetic interaction |GO:0000501
ferred from direct assay |GO:0000398
O:0006139//biological process| DNA damage response, signal transduction resulting in cell cycle arrest | traceable author statement |GO:0000077//biologi
assay |GO:0000329//biological process| SRP-dependent cotranslational membrane targeting, translocation | inferred from direct assay|GO:0006616//biolo
07070//biological process| transcription initiation from Pol II promoter | traceable author statement |GO:0006367
arrest | traceable author statement |GO:0000077
dolysis | inferred from mutant phenotype |GO:0006508//biological process| proteolysis and peptidolysis | inferred from genetic interaction |GO:0006508
rom mutant phenotype |GO:0007007
n-nucleus export | inferred from genetic interaction |GO:0006611//biological process| mRNA-nucleus export | inferred from physical interaction |GO:000640
n |GO:0006625
tron transport, ubiquinol to cytochrome c | inferred from mutant phenotype |GO:0006122
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
000131//biological process| small GTPase mediated signal transduction | traceable author statement|GO:0007264//biological process| pseudohyphal grow
cess| protein deneddylation | inferred from mutant phenotype |GO:0000338
similarity |GO:0007124//biological process| isotropic bud growth | inferred from sequence similarity |GO:0007119//biological process| apical bud growth | i
nferred from mutant phenotype |GO:0005634
ponent| nuclear condensin complex | inferred from sequence similarity |GO:0000799//cellular component| nuclear condensin complex | inferred from phys
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
05244//molecular function| calcium activated cation channel activity | inferred from direct assay |GO:0005227//cellular component| vacuole (sensu Fungi) |
phenotype|GO:0015892
nd U1 | traceable author statement|GO:0000396
| chromatin silencing | inferred from direct assay |GO:0006342//biological process| chromatin assembly/disassembly | inferred from direct assay |GO:0006
ylase activity | inferred from direct assay |GO:0000703//cellular component| mitochondrion | inferred from direct assay|GO:0005739//cellular component| nu
r statement |GO:0000750
ction |GO:0001402//biological process| signal transduction during filamentous growth | inferred from mutant phenotype |GO:0001402//biological process| s
rom genetic interaction |GO:0000750
otype |GO:0008360//biological process| cellular morphogenesis | traceable author statement |GO:0000902//biological process| cytogamy | inferred from ph
otein catabolism | inferred from genetic interaction|GO:0006511
ge | inferred from mutant phenotype |GO:0018063
| sporulation | inferred from expression pattern |GO:0030435
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
atement |GO:0006950//biological process| endocytosis | traceable author statement |GO:0006897//biological process| protein monoubiquitination | traceab
al process| rRNA processing | traceable author statement |GO:0006364
say|GO:0006744//biological process| ubiquinone metabolism | inferred from mutant phenotype |GO:0006743
e | inferred from sequence similarity |GO:0000027
m direct assay |GO:0005634//biological process| ubiquitin-dependent protein catabolism | traceable author statement|GO:0006511
traceable author statement |GO:0007067//biological process| chromosome segregation | traceable author statement |GO:0007059//biological process| DN
process| regulation of transcription from Pol II promoter | inferred from mutant phenotype|GO:0006357
from mutant phenotype |GO:0000751
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
otype|GO:0015723//biological process| bilirubin transport | inferred from genetic interaction |GO:0015723//biological process| cadmium ion transport | infer
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
complex formation and maintenance | inferred from physical interaction |GO:0006267
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
ncing at telomere | inferred from mutant phenotype |GO:0006348//biological process| chromatin remodeling | traceable author statement |GO:0006338
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
assay |GO:0006365//biological process| rRNA processing | inferred from direct assay |GO:0006364
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
329//biological process| beta-tubulin folding | inferred from genetic interaction |GO:0007025
n | inferred from physical interaction|GO:0006260//biological process| DNA replication | inferred from mutant phenotype |GO:0006260//biological process|
biquinol to cytochrome c | inferred from mutant phenotype |GO:0006122
nt |GO:0006298
leus import | inferred from mutant phenotype |GO:0006606
ation | inferred from sequence similarity |GO:0006468//biological process| septin ring assembly | inferred from mutant phenotype |GO:0000921//biological
sical interaction |GO:0007117//biological process| cell wall organization and biogenesis | inferred from physical interaction |GO:0007047//biological process
e |GO:0030490//biological process| cytokinesis | inferred from mutant phenotype |GO:0000910//biological process| establishment of cell polarity (sensu S
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
gical process| lactate transport | inferred from direct assay |GO:0015727
739//biological process| regulation of cell redox homeostasis | inferred from mutant phenotype|GO:0030503//biological process| regulation of cell redox ho
gation with cellular fusion | inferred from physical interaction|GO:0000750//biological process| signal transduction during conjugation with cellular fusion | in
er | traceable author statement |GO:0006357
c recombination | inferred from genetic interaction |GO:0007131//biological process| double-strand break repair via break-induced replication | traceable a
ical process| tricarboxylic acid cycle | traceable author statement |GO:0006099
author statement|GO:0006412//biological process| protein biosynthesis | inferred from direct assay |GO:0006412
l process| polyamine catabolism | inferred from genetic interaction |GO:0006598//biological process| aldehyde metabolism | inferred from sequence simila
nt |GO:0007064//biological process| mitotic sister chromatid cohesion | inferred from mutant phenotype |GO:0007064
process| tRNA splicing | inferred from mutant phenotype |GO:0006388//biological process| mitochondrion inheritance | inferred from mutant phenotype |GO
//biological process| ubiquitin-dependent protein catabolism | traceable author statement |GO:0006511//biological process| mitotic sister chromatid segreg
on-transporting ATP synthase complex, coupling factor F(o) (sensu Eukarya) | inferred from mutant phenotype |GO:0000276//biological process| ATP synth
s| actin filament-based process | inferred from genetic interaction |GO:0030029//biological process| Golgi to vacuole transport | inferred from mutant phen
shment of chromatin silencing | inferred from mutant phenotype|GO:0006343//biological process| DNA replication initiation | traceable author statement |G
c respiration | inferred from mutant phenotype|GO:0009060//biological process| aerobic respiration | inferred from expression pattern |GO:0009060//biologi
pre-rRNA | inferred from physical interaction|GO:0030490//biological process| 35S primary transcript processing | traceable author statement |GO:000636
rocess| chromatin modification | inferred from mutant phenotype |GO:0016568
process| DNA repair | inferred from genetic interaction |GO:0006281//biological process| DNA damage response, signal transduction resulting in cell cycle
828//biological process| transport | inferred from sequence similarity |GO:0006810
membrane | inferred from direct assay|GO:0005743//biological process| mitochondrial magnesium ion transport | inferred from sequence similarity|GO:004
say |GO:0005697//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| telomerase-dependent telomere maintenance
//biological process| ubiquitin-dependent protein catabolism | traceable author statement |GO:0006511//biological process| chromatin assembly/disassemb
GO:0007064//biological process| cytogamy | inferred from mutant phenotype |GO:0000755
ss| isocitrate metabolism | traceable author statement |GO:0006102
monoubiquitination | traceable author statement |GO:0006513//biological process| protein polyubiquitination | traceable author statement |GO:0000209
GO:0016568//biological process| protein amino acid acetylation | inferred from physical interaction |GO:0006473//biological process| transcription initiation
rase complex | inferred from direct assay |GO:0008622//biological process| chromatin silencing at telomere | inferred from mutant phenotype|GO:0006348/
rred from mutant phenotype |GO:0007580//biological process| DNA recombination | inferred from mutant phenotype |GO:0006310//biological process| chro
ocess| actin cortical patch assembly | traceable author statement |GO:0000147
ocess| retrograde transport, endosome to Golgi | inferred from physical interaction |GO:0042147
eraction |GO:0000398
conjugation with cellular fusion | inferred from genetic interaction |GO:0000742
process| processing of 20S pre-rRNA | inferred from mutant phenotype |GO:0030490
006610//biological process| mRNA-binding (hnRNP) protein-nucleus import | traceable author statement |GO:0006609//biological process| snRNP protein
ing | inferred from direct assay |GO:0003677//cellular component| nucleus | inferred from direct assay|GO:0005634//biological process| response to DNA d
ntra-Golgi transport | inferred from mutant phenotype |GO:0006891//biological process| intra-Golgi transport | inferred from genetic interaction |GO:000689
al process| protein amino acid dephosphorylation | inferred from sequence similarity |GO:0006470
al process| meiosis | inferred from mutant phenotype |GO:0007126//biological process| meiotic joint molecule formation | inferred from mutant phenotype |G
NA modification | inferred from mutant phenotype|GO:0019988//biological process| charged-tRNA modification | inferred from genetic interaction |GO:0019
pe |GO:0000002//biological process| mitochondrial genome maintenance | inferred from genetic interaction |GO:0000002
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
al process| mitotic chromosome condensation | inferred from genetic interaction |GO:0007076//biological process| RNA elongation from Pol II promoter | in
om direct assay|GO:0042719//cellular component| mitochondrial intermembrane space | inferred from direct assay |GO:0005758//biological process| mitoc
/biological process| processing of 20S pre-rRNA | traceable author statement|GO:0030490//biological process| post-Golgi transport | inferred from mutant
ogical process| protein-Golgi retention | inferred from mutant phenotype |GO:0045053
ss| cytokinesis | inferred from mutant phenotype |GO:0000910
netic interaction |GO:0000196
ect assay |GO:0004392//cellular component| membrane | inferred from direct assay|GO:0016020//cellular component| endoplasmic reticulum | inferred from
gical process| base-excision repair | traceable author statement |GO:0006284//biological process| mutagenesis | traceable author statement |GO:0006280
ant phenotype |GO:0006260//biological process| nuclear mRNA splicing, via spliceosome | inferred from mutant phenotype |GO:0000398
physical interaction |GO:0000243//biological process| nuclear mRNA splicing, via spliceosome | inferred from direct assay|GO:0000398
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
O:0005634//biological process| intracellular protein transport | inferred from physical interaction|GO:0006886//biological process| intracellular protein transp
utant phenotype |GO:0006428//biological process| protein biosynthesis | inferred from sequence similarity |GO:0006412//biological process| protein biosyn
nt| spindle pole body | inferred from direct assay |GO:0005816//cellular component| condensed nuclear chromosome kinetochore | inferred from physical in
98//biological process| nucleotide-excision repair | traceable author statement |GO:0006289//biological process| lagging strand elongation | traceable autho
tion|GO:0016192
erred from direct assay |GO:0006457//biological process| mitochondrial genome maintenance | inferred from direct assay |GO:0000002
ed from mutant phenotype |GO:0000338
rgeting | inferred from mutant phenotype |GO:0006623//biological process| autophagic vacuole formation | inferred from mutant phenotype |GO:0000045
nteraction |GO:0006412
|GO:0006303//biological process| double-strand break repair via break-induced replication | traceable author statement |GO:0000727
rom genetic interaction |GO:0000750
strand annealing | inferred from mutant phenotype |GO:0045002//biological process| heteroduplex formation | inferred from direct assay |GO:0030491//biol
llular component| histone deacetylase complex | inferred from physical interaction|GO:0000118//biological process| negative regulation of meiosis | inferre
process| chromatin remodeling | inferred from direct assay |GO:0006338
| protein complex assembly | inferred from mutant phenotype |GO:0006461//biological process| conjugation with cellular fusion | inferred from mutant phen
821//biological process| protein complex assembly | inferred from physical interaction |GO:0006461//biological process| protein complex assembly | inferre
ed from physical interaction|GO:0000398
rocess| leading strand elongation | traceable author statement |GO:0006272//biological process| DNA replication initiation | traceable author statement |G
nferred from mutant phenotype |GO:0000002
| inferred from genetic interaction |GO:0006886
author statement|GO:0006412//biological process| protein biosynthesis | inferred from direct assay |GO:0006412
sma membrane transport | traceable author statement |GO:0006893//biological process| cytokinesis | inferred from mutant phenotype |GO:0000910
ant phenotype |GO:0006280//biological process| plasmid maintenance | inferred from mutant phenotype |GO:0006276//biological process| DNA-dependen
al process| mRNA polyadenylation | inferred from direct assay |GO:0006378
| nuclear organization and biogenesis | inferred from genetic interaction |GO:0006997
ss| nucleocytoplasmic transport | inferred from genetic interaction |GO:0006913
ne nucleotide biosynthesis | traceable author statement|GO:0006164
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
0008643//biological process| carbohydrate transport | inferred from direct assay |GO:0008643
8649//cellular component| nucleolus | inferred from direct assay|GO:0005730//cellular component| nucleus | inferred from direct assay |GO:0005634//biolo
gical process| protein-peroxisome targeting | inferred from mutant phenotype |GO:0006625
ytochrome c | inferred from mutant phenotype |GO:0006122
moter | inferred from physical interaction|GO:0006368//biological process| transcription from Pol II promoter | inferred from mutant phenotype |GO:000636
r component| mitochondrion | inferred from direct assay |GO:0005739//biological process| translational initiation | inferred from sequence similarity|GO:000
rom direct assay |GO:0030476
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
cal process| mitotic spindle assembly (sensu Fungi) | inferred from mutant phenotype|GO:0030472
om mutant phenotype |GO:0000790//biological process| histone methylation | inferred from direct assay|GO:0016571//biological process| regulation of tran
GO:0030037//biological process| Rho protein signal transduction | inferred from mutant phenotype |GO:0007266//biological process| signal transduction |
GO:0007015//biological process| protein amino acid dephosphorylation | traceable author statement |GO:0006470//biological process| protein biosynthesis
cal process| NADH oxidation | inferred from direct assay |GO:0006116
ll cycle | inferred from physical interaction |GO:0000114
om direct assay |GO:0005763//biological process| protein biosynthesis | traceable author statement|GO:0006412//biological process| protein biosynthesis |
|GO:0006412//biological process| protein biosynthesis | inferred from mutant phenotype |GO:0006412
ological process| ethanol fermentation | inferred from genetic interaction |GO:0019655//biological process| NADH oxidation | inferred from direct assay |GO
//biological process| ubiquitin-dependent protein catabolism | traceable author statement |GO:0006511//biological process| mitotic sister chromatid segreg
rred from expression pattern |GO:0009269//biological process| response to dessication | inferred from direct assay |GO:0009269//biological process| cell a
drial membrane organization and biogenesis | inferred from direct assay |GO:0007008
ion |GO:0000196
n dependent protein kinase activity | inferred from physical interaction |GO:0000079//biological process| regulation of cyclin dependent protein kinase activ
ed from direct assay|GO:0005739//biological process| serine family amino acid catabolism | inferred from mutant phenotype|GO:0009071//biological proce
rect assay |GO:0005739//cellular component| presequence translocase-associated import motor | inferred from direct assay |GO:0001405//biological proce
ess| aromatic amino acid family catabolism | inferred from mutant phenotype |GO:0009074
l process| regulation of transcription, DNA-dependent | inferred from direct assay |GO:0006355
006415//biological process| translational termination | inferred from mutant phenotype |GO:0006415//biological process| protein biosynthesis | inferred from
//biological process| protein-membrane targeting | inferred from mutant phenotype |GO:0006612
s| vesicle organization and biogenesis | inferred from genetic interaction |GO:0016050
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
al process| protein catabolism | inferred from mutant phenotype|GO:0030163//biological process| protein modification | inferred from mutant phenotype |GO
n biosynthesis | inferred from curator|GO:0006412
erred from curator|GO:0030163
m ion transport | inferred from sequence similarity|GO:0045016//biological process| mitochondrial magnesium ion transport | inferred from mutant phenotyp
say |GO:0006379//biological process| mRNA polyadenylation | inferred from physical interaction |GO:0006378//biological process| mRNA polyadenylation |
process| chromatin modification | traceable author statement |GO:0016568//biological process| pseudohyphal growth | inferred from direct assay |GO:0007
0274//cellular component| proton-transporting ATP synthase, stator stalk (sensu Eukarya) | inferred from sequence similarity |GO:0000274//cellular compo
s ends | traceable author statement |GO:0000736//biological process| removal of nonhomologous ends | traceable author statement |GO:0000735
er membrane protein import | inferred from physical interaction|GO:0045039//biological process| mitochondrial inner membrane protein import | inferred fro
ponse to oxidative stress | inferred from genetic interaction |GO:0006979//biological process| response to oxidative stress | inferred from expression pattern
om mutant phenotype |GO:0000790//biological process| histone methylation | inferred from direct assay|GO:0016571//biological process| transcription | infe
rial matrix | traceable author statement|GO:0005759//biological process| transcription from mitochondrial promoter | traceable author statement|GO:00063
573//biological process| chromatin modification | traceable author statement |GO:0016568
c respiration | inferred from mutant phenotype|GO:0009060//biological process| aerobic respiration | inferred from expression pattern |GO:0009060//biolog
milarity|GO:0006468//biological process| protein amino acid phosphorylation | inferred from direct assay |GO:0006468
statement |GO:0000067
-xylose metabolism | inferred from direct assay|GO:0042732//biological process| arabinose metabolism | inferred from mutant phenotype |GO:0019566//bio
pe |GO:0000154
y |GO:0006538//biological process| glutamate catabolism | inferred from physical interaction |GO:0006538
6378//biological process| transcription termination from Pol II promoter | inferred from direct assay |GO:0006369
iological process| chromatin modification | inferred from mutant phenotype |GO:0016568
ed from direct assay |GO:0006468
ent|GO:0016573
t phenotype |GO:0006414
icative complex formation and maintenance | traceable author statement |GO:0006267
mino acid phosphorylation | inferred from sequence similarity|GO:0006468//biological process| transcription initiation from Pol II promoter | traceable autho
irect assay|GO:0005935//cellular component| nucleus | traceable author statement |GO:0005634//cellular component| incipient bud site | inferred from dire
abolism | inferred from direct assay |GO:0019566//biological process| response to salt stress | inferred from expression pattern |GO:0009651
ulation of gluconeogenesis | inferred from mutant phenotype |GO:0045722//biological process| regulation of transcription from Pol II promoter | inferred from
ct assay |GO:0007124
//biological process| ubiquitin-dependent protein catabolism | traceable author statement |GO:0006511//biological process| mitotic sister chromatid segreg
30476//biological process| vesicle fusion | traceable author statement |GO:0006906
gical process| DNA recombination | inferred from mutant phenotype |GO:0006310
gical process| DNA recombination | inferred from mutant phenotype |GO:0006310
ological process| protein biosynthesis | inferred from mutant phenotype |GO:0006412
ome c | inferred from mutant phenotype |GO:0006122
ysical interaction|GO:0006342//biological process| chromatin silencing | inferred from mutant phenotype |GO:0006342//biological process| chromatin silenc
henotype |GO:0007121//biological process| axial budding | inferred from mutant phenotype |GO:0007120//biological process| response to osmotic stress |
739//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological process| aerobic respiration | inferred from mutant phenotype|GO
signal transduction | traceable author statement |GO:0007165
type|GO:0009072//biological process| aromatic amino acid family metabolism | inferred from genetic interaction |GO:0009072
uence similarity |GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| retrotransposon nuc
g, translocation | inferred from mutant phenotype |GO:0006616//biological process| protein folding | traceable author statement |GO:0006457
00027//biological process| ribosomal large subunit assembly and maintenance | inferred from mutant phenotype |GO:0000027
inferred from mutant phenotype |GO:0000027
598//biological process| polyamine catabolism | inferred from genetic interaction |GO:0006598
O:0015680//biological process| intracellular copper ion transport | inferred from mutant phenotype |GO:0015680//biological process| cytochrome c oxidase
e biosynthesis | traceable author statement |GO:0000105
05737//biological process| phenylalanine catabolism | inferred from direct assay|GO:0006559//biological process| leucine catabolism | inferred from mutan
om mutant phenotype |GO:0006486
from Pol II promoter | inferred from physical interaction |GO:0000122//biological process| negative regulation of transcription from Pol II promoter | inferre
le checkpoint | inferred from expression pattern |GO:0000075
007047//biological process| sulfate assimilation | non-traceable author statement |GO:0000103
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
biological process| phospholipid biosynthesis | inferred from mutant phenotype |GO:0008654
enetic interaction |GO:0006694
statement |GO:0007035//biological process| intron homing | traceable author statement |GO:0006314
type |GO:0006555
om mutant phenotype |GO:0006486
beta-1,6 glucan biosynthesis | inferred from mutant phenotype |GO:0006078
nteraction |GO:0015804
mutant phenotype |GO:0000055
cal process| N-linked glycosylation | inferred from mutant phenotype |GO:0006487
ssay |GO:0009082
ion | inferred from mutant phenotype |GO:0006493//biological process| N-linked glycosylation | inferred from mutant phenotype |GO:0006487
ption from Pol II promoter | traceable author statement |GO:0006357//biological process| sulfur amino acid biosynthesis | traceable author statement |GO:0
06879//biological process| copper ion homeostasis | traceable author statement |GO:0006878
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
erophospholipid metabolism | inferred from genetic interaction |GO:0006650//biological process| glycerophospholipid metabolism | inferred from direct assa
ed from mutant phenotype|GO:0007047
ed from mutant phenotype |GO:0007120//biological process| establishment of cell polarity (sensu Saccharomyces) | traceable author statement |GO:00002
ment |GO:0006616
promoter | inferred from physical interaction|GO:0006368//biological process| regulation of transcription, DNA-dependent | inferred from physical interaction
osome segregation | traceable author statement|GO:0045143//biological process| nuclear migration during conjugation with cellular fusion | traceable auth
0006164//biological process| purine nucleotide biosynthesis | inferred from direct assay |GO:0006164
om direct assay |GO:0006359//biological process| regulation of transcription from Pol II promoter | inferred from sequence similarity |GO:0006357//biologic
cal process| cell wall organization and biogenesis | inferred from expression pattern |GO:0007047
biological process| mannose inositol phosphoceramide metabolism | inferred from mutant phenotype |GO:0006675
ype |GO:0000289//biological process| poly(A) tail shortening | inferred from direct assay |GO:0000289//biological process| mRNA catabolism, deadenylatio
rred from mutant phenotype |GO:0015793//biological process| glycerol transport | inferred from genetic interaction |GO:0015793
mutant phenotype |GO:0006888
thor statement |GO:0006629
eraction |GO:0015677
cal process| transcription initiation from Pol II promoter | inferred from physical interaction |GO:0006367//biological process| transcription initiation from Po
al process| nucleotide-excision repair | traceable author statement |GO:0006289//biological process| nucleotide-excision repair, DNA duplex unwinding | tra
genetic interaction |GO:0005977//biological process| signal transduction during filamentous growth | inferred from genetic interaction |GO:0001402
gical process| protein amino acid glycosylation | inferred from mutant phenotype |GO:0006486//biological process| protein complex assembly | inferred fro
ess| intracellular protein transport | inferred from genetic interaction |GO:0006886
cess| post-Golgi transport | inferred from genetic interaction |GO:0006892//biological process| fatty acid biosynthesis | inferred from mutant phenotype |GO
ble author statement |GO:0006888
ern |GO:0008315//biological process| G2/M transition of mitotic cell cycle | inferred from sequence similarity |GO:0000086//biological process| G2/M transi
e |GO:0007033//biological process| G1/S transition of mitotic cell cycle | traceable author statement |GO:0000082//biological process| regulation of cyclin d
|GO:0000778//biological process| chromosome segregation | inferred from mutant phenotype|GO:0007059//biological process| chromosome segregation
cess| vesicle-mediated transport | inferred from mutant phenotype |GO:0016192
09408//biological process| Rho protein signal transduction | inferred from mutant phenotype |GO:0007266//biological process| Rho protein signal transduc
on | inferred from mutant phenotype |GO:0006486
ocess| iron ion homeostasis | inferred from mutant phenotype |GO:0006879//biological process| copper ion homeostasis | inferred from mutant phenotype
iological process| tRNA methylation | inferred from mutant phenotype |GO:0030488//biological process| tRNA methylation | inferred from genetic interactio
04//biological process| telomerase-dependent telomere maintenance | inferred from mutant phenotype |GO:0007004
0000164//biological process| transcription termination from Pol II promoter, poly(A)-independent | inferred from physical interaction|GO:0030847//biologica
ess| ammonium transport | inferred from mutant phenotype |GO:0015696
:0000243//biological process| mRNA splice site selection | inferred from mutant phenotype|GO:0006376//biological process| nuclear mRNA splicing, via sp
ocess| mitotic sister chromatid segregation | traceable author statement |GO:0000070//biological process| nuclear migration (sensu Saccharomyces) | trac
amino acid transport | inferred from mutant phenotype |GO:0006865
ss| phosphate transport | inferred from genetic interaction |GO:0006817
t phenotype |GO:0006397//biological process| transcription termination from Pol II promoter | inferred from mutant phenotype |GO:0006369//biological pro
is | inferred from genetic interaction |GO:0008654
statement |GO:0006402//biological process| mRNA catabolism, nonsense-mediated | traceable author statement |GO:0000184
t | inferred from mutant phenotype |GO:0007034//biological process| vacuolar transport | inferred from direct assay |GO:0007034
om direct assay |GO:0006359//biological process| regulation of transcription from Pol II promoter | inferred from sequence similarity |GO:0006357//biologic
ation | inferred from genetic interaction |GO:0006446
ss| 3-keto-sphinganine metabolism | inferred from direct assay |GO:0006666
0016481//biological process| negative regulation of transcription | inferred from mutant phenotype |GO:0016481//biological process| negative regulation of
| inferred from mutant phenotype |GO:0006970
enotype |GO:0000082
ogical process| cell wall organization and biogenesis | inferred from mutant phenotype |GO:0007047
ess| regulation of cyclin dependent protein kinase activity | traceable author statement |GO:0000079
olecular function| specific RNA polymerase II transcription factor activity | inferred from direct assay |GO:0003704//cellular component| nucleus | inferred fr
inferred from mutant phenotype |GO:0000011
able author statement|GO:0006470//biological process| protein biosynthesis | inferred from sequence similarity |GO:0006412
nteraction |GO:0000002
cess| transcription | inferred from genetic interaction |GO:0006350
utant phenotype |GO:0006555//biological process| sulfate assimilation | non-traceable author statement |GO:0000103
n |GO:0000079//biological process| regulation of cyclin dependent protein kinase activity | inferred from mutant phenotype |GO:0000079
mutant phenotype |GO:0006882//biological process| lipid metabolism | traceable author statement |GO:0006629
at silent mating-type cassette (sensu Fungi) | inferred from physical interaction|GO:0030466//biological process| chromatin silencing at silent mating-type c
ocess| transcription | inferred from physical interaction |GO:0006350//biological process| transcription | inferred from genetic interaction |GO:0006350
sequence similarity |GO:0000086//biological process| G2/M transition of mitotic cell cycle | inferred from mutant phenotype |GO:0000086//biological proce
ological process| response to heat | inferred from genetic interaction |GO:0009408//biological process| Rho protein signal transduction | inferred from sequ
ent |GO:0006355
ess| actin polymerization and/or depolymerization | inferred from physical interaction |GO:0008154//biological process| actin polymerization and/or depolym
process| oligopeptide transport | inferred from sequence similarity|GO:0006857//biological process| oligopeptide transport | inferred from mutant phenotyp
ysical interaction|GO:0000038//biological process| very-long-chain fatty acid metabolism | inferred from mutant phenotype |GO:0000038//biological proces
ation of MAPK during osmolarity sensing | inferred from genetic interaction |GO:0000173//biological process| G1/S transition of mitotic cell cycle | inferred f
ogical process| glutathione metabolism | non-traceable author statement |GO:0006749
