; compare-families -q ms_complexes.tab -r GO.tab -return proba,percent -lth occ 2 -sort sig -v 1 -o complexes_vs_GO_sig0.tab -lth sig 0 ; Input files ; query_families ms_complexes.tab ; ref_families GO.tab ; Query families 725 ; 55 mds210 ; 11 mds211 ; 9 mds212 ; 8 mds140 ; 3 mds213 ; 5 mds214 ; 6 mds141 ; 3 mds142 ; 3 mds215 ; 9 mds143 ; 3 mds216 ; 5 mds144 ; 4 mds217 ; 7 mds145 ; 16 mds218 ; 6 mds146 ; 3 mds219 ; 6 mds147 ; 2 mds148 ; 3 mds149 ; 27 mds220 ; 2 mds221 ; 9 mds222 ; 15 mds223 ; 14 mds150 ; 4 mds224 ; 2 mds151 ; 22 mds225 ; 2 mds152 ; 2 mds226 ; 19 mds153 ; 2 mds227 ; 10 mds154 ; 2 mds155 ; 4 mds228 ; 6 mds229 ; 5 mds156 ; 7 mds157 ; 3 mds158 ; 6 mds159 ; 21 mds300 ; 12 mds301 ; 2 mds302 ; 3 mds303 ; 15 mds230 ; 5 mds304 ; 6 mds231 ; 3 mds305 ; 4 mds232 ; 2 mds306 ; 10 mds233 ; 13 mds160 ; 6 mds307 ; 40 mds234 ; 19 mds161 ; 3 mds308 ; 2 mds235 ; 7 mds162 ; 2 mds236 ; 5 mds163 ; 6 mds309 ; 7 mds164 ; 11 mds237 ; 13 mds238 ; 5 mds165 ; 16 mds166 ; 26 mds239 ; 9 mds167 ; 8 mds168 ; 34 mds169 ; 15 mds310 ; 3 mds311 ; 5 mds312 ; 4 mds240 ; 2 mds313 ; 4 mds241 ; 16 mds314 ; 13 mds242 ; 7 mds315 ; 2 mds170 ; 2 mds243 ; 3 mds316 ; 2 mds171 ; 2 mds244 ; 9 mds317 ; 5 mds172 ; 3 mds245 ; 17 mds173 ; 2 mds318 ; 2 mds246 ; 2 mds319 ; 11 mds174 ; 2 mds247 ; 10 mds175 ; 3 mds248 ; 4 mds176 ; 10 mds249 ; 4 mds177 ; 9 mds178 ; 4 mds179 ; 2 mds320 ; 2 mds321 ; 2 mds322 ; 3 mds323 ; 4 mds250 ; 5 mds324 ; 14 mds251 ; 6 mds325 ; 3 mds252 ; 33 mds326 ; 7 mds253 ; 29 mds180 ; 5 mds254 ; 4 mds181 ; 3 mds327 ; 4 mds182 ; 2 mds328 ; 15 mds255 ; 2 mds329 ; 2 mds256 ; 4 mds183 ; 5 mds257 ; 13 mds184 ; 2 mds258 ; 27 mds185 ; 5 mds259 ; 7 mds186 ; 4 mds187 ; 2 mds188 ; 4 mds189 ; 13 cz100 ; 23 cz101 ; 13 cz102 ; 12 cz103 ; 4 mds400 ; 2 cz104 ; 8 mds401 ; 20 cz105 ; 8 mds402 ; 35 cz106 ; 5 mds330 ; 16 mds403 ; 15 cz107 ; 2 mds331 ; 2 mds404 ; 9 cz108 ; 4 mds332 ; 8 mds405 ; 10 cz109 ; 5 mds260 ; 10 mds333 ; 3 mds406 ; 5 mds261 ; 3 mds334 ; 4 mds407 ; 17 mds262 ; 4 mds335 ; 11 mds190 ; 5 mds263 ; 2 mds408 ; 2 mds191 ; 7 mds336 ; 22 mds409 ; 6 mds264 ; 2 mds337 ; 2 mds192 ; 2 mds265 ; 11 mds338 ; 9 mds193 ; 4 mds266 ; 8 mds339 ; 2 mds194 ; 6 mds267 ; 6 mds195 ; 3 mds268 ; 2 mds196 ; 2 mds269 ; 16 mds197 ; 7 mds198 ; 4 mds199 ; 28 cz110 ; 73 cz111 ; 2 cz112 ; 13 cz113 ; 3 mds410 ; 9 cz114 ; 2 mds411 ; 29 cz115 ; 8 mds412 ; 24 cz116 ; 30 mds340 ; 2 mds413 ; 4 cz117 ; 2 mds341 ; 4 mds414 ; 17 cz118 ; 3 mds342 ; 22 mds415 ; 12 cz119 ; 12 mds270 ; 6 mds343 ; 3 mds416 ; 10 mds271 ; 13 mds344 ; 9 mds272 ; 10 mds417 ; 4 mds345 ; 3 mds418 ; 50 mds273 ; 4 mds346 ; 4 mds419 ; 4 mds274 ; 3 mds347 ; 4 mds275 ; 9 mds348 ; 3 mds276 ; 8 mds349 ; 10 mds277 ; 8 mds278 ; 8 mds279 ; 11 cz120 ; 10 cz121 ; 14 cz122 ; 40 cz123 ; 2 mds420 ; 10 cz124 ; 4 mds421 ; 12 cz125 ; 7 mds422 ; 50 cz126 ; 3 mds350 ; 5 mds423 ; 18 cz127 ; 14 mds351 ; 5 mds424 ; 36 cz128 ; 3 mds352 ; 18 mds425 ; 35 cz129 ; 2 mds280 ; 22 mds353 ; 8 mds281 ; 3 mds426 ; 4 mds354 ; 2 mds427 ; 13 mds282 ; 4 mds355 ; 4 mds428 ; 30 mds283 ; 5 mds356 ; 6 mds429 ; 6 mds284 ; 4 mds357 ; 4 mds285 ; 17 mds358 ; 38 mds286 ; 7 mds359 ; 2 mds287 ; 5 mds288 ; 3 mds289 ; 3 cz200 ; 6 cz201 ; 2 cz202 ; 7 cz203 ; 14 cz130 ; 4 cz204 ; 14 cz131 ; 3 cz205 ; 46 cz132 ; 3 cz206 ; 2 cz133 ; 19 mds430 ; 10 cz207 ; 11 cz134 ; 3 mds431 ; 2 cz208 ; 8 cz135 ; 8 mds432 ; 4 cz209 ; 28 cz136 ; 4 mds360 ; 3 mds433 ; 31 cz137 ; 3 mds361 ; 4 mds434 ; 27 cz138 ; 11 mds362 ; 43 cz139 ; 10 mds290 ; 2 mds435 ; 7 mds363 ; 2 mds436 ; 6 mds291 ; 3 mds364 ; 5 mds437 ; 29 mds292 ; 18 mds365 ; 8 mds438 ; 2 mds293 ; 4 mds366 ; 18 mds439 ; 13 mds294 ; 5 mds367 ; 4 mds295 ; 5 mds368 ; 3 mds296 ; 7 mds369 ; 6 mds297 ; 3 mds298 ; 3 mds299 ; 3 cz210 ; 3 cz211 ; 6 cz212 ; 2 cz213 ; 54 cz140 ; 2 cz214 ; 14 cz141 ; 3 cz215 ; 21 cz142 ; 2 cz216 ; 25 cz143 ; 10 mds440 ; 3 cz217 ; 4 cz144 ; 3 mds441 ; 2 cz218 ; 19 cz145 ; 12 mds442 ; 10 cz219 ; 35 cz146 ; 2 mds370 ; 24 mds443 ; 15 cz147 ; 7 mds371 ; 34 cz148 ; 4 mds444 ; 26 cz149 ; 18 mds372 ; 4 mds445 ; 53 mds373 ; 2 mds446 ; 6 mds374 ; 2 mds447 ; 2 mds375 ; 3 mds448 ; 2 mds376 ; 5 mds449 ; 12 mds377 ; 11 mds378 ; 9 mds379 ; 8 cz220 ; 3 cz221 ; 2 cz222 ; 2 cz223 ; 20 cz150 ; 8 cz224 ; 46 cz151 ; 3 cz225 ; 35 cz152 ; 18 cz226 ; 12 cz153 ; 6 mds450 ; 2 cz227 ; 29 cz154 ; 3 mds451 ; 8 cz228 ; 26 cz155 ; 4 mds452 ; 11 cz229 ; 84 cz156 ; 15 mds380 ; 36 cz157 ; 9 mds453 ; 46 cz158 ; 3 mds381 ; 7 mds454 ; 50 cz159 ; 3 mds382 ; 6 mds455 ; 5 mds383 ; 4 mds456 ; 3 mds384 ; 4 mds457 ; 8 mds385 ; 3 mds458 ; 13 mds386 ; 2 mds459 ; 4 mds387 ; 9 mds388 ; 2 mds389 ; 13 cz230 ; 3 cz231 ; 2 cz232 ; 51 cz160 ; 82 cz161 ; 36 cz162 ; 88 cz163 ; 4 mds460 ; 4 cz164 ; 5 mds461 ; 2 cz165 ; 2 cz166 ; 3 mds462 ; 4 cz167 ; 8 mds390 ; 2 mds463 ; 8 cz168 ; 12 mds391 ; 3 mds464 ; 4 cz169 ; 5 mds392 ; 2 mds465 ; 2 mds393 ; 16 mds466 ; 3 mds394 ; 6 mds467 ; 2 mds395 ; 10 mds468 ; 32 mds396 ; 3 mds469 ; 10 mds397 ; 9 mds398 ; 10 mds399 ; 5 cz170 ; 2 cz171 ; 3 cz172 ; 6 cz173 ; 7 mds470 ; 5 cz174 ; 7 cz175 ; 11 mds471 ; 2 cz176 ; 17 mds472 ; 2 cz177 ; 2 mds473 ; 7 cz178 ; 10 mds474 ; 2 cz179 ; 3 mds475 ; 2 mds476 ; 4 mds477 ; 14 mds478 ; 3 mds479 ; 5 mds1 ; 4 mds2 ; 61 mds3 ; 2 mds4 ; 4 mds5 ; 6 mds6 ; 2 mds7 ; 7 mds8 ; 25 mds9 ; 3 cz10 ; 4 cz180 ; 2 cz11 ; 2 cz181 ; 4 cz182 ; 2 cz12 ; 7 cz183 ; 6 cz13 ; 3 cz184 ; 3 mds480 ; 3 cz14 ; 3 cz185 ; 15 mds481 ; 3 cz15 ; 5 cz186 ; 2 mds482 ; 15 cz16 ; 6 cz187 ; 17 mds483 ; 2 cz17 ; 2 cz188 ; 7 mds484 ; 3 cz18 ; 18 cz189 ; 4 mds485 ; 6 cz19 ; 4 mds486 ; 5 mds487 ; 3 mds488 ; 6 mds489 ; 8 cz190 ; 5 cz20 ; 7 cz191 ; 3 cz192 ; 2 cz21 ; 3 cz193 ; 2 cz22 ; 1 cz194 ; 9 cz23 ; 2 mds490 ; 4 cz195 ; 3 cz24 ; 2 mds491 ; 3 cz196 ; 3 cz25 ; 2 mds492 ; 2 cz197 ; 10 cz26 ; 9 mds493 ; 2 cz198 ; 3 cz27 ; 2 cz28 ; 2 cz29 ; 2 cz199 ; 3 cz30 ; 16 cz31 ; 7 cz32 ; 3 cz33 ; 2 cz34 ; 4 cz35 ; 17 cz36 ; 2 cz37 ; 3 cz38 ; 5 cz39 ; 2 cz40 ; 3 cz41 ; 2 cz42 ; 3 cz43 ; 1 cz44 ; 2 cz45 ; 3 cz46 ; 3 cz47 ; 3 cz48 ; 1 cz49 ; 11 mds10 ; 7 mds11 ; 31 mds12 ; 51 mds13 ; 3 mds14 ; 5 mds15 ; 3 mds16 ; 2 mds17 ; 4 mds18 ; 10 mds19 ; 2 cz50 ; 2 cz51 ; 2 cz52 ; 2 cz53 ; 9 cz54 ; 2 cz55 ; 2 cz56 ; 2 cz57 ; 4 cz58 ; 3 cz59 ; 24 mds20 ; 11 mds21 ; 2 mds22 ; 8 mds23 ; 34 mds24 ; 26 mds25 ; 14 mds26 ; 9 mds27 ; 2 mds28 ; 18 mds29 ; 3 cz60 ; 2 cz61 ; 13 cz62 ; 7 cz63 ; 2 cz64 ; 5 cz65 ; 2 cz66 ; 2 cz67 ; 8 cz68 ; 7 cz69 ; 4 mds30 ; 5 mds31 ; 5 mds32 ; 2 mds33 ; 2 mds34 ; 4 mds35 ; 3 mds36 ; 7 mds37 ; 4 mds38 ; 2 mds39 ; 21 cz70 ; 7 cz71 ; 4 cz72 ; 13 cz73 ; 12 cz74 ; 10 cz75 ; 20 cz76 ; 24 cz77 ; 4 cz78 ; 5 cz79 ; 19 mds40 ; 36 mds41 ; 13 mds42 ; 7 mds43 ; 3 mds44 ; 16 mds45 ; 5 mds46 ; 2 mds47 ; 11 mds48 ; 7 mds49 ; 10 cz80 ; 4 cz81 ; 4 cz82 ; 10 cz83 ; 3 cz84 ; 3 cz85 ; 19 cz86 ; 7 cz87 ; 9 cz88 ; 7 cz89 ; 45 mds50 ; 27 mds51 ; 10 mds52 ; 13 mds53 ; 4 mds54 ; 7 cz1 ; 27 mds55 ; 2 cz2 ; 15 mds56 ; 9 cz3 ; 4 mds57 ; 13 cz4 ; 3 mds58 ; 6 cz5 ; 2 mds59 ; 4 cz6 ; 10 cz7 ; 2 cz8 ; 3 cz9 ; 4 cz90 ; 19 cz91 ; 20 cz92 ; 16 cz93 ; 7 cz94 ; 23 cz95 ; 4 cz96 ; 15 cz97 ; 4 cz98 ; 34 cz99 ; 6 mds60 ; 3 mds61 ; 8 mds62 ; 7 mds63 ; 4 mds64 ; 26 mds65 ; 7 mds66 ; 4 mds67 ; 8 mds68 ; 4 mds69 ; 2 mds70 ; 4 mds71 ; 5 mds72 ; 6 mds73 ; 7 mds74 ; 3 mds75 ; 11 mds76 ; 3 mds77 ; 4 mds78 ; 3 mds79 ; 15 mds80 ; 5 mds81 ; 4 mds82 ; 11 mds83 ; 47 mds84 ; 2 mds85 ; 4 mds86 ; 7 mds87 ; 4 mds88 ; 39 mds89 ; 12 mds90 ; 2 mds91 ; 10 mds92 ; 6 mds93 ; 7 mds94 ; 10 mds95 ; 3 mds96 ; 12 mds97 ; 6 mds98 ; 2 mds99 ; 44 mds100 ; 3 mds101 ; 4 mds102 ; 13 mds103 ; 46 mds104 ; 3 mds105 ; 8 mds106 ; 3 mds107 ; 7 mds108 ; 4 mds109 ; 8 mds110 ; 10 mds111 ; 17 mds112 ; 4 mds113 ; 5 mds114 ; 6 mds115 ; 4 mds116 ; 8 mds117 ; 13 mds118 ; 46 mds119 ; 7 mds120 ; 2 mds121 ; 10 mds122 ; 13 mds123 ; 3 mds124 ; 2 mds125 ; 11 mds126 ; 20 mds127 ; 5 mds128 ; 8 mds129 ; 3 mds200 ; 3 mds201 ; 6 mds202 ; 8 mds203 ; 63 mds130 ; 9 mds204 ; 12 mds131 ; 2 mds205 ; 2 mds132 ; 2 mds206 ; 9 mds133 ; 4 mds207 ; 2 mds134 ; 11 mds208 ; 10 mds135 ; 2 mds209 ; 28 mds136 ; 7 mds137 ; 2 mds138 ; 2 mds139 ; Reference families 1890 ; 1 CDP-diacylglycerol-serine O-phosphatidyltransferase ; 13 mitotic metaphase/anaphase transition ; 1 multidrug efflux pump ; 5 vacuolar protein processing/maturation ; 2 phosphatidylinositol binding ; 17 ubiquitin-specific protease ; 1 GTP cyclohydrolase I ; 21 monoubiquitylation ; 1 2-amino-4-hydroxy-6-hydroxymethyldihydropteridine pyrophosphokinase ; 1 copper chaperone ; 2 choline kinase ; 2 histidyl-tRNA aminoacylation ; 1 aspartic-type signal peptidase ; 1 dihydrofolate synthase ; 2 FMN biosynthesis ; 1 5-methyltetrahydropteroyltriglutamate--homocysteine S-methyltransferase ; 3 terpenoid biosynthesis ; 7 magnesium ion transporter ; 62 RNA binding ; 10 cytoskeletal adaptor ; 1 argininosuccinate lyase ; 2 spermidine synthase ; 9 glycogen biosynthesis regulation ; 1 acetyl-CoA hydrolase ; 1 hydroxyethylthiazole kinase ; 2 phosphoglycerate dehydrogenase ; 10 actin cytoskeleton organization and biogenesis ; 41 actin filament organization ; 9 cation homeostasis ; 1 insoluble fraction ; 36 membrane fraction ; 2 G-protein signaling, coupled to cAMP nucleotide second messenger ; 3 cyclin-dependent protein kinase inhibitor ; 2 osmosensor ; 5 polarisome ; 2 endopeptidase ; 11 mitochondrial fission ; 1 endosome traffic ; 7 DNA replication, priming ; 9 late endosome ; 1 acetyl-CoA C-acetyltransferase ; 3 voltage-dependent ion-selective channel ; 1 mannose-6-phosphate isomerase ; 4 cell proliferation ; 45 35S primary transcript processing ; 3 cell-cell fusion ; 3 inositol/phosphatidylinositol phosphatase ; 7 septin ring ; 3 DNA replication regulation ; 1 regulation of DNA recombination ; 5 serine biosynthesis ; 25 transcription from Pol I promoter ; 3 pyruvate decarboxylase ; 1 anti-apoptosis ; 4 cold response ; 2 diphthine synthase ; 7 pantothenate biosynthesis ; 10 salinity response ; 2 intron homing ; 2 sphingosine hydroxylase ; 7 MAP kinase ; 1 O-succinylhomoserine (thiol)-lyase ; 6 signal recognition particle ; 24 mismatch repair ; 10 vacuolar protein degradation ; 16 leading strand elongation ; 3 holocytochrome c synthase ; 7 specific transcriptional repressor ; 17 cell growth and maintenance ; 3 a-factor processing (proteolytic) ; 2 thioredoxin reductase (NADPH) ; 5 manganese homeostasis ; 3 exonuclease ; 115 cytosol ; 6 spindle microtubule ; 11 RNA polymerase III transcription factor ; 1 gamma DNA-directed DNA polymerase ; 1 voltage-gated chloride channel ; 5 glyoxylate cycle ; 2 nucleoside-diphosphate kinase ; 19 O-linked glycosylation ; 173 mitochondrion ; 3 RAS GTPase activator ; 1 unfolded protein response, ligation of mRNA encoding UFP-specific transcription factor by RNA ligase ; 5 inactivation of MAPK (osmolarity sensing) ; 3 tryptophan--tRNA ligase ; 89 transcription initiation from Pol II promoter ; 4 ARF guanyl-nucleotide exchange factor ; 1 protoheme IX farnesyltransferase ; 1 RAN GTPase activator ; 78 mitochondrial inner membrane ; 1 sodium channel ; 13 nucleosome ; 1 acyl-CoA binding ; 2 pantoate--beta-alanine ligase ; 2 snRNA cap binding complex ; 3 ARF small monomeric GTPase ; 1 isoleucine metabolism ; 2 amino acid and derivative metabolism ; 4 19S proteasome regulatory particle, lid subcomplex ; 3 malic enzyme ; 3 intracellular transporter ; 7 glucosidase ; 2 activation of MAPK (pseudohyphal growth) ; 2 threonyl-tRNA aminoacylation ; 9 nuclear organization and biogenesis ; 1 transcription termination from Pol I promoter ; 2 aspartate catabolism ; 3 metabolism ; 3 3-oxoacyl-[acyl-carrier protein] synthase ; 40 protein kinase ; 1 oligosaccharide transport ; 6 transferase, transferring pentosyl groups ; 25 mRNA binding ; 5 N-glycan processing ; 30 meiotic recombination ; 7 phosphatidylcholine biosynthesis ; 3 protein threonine/tyrosine kinase ; 1 phosphatidic acid biosynthesis ; 1 diphosphomevalonate decarboxylase ; 15 RAS protein signal transduction ; 1 allantoin transport ; 7 purine base biosynthesis ; 4 actin filament depolymerization ; 1 siroheme synthase ; 16 peroxisome ; 4 desumoylation ; 2 lipid:protein modification ; 175 plasma membrane ; 2 [cytochrome c]-lysine N-methyltransferase ; 5 amino acid activation ; 1 biotin--[propionyl-CoA-carboxylase (ATP-hydrolyzing)] ligase ; 6 receptor ; 3 arginine metabolism ; 2 global transcription regulation from Pol II promoter ; 8 double-strand break repair via nonhomologous end-joining ; 56 hydrogen-transporting two-sector ATPase ; 15 translation elongation factor ; 4 glycogenin glucosyltransferase ; 2 metal ion transport ; 2 glucosamine--fructose-6-phosphate aminotransferase (isomerizing) ; 13 respiratory chain complex III ; 3 respiration ; 8 nicotinamide adenine dinucleotide (NAD) biosynthesis ; 1 GABA transporter ; 12 protein carrier ; 3 calcium-dependent protein serine/threonine phosphatase regulator ; 3 inorganic diphosphatase ; 1 adenylsulfate kinase ; 18 proton-transporting ATP synthase complex, coupling factor F(0) ; 10 Arp2/3 protein complex ; 1 biotin transport ; 1 acetylornithine aminotransferase ; 3 phosphatidylinositol 3-kinase ; 1 fumarate transport ; 1 phospholipid binding ; 1 N-linked glycoprotein maturation ; 2 hexadecanal biosynthesis ; 12 spindle ; 1 anaerobic respiration ; 23 chromatin architecture ; 1 vacuolar aminopeptidase I ; 6 microtubule binding ; 3 basic amino acid transport ; 25 NLS-bearing substrate-nucleus import ; 21 lipid particle ; 1 RHEB small monomeric GTPase ; 1 dolichyl-phosphate beta-glucosyltransferase ; 8 mating-type specific transcriptional control ; 1 nicotinamidase ; 23 small GTPase mediated signal transduction ; 24 DNA replication initiation ; 1 diadenosine polyphosphate metabolism ; 2 steroid metabolism ; 21 heat response ; 2 inner mitochondrial membrane organization and biogenesis ; 5 importin alpha export receptor ; 5 chromatin silencing complex ; 1 xylulokinase ; 18 hydrogen-transporting ATPase V1 domain ; 1 thiosulfate sulfurtransferase ; 4 potassium ion homeostasis ; 87 protein phosphorylation ; 1 centromere/kinetochore complex maturation ; 8 nitrogen metabolism ; 18 glucose transporter ; 1 allantoicase ; 2 histone dephosphorylation ; 21 Golgi to plasma membrane transport ; 1 biotin--[methylcrotonoyl-CoA-carboxylase] ligase ; 7 protein acetylation ; 1 phosphoribosyl-AMP cyclohydrolase ; 7 spliceosome assembly ; 8 alpha-1,2-mannosyltransferase ; 2 pyruvate dehydrogenase complex ; 11 mitotic anaphase B ; 1 hemolysin ; 1 glucokinase ; 3 4-alpha-glucanotransferase ; 1 histidinol dehydrogenase ; 1 histidinol-phosphatase ; 2 glycogen catabolism ; 14 fructose transporter ; 11 eukaryotic translation initiation factor 3 complex ; 2 proteinase inhibitor ; 11 complex III (ubiquinone to cytochrome c) ; 6 homocitrate synthase ; 1 cerevisin ; 3 inactivation of MAPK (mating sensu Saccharomyces) ; 2 5'-3' exoribonuclease ; 1 NADH metabolism ; 1 fructose-bisphosphatase ; 2 flavin adenine dinucleotide transporter ; 7 inorganic phosphate transporter ; 1 intermediate filament ; 11 nuclear exosome (RNase complex) ; 4 MAP kinase kinase ; 5 RNA polymerase I transcription factor complex ; 10 RNA polymerase I transcription factor ; 18 alpha,alpha-trehalose-phosphate synthase (UDP-forming) ; 4 lipid binding ; 21 Golgi to vacuole transport ; 2 NAD+ pyrophosphatase ; 11 enzyme activator ; 5 chitin deacetylase ; 2 mitochondrial fusion ; 2 2-oxoglutarate metabolism ; 3 methionyl-tRNA aminoacylation ; 5 ammonium transport ; 2 vitamin B12 reduction ; 1 snRNP recycling ; 6 ribosomal DNA (rDNA) binding ; 4 repairosome ; 1 enzyme inhibitor ; 4 alcohol dehydrogenase ; 3 fructose metabolism ; 9 microtubule motor ; 1 viral life cycle ; 43 mitochondrial translocation ; 1 hexaprenyldihydroxybenzoate methyltransferase ; 5 peptidase ; 4 methionine--tRNA ligase ; 1 cytidine catabolism ; 12 ion homeostasis ; 62 integral membrane protein ; 3 protein tyrosine kinase ; 19 commitment complex ; 3 peptidyltransferase ; 33 autophagy ; 3 S phase of mitotic cell cycle ; 12 mitochondrial outer membrane translocase complex ; 6 cell adhesion receptor ; 1 leucyl aminopeptidase ; 1 spermine biosynthesis ; 10 protein-arginine N-methyltransferase ; 2 cAMP-specific phosphodiesterase ; 1 biotin synthase ; 4 cell aging ; 1 cytochrome c peroxidase ; 1 serine family amino acid catabolism ; 10 dolichyl-phosphate-mannose--protein mannosyltransferase ; 14 tRNA modification ; 2 urea transporter ; 31 non-selective vesicle fusion ; 24 endosome ; 24 chromatin silencing at HML and HMR (sensu Saccharomyces) ; 7 mannosyltransferase complex ; 3 glutamate catabolism ; 1 bile acid transporter ; 1 heavy metal response ; 1 succinate transport ; 25 protein glycosylation ; 16 TFIID complex ; 1 actin cytoskeleton ; 3 metal ion homeostasis ; 1 phosphatidylserine metabolism ; 1 ribonuclease ; 1 C-3 sterol dehydrogenase (C-4 sterol decarboxylase) ; 6 chemosensory perception ; 2 adenosylmethionine--8-amino-7-oxononanoate aminotransferase ; 4 mitochondrial transport ; 7 calcium ion homeostasis ; 7 glucan 1,3-beta-glucosidase ; 5 metalloendopeptidase ; 1 prephenate dehydratase ; 3 nascent polypeptide-associated complex ; 10 mRNA localization, intracellular ; 5 protein synthesis termination ; 3 glycine--tRNA ligase ; 11 cytoskeletal protein binding protein ; 2 allantoinase ; 2 cell morphogenesis checkpoint ; 1 3-keto sterol reductase ; 4 control of mitosis ; 2 allantoin permease ; 3 budding ; 1 nucleoside transport ; 36 iron homeostasis ; 11 vacuolar transport ; 1 O-acetylhomoserine (thiol)-lyase ; 1 proline transport ; 1 calcium/calmodulin-dependent protein kinase ; 1 dihydroorotase ; 13 GPI anchor synthesis ; 1 isocitrate lyase ; 7 DNA dependent adenosinetriphosphatase ; 1 protein deglycosylation ; 25 chromatin ; 6 di-, tri-valent inorganic cation transporter ; 2 alanine--tRNA ligase ; 2 aconitate hydratase ; 2 mitotic spindle assembly ; 4 cation:cation antiporter ; 4 lipase ; 1 oxidoreductase, acting on NADH or NADPH ; 1 cysteine--tRNA ligase ; 18 apical bud growth ; 65 aerobic respiration ; 6 galactose transporter ; 12 damaged DNA binding ; 16 ubiquitin conjugating enzyme ; 5 mitochondrial ribosome ; 1 ribonuclease III ; 1 carboxypeptidase C ; 1 amidophosphoribosyltransferase ; 2 transcription from mitochondrial promoter ; 1 carboxypeptidase D ; 2 ferrochelatase ; 10 actin polymerization and/or depolymerization ; 33 adenosinetriphosphatase ; 4 alpha,alpha-trehalase ; 12 shmoo tip ; 3 nucleotide excision repair factor 1 ; 2 nucleotide excision repair factor 2 ; 7 nucleotide excision repair factor 3 ; 3 ribosome nucleus export ; 4 ribonucleoside-diphosphate reductase ; 24 protein synthesis elongation ; 2 transferase, transferring phosphorus-containing groups ; 2 nucleotide excision repair factor 4 ; 2 intracellular iron storage ; 1 osmosensory signaling pathway via Sho1 osmosensor ; 1 protein-glutamine gamma-glutamyltransferase ; 5 protein-mitochondrial targeting ; 2 calcium binding ; 1 cytosine deaminase ; 6 NADH2 dehydrogenase ; 3 alpha-factor maturation ; 3 ion transport ; 1 iron hydrogenase ; 28 rRNA-nucleus export ; 1 cysteine synthase ; 2 leucine--tRNA ligase ; 4 post Golgi transport ; 36 ribosomal large subunit assembly and maintenance ; 1 maltose:hydrogen symporter ; 1 peroxisome matrix protein import ; 14 anaphase-promoting complex ; 3 indole-3-glycerol-phosphate synthase ; 1 methylenetetrahydrofolate dehydrogenase (NADP+) ; 2 glycerol-3-phosphate dehydrogenase (NAD+) ; 4 19S proteasome regulatory particle, base subcomplex ; 10 monocarboxylic acid transporter ; 6 microfilament motor ; 5 ammonium transporter ; 1 endosome to lysosome transport ; 5 purine salvage ; 12 histone methylation ; 25 histone acetylation ; 2 malate dehydrogenase (oxaloacetate decarboxylating) ; 3 RAS guanyl-nucleotide exchange factor ; 10 TRAPP ; 3 ribulose-phosphate 3-epimerase ; 2 phosphoribosyl-ATP pyrophosphatase ; 1 histidine--tRNA ligase ; 1 saccharolysin ; 4 sodium ion homeostasis ; 2 myo-inositol transport ; 1 saccharopine dehydrogenase (NAD+, L-lysine forming) ; 1 electron-transferring-flavoprotein dehydrogenase ; 3 DNA ligase (ATP) ; 6 chromatin assembly complex ; 2 mRNA (guanine-N7)-methyltransferase ; 2 adenosine kinase ; 3 Cdc73/Paf1 complex ; 2 enolase ; 2 methyltransferase ; 4 bilirubin transport ; 15 ribosomal small subunit assembly and maintenance ; 5 xenobiotic-transporting ATPase ; 18 telomere ; 3 microtubule stabilization ; 5 casein kinase I ; 1 acyl-CoA thioesterase ; 6 long-chain-fatty-acid-CoA-ligase ; 1 3'(2'),5'-bisphosphate nucleotidase ; 6 calcium ion transport ; 2 organic acid transporter ; 2 cysteine metabolism ; 1 loss of chromatin silencing ; 4 receptor signaling protein serine/threonine kinase ; 1 uracil permease ; 1 acetylglucosaminyltransferase ; 1 cadmium ion transporter ; 2 protein stabilization ; 1 sterol glucosyltransferase ; 2 mRNA modification ; 1 cell adhesion ; 1 beta DNA polymerase ; 9 small monomeric GTPase ; 2 phosphatidate phosphatase ; 6 double-stranded DNA binding ; 1 complex I (NADH to ubiquinone) ; 1 UDP-galactose transport ; 1 apoptosis ; 13 translational regulation ; 12 exit from mitosis ; 2 aldehyde dehydrogenase (NAD+) ; 9 DNA damage checkpoint ; 5 actin cable (sensu Saccharomyces) ; 1 1-pyrroline-5-carboxylate dehydrogenase ; 1 myo-inositol-1-phosphate synthase ; 1023 cellular_component unknown ; 7 1,3-beta-glucan synthase ; 2 fatty-acid synthase complex ; 1 chitinase ; 1 RHO GDP-dissociation inhibitor ; 2 pseudouridine synthesis ; 6 phosphoglucomutase ; 7 iron transport ; 2 budding control ; 1 dTDP biosynthesis ; 7 sulfur amino acid metabolism ; 9 translational fidelity ; 6 protein deacetylation ; 1 glutathione reductase (NADPH) ; 15 histone deacetylation ; 5 glucose transport ; 7 oxysterol binding ; 1 galactokinase ; 1 argininosuccinate synthase ; 3 glutamate--tRNA ligase ; 3 glutamate 5-kinase ; 1 dihydrofolate reductase ; 1 methionyl-tRNA formyltransferase ; 12 intracellular protein traffic ; 1 delta(24)-sterol C-methyltransferase ; 6 pheromone ; 9 purine base metabolism ; 40 spindle pole body ; 15 peroxisomal matrix ; 2 ceramide metabolism ; 4 di-, tri-valent inorganic cation transport ; 4 carnitine O-acetyltransferase ; 1 rRNA transcription ; 1 spermine synthase ; 3 methionine adenosyltransferase ; 4 glutathione peroxidase ; 5 isocitrate metabolism ; 1 trans-hexaprenyltranstransferase ; 10 chromatin silencing at ribosomal DNA (rDNA) ; 2 peptide metabolism ; 3 maintenance of chromatin silencing ; 3 hydroxyacylglutathione hydrolase ; 4 glycerophospholipid metabolism ; 1 UDP-glucose 4-epimerase ; 29 ribosome ; 4 glutathione metabolism ; 2 mannan metabolism ; 4 SUMO-specific protease ; 2 isocitrate dehydrogenase (NAD+) ; 1 general amino acid permease ; 13 RAB GTPase activator ; 1 sphinganine-1-phosphate aldolase ; 2 dicarboxylic acid transport ; 12 respiratory chain complex IV ; 3 plasma membrane long-chain fatty acid transporter ; 2 D-erythro-sphingosine kinase ; 3 pyridoxamine-phosphate oxidase ; 1 valine catabolism ; 1 kexin ; 6 DNA replication origin binding ; 14 dolichyl-diphosphooligosaccharide-protein glycosyltransferase ; 1 UDP-glucose:glycoprotein glucosyltransferase ; 2 2-dehydro-3-deoxyphosphoheptonate aldolase ; 3 urea transport ; 2 nucleotide metabolism ; 3 ATP-dependent peptidase ; 2 pH response ; 14 fatty acid metabolism ; 1 ornithine metabolism ; 2 proline--tRNA ligase ; 1 aminoacyl-tRNA hydrolase ; 2 biotin--[acetyl-CoA-carboxylase] ligase ; 1 ATP phosphoribosyltransferase ; 2 G-protein coupled receptor protein signaling pathway ; 1 3-isopropylmalate dehydratase ; 2 thiamin transport ; 4 UTP--glucose-1-phosphate uridylyltransferase ; 11 nuclear fusion ; 4 very long chain fatty acid metabolism ; 3 calcium channel ; 3 G1/S-specific transcription in mitotic cell cycle ; 1 cytoskeletal regulator ; 1 intermediate layer of spindle pole body ; 1 glycine metabolism ; 2 protein kinase cascade ; 6 mitotic sister chromatid cohesion ; 2 acetyl-CoA biosynthesis ; 11 incipient bud site ; 4 aromatic amino acid family metabolism ; 10 protein-membrane targeting ; 1 stearoyl-CoA desaturase ; 2 transaldolase ; 5 manganese ion transporter ; 3 translation release factor ; 1 3-hydroxypalmitoyl-[acyl-carrier protein] dehydratase ; 2 alanine aminotransferase ; 19 mitotic chromosome condensation ; 6 alpha-1,6-mannosyltransferase ; 11 one-carbon compound metabolism ; 1 threonine aldolase ; 12 phospholipid biosynthesis ; 7 deadenylation-dependent mRNA decay ; 3 methylenetetrahydrofolate reductase (NADPH) ; 4 Golgi cis cisterna ; 48 mRNA-nucleus export ; 2 ribose-5-phosphate isomerase ; 5 alcohol metabolism ; 11 cytoplasmic microtubule ; 1 degradation of misfolded or incompletely synthesized proteins ; 1 tRNA (cytosine-5-)-methyltransferase ; 1 chitin localization ; 2 alpha-mannosidase ; 2 poly(A)-specific ribonuclease ; 3 sterol metabolism ; 10 tubulin folding ; 1 cystine transporter ; 2 chitosan layer of spore wall ; 2 sulfhydryl oxidase ; 3 fatty acid transport ; 8 Golgi transport complex ; 23 intracellular ; 1 glutamate N-acetyltransferase ; 400 protein biosynthesis ; 27 integral plasma membrane protein ; 4 RAN small monomeric GTPase ; 2 asparagine synthase (glutamine-hydrolyzing) ; 2 uridine transporter ; 2 glycerone kinase ; 2 glycylpeptide N-tetradecanoylytansferase ; 1 phosphatidate cytidylyltransferase ; 1 dolichol kinase ; 7 ARF GTPase activator ; 3 endodeoxyribonuclease ; 2 S-adenosylmethionine transporter ; 3 protein farnesyltransferase ; 3 DNA replication and chromosome cycle ; 6 translocon ; 1 phosphoenolpyruvate carboxykinase (ATP) ; 1 orotidine-5'-phosphate decarboxylase ; 8 Golgi trans-face ; 2 1-phosphatidylinositol 4-kinase ; 8 sulfate assimilation ; 4 DNA de-alkylation ; 4 complex II (succinate to ubiquinone) ; 15 NAD-dependent histone deacetylase ; 1 cystathione beta-synthase ; 1 chorismate mutase ; 2 fumarate reductase (NADH) ; 6 glycogen synthase kinase 3 ; 1 ethanolamine kinase ; 2 nuclease ; 1 enoyl-[acyl-carrier protein] reductase ; 1 polynucleotide adenylyltransferase ; 3 nuclear migration ; 2 ligase ; 5 pheromone induction of gene expression from Pol II promoter ; 1 sterol C-24(28) reductase ; 79 protein binding ; 1 mitochondrial electron transport chain complex ; 1 C-22 sterol desaturase ; 1 saccharopine dehydrogenase (NADP+, L-glutamate forming) ; 25 RHO protein signal transduction ; 1 3-hydroxyacyl-CoA dehydrogenase ; 17 isotropic bud growth ; 37 G1/S transition of mitotic cell cycle ; 41 pre-mRNA splicing factor ; 9 polysome ; 1 carboxylesterase ; 60 multicatalytic endopeptidase ; 2 riboflavin kinase ; 2 coenzyme-A transporter ; 4 tRNA binding ; 1 acyl-CoA oxidase ; 21 mRNA cleavage ; 4 maltose permease ; 1 calcium:hydrogen antiporter ; 2 succinate--CoA ligase (ADP-forming) ; 1 nucleosome disassembly ; 36 polar budding ; 1 3'-splice site cleavage, exon ligation ; 4 enzyme ; 7 myo-inositol metabolism ; 1 glucosamine-phosphate N-acetyltransferase ; 25 snRNP protein-nucleus import ; 1 UDP-N-acetylglucosamine pyrophosphorylase ; 2 protein kinase inhibitor ; 3 purine-nucleoside phosphorylase ; 3 malate metabolism ; 1 arginyltransferase ; 100 mRNA splicing ; 1 aspartate biosynthesis ; 2 protein tyrosine/threonine phosphatase ; 2 threonine dehydratase ; 1 bud scar ; 1 5-amino-6-(5-phosphoribosylamino)uracil reductase ; 4 asparagine--tRNA ligase ; 18 3'-5' exoribonuclease ; 2 tRNA (guanine-N7-)-methyltransferase ; 5 microtubule ; 34 small nucleolar ribonucleoprotein particle ; 1 citrulline metabolism ; 1 ornithine transporter ; 1 beta-fructofuranosidase ; 9 post-replication repair ; 6 DNA clamp loader ; 1 oxidoreductase, acting on NADH or NADPH, disulfide as acceptor ; 1 actin monomer sequestering ; 2 establishment and/or maintenance of cell polarity (sensu Saccharomyces) ; 1 phosphoribosylformylglycinamidine synthase ; 2 glutathione biosynthesis ; 1 UTP--hexose-1-phosphate uridylyltransferase ; 1 hydrogen:amino acid symporter ; 2 phosphogluconate dehydrogenase (decarboxylating) ; 5 protein-nucleus import, docking ; 1 two-component sensor molecule ; 33 mitotic chromosome segregation ; 3 Golgi trans cisterna ; 1 xylulose catabolism ; 2 Fe2S2 electron transfer carrier ; 1 ribose metabolism ; 2 phosphatidylinositol biosynthesis ; 50 endocytosis ; 8 single-stranded DNA binding ; 5 base-excision repair ; 4 SNF1A/AMP-activated protein kinase ; 34 bud site selection ; 1 low affinity iron transport ; 30 20S core proteasome ; 1 D-arabinono-1,4-lactone oxidase ; 1 dihydrolipoamide S-succinyltransferase ; 2 RAB guanyl-nucleotide exchange factor ; 4 phosphate starvation response ; 6 homologous chromosome segregation ; 4 FMN adenylyltransferase ; 1 tryptophan 2,3 dioxygenase ; 1 ATP-dependent proteolysis ; 8 hydrogen-transporting ATP synthase, central stalk ; 15 deubiquitylation ; 13 nucleoplasm ; 4 outer plaque of spindle pole body ; 1 copper, zinc superoxide dismutase ; 2 RNA lariat debranching enzyme ; 2 electron carrier ; 6 double-strand break repair ; 17 carbohydrate metabolism ; 1 protein phosphatase inhibitor ; 2 nicotinate phosphoribosyltransferase ; 4 cell cycle checkpoint ; 1 glycogen phosphorylase ; 80 ER to Golgi transport ; 4 heterotrimeric G-protein GTPase ; 13 transcription initiation from Pol III promoter ; 26 Pol II transcription elongation factor ; 41 vesicle transport ; 10 actin cortical patch assembly ; 1 3-methyl-2-oxobutanoate hydroxymethyltransferase ; 4 glucose 1-phosphate utilization ; 2 methionyl aminopeptidase ; 18 DNA replication ; 1 saccharopepsin ; 2 arginine--tRNA ligase ; 1 ornithine carbamoyltransferase ; 2 8-oxoguanine DNA glycosylase ; 1 adenylate cyclase activation ; 35 DNA-directed RNA polymerase III ; 2 importin, beta-subunit ; 5 xenobiotic response ; 1 tRNA adenylyltransferase ; 6 cortex ; 12 prospore membrane ; 5 CCR4-NOT complex ; 37 mitochondrial small ribosomal subunit ; 2 nicotinamide mononucleotide transport ; 2 rRNA (uridine-2'-O-)-methyltransferase ; 1 non-selective vesicle transport ; 1 phosphorylation ; 5 sterol biosynthesis ; 3 threonine--tRNA ligase ; 25 signal transducer ; 1 antifungal peptide ; 1 nitrilase ; 9 unfolded protein response ; 22 lagging strand elongation ; 35 signal transduction ; 3 nascent polypeptide association ; 1 methylated-DNA--[protein]-cysteine S-methyltransferase ; 8 protein myristylation ; 3 glycogen biosynthesis ; 1 tRNA (guanosine) methyltransferase ; 1 dihydrolipoamide S-acetyltransferase ; 1 oxidative phosphorylation ; 2 ligand-regulated transcription factor ; 1 para-aminobenzoic acid (PABA) synthase ; 9 pentose-phosphate shunt ; 5 zinc ion transport ; 2 pantothenate transport ; 3 nucleotide-sugar transporter ; 5 aromatic amino acid family biosynthesis ; 1 heavy metal ion transport ; 7 CCR4-NOT core complex ; 113 endoplasmic reticulum ; 17 vitamin B1 biosynthesis ; 1 nucleolus organization and biogenesis ; 1 acyl carrier ; 9 RAB small monomeric GTPase ; 4 alpha-1,3-mannosyltransferase ; 1 argininosuccinate metabolism ; 4 copper uptake transporter ; 6 delta DNA polymerase ; 1 UDP-glucose metabolism ; 2 holotelomerase ; 1 L-serine dehydratase ; 7 amino acid N-acetyltransferase ; 1 L-lactate dehydrogenase (cytochrome) ; 1 1-phosphatidylinositol-4-phosphate 5-kinase ; 2 alanyl-tRNA aminoacylation ; 1 importin, alpha-subunit ; 6 hyperosmotic response ; 1 sucrose catabolism ; 10 cytoplasmic exosome (RNase complex) ; 1 arginase ; 1 adenylosuccinate synthase ; 1 carbon utilization ; 2 acetolactate synthase ; 1 C-14 sterol reductase ; 3 extracellular space ; 3 actin filament severing ; 17 ATP-binding cassette (ABC) transporter ; 3 hydrolase, acting on ester bonds ; 2 phosphoethanolamine N-methyltransferase ; 24 mitotic spindle checkpoint ; 2 mating-type a-factor pheromone receptor ; 17 soluble fraction ; 2 electron transporter ; 3 monovalent inorganic cation transporter ; 1 telomeric RNA reverse transcriptase ; 1 glutamine--tRNA ligase ; 14 pre-replicative complex formation and maintenance ; 6 septin checkpoint ; 6 repression of transcription ; 1 beta-cystathionase ; 16 vacuole inheritance ; 17 mitochondrial outer membrane ; 1 lysine transport ; 1 [acyl-carrier protein] S-acetyltransferase ; 1 phosphomevalonate kinase ; 1 non-selective cation channel ; 11 DNA damage response ; 54 structural protein of cytoskeleton ; 3 citrate (SI)-synthase ; 33 N-linked glycosylation ; 13 tryptophan biosynthesis ; 2 receptor signaling protein ; 1 CDP-diacylglycerol-inositol 3-phosphatidyltransferase ; 1 nucleoside transporter ; 2 biotin carboxylase ; 1 M(IP)2C metabolism ; 1 protein thiol-disulfide exchange ; 1 aspartate kinase ; 1 glutamate--cysteine ligase ; 2 actin capping protein ; 1 fumarate metabolism ; 5 transcription regulation from Pol I promoter ; 1 L-methionine porter ; 14 telomere maintenance ; 1 1-phosphatidylinositol-3-phosphate 5-kinase ; 1 flap endonuclease ; 1 NAME ; 1 adenine catabolism ; 1 5-aminolevulinate synthase ; 43 cytokinesis ; 4 calcium-dependent protein serine/threonine phosphatase ; 2 cystathionine beta-lyase ; 1 cell surface receptor linked signal transduction ; 50 pseudohyphal growth ; 1 lactoylglutathione lyase ; 37 vacuolar acidification ; 3 ATP/ADP exchange ; 2 peroxisome targeting sequence binding ; 2 3-keto-dihydrosphingosine metabolism ; 15 mitochondrial membrane ; 3 prenyltransferase ; 35 mRNA-binding (hnRNP) protein-nucleus import ; 2 spindle assembly ; 13 glucose metabolism ; 2 arginine transport ; 1 leukotriene-A4 hydrolase ; 2 homoserine kinase ; 4 myo-inositol transporter ; 17 histone deacetylase complex ; 31 cell cycle control ; 1 2-isopropylmalate synthase ; 8 cell aging (sensu Saccharomyces) ; 3 RSC complex ; 9 ATP dependent DNA helicase ; 4 bilirubin transporter ; 2 H3/H4 histone acetyltransferase ; 1 imidazoleglycerol-phosphate dehydratase ; 4 folic acid and derivative biosynthesis ; 12 protein phosphatase type 2A ; 1 dynamin GTPase ; 12 sister chromatid cohesion ; 3 motor ; 7 protein phosphatase type 2C ; 7 plasmid maintenance ; 1 translation termination factor ; 1 endodeoxyribonuclease, producing other than 5'-phosphomonoesters ; 4 iron-sulfur cluster assembly ; 22 signal peptide processing ; 4 carbamoyl-phosphate synthase (glutamine-hydrolyzing) ; 2 glycolysis regulation ; 2 low-affinity zinc ion transport ; 6 SRP-dependent, co-translational membrane targeting, docking ; 1 4-aminobutyrate aminotransferase ; 4 RAB-protein geranylgeranyltransferase ; 1 NAD(+) synthase (glutamine-hydrolyzing) ; 6 telomeric heterochromatin ; 1 aspartate-semialdehyde dehydrogenase ; 21 DNA dependent DNA replication ; 20 peroxisome organization and biogenesis ; 1 ketol-acid reductoisomerase ; 1 dolichyl-phosphate beta-D-mannosyltransferase ; 11 signal recognition particle receptor ; 3 base-excision repair, AP site formation ; 1 mRNA guanylyltransferase ; 1 allophanate hydrolase ; 7 poly(A) tail shortening ; 2 acetate metabolism ; 1 N-acetylglucosaminylphosphatidylinositol deacetylase ; 1 nucleotide biosynthesis ; 2 leucine catabolism ; 2 high affinity zinc uptake transporter ; 1 1-phosphatidylinositol-4,5-biphosphate phosphodiesterase ; 1 ethanolaminephosphotransferase ; 4 DNA-directed RNA polymerase II, holoenzyme ; 2 endoribonuclease ; 1 AMP biosynthesis ; 1 uroporphyringonen-III synthase ; 1 C-terminal carboxyl group protein methylation ; 1 eta DNA polymerase ; 46 general RNA polymerase II transcription factor ; 8 pre-replicative complex ; 4 mRNA capping ; 1 protein palmitoylation ; 2 membrane organization and biogenesis ; 13 mitosis ; 220 structural protein of ribosome ; 1 recombinase ; 24 glycogen metabolism ; 2 activation of MAPKK (osmolarity sensing) ; 8 phenylalanine--tRNA ligase ; 9 aldehyde metabolism ; 1 oligosaccharide transporter ; 1 ornithine--oxo-acid aminotransferase ; 4 asparagine catabolism to aspartate ; 1 holo-[acyl-carrier protein] synthase ; 64 DNA repair ; 1 thymidylate synthase ; 5 `de novo` pyrimidine biosynthesis ; 4 synapsis ; 1 monosaccharide metabolism ; 1 extracellular carbohydrate transport ; 34 chromatin silencing at telomere ; 6 sterol transport ; 2 isoprenoid biosynthesis ; 1 RAB escort protein ; 1 histidinol-phosphate aminotransferase ; 2 cobalt ion transport ; 1 anthranilate phosphoribosyltransferase ; 1 caspase ; 27 spliceosome ; 2 amino acid catabolism ; 2 beta-tubulin folding ; 2 cytochrome b5 reductase ; 1 Ada2/Gcn5/Ada3 transcription activator complex ; 1 succinate/fumarate antiporter ; 9 ubiquinol-cytochrome-c reductase ; 1 glutamate dehydrogenase (NADP+) ; 18 exocytosis ; 1 glutathione synthase ; 1 glutamate synthase (NADH) ; 17 RNA helicase ; 2 C-terminal protein carboxyl methyltransferase ; 15 SRP-dependent, co-translational membrane targeting, translocation ; 5 nuclear inner membrane ; 4 anthranilate synthase ; 1 AMP deaminase ; 2 glucan metabolism ; 39 mitochondrial large ribosomal subunit ; 28 protein complex assembly ; 2 protein degradation tagging ; 24 G1-specific transcription in mitotic cell cycle ; 2 protoporphyrinogen oxidase ; 33 G2/M transition of mitotic cell cycle ; 4 zygote formation (sensu Saccharomyces) ; 58 cell wall (sensu Fungi) ; 18 v-SNARE ; 17 retrograde (Golgi to ER) transport ; 1 serine family amino acid metabolism ; 9 septin ring (sensu Saccharomyces) ; 3 SNARE binding ; 2 2',3'-cyclic nucleotide 3'-phosphodiesterase ; 9 histone acetyltransferase complex ; 33 mating (sensu Saccharomyces) ; 1 glutamate metabolism ; 2 fructose-bisphosphate aldolase ; 5 electron transport ; 6 flocculation ; 1 glucan 1,4-alpha-glucosidase ; 15 tricarboxylic acid cycle ; 16 nucleosome remodeling complex ; 4 NADPH dehydrogenase ; 1 tRNA isopentenyltransferase ; 3 lysine--tRNA ligase ; 40 translation initiation factor ; 4 cell wall biosynthesis (sensu Fungi) ; 1 transferase ; 2 vitamin/cofactor transport ; 1 prenylated protein tyrosine phosphatase ; 4 multidrug transporter ; 56 membrane ; 1 isopentenyl-diphosphate delta-isomerase ; 2 cell shape control ; 2 phosphatidylserine decarboxylase ; 4 RNA catabolism ; 3 chitin synthase ; 1 acetylglutamate kinase ; 1 aldehyde reductase ; 4 methionine biosynthesis ; 1 dihydropteroate synthase ; 2 uridine transport ; 4 D-lactate dehydrogenase (cytochrome) ; 1 phosphomannomutase ; 6 RHO small monomeric GTPase ; 7 cytokinesis, completion of separation ; 26 actin cap (sensu Saccharomyces) ; 3 amylo-1,6-glucosidase ; 5 structural protein of nuclear pore ; 3 methionine transporter ; 7 allantoin catabolism ; 3 isocitrate dehydrogenase (NADP+) ; 1 beta-1,6 glucan metabolism ; 1 mitotic anaphase ; 2 tryptophanyl-tRNA aminoacylation ; 18 ribonuclease MRP ; 2 diacylglycerol O-acyltransferase ; 1 ferric enterobactin transport ; 2 detoxification response ; 4 zinc ion transporter ; 5 transcription factor complex ; 1 colony morphology ; 1 protein kinase C ; 4 ribosomal large subunit nucleus export ; 1 spermidine biosynthesis ; 1 dipeptidyl-peptidase and tripeptidyl-peptidase ; 1 phosphoribosylformylglycinamidine cyclo-ligase ; 3 DNA replication factor A complex ; 17 cytoskeleton organization and biogenesis ; 1 uroporphyrin-III C-methyltransferase ; 20 nucleotide-excision repair ; 5 cytoskeletal regulatory protein binding ; 5 cysteine-type peptidase ; 2 threonine catabolism ; 2 mitochondrial membrane organization and biogenesis ; 1 karyogamy ; 4 peptide alpha-N-acetyltransferase ; 8 GPI-anchor transamidase ; 2 ubiquitin activating enzyme ; 1 oligosaccharyl transferase ; 1 vitamin B1 metabolism ; 26 repression of transcription from Pol II promoter ; 10 peroxisomal membrane ; 1 glycine biosynthesis ; 1 bile acid transport ; 1 acetyl-CoA C-acyltransferase ; 1 autophagic vacuole formation ; 3 proton-transporting ATP synthase complex ; 1 ferric enterobactin transporter ; 1 ribokinase ; 4 tRNA dihydrouridine synthase ; 1 S-methylmethionine transport ; 2 actin monomer binding ; 1 N-acetylglucosamine biosynthesis ; 12 amino acid transport ; 6 phosphate metabolism ; 27 tRNA-nucleus export ; 2 DNA ligation ; 6 inositol/phosphatidylinositol kinase ; 2 site of polarized growth (sensu Saccharomyces) ; 1 carboxylic ester hydrolase ; 72 mitochondrial matrix ; 10 protein disulfide isomerase ; 5 actin binding ; 1 adenosylmethionine decarboxylase ; 2 oxygen and radical metabolism ; 8 protein tagging ; 8 cell cycle arrest ; 2 zeta DNA polymerase ; 5 protein targeting ; 2 start control point of mitotic cell cycle ; 1 dTMP biosynthesis ; 7 nitrogen utilization regulation ; 1 alkyl hydroperoxide reductase ; 8 hydrogen-transporting ATP synthase, stator stalk ; 2 RNA ligase (ATP) ; 7 ubiquinone metabolism ; 10 ATP binding ; 46 sporulation (sensu Saccharomyces) ; 1 formaldehyde dehydrogenase (glutathione) ; 1 proline dehydrogenase ; 2 cytochrome biogenesis ; 4 leucine biosynthesis ; 2 potassium:hydrogen antiporter ; 2 pyrimidine nucleotide metabolism ; 7 aspartic-type endopeptidase ; 1 nicotinate-nucleotide pyrophosphorylase (carboxylating) ; 2 homocysteine S-methyltransferase ; 12 fatty acid beta-oxidation ; 2 1,4-alpha-glucan branching enzyme ; 4 nonsense-mediated mRNA decay ; 2 protein phosphatase 1 binding ; 23 ATPase ; 31 nuclear pore organization and biogenesis ; 1 induction of apoptosis by DNA damage ; 5 ATP/ADP antiporter ; 3 actin filament ; 52 specific RNA polymerase II transcription factor ; 2600 biological_process unknown ; 8 multidrug transport ; 15 histidine biosynthesis ; 7 nuclear membrane organization and biogenesis ; 2 serine family amino acid biosynthesis ; 9 `de novo` IMP biosynthesis ; 15 mannose transporter ; 8 mitotic spindle orientation ; 36 transcription ; 4 ornithine biosynthesis ; 7 