accharomyces) | inferred from mutant phenotype |GO:0000501
t phenotype |GO:0006486//biological process| cell wall mannoprotein biosynthesis | inferred from mutant phenotype |GO:0000032
c interaction |GO:0006997
regulation of cell redox homeostasis | inferred from direct assay |GO:0030503
sport | traceable author statement |GO:0006893//biological process| exocytosis | traceable author statement |GO:0006887//biological process| cytokinesis
om direct assay |GO:0018195//biological process| mRNA-nucleus export | inferred from genetic interaction |GO:0006406
biological process| protein amino acid phosphorylation | traceable author statement |GO:0006468//biological process| G1/S transition of mitotic cell cycle |
O:0006413//biological process| translational initiation | inferred from direct assay |GO:0006413
pe |GO:0006350//biological process| transcription | inferred from direct assay |GO:0006350//biological process| mitotic sister chromatid segregation | inferr
ransition of mitotic cell cycle | inferred from physical interaction |GO:0000086//biological process| G1/S transition of mitotic cell cycle | traceable author sta
n transport | inferred from mutant phenotype |GO:0015674
e to metal ion | traceable author statement |GO:0010038//biological process| response to metal ion | inferred from direct assay |GO:0010038
:0005730//biological process| processing of 20S pre-rRNA | inferred from physical interaction|GO:0030490//biological process| 35S primary transcript proc
ogical process| DNA repair | inferred from mutant phenotype |GO:0006281//biological process| double-strand break repair via break-induced replication | t
006359//biological process| regulation of transcription from Pol I promoter | inferred from direct assay |GO:0006356//biological process| flocculation (sensu
tant phenotype|GO:0006276
08//biological process| glucose 1-phosphate utilization | inferred from mutant phenotype |GO:0006008
nferred from mutant phenotype|GO:0000122
lation | inferred from sequence similarity |GO:0006468//biological process| protein amino acid phosphorylation | inferred from mutant phenotype |GO:0006
cess| regulation of transcription from Pol III promoter | inferred from direct assay |GO:0006359//biological process| regulation of transcription from Pol II pro
om direct assay |GO:0006359//biological process| regulation of transcription from Pol II promoter | inferred from sequence similarity |GO:0006357//biologic
from mutant phenotype |GO:0006378//biological process| mRNA polyadenylation | inferred from direct assay |GO:0006378
G2/M transition of mitotic cell cycle | inferred from genetic interaction |GO:0000086//biological process| G1/S transition of mitotic cell cycle | inferred from m
d from direct assay |GO:0005634//biological process| purine base biosynthesis | inferred from mutant phenotype|GO:0009113//biological process| folic acid
henotype |GO:0006810//biological process| DNA metabolism | inferred from genetic interaction |GO:0006259
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
|GO:0007266//biological process| pseudohyphal growth | inferred from mutant phenotype |GO:0007124//biological process| polar budding | traceable auth
enotype |GO:0006486
Pol II promoter, poly(A)-independent | inferred from physical interaction|GO:0030847//biological process| transcription termination from Pol II promoter, po
gical process| cation homeostasis | inferred from mutant phenotype |GO:0030003//biological process| cation homeostasis | inferred from genetic interactio
at telomere | inferred from direct assay |GO:0006348//biological process| myo-inositol metabolism | inferred from mutant phenotype |GO:0006020
on |GO:0000283//biological process| establishment of cell polarity (sensu Saccharomyces) | inferred from mutant phenotype |GO:0000283//biological proce
ess| actin polymerization and/or depolymerization | inferred from physical interaction |GO:0008154//biological process| actin polymerization and/or depolym
t |GO:0006987//biological process| protein amino acid phosphorylation | inferred from direct assay |GO:0006468//biological process| myo-inositol metaboli
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
inferred from direct assay |GO:0030397//biological process| autophagy | inferred from mutant phenotype |GO:0006914//biological process| autophagy | inf
24//biological process| calcium ion homeostasis | inferred from mutant phenotype|GO:0006874//biological process| calcium ion transport | inferred from mu
ferred from mutant phenotype |GO:0006879
atement |GO:0006890//biological process| ER to Golgi transport | traceable author statement |GO:0006888
from mutant phenotype |GO:0045002//biological process| strand invasion | traceable author statement |GO:0042148//biological process| heteroduplex for
henotype |GO:0007051//biological process| cytokinesis | inferred from mutant phenotype |GO:0000910
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
e to osmotic stress | inferred from mutant phenotype |GO:0006970//biological process| endocytosis | inferred from mutant phenotype |GO:0006897//biolog
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
transport | traceable author statement |GO:0006913//biological process| rRNA processing | inferred from mutant phenotype |GO:0006364
ferred from mutant phenotype |GO:0006950
assay |GO:0006104//biological process| tricarboxylic acid cycle | traceable author statement |GO:0006099
0006564//biological process| L-serine biosynthesis | inferred from mutant phenotype |GO:0006564
otype |GO:0006888//biological process| ER to Golgi transport | inferred from genetic interaction |GO:0006888
nt phenotype|GO:0030012//biological process| regulation of exit from mitosis | inferred from mutant phenotype |GO:0007096//biological process| cellular m
inferred from mutant phenotype |GO:0000074//biological process| regulation of cell cycle | inferred from genetic interaction |GO:0000074
0000164//biological process| transcription termination from Pol II promoter, poly(A)-independent | inferred from physical interaction|GO:0030847//biologica
ay |GO:0006413
gical process| tRNA processing | inferred from genetic interaction |GO:0008033
type |GO:0006555//biological process| sulfur amino acid biosynthesis | traceable author statement |GO:0000097
tatement |GO:0006629
statement |GO:0007035//biological process| intron homing | traceable author statement |GO:0006314
author statement |GO:0006350//biological process| transcription | inferred from physical interaction |GO:0006350//biological process| transcription | inferr
rred from genetic interaction |GO:0006612
0005634//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| response to oxidative stress | traceable author statem
plication | traceable author statement |GO:0006260//biological process| nuclear mRNA splicing, via spliceosome | inferred from mutant phenotype |GO:000
s| mRNA-binding (hnRNP) protein-nucleus import | traceable author statement |GO:0006609//biological process| snRNP protein-nucleus import | traceable
inferred from mutant phenotype |GO:0005886//cellular component| lipid particle | inferred from direct assay |GO:0005811//cellular component| microsome
logical process| endocytosis | inferred from mutant phenotype |GO:0006897
006359//biological process| regulation of transcription from Pol I promoter | inferred from direct assay |GO:0006356//biological process| flocculation (sens
ment |GO:0007046//biological process| 35S primary transcript processing | traceable author statement |GO:0006365//biological process| rRNA modificatio
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
erred from genetic interaction |GO:0006979
ferred from mutant phenotype |GO:0007155//biological process| cellular response to nitrogen starvation | inferred from direct assay |GO:0006995//biologic
milarity |GO:0006412//biological process| protein biosynthesis | inferred from physical interaction |GO:0006412
d from mutant phenotype |GO:0006882//biological process| lipid metabolism | traceable author statement |GO:0006629
process| ER to Golgi transport | inferred from sequence similarity |GO:0006888//biological process| ER to Golgi transport | inferred from genetic interactio
/biological process| pseudohyphal growth | traceable author statement |GO:0007124//biological process| polar budding | traceable author statement |GO:0
positive regulation of transcription | inferred from mutant phenotype |GO:0045941//biological process| peroxisome organization and biogenesis | inferred f
inferred from direct assay |GO:0030397//biological process| autophagy | inferred from mutant phenotype |GO:0006914//biological process| autophagy | inf
ation of transcription, DNA-dependent | inferred from mutant phenotype |GO:0006355
cal process| ribosomal protein-nucleus import | traceable author statement |GO:0006610//biological process| mRNA-binding (hnRNP) protein-nucleus impo
005737//biological process| aromatic amino acid family biosynthesis | traceable author statement|GO:0009073
g body | inferred from mutant phenotype |GO:0000932//cellular component| cytoplasmic mRNA processing body | inferred from direct assay |GO:0000932/
acid catabolism | traceable author statement |GO:0009063
al process| DNA replication | traceable author statement |GO:0006260
red from mutant phenotype |GO:0007120//biological process| establishment of cell polarity (sensu Saccharomyces) | traceable author statement |GO:0000
nteraction |GO:0015804
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
t |GO:0006080//biological process| cell wall mannoprotein biosynthesis | traceable author statement |GO:0000032
cess| mitotic spindle assembly (sensu Fungi) | inferred from genetic interaction|GO:0030472
rocess| mitotic sister chromatid segregation | traceable author statement |GO:0000070//biological process| mitotic spindle elongation | traceable author sta
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
promoter | inferred from physical interaction|GO:0006368//biological process| regulation of transcription, DNA-dependent | inferred from physical interaction
rganization and biogenesis | inferred from genetic interaction |GO:0007031//biological process| peroxisome organization and biogenesis | inferred from dire
ological process| transcription initiation from Pol II promoter | traceable author statement |GO:0006367//biological process| establishment and/or maintena
sm | inferred from direct assay |GO:0006631
arity |GO:0006468//biological process| protein amino acid phosphorylation | inferred from genetic interaction |GO:0006468
cess| regulation of transcription from Pol III promoter | inferred from direct assay |GO:0006359//biological process| regulation of transcription from Pol II pro
y |GO:0000148//biological process| small GTPase mediated signal transduction | inferred from mutant phenotype|GO:0007264//biological process| bud gro
or statement |GO:0006094
n |GO:0006468//biological process| age-dependent response to oxidative stress during chronological cell aging | inferred from mutant phenotype |GO:0001
process| microtubule/kinetochore interaction | inferred from genetic interaction |GO:0008608//biological process| microtubule/kinetochore interaction | infe
ceptor linked signal transduction | inferred from mutant phenotype|GO:0007166
or statement |GO:0000152//biological process| ubiquitin-dependent protein catabolism | traceable author statement|GO:0006511//biological process| G2/M
potassium ion homeostasis | inferred from direct assay |GO:0030007
tivity | inferred from direct assay |GO:0004077//cellular component| cytoplasm | inferred from direct assay|GO:0005737//cellular component| intracellular |
on initiation from Pol II promoter | traceable author statement |GO:0006367//biological process| nucleotide-excision repair, DNA duplex unwinding | tracea
07124//biological process| protein amino acid phosphorylation | traceable author statement |GO:0006468
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
tant phenotype |GO:0006979//biological process| iron ion homeostasis | inferred from sequence similarity |GO:0006879//biological process| iron ion home
l process| regulation of glycogen biosynthesis | inferred from genetic interaction |GO:0005979
cision repair | traceable author statement |GO:0006289//biological process| DNA strand elongation | traceable author statement |GO:0006271//biological p
utant phenotype |GO:0007034//biological process| ubiquitin-dependent protein catabolism | inferred from mutant phenotype |GO:0006511
| traceable author statement |GO:0007120//biological process| bud site selection | traceable author statement |GO:0000282
Saccharomyces) | inferred from direct assay |GO:0001403
e author statement |GO:0006511
negative regulation of meiosis | inferred from physical interaction|GO:0045835//biological process| histone deacetylation | inferred from physical interactio
rocess| histidine biosynthesis | traceable author statement |GO:0000105
biological process| snRNP protein-nucleus import | traceable author statement |GO:0006608//biological process| NLS-bearing substrate-nucleus import | tr
mutant phenotype |GO:0000055
ulation of nitrogen utilization | inferred from genetic interaction |GO:0006808//biological process| nitrogen metabolism | inferred from physical interaction |G
tor activity | inferred from genetic interaction |GO:0003713//molecular function| transcription coactivator activity | inferred from direct assay |GO:0003713//c
g | inferred from physical interaction |GO:0006605//biological process| protein targeting | inferred from mutant phenotype |GO:0006605//biological process|
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
omatin silencing at ribosomal DNA | inferred from genetic interaction |GO:0000183
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
udding | traceable author statement|GO:0007120//biological process| cell wall organization and biogenesis | traceable author statement |GO:0007047//bio
traceable author statement |GO:0006633
ble author statement |GO:0000173
ble author statement |GO:0000747
utant phenotype |GO:0006357
author statement|GO:0005669//cellular component| nucleus | inferred from direct assay |GO:0005634//cellular component| transcription factor TFIIIB comp
ellular response to phosphate starvation | traceable author statement|GO:0016036//biological process| purine base biosynthesis | inferred from direct assay
om genetic interaction |GO:0000288
otype|GO:0006950//biological process| trehalose biosynthesis | inferred from physical interaction |GO:0005992//biological process| trehalose biosynthesis
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ological process| fatty acid beta-oxidation | inferred from mutant phenotype |GO:0006635//biological process| fatty acid beta-oxidation | inferred from gene
79//biological process| DNA-dependent DNA replication | inferred from mutant phenotype |GO:0006261//biological process| vacuole inheritance | inferred fr
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
uence similarity|GO:0015986//biological process| ATP synthesis coupled proton transport | inferred from mutant phenotype |GO:0015986//biological proce
cal process| endocytosis | inferred from mutant phenotype |GO:0006897//biological process| regulation of DNA replication | inferred from mutant phenotyp
mbination | inferred from mutant phenotype |GO:0006310
notype |GO:0000028
transport | inferred from mutant phenotype |GO:0006855
from mutant phenotype|GO:0009060//biological process| mitochondrion organization and biogenesis | inferred from mutant phenotype |GO:0007005//biol
bolism | traceable author statement |GO:0006533//biological process| aspartate biosynthesis | traceable author statement |GO:0006532
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
y |GO:0006631//biological process| fatty acid metabolism | inferred from mutant phenotype |GO:0006631
enance | traceable author statement |GO:0006267
omoter | inferred from physical interaction|GO:0006368//biological process| regulation of global transcription from Pol II promoter | traceable author statem
al interaction|GO:0000398
biquitination | inferred from mutant phenotype|GO:0016574//biological process| protein monoubiquitination | inferred from mutant phenotype |GO:0006513
ho protein signal transduction | traceable author statement|GO:0007266//biological process| pseudohyphal growth | inferred from mutant phenotype |GO:0
component| peripheral to membrane of membrane fraction | inferred from direct assay |GO:0000300//biological process| ER to Golgi transport | inferred fr
ed from direct assay |GO:0000730//biological process| meiotic DNA recombinase assembly | traceable author statement |GO:0000707
ol II promoter | traceable author statement |GO:0006366//biological process| transcription from Pol I promoter | traceable author statement |GO:0006360
biological process| snRNP protein-nucleus import | traceable author statement |GO:0006608//biological process| NLS-bearing substrate-nucleus import | tr
tatement |GO:0006592//biological process| arginine biosynthesis | traceable author statement |GO:0006526
610//biological process| mRNA-binding (hnRNP) protein-nucleus import | traceable author statement |GO:0006609//biological process| snRNP protein-nuc
ence similarity |GO:0006413//biological process| regulation of cell cycle | inferred from mutant phenotype |GO:0000074
process| DNA replication | inferred from genetic interaction |GO:0006260
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ble author statement |GO:0006280//biological process| lagging strand elongation | traceable author statement |GO:0006273//biological process| leading st
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
mbrane | inferred from direct assay |GO:0005887//biological process| manganese ion transport | inferred from mutant phenotype|GO:0006828//biological p
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
e author statement|GO:0007165//biological process| meiosis | inferred from mutant phenotype |GO:0007126//biological process| ribosome biogenesis | infe
nt phenotype |GO:0000921//biological process| septin ring assembly | inferred from genetic interaction |GO:0000921//biological process| septin checkpoin
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
e|GO:0045045//biological process| manganese ion transport | inferred from direct assay |GO:0006828//biological process| calcium ion transport | inferred
| traceable author statement |GO:0006555
action |GO:0001308//biological process| loss of chromatin silencing during replicative cell aging | inferred from expression pattern |GO:0001308//biological
genetic interaction |GO:0005977//biological process| signal transduction during filamentous growth | inferred from genetic interaction |GO:0001402
tion | inferred from physical interaction |GO:0007020
0//biological process| 35S primary transcript processing | traceable author statement |GO:0006365//biological process| rRNA modification | traceable autho
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
from direct assay |GO:0000750
se metabolism | traceable author statement |GO:0006006
nd biogenesis | inferred from mutant phenotype |GO:0007010//biological process| mitochondrion inheritance | inferred from mutant phenotype |GO:000000
ophagy | inferred from mutant phenotype |GO:0006914//biological process| autophagy | inferred from direct assay |GO:0006914//biological process| vacuo
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
port | inferred from sequence similarity|GO:0015680//biological process| intracellular copper ion transport | inferred from mutant phenotype |GO:0015680
m physical interaction |GO:0006612//biological process| protein-membrane targeting | inferred from mutant phenotype |GO:0006612
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
le author statement |GO:0006511
tress | inferred from expression pattern |GO:0006979//biological process| glutamate catabolism | inferred from sequence similarity |GO:0006538//biologica
e author statement |GO:0006511
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
phase B | inferred from mutant phenotype |GO:0000092
6355//biological process| establishment and/or maintenance of chromatin architecture | traceable author statement |GO:0006325//biological process| loss
|GO:0000778//biological process| chromosome segregation | inferred from mutant phenotype|GO:0007059//biological process| chromosome segregation
7017//biological process| actin filament organization | traceable author statement |GO:0007015//biological process| establishment of cell polarity (sensu Sa
ablishment of cell polarity (sensu Saccharomyces) | inferred from physical interaction |GO:0000283//biological process| establishment of cell polarity (sensu
process| response to osmotic stress | inferred from mutant phenotype |GO:0006970
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
mponent| histone acetyltransferase complex | inferred from direct assay |GO:0000123//biological process| mitotic spindle orientation (sensu Fungi) | traceab
hrome c oxidase biogenesis | inferred from direct assay |GO:0008535
esponse to osmotic stress | traceable author statement |GO:0006970//biological process| cytokinesis | traceable author statement |GO:0000910//biological
cess| ubiquitin-dependent protein catabolism | inferred from mutant phenotype |GO:0006511
n |GO:0000778//cellular component| condensed nuclear chromosome kinetochore | inferred from mutant phenotype |GO:0000778//cellular component| con
ance | inferred from sequence similarity |GO:0000028//biological process| ribosomal small subunit assembly and maintenance | inferred from mutant phen
complex | inferred from physical interaction |GO:0000118//biological process| negative regulation of meiosis | inferred from physical interaction|GO:00458
gical process| nuclear membrane organization and biogenesis | traceable author statement|GO:0006998//biological process| fatty acid biosynthesis | trace
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ar component| vacuole (sensu Fungi) | inferred from direct assay|GO:0000324//biological process| cation homeostasis | inferred from mutant phenotype|G
ycle-dependent actin filament reorganization | inferred from physical interaction|GO:0030037//biological process| cell cycle-dependent actin filament reorga
al process| rRNA modification | traceable author statement |GO:0000154
al process| apical bud growth | inferred from physical interaction |GO:0007118//biological process| invasive growth (sensu Saccharomyces) | inferred from
ar component| vacuole (sensu Fungi) | inferred from direct assay|GO:0000324//biological process| cation homeostasis | inferred from mutant phenotype|G
ent |GO:0000214//biological process| tRNA splicing | traceable author statement|GO:0006388
action |GO:0006611
on | inferred from mutant phenotype |GO:0006261//biological process| DNA-dependent DNA replication | inferred from direct assay |GO:0006261
irect assay|GO:0006950//biological process| carbohydrate metabolism | inferred from direct assay |GO:0005975
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
7047//biological process| actin filament organization | inferred from physical interaction |GO:0007015//biological process| actin filament organization | inferr
nteraction |GO:0016050//biological process| GPI anchor metabolism | inferred from genetic interaction |GO:0006505
cess| asparaginyl-tRNA aminoacylation | inferred from direct assay |GO:0006421
ical process| cell wall organization and biogenesis | inferred from genetic interaction |GO:0007047//biological process| cellular morphogenesis | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
on | inferred from direct assay |GO:0006468
proton-transporting ATP synthase, central stalk (sensu Eukarya) | inferred from physical interaction |GO:0005756//cellular component| proton-transporting
ess| ammonium transport | inferred from mutant phenotype |GO:0015696
pattern |GO:0009409//biological process| fatty acid metabolism | inferred from mutant phenotype |GO:0006631
ponse to osmotic stress | inferred from direct assay |GO:0006970//biological process| amino acid transport | inferred from mutant phenotype |GO:0006865
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
iogenesis | traceable author statement |GO:0007047//biological process| cytokinesis | traceable author statement |GO:0000910//biological process| cellula
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
nked glycosylation | inferred from mutant phenotype|GO:0006487//biological process| N-linked glycosylation | inferred from direct assay |GO:0006487
ss| tryptophan biosynthesis | traceable author statement |GO:0000162//biological process| histidine biosynthesis | traceable author statement |GO:000010
GO:0000183//biological process| chromatin silencing at ribosomal DNA | inferred from mutant phenotype |GO:0000183
cid phosphorylation | inferred from sequence similarity |GO:0006468//biological process| protein amino acid phosphorylation | inferred from mutant phenoty
O:0000742//biological process| karyogamy during conjugation with cellular fusion | inferred from genetic interaction |GO:0000742
ocess| G1/S-specific transcription in mitotic cell cycle | traceable author statement |GO:0000083
O:0000116//biological process| regulation of cell cycle | inferred from mutant phenotype |GO:0000074//biological process| regulation of cell cycle | inferred
nt| incipient bud site | inferred from direct assay |GO:0000131//biological process| donor preference | traceable author statement|GO:0007535//biological p
GO:0009269//biological process| cell adhesion | inferred from direct assay |GO:0007155//biological process| response to oxidative stress | traceable autho
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
f transcription from Pol II promoter | inferred from mutant phenotype|GO:0006357
06829//biological process| cobalt ion transport | inferred from mutant phenotype |GO:0006824
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
iological process| regulation of transcription, DNA-dependent | inferred from direct assay |GO:0006355
e |GO:0015837
uthor statement |GO:0000730//biological process| DNA recombinase assembly | inferred from direct assay |GO:0000730//biological process| double-strand
eable author statement |GO:0006284//biological process| mutagenesis | traceable author statement |GO:0006280//biological process| lagging strand elong
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
tant phenotype |GO:0000910//biological process| actin cortical patch assembly | traceable author statement |GO:0000147
s| histone methylation | inferred from mutant phenotype|GO:0016571//biological process| histone methylation | inferred from direct assay |GO:0016571//bio
biological process| snRNP protein-nucleus import | traceable author statement |GO:0006608//biological process| NLS-bearing substrate-nucleus import | tr
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
06365//biological process| rRNA processing | inferred from mutant phenotype |GO:0006364
assembly (sensu Fungi) | inferred from physical interaction|GO:0030472//biological process| microtubule nucleation | inferred from physical interaction |GO
0015771//biological process| alpha-glucoside transport | traceable author statement |GO:0000017
| inferred from mutant phenotype |GO:0030012//biological process| G1 phase of mitotic cell cycle | inferred from mutant phenotype |GO:0000080//biologica
al process| protein catabolism | inferred from mutant phenotype |GO:0030163//biological process| protein catabolism | inferred from direct assay |GO:0030
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
biological process| snRNP protein-nucleus import | traceable author statement |GO:0006608//biological process| NLS-bearing substrate-nucleus import | tr
al process| DNA replication | inferred from physical interaction |GO:0006260//biological process| DNA replication | inferred from mutant phenotype |GO:000
er | inferred from physical interaction |GO:0045944//biological process| positive regulation of transcription from Pol II promoter | inferred from genetic intera
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
nteraction |GO:0030433//biological process| ER-associated protein catabolism | inferred from mutant phenotype |GO:0030433
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
GO:0006631
action |GO:0006350
action |GO:0000750//biological process| signal transduction during conjugation with cellular fusion | inferred from genetic interaction |GO:0000750
n filament organization | inferred from mutant phenotype |GO:0007015
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ect assay |GO:0000776//biological process| chromosome segregation | inferred from mutant phenotype|GO:0007059//biological process| RNA elongation f
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
RNA cleavage | inferred from direct assay |GO:0006379//biological process| mRNA polyadenylation | traceable author statement |GO:0006378//biological p
erred from genetic interaction |GO:0006979
processing | traceable author statement |GO:0006365//biological process| rRNA modification | traceable author statement |GO:0000154
erred from mutant phenotype |GO:0006544
ed from direct assay|GO:0006616//biological process| protein folding | inferred from direct assay |GO:0006457//biological process| protein-nucleus import,
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ction |GO:0006629//biological process| N-terminal protein myristoylation | inferred from mutant phenotype |GO:0006499//biological process| N-terminal pro
O:0005835//cellular component| cytosol | traceable author statement |GO:0005829//biological process| fatty acid biosynthesis | traceable author statement|
phenotype |GO:0019566//biological process| arabinose metabolism | inferred from direct assay |GO:0019566
nferred from physical interaction |GO:0007023//biological process| post-chaperonin tubulin folding pathway | inferred from mutant phenotype |GO:0007023
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ol II promoter | traceable author statement |GO:0006366//biological process| transcription from Pol I promoter | traceable author statement |GO:0006360
0006904//biological process| Golgi to plasma membrane transport | traceable author statement |GO:0006893//biological process| cytokinesis | inferred from
nferred from direct assay |GO:0006281
statement|GO:0000162
uble-strand break repair via nonhomologous end-joining | inferred from direct assay |GO:0006303//biological process| loss of chromatin silencing during re
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
biological process| snRNP protein-nucleus import | traceable author statement |GO:0006608//biological process| NLS-bearing substrate-nucleus import | tr
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ess| proteolysis and peptidolysis | inferred from genetic interaction |GO:0006508//biological process| protein amino acid phosphorylation | inferred from se
ess| ER to Golgi transport | inferred from genetic interaction |GO:0006888//biological process| retrograde transport, vesicle recycling within Golgi | traceabl
udding | traceable author statement|GO:0007120//biological process| cell wall organization and biogenesis | traceable author statement |GO:0007047//bio
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
architecture | inferred from sequence similarity |GO:0006325
tosis | inferred from mutant phenotype |GO:0007096//biological process| protein amino acid phosphorylation | inferred from direct assay |GO:0006468
nteraction |GO:0015804
ocess| budding | inferred from mutant phenotype|GO:0007114//biological process| mitosis | traceable author statement |GO:0007067//biological process| c
olecular function| specific RNA polymerase II transcription factor activity | inferred from direct assay |GO:0003704//cellular component| nucleus | inferred fr