heme a biosynthesis ; 1 L-iditol 2-dehydrogenase ; 1 acylglycerone-phosphate reductase ; 1 methylene-fatty-acyl-phospholipid synthase ; 2 UDP-N-acetylglucosamine transporter ; 1 carboxymethylenebutenolidase ; 11 spindle pole body duplication (sensu Saccharomyces) ; 3 mRNA methyltransferase ; 5 intracellular signaling cascade ; 18 transcription from Pol III promoter ; 6 G1 phase of mitotic cell cycle ; 2 maltose catabolism ; 1 lactate transporter ; 3 integral peroxisomal membrane ; 6 cytoplasmic vesicle ; 10 cytochrome c oxidase biogenesis ; 1 phosphoribosylglycinamide formyltransferase ; 6 osmosensory signaling pathway via two-component system ; 5 copper ion transport ; 13 protein dephosphorylation ; 12 DNA-directed RNA polymerase II ; 6 adaptation to mating signal (sensu Saccharomyces) ; 20 mediator complex ; 4 branched-chain amino acid aminotransferase ; 2 meiotic G2/MI transition ; 6 protein phosphatase ; 1 cytochrome bc(1) complex biogenesis ; 2 triosephosphate isomerase ; 6 trehalose catabolism ; 1 Golgi cis-face ; 8 cytosolic ribosome ; 3 small GTPase regulatory/interacting protein ; 4 glycogen (starch) synthase ; 5 riboflavin synthase ; 2 ceramidase ; 1 farnesyl-diphosphate farnesyltransferase ; 1 dTTP biosynthesis ; 3 NADPH regeneration ; 3 starvation response ; 1 alcohol dehydrogenase (NADP+) ; 7 premeiotic DNA synthesis ; 2 DNA supercoiling ; 1 superoxide metabolism ; 14 phosphate transport ; 2 malate synthase ; 2 coproporphyrinogen oxidase ; 1 dUTP pyrophosphatase ; 1 neutral amino acid transport ; 21 kinetochore ; 49 protein transporter ; 2 F-actin capping ; 2 choline transport ; 2 phosphoribosylaminoimidazolecarboxamide formyltransferase ; 1 glycolipid mannosyl transferase ; 6 glycerol-3-phosphate acyltransferase ; 2 permease ; 1 biotin--[methylmalonyl-CoA-carboxyltransferase] ligase ; 2 prefoldin ; 35 rRNA processing ; 2 phosphoserine aminotransferase ; 16 hexose transport ; 10 pseudouridylate synthase ; 6 alpha DNA polymerase:primase complex ; 8 Golgi vesicle ; 1 RNA-directed DNA polymerase ; 22 bud tip ; 4 IMP dehydrogenase ; 8 GTPase activator ; 4 copper binding ; 20 RNA polymerase II transcription mediator ; 3 asparaginyl-tRNA aminoacylation ; 1 carnitine/acyl carnitine carrier ; 492 cytoplasm ; 2 GTPase inhibitor ; 2 ER-Golgi intermediate compartment ; 2 repression of transcription from Pol III promoter ; 3 tRNA specific adenosine deaminase ; 9 protein tyrosine phosphatase ; 5 asparaginase ; 1 mating-type alpha-factor pheromone receptor ; 10 3'-5' exonuclease ; 15 cytokinetic ring (sensu Saccharomyces) ; 5 protein localization ; 13 glutamate biosynthesis ; 1 dihydroxy-acid dehydratase ; 4 transcriptional gene silencing ; 4 sulfate transport ; 1 polygalacturonase ; 3 nucleotide-sugar transport ; 3 isoleucine--tRNA ligase ; 4 succinate metabolism ; 1 phosphoadenylyl-sulfate reductase (thioredoxin) ; 2 pyrroline 5-carboxylate reductase ; 26 ergosterol biosynthesis ; 6 nuclear congression ; 2 3-isopropylmalate dehydrogenase ; 1 dihydroneopterin aldolase ; 1 carbon utilization by utilization of organic compounds ; 4 serine C-palmitoyltransferase ; 9 kinetochore microtubule ; 6 MAPKKK cascade (cell wall biogenesis) ; 1 phosphodiesterase I ; 3 glycyl-tRNA aminoacylation ; 1 uracil transport ; 5 agglutination ; 9 mRNA cleavage factor complex ; 1 glucose-6-phosphate 1-dehydrogenase ; 2 cell adhesion molecule ; 2 N-acetyl-gamma-glutamyl-phosphate reductase ; 2 sulfur metabolism ; 1 phosphoribosylaminoimidazole carboxylase ; 1 cystine transport ; 1 aspartate carbamoyltransferase ; 27 mRNA catabolism ; 5 proline biosynthesis ; 21 invasive growth ; 5 post-chaperonine tubulin folding pathway ; 1 urea carboxylase ; 115 cell wall organization and biogenesis ; 1 non-selective vesicle assembly ; 3 protein N-terminal asparagine amidohydrolase ; 1 peptide-transporting ATPase ; 4 DNA-directed DNA polymerase ; 2 homoserine metabolism ; 3 DNA topoisomerase I ; 2 protein ubiquitylation ; 2 succinyl-CoA metabolism ; 3 microtubule associated protein ; 2 DNA-directed RNA polymerase ; 2 uroporphyrinogen decarboxylase ; 2 microtubule cytoskeleton organization and biogenesis ; 6 cell wall chitin biosynthesis ; 50 transport ; 1 soluble NSF attachment protein ; 6 acid phosphatase ; 5 eukaryotic translation initiation factor 2B complex ; 1 phosphatase ; 1 ligand binding or carrier ; 4 actin cross-linking ; 3 dynactin complex ; 7 mRNA cleavage and polyadenylation specificity factor complex ; 2 general alpha-glucoside:hydrogen symporter ; 33 chromatin modeling ; 24 chromatin binding ; 2 serine--tRNA ligase ; 2 plasma membrane cation-transporting ATPase ; 1 vacuolar lumen ; 1 uracil-DNA glycosylase ; 4 polyphosphate metabolism ; 2 hydroxymethylglutaryl-CoA reductase (NADPH) ; 3 basic amino acid transporter ; 1 arsenite transport ; 23 cell wall ; 34 transporter ; 4 6-phosphofructokinase ; 8 DNA replication factor C complex ; 3 transketolase ; 17 RNA elongation from Pol II promoter ; 4 transcriptional repressor ; 12 hydrogen-transporting ATPase V0 domain ; 1 valyl-tRNA aminoacylation ; 3 carrier ; 13 cochaperone ; 2 glycerol transporter ; 1 alcohol dehydrogenase, zinc-dependent ; 1 manganese superoxide dismutase ; 6 fatty acid biosynthesis ; 3 UDP-N-acetylglucosamine biosynthesis ; 1 oxidoreductase, acting on the CH-OH group of donors, NAD or NADP as acceptor ; 1 exodeoxyribonuclease ; 3 cation transport ; 1 fumarate hydratase ; 4 oxidoreductase ; 25 ribosomal protein-nucleus import ; 1 geranyltranstransferase ; 3 chromosome organization and biogenesis ; 2 dethiobiotin synthase ; 2 farnesyltranstransferase ; 1 cytosine transport ; 27 nuclear membrane ; 5 nitrogen starvation response ; 8 trehalose biosynthesis ; 8 DNA strand elongation ; 1 mevalonate kinase ; 504 nucleus ; 6 polar microtubule ; 1 deoxycytidine catabolism ; 2 G2-specific transcription in mitotic cell cycle ; 1 SAR small monomeric GTPase ; 1 calcineurin ; 19 RNA polymerase II transcription factor ; 78 establishment of cell polarity (sensu Saccharomyces) ; 2 non-selective vesicle coating ; 2 mRNA cap complex ; 1 CDP-diacylglycerol--glycerol-3-phosphate 3-phosphatidyltransferase ; 3 sulfate transporter ; 2 glycogen catabolism regulation ; 3 N-terminal protein acetylation ; 1 establishment of chromatin silencing ; 7 cell cycle dependent actin filament reorganization ; 3 ribonuclease H ; 7 lysophospholipase ; 16 SAGA complex ; 1 nuclear matrix ; 25 snRNP U1e ; 19 methionine metabolism ; 1 adenine deaminase ; 19 ribonuclease P ; 3 hydrogen-transporting ATP synthase, catalytic core ; 1 1-acylglycerol-3-phosphate O-acyltransferase ; 8 casein kinase II ; 28 spore wall assembly (sensu Saccharomyces) ; 1 pyrimidine-dimer repair, DNA incision, 3' to lesion ; 1 homoaconitate hydratase ; 2 hydrolase ; 4 glucose 6-phosphate utilization ; 3 microtubule/kinetochore interaction ; 11 cyclin-dependent protein kinase ; 3 transferase, transferring hexosyl groups ; 2 DNA topoisomerase (ATP-hydrolyzing) ; 7 beta-1,6 glucan biosynthesis ; 2 MAPKKK cascade (osmolarity sensing) ; 1 double-stranded DNA specific 3'-5' exodeoxyribonuclease ; 4 aromatic amino acid transferase ; 2 MAPKKK cascade ; 3 pyruvate dehydrogenase (lipoamide) ; 1 cAMP-dependent protein kinase inhibitor ; 41 ATP synthesis coupled proton transport ; 6 fermentation ; 1 lactate transport ; 5 copper uptake transport ; 2 mitochondrial chromosome ; 1 Pol I transcription termination factor ; 2 lysyl-tRNA aminoacylation ; 1 extrachromosomal circular DNA accumulation ; 20 transcription co-repressor ; 2 2,4-dienoyl-CoA reductase (NADPH) ; 1 isoleucine catabolism ; 1 C-4 methyl sterol oxidase ; 1 allantoate transport ; 2 S-methylmethionine transporter ; 9 cohesin ; 6 phospholipid transport ; 12 snRNP U2e ; 2 copper-exporting ATPase ; 15 thioredoxin peroxidase ; 7 protein signal sequence binding ; 1 adenylate cyclase ; 2 asparagine biosynthesis ; 1 unfolded protein response, activation of signaling protein kinase/endonuclease ; 10 RHO GTPase activator ; 28 cell ; 3 hydrolase, acting on acid anhydrides, in phosphorus-containing anhydrides ; 2 gly-X carboxypeptidase ; 2 methionyl glutamyl tRNA synthetase complex ; 10 branched chain family amino acid biosynthesis ; 3 aging ; 29 actin cortical patch (sensu Saccharomyces) ; 2 mitochondrial citrate transport ; 2 non-selective vesicle exocytosis ; 28 DNA-directed RNA polymerase I ; 3 early endosome ; 1 kynurenine 3-monooxygenase ; 2 alpha-glucoside transport ; 3 amino acid permease ; 1 cadmium homeostasis ; 4 inner plaque of spindle pole body ; 1 arginine catabolism ; 6 endoplasmic reticulum lumen ; 1 snoRNA metabolism ; 11 protein processing ; 5 phosphatidylethanolamine biosynthesis ; 1 rRNA metabolism ; 5 vesicle organization and biogenesis ; 10 transcription regulation from Pol III promoter ; 6 iron-siderophore transport ; 61 cytosolic small ribosomal (40S) subunit ; 3 transcription co-factor ; 1 calmodulin-dependent protein kinase I ; 3 ubiquitin-like conjugating enzyme ; 1 hydroxymethylglutaryl-CoA synthase ; 1 hypusine biosynthesis ; 2 orotate phosphoribosyltransferase ; 1 C-8 sterol isomerase ; 1 RAN-binding protein ; 4 pyrimidine salvage ; 6 mitochondrial processing ; 4 alpha DNA polymerase ; 2 U6 snRNA binding ; 3 alpha-tubulin folding ; 24 heat shock protein ; 1 aromatic amino acid transport ; 9 RNA processing ; 9 bud ; 2 sodium:inorganic phosphate symporter ; 1 phosphopantetheinyltransferase ; 2 snRNP U4e ; 16 ribosome biogenesis ; 1 glutamate-5-semialdehyde dehydrogenase ; 1 pyrimidine deoxyribonucleoside triphosphate catabolism ; 1 protein geranylgeranyltransferase ; 1 neutral amino acid transporter ; 1 protein histidine kinase ; 1 aminoadipate-semialdehyde dehydrogenase ; 3 [acyl-carrier protein] S-malonyltransferase ; 1 tRNA (5-methylaminomethyl-2-thiouridylate)-methyltransferase ; 4 kinase ; 1 DNA-3-methyladenine glycosidase II ; 8 translational regulation, initiation ; 9 nucleobase, nucleoside, nucleotide and nucleic acid metabolism ; 1 ATP dependent helicase ; 1 squalene monooxygenase ; 13 meiotic chromosome ; 48 protein folding ; 3173 molecular_function unknown ; 2 nicotinamide mononucleotide permease ; 1 G2/M-specific transcription in mitotic cell cycle ; 5 aldehyde dehydrogenase ; 1 dihydroorotate dehydrogenase ; 1 pyrimidine base metabolism ; 2 phenylalanyl-tRNA aminoacylation ; 15 condensin ; 8 pyruvate metabolism ; 1 purine nucleoside catabolism ; 6 arginine biosynthesis ; 1 guanosine-diphosphatase ; 17 cytochrome-c oxidase ; 14 mannosyltransferase ; 3 3-oxoacyl-[acyl-carrier protein] reductase ; 2 NADH regeneration ; 1 coenzyme-A transport ; 8 oligosaccharyl transferase complex ; 1 nucleoside diphosphatase ; 2 drug transport ; 3 GTP binding ; 1 cadmium ion transport ; 1 UDP-galactose transporter ; 1 phospholipase C ; 1 phospholipase D ; 37 19S proteasome regulatory particle ; 8 lariat formation, 5'-splice site cleavage ; 2 glycine hydroxymethyltransferase ; 1 hydrolase, acting on glycosyl bonds ; 2 snRNP U5e ; 89 transcription factor ; 2 adenylate kinase ; 3 calcium ion transporter ; 1 lanosterol 14-alpha-demethylase ; 5 attachment of GPI anchor to protein ; 5 phosphoglycerate mutase ; 1 transcription termination from Pol II promoter ; 19 transcription elongation factor complex ; 1 transcription termination ; 1 RAB GDP-dissociation inhibitor ; 4 multicopper ferroxidase iron transport mediator ; 1 DNA-(apurinic or apyrimidinic site) lyase ; 12 extracellular ; 1 nucleoside catabolism ; 5 phosphopyruvate hydratase ; 33 Golgi apparatus ; 3 iron transporter ; 5 acetyltransferase ; 1 adenylosuccinate lyase ; 69 protein-vacuolar targeting ; 57 meiosis ; 2 pyrimidine-dimer repair, DNA incision, 5' to lesion ; 8 sphingolipid metabolism ; 1 UDP-N-acetylglucosamine--dolichyl-phosphate N-acetylglucosamine-1-phosphate transferase ; 5 signal peptidase ; 2 NADH dehydrogenase (ubiquinone) ; 2 regulation of S phase of mitotic cell cycle ; 4 alkaline phosphatase ; 2 formate--tetrahydrofolate ligase ; 32 protein-nucleus export ; 2 amino acid metabolism regulation ; 1 NADH catabolism ; 61 endoplasmic reticulum membrane ; 4 snRNP U6e ; 5 vacuole ; 2 low-affinity zinc ion transporter ; 1 acetyl-CoA metabolism ; 2 transcription factor binding ; 62 Ty element transposition ; 1 GMP synthase (glutamine hydrolyzing) ; 2 germination (sensu Saccharomyces) ; 29 mRNA polyadenylation ; 14 degradation of cyclin ; 6 origin recognition complex ; 1 nuclear division ; 4 RAN protein binding ; 2 catalase ; 1 casein kinase ; 7 nucleocytoplasmic transport ; 25 axial budding ; 2 mannosyl-oligosaccharide 1,2-alpha-mannosidase ; 2 phospholipid transporter ; 1 trehalose phosphatase ; 6 nuclear ubiquitin ligase complex ; 16 replication fork ; 28 proteolysis and peptidolysis ; 2 ubiquitin cycle ; 1 phosphatidylserine biosynthesis ; 1 mitotic cycle control ; 3 nuclear localization sequence binding ; 1 mitotic repression of transcription ; 1 phosphoserine phosphatase ; 5 single-stranded DNA specific endodeoxyribonuclease ; 11 RNA splicing ; 1 unfolded protein response, cleavage of primary transcript encoding UFP-specific transcription factor ; 3 GTP biosynthesis ; 2 siderophore-iron (ferrioxamine) uptake transporter ; 8 mutagenesis ; 1 exosome (RNase complex) ; 3 actin filament-based process ; 3 MAP kinase kinase kinase ; 8 protein modification ; 2 ubiquitin ligase complex ; 1 lanosterol synthase ; 6 protein transport ; 1 tRNA 2'-phosphotransferase ; 1 rRNA (adenine-N6,N6-)-dimethyltransferase ; 2 glycerol transport ; 4 translational repression ; 3 hypoxanthine phosphoribosyltransferase ; 2 histidine transporter ; 1 histidine transport ; 3 acetyl-CoA carboxylase ; 10 intracellular copper delivery ; 6 glycine dehydrogenase (decarboxylating) ; 4 polyamine transport ; 2 sterol O-acyltransferase ; 21 gluconeogenesis ; 2 sulfite reductase (NADPH) ; 1 mannose-inositol-P-ceramide (MIPC) metabolism ; 1 valine--tRNA ligase ; 1 ornithine decarboxylase ; 3 tryptophan synthase ; 16 protein-peroxisome targeting ; 2 cystathionine-gamma-lyase ; 2 microtubule depolymerization ; 4 lipid biosynthesis ; 3 superoxide dismutase copper chaperone ; 1 phosphoglycerate kinase ; 3 dCMP deaminase ; 1 transcription-coupled repair ; 2 glycerol-3-phosphate dehydrogenase ; 7 sumoylation ; 26 centromere ; 8 tRNA-intron endonuclease ; 2 pantothenate transporter ; 1 cobalt ion transporter ; 2 pheromone processing ; 4 co-translational membrane targeting ; 1 mannose metabolism ; 1 tyrosine metabolism ; 1 arginyl-tRNA aminoacylation ; 3 ER retention ; 1 lactate metabolism ; 35 intra Golgi transport ; 4 imidazoleglycerol-phosphate synthase ; 2 alcohol O-acetyltransferase ; 1 S-adenosylmethionine transport ; 2 monovalent inorganic cation homeostasis ; 1 folic acid and derivative metabolism ; 2 ubiquinone biosynthesis methyltransferase ; 6 amino acid binding ; 2 mannosylphosphate transferase ; 3 bis(5'-nucleosyl)-tetraphosphatase (asymmetrical) ; 16 shmooing ; 3 high affinity iron transport ; 2 tyrosine--tRNA ligase ; 1 threonine synthase ; 3 proline catabolism ; 2 IMP cyclohydrolase ; 2 nutritional response pathway ; 4 beta-1,3 glucan biosynthesis ; 17 mitotic spindle elongation ; 11 DNA unwinding ; 5 amino acid metabolism ; 16 glycolysis ; 8 helicase ; 7 guanyl-nucleotide exchange factor ; 9 t-SNARE ; 16 peptidylprolyl isomerase ; 8 cell size control ; 23 chromatin modification ; 1 4-nitrophenylphosphatase ; 1 phosphatidylethanolamine N-methyltransferase ; 1 autophagic vacuole fusion ; 18 DNA recombination ; 1 polyphosphoinositide phosphatase ; 8 vitamin B2 biosynthesis ; 1 unfolded protein response, target gene transcriptional activation ; 1 C-5 sterol desaturase ; 1 flavodoxin ; 5 mitotic sister chromatid separation ; 1 peptide-N4-(N-acetyl-beta-glucosaminyl)asparagine amidase ; 4 chromatin remodeling complex ; 1 siderochromome metabolism ; 9 26S proteasome ; 4 hydroxymethylbilane synthase ; 20 chromatin assembly/disassembly ; 5 ribose-phosphate pyrophosphokinase ; 2 donor preference ; 3 uridine kinase ; 1 cell-cell adhesion ; 1 heavy metal ion transporter ; 2 carbohydrate transporter ; 8 heme biosynthesis ; 1 diacylglycerol cholinephosphotransferase ; 4 signal peptidase complex ; 2 prenyl-dependent CAAX protease ; 8 protein serine/threonine phosphatase ; 81 nucleolus ; 7 septin assembly and septum formation ; 1 diphosphoinositol polyphosphate phosphohydrolase ; 105 ubiquitin-dependent protein degradation ; 13 nuclear migration (sensu Saccharomyces) ; 5 poly(A) binding ; 1 methylenetetrahydrofolate dehydrogenase (NAD+) ; 1 aromatic amino acid transporter ; 1 dolichyl-phosphate-glucose-glycolipid alpha-glucosyltransferase ; 1 glutamyl-tRNA aminoacylation ; 3 two-component response regulator ; 3 polynucleotide 5'-phosphatase ; 1 activation of MAPK (osmolarity sensing) ; 2 glycerol-1-phosphatase ; 5 6-phosphofructo-2-kinase ; 1 nuclear outer membrane ; 3 GDP-mannose biosynthesis ; 6 tubulin binding ; 1 guanylate kinase ; 9 DNA metabolism ; 2 glutamate--ammonia ligase ; 1 MAP kinase phosphatase ; 35 osmotic response ; 2 RNA metabolism ; 2 translation release factor, codon specific ; 1 pheromone degradation ; 27 transcriptional activator ; 2 aspartate aminotransferase ; 27 cell cycle ; 3 ethanol metabolism ; 1 nucleoside triphosphatase ; 1 G-protein signaling, adenylate cyclase activating pathway ; 1 phospholipase ; 13 nuclear chromosome ; 2 fructose 2,6-bisphosphate metabolism ; 1 aldo-keto reductase ; 1 cytidine deaminase ; 1 rRNA (guanine-N1-)-methyltransferase ; 1 zinc binding ; 7 amino acid transporter ; 83 cytosolic large ribosomal (60S) subunit ; 3 sodium transport ; 2 cardiolipin synthase ; 2 oligopeptide transporter ; 18 mRNA processing ; 1 positive transcription elongation factor ; 1 high-affinity zinc ion transport ; 19 bud growth ; 1 chorismate synthase ; 1 NADPH--adrenodoxin reductase ; 1 cell wall chitin catabolism ; 2 protein-S isoprenylcysteine O-methyltransferase ; 1 vesicle transport along actin filament ; 1 a-factor export ; 4 protein disulfide-isomerase reaction ; 1 oxoglutarate dehydrogenase (lipoamide) ; 4 metallopeptidase ; 2 RNA-3'-phosphate cyclase ; 4 aminopeptidase ; 14 steroid biosynthesis ; 1 phosphoribosylanthranilate isomerase ; 3 AT DNA binding ; 2 pyruvate kinase ; 5 calcium-transporting ATPase ; 2 acetate--CoA ligase ; 1 voltage-gated ion channel ; 4 potassium channel ; 3 glycerol metabolism ; 7 phosphate transporter ; 2 2-deoxyglucose-6-phosphatase ; 2 tRNA (guanine-N2-)-methyltransferase ; 16 rRNA modification ; 5 glutamate dehydrogenase ; 5 threonine metabolism ; 4 dephosphorylation ; 11 microsome ; 1 adenosylhomocysteinase ; 3 purine nucleotide biosynthesis ; 2 pyrophosphatase ; 1 3-dehydroquinate dehydratase ; 2 half bridge of spindle pole body ; 7 shmoo ; 21 regulation of CDK activity ; 8 exocyst ; 2 mannose-1-phosphate guanylyltransferase ; 1 lysine biosynthesis ; 1 prephenate dehydrogenase ; 33 protein serine/threonine kinase ; 6 kinesin ; 2 leucyl-tRNA aminoacylation ; 3 lipid transport ; 24 microtubule nucleation ; 2 exoribonuclease II ; 6 formate dehydrogenase ; 1 dihydrolipoamide dehydrogenase ; 1 nucleotidase ; 4 chromatin silencing ; 3 MAP-kinase scaffold protein ; 2 regulation of G-protein coupled receptor protein signaling pathway ; 5 inositol-1,4,5-triphosphate 5-phosphatase ; 1 selenocysteine metabolism ; 1 sulfur amino acid transport ; 7 DNA topological change ; 1 peptide transport ; 16 mitochondrion inheritance ; 12 protein phosphatase type 1 ; 14 transcription co-activator ; 1 oxaloacetate carrier ; 8 vacuole organization and biogenesis ; 32 chromosome segregation ; 2 folylpolyglutamate synthase ; 1 nucleotide binding ; 2 amino acid biosynthesis ; 1 cytochrome P450 ; 5 pH regulation ; 45 transcription from Pol II promoter ; 6 nucleic acid binding ; 1 adenylate cyclase binding ; 13 cytoskeleton ; 2 heme oxygenase (decyclizing) ; 7 epsilon DNA polymerase ; 2 choline transporter ; 18 tRNA processing ; 15 tRNA splicing ; 1 protein-nucleus import, translocation ; 2 triacylglycerol lipase ; 4 synaptonemal complex ; 1 UDP-N-acetylglucosamine transport ; 6 nuclear RNA-nucleus export ; 1 base-excision repair, gap-filling ; 8 Golgi to endosome transport ; 1 methenyltetrahydrofolate cyclohydrolase ; 21 signal transduction of mating signal (sensu Saccharomyces) ; 62 DNA binding ; 4 glutathione transferase ; 2 dicarboxylic acid transporter ; 2 MAPKKK cascade (pseudohyphal growth) ; 5 phosphatidylinositol transporter ; 4 DNA replication checkpoint ; 2 hexokinase ; 7 endonuclease ; 7 spore wall (sensu Fungi) ; 2 pyruvate dehydrogenase pathway ; 2 fatty acid catabolism ; 38 transcription regulation ; 2 [eIF-5A]-deoxyhypusine synthase ; 1 alpha-mitochondrial processing