olecular function| specific RNA polymerase II transcription factor activity | inferred from direct assay |GO:0003704//cellular component| nucleus | inferred fr
007124//biological process| isotropic bud growth | inferred from physical interaction |GO:0007119//biological process| apical bud growth | inferred from phy
inferred from mutant phenotype |GO:0006461
n transport | inferred from mutant phenotype |GO:0015674
tic interaction |GO:0006260
ant phenotype |GO:0019566//biological process| arabinose metabolism | inferred from direct assay |GO:0019566//biological process| response to stress | i
red from physical interaction |GO:0001405//biological process| mitochondrial matrix protein import | inferred from physical interaction|GO:0030150//biologic
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
0000276//biological process| ATP synthesis coupled proton transport | inferred from physical interaction|GO:0015986//biological process| ATP synthesis c
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
tein phosphatase type 2A complex | traceable author statement |GO:0000159//biological process| bud growth | traceable author statement|GO:0007117//b
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
nal peptide processing | inferred from physical interaction |GO:0006465//biological process| signal peptide processing | inferred from mutant phenotype |G
A-nucleus export | inferred from physical interaction|GO:0006406//biological process| mRNA-nucleus export | inferred from mutant phenotype |GO:0006406
ss| microtubule depolymerization | inferred from mutant phenotype |GO:0007019//biological process| nuclear migration (sensu Saccharomyces) | inferred f
ith cellular fusion | inferred from mutant phenotype |GO:0000750//biological process| inactivation of MAPK during osmolarity sensing | inferred from physic
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
| inferred from direct assay |GO:0006665
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
y |GO:0015914
notype |GO:0006831
ct assay |GO:0007323
cal process| mitotic spindle assembly (sensu Fungi) | inferred from mutant phenotype|GO:0030472
nthesis | traceable author statement |GO:0006164
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
nt organization | inferred from mutant phenotype |GO:0007015//biological process| response to osmotic stress | inferred from mutant phenotype |GO:00069
ase activity | inferred from direct assay |GO:0004134//cellular component| cytoplasm | inferred from direct assay|GO:0005737//biological process| glycogen
or statement |GO:0006094
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
etic interaction |GO:0007015//biological process| protein amino acid phosphorylation | inferred from sequence similarity |GO:0006468//biological process|
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
olism | traceable author statement |GO:0007039//biological process| vacuolar protein catabolism | inferred from mutant phenotype |GO:0007039
direct assay |GO:0006644
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
e | inferred from mutant phenotype |GO:0006379//biological process| mRNA cleavage | inferred from direct assay |GO:0006379//biological process| mRNA
s| isotropic bud growth | inferred from mutant phenotype |GO:0007119//biological process| apical bud growth | inferred from physical interaction |GO:00071
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
from mutant phenotype|GO:0015805//biological process| S-adenosylmethionine transport | inferred from genetic interaction |GO:0015805//biological proce
ol II promoter | traceable author statement |GO:0006366//biological process| transcription from Pol I promoter | traceable author statement |GO:0006360
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
cytokinesis | inferred from genetic interaction |GO:0000910
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
nsport | inferred from mutant phenotype |GO:0016197//biological process| monovalent inorganic cation transport | inferred from sequence similarity |GO:00
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
m Pol II promoter | inferred from sequence similarity |GO:0006357//biological process| establishment and/or maintenance of chromatin architecture | inferre
aceable author statement|GO:0006646//biological process| phosphatidylethanolamine biosynthesis | inferred from mutant phenotype |GO:0006646
al process| regulation of transcription from Pol II promoter | traceable author statement |GO:0006357
inferred from direct assay |GO:0030397//biological process| autophagy | inferred from mutant phenotype |GO:0006914//biological process| autophagy | inf
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
TP synthesis coupled proton transport | inferred from sequence similarity|GO:0015986//biological process| ATP synthesis coupled proton transport | inferre
e|GO:0006418//biological process| tRNA-nucleus export | inferred from mutant phenotype |GO:0006409
red from mutant phenotype |GO:0000077
sponse to stress | inferred from genetic interaction |GO:0006950//biological process| protein amino acid phosphorylation | inferred from direct assay |GO:0
d from mutant phenotype |GO:0000731
ological process| transcription initiation from Pol II promoter | traceable author statement |GO:0006367//biological process| establishment and/or maintena
ponent| nucleus | inferred from direct assay |GO:0005634//biological process| nucleotide metabolism | inferred from mutant phenotype|GO:0009117//biolo
| mitochondrion inheritance | inferred from genetic interaction |GO:0000001
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
direct assay|GO:0016573//biological process| regulation of transcription from Pol II promoter | inferred from direct assay |GO:0006357//biological process
O:0007124//biological process| protein amino acid phosphorylation | traceable author statement |GO:0006468
ological process| meiosis | inferred from expression pattern |GO:0007126//biological process| premeiotic DNA synthesis | inferred from mutant phenotype |
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
O:0006270//biological process| DNA unwinding | traceable author statement |GO:0006268//biological process| pre-replicative complex formation and main
cytokinesis | inferred from mutant phenotype |GO:0000910//biological process| establishment of cell polarity (sensu Saccharomyces) | inferred from physic
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
chondrial inner membrane | traceable author statement |GO:0005743//biological process| mitochondrial electron transport, ubiquinol to cytochrome c | trac
rocess| histidine biosynthesis | traceable author statement |GO:0000105
ent |GO:0000214//biological process| tRNA splicing | traceable author statement|GO:0006388
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
rocess| mitotic sister chromatid segregation | traceable author statement |GO:0000070//biological process| mitotic spindle elongation | traceable author sta
nt |GO:0000168
interaction |GO:0006333
iological process| protein amino acid phosphorylation | inferred from mutant phenotype |GO:0006468
0006284//biological process| DNA repair | traceable author statement |GO:0006281
|GO:0007088//biological process| regulation of mitosis | inferred from mutant phenotype |GO:0007088//biological process| chromatin silencing at telomere
0006610//biological process| mRNA-binding (hnRNP) protein-nucleus import | traceable author statement |GO:0006609//biological process| snRNP protein
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
89//biological process| 'de novo' IMP biosynthesis | inferred from direct assay |GO:0006189//biological process| purine nucleotide biosynthesis | inferred fr
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ungi) | traceable author statement|GO:0030607//biological process| mitotic spindle assembly (sensu Fungi) | traceable author statement |GO:0030472//biol
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ed from direct assay |GO:0006334//biological process| establishment and/or maintenance of chromatin architecture | traceable author statement |GO:0006
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
874//biological process| establishment of cell polarity (sensu Saccharomyces) | inferred from mutant phenotype |GO:0000283
olecular function| specific RNA polymerase II transcription factor activity | inferred from direct assay |GO:0003704//cellular component| nucleus | inferred fr
arity |GO:0000274//cellular component| proton-transporting ATP synthase, stator stalk (sensu Eukarya) | inferred from mutant phenotype |GO:0000274//bi
mplex | inferred from physical interaction |GO:0005697//cellular component| telomerase holoenzyme complex | inferred from direct assay |GO:0005697//cel
rocess| histidine biosynthesis | traceable author statement |GO:0000105
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
70//biological process| mitotic spindle elongation | traceable author statement |GO:0000022
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
olecular function| specific RNA polymerase II transcription factor activity | inferred from direct assay |GO:0003704//cellular component| nucleus | inferred fr
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ystem | inferred from direct assay |GO:0007234
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
biological process| glycogen metabolism | inferred from genetic interaction |GO:0005977
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
biquitin-dependent protein catabolism | traceable author statement |GO:0006511//biological process| mitotic sister chromatid segregation | traceable autho
ogical process| protein amino acid phosphorylation | inferred from direct assay |GO:0006468
nt| RNA polymerase I upstream activating factor complex | inferred from physical interaction |GO:0000500//cellular component| RNA polymerase I upstrea
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
| traceable author statement |GO:0016478//biological process| protein biosynthesis | traceable author statement |GO:0006412//biological process| rRNA p
llular component| bud neck | inferred from direct assay|GO:0005935//biological process| G2/M transition of mitotic cell cycle | inferred from mutant phenoty
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
609//biological process| snRNP protein-nucleus import | traceable author statement |GO:0006608//biological process| NLS-bearing substrate-nucleus impo
nt |GO:0007121//biological process| axial budding | traceable author statement |GO:0007120//biological process| bud site selection | traceable author state
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
tern |GO:0030435//biological process| protein complex assembly | inferred from mutant phenotype |GO:0006461
nferred from physical interaction |GO:0006446//biological process| regulation of translational initiation | inferred from mutant phenotype |GO:0006446
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
cision repair | traceable author statement |GO:0006289//biological process| DNA strand elongation | traceable author statement |GO:0006271//biological p
ondrial matrix protein import | inferred from mutant phenotype |GO:0030150
ss| transcription termination | inferred from mutant phenotype |GO:0006353
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
rity |GO:0006631//biological process| fatty acid metabolism | inferred from mutant phenotype |GO:0006631
cleus | inferred from physical interaction|GO:0005634//biological process| positive regulation of transcription | inferred from physical interaction|GO:004594
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
anscription from Pol III promoter | inferred from mutant phenotype |GO:0006383//biological process| chromatin silencing at telomere | inferred from mutant
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
logical process| response to oxidative stress | inferred from mutant phenotype |GO:0006979//biological process| response to oxidative stress | inferred from
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
|GO:0000028
d from mutant phenotype |GO:0006348//biological process| chromatin silencing at telomere | inferred from genetic interaction |GO:0006348//biological pro
physical interaction |GO:0000398
606//biological process| RNA-nucleus export | inferred from physical interaction |GO:0006405
from mutant phenotype |GO:0006609//biological process| mRNA-binding (hnRNP) protein-nucleus import | inferred from direct assay |GO:0006609//biolog
erred from mutant phenotype |GO:0006457
cle | inferred from mutant phenotype |GO:0000082
mage stimulus | inferred from mutant phenotype |GO:0006974//biological process| ubiquitin-dependent protein catabolism | inferred from physical interactio
otype |GO:0007121
alpha,alpha-trehalose-phosphate synthase complex (UDP-forming) | inferred from genetic interaction |GO:0005946//biological process| response to stress
notype |GO:0000054
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
logical process| protein amino acid dephosphorylation | inferred from direct assay |GO:0006470//biological process| protein biosynthesis | inferred from ph
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
assay |GO:0006104//biological process| tricarboxylic acid cycle | traceable author statement |GO:0006099
nteraction |GO:0006376
lencing | traceable author statement|GO:0006342//biological process| double-strand break repair via nonhomologous end-joining | inferred from direct ass
07117//biological process| cell wall organization and biogenesis | inferred from physical interaction |GO:0007047//biological process| establishment of cell
/biological process| endocytosis | inferred from physical interaction |GO:0006897
eable author statement |GO:0000209
1//biological process| chromatin silencing at telomere | inferred from mutant phenotype |GO:0006348
t phenotype |GO:0006445//biological process| regulation of translation | inferred from genetic interaction |GO:0006445
biological process| snRNP protein-nucleus import | traceable author statement |GO:0006608//biological process| NLS-bearing substrate-nucleus import | tr
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
y acid elongation | inferred from sequence similarity|GO:0030497//biological process| fatty acid elongation | inferred from physical interaction |GO:0030497
m genetic interaction |GO:0007047//biological process| cell ion homeostasis | inferred from mutant phenotype |GO:0006873//biological process| adaptation
rect assay |GO:0006338
rred from mutant phenotype |GO:0006730//biological process| one-carbon compound metabolism | inferred from direct assay |GO:0006730
cal process| mitotic spindle assembly (sensu Fungi) | inferred from mutant phenotype |GO:0030472//biological process| mitotic spindle assembly (sensu Fu
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
gical process| S phase of mitotic cell cycle | inferred from genetic interaction |GO:0000084//biological process| regulation of cyclin dependent protein kinas
statement|GO:0006164
nce similarity |GO:0005886//cellular component| endosome | traceable author statement |GO:0005768//biological process| iron-siderochrome transport | in
ssion pattern |GO:0006950//biological process| protein folding | inferred from physical interaction |GO:0006457//biological process| protein folding | inferre
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ess| protein amino acid phosphorylation | traceable author statement |GO:0006468//biological process| cytokinesis | inferred from mutant phenotype |GO:0
ocess| mitochondrial matrix protein import | inferred from direct assay|GO:0030150//biological process| protein folding | inferred from direct assay |GO:000
type |GO:0006896//biological process| protein complex assembly | inferred from mutant phenotype |GO:0006461
ocess| chromosome segregation | inferred from mutant phenotype|GO:0007059//biological process| RNA elongation from Pol II promoter | inferred from ph
|GO:0000135//biological process| G2/M transition of mitotic cell cycle | inferred from mutant phenotype |GO:0000086//biological process| G2/M transition
ellular component| incipient bud site | inferred from direct assay |GO:0000131//biological process| actin nucleation | inferred from direct assay|GO:0045010
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
rity |GO:0006631//biological process| fatty acid metabolism | inferred from mutant phenotype |GO:0006631
biological process| snRNP protein-nucleus import | traceable author statement |GO:0006608//biological process| NLS-bearing substrate-nucleus import | tr
inferred from mutant phenotype |GO:0000722
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
| traceable author statement |GO:0006280//biological process| lagging strand elongation | traceable author statement |GO:0006273//biological process| le
cal process| response to osmotic stress | inferred from mutant phenotype |GO:0006970//biological process| endocytosis | inferred from mutant phenotype
accharomyces) | inferred from mutant phenotype |GO:0000501
R to Golgi transport | inferred from sequence similarity |GO:0006888//biological process| ER to Golgi transport | inferred from genetic interaction |GO:00068
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
|GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| nucleus | inferred from curator|GO:0
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
logical process| protein complex assembly | inferred from mutant phenotype |GO:0006461
olecular function| specific RNA polymerase II transcription factor activity | inferred from direct assay |GO:0003704//cellular component| nucleus | inferred fr
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
007126//biological process| protein amino acid phosphorylation | traceable author statement |GO:0006468//biological process| negative regulation of trans
ing strand elongation | traceable author statement |GO:0006273//biological process| leading strand elongation | traceable author statement |GO:0006272/
matin remodeling | inferred from direct assay |GO:0006338
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
otein signaling pathway | inferred from mutant phenotype |GO:0007186//biological process| pseudohyphal growth | inferred from mutant phenotype |GO:00
5944//biological process| positive regulation of transcription from Pol II promoter | inferred from mutant phenotype |GO:0045944//biological process| positi
nt phenotype |GO:0000921//biological process| septin ring assembly | inferred from genetic interaction |GO:0000921//biological process| septin checkpoin
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
gical process| positive regulation of transcription from Pol II promoter | inferred from physical interaction |GO:0045944//biological process| positive regulati
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ed from direct assay|GO:0006616//biological process| protein folding | inferred from direct assay |GO:0006457//biological process| protein-nucleus import,
/biological process| endocytosis | inferred from physical interaction |GO:0006897
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
131//biological process| polar budding | inferred from mutant phenotype|GO:0007121//biological process| vesicle fusion | traceable author statement |GO:0
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
al process| establishment of cell polarity (sensu Saccharomyces) | inferred from mutant phenotype |GO:0000283
ed from direct assay |GO:0000730//biological process| telomerase-independent telomere maintenance | inferred from mutant phenotype |GO:0000722//bio
ent |GO:0006611//biological process| ribosomal protein-nucleus import | traceable author statement |GO:0006610//biological process| mRNA-binding (hnR
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
0006610//biological process| mRNA-binding (hnRNP) protein-nucleus import | traceable author statement |GO:0006609//biological process| snRNP protein
n |GO:0000778//cellular component| condensed nuclear chromosome kinetochore | inferred from mutant phenotype |GO:0000778//biological process| chro
018283//biological process| iron ion homeostasis | inferred from mutant phenotype |GO:0006879//biological process| iron ion homeostasis | inferred from g
process| activation of MAPK during osmolarity sensing | traceable author statement |GO:0000169
O:0019653//biological process| acetate biosynthesis from carbon monoxide | inferred from direct assay |GO:0019415//biological process| nucleobase, nuc
on |GO:0000086//biological process| G1/S transition of mitotic cell cycle | traceable author statement |GO:0000082
609//biological process| snRNP protein-nucleus import | traceable author statement |GO:0006608//biological process| NLS-bearing substrate-nucleus impo
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
n | traceable author statement|GO:0007165//biological process| phospholipid metabolism | inferred from mutant phenotype |GO:0006644
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
79//biological process| DNA-dependent DNA replication | inferred from mutant phenotype |GO:0006261//biological process| vacuole inheritance | inferred fr
or statement |GO:0006094
|GO:0003887//molecular function| RNA binding | inferred from sequence similarity |GO:0003723//cellular component| nucleus | inferred from curator|GO:0
rocess| mitotic sister chromatid segregation | traceable author statement |GO:0000070//biological process| mitotic spindle elongation | traceable author sta
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
0//biological process| mitotic spindle elongation | traceable author statement |GO:0000022
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
olecular function| specific RNA polymerase II transcription factor activity | inferred from direct assay |GO:0003704//cellular component| nucleus | inferred fr
n dependent protein kinase activity | traceable author statement |GO:0000079
xocytosis | inferred from genetic interaction |GO:0006887//biological process| spliceosome assembly | inferred from physical interaction |GO:0000245//biol
ER to Golgi transport | inferred from genetic interaction |GO:0006888//biological process| retrograde transport, vesicle recycling within Golgi | traceable aut
44//biological process| signal transduction | inferred from mutant phenotype |GO:0007165//biological process| protein amino acid phosphorylation | inferre
olecular function| specific RNA polymerase II transcription factor activity | inferred from direct assay |GO:0003704//cellular component| nucleus | inferred fr
ceable author statement |GO:0006513//biological process| protein polyubiquitination | traceable author statement |GO:0000209
essing | inferred from mutant phenotype |GO:0006627
ent| cytoplasm | inferred from direct assay |GO:0005737//biological process| proteolysis and peptidolysis | inferred from mutant phenotype|GO:0006508//b
cription from Pol II promoter | inferred from genetic interaction |GO:0006357//biological process| chromatin silencing at telomere | inferred from mutant phe
ell wall organization and biogenesis | traceable author statement |GO:0007047//biological process| cytokinesis | traceable author statement |GO:0000910//
08//biological process| glucose 1-phosphate utilization | inferred from mutant phenotype |GO:0006008
t assay |GO:0000324//biological process| glycerol transport | inferred from direct assay|GO:0015793//biological process| transport | inferred from sequence
one maturation | inferred from mutant phenotype |GO:0007323//biological process| axial budding | traceable author statement |GO:0007120//biological pro
rity (sensu Fungi) | inferred from mutant phenotype|GO:0030469
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
|GO:0006970//biological process| response to osmotic stress | inferred from genetic interaction |GO:0006970//biological process| DNA repair | inferred from
rase-dependent telomere maintenance | traceable author statement|GO:0007004
tion | inferred from physical interaction |GO:0007020
pha-trehalose-phosphate synthase complex (UDP-forming) | inferred from genetic interaction |GO:0005946//cellular component| alpha,alpha-trehalose-ph
ed from mutant phenotype|GO:0016571//biological process| histone methylation | inferred from direct assay |GO:0016571//biological process| regulation o
netic interaction |GO:0001100
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
0//biological process| ubiquitin-dependent protein catabolism | traceable author statement |GO:0006511
O:0006270//biological process| DNA replication initiation | inferred from physical interaction |GO:0006270//biological process| DNA unwinding | traceable a
process| vesicle docking during exocytosis | traceable author statement |GO:0006904//biological process| Golgi to plasma membrane transport | traceable
biological process| snRNP protein-nucleus import | traceable author statement |GO:0006608//biological process| NLS-bearing substrate-nucleus import | tr
II promoter | traceable author statement|GO:0006357//biological process| DNA replication initiation | traceable author statement |GO:0006270
m mutant phenotype|GO:0000398
otype |GO:0006289//biological process| base-excision repair | inferred from mutant phenotype |GO:0006284//biological process| lagging strand elongation
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
olecular function| specific RNA polymerase II transcription factor activity | inferred from direct assay |GO:0003704//cellular component| nucleus | inferred fr
4//biological process| S phase of mitotic cell cycle | inferred from genetic interaction |GO:0000084//biological process| regulation of cyclin dependent prote
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
rocess| mitotic sister chromatid segregation | traceable author statement |GO:0000070//biological process| mitotic spindle elongation | traceable author sta
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
062//biological process| DNA topological change | inferred from mutant phenotype |GO:0006265//biological process| DNA topological change | inferred from
inferred from mutant phenotype |GO:0006665//biological process| protein amino acid phosphorylation | inferred from sequence similarity |GO:0006468//b
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
GO:0000749//biological process| poly(A) tail shortening | inferred from direct assay |GO:0000289//biological process| mRNA catabolism, deadenylation-de
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
physical interaction|GO:0030847//biological process| transcription termination from Pol II promoter, poly(A) coupled | inferred from physical interaction |GO
ol II promoter | traceable author statement |GO:0006366//biological process| transcription from Pol I promoter | traceable author statement |GO:0006360
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
3887//molecular function| mRNA binding | inferred from physical interaction |GO:0003729//molecular function| RNA binding | inferred from sequence simila
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
n import | traceable author statement|GO:0045041//biological process| proteolysis and peptidolysis | inferred from mutant phenotype |GO:0006508//biolog
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
GO:0000749//biological process| poly(A) tail shortening | inferred from direct assay |GO:0000289//biological process| mRNA catabolism, deadenylation-dep
03//biological process| response to metal ion | inferred from mutant phenotype |GO:0010038
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
GO:0000750//biological process| signal transduction during conjugation with cellular fusion | inferred from genetic interaction |GO:0000750
e |GO:0006886//biological process| regulation of pH | inferred from mutant phenotype |GO:0006885
uthor statement |GO:0006807//biological process| negative regulation of transcription from Pol II promoter | inferred from sequence similarity |GO:0000122
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
biological process| protein-peroxisome targeting | traceable author statement |GO:0006625
nthase (glutamine-hydrolyzing) activity | inferred from direct assay |GO:0003952//cellular component| cytoplasm | inferred from direct assay|GO:0005737/
actin cortical patch assembly | inferred from sequence similarity |GO:0000147
737//cellular component| incipient bud site | inferred from direct assay |GO:0000131//biological process| translational initiation | traceable author statemen
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
t |GO:0007117//biological process| mitotic spindle checkpoint | inferred from mutant phenotype |GO:0007094//biological process| actin filament organizatio
ological process| transcription initiation from Pol II promoter | traceable author statement |GO:0006367//biological process| establishment and/or maintena
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
promoter | inferred from physical interaction|GO:0006368//biological process| regulation of transcription, DNA-dependent | inferred from physical interaction
ment of GPI anchor to protein | inferred from mutant phenotype |GO:0016255
rocess| mitotic sister chromatid segregation | traceable author statement |GO:0000070//biological process| mitotic spindle elongation | traceable author sta
biological process| snRNP protein-nucleus import | traceable author statement |GO:0006608//biological process| NLS-bearing substrate-nucleus import | tr
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ol II promoter | traceable author statement |GO:0006366//biological process| transcription from Pol I promoter | traceable author statement |GO:0006360
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
olecular function| specific RNA polymerase II transcription factor activity | inferred from direct assay |GO:0003704//cellular component| nucleus | inferred fr
iological process| protein biosynthesis | inferred from direct assay |GO:0006412
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
inheritance | inferred from mutant phenotype |GO:0000011
lism | inferred from genetic interaction |GO:0006598//biological process| aldehyde metabolism | inferred from sequence similarity |GO:0006081
GO:0006109//biological process| regulation of carbohydrate metabolism | inferred from physical interaction |GO:0006109//biological process| regulation of
s| DNA recombination | inferred from mutant phenotype |GO:0006310//biological process| bud site selection | inferred from mutant phenotype |GO:000028
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
inner membrane protein import | inferred from mutant phenotype |GO:0045039
biological process| mitotic sister chromatid segregation | inferred from mutant phenotype |GO:0000070
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
2//biological process| chromatin silencing | inferred from genetic interaction |GO:0006342
al process| nucleotide-excision repair | traceable author statement |GO:0006289//biological process| nucleotide-excision repair, DNA duplex unwinding | tra
nteraction |GO:0006873//biological process| G1/S transition of mitotic cell cycle | inferred from genetic interaction |GO:0000082
biological process| positive regulation of transcription from Pol II promoter | inferred from mutant phenotype |GO:0045944//biological process| positive regu
Pol II promoter | inferred from mutant phenotype |GO:0006357
ssay |GO:0006810
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ferred from mutant phenotype |GO:0000754
gical process| signal peptide processing | inferred from direct assay |GO:0006465
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