peptidase ; 9 mitotic repression of transcription from Pol II promoter ; 3 RAS small monomeric GTPase ; 1 enoyl-[acyl-carrier protein] reductase (NADH) ; 9 protein secretion ; 17 mitochondrial genome maintenance ; 2 beta-mitochondrial processing peptidase ; 5 CTP synthase ; 20 vacuolar membrane ; 21 polyubiquitylation ; 5 mRNA splice site selection ; 2 DNA secondary structure binding ; 1 glycine catabolism ; 14 histone deacetylase ; 4 monovalent inorganic cation transport ; 1 1-(5-phosphoribosyl)-5-[(5-phosphoribosylamino)methylideneamino)imidazole-4-carboxamide isomerase ; 7 P-type ATPase ; 2 amidase ; 2 cysteine-type endopeptidase ; 7 nuclear microtubule ; 12 cell wall structural protein ; 1 NAD(+) kinase ; 1 ER organization and biogenesis ; 1 thiamine-phosphate pyrophosphorylase ; 2 transcription, DNA-dependent ; 6 tRNA methyltransferase ; 1 biotin transporter ; 3 heterotrimeric G-protein complex ; 3 transcription elongation factor ; 1 protein-methionine-S-oxide reductase ; 1 purine transport ; 1 intracellular accumulation of glycerol ; 3 telomere capping ; 3 carboxy-lyase ; 1 oxaloacetate transport ; 1 tricarboxylic acid transport ; 1 phosphatidylglycerol biosynthesis ; 1 uroporphyrinogen III biosynthesis ; 1 enoyl-CoA hydratase ; 2 arsenite transporter ; 2 peroxisome targeting signal receptor ; 1 maltose metabolism ; 5 zinc homeostasis ; 1 arylformamidase ; 6 general transcriptional repressor ; 1 cytosine-purine permease ; 2 thymidylate kinase ; 1 protein-lysine N-methyltransferase ; 12 deadenylation-dependent decapping ; 1 CDP-choline pathway ; 2 water transport ; 7 pheromone response ; 1 thiamin transporter ; 2 mating-type switching/recombination ; 2 mitotic cell cycle ; 3 repression of recombination within rDNA repeats ; 11 microtubule-based process ; 7 poly(A)+ mRNA-nucleus export ; 2 exopolyphosphatase ; 1 sulfate porter ; 3 aspartate--tRNA ligase ; 3 glyceraldehyde 3-phosphate dehydrogenase (phosphorylating) ; 4 CCAAT-binding factor complex ; 1 porphobilinogen synthase ; 2 FAD biosynthesis ; 18 mitochondrial intermembrane space ; 6 siderophore-iron transporter ; 1 deoxyribodipyrimidine photolyase ; 4 water channel ; 4 nuclear pore membrane protein ; 4 general regulation of carbohydrate metabolism ; 1 SRP-dependent, co-translational membrane targeting, signal sequence recognition ; 9 galactose metabolism ; 2 adenine phosphoribosyltransferase ; 1 glutamate decarboxylase ; 1 Sin3 complex ; 19 mitotic spindle assembly (sensu Saccharomyces) ; 2 redox-active disulfide bond electron carrier ; 1 Golgi organization and biogenesis ; 1 pyruvate dehydrogenase ; 3 oligopeptide transport ; 1 gene conversion at MAT locus ; 26 ATP dependent RNA helicase ; 2 allantoate transporter ; 6 DNA bending ; 5 nucleosome assembly ; 57 stress response ; 4 carbohydrate transport ; 3 G-protein coupled receptor ; 1 chitin biosynthesis ; 2 thiamine pyrophosphokinase ; 15 DNA helicase ; 38 ubiquitin--protein ligase ; 40 protein synthesis initiation ; 8 cell wall mannoprotein biosynthesis ; 6 translational regulation, elongation ; 1 phosphoacetylglucosamine mutase ; 1 ATP adenylyltransferase ; 39 structural protein ; 56 chaperone ; 76 transcription regulation from Pol II promoter ; 42 oxidative stress response ; 1 glycerol kinase ; 2 peptide transporter ; 3 phosphomethylpyrimidine kinase ; 3 potassium transporter ; 4 central plaque of spindle pole body ; 2 oligosaccharide-lipid intermediate assembly ; 2 actin lateral binding ; 3 mitotic recombination ; 3 meiosis I ; 16 non-selective vesicle docking ; 3 translational regulation, termination ; 5 dodecenoyl-CoA delta-isomerase ; 4 RHO guanyl-nucleotide exchange factor ; 1 dimethylallyltransferase ; 37 protein-nucleus import ; 4 manganese ion transport ; 5 synaptonemal complex formation ; 3 transcription factor TFIIIB ; 6 transcription factor TFIIIC ; 7 magnesium-ATPase ; 6 biotin biosynthesis ; 1 sulfate adenylyltransferase (ATP) ; 14 lipid metabolism ; 33 bud neck ; 2 succinate dehydrogenase-(ubiquinone) ; 1 glucose-6-phosphate isomerase ; 3 sulfur amino acid biosynthesis ; 19 mitochondrion organization and biogenesis ; 18 pyridoxine metabolism ; 6 cAMP-dependent protein kinase ; 2 mRNA metabolism ; 2 chaperonin ATPase ; 28 cyclin-dependent protein kinase regulator ; 4 protein phosphatase type 2A regulator ; 3 magnesium ion transport ; 5 mitochondrial inner membrane translocase complex ; 4 pyruvate carboxylase ; 1 calcium activated cation channel ; 2 mitotic chromosome ; 2 M phase of mitotic cell cycle ; 1 fatty acid desaturation ; 2 uracil phosphoribosyltransferase ; 5 osmosensory signaling pathway ; 2 tricarboxylate carrier ; 2 RNA methyltransferase ; 2 isoleucyl-tRNA aminoacylation ; 2 succinate-semialdehyde dehydrogenase (NAD(P)+) ; 4 cholinephosphate cytidylyltransferase ; 25 snRNA-nucleus export ; 16 histone acetyltransferase ; 3 proton transport ; 1 homoserine O-acetyltransferase ; 13 GTPase ; 4 citrate metabolism ; 44 nuclear pore ; 8 alpha-glucosidase ; 2 transcription factor TFIIA ; 8 succinate dehydrogenase ; 1 isoleucine biosynthesis ; 1 phosphoribosylaminoimidazole-succinocarboxamide synthase ; 10 Golgi membrane ; 2 transcription factor TFIIE ; 12 phospholipid metabolism ; 3 transcription factor TFIIF ; 2 proteasome activator ; 12 DNA-directed RNA polymerase II, core ; 2 mannosyl-oligosaccharide glucosidase (processing A-glucosidase I) ; 7 copper homeostasis ; 9 transcription factor TFIIH ; 1 ureidoglycolate hydrolase ; Population size 6354 ; Sort key sig ; Thresholds lower upper ; occ 2 NA ; sig 0 NA ; Output files ; output complexes_vs_GO_sig0.tab ; ref query ref# query# common# ref_% query_% P_val E_val sig mRNA splicing cz161 100 82 46 46.0000 56.0976 9.4e-66 1.8e-62 61.75 mRNA splicing cz158 100 46 34 34.0000 73.9130 3.2e-54 6.1e-51 50.22 mRNA splicing cz160 100 51 35 35.0000 68.6275 5.9e-54 1.1e-50 49.95 mitochondrial large ribosomal subunit cz140 39 54 27 69.2308 50.0000 1.7e-50 3.3e-47 46.48 multicatalytic endopeptidase cz157 60 36 26 43.3333 72.2222 9.5e-48 1.8e-44 43.75 multicatalytic endopeptidase cz148 60 34 25 41.6667 73.5294 3.5e-46 6.7e-43 42.17 mitochondrial small ribosomal subunit cz123 37 40 23 62.1622 57.5000 4.8e-45 9e-42 41.05 RNA polymerase II transcription mediator cz139 20 43 19 95.0000 44.1860 1.1e-42 2.1e-39 38.68 mediator complex cz139 20 43 19 95.0000 44.1860 1.1e-42 2.1e-39 38.68 ubiquitin-dependent protein degradation cz157 105 36 27 25.7143 75.0000 1.8e-42 3.4e-39 38.47 ubiquitin-dependent protein degradation cz148 105 34 26 24.7619 76.4706 2.8e-41 5.2e-38 37.28 small nucleolar ribonucleoprotein particle cz156 34 84 24 70.5882 28.5714 2.7e-39 5e-36 35.30 pre-mRNA splicing factor cz161 41 82 25 60.9756 30.4878 9.3e-39 1.7e-35 34.76 small nucleolar ribonucleoprotein particle cz111 34 73 23 67.6471 31.5068 1.4e-38 2.6e-35 34.59 SAGA complex cz136 16 28 15 93.7500 53.5714 7.2e-37 1.4e-33 32.87 nucleolus cz163 81 88 29 35.8025 32.9545 3.7e-35 7e-32 31.15 19S proteasome regulatory particle mds161 37 19 16 43.2432 84.2105 3.7e-35 7.1e-32 31.15 transcription from Pol III promoter cz154 18 29 15 83.3333 51.7241 7.5e-35 1.4e-31 30.85 transcription from Pol II promoter cz139 45 43 20 44.4444 46.5116 6.1e-34 1.1e-30 29.94 19S proteasome regulatory particle cz148 37 34 18 48.6486 52.9412 8.6e-34 1.6e-30 29.79 TFIID complex cz159 16 50 15 93.7500 30.0000 4.3e-32 8.1e-29 28.09 19S proteasome regulatory particle mds220 37 27 16 43.2432 59.2593 4.9e-31 9.3e-28 27.03 DNA-directed RNA polymerase III cz154 35 29 16 45.7143 55.1724 8e-31 1.5e-27 26.82 19S proteasome regulatory particle cz157 37 36 17 45.9459 47.2222 1e-30 2e-27 26.70 TRAPP cz102 10 13 10 100.0000 76.9231 9.7e-30 1.8e-26 25.73 nuclear exosome (RNase complex) cz142 11 21 11 100.0000 52.3810 2.1e-29 3.9e-26 25.40 structural protein of ribosome cz140 220 54 29 13.1818 53.7037 5.4e-29 1e-25 24.99 pre-mRNA splicing factor cz160 41 51 18 43.9024 35.2941 1.2e-28 2.2e-25 24.66 nuclear exosome (RNase complex) cz77 11 24 11 100.0000 45.8333 1.5e-28 2.8e-25 24.55 mRNA catabolism cz142 27 21 13 48.1481 61.9048 9.2e-28 1.7e-24 23.76 pre-mRNA splicing factor cz158 41 46 17 41.4634 36.9565 1.9e-27 3.7e-24 23.44 pre-mRNA splicing factor cz128 41 36 16 39.0244 44.4444 2.1e-27 4e-24 23.40 pre-replicative complex formation and maintenance cz150 14 20 11 78.5714 55.0000 3.6e-27 6.8e-24 23.17 20S core proteasome mds223 30 15 12 40.0000 80.0000 4.4e-27 8.2e-24 23.08 cytoplasmic exosome (RNase complex) cz142 10 21 10 100.0000 47.6190 1.2e-26 2.3e-23 22.64 SAGA complex cz159 16 50 13 81.2500 26.0000 4.5e-26 8.5e-23 22.07 spliceosome cz155 27 26 13 48.1481 50.0000 4.7e-26 8.8e-23 22.06 vacuolar acidification cz120 37 11 11 29.7297 100.0000 5.1e-26 9.5e-23 22.02 cytoplasmic exosome (RNase complex) cz77 10 24 10 100.0000 41.6667 6.7e-26 1.3e-22 21.90 multicatalytic endopeptidase mds161 60 19 14 23.3333 73.6842 9.9e-26 1.9e-22 21.73 DNA-directed RNA polymerase II, core cz145 12 19 10 83.3333 52.6316 2.1e-25 3.9e-22 21.41 DNA-directed RNA polymerase II cz145 12 19 10 83.3333 52.6316 2.1e-25 3.9e-22 21.41 3'-5' exoribonuclease cz142 18 21 11 61.1111 52.3810 6.6e-25 1.2e-21 20.91 structural protein of ribosome cz123 220 40 23 10.4545 57.5000 4.3e-24 8.1e-21 20.09 chromatin modification cz136 23 28 12 52.1739 42.8571 4.5e-24 8.5e-21 20.07 3'-5' exoribonuclease cz77 18 24 11 61.1111 45.8333 4.6e-24 8.8e-21 20.06 translation initiation factor mds103 40 13 11 27.5000 84.6154 1.1e-23 2e-20 19.70 protein synthesis initiation mds103 40 13 11 27.5000 84.6154 1.1e-23 2e-20 19.70 histone acetylation cz136 25 28 12 48.0000 42.8571 1.7e-23 3.2e-20 19.49 DNA replication initiation cz150 24 20 11 45.8333 55.0000 2.4e-23 4.6e-20 19.34 35S primary transcript processing cz156 45 84 18 40.0000 21.4286 2.9e-23 5.4e-20 19.27 hydrogen-transporting ATPase V1 domain cz120 18 11 9 50.0000 81.8182 5.8e-23 1.1e-19 18.96 multicatalytic endopeptidase mds223 60 15 12 20.0000 80.0000 7e-23 1.3e-19 18.88 multicatalytic endopeptidase mds220 60 27 14 23.3333 51.8519 1.6e-22 3e-19 18.52 ribosome mds103 29 13 10 34.4828 76.9231 1.9e-22 3.7e-19 18.44 mRNA splicing cz128 100 36 17 17.0000 47.2222 3.7e-22 6.9e-19 18.16 ubiquitin-dependent protein degradation mds161 105 19 14 13.3333 73.6842 5e-22 9.5e-19 18.02 small nucleolar ribonucleoprotein particle mds65 34 26 12 35.2941 46.1538 5.7e-22 1.1e-18 17.97 tRNA processing cz220 18 8 8 44.4444 100.0000 6.7e-22 1.3e-18 17.90 ribonuclease MRP cz220 18 8 8 44.4444 100.0000 6.7e-22 1.3e-18 17.90 commitment complex cz160 19 51 12 63.1579 23.5294 8.6e-22 1.6e-18 17.79 ribonuclease P cz220 19 8 8 42.1053 100.0000 1.2e-21 2.2e-18 17.66 commitment complex cz129 19 35 11 57.8947 31.4286 1.8e-21 3.4e-18 17.47 mRNA catabolism cz77 27 24 11 40.7407 45.8333 1.9e-21 3.5e-18 17.45 mRNA splicing cz155 100 26 15 15.0000 57.6923 2e-21 3.9e-18 17.41 20S core proteasome cz151 30 46 13 43.3333 28.2609 2.6e-21 4.9e-18 17.31 mRNA polyadenylation cz162 29 36 12 41.3793 33.3333 6.8e-21 1.3e-17 16.89 transcription from Pol I promoter cz154 25 29 11 44.0000 37.9310 8.8e-21 1.7e-17 16.78 ubiquitin-dependent protein degradation mds220 105 27 15 14.2857 55.5556 9.9e-21 1.9e-17 16.73 translation initiation factor cz138 40 27 12 30.0000 44.4444 1e-20 1.9e-17 16.71 20S core proteasome cz157 30 36 12 40.0000 33.3333 1.1e-20 2.1e-17 16.67 mRNA cleavage cz162 21 36 11 52.3810 30.5556 1.2e-20 2.3e-17 16.64 hydrogen-transporting two-sector ATPase cz120 56 11 10 17.8571 90.9091 1.3e-20 2.5e-17 16.60 G1-specific transcription in mitotic cell cycle cz159 24 50 12 50.0000 24.0000 3.4e-20 6.5e-17 16.19 DNA-directed RNA polymerase I cz154 28 29 11 39.2857 37.9310 4.2e-20 7.9e-17 16.10 nucleolus cz132 81 46 16 19.7531 34.7826 7.5e-20 1.4e-16 15.85 transcription factor TFIIIC cz1 6 7 6 100.0000 85.7143 7.7e-20 1.5e-16 15.84 ubiquitin-dependent protein degradation mds223 105 15 12 11.4286 80.0000 9.5e-20 1.8e-16 15.74 nucleolus mds89 81 39 15 18.5185 38.4615 1.9e-19 3.7e-16 15.44 35S primary transcript processing cz142 45 21 11 24.4444 52.3810 2e-19 3.8e-16 15.42 DNA replication factor C complex cz130 8 14 7 87.5000 50.0000 3.3e-19 6.3e-16 15.20 rRNA processing cz220 35 8 8 22.8571 100.0000 3.6e-19 6.8e-16 15.17 protein biosynthesis cz140 400 54 27 6.7500 50.0000 6.5e-19 1.2e-15 14.91 20S core proteasome cz148 30 34 11 36.6667 32.3529 8.7e-19 1.6e-15 14.79 signal recognition particle cz23 6 9 6 100.0000 66.6667 9.2e-19 1.7e-15 14.76 Arp2/3 protein complex cz153 10 12 7 70.0000 58.3333 1.1e-18 2.2e-15 14.66 35S primary transcript processing cz77 45 24 11 24.4444 45.8333 1.4e-18 2.7e-15 14.58 TFIID complex cz136 16 28 9 56.2500 32.1429 1.7e-18 3.2e-15 14.50 spliceosome cz161 27 82 13 48.1481 15.8537 1.8e-18 3.4e-15 14.47 exocyst cz175 8 7 6 75.0000 85.7143 2.1e-18 4.1e-15 14.39 chromatin modification cz159 23 50 11 47.8261 22.0000 2.8e-18 5.3e-15 14.28 mRNA cleavage factor complex cz162 9 36 8 88.8889 22.2222 4.1e-18 7.8e-15 14.11 rRNA modification cz156 16 84 11 68.7500 13.0952 4.5e-18 8.6e-15 14.07 SAGA complex mds388 16 9 7 43.7500 77.7778 5e-18 9.4e-15 14.03 snRNP U2e cz158 12 46 9 75.0000 19.5652 5.2e-18 9.7e-15 14.01 general RNA polymerase II transcription factor cz159 46 50 13 28.2609 26.0000 6.9e-18 1.3e-14 13.88 poly(A) tail shortening cz149 7 26 7 100.0000 26.9231 8e-18 1.5e-14 13.82 CCR4-NOT core complex cz149 7 26 7 100.0000 26.9231 8e-18 1.5e-14 13.82 histone acetylation cz159 25 50 11 44.0000 22.0000 9.1e-18 1.7e-14 13.77 transcription from Pol II promoter cz145 45 19 10 22.2222 52.6316 9.6e-18 1.8e-14 13.74 commitment complex cz158 19 46 10 52.6316 21.7391 1.2e-17 2.3e-14 13.64 ER to Golgi transport cz102 80 13 10 12.5000 76.9231 1.6e-17 2.9e-14 13.53 RNA polymerase III transcription factor cz1 11 7 6 54.5455 85.7143 3.5e-17 6.7e-14 13.17 mRNA splicing cz129 100 35 14 14.0000 40.0000 4e-17 7.5e-14 13.13 eukaryotic translation initiation factor 2B complex mds467 5 6 5 100.0000 83.3333 7e-17 1.3e-13 12.88 protein biosynthesis cz123 400 40 22 5.5000 55.0000 8.6e-17 1.6e-13 12.79 multicatalytic endopeptidase cz151 60 46 13 21.6667 28.2609 9.6e-17 1.8e-13 12.74 19S proteasome regulatory particle mds126 37 11 8 21.6216 72.7273 9.6e-17 1.8e-13 12.74 mRNA cleavage and polyadenylation specificity factor complex cz162 7 36 7 100.0000 19.4444 1e-16 1.9e-13 12.72 multicatalytic endopeptidase cz106 60 35 12 20.0000 34.2857 1.1e-16 2.1e-13 12.68 transcription initiation from Pol III promoter cz1 13 7 6 46.1538 85.7143 1.3e-16 2.5e-13 12.60 mitotic metaphase/anaphase transition cz69 13 7 6 46.1538 85.7143 1.3e-16 2.5e-13 12.60 20S core proteasome cz106 30 35 10 33.3333 28.5714 1.7e-16 3.3e-13 12.48 G1-specific transcription in mitotic cell cycle cz136 24 28 9 37.5000 32.1429 1.9e-16 3.5e-13 12.45 protein synthesis initiation cz138 40 27 10 25.0000 37.0370 2.3e-16 4.3e-13 12.37 degradation of cyclin cz69 14 7 6 42.8571 85.7143 2.3e-16 4.4e-13 12.36 anaphase-promoting complex cz69 14 7 6 42.8571 85.7143 2.3e-16 4.4e-13 12.36 DNA replication origin binding cz150 6 20 6 100.0000 30.0000 4.3e-16 8e-13 12.10 origin recognition complex cz150 6 20 6 100.0000 30.0000 4.3e-16 8e-13 12.10 leading strand elongation cz130 16 14 7 43.7500 50.0000 4.7e-16 8.9e-13 12.05 nucleolus mds166 81 16 10 12.3457 62.5000 4.8e-16 9.1e-13 12.04 ribosomal large subunit assembly and maintenance cz163 36 88 13 36.1111 14.7727 4.9e-16 9.3e-13 12.03 nucleolus mds273 81 50 14 17.2840 28.0000 6e-16 1.1e-12 11.94 non-selective vesicle docking cz175 16 7 6 37.5000 85.7143 6.1e-16 1.2e-12 11.94 Arp2/3 protein complex mds9 10 25 7 70.0000 28.0000 6.9e-16 1.3e-12 11.88 small nucleolar ribonucleoprotein particle cz146 34 35 10 29.4118 28.5714 7.5e-16 1.4e-12 11.85 histone methylation cz108 12 9 6 50.0000 66.6667 8.5e-16 1.6e-12 11.79 histone acetyltransferase complex cz74 9 12 6 66.6667 50.0000 8.5e-16 1.6e-12 11.79 mitotic spindle elongation cz69 17 7 6 35.2941 85.7143 9.5e-16 1.8e-12 11.75 35S primary transcript processing cz111 45 73 13 28.8889 17.8082 1.1e-15 2.1e-12 11.69 snRNP U1e cz160 25 51 10 40.0000 19.6078 1.3e-15 2.5e-12 11.61 chromatin silencing at HML and HMR (sensu Saccharomyces) cz150 24 20 8 33.3333 40.0000 1.4e-15 2.6e-12 11.59 nucleolus mds373 81 53 14 17.2840 26.4151 1.5e-15 2.8e-12 11.55 Arp2/3 protein complex mds97 10 12 6 60.0000 50.0000 2.1e-15 4e-12 11.40 mitotic repression of transcription from Pol II promoter cz131 9 14 6 66.6667 42.8571 2.8e-15 5.2e-12 11.28 transcription factor TFIIH cz131 9 14 6 66.6667 42.8571 2.8e-15 5.2e-12 11.28 snRNP U1e cz129 25 35 9 36.0000 25.7143 2.9e-15 5.6e-12 11.26 transcription from Pol III promoter mds13 18 51 9 50.0000 17.6471 3e-15 5.7e-12 11.24 nucleolus cz156 81 84 16 19.7531 19.0476 3.3e-15 6.3e-12 11.20 Golgi to plasma membrane transport cz175 21 7 6 28.5714 85.7143 4.2e-15 7.9e-12 11.10 snRNP U2e cz160 12 51 8 66.6667 15.6863 4.7e-15 8.9e-12 11.05 commitment complex cz161 19 82 10 52.6316 12.1951 6.1e-15 1.2e-11 10.94 nucleosome remodeling complex cz105 16 20 7 43.7500 35.0000 1.1e-14 2e-11 10.70 histone deacetylation cz80 15 10 6 40.0000 60.0000 1.1e-14 2.2e-11 10.66 NAD-dependent histone deacetylase cz80 15 10 6 40.0000 60.0000 1.1e-14 2.2e-11 10.66 mismatch repair cz130 24 14 7 29.1667 50.0000 1.4e-14 2.7e-11 10.57 actin cap (sensu Saccharomyces) cz175 26 7 6 23.0769 85.7143 1.8e-14 3.3e-11 10.48 rRNA modification cz111 16 73 9 56.2500 12.3288 2.3e-14 4.3e-11 10.37 19S proteasome regulatory particle cz115 37 29 9 24.3243 31.0345 2.5e-14 4.7e-11 10.33 histone deacetylase complex cz80 17 10 6 35.2941 60.0000 2.8e-14 5.4e-11 10.27 sister chromatid cohesion cz130 12 14 6 50.0000 42.8571 3e-14 5.7e-11 10.24 protein signal sequence binding cz23 7 9 5 71.4286 55.5556 3.1e-14 5.8e-11 10.24 snRNP U1e cz158 25 46 9 36.0000 19.5652 4.5e-14 8.5e-11 10.07 translation initiation factor cz127 40 18 8 20.0000 44.4444 4.9e-14 9.3e-11 10.03 protein synthesis initiation cz127 40 18 8 20.0000 44.4444 4.9e-14 9.3e-11 10.03 eukaryotic translation initiation factor 2B complex mds45 5 16 5 100.0000 31.2500 5.1e-14 9.6e-11 10.02 non-selective vesicle fusion cz175 31 7 6 19.3548 85.7143 5.6e-14 1.1e-10 9.97 transcription initiation from Pol II promoter cz159 89 50 13 14.6067 26.0000 7.5e-14 1.4e-10 9.85 histone acetyltransferase cz74 16 12 6 37.5000 50.0000 8e-14 1.5e-10 9.82 oligosaccharyl transferase complex cz114 8 9 5 62.5000 55.5556 8.2e-14 1.5e-10 9.81 mitotic chromosome segregation cz69 33 7 6 18.1818 85.7143 8.5e-14 1.6e-10 9.80 eukaryotic translation initiation factor 2B complex cz127 5 18 5 100.0000 27.7778 9.9e-14 1.9e-10 9.73 mRNA binding cz160 25 51 9 36.0000 17.6471 1.2e-13 2.3e-10 9.64 ubiquitin-dependent protein degradation cz106 105 35 12 11.4286 34.2857 1.3e-13 2.5e-10 9.60 transcription elongation factor complex cz170 19 5 5 26.3158 100.0000 1.3e-13 2.6e-10 9.59 DNA clamp loader cz130 6 14 5 83.3333 35.7143 1.4e-13 2.6e-10 9.58 mitochondrial large ribosomal subunit cz119 39 12 7 17.9487 58.3333 1.4e-13 2.7e-10 9.56 chromatin modeling cz116 33 24 8 24.2424 33.3333 1.5e-13 2.8e-10 9.56 transcription regulation from Pol II promoter cz149 76 26 10 13.1579 38.4615 1.5e-13 2.8e-10 9.55 general RNA polymerase II transcription factor cz136 46 28 9 19.5652 32.1429 1.5e-13 2.8e-10 9.55 polar budding cz175 36 7 6 16.6667 85.7143 1.5e-13 2.8e-10 9.55 histone acetylation mds388 25 9 6 24.0000 66.6667 1.6e-13 3.1e-10 9.51 ubiquitin-dependent protein degradation cz151 105 46 13 12.3810 28.2609 2.1e-13 3.9e-10 9.41 RNA elongation from Pol II promoter cz113 17 13 6 35.2941 46.1538 2.3e-13 4.4e-10 9.36 3'-5' exoribonuclease cz149 18 26 7 38.8889 26.9231 2.5e-13 4.6e-10 9.33 nucleolus mds372 81 18 9 11.1111 50.0000 2.5e-13 4.7e-10 9.33 snRNP U2e cz161 12 82 8 66.6667 9.7561 2.6e-13 4.9e-10 9.31 chromosome segregation cz190 32 8 6 18.7500 75.0000 2.8e-13 5.2e-10 9.28 mRNA binding cz129 25 35 8 32.0000 22.8571 3.6e-13 6.9e-10 9.16 cytokinesis cz175 43 7 6 13.9535 85.7143 4.7e-13 8.8e-10 9.06 eukaryotic translation initiation factor 2B complex mds443 5 24 5 100.0000 20.8333 4.9e-13 9.3e-10 9.03 transcription elongation factor complex cz113 19 13 6 31.5789 46.1538 5e-13 9.5e-10 9.02 epsilon DNA polymerase cz72 7 4 4 57.1429 100.0000 5.2e-13 9.7e-10 9.01 ribosome cz127 29 18 7 24.1379 38.8889 5.8e-13 1.1e-09 8.96 retrograde (Golgi to ER) transport cz147 17 15 6 35.2941 40.0000 6.7e-13 1.3e-09 8.90 ubiquitin-dependent protein degradation mds126 105 11 8 7.6190 72.7273 6.7e-13 1.3e-09 8.90 RAB small monomeric GTPase mds10 9 11 5 55.5556 45.4545 6.7e-13 1.3e-09 8.90 Pol II transcription elongation factor cz170 26 5 5 19.2308 100.0000 7.6e-13 1.4e-09 8.84 cytoskeleton mds390 13 8 5 38.4615 62.5000 8.3e-13 1.6e-09 8.80 rRNA modification