O:0009306//biological process| actin filament organization | traceable author statement |GO:0007015//biological process| endocytosis | traceable author sta
nding (hnRNP) protein-nucleus import | traceable author statement |GO:0006609//biological process| snRNP protein-nucleus import | traceable author stat
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
n | inferred from mutant phenotype |GO:0000335
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ent of cell polarity (sensu Saccharomyces) | inferred from physical interaction |GO:0000283//biological process| establishment of cell polarity (sensu Sacch
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ss| DNA topological change | inferred from direct assay |GO:0006265//biological process| regulation of mitotic recombination | inferred from mutant pheno
s | inferred from direct assay |GO:0009398
hment of cell polarity (sensu Saccharomyces) | inferred from physical interaction |GO:0000283//biological process| establishment of cell polarity (sensu Sa
RNA cleavage | inferred from direct assay |GO:0006379//biological process| mRNA polyadenylation | traceable author statement |GO:0006378//biological p
olecular function| specific RNA polymerase II transcription factor activity | inferred from direct assay |GO:0003704//cellular component| nucleus | inferred fr
regulation of cell redox homeostasis | inferred from direct assay |GO:0030503
609//biological process| snRNP protein-nucleus import | traceable author statement |GO:0006608//biological process| NLS-bearing substrate-nucleus impo
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ar targeting | inferred from expression pattern |GO:0006623
7049//biological process| cell cycle | inferred from genetic interaction |GO:0007049//biological process| phosphate metabolism | traceable author statemen
3887//molecular function| mRNA binding | inferred from physical interaction |GO:0003729//molecular function| RNA binding | inferred from sequence simila
s| protein monoubiquitination | inferred from mutant phenotype |GO:0006513//biological process| chromatin silencing at telomere | inferred from mutant phe
ocess| osmosensory signaling pathway via two-component system | inferred from direct assay |GO:0007234//biological process| protein amino acid phosp
g | inferred from physical interaction |GO:0006338//biological process| chromatin remodeling | inferred from direct assay |GO:0006338
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ess| actin filament organization | inferred from mutant phenotype |GO:0007015//biological process| endocytosis | inferred from mutant phenotype |GO:000
O:0006270//biological process| DNA unwinding | traceable author statement |GO:0006268//biological process| pre-replicative complex formation and main
olecular function| specific RNA polymerase II transcription factor activity | inferred from direct assay |GO:0003704//cellular component| nucleus | inferred fr
G2/M transition of mitotic cell cycle | inferred from genetic interaction |GO:0000086//biological process| G1/S transition of mitotic cell cycle | inferred from m
pression pattern |GO:0009060//biological process| protein biosynthesis | inferred from curator |GO:0006412
oxidative stress | inferred from mutant phenotype|GO:0006979//biological process| response to oxidative stress | inferred from genetic interaction |GO:0006
ferred from mutant phenotype|GO:0006627
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
0009408//biological process| Rho protein signal transduction | inferred from sequence similarity |GO:0007266//biological process| Rho protein signal trans
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
d from genetic interaction |GO:0006366//biological process| nucleotide-excision repair | inferred from mutant phenotype |GO:0006289
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
sposition | inferred from mutant phenotype |GO:0006322//biological process| Ty1 element transposition | inferred from mutant phenotype |GO:0006320
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
gation with cellular fusion | inferred from mutant phenotype |GO:0000753//biological process| cellular morphogenesis during conjugation with cellular fusion
|GO:0006970//biological process| response to osmotic stress | inferred from genetic interaction |GO:0006970
cleavage | inferred from direct assay |GO:0006379//biological process| mRNA polyadenylation | traceable author statement |GO:0006378//biological proc
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
al transduction | inferred from mutant phenotype |GO:0007165//biological process| cell wall organization and biogenesis | traceable author statement |GO:0
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
GO:0006366//biological process| transcription from Pol II promoter | inferred from direct assay |GO:0006366//biological process| histidine biosynthesis | infe
arity |GO:0006468//biological process| protein amino acid phosphorylation | inferred from genetic interaction |GO:0006468
ess| postreplication repair | traceable author statement |GO:0006301//biological process| nucleotide-excision repair | traceable author statement |GO:0006
ranscription from Pol II promoter | inferred from physical interaction |GO:0006357//biological process| regulation of transcription from Pol II promoter | infer
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
nt phenotype |GO:0007109
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ositive regulation of transcription from Pol II promoter | inferred from mutant phenotype |GO:0045944//biological process| positive regulation of transcription
rred from genetic interaction |GO:0016973//biological process| telomere maintenance | inferred from mutant phenotype |GO:0000723//biological process| t
ytosis | inferred from mutant phenotype |GO:0006897
ype |GO:0000070
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
hor statement |GO:0000122
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
type |GO:0006298//biological process| removal of nonhomologous ends | traceable author statement |GO:0000735
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
m | inferred from genetic interaction |GO:0006598
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
hysical interaction|GO:0045039//biological process| mitochondrial inner membrane protein import | inferred from mutant phenotype |GO:0045039
m Pol II promoter | inferred from mutant phenotype |GO:0006357
al process| nucleotide-excision repair | traceable author statement |GO:0006289//biological process| nucleotide-excision repair, DNA duplex unwinding | tra
007047//biological process| actin filament organization | traceable author statement |GO:0007015//biological process| establishment of cell polarity (sensu
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
aintenance | inferred from physical interaction |GO:0000027//biological process| ribosomal large subunit assembly and maintenance | inferred from mutan
gical process| cell cycle | inferred from mutant phenotype |GO:0007049//biological process| apoptosis | traceable author statement |GO:0006915//biologic
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
s| establishment of cell polarity (sensu Saccharomyces) | inferred from mutant phenotype |GO:0000283
m mutant phenotype |GO:0006879//biological process| iron ion homeostasis | inferred from direct assay |GO:0006879
superoxide metabolism | inferred from mutant phenotype |GO:0006801
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ed from physical interaction |GO:0006261//biological process| DNA-dependent DNA replication | inferred from mutant phenotype |GO:0006261//biological p
nent| nucleus | inferred from physical interaction |GO:0005634//cellular component| nucleus | inferred from genetic interaction |GO:0005634//biological pro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
on initiation from Pol II promoter | traceable author statement |GO:0006367//biological process| nucleotide-excision repair, DNA duplex unwinding | tracea
4//biological process| M phase of mitotic cell cycle | traceable author statement |GO:0000087
phorylation | inferred from mutant phenotype |GO:0006468
m physical interaction |GO:0006612//biological process| protein-membrane targeting | inferred from mutant phenotype |GO:0006612
milarity |GO:0009408//biological process| Rho protein signal transduction | inferred from sequence similarity |GO:0007266//biological process| cell wall orga
from mutant phenotype |GO:0000022
006359//biological process| regulation of transcription from Pol I promoter | inferred from direct assay |GO:0006356//biological process| flocculation (sensu
e |GO:0006816
egulation of cell redox homeostasis | inferred from mutant phenotype |GO:0030503//biological process| regulation of cell redox homeostasis | inferred from
nt |GO:0007121//biological process| axial budding | traceable author statement |GO:0007120//biological process| bud site selection | traceable author state
e author statement |GO:0006511
nteraction |GO:0000079
609//biological process| snRNP protein-nucleus import | traceable author statement |GO:0006608//biological process| NLS-bearing substrate-nucleus impo
aceable author statement |GO:0006365//biological process| rRNA modification | traceable author statement |GO:0000154
ic cell cycle | traceable author statement |GO:0000084//biological process| G1/S transition of mitotic cell cycle | traceable author statement |GO:0000082//
nferred from physical interaction |GO:0030846//biological process| histone methylation | inferred from direct assay |GO:0016571
proton-transporting ATP synthase, central stalk (sensu Eukarya) | inferred from physical interaction |GO:0005756//cellular component| proton-transporting
raction |GO:0006609//biological process| mRNA-binding (hnRNP) protein-nucleus import | inferred from mutant phenotype |GO:0006609//biological proces
g at silent mating-type cassette (sensu Fungi) | inferred from mutant phenotype|GO:0030466//biological process| negative regulation of DNA replication | in
nferred from physical interaction |GO:0005737//biological process| translational initiation | inferred from mutant phenotype|GO:0006413//biological process
ellular component| nucleus | inferred from direct assay|GO:0005634//cellular component| retrotransposon nucleocapsid | inferred from sequence similarity |
assembly (sensu Fungi) | inferred from physical interaction|GO:0030472//biological process| microtubule nucleation | inferred from physical interaction |GO
eable author statement|GO:0007264//biological process| pseudohyphal growth | inferred from physical interaction |GO:0007124//biological process| isotrop
nt|GO:0006511
ent |GO:0000214//biological process| tRNA splicing | traceable author statement|GO:0006388
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
O:0006808//biological process| regulation of nitrogen utilization | inferred from genetic interaction |GO:0006808
0042145//biological process| protein transport | inferred from mutant phenotype |GO:0015031//biological process| vacuole organization and biogenesis | inf
l process| mitochondrial matrix protein import | inferred from mutant phenotype |GO:0030150
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
cycle checkpoint | inferred from mutant phenotype |GO:0000075
otype |GO:0006817//biological process| phosphate transport | inferred from genetic interaction |GO:0006817
006350//biological process| transcription | inferred from mutant phenotype |GO:0006350//biological process| transcription | inferred from direct assay |GO:0
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
0006508//biological process| invasive growth (sensu Saccharomyces) | inferred from mutant phenotype |GO:0001403
y |GO:0009062//biological process| fatty acid catabolism | inferred from direct assay |GO:0009062
author statement |GO:0000735
45//biological process| vesicle docking during exocytosis | inferred from mutant phenotype |GO:0006904//biological process| Golgi to endosome transport
nt |GO:0007121//biological process| axial budding | traceable author statement |GO:0007120//biological process| bud site selection | traceable author state
tatement |GO:0006906//biological process| vesicle docking during exocytosis | traceable author statement |GO:0006904//biological process| Golgi to plasm
ganization | inferred from physical interaction|GO:0007015
biological process| snRNP protein-nucleus import | traceable author statement |GO:0006608//biological process| NLS-bearing substrate-nucleus import | tr
al process| protein desumoylation | inferred from mutant phenotype |GO:0016926//biological process| protein desumoylation | inferred from direct assay |G
0000276//biological process| ATP synthesis coupled proton transport | inferred from physical interaction|GO:0015986//biological process| ATP synthesis c
ication repair | inferred from genetic interaction |GO:0006301
irect assay |GO:0045449//biological process| sulfur amino acid metabolism | inferred from direct assay |GO:0000096
acuolar targeting | inferred from mutant phenotype |GO:0006623
cal process| DNA repair | inferred from mutant phenotype |GO:0006281
t phenotype|GO:0000398
ological process| transcription initiation from Pol II promoter | traceable author statement |GO:0006367//biological process| establishment and/or maintena
0747//biological process| poly(A) tail shortening | inferred from direct assay |GO:0000289
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ng factor F(o) (sensu Eukarya) | inferred from mutant phenotype |GO:0000276//biological process| ATP synthesis coupled proton transport | inferred from
ent |GO:0000214//biological process| tRNA splicing | traceable author statement|GO:0006388
RNA cleavage | inferred from direct assay |GO:0006379//biological process| mRNA polyadenylation | traceable author statement |GO:0006378//biological p
ess| vesicle docking during exocytosis | traceable author statement |GO:0006904//biological process| Golgi to plasma membrane transport | traceable auth
gical process| telomerase-dependent telomere maintenance | traceable author statement|GO:0007004
s | inferred from sequence similarity|GO:0015937//biological process| response to salt stress | inferred from mutant phenotype |GO:0009651//biological pro
inferred from physical interaction |GO:0006457//biological process| protein folding | inferred from mutant phenotype |GO:0006457
author statement |GO:0005669//biological process| transcription initiation from Pol II promoter | traceable author statement|GO:0006367//biological proces
m direct assay |GO:0006342//biological process| chromatin assembly/disassembly | inferred from direct assay |GO:0006333//biological process| double-st
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ype |GO:0000165//biological process| MAPKKK cascade | inferred from direct assay |GO:0000165
l process| isoprenoid biosynthesis | inferred from direct assay |GO:0008299//biological process| ergosterol biosynthesis | traceable author statement |GO:
ogical process| Golgi to plasma membrane transport | traceable author statement |GO:0006893//biological process| cytokinesis | inferred from mutant phe
om direct assay |GO:0006272
mutant phenotype |GO:0007033
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
47//biological process| protein amino acid phosphorylation | inferred from sequence similarity |GO:0006468
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
hor statement |GO:0006099
rocess| histidine biosynthesis | traceable author statement |GO:0000105
|GO:0007266//biological process| pseudohyphal growth | inferred from mutant phenotype |GO:0007124//biological process| polar budding | traceable auth
type |GO:0000731
nt phenotype |GO:0006457
cal process| bud site selection | inferred from mutant phenotype |GO:0000282
:0007031//biological process| protein-peroxisome targeting | inferred from physical interaction |GO:0006625
one deacetylase complex | inferred from physical interaction |GO:0000118//biological process| negative regulation of meiosis | inferred from mutant phenot
enance | traceable author statement |GO:0006267
ch assembly | traceable author statement |GO:0000147
GO:0000086//biological process| G1/S transition of mitotic cell cycle | inferred from mutant phenotype |GO:0000082//biological process| G1/S transition of
erred from mutant phenotype |GO:0006511
transposition | inferred from mutant phenotype |GO:0000335
ion | inferred from mutant phenotype |GO:0000709
ng factor F(o) (sensu Eukarya) | inferred from mutant phenotype |GO:0000276//biological process| ATP synthesis coupled proton transport | inferred from
006359//biological process| regulation of transcription from Pol I promoter | inferred from direct assay |GO:0006356//biological process| flocculation (sens
468//biological process| protein amino acid phosphorylation | inferred from mutant phenotype |GO:0006468
type |GO:0000731
ling | inferred from mutant phenotype |GO:0019722//biological process| calcium-mediated signaling | inferred from genetic interaction |GO:0019722//biolog
O:0006402//biological process| deadenylation-dependent decapping | inferred from mutant phenotype |GO:0000290//biological process| deadenylation-dep
ription from Pol II promoter | inferred from mutant phenotype |GO:0006357//biological process| chromatin remodeling | inferred from physical interaction |G
ss| lagging strand elongation | inferred from genetic interaction |GO:0006273//biological process| DNA-dependent DNA replication | inferred from mutant p
say |GO:0006914//biological process| protein-vacuolar targeting | inferred from mutant phenotype |GO:0006623//biological process| autophagic vacuole fu
th | inferred from mutant phenotype |GO:0007124//biological process| replicative cell aging | inferred from mutant phenotype |GO:0001302
ay|GO:0006116//biological process| carbohydrate metabolism | inferred from mutant phenotype |GO:0005975
process| signal transduction during conjugation with cellular fusion | inferred from mutant phenotype |GO:0000750
O:0006270//biological process| DNA unwinding | traceable author statement |GO:0006268//biological process| pre-replicative complex formation and main
mitochondrial inner membrane protein import | inferred from genetic interaction |GO:0045039
mutant phenotype |GO:0000027
biological process| DNA replication initiation | traceable author statement|GO:0006270//biological process| DNA unwinding | traceable author statement |G
negative regulation of meiosis | inferred from mutant phenotype|GO:0045835//biological process| histone deacetylation | inferred from physical interaction
f transcription from Pol II promoter | inferred from mutant phenotype|GO:0006357
ort | inferred from physical interaction |GO:0006855//biological process| multidrug transport | inferred from mutant phenotype |GO:0006855//biological proc
pe |GO:0006623
ogical process| mitotic spindle checkpoint | inferred from mutant phenotype |GO:0007094//biological process| glycogen metabolism | inferred from physica
|GO:0000274//biological process| ATP synthesis coupled proton transport | inferred from sequence similarity|GO:0015986//biological process| ATP synthe
O:0006457//biological process| protein folding | inferred from mutant phenotype |GO:0006457
denylation | traceable author statement |GO:0006378//biological process| mRNA polyadenylation | inferred from direct assay |GO:0006378
stablishment of cell polarity (sensu Saccharomyces) | inferred from physical interaction |GO:0000283//biological process| establishment of cell polarity (sen
transcription initiation from Pol II promoter | traceable author statement |GO:0006367
s| filamentous growth | inferred from mutant phenotype|GO:0030447//biological process| mRNA catabolism | traceable author statement |GO:0006402//bio
author statement |GO:0009228
007047//biological process| cellular morphogenesis | traceable author statement |GO:0000902//biological process| cellular morphogenesis during conjuga
acuolar targeting | inferred from mutant phenotype |GO:0006623
cal process| exocytosis | inferred from mutant phenotype |GO:0006887
elongation | traceable author statement |GO:0006272
ess| intracellular protein transport | inferred from genetic interaction |GO:0006886
//biological process| chromatin silencing at telomere | inferred from mutant phenotype |GO:0006348//biological process| chromatin silencing at ribosomal D
gamy during conjugation with cellular fusion | inferred from genetic interaction |GO:0000742
0007033//biological process| Golgi to endosome transport | inferred from genetic interaction |GO:0006895//biological process| protein-vacuolar targeting |
rom direct assay |GO:0006476//biological process| regulation of transcription, DNA-dependent | traceable author statement |GO:0006355//biological proce
tion of mitotic cell cycle | inferred from mutant phenotype |GO:0000086
rred from mutant phenotype |GO:0006367
enotype|GO:0046020//biological process| chromatin silencing at telomere | inferred from mutant phenotype |GO:0006348//biological process| chromatin re
biological process| snRNP protein-nucleus import | traceable author statement |GO:0006608//biological process| NLS-bearing substrate-nucleus import | tr
catabolism | traceable author statement|GO:0006511//biological process| G1/S transition of mitotic cell cycle | traceable author statement |GO:0000082
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
m Pol II promoter | inferred from mutant phenotype |GO:0006357
| inferred from direct assay |GO:0006308
nesis | inferred from sequence similarity |GO:0000902//biological process| cellular morphogenesis | inferred from physical interaction |GO:0000902//biologi
netic interaction |GO:0006355
ed from direct assay|GO:0006616//biological process| protein folding | inferred from direct assay |GO:0006457//biological process| protein-nucleus import,
cal process| leading strand elongation | inferred from direct assay |GO:0006272
arity |GO:0006468//biological process| protein amino acid phosphorylation | inferred from genetic interaction |GO:0006468
iological process| DNA damage response, signal transduction resulting in cell cycle arrest | inferred from physical interaction |GO:0000077//biological proc
process| microtubule cytoskeleton organization and biogenesis | inferred from genetic interaction |GO:0000226
0000276//biological process| ATP synthesis coupled proton transport | inferred from physical interaction|GO:0015986//biological process| ATP synthesis c
609//biological process| snRNP protein-nucleus import | traceable author statement |GO:0006608//biological process| NLS-bearing substrate-nucleus impo
phenotype |GO:0006348
|GO:0005977
ss| base-excision repair | inferred from direct assay |GO:0006284
s| signal transduction during conjugation with cellular fusion | inferred from physical interaction |GO:0000750//biological process| signal transduction during
traceable author statement |GO:0007165
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ng, via spliceosome | inferred from direct assay |GO:0000398
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ogical process| regulation of cell redox homeostasis | inferred from mutant phenotype|GO:0030503//biological process| regulation of cell redox homeostas
conjugation with cellular fusion | inferred from mutant phenotype |GO:0000742
ed from mutant phenotype |GO:0006366
hor statement |GO:0007091//biological process| ubiquitin-dependent protein catabolism | traceable author statement |GO:0006511//biological process| mit
tant phenotype|GO:0008654//biological process| phospholipid biosynthesis | inferred from genetic interaction |GO:0008654//biological process| phospholip
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ss| protein desumoylation | inferred from mutant phenotype|GO:0016926//biological process| protein desumoylation | inferred from direct assay |GO:00169
enotype |GO:0000077
005788//biological process| protein transport | inferred from mutant phenotype|GO:0015031//biological process| protein transport | inferred from genetic int
iological process| nuclear organization and biogenesis | inferred from genetic interaction |GO:0006997
sion pattern |GO:0007126//biological process| transcription | traceable author statement |GO:0006350//biological process| transcription | inferred from phy
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
om physical interaction|GO:0000398
hosphatidylserine catabolism | inferred from mutant phenotype |GO:0006660//biological process| phosphatidylserine catabolism | inferred from direct assa
eraction |GO:0000283
e-strand break repair via nonhomologous end-joining | inferred from mutant phenotype |GO:0006303//biological process| double-strand break repair via br
GO:0030847//biological process| transcription termination from Pol II promoter, poly(A)-independent | inferred from mutant phenotype |GO:0030847//biolog
tic sister chromatid segregation | inferred from mutant phenotype |GO:0000070
assembly | inferred from genetic interaction |GO:0006461//biological process| regulation of cell cycle | traceable author statement |GO:0000074//biological
osphorylation | inferred from direct assay |GO:0006470
ological process| vesicle docking during exocytosis | inferred from direct assay |GO:0006904
om genetic interaction |GO:0045944//biological process| response to stress | inferred from genetic interaction |GO:0006950
notype |GO:0006629//biological process| lipid metabolism | inferred from direct assay |GO:0006629
al process| nucleotide-excision repair | traceable author statement |GO:0006289//biological process| nucleotide-excision repair, DNA duplex unwinding | tra
ed from genetic interaction |GO:0007047//biological process| cellular morphogenesis during conjugation | inferred from mutant phenotype |GO:0000767//b
author statement |GO:0000077//biological process| DNA replication checkpoint | inferred from mutant phenotype |GO:0000076
ed from direct assay|GO:0006616//biological process| protein folding | inferred from direct assay |GO:0006457//biological process| protein-nucleus import,
m genetic interaction |GO:0006508
d from physical interaction |GO:0006406//biological process| mRNA-nucleus export | inferred from mutant phenotype |GO:0006406//biological process| mR
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
/biological process| pseudohyphal growth | traceable author statement |GO:0007124//biological process| polar budding | traceable author statement |GO:0
biological process| apical bud growth | inferred from sequence similarity |GO:0007118//biological process| actin filament organization | inferred from sequen
ondensin complex | inferred from physical interaction |GO:0000799//biological process| mitotic chromosome condensation | traceable author statement|GO
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ar component| vacuole (sensu Fungi) | inferred from direct assay|GO:0000324//biological process| cation homeostasis | inferred from mutant phenotype|G
y | inferred from direct assay |GO:0006333//biological process| double-strand break repair via nonhomologous end-joining | inferred from direct assay |GO:
ay|GO:0005739//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| base-excision repair, AP site formation | inferre
pe |GO:0001402//biological process| signal transduction during conjugation with cellular fusion | inferred from physical interaction |GO:0000750//biologica
al process| cytogamy | inferred from physical interaction |GO:0000755//biological process| cytogamy | inferred from mutant phenotype |GO:0000755//biolo
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ss| protein monoubiquitination | traceable author statement |GO:0006513//biological process| protein polyubiquitination | traceable author statement |GO:0
nt|GO:0006511
t |GO:0007059//biological process| DNA repair | inferred from mutant phenotype |GO:0006281//biological process| nuclear division | traceable author state
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
process| cadmium ion transport | inferred from direct assay |GO:0015691
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ble author statement |GO:0006338
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
type |GO:0006260//biological process| regulation of cell cycle | inferred from mutant phenotype |GO:0000074//biological process| regulation of cell cycle | i
nt phenotype |GO:0000921//biological process| septin ring assembly | inferred from genetic interaction |GO:0000921//biological process| septin checkpoin
action |GO:0007047//biological process| actin filament organization | traceable author statement |GO:0007015//biological process| establishment of cell po
establishment of cell polarity (sensu Saccharomyces) | inferred from mutant phenotype |GO:0000283
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
cal process| regulation of cell redox homeostasis | inferred from direct assay |GO:0030503
uring conjugation with cellular fusion | inferred from direct assay |GO:0000750
break-induced replication | traceable author statement |GO:0000727
bolism | inferred from sequence similarity |GO:0006081
e | inferred from mutant phenotype |GO:0000001
rocess| mitotic sister chromatid segregation | traceable author statement |GO:0000070//biological process| mitotic spindle elongation | traceable author sta
0000276//biological process| ATP synthesis coupled proton transport | inferred from physical interaction|GO:0015986//biological process| ATP synthesis c
e transport | inferred from mutant phenotype |GO:0006896
itiation | traceable author statement |GO:0006270//biological process| DNA unwinding | traceable author statement |GO:0006268//biological process| pre-r
pression pattern |GO:0009060//biological process| protein biosynthesis | inferred from curator |GO:0006412
aceable author statement |GO:0006365//biological process| rRNA modification | traceable author statement |GO:0000154
gnal transduction resulting in cell cycle arrest | inferred from mutant phenotype |GO:0000077//biological process| regulation of cell cycle | inferred from mu
erred from sequence similarity|GO:0045016//biological process| mitochondrial magnesium ion transport | inferred from mutant phenotype |GO:0045016//b
rase-dependent telomere maintenance | traceable author statement|GO:0007004
rocess| chromatin assembly/disassembly | inferred from mutant phenotype |GO:0006333//biological process| mitotic sister chromatid segregation | traceab
ble author statement |GO:0000209
ological process| transcription initiation from Pol II promoter | traceable author statement |GO:0006367//biological process| establishment and/or maintena
d from mutant phenotype|GO:0006348//biological process| lagging strand elongation | inferred from physical interaction |GO:0006273//biological process| l
|GO:0006310//biological process| chromatin silencing at ribosomal DNA | inferred from direct assay |GO:0000183
609//biological process| snRNP protein-nucleus import | traceable author statement |GO:0006608//biological process| NLS-bearing substrate-nucleus impo
/biological process| response to DNA damage stimulus | inferred from genetic interaction|GO:0006974//biological process| transcription initiation | traceab
ed from genetic interaction |GO:0006891
ion | inferred from mutant phenotype |GO:0000709
erred from genetic interaction |GO:0019988
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
RNA elongation from Pol II promoter | inferred from mutant phenotype |GO:0006368//biological process| regulation of transcription from Pol II promoter | inf
GO:0005758//biological process| mitochondrial inner membrane protein import | inferred from sequence similarity|GO:0045039//biological process| mitoch
-Golgi transport | inferred from mutant phenotype |GO:0006892//biological process| post-Golgi transport | inferred from genetic interaction |GO:0006892//b
nt| endoplasmic reticulum | inferred from direct assay |GO:0005783//biological process| heme catabolism | inferred from mutant phenotype|GO:0042167//b
ceable author statement |GO:0006280//biological process| lagging strand elongation | traceable author statement |GO:0006273//biological process| leadin
enotype |GO:0000398
assay|GO:0000398
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
ical process| intracellular protein transport | inferred from genetic interaction |GO:0006886
6412//biological process| protein biosynthesis | inferred from mutant phenotype |GO:0006412
e kinetochore | inferred from physical interaction |GO:0000778//biological process| mitotic spindle assembly (sensu Fungi) | inferred from physical interacti
ing strand elongation | traceable author statement |GO:0006273//biological process| leading strand elongation | traceable author statement |GO:0006272
assay |GO:0000002
rom mutant phenotype |GO:0000045
ment |GO:0000727
ed from direct assay |GO:0030491//biological process| chromatin remodeling | inferred from direct assay |GO:0006338//biological process| telomerase-inde
negative regulation of meiosis | inferred from physical interaction|GO:0045835//biological process| histone deacetylation | inferred from physical interactio
lular fusion | inferred from mutant phenotype |GO:0000747
ess| protein complex assembly | inferred from mutant phenotype |GO:0006461//biological process| protein complex assembly | inferred from direct assay |G
tiation | traceable author statement |GO:0006270
mutant phenotype |GO:0000910
276//biological process| DNA-dependent DNA replication | inferred from mutant phenotype |GO:0006261//biological process| DNA-dependent DNA replicat
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
from direct assay |GO:0005634//biological process| processing of 27S pre-rRNA | inferred from mutant phenotype|GO:0030489
ed from mutant phenotype |GO:0006366
erred from sequence similarity|GO:0006413//biological process| translational initiation | inferred from mutant phenotype |GO:0006413
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
1//biological process| regulation of transcription, DNA-dependent | inferred from mutant phenotype |GO:0006355//biological process| chromatin silencing a
ological process| signal transduction | traceable author statement |GO:0007165//biological process| ribosome biogenesis | inferred from mutant phenotype
biological process| protein biosynthesis | inferred from physical interaction |GO:0006412//biological process| G1/S transition of mitotic cell cycle | inferred fr
ological process| protein biosynthesis | inferred from direct assay |GO:0006412//biological process| ribosomal small subunit assembly and maintenance | i
idation | inferred from direct assay |GO:0006116
rocess| mitotic sister chromatid segregation | traceable author statement |GO:0000070//biological process| mitotic spindle elongation | traceable author sta
GO:0009269//biological process| cell adhesion | inferred from direct assay |GO:0007155//biological process| response to oxidative stress | traceable autho
of cyclin dependent protein kinase activity | inferred from mutant phenotype |GO:0000079//biological process| regulation of cyclin dependent protein kinase
enotype|GO:0009071//biological process| threonine catabolism | inferred from mutant phenotype |GO:0006567
ct assay |GO:0001405//biological process| mitochondrial matrix protein import | inferred from physical interaction|GO:0030150//biological process| mitocho
ess| protein biosynthesis | inferred from sequence similarity |GO:0006412//biological process| protein biosynthesis | inferred from mutant phenotype |GO:0
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
n | inferred from mutant phenotype |GO:0006464
ansport | inferred from mutant phenotype |GO:0045016//biological process| mitochondrial magnesium ion transport | inferred from genetic interaction |GO:0
gical process| mRNA polyadenylation | inferred from mutant phenotype |GO:0006378//biological process| mRNA polyadenylation | inferred from genetic in
h | inferred from direct assay |GO:0007124//biological process| invasive growth (sensu Saccharomyces) | inferred from direct assay |GO:0001403//biologic
similarity |GO:0000274//cellular component| proton-transporting ATP synthase, stator stalk (sensu Eukarya) | inferred from mutant phenotype |GO:000027
author statement |GO:0000735
membrane protein import | inferred from mutant phenotype |GO:0045039
tress | inferred from expression pattern |GO:0006979//biological process| glutamate catabolism | inferred from sequence similarity |GO:0006538//biologica
1//biological process| transcription | inferred from sequence similarity |GO:0006350//biological process| chromatin silencing at telomere | inferred from mut
traceable author statement|GO:0006390
xpression pattern |GO:0009060//biological process| protein biosynthesis | inferred from curator |GO:0006412
m mutant phenotype |GO:0019566//biological process| arabinose metabolism | inferred from direct assay |GO:0019566
n from Pol II promoter | traceable author statement |GO:0006367//biological process| G1-specific transcription in mitotic cell cycle | inferred from mutant ph
nt| incipient bud site | inferred from direct assay |GO:0000131//biological process| donor preference | traceable author statement|GO:0007535//biological p
on pattern |GO:0009651
ption from Pol II promoter | inferred from physical interaction |GO:0006357//biological process| regulation of transcription from Pol II promoter | inferred fro
rocess| mitotic sister chromatid segregation | traceable author statement |GO:0000070//biological process| mitotic spindle elongation | traceable author sta
42//biological process| chromatin silencing | inferred from genetic interaction |GO:0006342
process| response to osmotic stress | inferred from mutant phenotype |GO:0006970
n | inferred from mutant phenotype|GO:0009060//biological process| aerobic respiration | inferred from expression pattern |GO:0009060//biological process
ellular component| retrotransposon nucleocapsid | inferred from sequence similarity|GO:0000943//biological process| Ty element transposition | inferred fro
r statement |GO:0006457
logical process| cytochrome c oxidase biogenesis | inferred from mutant phenotype |GO:0008535
ucine catabolism | inferred from mutant phenotype |GO:0006552
nscription from Pol II promoter | inferred from expression pattern |GO:0000122
| Ty element transposition | inferred from sequence similarity|GO:0006319
phenotype |GO:0006487
esis | traceable author statement |GO:0000097
| Ty element transposition | inferred from sequence similarity|GO:0006319
d metabolism | inferred from direct assay |GO:0006650
traceable author statement |GO:0000283
dent | inferred from physical interaction |GO:0006355//biological process| regulation of transcription, DNA-dependent | inferred from mutant phenotype |GO
ion with cellular fusion | traceable author statement |GO:0000743//biological process| mitotic sister chromatid segregation | traceable author statement |GO
uence similarity |GO:0006357//biological process| regulation of transcription from Pol II promoter | inferred from genetic interaction |GO:0006357//biologica
ocess| mRNA catabolism, deadenylation-dependent | inferred from mutant phenotype |GO:0000288//biological process| mRNA catabolism, deadenylation-
process| transcription initiation from Pol II promoter | inferred from direct assay |GO:0006367
sion repair, DNA duplex unwinding | traceable author statement |GO:0000717
genetic interaction |GO:0001402
protein complex assembly | inferred from mutant phenotype |GO:0006461
s | inferred from mutant phenotype |GO:0006633
00086//biological process| G2/M transition of mitotic cell cycle | inferred from mutant phenotype |GO:0000086//biological process| G2/M transition of mitotic
iological process| regulation of cyclin dependent protein kinase activity | traceable author statement |GO:0000079
cal process| chromosome segregation | inferred from genetic interaction |GO:0007059//biological process| microtubule nucleation | inferred from physical i
al process| Rho protein signal transduction | inferred from genetic interaction |GO:0007266//biological process| cell wall organization and biogenesis | infer
asis | inferred from mutant phenotype |GO:0006878//biological process| protein-vacuolar targeting | inferred from mutant phenotype |GO:0006623
ylation | inferred from genetic interaction |GO:0030488
sical interaction|GO:0030847//biological process| transcription termination from Pol II promoter, poly(A) coupled | inferred from physical interaction |GO:003
process| nuclear mRNA splicing, via spliceosome | inferred from physical interaction |GO:0000398
migration (sensu Saccharomyces) | traceable author statement |GO:0000065//biological process| mitotic spindle elongation | traceable author statement |G
phenotype |GO:0006369//biological process| negative regulation of transcription from Pol II promoter | inferred from genetic interaction |GO:0000122
GO:0007034
uence similarity |GO:0006357//biological process| regulation of transcription from Pol II promoter | inferred from genetic interaction |GO:0006357//biologica
logical process| negative regulation of transcription | inferred from direct assay |GO:0016481
ellular component| nucleus | inferred from direct assay|GO:0005634//cellular component| retrotransposon nucleocapsid | inferred from sequence similarity
otype |GO:0000079
omatin silencing at silent mating-type cassette (sensu Fungi) | inferred from genetic interaction |GO:0030466//biological process| regulation of transcription
genetic interaction |GO:0006350
enotype |GO:0000086//biological process| G2/M transition of mitotic cell cycle | inferred from direct assay |GO:0000086//biological process| regulation of cy
signal transduction | inferred from sequence similarity |GO:0007266//biological process| Rho protein signal transduction | inferred from genetic interaction |
ss| actin polymerization and/or depolymerization | inferred from mutant phenotype |GO:0008154//biological process| actin polymerization and/or depolymer
nsport | inferred from mutant phenotype |GO:0006857
notype |GO:0000038//biological process| very-long-chain fatty acid metabolism | inferred from genetic interaction |GO:0000038
ansition of mitotic cell cycle | inferred from genetic interaction |GO:0000082//biological process| regulation of cyclin dependent protein kinase activity | infe
e |GO:0000032
006887//biological process| cytokinesis | inferred from mutant phenotype |GO:0000910
s| G1/S transition of mitotic cell cycle | inferred from genetic interaction |GO:0000082
tic sister chromatid segregation | inferred from genetic interaction |GO:0000070
mitotic cell cycle | traceable author statement |GO:0000082
irect assay |GO:0010038
al process| 35S primary transcript processing | traceable author statement |GO:0006365//biological process| RNA methylation | inferred from sequence sim
repair via break-induced replication | traceable author statement |GO:0000727//biological process| meiotic DNA double-strand break processing | traceab
biological process| flocculation (sensu Saccharomyces) | inferred from mutant phenotype |GO:0000501//biological process| establishment of cell polarity (
rred from mutant phenotype |GO:0006468//biological process| cytokinesis | inferred from genetic interaction |GO:0000910//biological process| cellular mor
egulation of transcription from Pol II promoter | inferred from sequence similarity |GO:0006357//biological process| establishment and/or maintenance of ch
uence similarity |GO:0006357//biological process| regulation of transcription from Pol II promoter | inferred from genetic interaction |GO:0006357//biologica
n of mitotic cell cycle | inferred from mutant phenotype |GO:0000082
O:0009113//biological process| folic acid and derivative metabolism | traceable author statement |GO:0006760
| Ty element transposition | inferred from sequence similarity|GO:0006319
process| polar budding | traceable author statement |GO:0007121//biological process| actin filament organization | inferred from physical interaction |GO:00
on termination from Pol II promoter, poly(A)-independent | inferred from mutant phenotype |GO:0030847//biological process| transcription termination from
stasis | inferred from genetic interaction |GO:0030003
utant phenotype |GO:0006020
enotype |GO:0000283//biological process| establishment of cell polarity (sensu Saccharomyces) | inferred from genetic interaction |GO:0000283
ss| actin polymerization and/or depolymerization | inferred from mutant phenotype |GO:0008154//biological process| actin polymerization and/or depolymer
ological process| myo-inositol metabolism | traceable author statement |GO:0006020
| Ty element transposition | inferred from sequence similarity|GO:0006319
914//biological process| autophagy | inferred from direct assay |GO:0006914//biological process| vacuolar protein processing/maturation | inferred from mu
calcium ion transport | inferred from mutant phenotype |GO:0006816//biological process| calcium ion transport | inferred from direct assay |GO:0006816
48//biological process| heteroduplex formation | inferred from direct assay |GO:0030491//biological process| telomerase-independent telomere maintenanc
| Ty element transposition | inferred from sequence similarity|GO:0006319
mutant phenotype |GO:0006897//biological process| cytokinesis | inferred from mutant phenotype |GO:0000910
| Ty element transposition | inferred from sequence similarity|GO:0006319
enotype |GO:0006364
0007096//biological process| cellular morphogenesis during conjugation with cellular fusion | inferred from direct assay |GO:0000753//biological process| re
eraction |GO:0000074
sical interaction|GO:0030847//biological process| transcription termination from Pol II promoter, poly(A) coupled | inferred from physical interaction |GO:003
biological process| transcription | inferred from genetic interaction |GO:0006350//biological process| regulation of carbohydrate metabolism | traceable auth
dative stress | traceable author statement|GO:0006979//biological process| response to osmotic stress | traceable author statement |GO:0006970//biologic
ferred from mutant phenotype |GO:0000398//biological process| S phase of mitotic cell cycle | inferred from direct assay |GO:0000084
RNP protein-nucleus import | traceable author statement |GO:0006608//biological process| NLS-bearing substrate-nucleus import | traceable author statem
05811//cellular component| microsome | inferred from direct assay |GO:0005792//cellular component| peroxisome | inferred from direct assay |GO:000577
//biological process| flocculation (sensu Saccharomyces) | inferred from mutant phenotype |GO:0000501//biological process| establishment of cell polarity
5//biological process| rRNA modification | traceable author statement |GO:0000154
| Ty element transposition | inferred from sequence similarity|GO:0006319
om direct assay |GO:0006995//biological process| protein amino acid phosphorylation | inferred from direct assay |GO:0006468//biological process| regula
nsport | inferred from genetic interaction |GO:0006888
ing | traceable author statement |GO:0007121//biological process| axial budding | traceable author statement |GO:0007120//biological process| bud site se
organization and biogenesis | inferred from mutant phenotype |GO:0007031//biological process| fatty acid metabolism | inferred from mutant phenotype |G
914//biological process| autophagy | inferred from direct assay |GO:0006914//biological process| vacuolar protein processing/maturation | inferred from mu
-binding (hnRNP) protein-nucleus import | traceable author statement |GO:0006609//biological process| snRNP protein-nucleus import | traceable author s
ferred from direct assay |GO:0000932//biological process| rRNA processing | inferred from mutant phenotype|GO:0006364//biological process| deadenyla
| traceable author statement |GO:0000283
| Ty element transposition | inferred from sequence similarity|GO:0006319
pindle elongation | traceable author statement |GO:0000022
| Ty element transposition | inferred from sequence similarity|GO:0006319
dent | inferred from physical interaction |GO:0006355//biological process| regulation of transcription, DNA-dependent | inferred from mutant phenotype |GO
ation and biogenesis | inferred from direct assay |GO:0007031//biological process| protein-vacuolar targeting | inferred from mutant phenotype |GO:000662
rocess| establishment and/or maintenance of chromatin architecture | inferred from physical interaction |GO:0006325//biological process| G1-specific trans
egulation of transcription from Pol II promoter | inferred from sequence similarity |GO:0006357//biological process| establishment and/or maintenance of ch
O:0007264//biological process| bud growth | inferred from mutant phenotype |GO:0007117//biological process| cell wall organization and biogenesis | infer
erred from mutant phenotype |GO:0001324
icrotubule/kinetochore interaction | inferred from direct assay |GO:0008608//biological process| chromosome segregation | inferred from mutant phenotype
GO:0006511//biological process| G2/M transition of mitotic cell cycle | traceable author statement |GO:0000086//biological process| G1/S transition of mito
737//cellular component| intracellular | non-traceable author statement |GO:0005622//biological process| protein amino acid biotinylation | inferred from dir
repair, DNA duplex unwinding | traceable author statement |GO:0000717
| Ty element transposition | inferred from sequence similarity|GO:0006319
879//biological process| iron ion homeostasis | inferred from mutant phenotype |GO:0006879//biological process| transcription initiation from Pol II promote
or statement |GO:0006271//biological process| DNA replication, synthesis of RNA primer | traceable author statement |GO:0006269//biological process| DN
enotype |GO:0006511
ation | inferred from physical interaction |GO:0016575//biological process| histone deacetylation | inferred from direct assay |GO:0016575
LS-bearing substrate-nucleus import | traceable author statement |GO:0006607//biological process| snRNA-nucleus export | traceable author statement |G
m | inferred from physical interaction |GO:0006807
erred from direct assay |GO:0003713//cellular component| nucleus | inferred from physical interaction|GO:0005634//biological process| negative regulation
type |GO:0006605//biological process| protein targeting | inferred from genetic interaction |GO:0006605
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
ble author statement |GO:0007047//biological process| cytokinesis | traceable author statement |GO:0000910//biological process| cellular morphogenesis |
onent| transcription factor TFIIIB complex | traceable author statement |GO:0000126//cellular component| RNA polymerase I transcription factor complex |
biosynthesis | inferred from direct assay |GO:0009113//biological process| transcription | traceable author statement |GO:0006350//biological process| tran
ogical process| trehalose biosynthesis | inferred from mutant phenotype |GO:0005992//biological process| trehalose biosynthesis | inferred from genetic in
| Ty element transposition | inferred from sequence similarity|GO:0006319
acid beta-oxidation | inferred from genetic interaction |GO:0006635
rocess| vacuole inheritance | inferred from mutant phenotype |GO:0000011
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
notype |GO:0015986//biological process| age-dependent general metabolic decline during replicative cell aging | inferred from mutant phenotype |GO:000
cation | inferred from mutant phenotype |GO:0006275
m mutant phenotype |GO:0007005//biological process| ion transport | inferred from sequence similarity |GO:0006811//biological process| ion transport | infe
ment |GO:0006532
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
ol II promoter | traceable author statement |GO:0006358//biological process| chromatin remodeling | traceable author statement |GO:0006338
d from mutant phenotype |GO:0006513//biological process| ubiquitin-dependent protein catabolism | inferred from mutant phenotype |GO:0006511//biologic
inferred from mutant phenotype |GO:0007124//biological process| isotropic bud growth | inferred from mutant phenotype |GO:0007119//biological process
cess| ER to Golgi transport | inferred from mutant phenotype|GO:0006888//biological process| ER to Golgi transport | inferred from genetic interaction |GO
ment |GO:0000707
eable author statement |GO:0006360
LS-bearing substrate-nucleus import | traceable author statement |GO:0006607//biological process| tRNA-nucleus export | traceable author statement |GO:
/biological process| snRNP protein-nucleus import | traceable author statement |GO:0006608//biological process| NLS-bearing substrate-nucleus import | t
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
0006273//biological process| leading strand elongation | traceable author statement |GO:0006272
| Ty element transposition | inferred from sequence similarity|GO:0006319
nt phenotype|GO:0006828//biological process| phosphate transport | inferred from sequence similarity |GO:0006817//biological process| phosphate transp
| Ty element transposition | inferred from sequence similarity|GO:0006319
cal process| ribosome biogenesis | inferred from mutant phenotype |GO:0007046//biological process| G1 phase of mitotic cell cycle | inferred from mutant
1//biological process| septin checkpoint | inferred from mutant phenotype |GO:0000135//biological process| septin checkpoint | inferred from genetic intera
| Ty element transposition | inferred from sequence similarity|GO:0006319
ocess| calcium ion transport | inferred from direct assay |GO:0006816
ession pattern |GO:0001308//biological process| re-entry into mitotic cell cycle after pheromone arrest | inferred from mutant phenotype |GO:0000321//biol
genetic interaction |GO:0001402
ss| rRNA modification | traceable author statement |GO:0000154
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
d from mutant phenotype |GO:0000001//biological process| mitochondrion inheritance | inferred from genetic interaction |GO:0000001
GO:0006914//biological process| vacuolar protein processing/maturation | inferred from mutant phenotype |GO:0006624//biological process| vacuolar prote
| Ty element transposition | inferred from sequence similarity|GO:0006319
from mutant phenotype |GO:0015680
e |GO:0006612
| Ty element transposition | inferred from sequence similarity|GO:0006319
ence similarity |GO:0006538//biological process| glutamate catabolism | inferred from mutant phenotype |GO:0006538//biological process| glutamate cata
| Ty element transposition | inferred from sequence similarity|GO:0006319
|GO:0006325//biological process| loss of chromatin silencing during replicative cell aging | inferred from mutant phenotype |GO:0001308
cal process| chromosome segregation | inferred from genetic interaction |GO:0007059//biological process| microtubule nucleation | inferred from physical i
establishment of cell polarity (sensu Saccharomyces) | inferred from sequence similarity |GO:0000283
ss| establishment of cell polarity (sensu Saccharomyces) | inferred from mutant phenotype |GO:0000283//biological process| establishment of cell polarity
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
ndle orientation (sensu Fungi) | traceable author statement|GO:0030607//biological process| sporulation (sensu Fungi) | traceable author statement |GO:0
hor statement |GO:0000910//biological process| establishment of cell polarity (sensu Saccharomyces) | inferred from physical interaction |GO:0000283//bio
|GO:0000778//cellular component| condensed nuclear chromosome kinetochore | inferred from direct assay |GO:0000778//biological process| chromosom
aintenance | inferred from mutant phenotype |GO:0000028
ed from physical interaction|GO:0045835//biological process| histone deacetylation | inferred from physical interaction |GO:0016575//biological process| h
process| fatty acid biosynthesis | traceable author statement |GO:0006633//biological process| protein-nucleus import | inferred from mutant phenotype |G
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
sis | inferred from mutant phenotype|GO:0030003//biological process| cation homeostasis | inferred from direct assay |GO:0030003
l cycle-dependent actin filament reorganization | inferred from mutant phenotype |GO:0030037//biological process| cell cycle-dependent actin filament reo
sensu Saccharomyces) | inferred from physical interaction |GO:0001403//biological process| establishment of cell polarity (sensu Saccharomyces) | inferre
sis | inferred from mutant phenotype|GO:0030003//biological process| cation homeostasis | inferred from direct assay |GO:0030003
m direct assay |GO:0006261
| Ty element transposition | inferred from sequence similarity|GO:0006319
cess| actin filament organization | inferred from mutant phenotype |GO:0007015//biological process| endocytosis | inferred from physical interaction |GO:00
ss| cellular morphogenesis | inferred from mutant phenotype |GO:0000902//biological process| cellular morphogenesis | inferred from genetic interaction |G
| Ty element transposition | inferred from sequence similarity|GO:0006319
cellular component| proton-transporting ATP synthase, central stalk (sensu Eukarya) | inferred from mutant phenotype |GO:0005756//biological process| A
d from mutant phenotype |GO:0006865//biological process| fatty acid metabolism | inferred from direct assay |GO:0006631
| Ty element transposition | inferred from sequence similarity|GO:0006319
GO:0000910//biological process| cellular morphogenesis | traceable author statement |GO:0000902//biological process| conjugation with cellular fusion | tra
| Ty element transposition | inferred from sequence similarity|GO:0006319
d from direct assay |GO:0006487
raceable author statement |GO:0000105
orylation | inferred from mutant phenotype |GO:0006468//biological process| cytokinesis | inferred from genetic interaction |GO:0000910//biological process
GO:0000742
ocess| regulation of cell cycle | inferred from genetic interaction |GO:0000074
or statement|GO:0007535//biological process| regulation of transcription, mating-type specific | traceable author statement |GO:0007532//biological proces
nse to oxidative stress | traceable author statement |GO:0006979//biological process| hyperosmotic response | traceable author statement |GO:0006972
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
0730//biological process| double-strand break repair via break-induced replication | traceable author statement |GO:0000727//biological process| telomeras
biological process| lagging strand elongation | traceable author statement |GO:0006273//biological process| leading strand elongation | traceable author st
| Ty element transposition | inferred from sequence similarity|GO:0006319
ed from direct assay |GO:0016571//biological process| chromatin silencing at telomere | inferred from mutant phenotype |GO:0006348
LS-bearing substrate-nucleus import | traceable author statement |GO:0006607//biological process| tRNA-nucleus export | traceable author statement |GO:
| Ty element transposition | inferred from sequence similarity|GO:0006319
n | inferred from physical interaction |GO:0007020
tant phenotype |GO:0000080//biological process| G1 phase of mitotic cell cycle | inferred from genetic interaction |GO:0000080//biological process| G1 ph
m | inferred from direct assay |GO:0030163
| Ty element transposition | inferred from sequence similarity|GO:0006319
LS-bearing substrate-nucleus import | traceable author statement |GO:0006607//biological process| protein-nucleus import | inferred from mutant phenotyp
ferred from mutant phenotype |GO:0006260
promoter | inferred from genetic interaction |GO:0045944//biological process| transcription termination from Pol II promoter | inferred from genetic interact
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
enetic interaction |GO:0000750
| Ty element transposition | inferred from sequence similarity|GO:0006319
9//biological process| RNA elongation from Pol II promoter | inferred from physical interaction |GO:0006368//biological process| regulation of transcription,
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
or statement |GO:0006378//biological process| mRNA polyadenylation | inferred from direct assay |GO:0006378//biological process| transcription terminatio
tement |GO:0000154
gical process| protein-nucleus import, translocation | inferred from direct assay |GO:0000060
| Ty element transposition | inferred from sequence similarity|GO:0006319
6499//biological process| N-terminal protein myristoylation | inferred from genetic interaction |GO:0006499
synthesis | traceable author statement|GO:0006633
d from mutant phenotype |GO:0007023
| Ty element transposition | inferred from sequence similarity|GO:0006319
eable author statement |GO:0006360
gical process| cytokinesis | inferred from mutant phenotype |GO:0000910
s| loss of chromatin silencing during replicative cell aging | inferred from direct assay |GO:0001308
| Ty element transposition | inferred from sequence similarity|GO:0006319
LS-bearing substrate-nucleus import | traceable author statement |GO:0006607//biological process| tRNA-nucleus export | traceable author statement |GO:
| Ty element transposition | inferred from sequence similarity|GO:0006319
acid phosphorylation | inferred from sequence similarity |GO:0006468//biological process| protein amino acid phosphorylation | inferred from genetic intera
vesicle recycling within Golgi | traceable author statement |GO:0000301//biological process| retrograde transport, vesicle recycling within Golgi | inferred fr
ble author statement |GO:0007047//biological process| cytokinesis | traceable author statement |GO:0000910//biological process| cellular morphogenesis |
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
ed from direct assay |GO:0006468
ent |GO:0007067//biological process| cytoskeleton organization and biogenesis | inferred from mutant phenotype |GO:0007010
ellular component| nucleus | inferred from direct assay|GO:0005634//cellular component| retrotransposon nucleocapsid | inferred from sequence similarity
ellular component| nucleus | inferred from direct assay|GO:0005634//cellular component| retrotransposon nucleocapsid | inferred from sequence similarity
s| apical bud growth | inferred from physical interaction |GO:0007118//biological process| actin filament organization | inferred from mutant phenotype |GO
ological process| response to stress | inferred from direct assay |GO:0006950
ysical interaction|GO:0030150//biological process| mitochondrial matrix protein import | inferred from mutant phenotype |GO:0030150
| Ty element transposition | inferred from sequence similarity|GO:0006319
6//biological process| ATP synthesis coupled proton transport | inferred from mutant phenotype |GO:0015986
| Ty element transposition | inferred from sequence similarity|GO:0006319
eable author statement|GO:0007117//biological process| mitotic spindle checkpoint | inferred from mutant phenotype |GO:0007094//biological process| act
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
ng | inferred from mutant phenotype |GO:0006465//biological process| signal peptide processing | inferred from direct assay |GO:0006465
d from mutant phenotype |GO:0006406//biological process| mRNA-nucleus export | inferred from direct assay |GO:0006406//biological process| U2-type n
on (sensu Saccharomyces) | inferred from mutant phenotype |GO:0000065
molarity sensing | inferred from physical interaction |GO:0000173//biological process| inactivation of MAPK during osmolarity sensing | inferred from mutan