cz146 16 35 7 43.7500 20.0000 9e-13 1.7e-09 8.77 chromatin silencing at telomere cz108 34 9 6 17.6471 66.6667 1.2e-12 2.3e-09 8.64 chromatin assembly/disassembly mds150 20 14 6 30.0000 42.8571 1.3e-12 2.4e-09 8.62 eukaryotic translation initiation factor 3 complex cz138 11 27 6 54.5455 22.2222 1.5e-12 2.8e-09 8.55 multicatalytic endopeptidase mds126 60 11 7 11.6667 63.6364 1.5e-12 2.8e-09 8.55 histone acetylation cz74 25 12 6 24.0000 50.0000 1.8e-12 3.3e-09 8.48 cohesin mds360 9 4 4 44.4444 100.0000 1.9e-12 3.5e-09 8.45 cytoskeleton mds143 13 9 5 38.4615 55.5556 1.9e-12 3.5e-09 8.45 general RNA polymerase II transcription factor cz131 46 14 7 15.2174 50.0000 2.1e-12 4e-09 8.39 protein synthesis initiation mds45 40 16 7 17.5000 43.7500 2.5e-12 4.7e-09 8.33 translation initiation factor mds45 40 16 7 17.5000 43.7500 2.5e-12 4.7e-09 8.33 19S proteasome regulatory particle mds104 37 46 9 24.3243 19.5652 2.6e-12 4.8e-09 8.32 dolichyl-diphosphooligosaccharide-protein glycosyltransferase cz114 14 9 5 35.7143 55.5556 2.9e-12 5.5e-09 8.26 nucleolus mds310 81 15 8 9.8765 53.3333 2.9e-12 5.5e-09 8.26 inner plaque of spindle pole body cz121 4 10 4 100.0000 40.0000 3.1e-12 5.8e-09 8.23 alpha DNA polymerase cz219 4 10 4 100.0000 40.0000 3.1e-12 5.8e-09 8.23 SNF1A/AMP-activated protein kinase cz75 4 10 4 100.0000 40.0000 3.1e-12 5.8e-09 8.23 chromatin modeling cz105 33 20 7 21.2121 35.0000 3.8e-12 7.2e-09 8.14 DNA-directed RNA polymerase III mds13 35 51 9 25.7143 17.6471 4e-12 7.5e-09 8.12 cytoskeleton organization and biogenesis mds390 17 8 5 29.4118 62.5000 4e-12 7.6e-09 8.12 nucleolus cz111 81 73 13 16.0494 17.8082 4.1e-12 7.7e-09 8.11 Pol II transcription elongation factor cz113 26 13 6 23.0769 46.1538 4.3e-12 8e-09 8.10 microfilament motor mds25 6 26 5 83.3333 19.2308 4.6e-12 8.6e-09 8.06 19S proteasome regulatory particle cz126 37 50 9 24.3243 18.0000 5.7e-12 1.1e-08 7.97 cytoskeleton mds48 13 11 5 38.4615 45.4545 6.9e-12 1.3e-08 7.89 cytoskeleton mds76 13 11 5 38.4615 45.4545 6.9e-12 1.3e-08 7.89 respiratory chain complex IV cz144 12 4 4 33.3333 100.0000 7.3e-12 1.4e-08 7.86 protein phosphorylation cz75 87 10 7 8.0460 70.0000 8.2e-12 1.6e-08 7.81 cytoskeleton organization and biogenesis mds143 17 9 5 29.4118 55.5556 9e-12 1.7e-08 7.77 septin ring (sensu Saccharomyces) cz79 9 5 4 44.4444 80.0000 9.3e-12 1.8e-08 7.76 pre-replicative complex cz150 8 20 5 62.5000 25.0000 1e-11 1.9e-08 7.72 snRNP U1e cz161 25 82 9 36.0000 10.9756 1.1e-11 2.1e-08 7.68 cytokinesis cz79 43 5 5 11.6279 100.0000 1.1e-11 2.1e-08 7.68 establishment of cell polarity (sensu Saccharomyces) cz175 78 7 6 7.6923 85.7143 2e-11 3.7e-08 7.43 N-terminal protein acetylation cz200 3 3 3 100.0000 100.0000 2.3e-11 4.4e-08 7.35 protein acetylation cz136 7 28 5 71.4286 17.8571 2.4e-11 4.5e-08 7.35 leading strand elongation cz72 16 4 4 25.0000 100.0000 2.7e-11 5.1e-08 7.30 nucleosome mds150 13 14 5 38.4615 35.7143 3e-11 5.6e-08 7.25 cytoskeleton organization and biogenesis mds48 17 11 5 29.4118 45.4545 3.3e-11 6.2e-08 7.21 cytoskeleton organization and biogenesis mds76 17 11 5 29.4118 45.4545 3.3e-11 6.2e-08 7.21 transcription from Pol I promoter mds401 25 8 5 20.0000 62.5000 3.4e-11 6.5e-08 7.19 cytochrome-c oxidase cz144 17 4 4 23.5294 100.0000 3.5e-11 6.6e-08 7.18 structural protein of cytoskeleton cz79 54 5 5 9.2593 100.0000 3.7e-11 6.9e-08 7.16 ribosome mds45 29 16 6 20.6897 37.5000 4e-11 7.6e-08 7.12 cytoskeleton mds255 13 15 5 38.4615 33.3333 4.4e-11 8.4e-08 7.08 protein synthesis initiation mds467 40 6 5 12.5000 83.3333 4.6e-11 8.6e-08 7.06 translation initiation factor mds467 40 6 5 12.5000 83.3333 4.6e-11 8.6e-08 7.06 DNA clamp loader cz219 6 10 4 66.6667 40.0000 4.6e-11 8.8e-08 7.06 nuclear ubiquitin ligase complex mds135 6 10 4 66.6667 40.0000 4.6e-11 8.8e-08 7.06 tubulin binding cz121 6 10 4 66.6667 40.0000 4.6e-11 8.8e-08 7.06 alpha DNA polymerase:primase complex cz219 6 10 4 66.6667 40.0000 4.6e-11 8.8e-08 7.06 general RNA polymerase II transcription factor cz105 46 20 7 15.2174 35.0000 4.7e-11 8.8e-08 7.05 chromatin modification mds388 23 9 5 21.7391 55.5556 4.9e-11 9.2e-08 7.04 transcription regulation from Pol I promoter cz113 5 13 4 80.0000 30.7692 5.3e-11 9.9e-08 7.00 eukaryotic translation initiation factor 2B complex mds103 5 13 4 80.0000 30.7692 5.3e-11 9.9e-08 7.00 chromatin modeling cz110 33 28 7 21.2121 25.0000 5.7e-11 1.1e-07 6.97 19S proteasome regulatory particle, lid subcomplex mds161 4 19 4 100.0000 21.0526 5.7e-11 1.1e-07 6.97 chromatin binding cz108 24 9 5 20.8333 55.5556 6.2e-11 1.2e-07 6.93 DNA-directed RNA polymerase I mds401 28 8 5 17.8571 62.5000 6.3e-11 1.2e-07 6.92 septin ring (sensu Saccharomyces) mds94 9 7 4 44.4444 57.1429 6.5e-11 1.2e-07 6.91 transcription initiation from Pol II promoter cz136 89 28 9 10.1124 32.1429 7.6e-11 1.4e-07 6.84 chromatin cz108 25 9 5 20.0000 55.5556 7.7e-11 1.5e-07 6.84 lagging strand elongation cz72 22 4 4 18.1818 100.0000 1.1e-10 2e-07 6.69 CCR4-NOT core complex mds474 7 10 4 57.1429 40.0000 1.1e-10 2e-07 6.69 DNA replication, priming cz219 7 10 4 57.1429 40.0000 1.1e-10 2e-07 6.69 poly(A) tail shortening mds474 7 10 4 57.1429 40.0000 1.1e-10 2e-07 6.69 ubiquitin--protein ligase cz69 38 7 5 13.1579 71.4286 1.2e-10 2.3e-07 6.64 ubiquitin-dependent protein degradation cz69 105 7 6 5.7143 85.7143 1.2e-10 2.3e-07 6.64 septin ring (sensu Saccharomyces) mds62 9 8 4 44.4444 50.0000 1.3e-10 2.5e-07 6.61 multicatalytic endopeptidase cz115 60 29 8 13.3333 27.5862 1.4e-10 2.7e-07 6.57 cytoskeleton mds343 13 6 4 30.7692 66.6667 1.6e-10 3e-07 6.53 flocculation cz113 6 13 4 66.6667 30.7692 1.6e-10 3e-07 6.53 pre-mRNA splicing factor cz155 41 26 7 17.0732 26.9231 1.6e-10 3.1e-07 6.51 vesicle transport cz203 41 7 5 12.1951 71.4286 1.8e-10 3.4e-07 6.47 transcription from Pol I promoter mds332 25 4 4 16.0000 100.0000 1.9e-10 3.5e-07 6.45 cytoskeleton organization and biogenesis mds255 17 15 5 29.4118 33.3333 2.1e-10 4e-07 6.40 transcription regulation from Pol II promoter cz170 76 5 5 6.5789 100.0000 2.1e-10 4.1e-07 6.39 DNA replication factor C complex cz219 8 10 4 50.0000 40.0000 2.2e-10 4.1e-07 6.39 Golgi to endosome transport cz109 8 10 4 50.0000 40.0000 2.2e-10 4.1e-07 6.39 alpha DNA polymerase cz149 4 26 4 100.0000 15.3846 2.2e-10 4.2e-07 6.38 ER to Golgi transport cz147 80 15 7 8.7500 46.6667 2.3e-10 4.3e-07 6.37 nucleolus mds169 81 34 9 11.1111 26.4706 2.3e-10 4.3e-07 6.36 cytokinesis mds94 43 7 5 11.6279 71.4286 2.3e-10 4.4e-07 6.36 establishment of cell polarity (sensu Saccharomyces) cz79 78 5 5 6.4103 100.0000 2.4e-10 4.6e-07 6.33 adenosinetriphosphatase cz148 33 34 7 21.2121 20.5882 2.5e-10 4.8e-07 6.32 DNA-directed RNA polymerase II, core mds369 12 7 4 33.3333 57.1429 2.5e-10 4.8e-07 6.32 DNA-directed RNA polymerase II mds369 12 7 4 33.3333 57.1429 2.5e-10 4.8e-07 6.32 spliceosome mds452 27 4 4 14.8148 100.0000 2.6e-10 4.9e-07 6.31 19S proteasome regulatory particle, lid subcomplex mds220 4 27 4 100.0000 14.8148 2.6e-10 4.9e-07 6.31 nuclear pore mds359 44 7 5 11.3636 71.4286 2.6e-10 5e-07 6.31 transcription initiation from Pol II promoter cz131 89 14 7 7.8652 50.0000 2.6e-10 5e-07 6.30 multicatalytic endopeptidase mds104 60 46 9 15.0000 19.5652 2.7e-10 5.1e-07 6.29 structural protein cz93 39 16 6 15.3846 37.5000 2.7e-10 5.2e-07 6.29 mRNA binding cz158 25 46 7 28.0000 15.2174 2.8e-10 5.3e-07 6.27 cyclin-dependent protein kinase regulator mds468 28 10 5 17.8571 50.0000 2.8e-10 5.4e-07 6.27 microfilament motor cz107 6 15 4 66.6667 26.6667 3e-10 5.7e-07 6.25 DNA-directed RNA polymerase I mds332 28 4 4 14.2857 100.0000 3e-10 5.7e-07 6.24 chromatin modeling cz86 33 19 6 18.1818 31.5789 3.1e-10 5.9e-07 6.23 DNA recombination cz152 18 35 6 33.3333 17.1429 3.2e-10 6e-07 6.22 cytoskeleton mds315 13 7 4 30.7692 57.1429 3.7e-10 6.9e-07 6.16 calcium-dependent protein serine/threonine phosphatase mds38 4 4 3 75.0000 75.0000 3.7e-10 7.1e-07 6.15 cohesin mds19 9 10 4 44.4444 40.0000 3.9e-10 7.3e-07 6.13 adenosinetriphosphatase cz157 33 36 7 21.2121 19.4444 3.9e-10 7.3e-07 6.13 transcription regulation from Pol I promoter cz70 5 21 4 80.0000 19.0476 4.4e-10 8.3e-07 6.08 ubiquitin-dependent protein degradation cz115 105 29 9 8.5714 31.0345 4.9e-10 9.3e-07 6.03 protein acetylation cz159 7 50 5 71.4286 10.0000 5.1e-10 9.6e-07 6.02 cytoskeleton organization and biogenesis mds343 17 6 4 23.5294 66.6667 5.2e-10 9.9e-07 6.00 actin filament organization cz118 41 17 6 14.6341 35.2941 5.8e-10 1.1e-06 5.96 nuclear pore cz93 44 16 6 13.6364 37.5000 5.9e-10 1.1e-06 5.95 19S proteasome regulatory particle cz99 37 34 7 18.9189 20.5882 6e-10 1.1e-06 5.95 transcription from Pol I promoter mds13 25 51 7 28.0000 13.7255 6e-10 1.1e-06 5.94 septin ring (sensu Saccharomyces) mds83 9 11 4 44.4444 36.3636 6.1e-10 1.2e-06 5.94 cytokinesis mds62 43 8 5 11.6279 62.5000 6.2e-10 1.2e-06 5.93 tubulin folding cz121 10 10 4 40.0000 40.0000 6.5e-10 1.2e-06 5.91 rRNA processing cz163 35 88 9 25.7143 10.2273 6.5e-10 1.2e-06 5.91 19S proteasome regulatory particle, lid subcomplex cz148 4 34 4 100.0000 11.7647 6.8e-10 1.3e-06 5.89 19S proteasome regulatory particle, base subcomplex cz148 4 34 4 100.0000 11.7647 6.8e-10 1.3e-06 5.89 SRP-dependent, co-translational membrane targeting, translocation cz94 15 7 4 26.6667 57.1429 7e-10 1.3e-06 5.88 cytoskeleton mds140 13 8 4 30.7692 50.0000 7.3e-10 1.4e-06 5.86 casein kinase II cz113 8 13 4 50.0000 30.7692 7.3e-10 1.4e-06 5.86 structural protein of cytoskeleton mds94 54 7 5 9.2593 71.4286 7.6e-10 1.4e-06 5.84 replication fork cz150 16 20 5 31.2500 25.0000 7.7e-10 1.5e-06 5.84 maintenance of chromatin silencing mds470 3 7 3 100.0000 42.8571 8.2e-10 1.5e-06 5.81 amino acid N-acetyltransferase cz200 7 3 3 42.8571 100.0000 8.2e-10 1.5e-06 5.81 19S proteasome regulatory particle, lid subcomplex cz157 4 36 4 100.0000 11.1111 8.7e-10 1.6e-06 5.78 19S proteasome regulatory particle, base subcomplex cz157 4 36 4 100.0000 11.1111 8.7e-10 1.6e-06 5.78 rRNA-nucleus export cz119 28 12 5 17.8571 41.6667 8.8e-10 1.7e-06 5.78 protein phosphatase type 2A mds348 12 9 4 33.3333 44.4444 9.1e-10 1.7e-06 5.76 cohesin cz125 9 12 4 44.4444 33.3333 9.1e-10 1.7e-06 5.76 axial budding cz79 25 5 4 16.0000 80.0000 9.3e-10 1.8e-06 5.76 NLS-bearing substrate-nucleus import mds263 25 5 4 16.0000 80.0000 9.3e-10 1.8e-06 5.76 snRNP protein-nucleus import mds263 25 5 4 16.0000 80.0000 9.3e-10 1.8e-06 5.76 ribosomal protein-nucleus import mds263 25 5 4 16.0000 80.0000 9.3e-10 1.8e-06 5.76 snRNA-nucleus export mds263 25 5 4 16.0000 80.0000 9.3e-10 1.8e-06 5.76 DNA-directed RNA polymerase II, holoenzyme cz170 4 5 3 75.0000 60.0000 9.4e-10 1.8e-06 5.75 RNA binding cz129 62 35 8 12.9032 22.8571 9.9e-10 1.9e-06 5.73 protein folding mds390 48 8 5 10.4167 62.5000 1.1e-09 2.1e-06 5.68 transcription regulation from Pol I promoter mds65 5 26 4 80.0000 15.3846 1.1e-09 2.1e-06 5.68 cytoskeleton organization and biogenesis mds315 17 7 4 23.5294 57.1429 1.2e-09 2.3e-06 5.64 G1/S transition of mitotic cell cycle cz83 37 10 5 13.5135 50.0000 1.2e-09 2.4e-06 5.63 tRNA-nucleus export mds263 27 5 4 14.8148 80.0000 1.3e-09 2.4e-06 5.61 transcription regulation from Pol I promoter mds55 5 27 4 80.0000 14.8148 1.3e-09 2.4e-06 5.61 flocculation cz70 6 21 4 66.6667 19.0476 1.3e-09 2.5e-06 5.60 cytoskeleton mds212 13 9 4 30.7692 44.4444 1.3e-09 2.5e-06 5.60 protein serine/threonine phosphatase cz16 8 15 4 50.0000 26.6667 1.4e-09 2.6e-06 5.58 DNA-directed RNA polymerase I mds13 28 51 7 25.0000 13.7255 1.5e-09 2.8e-06 5.56 rRNA-nucleus export mds263 28 5 4 14.2857 80.0000 1.5e-09 2.8e-06 5.55 nuclear pore organization and biogenesis cz119 31 12 5 16.1290 41.6667 1.5e-09 2.9e-06 5.54 v-SNARE cz89 18 7 4 22.2222 57.1429 1.6e-09 3e-06 5.53 ribosome mds383 29 5 4 13.7931 80.0000 1.7e-09 3.3e-06 5.48 adaptation to mating signal (sensu Saccharomyces) mds38 6 4 3 50.0000 75.0000 1.9e-09 3.5e-06 5.45 cAMP-dependent protein kinase mds266 6 4 3 50.0000 75.0000 1.9e-09 3.5e-06 5.45 mitotic sister chromatid cohesion mds360 6 4 3 50.0000 75.0000 1.9e-09 3.5e-06 5.45 structural protein of cytoskeleton mds62 54 8 5 9.2593 62.5000 2e-09 3.8e-06 5.42 transcription regulation from Pol II promoter cz74 76 12 6 7.8947 50.0000 2.1e-09 4e-06 5.40 transcription regulation from Pol III promoter cz113 10 13 4 40.0000 30.7692 2.2e-09 4.2e-06 5.38 transcription regulation from Pol I promoter cz137 5 31 4 80.0000 12.9032 2.3e-09 4.4e-06 5.36 nuclear pore organization and biogenesis mds263 31 5 4 12.9032 80.0000 2.3e-09 4.4e-06 5.36 transcription regulation from Pol I promoter cz20 5 5 3 60.0000 60.0000 2.3e-09 4.4e-06 5.35 protein phosphatase type 2A mds76 12 11 4 33.3333 36.3636 2.4e-09 4.5e-06 5.35 chaperone mds390 56 8 5 8.9286 62.5000 2.4e-09 4.6e-06 5.34 cytoskeleton organization and biogenesis mds140 17 8 4 23.5294 50.0000 2.4e-09 4.6e-06 5.34 protein folding mds143 48 9 5 10.4167 55.5556 2.4e-09 4.6e-06 5.33 septin ring (sensu Saccharomyces) mds481 9 15 4 44.4444 26.6667 2.5e-09 4.8e-06 5.32 snRNA-nucleus export cz93 25 16 5 20.0000 31.2500 2.6e-09 4.9e-06 5.31 NLS-bearing substrate-nucleus import cz93 25 16 5 20.0000 31.2500 2.6e-09 4.9e-06 5.31 snRNP protein-nucleus import cz93 25 16 5 20.0000 31.2500 2.6e-09 4.9e-06 5.31 ribosomal protein-nucleus import cz93 25 16 5 20.0000 31.2500 2.6e-09 4.9e-06 5.31 protein-nucleus export mds263 32 5 4 12.5000 80.0000 2.6e-09 5e-06 5.30 ER to Golgi transport mds131 80 12 6 7.5000 50.0000 2.9e-09 5.4e-06 5.27 N-linked glycosylation mds288 33 5 4 12.1212 80.0000 3e-09 5.7e-06 5.25 35S primary transcript processing cz146 45 35 7 15.5556 20.0000 3.2e-09 6e-06 5.22 alpha DNA polymerase:primase complex cz149 6 26 4 66.6667 15.3846 3.3e-09 6.2e-06 5.21 flocculation mds65 6 26 4 66.6667 15.3846 3.3e-09 6.2e-06 5.21 pseudohyphal growth mds266 50 4 4 8.0000 100.0000 3.4e-09 6.4e-06 5.19 GTPase mds10 13 11 4 30.7692 36.3636 3.4e-09 6.5e-06 5.19 DNA damage response cz113 11 13 4 36.3636 30.7692 3.4e-09 6.5e-06 5.19 mRNA cleavage and polyadenylation specificity factor complex cz111 7 73 5 71.4286 6.8493 3.6e-09 6.8e-06 5.17 mRNA-binding (hnRNP) protein-nucleus import mds263 35 5 4 11.4286 80.0000 3.8e-09 7.3e-06 5.14 flocculation mds55 6 27 4 66.6667 14.8148 3.9e-09 7.3e-06 5.14 tRNA-nucleus export cz93 27 16 5 18.5185 31.2500 4e-09 7.5e-06 5.13 cytoplasm mds84 492 47 18 3.6585 38.2979 4.1e-09 7.7e-06 5.11 cytoskeleton organization and biogenesis mds212 17 9 4 23.5294 44.4444 4.4e-09 8.3e-06 5.08 flocculation cz20 6 5 3 50.0000 60.0000 4.7e-09 8.8e-06 5.05 rRNA-nucleus export cz93 28 16 5 17.8571 31.2500 4.8e-09 9.1e-06 5.04 establishment of cell polarity (sensu Saccharomyces) mds94 78 7 5 6.4103 71.4286 5e-09 9.5e-06 5.02 structural protein cz119 39 12 5 12.8205 41.6667 5.1e-09 9.7e-06 5.01 DNA-directed RNA polymerase II mds184 12 13 4 33.3333 30.7692 5.2e-09 9.8e-06 5.01 protein phosphatase type 2A mds238 12 13 4 33.3333 30.7692 5.2e-09 9.8e-06 5.01 DNA-directed RNA polymerase II, core mds184 12 13 4 33.3333 30.7692 5.2e-09 9.8e-06 5.01 ion homeostasis cz113 12 13 4 33.3333 30.7692 5.2e-09 9.8e-06 5.01 translation initiation factor mds443 40 24 6 15.0000 25.0000 5.2e-09 9.9e-06 5.01 protein synthesis initiation mds443 40 24 6 15.0000 25.0000 5.2e-09 9.9e-06 5.01 ribosome mds467 29 6 4 13.7931 66.6667 5.2e-09 9.9e-06 5.01 SNF1A/AMP-activated protein kinase mds279 4 8 3 75.0000 37.5000 5.2e-09 9.9e-06 5.00 adenosinetriphosphatase cz130 33 14 5 15.1515 35.7143 5.3e-09 1e-05 5.00 protein binding cz69 79 7 5 6.3291 71.4286 5.4e-09 1e-05 4.99 chaperone mds143 56 9 5 8.9286 55.5556 5.4e-09 1e-05 4.99 leading strand elongation cz219 16 10 4 25.0000 40.0000 5.6e-09 1.1e-05 4.98 structural protein mds263 39 5 4 10.2564 80.0000 6e-09 1.1e-05 4.94 kinetochore cz190 21 8 4 19.0476 50.0000 6.1e-09 1.2e-05 4.94 casein kinase II cz70 8 21 4 50.0000 19.0476 6.1e-09 1.2e-05 4.94 snRNP protein-nucleus import mds359 25 7 4 16.0000 57.1429 6.5e-09 1.2e-05 4.91 axial budding mds94 25 7 4 16.0000 57.1429 6.5e-09 1.2e-05 4.91 NLS-bearing substrate-nucleus import mds359 25 7 4 16.0000 57.1429 6.5e-09 1.2e-05 4.91 ribosomal protein-nucleus import mds359 25 7 4 16.0000 57.1429 6.5e-09 1.2e-05 4.91 snRNA-nucleus export mds359 25 7 4 16.0000 57.1429 6.5e-09 1.2e-05 4.91 spliceosome assembly cz161 7 82 5 71.4286 6.0976 6.5e-09 1.2e-05 4.91 Cdc73/Paf1 complex cz113 3 13 3 100.0000 23.0769 6.7e-09 1.3e-05 4.90 protein synthesis initiation mds383 40 5 4 10.0000 80.0000 6.7e-09 1.3e-05 4.90 translation initiation factor mds383 40 5 4 10.0000 80.0000 6.7e-09 1.3e-05 4.90 flocculation cz137 6 31 4 66.6667 12.9032 6.9e-09 1.3e-05 4.88 histone acetyltransferase complex mds153 9 19 4 44.4444 21.0526 7.1e-09 1.3e-05 4.87 cytoskeleton mds344 13 13 4 30.7692 30.7692 7.5e-09 1.4e-05 4.85 DNA replication, priming cz149 7 26 4 57.1429 15.3846 7.6e-09 1.4e-05 4.84 ATPase cz70 23 21 5 21.7391 23.8095 7.7e-09 1.4e-05 4.84 chromatin silencing complex mds470 5 7 3 60.0000 42.8571 8.2e-09 1.5e-05 4.81 actin binding mds164 5 7 3 60.0000 42.8571 8.2e-09 1.5e-05 4.81 actin cortical patch (sensu Saccharomyces) cz118 29 17 5 17.2414 29.4118 8.2e-09 1.6e-05 4.81 nuclear pore organization and biogenesis cz93 31 16 5 16.1290 31.2500 8.3e-09 1.6e-05 4.80 nucleolus cz146 81 35 8 9.8765 22.8571 8.7e-09 1.7e-05 4.78 eukaryotic translation initiation factor 3 complex mds403 11 16 4 36.3636 25.0000 8.8e-09 1.7e-05 4.78 protein folding mds48 48 11 5 10.4167 45.4545 8.9e-09 1.7e-05 4.78 protein folding mds76 48 11 5 10.4167 45.4545 8.9e-09 1.7e-05 4.78 ATP dependent DNA helicase cz150 9 20 4 44.4444 20.0000 8.9e-09 1.7e-05 4.77 tRNA-nucleus export mds359 27 7 4 14.8148 57.1429 9e-09 1.7e-05 4.77 transcription factor complex cz139 5 43 4 80.0000 9.3023 9e-09 1.7e-05 4.77 3'-5' exoribonuclease mds474 18 10 4 22.2222 40.0000 9.4e-09 1.8e-05 4.75 nuclear pore cz119 44 12 5 11.3636 41.6667 9.6e-09 1.8e-05 4.74 protein-nucleus export cz93 32 16 5 15.6250 31.2500 9.8e-09 1.9e-05 4.73 nuclear pore mds263 44 5 4 9.0909 80.0000 1e-08 1.9e-05 4.73 aerobic respiration cz144 65 4 4 6.1538 100.0000 1e-08 1.9e-05 4.72 RNA binding cz158 62 46 8 12.9032 17.3913 1e-08 1.9e-05 4.72 rRNA-nucleus export mds359 28 7 4 14.2857 57.1429 1e-08 2e-05 4.70 protein serine/threonine phosphatase mds20 8 24 4 50.0000 16.6667 1.1e-08 2.1e-05 4.69 transcription factor TFIIH mds300 9 21 4 44.4444 19.0476 1.1e-08 2.1e-05 4.68 mitotic repression of transcription from Pol II promoter mds300 9 21 4 44.4444 19.0476 1.1e-08 2.1e-05 4.68 cytoplasm mds210 492 55 19 3.8618 34.5455 1.1e-08 2.1e-05 4.68 SNF1A/AMP-activated protein kinase mds271 4 10 3 75.0000 30.0000 1.1e-08 2.1e-05 4.67 outer plaque of spindle pole body cz121 4 10 3 75.0000 30.0000 1.1e-08 2.1e-05 4.67 protein phosphatase type 2A cz151 12 46 5 41.6667 10.8696 1.2e-08 2.3e-05 4.64 axial budding mds62 25 8 4 16.0000 50.0000 1.3e-08 2.4e-05 4.61 casein kinase II cz20 8 5 3 37.5000 60.0000 1.3e-08 2.5e-05 4.61 establishment of cell polarity (sensu Saccharomyces) mds62 78 8 5 6.4103 62.5000 1.3e-08 2.5e-05 4.60 mRNA-nucleus export mds263 48 5 4 8.3333 80.0000 1.4e-08 2.7e-05 4.57 mRNA-nucleus export cz119 48 12 5 10.4167 41.6667 1.5e-08 2.9e-05 4.54 casein kinase II mds65 8 26 4 50.0000 15.3846 1.5e-08 2.9e-05 4.54 multicatalytic endopeptidase cz126 60 50 8 13.3333 16.0000 1.5e-08 2.9e-05 4.54 IMP dehydrogenase mds338 4 11 3 75.0000 27.2727 1.5e-08 2.9e-05 4.54 19S proteasome regulatory particle, lid subcomplex mds126 4 11 3 75.0000 27.2727 1.5e-08 2.9e-05 4.54 mRNA-binding (hnRNP) protein-nucleus import cz93 35 16 5 14.2857 31.2500 1.6e-08 3e-05 4.53 ATPase cz116 23 24 5 21.7391 20.8333 1.6e-08 3e-05 4.52 nuclear pore organization and biogenesis mds359 31 7 4 12.9032 57.1429 1.6e-08 3e-05 4.52 non-selective vesicle fusion cz89 31 7 4 12.9032 57.1429 1.6e-08 3e-05 4.52 SRP-dependent, co-translational membrane targeting, docking cz94 6 7 3 50.0000 42.8571 1.6e-08 3.1e-05 4.51 telomeric heterochromatin mds470 6 7 3 50.0000 42.8571 1.6e-08 3.1e-05 4.51 transcription regulation from Pol I promoter mds273 5 50 4 80.0000 8.0000 1.7e-08 3.2e-05 4.50 retrograde (Golgi to ER) transport mds131 17 12 4 23.5294 33.3333 1.7e-08 3.2e-05 4.49 casein kinase II mds55 8 27 4 50.0000 14.8148 1.8e-08 3.4e-05 4.47 ribosome mds234 29 40 6 20.6897 15.0000 1.8e-08 3.4e-05 4.47 Golgi to vacuole transport cz124 21 10 4 19.0476 40.0000 1.8e-08 3.5e-05 4.46 regulation of CDK activity mds468 21 10 4 19.0476 40.0000 1.8e-08 3.5e-05 4.46 regulation of CDK activity cz83 21 10 4 19.0476 40.0000 1.8e-08 3.5e-05 4.46 transcription regulation from Pol III promoter cz70 10 21 4 40.0000 19.0476 1.8e-08 3.5e-05 4.46 mRNA binding cz161 25 82 7 28.0000 8.5366 1.8e-08 3.5e-05 4.46 protein-nucleus export