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
red from mutant phenotype |GO:0006970//biological process| endocytosis | inferred from mutant phenotype |GO:0006897
:0005737//biological process| glycogen catabolism | inferred from mutant phenotype|GO:0005980
| Ty element transposition | inferred from sequence similarity|GO:0006319
arity |GO:0006468//biological process| protein amino acid phosphorylation | inferred from mutant phenotype |GO:0006468//biological process| cytokinesis |
| Ty element transposition | inferred from sequence similarity|GO:0006319
ant phenotype |GO:0007039
| Ty element transposition | inferred from sequence similarity|GO:0006319
O:0006379//biological process| mRNA polyadenylation | traceable author statement |GO:0006378//biological process| mRNA polyadenylation | inferred fro
ed from physical interaction |GO:0007118//biological process| apical bud growth | inferred from mutant phenotype |GO:0007118//biological process| endoc
| Ty element transposition | inferred from sequence similarity|GO:0006319
eraction |GO:0015805//biological process| S-adenosylmethionine transport | inferred from direct assay |GO:0015805
eable author statement |GO:0006360
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
erred from sequence similarity |GO:0015672//biological process| monovalent inorganic cation transport | inferred from mutant phenotype |GO:0015672//bi
| Ty element transposition | inferred from sequence similarity|GO:0006319
ance of chromatin architecture | inferred from sequence similarity |GO:0006325
mutant phenotype |GO:0006646
914//biological process| autophagy | inferred from direct assay |GO:0006914//biological process| vacuolar protein processing/maturation | inferred from mu
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
thesis coupled proton transport | inferred from mutant phenotype |GO:0015986
ation | inferred from direct assay |GO:0006468//biological process| double-strand break repair via nonhomologous end-joining | inferred from mutant pheno
rocess| establishment and/or maintenance of chromatin architecture | inferred from physical interaction |GO:0006325//biological process| G1-specific trans
mutant phenotype|GO:0009117//biological process| nucleotide metabolism | inferred from genetic interaction |GO:0009117
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
ssay |GO:0006357//biological process| regulation of transcription, DNA-dependent | inferred from mutant phenotype |GO:0006355//biological process| chr
esis | inferred from mutant phenotype |GO:0006279
| Ty element transposition | inferred from sequence similarity|GO:0006319
replicative complex formation and maintenance | inferred from physical interaction |GO:0006267
Saccharomyces) | inferred from physical interaction |GO:0000283//biological process| vacuole inheritance | traceable author statement |GO:0000011//biol
| Ty element transposition | inferred from sequence similarity|GO:0006319
nsport, ubiquinol to cytochrome c | traceable author statement|GO:0006122//biological process| mitochondrial electron transport, ubiquinol to cytochrome
| Ty element transposition | inferred from sequence similarity|GO:0006319
pindle elongation | traceable author statement |GO:0000022
rocess| chromatin silencing at telomere | inferred from mutant phenotype |GO:0006348
609//biological process| snRNP protein-nucleus import | traceable author statement |GO:0006608//biological process| NLS-bearing substrate-nucleus impo
| Ty element transposition | inferred from sequence similarity|GO:0006319
ne nucleotide biosynthesis | inferred from mutant phenotype |GO:0006164//biological process| purine nucleotide biosynthesis | inferred from direct assay |
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
le author statement |GO:0030472//biological process| meiosis | inferred from mutant phenotype |GO:0007126//biological process| meiosis | inferred from d
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
| traceable author statement |GO:0006325
| Ty element transposition | inferred from sequence similarity|GO:0006319
ellular component| nucleus | inferred from direct assay|GO:0005634//cellular component| retrotransposon nucleocapsid | inferred from sequence similarity
om mutant phenotype |GO:0000274//biological process| ATP synthesis coupled proton transport | inferred from sequence similarity|GO:0015986//biologica
ed from direct assay |GO:0005697//cellular component| nucleus | inferred from direct assay |GO:0005634//biological process| telomerase-dependent telom
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
ellular component| nucleus | inferred from direct assay|GO:0005634//cellular component| retrotransposon nucleocapsid | inferred from sequence similarity
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
hromatid segregation | traceable author statement |GO:0000070//biological process| mitotic spindle elongation | traceable author statement |GO:0000022
component| RNA polymerase I upstream activating factor complex | inferred from mutant phenotype |GO:0000500//biological process| transcription from P
| Ty element transposition | inferred from sequence similarity|GO:0006319
O:0006412//biological process| rRNA processing | inferred from mutant phenotype |GO:0006364
ell cycle | inferred from mutant phenotype|GO:0000086//biological process| G2/M transition of mitotic cell cycle | inferred from genetic interaction |GO:0000
| Ty element transposition | inferred from sequence similarity|GO:0006319
s| NLS-bearing substrate-nucleus import | traceable author statement |GO:0006607//biological process| protein-nucleus import | inferred from mutant phen
d site selection | traceable author statement |GO:0000282
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
mutant phenotype |GO:0006446
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
or statement |GO:0006271//biological process| DNA replication, synthesis of RNA primer | traceable author statement |GO:0006269//biological process| DN
| Ty element transposition | inferred from sequence similarity|GO:0006319
ed from physical interaction|GO:0045941//biological process| positive regulation of transcription | inferred from mutant phenotype |GO:0045941//biological
| Ty element transposition | inferred from sequence similarity|GO:0006319
cing at telomere | inferred from mutant phenotype |GO:0006348//biological process| chromatin silencing | inferred from mutant phenotype |GO:0006342
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
sponse to oxidative stress | inferred from direct assay |GO:0006979
| Ty element transposition | inferred from sequence similarity|GO:0006319
nteraction |GO:0006348//biological process| DNA replication checkpoint | inferred from physical interaction |GO:0000076//biological process| DNA replicat
from direct assay |GO:0006609//biological process| protein-nucleus import | inferred from sequence similarity |GO:0006606//biological process| protein-nu
bolism | inferred from physical interaction |GO:0006511//biological process| ubiquitin-dependent protein catabolism | inferred from mutant phenotype |GO:0
biological process| response to stress | inferred from mutant phenotype|GO:0006950//biological process| trehalose biosynthesis | inferred from physical in
| Ty element transposition | inferred from sequence similarity|GO:0006319
protein biosynthesis | inferred from physical interaction |GO:0006412//biological process| G1/S transition of mitotic cell cycle | inferred from genetic interac
| Ty element transposition | inferred from sequence similarity|GO:0006319
s end-joining | inferred from direct assay |GO:0006303//biological process| loss of chromatin silencing during replicative cell aging | inferred from direct as
ological process| establishment of cell polarity (sensu Saccharomyces) | inferred from physical interaction |GO:0000283//biological process| microtubule c
LS-bearing substrate-nucleus import | traceable author statement |GO:0006607//biological process| tRNA-nucleus export | traceable author statement |GO:
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
from physical interaction |GO:0030497//biological process| fatty acid elongation | inferred from mutant phenotype |GO:0030497//biological process| fatty a
006873//biological process| adaptation to pheromone during conjugation with cellular fusion | inferred from mutant phenotype |GO:0000754
ect assay |GO:0006730
ess| mitotic spindle assembly (sensu Fungi) | inferred from genetic interaction |GO:0030472//biological process| microtubule depolymerization | inferred fro
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
lation of cyclin dependent protein kinase activity | traceable author statement |GO:0000079
ocess| iron-siderochrome transport | inferred from mutant phenotype|GO:0015892//biological process| iron-siderochrome transport | inferred from direct as
logical process| protein folding | inferred from mutant phenotype |GO:0006457//biological process| protein folding | inferred from genetic interaction |GO:00
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
inferred from mutant phenotype |GO:0000910//biological process| cellular morphogenesis | traceable author statement |GO:0000902//biological process|
ng | inferred from direct assay |GO:0006457
from Pol II promoter | inferred from physical interaction |GO:0006368//biological process| transcription from Pol II promoter | inferred from physical interac
86//biological process| G2/M transition of mitotic cell cycle | inferred from genetic interaction |GO:0000086//biological process| cell morphogenesis checkpo
nferred from direct assay|GO:0045010//biological process| mitotic spindle orientation (sensu Fungi) | inferred from mutant phenotype |GO:0030607//biolog
| Ty element transposition | inferred from sequence similarity|GO:0006319
LS-bearing substrate-nucleus import | traceable author statement |GO:0006607//biological process| tRNA-nucleus export | traceable author statement |GO:
| Ty element transposition | inferred from sequence similarity|GO:0006319
nt |GO:0006273//biological process| leading strand elongation | traceable author statement |GO:0006272
tosis | inferred from mutant phenotype |GO:0006897//biological process| exocytosis | inferred from mutant phenotype |GO:0006887
red from genetic interaction |GO:0006888
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
nt| nucleus | inferred from curator|GO:0005634//cellular component| retrotransposon nucleocapsid | inferred from sequence similarity |GO:0000943//biologi
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
ellular component| nucleus | inferred from direct assay|GO:0005634//cellular component| retrotransposon nucleocapsid | inferred from sequence similarity
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
al process| negative regulation of transcription from Pol II promoter | traceable author statement |GO:0000122
ceable author statement |GO:0006272//biological process| DNA synthesis during DNA repair | inferred from mutant phenotype |GO:0000731
| Ty element transposition | inferred from sequence similarity|GO:0006319
nferred from mutant phenotype |GO:0007124
GO:0045944//biological process| positive regulation of transcription from Pol II promoter | inferred from genetic interaction |GO:0045944
1//biological process| septin checkpoint | inferred from mutant phenotype |GO:0000135//biological process| septin checkpoint | inferred from genetic intera
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
44//biological process| positive regulation of transcription from Pol II promoter | inferred from mutant phenotype |GO:0045944//biological process| phospho
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
gical process| protein-nucleus import, translocation | inferred from direct assay |GO:0000060
| Ty element transposition | inferred from sequence similarity|GO:0006319
sion | traceable author statement |GO:0006906//biological process| vesicle docking during exocytosis | traceable author statement |GO:0006904//biologica
| Ty element transposition | inferred from sequence similarity|GO:0006319
m mutant phenotype |GO:0000722//biological process| meiotic DNA recombinase assembly | traceable author statement |GO:0000707
iological process| mRNA-binding (hnRNP) protein-nucleus import | traceable author statement |GO:0006609//biological process| snRNP protein-nucleus im
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
609//biological process| snRNP protein-nucleus import | traceable author statement |GO:0006608//biological process| NLS-bearing substrate-nucleus impo
|GO:0000778//biological process| chromosome segregation | inferred from mutant phenotype|GO:0007059//biological process| chromosome segregation |
iron ion homeostasis | inferred from genetic interaction |GO:0006879//biological process| iron ion homeostasis | inferred from direct assay |GO:0006879//
5//biological process| nucleobase, nucleoside, nucleotide and nucleic acid metabolism | inferred from mutant phenotype |GO:0006139//biological process|
s| NLS-bearing substrate-nucleus import | traceable author statement |GO:0006607//biological process| protein-nucleus import | inferred from mutant phen
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
notype |GO:0006644
| Ty element transposition | inferred from sequence similarity|GO:0006319
rocess| vacuole inheritance | inferred from mutant phenotype |GO:0000011
nt| nucleus | inferred from curator|GO:0005634//cellular component| retrotransposon nucleocapsid | inferred from sequence similarity |GO:0000943//biologi
pindle elongation | traceable author statement |GO:0000022
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
ellular component| nucleus | inferred from direct assay|GO:0005634//cellular component| retrotransposon nucleocapsid | inferred from sequence similarity
physical interaction |GO:0000245//biological process| spliceosome assembly | inferred from mutant phenotype |GO:0000245//biological process| spliceoso
e recycling within Golgi | traceable author statement |GO:0000301//biological process| retrograde transport, vesicle recycling within Golgi | inferred from m
in amino acid phosphorylation | inferred from mutant phenotype |GO:0006468
ellular component| nucleus | inferred from direct assay|GO:0005634//cellular component| retrotransposon nucleocapsid | inferred from sequence similarity
om mutant phenotype|GO:0006508//biological process| proteolysis and peptidolysis | inferred from direct assay |GO:0006508
g at telomere | inferred from mutant phenotype |GO:0006348//biological process| chromatin silencing at ribosomal DNA | inferred from mutant phenotype |G
eable author statement |GO:0000910//biological process| cellular morphogenesis | traceable author statement |GO:0000902//biological process| cellular m
cess| transport | inferred from sequence similarity |GO:0006810//biological process| conjugation with cellular fusion | inferred from mutant phenotype |GO:0
statement |GO:0007120//biological process| conjugation with cellular fusion | non-traceable author statement |GO:0000747//biological process| bud site se
| Ty element transposition | inferred from sequence similarity|GO:0006319
gical process| DNA repair | inferred from direct assay |GO:0006281
component| alpha,alpha-trehalose-phosphate synthase complex (UDP-forming) | inferred from direct assay |GO:0005946//cellular component| cytoplasm
16571//biological process| regulation of transcription, DNA-dependent | inferred from mutant phenotype |GO:0006355//biological process| regulation of tra
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
l process| DNA unwinding | traceable author statement |GO:0006268
plasma membrane transport | traceable author statement |GO:0006893//biological process| cytokinesis | inferred from mutant phenotype |GO:0000910//bio
LS-bearing substrate-nucleus import | traceable author statement |GO:0006607//biological process| tRNA-nucleus export | traceable author statement |GO:
or statement |GO:0006270
cal process| lagging strand elongation | inferred from mutant phenotype |GO:0006273//biological process| lagging strand elongation | inferred from direct a
| Ty element transposition | inferred from sequence similarity|GO:0006319
ellular component| nucleus | inferred from direct assay|GO:0005634//cellular component| retrotransposon nucleocapsid | inferred from sequence similarity
ss| regulation of cyclin dependent protein kinase activity | traceable author statement |GO:0000079
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
pindle elongation | traceable author statement |GO:0000022
| Ty element transposition | inferred from sequence similarity|GO:0006319
DNA topological change | inferred from genetic interaction |GO:0006265
m sequence similarity |GO:0006468//biological process| protein amino acid phosphorylation | inferred from mutant phenotype |GO:0006468
| Ty element transposition | inferred from sequence similarity|GO:0006319
s| mRNA catabolism, deadenylation-dependent | inferred from mutant phenotype |GO:0000288//biological process| mRNA catabolism, deadenylation-depe
| Ty element transposition | inferred from sequence similarity|GO:0006319
| inferred from physical interaction |GO:0030846//biological process| tRNA processing | inferred from mutant phenotype |GO:0008033//biological process|
eable author statement |GO:0006360
| Ty element transposition | inferred from sequence similarity|GO:0006319
binding | inferred from sequence similarity |GO:0003723//cellular component| mitochondrion | inferred from direct assay|GO:0005739//cellular component|
| Ty element transposition | inferred from sequence similarity|GO:0006319
mutant phenotype |GO:0006508//biological process| protein complex assembly | inferred from mutant phenotype |GO:0006461
| Ty element transposition | inferred from sequence similarity|GO:0006319
mRNA catabolism, deadenylation-dependent | inferred from mutant phenotype |GO:0000288//biological process| mRNA catabolism, deadenylation-depen
| Ty element transposition | inferred from sequence similarity|GO:0006319
teraction |GO:0000750
from sequence similarity |GO:0000122//biological process| negative regulation of transcription from Pol II promoter | inferred from mutant phenotype |GO:
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
ferred from direct assay|GO:0005737//cellular component| nucleus | inferred from direct assay |GO:0005634
al initiation | traceable author statement|GO:0006413//biological process| translational initiation | inferred from direct assay |GO:0006413
| Ty element transposition | inferred from sequence similarity|GO:0006319
gical process| actin filament organization | traceable author statement |GO:0007015//biological process| protein amino acid dephosphorylation | traceable a
rocess| establishment and/or maintenance of chromatin architecture | inferred from physical interaction |GO:0006325//biological process| G1-specific trans
| Ty element transposition | inferred from sequence similarity|GO:0006319
dent | inferred from physical interaction |GO:0006355//biological process| regulation of transcription, DNA-dependent | inferred from mutant phenotype |GO
pindle elongation | traceable author statement |GO:0000022
LS-bearing substrate-nucleus import | traceable author statement |GO:0006607//biological process| tRNA-nucleus export | traceable author statement |GO:
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
eable author statement |GO:0006360
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
ellular component| nucleus | inferred from direct assay|GO:0005634//cellular component| retrotransposon nucleocapsid | inferred from sequence similarity
| Ty element transposition | inferred from sequence similarity|GO:0006319
nce similarity |GO:0006081
6109//biological process| regulation of carbohydrate metabolism | inferred from genetic interaction |GO:0006109//biological process| glycogen metabolism
ed from mutant phenotype |GO:0000282
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
sion repair, DNA duplex unwinding | traceable author statement |GO:0000717
5944//biological process| positive regulation of transcription from Pol II promoter | inferred from genetic interaction |GO:0045944//biological process| tRNA
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
cess| endocytosis | traceable author statement |GO:0006897
n-nucleus import | traceable author statement |GO:0006608//biological process| NLS-bearing substrate-nucleus import | traceable author statement |GO:00
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
ablishment of cell polarity (sensu Saccharomyces) | inferred from mutant phenotype |GO:0000283//biological process| establishment of cell polarity (sensu
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
mbination | inferred from mutant phenotype |GO:0000019
establishment of cell polarity (sensu Saccharomyces) | inferred from mutant phenotype |GO:0000283//biological process| establishment of cell polarity (se
or statement |GO:0006378//biological process| mRNA polyadenylation | inferred from direct assay |GO:0006378
ellular component| nucleus | inferred from direct assay|GO:0005634//cellular component| retrotransposon nucleocapsid | inferred from sequence similarity
s| NLS-bearing substrate-nucleus import | traceable author statement |GO:0006607//biological process| tRNA-nucleus export | traceable author statement
| Ty element transposition | inferred from sequence similarity|GO:0006319
metabolism | traceable author statement |GO:0006796//biological process| protein amino acid phosphorylation | traceable author statement |GO:0006468//b
binding | inferred from sequence similarity |GO:0003723//cellular component| mitochondrion | inferred from direct assay|GO:0005739//cellular component|
g at telomere | inferred from mutant phenotype |GO:0006348
cal process| protein amino acid phosphorylation | traceable author statement |GO:0006468
ssay |GO:0006338
| Ty element transposition | inferred from sequence similarity|GO:0006319
ferred from mutant phenotype |GO:0006897//biological process| exocytosis | inferred from mutant phenotype |GO:0006887
replicative complex formation and maintenance | inferred from physical interaction |GO:0006267
ellular component| nucleus | inferred from direct assay|GO:0005634//cellular component| retrotransposon nucleocapsid | inferred from sequence similarity
n of mitotic cell cycle | inferred from mutant phenotype |GO:0000082
erred from genetic interaction |GO:0006979//biological process| response to osmotic stress | inferred from mutant phenotype |GO:0006970
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
gical process| Rho protein signal transduction | inferred from genetic interaction |GO:0007266//biological process| cell wall organization and biogenesis | tr
| Ty element transposition | inferred from sequence similarity|GO:0006319
ype |GO:0006289
| Ty element transposition | inferred from sequence similarity|GO:0006319
m mutant phenotype |GO:0006320
| Ty element transposition | inferred from sequence similarity|GO:0006319
s during conjugation with cellular fusion | inferred from genetic interaction |GO:0000753//biological process| establishment of cell polarity (sensu Saccharo
atement |GO:0006378//biological process| mRNA polyadenylation | inferred from mutant phenotype |GO:0006378//biological process| mRNA polyadenylat
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
esis | traceable author statement |GO:0007047
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
al process| histidine biosynthesis | inferred from mutant phenotype |GO:0000105//biological process| histidine biosynthesis | inferred from direct assay |GO
| traceable author statement |GO:0006289//biological process| DNA strand elongation | traceable author statement |GO:0006271//biological process| DNA
ranscription from Pol II promoter | inferred from mutant phenotype |GO:0006357//biological process| glucose metabolism | inferred from mutant phenotype
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
cess| positive regulation of transcription from Pol II promoter | inferred from genetic interaction |GO:0045944
ype |GO:0000723//biological process| telomere maintenance | inferred from genetic interaction |GO:0000723//biological process| telomere maintenance | in
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
utant phenotype |GO:0045039
sion repair, DNA duplex unwinding | traceable author statement |GO:0000717
s| establishment of cell polarity (sensu Saccharomyces) | inferred from physical interaction |GO:0000283
| Ty element transposition | inferred from sequence similarity|GO:0006319
and maintenance | inferred from mutant phenotype |GO:0000027
uthor statement |GO:0006915//biological process| vesicle fusion | inferred from direct assay |GO:0006906//biological process| ubiquitin-dependent protein
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
nt phenotype |GO:0006261//biological process| replicative cell aging | inferred from mutant phenotype |GO:0001302
nteraction |GO:0005634//biological process| transcription termination from Pol II promoter, poly(A)-independent | inferred from physical interaction|GO:003
| Ty element transposition | inferred from sequence similarity|GO:0006319
repair, DNA duplex unwinding | traceable author statement |GO:0000717
e |GO:0006612
07266//biological process| cell wall organization and biogenesis | traceable author statement |GO:0007047
biological process| flocculation (sensu Saccharomyces) | inferred from mutant phenotype |GO:0000501//biological process| establishment of cell polarity (
cell redox homeostasis | inferred from direct assay |GO:0030503//biological process| response to oxidative stress | inferred from mutant phenotype |GO:0
d site selection | traceable author statement |GO:0000282
s| NLS-bearing substrate-nucleus import | traceable author statement |GO:0006607//biological process| tRNA-nucleus export | traceable author statement
eable author statement |GO:0000082//biological process| regulation of cell cycle | traceable author statement |GO:0000074
GO:0016571
cellular component| proton-transporting ATP synthase, central stalk (sensu Eukarya) | inferred from mutant phenotype |GO:0005756//biological process| A
notype |GO:0006609//biological process| protein-nucleus import | inferred from sequence similarity |GO:0006606//biological process| protein-nucleus impo
gative regulation of DNA replication | inferred from mutant phenotype |GO:0008156//biological process| chromatin silencing at telomere | inferred from phy
otype|GO:0006413//biological process| translational initiation | inferred from direct assay |GO:0006413
sid | inferred from sequence similarity |GO:0000943//cellular component| histone acetyltransferase complex | inferred from physical interaction |GO:00001
n | inferred from physical interaction |GO:0007020
O:0007124//biological process| isotropic bud growth | inferred from physical interaction |GO:0007119//biological process| apical bud growth | inferred from
| Ty element transposition | inferred from sequence similarity|GO:0006319
cuole organization and biogenesis | inferred from mutant phenotype |GO:0007033//biological process| high affinity iron ion transport | traceable author sta
| Ty element transposition | inferred from sequence similarity|GO:0006319
ption | inferred from direct assay |GO:0006350
| Ty element transposition | inferred from sequence similarity|GO:0006319
process| Golgi to endosome transport | inferred from genetic interaction |GO:0006895
d site selection | traceable author statement |GO:0000282
6904//biological process| Golgi to plasma membrane transport | traceable author statement |GO:0006893//biological process| cytokinesis | inferred from m
LS-bearing substrate-nucleus import | traceable author statement |GO:0006607//biological process| tRNA-nucleus export | traceable author statement |GO:
moylation | inferred from direct assay |GO:0016926//biological process| mitotic spindle checkpoint | inferred from mutant phenotype |GO:0007094//biologica
6//biological process| ATP synthesis coupled proton transport | inferred from mutant phenotype |GO:0015986
rocess| establishment and/or maintenance of chromatin architecture | inferred from physical interaction |GO:0006325//biological process| G1-specific trans
| Ty element transposition | inferred from sequence similarity|GO:0006319
oupled proton transport | inferred from sequence similarity|GO:0015986//biological process| ATP synthesis coupled proton transport | inferred from physica
or statement |GO:0006378//biological process| mRNA polyadenylation | inferred from direct assay |GO:0006378
ma membrane transport | traceable author statement |GO:0006893//biological process| cytokinesis | inferred from mutant phenotype |GO:0000910
phenotype |GO:0009651//biological process| response to salt stress | inferred from genetic interaction |GO:0009651//biological process| regulation of mitot
|GO:0006457
atement|GO:0006367//biological process| chromatin remodeling | traceable author statement |GO:0006338//biological process| G1-specific transcription in
0006333//biological process| double-strand break repair via nonhomologous end-joining | inferred from direct assay |GO:0006303//biological process| dou
| Ty element transposition | inferred from sequence similarity|GO:0006319
esis | traceable author statement |GO:0006696
cytokinesis | inferred from mutant phenotype |GO:0000910
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
process| polar budding | traceable author statement |GO:0007121//biological process| actin filament organization | inferred from physical interaction |GO:00
meiosis | inferred from mutant phenotype|GO:0045835//biological process| histone deacetylation | inferred from physical interaction |GO:0016575//biologi
2//biological process| G1/S transition of mitotic cell cycle | inferred from expression pattern |GO:0000082//biological process| regulation of cyclin dependen
oupled proton transport | inferred from sequence similarity|GO:0015986//biological process| ATP synthesis coupled proton transport | inferred from physica
//biological process| flocculation (sensu Saccharomyces) | inferred from mutant phenotype |GO:0000501//biological process| establishment of cell polarity
genetic interaction |GO:0019722//biological process| regulation of transcription, DNA-dependent | inferred from mutant phenotype |GO:0006355
//biological process| deadenylation-dependent decapping | inferred from direct assay |GO:0000290
g | inferred from physical interaction |GO:0006338//biological process| chromatin remodeling | inferred from direct assay |GO:0006338
DNA replication | inferred from mutant phenotype |GO:0006261//biological process| DNA-dependent DNA replication | inferred from direct assay |GO:00062
logical process| autophagic vacuole fusion | inferred from direct assay |GO:0000046
henotype |GO:0001302
replicative complex formation and maintenance | inferred from physical interaction |GO:0006267
winding | traceable author statement |GO:0006268//biological process| pre-replicative complex formation and maintenance | inferred from physical interacti
tion | inferred from physical interaction |GO:0016575//biological process| histone deacetylation | inferred from direct assay |GO:0016575
henotype |GO:0006855//biological process| chronological cell aging | inferred from mutant phenotype |GO:0001300//biological process| cellular morphogen
gen metabolism | inferred from physical interaction |GO:0005977//biological process| negative regulation of transcription from Pol II promoter | traceable au
015986//biological process| ATP synthesis coupled proton transport | inferred from mutant phenotype |GO:0015986
ect assay |GO:0006378