mds359 32 7 4 12.5000 57.1429 1.8e-08 3.5e-05 4.46 bud growth mds76 19 11 4 21.0526 36.3636 1.9e-08 3.5e-05 4.45 glycolysis cz62 16 13 4 25.0000 30.7692 1.9e-08 3.6e-05 4.45 chaperone mds48 56 11 5 8.9286 45.4545 2e-08 3.7e-05 4.43 chaperone mds76 56 11 5 8.9286 45.4545 2e-08 3.7e-05 4.43 translation elongation factor cz122 15 14 4 26.6667 28.5714 2e-08 3.8e-05 4.43 ion homeostasis mds38 12 4 3 25.0000 75.0000 2.1e-08 3.9e-05 4.41 lagging strand elongation cz219 22 10 4 18.1818 40.0000 2.2e-08 4.2e-05 4.37 transcription factor TFIIF cz145 3 19 3 100.0000 15.7895 2.3e-08 4.3e-05 4.37 histone acetylation mds317 25 9 4 16.0000 44.4444 2.3e-08 4.4e-05 4.36 DNA unwinding cz150 11 20 4 36.3636 20.0000 2.3e-08 4.4e-05 4.36 RNA binding cz160 62 51 8 12.9032 15.6863 2.4e-08 4.5e-05 4.35 35S primary transcript processing cz132 45 46 7 15.5556 15.2174 2.4e-08 4.5e-05 4.34 mitochondrial large ribosomal subunit cz161 39 82 8 20.5128 9.7561 2.4e-08 4.6e-05 4.34 cytoskeleton organization and biogenesis mds344 17 13 4 23.5294 30.7692 2.5e-08 4.7e-05 4.33 mRNA polyadenylation cz111 29 73 7 24.1379 9.5890 2.5e-08 4.8e-05 4.32 nucleolus mds218 81 16 6 7.4074 37.5000 2.6e-08 4.9e-05 4.31 polar budding cz118 36 17 5 13.8889 29.4118 2.6e-08 4.9e-05 4.31 cAMP-dependent protein kinase mds23 6 8 3 50.0000 37.5000 2.6e-08 4.9e-05 4.31 mRNA-binding (hnRNP) protein-nucleus import mds359 35 7 4 11.4286 57.1429 2.7e-08 5e-05 4.30 spliceosome cz158 27 46 6 22.2222 13.0435 2.7e-08 5.1e-05 4.29 transcription regulation from Pol III promoter cz20 10 5 3 30.0000 60.0000 2.8e-08 5.3e-05 4.28 DNA damage response cz70 11 21 4 36.3636 19.0476 2.9e-08 5.4e-05 4.27 eukaryotic translation initiation factor 3 complex cz70 11 21 4 36.3636 19.0476 2.9e-08 5.4e-05 4.27 adenosinetriphosphatase mds161 33 19 5 15.1515 26.3158 3e-08 5.7e-05 4.24 casein kinase II cz137 8 31 4 50.0000 12.9032 3.2e-08 6.1e-05 4.22 microtubule nucleation cz121 24 10 4 16.6667 40.0000 3.2e-08 6.1e-05 4.21 mismatch repair cz219 24 10 4 16.6667 40.0000 3.2e-08 6.1e-05 4.21 DNA replication initiation cz219 24 10 4 16.6667 40.0000 3.2e-08 6.1e-05 4.21 endocytosis mds25 50 26 6 12.0000 23.0769 3.6e-08 6.7e-05 4.17 TFIID complex cz97 16 15 4 25.0000 26.6667 3.6e-08 6.8e-05 4.17 chromatin architecture cz136 23 28 5 21.7391 17.8571 3.6e-08 6.9e-05 4.16 structural protein of ribosome cz119 220 12 7 3.1818 58.3333 3.7e-08 7e-05 4.15 DNA damage response cz20 11 5 3 27.2727 60.0000 3.9e-08 7.3e-05 4.14 nucleolus mds136 81 28 7 8.6420 25.0000 4e-08 7.6e-05 4.12 structural protein mds359 39 7 4 10.2564 57.1429 4.2e-08 7.9e-05 4.10 RAS protein signal transduction mds113 15 4 3 20.0000 75.0000 4.3e-08 8e-05 4.09 protein folding mds343 48 6 4 8.3333 66.6667 4.3e-08 8e-05 4.09 ion homeostasis cz70 12 21 4 33.3333 19.0476 4.3e-08 8.1e-05 4.09 ubiquitin-dependent protein degradation mds104 105 46 9 8.5714 19.5652 4.3e-08 8.1e-05 4.09 NAD-dependent histone deacetylase cz151 15 46 5 33.3333 10.8696 4.5e-08 8.6e-05 4.07 histone deacetylation cz151 15 46 5 33.3333 10.8696 4.5e-08 8.6e-05 4.07 transcription regulation from Pol III promoter mds65 10 26 4 40.0000 15.3846 4.6e-08 8.6e-05 4.07 cell aging (sensu Saccharomyces) mds470 8 7 3 37.5000 42.8571 4.6e-08 8.6e-05 4.06 double-strand break repair via nonhomologous end-joining mds470 8 7 3 37.5000 42.8571 4.6e-08 8.6e-05 4.06 transcription factor TFIIA cz29 2 2 2 100.0000 100.0000 5e-08 9.4e-05 4.03 establishment and/or maintenance of cell polarity (sensu Saccharomyces) mds258 2 2 2 100.0000 100.0000 5e-08 9.4e-05 4.03 poly(A)-specific ribonuclease cz213 2 2 2 100.0000 100.0000 5e-08 9.4e-05 4.03 phenylalanyl-tRNA aminoacylation cz177 2 2 2 100.0000 100.0000 5e-08 9.4e-05 4.03 flocculation mds273 6 50 4 66.6667 8.0000 5e-08 9.5e-05 4.02 mitotic spindle checkpoint mds76 24 11 4 16.6667 36.3636 5.1e-08 9.6e-05 4.02 ion homeostasis cz20 12 5 3 25.0000 60.0000 5.1e-08 9.7e-05 4.01 spliceosome cz160 27 51 6 22.2222 11.7647 5.1e-08 9.7e-05 4.01 transcription regulation from Pol II promoter mds474 76 10 5 6.5789 50.0000 5.2e-08 9.7e-05 4.01 replication fork cz72 16 4 3 18.7500 75.0000 5.2e-08 9.9e-05 4.00 transcription regulation from Pol III promoter mds55 10 27 4 40.0000 14.8148 5.3e-08 0.0001 4.00 ribosome mds443 29 24 5 17.2414 20.8333 5.5e-08 0.0001 3.98 mitotic sister chromatid cohesion mds19 6 10 3 50.0000 30.0000 5.6e-08 0.0001 3.98 DNA clamp loader mds333 6 10 3 50.0000 30.0000 5.6e-08 0.0001 3.98 protein folding mds255 48 15 5 10.4167 33.3333 5.6e-08 0.0001 3.97 axial budding mds83 25 11 4 16.0000 36.3636 6e-08 0.0001 3.94 gluconeogenesis cz62 21 13 4 19.0476 30.7692 6.2e-08 0.0001 3.93 IMP dehydrogenase mds262 4 17 3 75.0000 17.6471 6.4e-08 0.0001 3.92 rRNA modification cz132 16 46 5 31.2500 10.8696 6.5e-08 0.0001 3.91 cytoskeleton mds437 13 5 3 23.0769 60.0000 6.7e-08 0.0001 3.90 RAB small monomeric GTPase mds137 9 7 3 33.3333 42.8571 6.9e-08 0.0001 3.89 late endosome mds137 9 7 3 33.3333 42.8571 6.9e-08 0.0001 3.89 ribosome cz143 29 25 5 17.2414 20.0000 6.9e-08 0.0001 3.89 DNA damage response mds65 11 26 4 36.3636 15.3846 7.1e-08 0.0001 3.87 actin cortical patch (sensu Saccharomyces) mds92 29 10 4 13.7931 40.0000 7.2e-08 0.0001 3.87 N-linked glycosylation cz114 33 9 4 12.1212 44.4444 7.5e-08 0.0001 3.85 ubiquitin--protein ligase mds278 38 8 4 10.5263 50.0000 7.5e-08 0.0001 3.85 transcription from Pol II promoter mds369 45 7 4 8.8889 57.1429 7.6e-08 0.0001 3.84 DNA clamp loader mds237 6 11 3 50.0000 27.2727 7.7e-08 0.0001 3.84 chaperone mds343 56 6 4 7.1429 66.6667 8e-08 0.0002 3.82 alpha,alpha-trehalose-phosphate synthase (UDP-forming) cz31 18 16 4 22.2222 25.0000 8e-08 0.0002 3.82 mRNA-nucleus export cz93 48 16 5 10.4167 31.2500 8.2e-08 0.0002 3.81 spliceosome assembly cz158 7 46 4 57.1429 8.6957 8.3e-08 0.0002 3.81 eukaryotic translation initiation factor 3 complex mds185 11 27 4 36.3636 14.8148 8.4e-08 0.0002 3.80 DNA damage response mds55 11 27 4 36.3636 14.8148 8.4e-08 0.0002 3.80 cytoplasm mds112 492 17 10 2.0325 58.8235 8.4e-08 0.0002 3.80 mannosyltransferase mds288 14 5 3 21.4286 60.0000 8.5e-08 0.0002 3.79 mRNA cleavage cz111 21 73 6 28.5714 8.2192 8.8e-08 0.0002 3.78 snRNP protein-nucleus import cz119 25 12 4 16.0000 33.3333 9e-08 0.0002 3.77 ribosomal protein-nucleus import cz119 25 12 4 16.0000 33.3333 9e-08 0.0002 3.77 snRNA-nucleus export cz119 25 12 4 16.0000 33.3333 9e-08 0.0002 3.77 NLS-bearing substrate-nucleus import cz119 25 12 4 16.0000 33.3333 9e-08 0.0002 3.77 19S proteasome regulatory particle, base subcomplex mds161 4 19 3 75.0000 15.7895 9.1e-08 0.0002 3.77 histone deacetylase complex cz151 17 46 5 29.4118 10.8696 9.2e-08 0.0002 3.76 ubiquitin-dependent protein degradation cz126 105 50 9 8.5714 18.0000 9.3e-08 0.0002 3.76 transcription regulation from Pol III promoter cz137 10 31 4 40.0000 12.9032 9.5e-08 0.0002 3.74 chromatin silencing at ribosomal DNA (rDNA) cz137 10 31 4 40.0000 12.9032 9.5e-08 0.0002 3.74 protein folding mds315 48 7 4 8.3333 57.1429 9.9e-08 0.0002 3.73 mRNA-nucleus export mds359 48 7 4 8.3333 57.1429 9.9e-08 0.0002 3.73 histone acetyltransferase mds153 16 19 4 25.0000 21.0526 1e-07 0.0002 3.72 nucleosome remodeling complex cz86 16 19 4 25.0000 21.0526 1e-07 0.0002 3.72 mitotic sister chromatid cohesion cz125 6 12 3 50.0000 25.0000 1e-07 0.0002 3.71 ribosome cz138 29 27 5 17.2414 18.5185 1e-07 0.0002 3.71 nucleotide-excision repair cz72 20 4 3 15.0000 75.0000 1.1e-07 0.0002 3.70 snRNP U2e cz155 12 26 4 33.3333 15.3846 1.1e-07 0.0002 3.70 ion homeostasis mds65 12 26 4 33.3333 15.3846 1.1e-07 0.0002 3.70 tricarboxylic acid cycle mds300 15 21 4 26.6667 19.0476 1.2e-07 0.0002 3.65 ATPase cz152 23 35 5 21.7391 14.2857 1.2e-07 0.0002 3.65 nucleolus mds127 81 20 6 7.4074 30.0000 1.2e-07 0.0002 3.65 adenosinetriphosphatase cz219 33 10 4 12.1212 40.0000 1.2e-07 0.0002 3.63 adenosinetriphosphatase mds333 33 10 4 12.1212 40.0000 1.2e-07 0.0002 3.63 G2/M transition of mitotic cell cycle mds468 33 10 4 12.1212 40.0000 1.2e-07 0.0002 3.63 Golgi to vacuole transport cz98 21 4 3 14.2857 75.0000 1.2e-07 0.0002 3.63 chaperone mds255 56 15 5 8.9286 33.3333 1.2e-07 0.0002 3.63 tRNA-nucleus export cz119 27 12 4 14.8148 33.3333 1.3e-07 0.0002 3.63 ion homeostasis mds55 12 27 4 33.3333 14.8148 1.3e-07 0.0002 3.63 spliceosome assembly cz160 7 51 4 57.1429 7.8431 1.3e-07 0.0002 3.62 nuclear exosome (RNase complex) mds340 11 30 4 36.3636 13.3333 1.3e-07 0.0002 3.61 transcription regulation from Pol I promoter cz93 5 16 3 60.0000 18.7500 1.3e-07 0.0002 3.61 DNA clamp loader mds118 6 13 3 50.0000 23.0769 1.3e-07 0.0003 3.60 nuclear ubiquitin ligase complex mds42 6 13 3 50.0000 23.0769 1.3e-07 0.0003 3.60 signal recognition particle receptor cz94 11 7 3 27.2727 42.8571 1.3e-07 0.0003 3.59 DNA binding mds150 62 14 5 8.0645 35.7143 1.4e-07 0.0003 3.58 transcription regulation from Pol I promoter cz156 5 84 4 80.0000 4.7619 1.4e-07 0.0003 3.58 ARF small monomeric GTPase mds28 3 2 2 66.6667 100.0000 1.5e-07 0.0003 3.55 phosphoglycerate dehydrogenase cz10 2 3 2 100.0000 66.6667 1.5e-07 0.0003 3.55 plasma membrane cation-transporting ATPase cz221 2 3 2 100.0000 66.6667 1.5e-07 0.0003 3.55 transketolase cz28 3 2 2 66.6667 100.0000 1.5e-07 0.0003 3.55 DNA damage response cz137 11 31 4 36.3636 12.9032 1.5e-07 0.0003 3.55 DNA replication factor A complex cz152 3 35 3 100.0000 8.5714 1.5e-07 0.0003 3.54 DNA replication factor C complex mds333 8 10 3 37.5000 30.0000 1.6e-07 0.0003 3.53 vacuole organization and biogenesis cz109 8 10 3 37.5000 30.0000 1.6e-07 0.0003 3.53 ATP binding cz152 10 35 4 40.0000 11.4286 1.6e-07 0.0003 3.52 rRNA processing mds397 35 10 4 11.4286 40.0000 1.6e-07 0.0003 3.52 signal transduction cz75 35 10 4 11.4286 40.0000 1.6e-07 0.0003 3.52 cytoskeleton organization and biogenesis mds437 17 5 3 17.6471 60.0000 1.6e-07 0.0003 3.52 transcription regulation from Pol I promoter mds358 5 17 3 60.0000 17.6471 1.6e-07 0.0003 3.52 DNA-directed RNA polymerase II, core cz154 12 29 4 33.3333 13.7931 1.7e-07 0.0003 3.50 damaged DNA binding cz115 12 29 4 33.3333 13.7931 1.7e-07 0.0003 3.50 DNA-directed RNA polymerase II cz154 12 29 4 33.3333 13.7931 1.7e-07 0.0003 3.50 DNA clamp loader mds351 6 14 3 50.0000 21.4286 1.7e-07 0.0003 3.49 chaperone mds315 56 7 4 7.1429 57.1429 1.9e-07 0.0004 3.45 mismatch repair cz72 24 4 3 12.5000 75.0000 1.9e-07 0.0004 3.45 adenosinetriphosphatase mds237 33 11 4 12.1212 36.3636 1.9e-07 0.0004 3.44 protein folding mds140 48 8 4 8.3333 50.0000 2e-07 0.0004 3.43 ubiquitin--protein ligase mds479 38 3 3 7.8947 100.0000 2e-07 0.0004 3.43 G1/S transition of mitotic cell cycle mds468 37 10 4 10.8108 40.0000 2e-07 0.0004 3.42 adenosinetriphosphatase mds220 33 27 5 15.1515 18.5185 2.1e-07 0.0004 3.41 G2/M transition of mitotic cell cycle mds55 33 27 5 15.1515 18.5185 2.1e-07 0.0004 3.41 DNA replication factor C complex mds237 8 11 3 37.5000 27.2727 2.2e-07 0.0004 3.39 ubiquitin--protein ligase mds135 38 10 4 10.5263 40.0000 2.2e-07 0.0004 3.38 ion homeostasis cz137 12 31 4 33.3333 12.9032 2.2e-07 0.0004 3.37 transcription elongation factor complex mds330 19 5 3 15.7895 60.0000 2.3e-07 0.0004 3.37 pseudohyphal growth mds23 50 8 4 8.0000 50.0000 2.3e-07 0.0004 3.36 casein kinase II mds273 8 50 4 50.0000 8.0000 2.3e-07 0.0004 3.36 late endosome mds440 9 10 3 33.3333 30.0000 2.3e-07 0.0004 3.35 RAB small monomeric GTPase mds440 9 10 3 33.3333 30.0000 2.3e-07 0.0004 3.35 IMP dehydrogenase mds239 4 26 3 75.0000 11.5385 2.4e-07 0.0005 3.34 axial budding mds481 25 15 4 16.0000 26.6667 2.5e-07 0.0005 3.33 DNA unwinding cz152 11 35 4 36.3636 11.4286 2.5e-07 0.0005 3.33 protein-nucleus export cz119 32 12 4 12.5000 33.3333 2.6e-07 0.0005 3.32 ubiquitin conjugating enzyme mds455 16 6 3 18.7500 50.0000 2.6e-07 0.0005 3.31 flocculation cz93 6 16 3 50.0000 18.7500 2.6e-07 0.0005 3.31 mRNA catabolism mds335 27 4 3 11.1111 75.0000 2.7e-07 0.0005 3.29 19S proteasome regulatory particle, base subcomplex mds220 4 27 3 75.0000 11.1111 2.7e-07 0.0005 3.29 translation initiation factor mds95 40 10 4 10.0000 40.0000 2.8e-07 0.0005 3.28 protein synthesis initiation mds95 40 10 4 10.0000 40.0000 2.8e-07 0.0005 3.28 nucleosome remodeling complex cz116 16 24 4 25.0000 16.6667 2.8e-07 0.0005 3.28 deadenylation-dependent decapping mds385 12 8 3 25.0000 37.5000 2.9e-07 0.0005 3.27 protein carrier cz168 12 8 3 25.0000 37.5000 2.9e-07 0.0005 3.27 actin cap (sensu Saccharomyces) cz107 26 15 4 15.3846 26.6667 2.9e-07 0.0006 3.26 nucleotide excision repair factor 3 cz131 7 14 3 42.8571 21.4286 3e-07 0.0006 3.25 F-actin capping cz81 2 4 2 100.0000 50.0000 3e-07 0.0006 3.25 phosphogluconate dehydrogenase (decarboxylating) mds207 2 4 2 100.0000 50.0000 3e-07 0.0006 3.25 chromatin remodeling complex mds320 4 2 2 50.0000 100.0000 3e-07 0.0006 3.25 branched-chain amino acid aminotransferase cz2 4 2 2 50.0000 100.0000 3e-07 0.0006 3.25 RAB-protein geranylgeranyltransferase cz21 4 2 2 50.0000 100.0000 3e-07 0.0006 3.25 actin capping protein cz81 2 4 2 100.0000 50.0000 3e-07 0.0006 3.25 activation of MAPKK (osmolarity sensing) mds366 2 4 2 100.0000 50.0000 3e-07 0.0006 3.25 6-phosphofructokinase cz216 4 2 2 50.0000 100.0000 3e-07 0.0006 3.25 pre-mRNA splicing factor mds417 41 10 4 9.7561 40.0000 3e-07 0.0006 3.24 flocculation mds358 6 17 3 50.0000 17.6471 3.2e-07 0.0006 3.22 chromatin assembly/disassembly mds273 20 50 5 25.0000 10.0000 3.5e-07 0.0007 3.18 protein folding mds212 48 9 4 8.3333 44.4444 3.5e-07 0.0007 3.18 `de novo` pyrimidine biosynthesis mds415 5 22 3 60.0000 13.6364 3.6e-07 0.0007 3.17 ribose-phosphate pyrophosphokinase mds415 5 22 3 60.0000 13.6364 3.6e-07 0.0007 3.17 purine salvage mds415 5 22 3 60.0000 13.6364 3.6e-07 0.0007 3.17 transcription regulation from Pol I promoter mds353 5 22 3 60.0000 13.6364 3.6e-07 0.0007 3.17 chaperone mds140 56 8 4 7.1429 50.0000 3.7e-07 0.0007 3.16 protein synthesis initiation cz143 40 25 5 12.5000 20.0000 3.7e-07 0.0007 3.16 translation initiation factor cz143 40 25 5 12.5000 20.0000 3.7e-07 0.0007 3.16 mRNA-binding (hnRNP) protein-nucleus import cz119 35 12 4 11.4286 33.3333 3.7e-07 0.0007 3.16 damaged DNA binding cz152 12 35 4 33.3333 11.4286 3.7e-07 0.0007 3.16 G1/S transition of mitotic cell cycle mds55 37 27 5 13.5135 18.5185 3.7e-07 0.0007 3.15 nucleosome mds349 13 8 3 23.0769 37.5000 3.7e-07 0.0007 3.15 meiotic chromosome mds432 13 8 3 23.0769 37.5000 3.7e-07 0.0007 3.15 DNA replication factor C complex mds118 8 13 3 37.5000 23.0769 3.7e-07 0.0007 3.15 pyruvate metabolism cz100 8 13 3 37.5000 23.0769 3.7e-07 0.0007 3.15 pseudohyphal growth mds286 50 38 6 12.0000 15.7895 4e-07 0.0008 3.12 G2/M transition of mitotic cell cycle cz113 33 13 4 12.1212 30.7692 4.2e-07 0.0008 3.10 flocculation cz156 6 84 4 66.6667 4.7619 4.2e-07 0.0008 3.10 actin filament organization mds9 41 25 5 12.1951 20.0000 4.2e-07 0.0008 3.10 ARF small monomeric GTPase mds323 3 3 2 66.6667 66.6667 4.5e-07 0.0008 3.07 protein farnesyltransferase cz84 3 3 2 66.6667 66.6667 4.5e-07 0.0008 3.07 pseudohyphal growth cz30 50 3 3 6.0000 100.0000 4.6e-07 0.0009 3.06 DNA replication factor C complex mds351 8 14 3 37.5000 21.4286 4.7e-07 0.0009 3.05 vesicle transport mds10 41 11 4 9.7561 36.3636 4.8e-07 0.0009 3.05 actin filament organization mds76 41 11 4 9.7561 36.3636 4.8e-07 0.0009 3.05 transcription regulation from Pol I promoter mds413 5 2 2 40.0000 100.0000 5e-07 0.0009 3.03 casein kinase I mds269 5 2 2 40.0000 100.0000 5e-07 0.0009 3.03 actin capping protein mds261 2 5 2 100.0000 40.0000 5e-07 0.0009 3.03 F-actin capping mds261 2 5 2 100.0000 40.0000 5e-07 0.0009 3.03 H3/H4 histone acetyltransferase mds257 2 5 2 100.0000 40.0000 5e-07 0.0009 3.03 cell wall organization and biogenesis cz79 115 5 4 3.4783 80.0000 5e-07 0.0009 3.02 Golgi apparatus cz98 33 4 3 9.0909 75.0000 5.1e-07 0.0010 3.02 protein serine/threonine kinase mds266 33 4 3 9.0909 75.0000 5.1e-07 0.0010 3.02 bud neck cz82 33 4 3 9.0909 75.0000 5.1e-07 0.0010 3.02 nuclear chromosome cz152 13 35 4 30.7692 11.4286 5.3e-07 0.0010 3.00 19S proteasome regulatory particle mds180 37 29 5 13.5135 17.2414 5.4e-07 0.0010 2.99 translation initiation factor mds55 40 27 5 12.5000 18.5185 5.6e-07 0.0011 2.98 protein synthesis initiation mds185 40 27 5 12.5000 18.5185 5.6e-07 0.0011 2.98 protein synthesis initiation mds55 40 27 5 12.5000 18.5185 5.6e-07 0.0011 2.98 translation initiation factor mds185 40 27 5 12.5000 18.5185 5.6e-07 0.0011 2.98 small nucleolar ribonucleoprotein particle mds82 34 4 3 8.8235 75.0000 5.6e-07 0.0011 2.98 19S proteasome regulatory particle, base subcomplex cz99 4 34 3 75.0000 8.8235 5.6e-07 0.0011 2.98 cytoskeleton mds222 13 9 3 23.0769 33.3333 5.6e-07 0.0011 2.98 cytokinesis mds83 43 11 4 9.3023 36.3636 5.8e-07 0.0011 2.96 peptidyltransferase cz140 3 54 3 100.0000 5.5556 5.8e-07 0.0011 2.96 adenosinetriphosphatase mds351 33 14 4 12.1212 28.5714 5.8e-07 0.0011 2.96 nucleus mds453 504 9 7 1.3889 77.7778 5.9e-07 0.0011 2.95 multicatalytic endopeptidase cz99 60 34 6 10.0000 17.6471 6e-07 0.0011 2.94 Pol II transcription elongation factor mds330 26 5 3 11.5385 60.0000 6.1e-07 0.0011 2.94 actin cap (sensu Saccharomyces) mds260 26 5 3 11.5385 60.0000 6.1e-07 0.0011 2.94 sister chromatid cohesion mds333 12 10 3 25.0000 30.0000 6.1e-07 0.0012 2.94 sister chromatid cohesion cz219 12 10 3 25.0000 30.0000 6.1e-07 0.0012 2.94 chaperone mds212 56 9 4 7.1429 44.4444 6.6e-07 0.0012 2.90 epsilon DNA polymerase cz189 7 18 3 42.8571 16.6667 6.6e-07 0.0013 2.90 telomere mds470 18 7 3 16.6667 42.8571 6.6e-07 0.0013 2.90 snRNP U6e cz128 4 36 3 75.0000 8.3333 6.7e-07 0.0013 2.90 G1/S transition of mitotic cell cycle cz113 37 13 4 10.8108 30.7692 6.7e-07 0.0013 2.90 eukaryotic translation initiation factor 2B complex mds55 5 27 3 60.0000 11.1111 6.8e-07 0.0013 2.89 transcription regulation from Pol III promoter mds273 10 50 4 40.0000 8.0000 6.9e-07 0.0013 2.89 endocytosis mds440 50 10 4 8.0000 40.0000 6.9e-07 0.0013 2.89 histone acetylation mds153 25 19 4 16.0000 21.0526 6.9e-07 0.0013 2.88 actin filament organization mds97 41 12 4 9.7561 33.3333 7.1e-07 0.0013 2.87 actin filament organization cz153 41 12 4 9.7561 33.3333 7.1e-07 0.0013 2.87 flocculation mds353 6 22 3 50.0000 13.6364 7.2e-07 0.0014 2.87 casein kinase II cz93 8 16 3 37.5000 18.7500 7.3e-07 0.0014 2.86 chromatin binding cz150 24 20 4 16.6667 20.0000 7.3e-07 0.0014 2.86 translational regulation, elongation cz179 6 2 2 33.3333 100.0000 7.4e-07 0.0014 2.85 chromatin assembly complex mds243 6 2 2 33.3333 100.0000 7.4e-07 0.0014 2.85 telomeric heterochromatin cz57 6 2 2 33.3333 100.0000 7.4e-07 0.0014 2.85 glycogen catabolism mds147 2 6 2 100.0000 33.3333 7.4e-07 0.0014 2.85 flocculation mds413 6 2 2 33.3333 100.0000 7.4e-07 0.0014 2.85 chromatin architecture cz159 23 50 5 21.7391 10.0000 7.4e-07 0.0014 2.85 sister chromatid cohesion mds237 12 11 3 25.0000 27.2727 8.4e-07 0.0016 2.80 actin cortical patch (sensu Saccharomyces) mds261 29 5 3 10.3448 60.0000 8.5e-07 0.0016 2.79 DNA binding cz152 62 35 6 9.6774 17.1429 8.8e-07 0.0017 2.78 casein kinase II mds358 8 17 3 37.5000 17.6471 8.8e-07 0.0017 2.78 protein serine/threonine phosphatase mds173 8 17 3 37.5000 17.6471 8.8e-07 0.0017 2.78 RAS small monomeric GTPase mds113 3 4 2 66.6667 50.0000 8.9e-07 0.0017 2.77 anthranilate synthase cz33 4 3 2 50.0000 66.6667 8.9e-07 0.0017 2.77 general regulation of carbohydrate metabolism cz184 4 3 2 50.0000 66.6667 8.9e-07 0.0017 2.77 6-phosphofructokinase mds124 4 3 2 50.0000 66.6667 8.9e-07 0.0017 2.77 CCAAT-binding factor complex cz184 4 3 2 50.0000 66.6667 8.9e-07 0.0017 2.77 MAP kinase kinase kinase mds366 3 4 2 66.6667 50.0000 8.9e-07 0.0017 2.77 structural protein of cytoskeleton cz121 54 10 4 7.4074 40.0000 9.4e-07 0.0018 2.75 actin cortical patch (sensu Saccharomyces) mds425 29 18 4 13.7931 22.2222 1e-06 0.0019 2.71 DNA recombination cz115 18 29 4 22.2222 13.7931 1e-06 0.0019 2.71 ubiquitin-dependent protein degradation cz99 105 34 7 6.6667 20.5882 1e-06 0.0019 2.71 nucleotide excision repair factor 3 mds404 7 2 2 28.5714 100.0000 1e-06 0.0020 2.71 activation of MAPK (pseudohyphal growth) cz32 2 7 2 100.0000 28.5714 1e-06 0.0020 2.71 pantothenate biosynthesis cz17 7 2 2 28.5714 100.0000 1e-06 0.0020 2.71 histone deacetylase complex cz137 17 31 4 23.5294 12.9032 1.1e-06 0.0020 2.70 transcription from Pol III promoter mds401 18 8 3 16.6667 37.5000 1.1e-06 0.0020 2.70 snRNA-nucleus export mds229 25 6 3 12.0000 50.0000 1.1e-06 0.0020 2.69 NLS-bearing substrate-nucleus import mds229 25 6 3 12.0000 50.0000 1.1e-06 0.0020 2.69 ribosomal protein-nucleus import mds229 25 6 3 12.0000 50.0000 1.1e-06 0.0020 2.69 snRNP protein-nucleus import mds229 25 6 3 12.0000 50.0000 1.1e-06 0.0020 2.69 DNA damage response mds273 11 50 4 36.3636 8.0000 1.1e-06 0.0020 2.69 ribosomal large subunit assembly and maintenance mds169 36 34 5 13.8889 14.7059 1.1e-06 0.0020 2.69 transcription from Pol II promoter cz159 45 50 6 13.3333 12.0000 1.1e-06 0.0021 2.67 3'-5' exoribonuclease mds340 18 30 4 22.2222 13.3333 1.2e-06 0.0022 2.65 NAD-dependent histone deacetylase mds52 15 10 3 20.0000 30.0000 1.3e-06 0.0024 2.62 histone deacetylation mds52 15 10 3 20.0000 30.0000 1.3e-06 0.0024 2.62 mRNA localization, intracellular cz107 10 15 3 30.0000 20.0000 1.3e-06 0.0024 2.62 mating (sensu Saccharomyces) cz79 33 5 3 9.0909 60.0000 1.3e-06 0.0024 2.62 G2/M transition of mitotic cell cycle cz20 33 5 3 9.0909 60.0000 1.3e-06 0.0024 2.62 G1/S transition of mitotic cell cycle cz16 37 15 4 10.8108 26.6667 1.3e-06 0.0024 2.62 cytoskeleton organization and biogenesis mds222 17 9 3 17.6471 33.3333 1.3e-06 0.0025 2.60 tRNA-nucleus export mds229 27 6 3 11.1111 50.0000 1.4e-06 0.0026 2.59 nucleosome mds100 13 44 4 30.7692 9.0909 1.4e-06 0.0026 2.59 ER to Golgi transport mds119 80 46 7 8.7500 15.2174 1.4e-06 0.0026 2.58 Golgi vesicle mds28 8 2 2 25.0000 100.0000 1.4e-06 0.0026 2.58 cytosolic ribosome cz179 8 2 2 25.0000 100.0000 1.4e-06 0.0026 2.58 casein kinase II mds413 8 2 2 25.0000 100.0000 1.4e-06 0.0026 2.58 phenylalanine--tRNA ligase cz177 8 2 2 25.0000 100.0000 1.4e-06 0.0026 2.58 ubiquitin ligase complex mds278 2 8 2 100.0000 25.0000 1.4e-06 0.0026 2.58 2-oxoglutarate metabolism cz68 2 8 2 100.0000 25.0000 1.4e-06 0.0026 2.58 double-strand break repair via nonhomologous end-joining cz57 8 2 2 25.0000 100.0000 1.4e-06 0.0026 2.58 sister chromatid cohesion mds118 12 13 3 25.0000 23.0769 1.5e-06 0.0028 2.56 structural protein of cytoskeleton mds83 54 11 4 7.4074 36.3636 1.5e-06 0.0028 2.56 chromatin assembly/disassembly mds349 20 8 3 15.0000 37.5000 1.5e-06 0.0028 2.55 serine biosynthesis cz10 5 3 2 40.0000 66.6667 1.5e-06 0.0028 2.55 protein binding mds432 79 8 4 5.0633 50.0000 1.5e-06 0.0028 2.55 protein binding cz190 79 8 4 5.0633 50.0000 1.5e-06 0.0028 2.55 transcription from Pol II promoter mds184 45 13 4 8.8889 30.7692 1.5e-06 0.0028 2.55 rRNA-nucleus export mds229 28 6 3 10.7143 50.0000 1.5e-06 0.0029 2.54 lagging strand elongation cz149 22 26 4 18.1818 15.3846 1.5e-06 0.0029 2.54 transcription regulation from Pol III promoter cz93 10 16 3 30.0000 18.7500 1.6e-06 0.0029 2.53 leading strand elongation mds333 16 10 3 18.7500 30.0000 1.6e-06 0.0029 2.53 ion homeostasis mds273 12 50 4 33.3333 8.0000 1.6e-06 0.0030 2.52 nucleotide-excision repair cz115 20 29 4 20.0000 13.7931 1.6e-06 0.0030 2.52 chromatin silencing at HML and HMR (sensu Saccharomyces) mds470 24 7 3 12.5000 42.8571 1.6e-06 0.0031 2.51 35S primary transcript processing mds340 45 30 5 11.1111 16.6667 1.8e-06 0.0033 2.48 mitotic repression of transcription from Pol II promoter mds404 9 2 2 22.2222 100.0000 1.8e-06 0.0034 2.47 transcription factor TFIIH mds404 9 2 2 22.2222 100.0000 1.8e-06 0.0034 2.47 protein degradation tagging mds178 2 9 2 100.0000 22.2222 1.8e-06 0.0034 2.47 pentose-phosphate shunt cz28 9 2 2 22.2222 100.0000 1.8e-06 0.0034 2.47 ubiquinol-cytochrome-c reductase cz133 9 2 2 22.2222 100.0000 1.8e-06 0.0034 2.47 bud mds258 9 2 2 22.2222 100.0000 1.8e-06 0.0034 2.47 cohesin mds329 9 2 2 22.2222 100.0000 1.8e-06 0.0034 2.47 DNA damage checkpoint mds246 9 2 2 22.2222 100.0000 1.8e-06 0.0034 2.47 DNA damage checkpoint mds411 9 2 2 22.2222 100.0000 1.8e-06 0.0034 2.47 G1/S transition of mitotic cell cycle cz20 37 5 3 8.1081 60.0000 1.8e-06 0.0034 2.47 19S proteasome regulatory particle, base subcomplex cz126 4 50 3 75.0000 6.0000 1.8e-06 0.0034 2.46 bud growth mds348 19 9 3 15.7895 33.3333 1.9e-06 0.0036 2.45 transcription regulation from Pol III promoter mds358 10 17 3 30.0000 17.6471 1.9e-06 0.0036 2.45 histone deacetylase complex mds52 17 10 3 17.6471 30.0000 1.9e-06 0.0036 2.45 meiotic chromosome mds282 13 13 3 23.0769 23.0769 1.9e-06 0.0036 2.45 casein kinase II cz156 8 84 4 50.0000 4.7619 1.9e-06 0.0036 2.44 mRNA cleavage factor complex cz111 9 73 4 44.4444 5.4795 1.9e-06 0.0037 2.44 protein folding mds344 48 13 4 8.3333 30.7692 2e-06 0.0037 2.43 casein kinase II mds353 8 22 3 37.5000 13.6364 2e-06 0.0038 2.42 nucleolus mds12 81 31 6 7.4074 19.3548 2e-06 0.0038 2.42 nuclear pore organization and biogenesis mds229 31 6 3 9.6774 50.0000 2.1e-06 0.0039 2.40 DNA damage response cz93 11 16 3 27.2727 18.7500 2.1e-06 0.0040 2.39 leading strand elongation mds237 16 11 3 18.7500 27.2727 2.1e-06 0.0040 2.39 structural protein of cytoskeleton cz153 54 12 4 7.4074 33.3333 2.2e-06 0.0041 2.38 structural protein of cytoskeleton mds97 54 12 4 7.4074 33.3333 2.2e-06 0.0041 2.38 DNA replication initiation cz149 24 26 4 16.6667 15.3846 2.2e-06 0.0042 2.38 nucleotide excision repair factor 1 mds297 3 6 2 66.6667 33.3333 2.2e-06 0.0042 2.38 mitochondrial processing mds347 6 3 2 33.3333 66.6667 2.2e-06 0.0042 2.38 cAMP-dependent protein kinase cz30 6 3 2 33.3333 66.6667 2.2e-06 0.0042 2.38 nuclear ubiquitin ligase complex mds299 6 3 2 33.3333 66.6667 2.2e-06 0.0042 2.38 nuclear ubiquitin ligase complex mds479 6 3 2 33.3333 66.6667 2.2e-06 0.0042 2.38 nuclear ubiquitin ligase complex mds158 6 3 2 33.3333 66.6667 2.2e-06 0.0042 2.38 nucleotide excision repair factor 4 mds233 2 10 2 100.0000 20.0000 2.2e-06 0.0042 2.38 branched chain family amino acid biosynthesis cz2 10 2 2 20.0000 100.0000 2.2e-06 0.0042 2.38 transcription regulation from Pol III promoter mds413 10 2 2 20.0000 100.0000 2.2e-06 0.0042 2.38 RAB guanyl-nucleotide exchange factor cz109 2 10 2 100.0000 20.0000 2.2e-06 0.0042 2.38 ATP binding mds265 10 2 2 20.0000 100.0000 2.2e-06 0.0042 2.38 cytoplasm mds185 492 27 11 2.2358 40.7407 2.2e-06 0.0042 2.37 35S primary transcript processing cz163 45 88 7 15.5556 7.9545 2.3e-06 0.0043 2.37 protein-nucleus export mds229 32 6 3 9.3750 50.0000 2.3e-06 0.0043 2.36 nucleosome mds273 13 50 4 30.7692 8.0000 2.3e-06 0.0044 2.36 translation initiation factor mds403 40 16 4 10.0000 25.0000 2.3e-06 0.0044 2.36 protein synthesis initiation mds403 40 16 4 10.0000 25.0000 2.3e-06 0.0044 2.36 cytokinesis mds481 43 15 4 9.3023 26.6667 2.4e-06 0.0044 2.35 nucleosome mds251 13 14 3 23.0769 21.4286 2.4e-06 0.0045 2.34 actin filament organization mds261 41 5 3 7.3171 60.0000 2.5e-06 0.0047 2.33 nucleolus mds396 81 32 6 7.4074 18.7500 2.5e-06 0.0047 2.33 polar budding mds425 36 18 4 11.1111 22.2222 2.5e-06 0.0047 2.32 ribosomal large subunit assembly and maintenance mds372 36 18 4 11.1111 22.2222 2.5e-06 0.0047 2.32 ATPase cz110 23 28 4 17.3913 14.2857 2.5e-06 0.0048 2.32 Golgi apparatus mds73 33 6 3 9.0909 50.0000 2.5e-06 0.0048 2.32 DNA damage response mds358 11 17 3 27.2727 17.6471 2.6e-06 0.0049 2.31 DNA damage response mds413 11 2 2 18.1818 100.0000 2.7e-06 0.0052 2.29 eukaryotic translation initiation factor 3 complex mds151 11 2 2 18.1818 100.0000 2.7e-06 0.0052 2.29 signal recognition particle receptor cz22 11 2 2 18.1818 100.0000 2.7e-06 0.0052 2.29 pyrimidine-dimer repair, DNA incision, 5' to lesion mds208 2 11 2 100.0000 18.1818 2.7e-06 0.0052 2.29 ion homeostasis cz93 12 16 3 25.0000 18.7500 2.8e-06 0.0054 2.27 nucleolus cz88 81 9 4 4.9383 44.4444 2.9e-06 0.0056 2.25 osmosensory signaling pathway mds86 5 4 2 40.0000 50.0000 3e-06 0.0056 2.25 Golgi cis cisterna mds288 4 5 2 50.0000 40.0000 3e-06 0.0056 2.25 DNA-directed RNA polymerase II, holoenzyme mds330 4 5 2 50.0000 40.0000 3e-06 0.0056 2.25 osmosensory signaling pathway mds366 5 4 2 40.0000 50.0000 3e-06 0.0056 2.25 IMP dehydrogenase mds165 4 5 2 50.0000 40.0000 3e-06 0.0056 2.25 `de novo` IMP biosynthesis mds415 9 22 3 33.3333 13.6364 3e-06 0.0056 2.25 mRNA-binding (hnRNP) protein-nucleus import mds229 35 6 3 8.5714 50.0000 3e-06 0.0057 2.24 double-strand break repair cz152 6 35 3 50.0000 8.5714 3e-06 0.0057 2.24 general RNA polymerase II transcription factor cz97 46 15 4 8.6957 26.6667 3.1e-06 0.0059 2.23 actin cap (sensu Saccharomyces) mds25 26 26 4 15.3846 15.3846 3.1e-06 0.0059 2.23 ATP dependent RNA helicase cz155 26 26 4 15.3846 15.3846 3.1e-06 0.0059 2.23 cytoskeletal protein binding protein mds425 11 18 3 27.2727 16.6667 3.1e-06 0.0059 2.23 Golgi trans cisterna cz89 3 7 2 66.6667 28.5714 3.1e-06 0.0059 2.23 inorganic diphosphatase cz191 3 7 2 66.6667 28.5714 3.1e-06 0.0059 2.23 early endosome cz89 3 7 2 66.6667 28.5714 3.1e-06 0.0059 2.23 SAGA complex cz139 16 43 4 25.0000 9.3023 3.1e-06 0.0059 2.23 vacuolar membrane cz109 20 10 3 15.0000 30.0000 3.2e-06 0.0060 2.22 exit from mitosis mds258 12 2 2 16.6667 100.0000 3.3e-06 0.0062 2.21 histone methylation mds319 12 2 2 16.6667 100.0000 3.3e-06 0.0062 2.21 ion homeostasis mds413 12 2 2 16.6667 100.0000 3.3e-06 0.0062 2.21 damaged DNA binding cz57 12 2 2 16.6667 100.0000 3.3e-06 0.0062 2.21 pyrimidine-dimer repair, DNA incision, 5' to lesion cz103 2 12 2 100.0000 16.6667 3.3e-06 0.0062 2.21 casein kinase I mds50 5 45 3 60.0000 6.6667 3.3e-06 0.0062 2.21 nucleus cz163 504 88 21 4.1667 23.8636 3.3e-06 0.0063 2.20 lariat formation, 5'-splice site cleavage cz155 8 26 3 37.5000 11.5385 3.4e-06 0.0064 2.20 G2/M transition of mitotic cell cycle cz70 33 21 4 12.1212 19.0476 3.4e-06 0.0064 2.19 chromatin modeling cz70 33 21 4 12.1212 19.0476 3.4e-06 0.0064 2.19 cell wall organization and biogenesis mds94 115 7 4 3.4783 57.1429 3.4e-06 0.0065 2.19 nucleobase, nucleoside, nucleotide and nucleic acid metabolism cz101 9 23 3 33.3333 13.0435 3.4e-06 0.0065 2.19 ion homeostasis mds358 12 17 3 25.0000 17.6471 3.4e-06 0.0065 2.19 cell growth and maintenance cz153 17 12 3 17.6471 25.0000 3.4e-06 0.0065 2.19 chaperone mds344 56 13 4 7.1429 30.7692 3.6e-06 0.0069 2.16 leading strand elongation mds118 16 13 3 18.7500 23.0769 3.7e-06 0.0070 2.16 respiratory chain complex III cz133 13 2 2 15.3846 100.0000 3.9e-06 0.0073 2.14 formate--tetrahydrofolate ligase cz4 2 13 2 100.0000 15.3846 3.9e-06 0.0073 2.14 establishment and/or maintenance of cell polarity (sensu Saccharomyces) mds123 2 13 2 100.0000 15.3846 3.9e-06 0.0073 2.14 pyruvate dehydrogenase pathway cz100 2 13 2 100.0000 15.3846 3.9e-06 0.0073 2.14 pyruvate dehydrogenase complex cz100 2 13 2 100.0000 15.3846 3.9e-06 0.0073 2.14 mitotic spindle checkpoint mds348 24 9 3 12.5000 33.3333 3.9e-06 0.0074 2.13 protein folding mds437 48 5 3 6.2500 60.0000 4e-06 0.0076 2.12 ribosome nucleus export mds68 3 8 2 66.6667 25.0000 4.2e-06 0.0079 2.10 Golgi vesicle mds323 8 3 2 25.0000 66.6667 4.2e-06 0.0079 2.10 structural protein mds229 39 6 3 7.6923 50.0000 4.2e-06 0.0080 2.10 transcription regulation from Pol III promoter mds353 10 22 3 30.0000 13.6364 4.3e-06 0.0080 2.09 nucleus cz110 504 28 11 2.1825 39.2857 4.3e-06 0.0082 2.09 ubiquitin-dependent protein degradation mds479 105 3 3 2.8571 100.0000 4.4e-06 0.0083 2.08 mating (sensu Saccharomyces) mds94 33 7 3 9.0909 42.8571 4.4e-06 0.0083 2.08 bud neck mds336 33 7 3 9.0909 42.8571 4.4e-06 0.0083 2.08 G2/M transition of mitotic cell cycle mds336 33 7 3 9.0909 42.8571 4.4e-06 0.0083 2.08 repairosome mds297 4 6 2 50.0000 33.3333 4.5e-06 0.0084 2.07 RAN small monomeric GTPase mds195 4 6 2 50.0000 33.3333 4.5e-06 0.0084 2.07 RAN small monomeric GTPase mds291 4 6 2 50.0000 33.3333 4.5e-06 0.0084 2.07 ribonucleoside-diphosphate reductase cz212 4 6 2 50.0000 33.3333 4.5e-06 0.0084 2.07 heterotrimeric G-protein GTPase mds159 4 6 2 50.0000 33.3333 4.5e-06 0.0084 2.07 nucleosome mds262 13 17 3 23.0769 17.6471 4.5e-06 0.0085 2.07 endocytosis mds261 50 5 3 6.0000 60.0000 4.5e-06 0.0086 2.07 glycogen metabolism mds12 24 31 4 16.6667 12.9032 4.6e-06 0.0087 2.06 small nucleolar ribonucleoprotein particle mds225 34 22 4 11.7647 18.1818 4.7e-06 0.0088 2.05 ubiquitin-dependent protein degradation mds278 105 8 4 3.8095 50.0000 4.7e-06 0.0089 2.05 leading strand elongation mds351 16 14 3 18.7500 21.4286 4.7e-06 0.0089 2.05 nucleus mds338 504 11 7 1.3889 63.6364 4.7e-06 0.0089 2.05 chromatin silencing at telomere mds470 34 7 3 8.8235 42.8571 4.8e-06 0.0091 2.04 protein synthesis initiation cz91 40 19 4 10.0000 21.0526 4.9e-06 0.0092 2.04 translation initiation factor cz91 40 19 4 10.0000 21.0526 4.9e-06 0.0092 2.04 ribosome mds239 29 26 4 13.7931 15.3846 4.9e-06 0.0092 2.03 actin cortical patch (sensu Saccharomyces) mds25 29 26 4 13.7931 15.3846 4.9e-06 0.0092 2.03 base-excision repair mds81 5 5 2 40.0000 40.0000 4.9e-06 0.0094 2.03 ribosomal large subunit assembly and maintenance cz132 36 46 5 13.8889 10.8696 5.1e-06 0.0096 2.02 2-deoxyglucose-6-phosphatase mds481 2 15 2 100.0000 13.3333 5.2e-06 0.0098 2.01 DNA replication, priming cz152 7 35 3 42.8571 8.5714 5.3e-06 0.0100 2.00 retrograde (Golgi to ER) transport mds119 17 46 4 23.5294 8.6957 5.3e-06 0.0101 2.00 maintenance of chromatin silencing cz88 3 9 2 66.6667 22.2222 5.3e-06 0.0101 2.00 G1/S transition of mitotic cell cycle cz70 37 21 4 10.8108 19.0476 5.4e-06 0.0103 1.99 mismatch repair mds333 24 10 3 12.5000 30.0000 5.6e-06 0.0106 1.98 transcription regulation from Pol III promoter cz156 10 84 4 40.0000 4.7619 5.6e-06 0.0106 1.97 ribosome mds55 29 27 4 13.7931 14.8148 5.7e-06 0.0108 1.97 DNA damage response mds353 11 22 3 27.2727 13.6364 5.8e-06 0.0110 1.96 vacuole inheritance cz107 16 15 3 18.7500 20.0000 5.9e-06 0.0111 1.96 mitochondrion inheritance cz107 16 15 3 18.7500 20.0000 5.9e-06 0.0111 1.96 nucleus mds24 504 34 12 2.3810 35.2941 5.9e-06 0.0112 1.95 structural protein of cytoskeleton mds481 54 15 4 7.4074 26.6667 5.9e-06 0.0112 1.95 glycolysis cz216 16 2 2 12.5000 100.0000 5.9e-06 0.0112 1.95 signal transduction of mating signal (sensu Saccharomyces) mds286 21 38 4 19.0476 10.5263 6.1e-06 0.0114 1.94 invasive growth mds286 21 38 4 19.0476 10.5263 6.1e-06 0.0114 1.94 nuclear pore mds229 44 6 3 6.8182 50.0000 6.1e-06 0.0115 1.94 alcohol dehydrogenase mds484 4 7 2 50.0000 28.5714 6.2e-06 0.0118 1.93 RHO guanyl-nucleotide exchange factor cz191 4 7 2 50.0000 28.5714 6.2e-06 0.0118 1.93 calcium-dependent protein serine/threonine phosphatase mds186 4 7 2 50.0000 28.5714 6.2e-06 0.0118 1.93 sumoylation cz182 7 4 2 28.5714 50.0000 6.2e-06 0.0118 1.93 peptide alpha-N-acetyltransferase cz87 4 7 2 50.0000 28.5714 6.2e-06 0.0118 1.93 MAP kinase mds400 7 4 2 28.5714 50.0000 6.2e-06 0.0118 1.93 alpha,alpha-trehalase cz32 4 7 2 50.0000 28.5714 6.2e-06 0.0118 1.93 multicatalytic endopeptidase mds180 60 29 5 8.3333 17.2414 6.3e-06 0.0120 1.92 bud growth mds238 19 13 3 15.7895 23.0769 6.4e-06 0.0120 1.92 chaperone mds437 56 5 3 5.3571 60.0000 6.4e-06 0.0121 1.92 establishment of cell polarity (sensu Saccharomyces) mds83 78 11 4 5.1282 36.3636 6.5e-06 0.0123 1.91 transcription regulation from Pol II promoter cz164 76 4 3 3.9474 75.0000 6.5e-06 0.0123 1.91 TRAPP mds79 10 3 2 20.0000 66.6667 6.7e-06 0.0126 1.90 actin filament severing mds92 3 10 2 66.6667 20.0000 6.7e-06 0.0126 1.90 pyruvate decarboxylase mds122 3 10 2 66.6667 20.0000 6.7e-06 0.0126 1.90 histone deacetylase complex cz188 17 2 2 11.7647 100.0000 6.7e-06 0.0127 1.89 cell wall organization and biogenesis mds62 115 8 4 3.4783 50.0000 6.7e-06 0.0127 1.89 transcription from Pol III promoter mds251 18 14 3 16.6667 21.4286 6.8e-06 0.0129 1.89 mating (sensu Saccharomyces) mds62 33 8 3 9.0909 37.5000 7e-06 0.0133 1.88 protein serine/threonine kinase mds23 33 8 3 9.0909 37.5000 7e-06 0.0133 1.88 G2/M transition of mitotic cell cycle mds278 33 8 3 9.0909 37.5000 7e-06 0.0133 1.88 mitotic repression of transcription from Pol II promoter cz115 9 29 3 33.3333 10.3448 7.1e-06 0.0133 1.88 transcription factor TFIIH cz115 9 29 3 33.3333 10.3448 7.1e-06 0.0133 1.88 establishment of cell polarity (sensu Saccharomyces) cz82 78 4 3 3.8462 75.0000 7.1e-06 0.0133 1.87 isotropic bud growth cz107 17 15 3 17.6471 20.0000 7.1e-06 0.0134 1.87 mRNA localization, intracellular mds25 10 26 3 30.0000 11.5385 7.2e-06 0.0135 1.87 microfilament motor mds260 6 5 2 33.3333 40.0000 7.4e-06 0.0140 1.85 chromatin assembly complex mds156 6 5 2 33.3333 40.0000 7.4e-06 0.0140 1.85 translation initiation factor cz70 40 21 4 10.0000 19.0476 7.5e-06 0.0141 1.85 protein synthesis initiation cz70 40 21 4 10.0000 19.0476 7.5e-06 0.0141 1.85 endocytosis cz118 50 17 4 8.0000 23.5294 7.5e-06 0.0142 1.85 telomere cz57 18 2 2 11.1111 100.0000 7.6e-06 0.0143 1.84 mismatch repair cz152 24 35 4 16.6667 11.4286 7.6e-06 0.0143 1.84 transcription regulation from Pol II promoter cz116 76 24 5 6.5789 20.8333 7.6e-06 0.0144 1.84 mismatch repair mds237 24 11 3 12.5000 27.2727 7.7e-06 0.0145 1.84 pre-replicative complex mds169 8 34 3 37.5000 8.8235 7.7e-06 0.0146 1.84 ion homeostasis mds353 12 22 3 25.0000 13.6364 7.8e-06 0.0147 1.83 mRNA-nucleus export mds229 48 6 3 6.2500 50.0000 8e-06 0.0151 1.82 nucleotide excision repair factor 1 mds208 3 11 2 66.6667 18.1818 8.2e-06 0.0154 1.81 GTP biosynthesis mds338 3 11 2 66.6667 18.1818 8.2e-06 0.0154 1.81 RAN small monomeric GTPase mds68 4 8 2 50.0000 25.0000 8.3e-06 0.0157 1.80 RAN protein binding mds68 4 8 2 50.0000 25.0000 8.3e-06 0.0157 1.80 G2/M transition of mitotic cell cycle mds65 33 26 4 12.1212 15.3846 8.3e-06 0.0157 1.80 signal transduction mds279 35 8 3 8.5714 37.5000 8.4e-06 0.0159 1.80 DNA-directed RNA polymerase III mds401 35 8 3 8.5714 37.5000 8.4e-06 0.0159 1.80 DNA strand elongation cz152 8 35 3 37.5000 8.5714 8.4e-06 0.0159 1.80 glycerol-3-phosphate dehydrogenase (NAD+) mds40 2 19 2 100.0000 10.5263 8.5e-06 0.0160 1.80 apical bud growth cz107 18 15 3 16.6667 20.0000 8.5e-06 0.0161 1.79 bud growth cz151 19 46 4 21.0526 8.6957 8.6e-06 0.0163 1.79 DNA damage response cz156 11 84 4 36.3636 4.7619 8.7e-06 0.0165 1.78 chromatin assembly/disassembly mds100 20 44 4 20.0000 9.0909 8.9e-06 0.0169 1.77 cytoplasm mds270 492 12 7 1.4228 58.3333 9e-06 0.0170 1.77 cyclin-dependent protein kinase regulator cz83 28 10 3 10.7143 30.0000 9e-06 0.0170 1.77 chromatin assembly/disassembly cz57 20 2 2 10.0000 100.0000 9.4e-06 0.0178 1.75 activation of MAPK (pseudohyphal growth) cz92 2 20 2 100.0000 10.0000 9.4e-06 0.0178 1.75 chromatin assembly/disassembly mds251 20 14 3 15.0000 21.4286 9.5e-06 0.0180 1.75 nucleotide-excision repair cz131 20 14 3 15.0000 21.4286 9.5e-06 0.0180 1.75 G1/S transition of mitotic cell cycle mds20 37 24 4 10.8108 16.6667 9.5e-06 0.0180 1.75 stress response cz31 57 16 4 7.0175 25.0000 9.8e-06 0.0185 1.73 protein carrier mds384 12 3 2 16.6667 66.6667 9.8e-06 0.0185 1.73 nucleotide excision repair factor 1 cz103 3 12 2 66.6667 16.6667 9.8e-06 0.0185 1.73 protein phosphorylation mds266 87 4 3 3.4483 75.0000 9.8e-06 0.0186 1.73 protein phosphorylation cz164 87 4 3 3.4483 75.0000 9.8e-06 0.0186 1.73 G1/S transition of mitotic cell cycle mds278 37 8 3 8.1081 37.5000 1e-05 0.0189 1.72 protein-nucleus import mds68 37 8 3 8.1081 37.5000 1e-05 0.0189 1.72 ribosome mds95 29 10 3 10.3448 30.0000 1e-05 0.0190 1.72 bud tip mds242 22 13 3 13.6364 23.0769 1e-05 0.0190 1.72 cytoskeleton mds225 13 22 3 23.0769 13.6364 1e-05 0.0190 1.72 tryptophan biosynthesis mds415 13 22 3 23.0769 13.6364 1e-05 0.0190 1.72 nuclear membrane organization and biogenesis mds263 7 5 2 28.5714 40.0000 1e-05 0.0196 1.71 spore wall (sensu Fungi) cz79 7 5 2 28.5714 40.0000 1e-05 0.0196 1.71 osmosensory signaling pathway mds43 5 7 2 40.0000 28.5714 1e-05 0.0196 1.71 transcription regulation from Pol I promoter mds454 5 7 2 40.0000 28.5714 1e-05 0.0196 1.71 shmoo cz79 7 5 2 28.5714 40.0000 1e-05 0.0196 1.71 mannosyltransferase complex mds288 7 5 2 28.5714 40.0000 1e-05 0.0196 1.71 rRNA modification mds372 16 18 3 18.7500 16.6667 1e-05 0.0197 1.70 leading strand elongation cz189 16 18 3 18.7500 16.6667 1e-05 0.0197 1.70 RAB small monomeric GTPase cz96 9 4 2 22.2222 50.0000 1.1e-05 0.0202 1.69 pre-mRNA splicing factor mds84 41 47 5 12.1951 10.6383 1.1e-05 0.0207 1.68 general transcriptional repressor mds115 6 6 2 33.3333 33.3333 1.1e-05 0.0210 1.68 mitochondrial processing cz201 6 6 2 33.3333 33.3333 1.1e-05 0.0210 1.68 repression of transcription mds115 6 6 2 33.3333 33.3333 1.1e-05 0.0210 1.68 cytoplasmic exosome (RNase complex) mds340 10 30 3 30.0000 10.0000 1.1e-05 0.0211 1.68 mRNA splicing mds417 100 10 4 4.0000 40.0000 1.1e-05 0.0213 1.67 ATP dependent DNA helicase mds169 9 34 3 33.3333 8.8235 1.2e-05 0.0217 1.66 pyruvate decarboxylase mds42 3 13 2 66.6667 15.3846 1.2e-05 0.0219 1.66 pyruvate dehydrogenase (lipoamide) cz100 3 13 2 66.6667 15.3846 1.2e-05 0.0219 1.66 cytoskeleton mds488 13 3 2 15.3846 66.6667 1.2e-05 0.0219 1.66 cytoskeleton mds410 13 3 2 15.3846 66.6667 1.2e-05 0.0219 1.66 cytoskeleton cz25 13 3 2 15.3846 66.6667 1.2e-05 0.0219 1.66 tryptophan biosynthesis cz33 13 3 2 15.3846 66.6667 1.2e-05 0.0219 1.66 ATPase mds265 23 2 2 8.6957 100.0000 1.3e-05 0.0237 1.63 ATPase mds320 23 2 2 8.6957 