cess| establishment of cell polarity (sensu Saccharomyces) | inferred from mutant phenotype |GO:0000283
ble author statement |GO:0006402//biological process| 35S primary transcript processing | traceable author statement |GO:0006365
cellular morphogenesis during conjugation with cellular fusion | traceable author statement |GO:0000753
ess| chromatin silencing at ribosomal DNA | inferred from mutant phenotype |GO:0000183
al process| protein-vacuolar targeting | inferred from mutant phenotype |GO:0006623
atement |GO:0006355//biological process| chromatin silencing at telomere | inferred from mutant phenotype |GO:0006348//biological process| chromatin s
6348//biological process| chromatin remodeling | inferred from physical interaction |GO:0006338//biological process| chromatin remodeling | inferred from
LS-bearing substrate-nucleus import | traceable author statement |GO:0006607//biological process| protein-nucleus import | inferred from mutant phenotyp
able author statement |GO:0000082
| Ty element transposition | inferred from sequence similarity|GO:0006319
ysical interaction |GO:0000902//biological process| cellular morphogenesis | inferred from mutant phenotype |GO:0000902//biological process| establishm
gical process| protein-nucleus import, translocation | inferred from direct assay |GO:0000060
teraction |GO:0000077//biological process| DNA damage response, signal transduction resulting in cell cycle arrest | inferred from mutant phenotype |GO:
6//biological process| ATP synthesis coupled proton transport | inferred from mutant phenotype |GO:0015986
s| NLS-bearing substrate-nucleus import | traceable author statement |GO:0006607//biological process| tRNA-nucleus export | traceable author statement
ical process| signal transduction during conjugation with cellular fusion | inferred from mutant phenotype |GO:0000750//biological process| signal transduc
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
ess| regulation of cell redox homeostasis | inferred from direct assay |GO:0030503//biological process| response to oxidative stress | inferred from mutant p
t |GO:0006511//biological process| mitotic sister chromatid segregation | traceable author statement |GO:0000070//biological process| mitotic spindle elon
008654//biological process| phospholipid biosynthesis | inferred from direct assay |GO:0008654
| Ty element transposition | inferred from sequence similarity|GO:0006319
| inferred from direct assay |GO:0016926//biological process| G2/M transition of mitotic cell cycle | inferred from mutant phenotype |GO:0000086
ein transport | inferred from genetic interaction |GO:0015031//biological process| response to unfolded protein | inferred from mutant phenotype |GO:00069
ocess| transcription | inferred from physical interaction |GO:0006350//biological process| transcription | inferred from mutant phenotype |GO:0006350//biol
| Ty element transposition | inferred from sequence similarity|GO:0006319
e catabolism | inferred from direct assay |GO:0006660
cess| double-strand break repair via break-induced replication | traceable author statement |GO:0000727//biological process| telomerase-independent telo
mutant phenotype |GO:0030847//biological process| transcription termination from Pol II promoter, poly(A) coupled | inferred from physical interaction |GO:0
hor statement |GO:0000074//biological process| centromere/kinetochore complex maturation | inferred from direct assay |GO:0000069
sion repair, DNA duplex unwinding | traceable author statement |GO:0000717
om mutant phenotype |GO:0000767//biological process| cellular morphogenesis during conjugation | inferred from genetic interaction |GO:0000767
gical process| protein-nucleus import, translocation | inferred from direct assay |GO:0000060
e |GO:0006406//biological process| mRNA-nucleus export | inferred from genetic interaction |GO:0006406
| Ty element transposition | inferred from sequence similarity|GO:0006319
ing | traceable author statement |GO:0007121//biological process| axial budding | traceable author statement |GO:0007120//biological process| bud site se
ent organization | inferred from sequence similarity |GO:0007015//biological process| invasive growth (sensu Saccharomyces) | inferred from sequence si
nsation | traceable author statement|GO:0007076//biological process| mitotic chromosome condensation | inferred from mutant phenotype |GO:0007076//b
| Ty element transposition | inferred from sequence similarity|GO:0006319
sis | inferred from mutant phenotype|GO:0030003//biological process| cation homeostasis | inferred from direct assay |GO:0030003
oining | inferred from direct assay |GO:0006303//biological process| double-strand break repair via homologous recombination | inferred from mutant phen
ision repair, AP site formation | inferred from direct assay|GO:0006285//biological process| base-excision repair | inferred from direct assay |GO:0006284/
cal interaction |GO:0000750//biological process| signal transduction during conjugation with cellular fusion | inferred from mutant phenotype |GO:0000750/
mutant phenotype |GO:0000755//biological process| cytogamy | inferred from genetic interaction |GO:0000755
| Ty element transposition | inferred from sequence similarity|GO:0006319
on | traceable author statement |GO:0000209
nuclear division | traceable author statement |GO:0000280
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
| Ty element transposition | inferred from sequence similarity|GO:0006319
gical process| regulation of cell cycle | inferred from genetic interaction |GO:0000074
1//biological process| septin checkpoint | inferred from mutant phenotype |GO:0000135//biological process| septin checkpoint | inferred from genetic intera
ogical process| establishment of cell polarity (sensu Saccharomyces) | inferred from physical interaction |GO:0000283
| Ty element transposition | inferred from sequence similarity|GO:0006319
pindle elongation | traceable author statement |GO:0000022
6//biological process| ATP synthesis coupled proton transport | inferred from mutant phenotype |GO:0015986
|GO:0006268//biological process| pre-replicative complex formation and maintenance | inferred from physical interaction |GO:0006267
gulation of cell cycle | inferred from mutant phenotype |GO:0000074//biological process| regulation of cell cycle | inferred from genetic interaction |GO:0000
om mutant phenotype |GO:0045016//biological process| mitochondrial magnesium ion transport | inferred from genetic interaction |GO:0045016//biologica
sister chromatid segregation | traceable author statement |GO:0000070//biological process| mitotic spindle elongation | traceable author statement |GO:0
rocess| establishment and/or maintenance of chromatin architecture | inferred from physical interaction |GO:0006325//biological process| G1-specific trans
ion |GO:0006273//biological process| lagging strand elongation | inferred from mutant phenotype |GO:0006273//biological process| lagging strand elongat
s| NLS-bearing substrate-nucleus import | traceable author statement |GO:0006607//biological process| tRNA-nucleus export | traceable author statement
rocess| transcription initiation | traceable author statement |GO:0006352//biological process| negative regulation of transcription from Pol II promoter | infer
| Ty element transposition | inferred from sequence similarity|GO:0006319
f transcription from Pol II promoter | inferred from mutant phenotype |GO:0006357//biological process| chromatin assembly/disassembly | inferred from mu
O:0045039//biological process| mitochondrial inner membrane protein import | inferred from physical interaction |GO:0045039//biological process| mitocho
om genetic interaction |GO:0006892//biological process| intracellular protein transport | inferred from genetic interaction |GO:0006886
rom mutant phenotype|GO:0042167//biological process| heme catabolism | inferred from genetic interaction |GO:0042167//biological process| iron ion hom
GO:0006273//biological process| leading strand elongation | traceable author statement |GO:0006272
| Ty element transposition | inferred from sequence similarity|GO:0006319
Fungi) | inferred from physical interaction|GO:0030472
ceable author statement |GO:0006272
38//biological process| telomerase-independent telomere maintenance | inferred from mutant phenotype |GO:0000722
ation | inferred from physical interaction |GO:0016575//biological process| histone deacetylation | inferred from direct assay |GO:0016575
assembly | inferred from direct assay |GO:0006461
process| DNA-dependent DNA replication | inferred from direct assay |GO:0006261//biological process| dTTP biosynthesis | inferred from direct assay |GO
| Ty element transposition | inferred from sequence similarity|GO:0006319
ype |GO:0006413
| Ty element transposition | inferred from sequence similarity|GO:0006319
ological process| chromatin silencing at telomere | inferred from mutant phenotype |GO:0006348
nesis | inferred from mutant phenotype |GO:0007046//biological process| cytoskeleton organization and biogenesis | inferred from mutant phenotype |GO:
ansition of mitotic cell cycle | inferred from genetic interaction |GO:0000082
subunit assembly and maintenance | inferred from sequence similarity |GO:0000028
pindle elongation | traceable author statement |GO:0000022
nse to oxidative stress | traceable author statement |GO:0006979//biological process| hyperosmotic response | traceable author statement |GO:0006972
tion of cyclin dependent protein kinase activity | inferred from expression pattern |GO:0000079//biological process| regulation of cyclin dependent protein k
O:0030150//biological process| mitochondrial matrix protein import | inferred from mutant phenotype |GO:0030150
inferred from mutant phenotype |GO:0006412
| Ty element transposition | inferred from sequence similarity|GO:0006319
inferred from genetic interaction |GO:0045016
lyadenylation | inferred from genetic interaction |GO:0006378//biological process| mRNA polyadenylation | inferred from direct assay |GO:0006378
om direct assay |GO:0001403//biological process| conjugation with cellular fusion | traceable author statement |GO:0000747
ed from mutant phenotype |GO:0000274//biological process| ATP synthesis coupled proton transport | inferred from sequence similarity|GO:0015986//biolo
ence similarity |GO:0006538//biological process| glutamate catabolism | inferred from mutant phenotype |GO:0006538//biological process| glutamate cata
lencing at telomere | inferred from mutant phenotype |GO:0006348
otic cell cycle | inferred from mutant phenotype |GO:0000114//biological process| G1-specific transcription in mitotic cell cycle | inferred from genetic intera
or statement|GO:0007535//biological process| regulation of transcription, mating-type specific | traceable author statement |GO:0007532//biological proces
ption from Pol II promoter | inferred from mutant phenotype |GO:0006357
pindle elongation | traceable author statement |GO:0000022
attern |GO:0009060//biological process| pseudohyphal growth | inferred from mutant phenotype |GO:0007124//biological process| seryl-tRNA aminoacylati
| Ty element transposition | inferred from sequence similarity|GO:0006319
nt | inferred from mutant phenotype |GO:0006355//biological process| regulation of transcription, DNA-dependent | inferred from genetic interaction |GO:00
gation | traceable author statement |GO:0000070//biological process| nuclear migration (sensu Saccharomyces) | traceable author statement |GO:000006
etic interaction |GO:0006357//biological process| establishment and/or maintenance of chromatin architecture | inferred from physical interaction |GO:0006
ess| mRNA catabolism, deadenylation-dependent | inferred from genetic interaction |GO:0000288//biological process| mRNA catabolism, deadenylation-de
gical process| G2/M transition of mitotic cell cycle | inferred from genetic interaction |GO:0000086//biological process| regulation of cyclin dependent protei
ule nucleation | inferred from physical interaction |GO:0007020
wall organization and biogenesis | inferred from mutant phenotype |GO:0007047//biological process| response to osmotic stress | inferred from mutant phe
utant phenotype |GO:0006623
erred from physical interaction |GO:0030846//biological process| response to heat | inferred from physical interaction |GO:0009408//biological process| res
ngation | traceable author statement |GO:0000022
genetic interaction |GO:0000122
etic interaction |GO:0006357//biological process| establishment and/or maintenance of chromatin architecture | inferred from physical interaction |GO:0006
psid | inferred from sequence similarity |GO:0000943//biological process| positive regulation of transcription from Pol II promoter | inferred from mutant phe
ical process| regulation of transcription from Pol II promoter | inferred from mutant phenotype |GO:0006357//biological process| regulation of transcription
086//biological process| regulation of cyclin dependent protein kinase activity | inferred from direct assay |GO:0000079//biological process| cell morphogene
tion | inferred from genetic interaction |GO:0007266//biological process| cell wall organization and biogenesis | inferred from mutant phenotype |GO:00070
actin polymerization and/or depolymerization | inferred from genetic interaction |GO:0008154//biological process| isotropic bud growth | inferred from phys
dependent protein kinase activity | inferred from physical interaction |GO:0000079//biological process| regulation of cyclin dependent protein kinase activit
methylation | inferred from sequence similarity |GO:0001510//biological process| RNA methylation | inferred from physical interaction |GO:0001510//biologi
uble-strand break processing | traceable author statement |GO:0000706
process| establishment of cell polarity (sensu Saccharomyces) | inferred from physical interaction |GO:0000283//biological process| G2/M transition of mito
00910//biological process| cellular morphogenesis | inferred from genetic interaction |GO:0000902
stablishment and/or maintenance of chromatin architecture | inferred from sequence similarity |GO:0006325
etic interaction |GO:0006357//biological process| establishment and/or maintenance of chromatin architecture | inferred from physical interaction |GO:0006
ferred from physical interaction |GO:0007015//biological process| establishment of cell polarity (sensu Saccharomyces) | inferred from physical interaction
process| transcription termination from Pol II promoter, poly(A) coupled | inferred from physical interaction |GO:0030846//biological process| mRNA cleava
etic interaction |GO:0000283
actin polymerization and/or depolymerization | inferred from genetic interaction |GO:0008154//biological process| isotropic bud growth | inferred from phys
ocessing/maturation | inferred from mutant phenotype |GO:0006624//biological process| vacuolar protein processing/maturation | inferred from direct assay
rred from direct assay |GO:0006816
ase-independent telomere maintenance | inferred from mutant phenotype |GO:0000722//biological process| meiotic joint molecule formation | inferred from
ay |GO:0000753//biological process| response to pheromone during conjugation with cellular fusion | inferred from direct assay |GO:0000749
erred from physical interaction |GO:0030846//biological process| response to heat | inferred from physical interaction |GO:0009408//biological process| res
rbohydrate metabolism | traceable author statement |GO:0006109//biological process| regulation of carbohydrate metabolism | inferred from physical inter
uthor statement |GO:0006970//biological process| transcription | inferred from mutant phenotype |GO:0006350//biological process| transcription | inferred
ssay |GO:0000084
nucleus import | traceable author statement |GO:0006607//biological process| tRNA-nucleus export | traceable author statement |GO:0006409//biological p
nferred from direct assay |GO:0005777//biological process| lipid transport | inferred from sequence similarity|GO:0006869//biological process| lipid transpo
process| establishment of cell polarity (sensu Saccharomyces) | inferred from physical interaction |GO:0000283//biological process| G2/M transition of mit
GO:0006468//biological process| regulation of carbohydrate metabolism | traceable author statement |GO:0006109//biological process| regulation of carboh
007120//biological process| bud site selection | traceable author statement |GO:0000282
m | inferred from mutant phenotype |GO:0006631
ocessing/maturation | inferred from mutant phenotype |GO:0006624//biological process| vacuolar protein processing/maturation | inferred from direct assay
tein-nucleus import | traceable author statement |GO:0006608//biological process| NLS-bearing substrate-nucleus import | traceable author statement |GO
006364//biological process| deadenylation-dependent decapping | inferred from physical interaction |GO:0000290//biological process| deadenylation-depe
nt | inferred from mutant phenotype |GO:0006355//biological process| regulation of transcription, DNA-dependent | inferred from genetic interaction |GO:00
ed from mutant phenotype |GO:0006623
5//biological process| G1-specific transcription in mitotic cell cycle | inferred from physical interaction |GO:0000114
stablishment and/or maintenance of chromatin architecture | inferred from sequence similarity |GO:0006325
wall organization and biogenesis | inferred from physical interaction |GO:0007047//biological process| actin filament organization | traceable author statem
gation | inferred from mutant phenotype |GO:0007059//biological process| chromosome segregation | inferred from genetic interaction |GO:0007059
logical process| G1/S transition of mitotic cell cycle | traceable author statement |GO:0000082
ino acid biotinylation | inferred from direct assay|GO:0009305
anscription initiation from Pol II promoter | inferred from sequence similarity |GO:0006367//biological process| transcription initiation from Pol II promoter | i
nt |GO:0006269//biological process| DNA unwinding | traceable author statement |GO:0006268
ct assay |GO:0016575
export | traceable author statement |GO:0006408//biological process| rRNA-nucleus export | traceable author statement |GO:0006407//biological process|
biological process| negative regulation of transcription | inferred from physical interaction|GO:0016481//biological process| negative regulation of transcript
gical process| cellular morphogenesis | traceable author statement |GO:0000902//biological process| conjugation with cellular fusion | traceable author stat
merase I transcription factor complex | traceable author statement |GO:0000120//biological process| transcription initiation from Pol III promoter | traceable
|GO:0006350//biological process| transcription | inferred from genetic interaction |GO:0006350//biological process| histidine biosynthesis | traceable autho
biosynthesis | inferred from genetic interaction |GO:0005992
erred from mutant phenotype |GO:0001321
//biological process| ion transport | inferred from genetic interaction |GO:0006811//biological process| ion transport | inferred from direct assay |GO:000681
r statement |GO:0006338
utant phenotype |GO:0006511//biological process| DNA repair | traceable author statement |GO:0006281
otype |GO:0007119//biological process| apical bud growth | inferred from mutant phenotype |GO:0007118//biological process| exocytosis | inferred from ge
| inferred from genetic interaction |GO:0006888
xport | traceable author statement |GO:0006409//biological process| snRNA-nucleus export | traceable author statement |GO:0006408//biological process|
LS-bearing substrate-nucleus import | traceable author statement |GO:0006607//biological process| tRNA-nucleus export | traceable author statement |GO
7//biological process| phosphate transport | inferred from mutant phenotype |GO:0006817//biological process| phosphate transport | inferred from direct as
mitotic cell cycle | inferred from mutant phenotype |GO:0000080//biological process| regulation of cell cycle | inferred from mutant phenotype |GO:0000074
heckpoint | inferred from genetic interaction |GO:0000135
m mutant phenotype |GO:0000321//biological process| mRNA catabolism, deadenylation-dependent | inferred from genetic interaction |GO:0000288
ction |GO:0000001
624//biological process| vacuolar protein processing/maturation | inferred from direct assay |GO:0006624//biological process| protein-vacuolar targeting | in
538//biological process| glutamate catabolism | inferred from expression pattern |GO:0006538
notype |GO:0001308
ule nucleation | inferred from physical interaction |GO:0007020
process| establishment of cell polarity (sensu Saccharomyces) | inferred from genetic interaction |GO:0000283
ngi) | traceable author statement |GO:0030437//biological process| vesicle transport along actin filament | traceable author statement |GO:0030050//biologi
m physical interaction |GO:0000283//biological process| establishment of cell polarity (sensu Saccharomyces) | inferred from mutant phenotype |GO:00002
00778//biological process| chromosome segregation | inferred from genetic interaction|GO:0007059//biological process| microtubule nucleation | inferred f
on |GO:0016575//biological process| histone deacetylation | inferred from direct assay |GO:0016575//biological process| chromatin silencing at telomere |
ort | inferred from mutant phenotype |GO:0006606
ay |GO:0030003
cell cycle-dependent actin filament reorganization | inferred from genetic interaction |GO:0030037//biological process| retrograde transport, Golgi to ER | in
olarity (sensu Saccharomyces) | inferred from physical interaction |GO:0000283
ay |GO:0030003
ferred from physical interaction |GO:0006897//biological process| endocytosis | inferred from mutant phenotype |GO:0006897//biological process| actin co
sis | inferred from genetic interaction |GO:0000902
pe |GO:0005756//biological process| ATP synthesis coupled proton transport | inferred from sequence similarity|GO:0015986//biological process| ATP syn
ess| conjugation with cellular fusion | traceable author statement |GO:0000747//biological process| establishment of cell polarity (sensu Saccharomyces) |
action |GO:0000910//biological process| cellular morphogenesis | inferred from genetic interaction |GO:0000902
tement |GO:0007532//biological process| small GTPase mediated signal transduction | traceable author statement |GO:0007264//biological process| pseu
able author statement |GO:0006972
0000727//biological process| telomerase-independent telomere maintenance | inferred from mutant phenotype |GO:0000722//biological process| meiotic D
strand elongation | traceable author statement |GO:0006272
otype |GO:0006348
xport | traceable author statement |GO:0006409//biological process| snRNA-nucleus export | traceable author statement |GO:0006408//biological process|
GO:0000080//biological process| G1 phase of mitotic cell cycle | inferred from direct assay |GO:0000080
import | inferred from mutant phenotype |GO:0006606//biological process| tRNA-nucleus export | inferred from mutant phenotype |GO:0006409//biological
romoter | inferred from genetic interaction |GO:0006369
al process| regulation of transcription, DNA-dependent | inferred from sequence similarity |GO:0006355//biological process| regulation of transcription, DN
logical process| transcription termination from Pol II promoter | inferred from mutant phenotype |GO:0006369
xport | traceable author statement |GO:0006409//biological process| snRNA-nucleus export | traceable author statement |GO:0006408//biological process|
horylation | inferred from genetic interaction |GO:0006468
esicle recycling within Golgi | inferred from mutant phenotype |GO:0000301
gical process| cellular morphogenesis | traceable author statement |GO:0000902//biological process| establishment of cell polarity (sensu Saccharomyces)
psid | inferred from sequence similarity |GO:0000943//biological process| positive regulation of transcription from Pol II promoter | inferred from mutant phe
psid | inferred from sequence similarity |GO:0000943//biological process| positive regulation of transcription from Pol II promoter | inferred from mutant phe
n | inferred from mutant phenotype |GO:0007015//biological process| invasive growth (sensu Saccharomyces) | inferred from physical interaction |GO:0001
ype |GO:0030150
e |GO:0007094//biological process| actin filament organization | traceable author statement |GO:0007015//biological process| protein amino acid dephosph
ct assay |GO:0006465
0006406//biological process| U2-type nuclear mRNA branch site recognition | traceable author statement |GO:0000370
smolarity sensing | inferred from mutant phenotype |GO:0000173
06468//biological process| cytokinesis | inferred from mutant phenotype |GO:0000910//biological process| actin cortical patch assembly | traceable author s
ss| mRNA polyadenylation | inferred from mutant phenotype |GO:0006378//biological process| mRNA polyadenylation | inferred from direct assay |GO:0006
GO:0007118//biological process| endocytosis | inferred from physical interaction |GO:0006897//biological process| endocytosis | inferred from mutant pheno
om mutant phenotype |GO:0015672//biological process| vacuolar acidification | inferred from mutant phenotype |GO:0007035
ocessing/maturation | inferred from mutant phenotype |GO:0006624//biological process| vacuolar protein processing/maturation | inferred from direct assay
nd-joining | inferred from mutant phenotype |GO:0006303//biological process| mitotic sister chromatid segregation | inferred from mutant phenotype |GO:00
5//biological process| G1-specific transcription in mitotic cell cycle | inferred from mutant phenotype |GO:0000114
e |GO:0006355//biological process| chromatin remodeling | inferred from direct assay |GO:0006338//biological process| establishment and/or maintenance
le author statement |GO:0000011//biological process| mitochondrion inheritance | traceable author statement |GO:0000001
ron transport, ubiquinol to cytochrome c | inferred from mutant phenotype |GO:0006122//biological process| oxidative phosphorylation | traceable author st
s| NLS-bearing substrate-nucleus import | traceable author statement |GO:0006607//biological process| tRNA-nucleus export | traceable author statement
osynthesis | inferred from direct assay |GO:0006164
ogical process| meiosis | inferred from direct assay |GO:0007126//biological process| mitotic sister chromatid segregation | traceable author statement |GO
psid | inferred from sequence similarity |GO:0000943//biological process| positive regulation of transcription from Pol II promoter | inferred from mutant phe
uence similarity|GO:0015986//biological process| ATP synthesis coupled proton transport | inferred from mutant phenotype |GO:0015986
l process| telomerase-dependent telomere maintenance | traceable author statement|GO:0007004
psid | inferred from sequence similarity |GO:0000943//biological process| positive regulation of transcription from Pol II promoter | inferred from mutant phe
eable author statement |GO:0000022
biological process| transcription from Pol I promoter | inferred from physical interaction|GO:0006360//biological process| transcription from Pol I promoter |
erred from genetic interaction |GO:0000086//biological process| regulation of cell cycle | inferred from mutant phenotype |GO:0000074
eus import | inferred from mutant phenotype |GO:0006606//biological process| tRNA-nucleus export | traceable author statement |GO:0006409//biological
nt |GO:0006269//biological process| DNA unwinding | traceable author statement |GO:0006268
nt phenotype |GO:0045941//biological process| positive regulation of transcription | inferred from genetic interaction |GO:0045941//biological process| pero
om mutant phenotype |GO:0006342
0076//biological process| DNA replication checkpoint | inferred from mutant phenotype |GO:0000076//biological process| DNA replication checkpoint | infe
006606//biological process| protein-nucleus import | inferred from physical interaction |GO:0006606//biological process| protein-nucleus import | inferred fr
inferred from mutant phenotype |GO:0006511
biosynthesis | inferred from physical interaction |GO:0005992//biological process| trehalose biosynthesis | inferred from mutant phenotype |GO:0005992//b
cell cycle | inferred from genetic interaction |GO:0000082
ative cell aging | inferred from direct assay |GO:0001308
0283//biological process| microtubule cytoskeleton organization and biogenesis | inferred from genetic interaction |GO:0000226
xport | traceable author statement |GO:0006409//biological process| snRNA-nucleus export | traceable author statement |GO:0006408//biological process|
GO:0030497//biological process| fatty acid elongation | inferred from genetic interaction |GO:0030497
henotype |GO:0000754
rotubule depolymerization | inferred from mutant phenotype |GO:0007019//biological process| nuclear migration (sensu Saccharomyces) | inferred from mu
hrome transport | inferred from direct assay |GO:0015892//biological process| siderochrome metabolism | inferred from mutant phenotype |GO:0009237//bi
nferred from genetic interaction |GO:0006457
ment |GO:0000902//biological process| septin checkpoint | traceable author statement |GO:0000135
romoter | inferred from physical interaction |GO:0006366
l process| cell morphogenesis checkpoint | traceable author statement |GO:0000078//biological process| regulation of cell cycle | inferred from mutant phe
mutant phenotype |GO:0030607//biological process| mRNA localization, intracellular | inferred from mutant phenotype |GO:0008298//biological process| Rh
xport | traceable author statement |GO:0006409//biological process| snRNA-nucleus export | traceable author statement |GO:0006408//biological process|
e |GO:0006887
quence similarity |GO:0000943//biological process| Ty element transposition | inferred from sequence similarity|GO:0006319//biological process| DNA dea
psid | inferred from sequence similarity |GO:0000943//biological process| positive regulation of transcription from Pol II promoter | inferred from mutant phe
phenotype |GO:0000731
action |GO:0045944
heckpoint | inferred from genetic interaction |GO:0000135
:0045944//biological process| phospholipid biosynthesis | inferred from mutant phenotype |GO:0008654
thor statement |GO:0006904//biological process| Golgi to plasma membrane transport | traceable author statement |GO:0006893//biological process| cytok
ement |GO:0000707
gical process| snRNP protein-nucleus import | traceable author statement |GO:0006608//biological process| NLS-bearing substrate-nucleus import | tracea
s| NLS-bearing substrate-nucleus import | traceable author statement |GO:0006607//biological process| protein-nucleus import | inferred from mutant phen
al process| chromosome segregation | inferred from genetic interaction |GO:0007059//biological process| microtubule nucleation | inferred from physical in
erred from direct assay |GO:0006879//biological process| oxygen and reactive oxygen species metabolism | inferred from mutant phenotype |GO:0006800
type |GO:0006139//biological process| conversion of met-tRNAf to fmet-tRNA | inferred from mutant phenotype |GO:0001718
eus import | inferred from mutant phenotype |GO:0006606//biological process| tRNA-nucleus export | traceable author statement |GO:0006409//biological
quence similarity |GO:0000943//biological process| Ty element transposition | inferred from sequence similarity|GO:0006319//biological process| DNA dea
psid | inferred from sequence similarity |GO:0000943//biological process| positive regulation of transcription from Pol II promoter | inferred from mutant phe
0000245//biological process| spliceosome assembly | inferred from genetic interaction |GO:0000245
recycling within Golgi | inferred from mutant phenotype |GO:0000301
psid | inferred from sequence similarity |GO:0000943//biological process| positive regulation of transcription from Pol II promoter | inferred from mutant phe
NA | inferred from mutant phenotype |GO:0000183
0000902//biological process| cellular morphogenesis during conjugation with cellular fusion | traceable author statement |GO:0000753//biological process|
inferred from mutant phenotype |GO:0000747
000747//biological process| bud site selection | traceable author statement |GO:0000282
05946//cellular component| cytoplasm | inferred from direct assay |GO:0005737//biological process| response to stress | inferred from mutant phenotype|G
55//biological process| regulation of transcription, DNA-dependent | inferred from direct assay |GO:0006355//biological process| RNA elongation | inferred
m mutant phenotype |GO:0000910//biological process| establishment of cell polarity (sensu Saccharomyces) | traceable author statement |GO:0000283
xport | traceable author statement |GO:0006409//biological process| snRNA-nucleus export | traceable author statement |GO:0006408//biological process|
trand elongation | inferred from direct assay |GO:0006273//biological process| DNA ligation | inferred from mutant phenotype |GO:0006266//biological proc
psid | inferred from sequence similarity |GO:0000943//biological process| positive regulation of transcription from Pol II promoter | inferred from mutant phe
henotype |GO:0006468
mRNA catabolism, deadenylation-dependent | inferred from genetic interaction |GO:0000288//biological process| mRNA catabolism, deadenylation-depen
ype |GO:0008033//biological process| mRNA cleavage | traceable author statement |GO:0006379//biological process| mRNA cleavage | inferred from dire
say|GO:0005739//cellular component| retrotransposon nucleocapsid | inferred from sequence similarity |GO:0000943//biological process| leucyl-tRNA ami
mRNA catabolism, deadenylation-dependent | inferred from genetic interaction |GO:0000288//biological process| mRNA catabolism, deadenylation-depend
| inferred from mutant phenotype |GO:0000122
assay |GO:0006413
no acid dephosphorylation | traceable author statement |GO:0006470//biological process| protein biosynthesis | inferred from mutant phenotype |GO:00064
5//biological process| G1-specific transcription in mitotic cell cycle | inferred from physical interaction |GO:0000114
nt | inferred from mutant phenotype |GO:0006355//biological process| regulation of transcription, DNA-dependent | inferred from genetic interaction |GO:00
xport | traceable author statement |GO:0006409//biological process| snRNA-nucleus export | traceable author statement |GO:0006408//biological process|
psid | inferred from sequence similarity |GO:0000943//biological process| positive regulation of transcription from Pol II promoter | inferred from mutant phe
ological process| glycogen metabolism | traceable author statement |GO:0005977//biological process| negative regulation of transcription from Pol II prom
GO:0045944//biological process| tRNA splicing | inferred from mutant phenotype |GO:0006388
ort | traceable author statement |GO:0006607//biological process| protein-nucleus import | inferred from mutant phenotype |GO:0006606//biological proces
s| establishment of cell polarity (sensu Saccharomyces) | inferred from genetic interaction |GO:0000283
cess| establishment of cell polarity (sensu Saccharomyces) | inferred from genetic interaction |GO:0000283
psid | inferred from sequence similarity |GO:0000943//biological process| positive regulation of transcription from Pol II promoter | inferred from mutant phe
us export | traceable author statement |GO:0006409//biological process| snRNA-nucleus export | traceable author statement |GO:0006408//biological proc
eable author statement |GO:0006468//biological process| protein amino acid phosphorylation | inferred from mutant phenotype |GO:0006468//biological pro
say|GO:0005739//cellular component| retrotransposon nucleocapsid | inferred from sequence similarity |GO:0000943//biological process| leucyl-tRNA ami
psid | inferred from sequence similarity |GO:0000943//biological process| positive regulation of transcription from Pol II promoter | inferred from mutant phe
henotype |GO:0006970
ell wall organization and biogenesis | traceable author statement |GO:0007047
hment of cell polarity (sensu Saccharomyces) | traceable author statement |GO:0000283
biological process| mRNA polyadenylation | inferred from direct assay |GO:0006378
nthesis | inferred from direct assay |GO:0000105
|GO:0006271//biological process| DNA replication, synthesis of RNA primer | traceable author statement |GO:0006269//biological process| DNA unwinding
olism | inferred from mutant phenotype |GO:0006006
ical process| telomere maintenance | inferred from direct assay |GO:0000723
process| ubiquitin-dependent protein catabolism | inferred from physical interaction |GO:0006511//biological process| ubiquitin-dependent protein catabol
erred from physical interaction|GO:0030847//biological process| transcription termination from Pol II promoter, poly(A)-independent | inferred from mutant p
process| establishment of cell polarity (sensu Saccharomyces) | inferred from physical interaction |GO:0000283//biological process| G2/M transition of mito
inferred from mutant phenotype |GO:0006979
us export | traceable author statement |GO:0006409//biological process| snRNA-nucleus export | traceable author statement |GO:0006408//biological proc
pe |GO:0005756//biological process| ATP synthesis coupled proton transport | inferred from sequence similarity|GO:0015986//biological process| ATP syn
ological process| protein-nucleus import | inferred from physical interaction |GO:0006606//biological process| protein-nucleus import | inferred from mutant
lencing at telomere | inferred from physical interaction |GO:0006348//biological process| chromatin silencing at telomere | inferred from mutant phenotype
ed from physical interaction |GO:0000123//biological process| chromatin silencing at telomere | inferred from mutant phenotype|GO:0006348//biological pro
cess| apical bud growth | inferred from physical interaction |GO:0007118//biological process| chitin localization | inferred from mutant phenotype |GO:0006
ron ion transport | traceable author statement |GO:0006827
process| cytokinesis | inferred from mutant phenotype |GO:0000910
xport | traceable author statement |GO:0006409//biological process| snRNA-nucleus export | traceable author statement |GO:0006408//biological process|
ant phenotype |GO:0007094//biological process| mitotic spindle checkpoint | inferred from genetic interaction |GO:0007094//biological process| plasmid m
5//biological process| G1-specific transcription in mitotic cell cycle | inferred from physical interaction |GO:0000114
proton transport | inferred from physical interaction |GO:0015986//biological process| ATP synthesis coupled proton transport | inferred from mutant pheno
utant phenotype |GO:0000910
//biological process| regulation of mitotic cell cycle | inferred from genetic interaction |GO:0007346//biological process| G1/S transition of mitotic cell cycle |
al process| G1-specific transcription in mitotic cell cycle | inferred from physical interaction |GO:0000114
|GO:0006303//biological process| double-strand break repair via homologous recombination | inferred from mutant phenotype |GO:0000724//biological pr
ferred from physical interaction |GO:0007015//biological process| establishment of cell polarity (sensu Saccharomyces) | inferred from physical interaction
ysical interaction |GO:0016575//biological process| histone deacetylation | inferred from direct assay |GO:0016575//biological process| regulation of transc
process| regulation of cyclin dependent protein kinase activity | traceable author statement |GO:0000079
proton transport | inferred from physical interaction |GO:0015986//biological process| ATP synthesis coupled proton transport | inferred from mutant pheno
process| establishment of cell polarity (sensu Saccharomyces) | inferred from mutant phenotype |GO:0000283//biological process| G2/M transition of mito
nt phenotype |GO:0006355
ssay |GO:0006338
| inferred from direct assay |GO:0006261//biological process| replicative cell aging | inferred from mutant phenotype |GO:0001302
nance | inferred from physical interaction |GO:0006267
assay |GO:0016575
/biological process| cellular morphogenesis | inferred from mutant phenotype |GO:0000902//biological process| regulation of cell cycle | inferred from muta
ption from Pol II promoter | traceable author statement |GO:0000122
ent |GO:0006365
06348//biological process| chromatin silencing | inferred from direct assay |GO:0006342//biological process| establishment and/or maintenance of chroma
| chromatin remodeling | inferred from mutant phenotype |GO:0006338//biological process| chromatin remodeling | inferred from genetic interaction |GO:0
import | inferred from mutant phenotype |GO:0006606//biological process| tRNA-nucleus export | traceable author statement |GO:0006409//biological proc
000902//biological process| establishment of cell polarity (sensu Saccharomyces) | inferred from sequence similarity |GO:0000283//biological process| esta
| inferred from mutant phenotype |GO:0000077
us export | traceable author statement |GO:0006409//biological process| snRNA-nucleus export | traceable author statement |GO:0006408//biological proc
50//biological process| signal transduction during conjugation with cellular fusion | inferred from genetic interaction |GO:0000750
oxidative stress | inferred from mutant phenotype |GO:0006979
biological process| mitotic spindle elongation | traceable author statement |GO:0000022
ant phenotype |GO:0000086
rred from mutant phenotype |GO:0006986//biological process| response to unfolded protein | inferred from genetic interaction |GO:0006986
m mutant phenotype |GO:0006350//biological process| transcription | inferred from genetic interaction |GO:0006350
process| telomerase-independent telomere maintenance | inferred from mutant phenotype |GO:0000722//biological process| meiotic DNA double-strand b
inferred from physical interaction |GO:0030846//biological process| mRNA processing | inferred from physical interaction |GO:0006397//biological process
ssay |GO:0000069
genetic interaction |GO:0000767
007120//biological process| bud site selection | traceable author statement |GO:0000282
aromyces) | inferred from sequence similarity |GO:0001403//biological process| signal transduction during conjugation with cellular fusion | traceable auth
om mutant phenotype |GO:0007076//biological process| mitotic sister chromatid segregation | traceable author statement |GO:0000070
ay |GO:0030003
ombination | inferred from mutant phenotype |GO:0000724//biological process| telomere maintenance | inferred from mutant phenotype |GO:0000723
ferred from direct assay |GO:0006284//biological process| DNA repair | inferred from direct assay |GO:0006281
from mutant phenotype |GO:0000750//biological process| MAPKKK cascade during osmolarity sensing | inferred from physical interaction |GO:0000161//b
heckpoint | inferred from genetic interaction |GO:0000135
ction |GO:0006267
erred from genetic interaction |GO:0000074
etic interaction |GO:0045016//biological process| mitochondrial magnesium ion transport | inferred from direct assay |GO:0045016//biological process| Grou
ion | traceable author statement |GO:0000022
5//biological process| G1-specific transcription in mitotic cell cycle | inferred from physical interaction |GO:0000114
logical process| lagging strand elongation | inferred from genetic interaction |GO:0006273//biological process| leading strand elongation | inferred from phy
us export | traceable author statement |GO:0006409//biological process| snRNA-nucleus export | traceable author statement |GO:0006408//biological proc
ranscription from Pol II promoter | inferred from genetic interaction |GO:0000122
sembly/disassembly | inferred from mutant phenotype |GO:0006333//biological process| DNA strand elongation | inferred from mutant phenotype |GO:000
O:0045039//biological process| mitochondrial inner membrane protein import | inferred from genetic interaction |GO:0045039
tion |GO:0006886
42167//biological process| iron ion homeostasis | inferred from sequence similarity |GO:0006879//biological process| iron ion homeostasis | inferred from e
ct assay |GO:0016575
nthesis | inferred from direct assay |GO:0006235//biological process| dTDP biosynthesis | inferred from direct assay |GO:0006233//biological process| dUD
| inferred from mutant phenotype |GO:0007010//biological process| G1 phase of mitotic cell cycle | traceable author statement |GO:0000080//biological pro
able author statement |GO:0006972
egulation of cyclin dependent protein kinase activity | inferred from direct assay |GO:0000079
rom direct assay |GO:0006378
sequence similarity|GO:0015986//biological process| ATP synthesis coupled proton transport | inferred from mutant phenotype |GO:0015986//biological pr
538//biological process| glutamate catabolism | inferred from expression pattern |GO:0006538
cell cycle | inferred from genetic interaction |GO:0000114
tement |GO:0007532//biological process| small GTPase mediated signal transduction | traceable author statement |GO:0007264//biological process| pseu
gical process| seryl-tRNA aminoacylation | inferred from genetic interaction |GO:0006434//biological process| invasive growth (sensu Saccharomyces) | in
nferred from genetic interaction |GO:0006355//biological process| establishment and/or maintenance of ch
aceable author statement |GO:0000065
rred from physical interaction |GO:0006325
s| mRNA catabolism, deadenylation-dependent | inferred from direct assay |GO:0000288
s| regulation of cyclin dependent protein kinase activity | traceable author statement |GO:0000079
motic stress | inferred from mutant phenotype |GO:0006970//biological process| establishment of cell polarity (sensu Saccharom
n |GO:0009408//biological process| response to heat | inferred from mutant phenotype |GO:0009408//biological process
rred from physical interaction |GO:0006325
l II promoter | inferred from mutant phenotype|GO:0045944//biological process| aerobic respiration | inferred from mut
cal process| regulation of transcription from Pol II promoter | inferred from genetic interaction |GO:0006357
79//biological process| cell morphogenesis checkpoint | inferred from direct assay |GO:0000078
red from mutant phenotype |GO:0007047//biological process| cell wall organization and biogenesis | inferred from genet
otropic bud growth | inferred from physical interaction |GO:0007119//biological process| isotropic bud growth | infer
cyclin dependent protein kinase activity | inferred from mutant phenotype |GO:0000079//biological process| DNA
ysical interaction |GO:0001510//biological process| RNA methylation | inferred from mutant phenotype |GO:0001510//biologica
ogical process| G2/M transition of mitotic cell cycle | inferred from physical interaction |GO:0000086//biological proce
rred from physical interaction |GO:0006325
ces) | inferred from physical interaction |GO:0000283//biological process| establishment of cell polarity (sensu Sacchar
0846//biological process| mRNA cleavage | inferred from physical interaction |GO:0006379//biological process| mRNA clea
otropic bud growth | inferred from physical interaction |GO:0007119//biological process| isotropic bud growth | infer
/maturation | inferred from direct assay |GO:0006624
joint molecule formation | inferred from mutant phenotype |GO:0000709
direct assay |GO:0000749
n |GO:0009408//biological process| response to heat | inferred from mutant phenotype |GO:0009408//biological process
etabolism | inferred from physical interaction |GO:0006109//biological process| regulation of carbohydrate metabol
ogical process| transcription | inferred from direct assay |GO:0006350
or statement |GO:0006409//biological process| snRNA-nucleus export | traceable author statement |GO:0006408//biological process| rRNA-nuc
06869//biological process| lipid transport | inferred from mutant phenotype |GO:0006869//biological process| very-long-c
ological process| G2/M transition of mitotic cell cycle | inferred from mutant phenotype |GO:0000086//biological proce
biological process| regulation of carbohydrate metabolism | inferred from physical interaction |GO:0006109//biological proce
/maturation | inferred from direct assay |GO:0006624
mport | traceable author statement |GO:0006607//biological process| protein-nucleus import | inferred from mutant phenotype |GO:00066
iological process| deadenylation-dependent decapping | inferred from mutant phenotype |GO:0000290//biological process| deadenylation-dependent deca
nferred from genetic interaction |GO:0006355//biological process| establishment and/or maintenance of ch
organization | traceable author statement |GO:0007015//biological process| establishment of cell polarity (sensu Saccharomy
genetic interaction |GO:0007059
ription initiation from Pol II promoter | inferred from mutant phenotype |GO:0006367
ment |GO:0006407//biological process| mRNA-nucleus export | inferred from mutant phenotype |GO:0006406//biological process| protein-nuc
ocess| negative regulation of transcription | inferred from mutant phenotype |GO:0016481//biolo
h cellular fusion | traceable author statement |GO:0000747//biological process| establishment of cell polarity (sensu Saccharomyce
itiation from Pol III promoter | traceable author statement|GO:0006384//biological process| transcription initiation from P
histidine biosynthesis | traceable author statement |GO:0000105
inferred from direct assay |GO:0006811
process| exocytosis | inferred from genetic interaction |GO:0006887//biological process| invasive growth (sensu Saccharomyces) |
ment |GO:0006408//biological process| rRNA-nucleus export | traceable author statement |GO:0006407//biological process| mRNA-nucleus ex
xport | traceable author statement |GO:0006409//biological process| snRNA-nucleus export | traceable author statement |GO:0006408//biolog
phate transport | inferred from direct assay |GO:0006817
d from mutant phenotype |GO:0000074
enetic interaction |GO:0000288
process| protein-vacuolar targeting | inferred from mutant phenotype |GO:0006623//biological process| protein-vacuolar targeting
author statement |GO:0030050//biological process| cell cycle-dependent actin filament reorganization | traceable author s
red from mutant phenotype |GO:0000283//biological process| bud site selection | inferred from physical interaction |
ess| microtubule nucleation | inferred from physical interaction |GO:0007020
cess| chromatin silencing at telomere | inferred from physical interaction |GO:0006348//biological process| chromatin si
s| retrograde transport, Golgi to ER | inferred from mutant phenotype |GO:0006890//biological process| retrograde trans
O:0006897//biological process| actin cortical patch assembly | traceable author statement |GO:0000147
:0015986//biological process| ATP synthesis coupled proton transport | inferred from physical interaction |GO:0015986//biological
cell polarity (sensu Saccharomyces) | traceable author statement |GO:0000283
GO:0007264//biological process| pseudohyphal growth | traceable author statement |GO:0007124//biological process| polar bu
0000722//biological process| meiotic DNA recombinase assembly | traceable author statement |GO:0000707
ment |GO:0006408//biological process| rRNA-nucleus export | traceable author statement |GO:0006407//biological process| mRNA-nucleus ex
nt phenotype |GO:0006409//biological process| snRNA-nucleus export | traceable author statement |GO:0006408//biological process| rRNA
process| regulation of transcription, DNA-dependent | inferred from mutant phenotype |GO:0006355//biological process|
ment |GO:0006408//biological process| rRNA-nucleus export | traceable author statement |GO:0006407//biological process| mRNA-nucleus ex
of cell polarity (sensu Saccharomyces) | traceable author statement |GO:0000283
l II promoter | inferred from mutant phenotype|GO:0045944//biological process| aerobic respiration | inferred from mut
l II promoter | inferred from mutant phenotype|GO:0045944//biological process| aerobic respiration | inferred from mut
red from physical interaction |GO:0001403//biological process| signal transduction during conjugation with cellular
l process| protein amino acid dephosphorylation | traceable author statement |GO:0006470//biological process| protein biosynthesis
cal patch assembly | traceable author statement |GO:0000147
n | inferred from direct assay |GO:0006378
ndocytosis | inferred from mutant phenotype |GO:0006897//biological process| establishment of cell polarity (sensu Sacc
/maturation | inferred from direct assay |GO:0006624
nferred from mutant phenotype |GO:0000070//biological process| mitotic sister chromatid segregation | inferred from gen
ess| establishment and/or maintenance of chromatin architecture | inferred from physical interaction |GO:0006325//biologi
e phosphorylation | traceable author statement |GO:0006119
eus export | traceable author statement |GO:0006409//biological process| snRNA-nucleus export | traceable author statement |GO:0006408//bi
ation | traceable author statement |GO:0000070
l II promoter | inferred from mutant phenotype|GO:0045944//biological process| aerobic respiration | inferred from mut
notype |GO:0015986
l II promoter | inferred from mutant phenotype|GO:0045944//biological process| aerobic respiration | inferred from mut
ess| transcription from Pol I promoter | inferred from mutant phenotype |GO:0006360
ype |GO:0000074
hor statement |GO:0006409//biological process| snRNA-nucleus export | traceable author statement |GO:0006408//biological process| rRNA
|GO:0045941//biological process| peroxisome organization and biogenesis | inferred from mutant phen
cess| DNA replication checkpoint | inferred from genetic interaction |GO:0000076
ess| protein-nucleus import | inferred from mutant phenotype |GO:0006606//biological process| protein-nucleus import | inferred f
rom mutant phenotype |GO:0005992//biological process| trehalose biosynthesis | inferred from genetic interaction |GO:0005992
ment |GO:0006408//biological process| rRNA-nucleus export | traceable author statement |GO:0006407//biological process| mRNA-nucleus ex
nsu Saccharomyces) | inferred from mutant phenotype |GO:0000065
om mutant phenotype |GO:0009237//biological process| iron ion homeostasis | inferred from mutant phenotype |GO:0006879
of cell cycle | inferred from mutant phenotype |GO:0000074
e |GO:0008298//biological process| Rho protein signal transduction | inferred from physical interaction |GO:0007266/
ment |GO:0006408//biological process| rRNA-nucleus export | traceable author statement |GO:0006407//biological process| mRNA-nucleus ex
0006319//biological process| DNA dealkylation | inferred from sequence similarity |GO:0006307//biological process| DNA deal
l II promoter | inferred from mutant phenotype|GO:0045944//biological process| aerobic respiration | inferred from mut
|GO:0006893//biological process| cytokinesis | inferred from mutant phenotype |GO:0000910
aring substrate-nucleus import | traceable author statement |GO:0006607//biological process| protein-nucleus import | inferred fro
leus import | inferred from mutant phenotype |GO:0006606//biological process| tRNA-nucleus export | traceable author statement |GO:00064
ule nucleation | inferred from physical interaction |GO:0007020
d from mutant phenotype |GO:0006800
hor statement |GO:0006409//biological process| snRNA-nucleus export | traceable author statement |GO:0006408//biological process| rRNA
0006319//biological process| DNA dealkylation | inferred from sequence similarity |GO:0006307//biological process| DNA deal
l II promoter | inferred from mutant phenotype|GO:0045944//biological process| aerobic respiration | inferred from mut
l II promoter | inferred from mutant phenotype|GO:0045944//biological process| aerobic respiration | inferred from mut
ment |GO:0000753//biological process| conjugation with cellular fusion | traceable author statement |GO:0000747//biological p
ess | inferred from mutant phenotype|GO:0006950//biological process| response to stress | inferred from genetic interaction |GO:0006950//biologi
cal process| RNA elongation | inferred from physical interaction |GO:0006354//biological process| RNA elongation | in
eable author statement |GO:0000283
ment |GO:0006408//biological process| rRNA-nucleus export | traceable author statement |GO:0006407//biological process| mRNA-nucleus ex
henotype |GO:0006266//biological process| DNA ligation | inferred from direct assay |GO:0006266
l II promoter | inferred from mutant phenotype|GO:0045944//biological process| aerobic respiration | inferred from mut
RNA catabolism, deadenylation-dependent | inferred from direct assay |GO:0000288//biological process| negative regulation of tran
ss| mRNA cleavage | inferred from direct assay |GO:0006379//biological process| mRNA polyadenylation | traceable author s
3//biological process| leucyl-tRNA aminoacylation | inferred from direct assay|GO:0006429//biological process| Ty element tr
NA catabolism, deadenylation-dependent | inferred from direct assay |GO:0000288//biological process| negative regulation of tran
rred from mutant phenotype |GO:0006412
nferred from genetic interaction |GO:0006355//biological process| establishment and/or maintenance of ch
ment |GO:0006408//biological process| rRNA-nucleus export | traceable author statement |GO:0006407//biological process| mRNA-nucleus ex
l II promoter | inferred from mutant phenotype|GO:0045944//biological process| aerobic respiration | inferred from mut
ulation of transcription from Pol II promoter | traceable author statement |GO:0000122
notype |GO:0006606//biological process| tRNA-nucleus export | traceable author statement |GO:0006409//biological process| snRNA-nucleu
l II promoter | inferred from mutant phenotype|GO:0045944//biological process| aerobic respiration | inferred from mut
tatement |GO:0006408//biological process| rRNA-nucleus export | traceable author statement |GO:0006407//biological process| mRNA-nucleu
phenotype |GO:0006468//biological process| protein amino acid phosphorylation | inferred from direct assay |GO:0006468
3//biological process| leucyl-tRNA aminoacylation | inferred from direct assay|GO:0006429//biological process| Ty element tr
l II promoter | inferred from mutant phenotype|GO:0045944//biological process| aerobic respiration | inferred from mut
269//biological process| DNA unwinding | traceable author statement |GO:0006268
ss| ubiquitin-dependent protein catabolism | inferred from direct assay |GO:0006511
A)-independent | inferred from mutant phenotype |GO:0030847//biological process| transcription termination from Po
ogical process| G2/M transition of mitotic cell cycle | inferred from physical interaction |GO:0000086//biological proce
tatement |GO:0006408//biological process| rRNA-nucleus export | traceable author statement |GO:0006407//biological process| mRNA-nucleu
:0015986//biological process| ATP synthesis coupled proton transport | inferred from physical interaction |GO:0015986//biological
n-nucleus import | inferred from mutant phenotype |GO:0006606//biological process| RNA localization | inferred from mutant phenot
mere | inferred from mutant phenotype |GO:0006348//biological process| chromatin assembly/disassembly | inferred from direct
phenotype|GO:0006348//biological process| Ty element transposition | inferred from sequence similarity |GO:0006319
rred from mutant phenotype |GO:0006033//biological process| invasive growth (sensu Saccharomyces) | inferred from ph
ment |GO:0006408//biological process| rRNA-nucleus export | traceable author statement |GO:0006407//biological process| mRNA-nucleus ex
007094//biological process| plasmid maintenance | inferred from mutant phenotype |GO:0006276
transport | inferred from mutant phenotype |GO:0015986
ss| G1/S transition of mitotic cell cycle | inferred from genetic interaction |GO:0000082
phenotype |GO:0000724//biological process| telomere maintenance | inferred from mutant phenotype |GO:0000723
ces) | inferred from physical interaction |GO:0000283//biological process| establishment of cell polarity (sensu Sacchar
biological process| regulation of transcription, DNA-dependent | inferred from sequence similarity |GO:0006355//biological pro
transport | inferred from mutant phenotype |GO:0015986
ogical process| G2/M transition of mitotic cell cycle | inferred from physical interaction |GO:0000086//biological proce
e |GO:0001302
ulation of cell cycle | inferred from mutant phenotype |GO:0000074
shment and/or maintenance of chromatin architecture | traceable author statement |GO:0006325//biological process| mitotic
nferred from genetic interaction |GO:0006338
tatement |GO:0006409//biological process| snRNA-nucleus export | traceable author statement |GO:0006408//biological process| rRNA-nuc
|GO:0000283//biological process| establishment of cell polarity (sensu Saccharomyces) | inferred from physical i
tatement |GO:0006408//biological process| rRNA-nucleus export | traceable author statement |GO:0006407//biological process| mRNA-nucleu
GO:0000750
nteraction |GO:0006986
process| meiotic DNA double-strand break processing | traceable author statement |GO:0000706
ction |GO:0006397//biological process| mRNA processing | inferred from mutant phenotype |GO:0006397//biological
on with cellular fusion | traceable author statement |GO:0000750//biological process| establishment of cell polarity (s
ement |GO:0000070
m mutant phenotype |GO:0000723
om physical interaction |GO:0000161//biological process| MAPKKK cascade during osmolarity sensing | inferred from
|GO:0045016//biological process| Group II intron splicing | inferred from mutant phenotype |GO:0000373
ng strand elongation | inferred from physical interaction |GO:0006272//biological process| leading strand elongation | inferr
tatement |GO:0006408//biological process| rRNA-nucleus export | traceable author statement |GO:0006407//biological process| mRNA-nucleu
ferred from mutant phenotype |GO:0006271//biological process| DNA topological change | inferred from direct assay |GO:0006265//biol
| iron ion homeostasis | inferred from expression pattern |GO:0006879
|GO:0006233//biological process| dUDP biosynthesis | inferred from direct assay |GO:0006227
statement |GO:0000080//biological process| regulation of cell cycle | traceable author statement |GO:0000074
phenotype |GO:0015986//biological process| protein complex assembly | inferred from physical interaction |GO:0006461//biologi
GO:0007264//biological process| pseudohyphal growth | traceable author statement |GO:0007124//biological process| polar bu
ve growth (sensu Saccharomyces) | inferred from genetic interaction |GO:0001403
u Saccharom
ological process| rRNA-nuc
henotype |GO:00066
rocess| deadenylation-dependent decapp
gical process| protein-nuc
Saccharomyce
ccharomyces) |
rocess| mRNA-nucleus ex
ment |GO:0006408//biolog
uolar targeting
86//biological
rocess| mRNA-nucleus ex
biological process| rRNA
rocess| mRNA-nucleus ex
ein biosynthesis
statement |GO:0006408//bi
biological process| rRNA
ort | inferred f
rocess| mRNA-nucleus ex
rocess| mRNA-nucleus ex
t | inferred fro
hor statement |GO:00064
biological process| rRNA
eraction |GO:0006950//biologi
rocess| mRNA-nucleus ex
egulation of tran
gulation of tran
rocess| mRNA-nucleus ex
process| snRNA-nucleu
cal process| mRNA-nucleu
cal process| mRNA-nucleu
86//biological
mutant phenot
rocess| mRNA-nucleus ex
gical process| rRNA-nuc
cal process| mRNA-nucleu
cal process| mRNA-nucleu
y |GO:0006265//biol
06461//biologi