100.0000 1.3e-05 0.0237 1.63 post-replication repair cz152 9 35 3 33.3333 8.5714 1.3e-05 0.0238 1.62 RNA binding cz161 62 82 7 11.2903 8.5366 1.3e-05 0.0241 1.62 ion homeostasis cz156 12 84 4 33.3333 4.7619 1.3e-05 0.0245 1.61 general RNA polymerase II transcription factor mds300 46 21 4 8.6957 19.0476 1.3e-05 0.0249 1.60 establishment of cell polarity (sensu Saccharomyces) mds65 78 26 5 6.4103 19.2308 1.3e-05 0.0249 1.60 mitotic spindle checkpoint mds238 24 13 3 12.5000 23.0769 1.3e-05 0.0250 1.60 mismatch repair mds118 24 13 3 12.5000 23.0769 1.3e-05 0.0250 1.60 G1/S transition of mitotic cell cycle mds65 37 26 4 10.8108 15.3846 1.3e-05 0.0251 1.60 actin filament depolymerization mds92 4 10 2 50.0000 20.0000 1.3e-05 0.0252 1.60 repairosome mds233 4 10 2 50.0000 20.0000 1.3e-05 0.0252 1.60 actin cortical patch assembly mds109 10 4 2 20.0000 50.0000 1.3e-05 0.0252 1.60 chromatin silencing at ribosomal DNA (rDNA) mds428 10 4 2 20.0000 50.0000 1.3e-05 0.0252 1.60 fructose transporter mds303 14 3 2 14.2857 66.6667 1.4e-05 0.0255 1.59 endosome cz37 24 2 2 8.3333 100.0000 1.4e-05 0.0258 1.59 endosome cz104 24 2 2 8.3333 100.0000 1.4e-05 0.0258 1.59 mismatch repair mds265 24 2 2 8.3333 100.0000 1.4e-05 0.0258 1.59 ubiquitin-dependent protein degradation mds135 105 10 4 3.8095 40.0000 1.4e-05 0.0259 1.59 ribosome mds83 29 11 3 10.3448 27.2727 1.4e-05 0.0260 1.58 establishment of cell polarity (sensu Saccharomyces) cz113 78 13 4 5.1282 30.7692 1.4e-05 0.0261 1.58 threonine metabolism mds62 5 8 2 40.0000 25.0000 1.4e-05 0.0262 1.58 protein serine/threonine phosphatase mds304 8 5 2 25.0000 40.0000 1.4e-05 0.0262 1.58 double-strand break repair via nonhomologous end-joining mds368 8 5 2 25.0000 40.0000 1.4e-05 0.0262 1.58 spliceosome cz128 27 36 4 14.8148 11.1111 1.4e-05 0.0262 1.58 chromatin modification cz139 23 43 4 17.3913 9.3023 1.5e-05 0.0277 1.56 chromatin cz57 25 2 2 8.0000 100.0000 1.5e-05 0.0281 1.55 bud neck cz207 33 10 3 9.0909 30.0000 1.5e-05 0.0282 1.55 G2/M transition of mitotic cell cycle mds135 33 10 3 9.0909 30.0000 1.5e-05 0.0282 1.55 mRNA splicing mds452 100 4 3 3.0000 75.0000 1.5e-05 0.0283 1.55 transcription from Pol III promoter cz189 18 18 3 16.6667 16.6667 1.5e-05 0.0287 1.54 ER to Golgi transport cz73 80 13 4 5.0000 30.7692 1.5e-05 0.0289 1.54 nuclear membrane organization and biogenesis mds229 7 6 2 28.5714 33.3333 1.6e-05 0.0294 1.53 adaptation to mating signal (sensu Saccharomyces) mds186 6 7 2 33.3333 28.5714 1.6e-05 0.0294 1.53 trehalose catabolism cz32 6 7 2 33.3333 28.5714 1.6e-05 0.0294 1.53 phosphate metabolism mds87 6 7 2 33.3333 28.5714 1.6e-05 0.0294 1.53 flocculation mds454 6 7 2 33.3333 28.5714 1.6e-05 0.0294 1.53 nuclear ubiquitin ligase complex mds157 6 7 2 33.3333 28.5714 1.6e-05 0.0294 1.53 proton transport mds56 3 15 2 66.6667 13.3333 1.6e-05 0.0295 1.53 GTP biosynthesis mds310 3 15 2 66.6667 13.3333 1.6e-05 0.0295 1.53 heterotrimeric G-protein complex mds255 3 15 2 66.6667 13.3333 1.6e-05 0.0295 1.53 mannose transporter mds303 15 3 2 13.3333 66.6667 1.6e-05 0.0295 1.53 endocytosis mds137 50 7 3 6.0000 42.8571 1.6e-05 0.0297 1.53 nucleolus mds239 81 26 5 6.1728 19.2308 1.6e-05 0.0300 1.52 histidine biosynthesis mds415 15 22 3 20.0000 13.6364 1.6e-05 0.0302 1.52 RAS protein signal transduction mds415 15 22 3 20.0000 13.6364 1.6e-05 0.0302 1.52 transcription regulation from Pol II promoter mds330 76 5 3 3.9474 60.0000 1.6e-05 0.0306 1.51 cyclin-dependent protein kinase cz164 11 4 2 18.1818 50.0000 1.6e-05 0.0308 1.51 incipient bud site cz82 11 4 2 18.1818 50.0000 1.6e-05 0.0308 1.51 small nucleolar ribonucleoprotein particle mds111 34 10 3 8.8235 30.0000 1.6e-05 0.0310 1.51 protein synthesis elongation cz122 24 14 3 12.5000 21.4286 1.7e-05 0.0317 1.50 mismatch repair mds351 24 14 3 12.5000 21.4286 1.7e-05 0.0317 1.50 transcription regulation from Pol II promoter cz110 76 28 5 6.5789 17.8571 1.7e-05 0.0321 1.49 G2/M transition of mitotic cell cycle cz137 33 31 4 12.1212 12.9032 1.7e-05 0.0325 1.49 establishment of cell polarity (sensu Saccharomyces) cz20 78 5 3 3.8462 60.0000 1.7e-05 0.0331 1.48 chromatin silencing complex cz88 5 9 2 40.0000 22.2222 1.8e-05 0.0336 1.47 ubiquinol-cytochrome-c reductase mds324 9 5 2 22.2222 40.0000 1.8e-05 0.0336 1.47 microtubule motor mds128 9 5 2 22.2222 40.0000 1.8e-05 0.0336 1.47 RAB small monomeric GTPase mds312 9 5 2 22.2222 40.0000 1.8e-05 0.0336 1.47 hexose transport mds303 16 3 2 12.5000 66.6667 1.8e-05 0.0337 1.47 glycolysis cz18 16 3 2 12.5000 66.6667 1.8e-05 0.0337 1.47 ubiquitin conjugating enzyme mds200 16 3 2 12.5000 66.6667 1.8e-05 0.0337 1.47 glycolysis mds124 16 3 2 12.5000 66.6667 1.8e-05 0.0337 1.47 signal transduction mds271 35 10 3 8.5714 30.0000 1.8e-05 0.0338 1.47 transcription from Pol III promoter cz145 18 19 3 16.6667 15.7895 1.8e-05 0.0340 1.47 protein synthesis initiation mds239 40 26 4 10.0000 15.3846 1.8e-05 0.0344 1.46 translation initiation factor mds239 40 26 4 10.0000 15.3846 1.8e-05 0.0344 1.46 ER to Golgi transport cz174 80 5 3 3.7500 60.0000 1.9e-05 0.0357 1.45 protein synthesis initiation cz54 40 9 3 7.5000 33.3333 1.9e-05 0.0358 1.45 translation initiation factor cz54 40 9 3 7.5000 33.3333 1.9e-05 0.0358 1.45 chromatin silencing at telomere cz137 34 31 4 11.7647 12.9032 1.9e-05 0.0367 1.44 deadenylation-dependent decapping cz167 12 4 2 16.6667 50.0000 2e-05 0.0370 1.43 19S proteasome regulatory particle, base subcomplex mds391 4 12 2 50.0000 16.6667 2e-05 0.0370 1.43 ribonucleoside-diphosphate reductase mds442 4 12 2 50.0000 16.6667 2e-05 0.0370 1.43 nucleolus mds423 81 5 3 3.7037 60.0000 2e-05 0.0370 1.43 nucleotide excision repair factor 2 cz115 2 29 2 100.0000 6.8966 2e-05 0.0380 1.42 cytoskeleton organization and biogenesis mds488 17 3 2 11.7647 66.6667 2e-05 0.0381 1.42 cytoskeleton organization and biogenesis cz25 17 3 2 11.7647 66.6667 2e-05 0.0381 1.42 cytoskeleton organization and biogenesis mds410 17 3 2 11.7647 66.6667 2e-05 0.0381 1.42 GTP biosynthesis mds262 3 17 2 66.6667 11.7647 2e-05 0.0381 1.42 actin filament organization mds348 41 9 3 7.3171 33.3333 2e-05 0.0385 1.41 mating (sensu Saccharomyces) mds83 33 11 3 9.0909 27.2727 2e-05 0.0387 1.41 plasma membrane mds303 175 3 3 1.7143 100.0000 2.1e-05 0.0388 1.41 histone acetylation cz139 25 43 4 16.0000 9.3023 2.1e-05 0.0392 1.41 nuclear ubiquitin ligase complex mds278 6 8 2 33.3333 25.0000 2.1e-05 0.0392 1.41 nuclear ubiquitin ligase complex mds402 6 8 2 33.3333 25.0000 2.1e-05 0.0392 1.41 G1-specific transcription in mitotic cell cycle cz97 24 15 3 12.5000 20.0000 2.1e-05 0.0395 1.40 glycogen metabolism mds380 24 15 3 12.5000 20.0000 2.1e-05 0.0395 1.40 G1/S transition of mitotic cell cycle mds135 37 10 3 8.1081 30.0000 2.1e-05 0.0401 1.40 protein phosphorylation cz113 87 13 4 4.5977 30.7692 2.1e-05 0.0403 1.39 protein folding mds119 48 46 5 10.4167 10.8696 2.2e-05 0.0408 1.39 mannosyltransferase complex cz94 7 7 2 28.5714 28.5714 2.2e-05 0.0412 1.39 spore wall (sensu Fungi) mds94 7 7 2 28.5714 28.5714 2.2e-05 0.0412 1.39 nuclear membrane organization and biogenesis mds359 7 7 2 28.5714 28.5714 2.2e-05 0.0412 1.39 protein acetylation cz87 7 7 2 28.5714 28.5714 2.2e-05 0.0412 1.39 shmoo mds94 7 7 2 28.5714 28.5714 2.2e-05 0.0412 1.39 mRNA cleavage and polyadenylation specificity factor complex mds315 7 7 2 28.5714 28.5714 2.2e-05 0.0412 1.39 mRNA localization, intracellular mds260 10 5 2 20.0000 40.0000 2.2e-05 0.0420 1.38 transcription regulation from Pol I promoter cz75 5 10 2 40.0000 20.0000 2.2e-05 0.0420 1.38 cytoplasm mds50 492 45 13 2.6423 28.8889 2.2e-05 0.0422 1.37 DNA unwinding mds169 11 34 3 27.2727 8.8235 2.2e-05 0.0424 1.37 glucose transporter mds303 18 3 2 11.1111 66.6667 2.3e-05 0.0429 1.37 pyruvate decarboxylase mds439 3 18 2 66.6667 11.1111 2.3e-05 0.0429 1.37 DNA repair cz152 64 35 5 7.8125 14.2857 2.3e-05 0.0430 1.37 cell wall organization and biogenesis mds38 115 4 3 2.6087 75.0000 2.3e-05 0.0431 1.37 mitotic spindle checkpoint cz151 24 46 4 16.6667 8.6957 2.3e-05 0.0434 1.36 MAP kinase kinase mds294 4 13 2 50.0000 15.3846 2.3e-05 0.0437 1.36 19S proteasome regulatory particle, base subcomplex cz230 4 13 2 50.0000 15.3846 2.3e-05 0.0437 1.36 glucose metabolism mds207 13 4 2 15.3846 50.0000 2.3e-05 0.0437 1.36 nucleosome mds250 13 4 2 15.3846 50.0000 2.3e-05 0.0437 1.36 cytoskeleton mds2 13 4 2 15.3846 50.0000 2.3e-05 0.0437 1.36 cytoskeleton organization and biogenesis mds225 17 22 3 17.6471 13.6364 2.4e-05 0.0449 1.35 ATP dependent RNA helicase cz163 26 88 5 19.2308 5.6818 2.4e-05 0.0449 1.35 protein phosphorylation cz20 87 5 3 3.4483 60.0000 2.4e-05 0.0460 1.34 repression of transcription from Pol II promoter cz139 26 43 4 15.3846 9.3023 2.4e-05 0.0461 1.34 adenosinetriphosphatase cz99 33 34 4 12.1212 11.7647 2.5e-05 0.0474 1.32 establishment of cell polarity (sensu Saccharomyces) mds481 78 15 4 5.1282 26.6667 2.6e-05 0.0489 1.31 G2/M transition of mitotic cell cycle mds188 33 2 2 6.0606 100.0000 2.6e-05 0.0494 1.31 G2/M transition of mitotic cell cycle mds413 33 2 2 6.0606 100.0000 2.6e-05 0.0494 1.31 bud neck mds258 33 2 2 6.0606 100.0000 2.6e-05 0.0494 1.31 adenosinetriphosphatase mds329 33 2 2 6.0606 100.0000 2.6e-05 0.0494 1.31 G2/M transition of mitotic cell cycle mds205 33 2 2 6.0606 100.0000 2.6e-05 0.0494 1.31 nuclear organization and biogenesis cz19 9 6 2 22.2222 33.3333 2.7e-05 0.0504 1.30 nuclear organization and biogenesis mds291 9 6 2 22.2222 33.3333 2.7e-05 0.0504 1.30 nuclear organization and biogenesis mds195 9 6 2 22.2222 33.3333 2.7e-05 0.0504 1.30 telomeric heterochromatin cz88 6 9 2 33.3333 22.2222 2.7e-05 0.0504 1.30 histone deacetylase mds428 14 4 2 14.2857 50.0000 2.7e-05 0.0510 1.29 microtubule-based process mds128 11 5 2 18.1818 40.0000 2.7e-05 0.0514 1.29 cytoskeletal protein binding protein mds254 11 5 2 18.1818 40.0000 2.7e-05 0.0514 1.29 single-stranded DNA specific endodeoxyribonuclease mds208 5 11 2 40.0000 18.1818 2.7e-05 0.0514 1.29 G1/S transition of mitotic cell cycle cz137 37 31 4 10.8108 12.9032 2.7e-05 0.0517 1.29 chromatin silencing at telomere mds319 34 2 2 5.8824 100.0000 2.8e-05 0.0525 1.28 methionine adenosyltransferase cz92 3 20 2 66.6667 10.0000 2.8e-05 0.0533 1.27 lagging strand elongation cz189 22 18 3 13.6364 16.6667 2.8e-05 0.0537 1.27 transcription regulation from Pol II promoter cz137 76 31 5 6.5789 16.1290 2.9e-05 0.0540 1.27 vesicle transport cz124 41 10 3 7.3171 30.0000 2.9e-05 0.0548 1.26 protein serine/threonine phosphatase mds162 8 7 2 25.0000 28.5714 2.9e-05 0.0549 1.26 Golgi trans-face cz89 8 7 2 25.0000 28.5714 2.9e-05 0.0549 1.26 casein kinase II mds454 8 7 2 25.0000 28.5714 2.9e-05 0.0549 1.26 shmoo mds62 7 8 2 28.5714 25.0000 2.9e-05 0.0549 1.26 MAP kinase mds281 7 8 2 28.5714 25.0000 2.9e-05 0.0549 1.26 spore wall (sensu Fungi) mds62 7 8 2 28.5714 25.0000 2.9e-05 0.0549 1.26 signal transduction mds269 35 2 2 5.7143 100.0000 2.9e-05 0.0557 1.25 intra Golgi transport mds28 35 2 2 5.7143 100.0000 2.9e-05 0.0557 1.25 snRNA cap binding complex cz129 2 35 2 100.0000 5.7143 2.9e-05 0.0557 1.25 ribosome cz122 29 14 3 10.3448 21.4286 3e-05 0.0569 1.25 DNA binding mds37 62 7 3 4.8387 42.8571 3e-05 0.0569 1.24 cell wall organization and biogenesis mds83 115 11 4 3.4783 36.3636 3e-05 0.0576 1.24 heterotrimeric G-protein GTPase mds255 4 15 2 50.0000 13.3333 3.1e-05 0.0588 1.23 IMP dehydrogenase mds310 4 15 2 50.0000 13.3333 3.1e-05 0.0588 1.23 RAS protein signal transduction mds387 15 4 2 13.3333 50.0000 3.1e-05 0.0588 1.23 RAS protein signal transduction cz78 15 4 2 13.3333 50.0000 3.1e-05 0.0588 1.23 RAS protein signal transduction mds266 15 4 2 13.3333 50.0000 3.1e-05 0.0588 1.23 gluconeogenesis cz18 21 3 2 9.5238 66.6667 3.1e-05 0.0589 1.23 monoubiquitylation mds433 21 3 2 9.5238 66.6667 3.1e-05 0.0589 1.23 Golgi to vacuole transport mds61 21 3 2 9.5238 66.6667 3.1e-05 0.0589 1.23 polyubiquitylation mds433 21 3 2 9.5238 66.6667 3.1e-05 0.0589 1.23 ATP/ADP exchange mds300 3 21 2 66.6667 9.5238 3.1e-05 0.0589 1.23 iron homeostasis mds256 36 2 2 5.5556 100.0000 3.1e-05 0.0590 1.23 U6 snRNA binding cz128 2 36 2 100.0000 5.5556 3.1e-05 0.0590 1.23 protein carrier cz106 12 35 3 25.0000 8.5714 3.3e-05 0.0615 1.21 single-stranded DNA specific endodeoxyribonuclease cz103 5 12 2 40.0000 16.6667 3.3e-05 0.0616 1.21 actin binding cz153 5 12 2 40.0000 16.6667 3.3e-05 0.0616 1.21 actin binding mds97 5 12 2 40.0000 16.6667 3.3e-05 0.0616 1.21 snRNP U2e mds46 12 5 2 16.6667 40.0000 3.3e-05 0.0616 1.21 prospore membrane cz79 12 5 2 16.6667 40.0000 3.3e-05 0.0616 1.21 ATPase cz189 23 18 3 13.0435 16.6667 3.3e-05 0.0617 1.21 rRNA modification mds65 16 26 3 18.7500 11.5385 3.3e-05 0.0622 1.21 protein folding mds222 48 9 3 6.2500 33.3333 3.3e-05 0.0622 1.21 G1/S transition of mitotic cell cycle mds205 37 2 2 5.4054 100.0000 3.3e-05 0.0624 1.21 G1/S transition of mitotic cell cycle mds413 37 2 2 5.4054 100.0000 3.3e-05 0.0624 1.21 cytoplasmic exosome (RNase complex) cz201 10 6 2 20.0000 33.3333 3.3e-05 0.0630 1.20 flocculation cz75 6 10 2 33.3333 20.0000 3.3e-05 0.0630 1.20 cAMP-dependent protein kinase mds440 6 10 2 33.3333 20.0000 3.3e-05 0.0630 1.20 nuclear ubiquitin ligase complex mds122 6 10 2 33.3333 20.0000 3.3e-05 0.0630 1.20 septin checkpoint cz207 6 10 2 33.3333 20.0000 3.3e-05 0.0630 1.20 cytoplasm mds474 492 10 6 1.2195 60.0000 3.4e-05 0.0634 1.20 RAS GTPase activator mds415 3 22 2 66.6667 9.0909 3.4e-05 0.0648 1.19 ubiquitin--protein ligase mds205 38 2 2 5.2632 100.0000 3.5e-05 0.0658 1.18 transcription factor binding mds286 2 38 2 100.0000 5.2632 3.5e-05 0.0658 1.18 adenosinetriphosphatase mds118 33 13 3 9.0909 23.0769 3.5e-05 0.0666 1.18 bud neck mds242 33 13 3 9.0909 23.0769 3.5e-05 0.0666 1.18 cell growth and maintenance mds9 17 25 3 17.6471 12.0000 3.5e-05 0.0667 1.18 deadenylation-dependent decapping cz128 12 36 3 25.0000 8.3333 3.5e-05 0.0671 1.17 cytoplasm mds266 492 4 4 0.8130 100.0000 3.6e-05 0.0672 1.17 ribonucleoside-diphosphate reductase mds466 4 16 2 50.0000 12.5000 3.6e-05 0.0672 1.17 shmooing cz82 16 4 2 12.5000 50.0000 3.6e-05 0.0672 1.17 translation initiation factor mds83 40 11 3 7.5000 27.2727 3.7e-05 0.0696 1.16 protein synthesis initiation mds83 40 11 3 7.5000 27.2727 3.7e-05 0.0696 1.16 histone deacetylase cz137 14 31 3 21.4286 9.6774 3.7e-05 0.0698 1.16 t-SNARE cz89 9 7 2 22.2222 28.5714 3.7e-05 0.0705 1.15 ATPase mds289 23 3 2 8.6957 66.6667 3.8e-05 0.0709 1.15 nucleosome mds424 13 5 2 15.3846 40.0000 3.9e-05 0.0728 1.14 nucleosome mds172 13 5 2 15.3846 40.0000 3.9e-05 0.0728 1.14 respiratory chain complex III mds324 13 5 2 15.3846 40.0000 3.9e-05 0.0728 1.14 protein-nucleus import cz119 37 12 3 8.1081 25.0000 3.9e-05 0.0729 1.14 19S proteasome regulatory particle mds391 37 12 3 8.1081 25.0000 3.9e-05 0.0729 1.14 translation initiation factor mds151 40 2 2 5.0000 100.0000 3.9e-05 0.0730 1.14 protein synthesis initiation mds151 40 2 2 5.0000 100.0000 3.9e-05 0.0730 1.14 pre-mRNA splicing factor mds362 41 11 3 7.3171 27.2727 4e-05 0.0750 1.12 nucleolus mds197 81 16 4 4.9383 25.0000 4e-05 0.0750 1.12 protein biosynthesis cz119 400 12 6 1.5000 50.0000 4e-05 0.0756 1.12 histone deacetylase complex mds428 17 4 2 11.7647 50.0000 4e-05 0.0762 1.12 cytoskeleton organization and biogenesis mds2 17 4 2 11.7647 50.0000 4e-05 0.0762 1.12 nuclear exosome (RNase complex) cz201 11 6 2 18.1818 33.3333 4.1e-05 0.0770 1.11 heat shock protein cz221 24 3 2 8.3333 66.6667 4.1e-05 0.0774 1.11 nucleosome remodeling complex cz110 16 28 3 18.7500 10.7143 4.1e-05 0.0781 1.11 protein-vacuolar targeting mds137 69 7 3 4.3478 42.8571 4.2e-05 0.0786 1.10 mRNA binding cz226 25 18 3 12.0000 16.6667 4.2e-05 0.0798 1.10 transcription initiation from Pol II promoter cz97 89 15 4 4.4944 26.6667 4.4e-05 0.0825 1.08 cytoplasm mds3 492 61 15 3.0488 24.5902 4.4e-05 0.0827 1.08 establishment of cell polarity (sensu Saccharomyces) cz36 78 17 4 5.1282 23.5294 4.4e-05 0.0837 1.08 chromatin silencing complex mds478 5 14 2 40.0000 14.2857 4.5e-05 0.0849 1.07 structural protein cz153 39 12 3 7.6923 25.0000 4.5e-05 0.0856 1.07 protein serine/threonine phosphatase mds3 8 61 3 37.5000 4.9180 4.6e-05 0.0861 1.06 transcription from Pol II promoter cz154 45 29 4 8.8889 13.7931 4.6e-05 0.0866 1.06 septin assembly and septum formation cz207 7 10 2 28.5714 20.0000 4.7e-05 0.0881 1.05 sulfur amino acid metabolism mds135 7 10 2 28.5714 20.0000 4.7e-05 0.0881 1.05 transcription regulation from Pol III promoter mds454 10 7 2 20.0000 28.5714 4.7e-05 0.0881 1.05 DNA dependent adenosinetriphosphatase mds233 7 10 2 28.5714 20.0000 4.7e-05 0.0881 1.05 pheromone response mds474 7 10 2 28.5714 20.0000 4.7e-05 0.0881 1.05 MAP kinase mds277 7 10 2 28.5714 20.0000 4.7e-05 0.0881 1.05 oxysterol binding cz7 7 10 2 28.5714 20.0000 4.7e-05 0.0881 1.05 DNA binding mds349 62 8 3 4.8387 37.5000 4.8e-05 0.0905 1.04 nuclear pore mds340 44 30 4 9.0909 13.3333 4.8e-05 0.0909 1.04 GTP biosynthesis mds239 3 26 2 66.6667 7.6923 4.8e-05 0.0911 1.04 mitochondrial processing mds442 6 12 2 33.3333 16.6667 4.9e-05 0.0923 1.03 damaged DNA binding mds297 12 6 2 16.6667 33.3333 4.9e-05 0.0923 1.03 protein phosphatase type 1 mds147 12 6 2 16.6667 33.3333 4.9e-05 0.0923 1.03 cAMP-dependent protein kinase mds270 6 12 2 33.3333 16.6667 4.9e-05 0.0923 1.03 septin checkpoint cz103 6 12 2 33.3333 16.6667 4.9e-05 0.0923 1.03 pre-replicative complex formation and maintenance mds169 14 34 3 21.4286 8.8235 4.9e-05 0.0925 1.03 double-strand break repair via nonhomologous end-joining cz88 8 9 2 25.0000 22.2222 5e-05 0.0940 1.03 nuclear organization and biogenesis mds68 9 8 2 22.2222 25.0000 5e-05 0.0940 1.03 cell aging (sensu Saccharomyces) cz88 8 9 2 25.0000 22.2222 5e-05 0.0940 1.03 G1/S transition of mitotic cell cycle mds42 37 13 3 8.1081 23.0769 5e-05 0.0944 1.02 19S proteasome regulatory particle cz230 37 13 3 8.1081 23.0769 5e-05 0.0944 1.02 transcription from Pol I promoter cz145 25 19 3 12.0000 15.7895 5e-05 0.0945 1.02 general RNA polymerase II transcription factor cz115 46 29 4 8.6957 13.7931 5e-05 0.0946 1.02 mRNA capping cz91 4 19 2 50.0000 10.5263 5.1e-05 0.0957 1.02 general RNA polymerase II transcription factor mds404 46 2 2 4.3478 100.0000 5.1e-05 0.0969 1.01 general RNA polymerase II transcription factor cz29 46 2 2 4.3478 100.0000 5.1e-05 0.0969 1.01 structural protein of cytoskeleton mds9 54 25 4 7.4074 16.0000 5.2e-05 0.0976 1.01 pH regulation mds56 5 15 2 40.0000 13.3333 5.2e-05 0.0979 1.01 actin cable (sensu Saccharomyces) cz107 5 15 2 40.0000 13.3333 5.2e-05 0.0979 1.01 transcriptional activator cz184 27 3 2 7.4074 66.6667 5.2e-05 0.0983 1.01 cytosol mds210 115 55 7 6.0870 12.7273 5.2e-05 0.0991 1.00 chaperone mds222 56 9 3 5.3571 33.3333 5.2e-05 0.0992 1.00 pseudohyphal growth mds440 50 10 3 6.0000 30.0000 5.3e-05 0.1000 1.00 DNA-directed RNA polymerase III mds251 35 14 3 8.5714 21.4286 5.3e-05 0.1011 1.00 ubiquitin--protein ligase mds42 38 13 3 7.8947 23.0769 5.4e-05 0.1024 0.99 stress response mds178 57 9 3 5.2632 33.3333 5.5e-05 0.1046 0.98 mating (sensu Saccharomyces) mds481 33 15 3 9.0909 20.0000 5.6e-05 0.1052 0.98 RSC complex cz110 3 28 2 66.6667 7.1429 5.6e-05 0.1059 0.98 transcription co-factor cz136 3 28 2 66.6667 7.1429 5.6e-05 0.1059 0.98 cell wall organization and biogenesis mds261 115 5 3 2.6087 60.0000 5.6e-05 0.1063 0.97 chromatin assembly/disassembly mds250 20 4 2 10.0000 50.0000 5.6e-05 0.1063 0.97 serine C-palmitoyltransferase cz92 4 20 2 50.0000 10.0000 5.6e-05 0.1063 0.97 shmoo mds83 7 11 2 28.5714 18.1818 5.7e-05 0.1076 0.97 DNA damage response mds454 11 7 2 18.1818 28.5714 5.7e-05 0.1076 0.97 spore wall (sensu Fungi) mds83 7 11 2 28.5714 18.1818 5.7e-05 0.1076 0.97 translational regulation, elongation cz230 6 13 2 33.3333 15.3846 5.8e-05 0.1091 0.96 histone acetyltransferase mds330 16 5 2 12.5000 40.0000 5.9e-05 0.1119 0.95 histone acetyltransferase cz170 16 5 2 12.5000 40.0000 5.9e-05 0.1119 0.95 ubiquitin conjugating enzyme mds15 16 5 2 12.5000 40.0000 5.9e-05 0.1119 0.95 replication fork mds81 16 5 2 12.5000 40.0000 5.9e-05 0.1119 0.95 transcription regulation from Pol I promoter mds166 5 16 2 40.0000 12.5000 5.9e-05 0.1119 0.95 cytoplasm cz16 492 15 7 1.4228 46.6667 5.9e-05 0.1124 0.95 transcription from Pol III promoter cz110 18 28 3 16.6667 10.7143 6e-05 0.1131 0.95 ribosome mds276 29 3 2 6.8966 66.6667 6e-05 0.1137 0.94 DNA replication factor A complex cz115 3 29 2 66.6667 6.8966 6e-05 0.1137 0.94 lipid particle mds443 21 24 3 14.2857 12.5000 6e-05 0.1139 0.94 H3/H4 histone acetyltransferase cz126 2 50 2 100.0000 4.0000 6.1e-05 0.1147 0.94 DNA binding mds100 62 44 5 8.0645 11.3636 6.1e-05 0.1151 0.94 protein tagging mds135 8 10 2 25.0000 20.0000 6.2e-05 0.1174 0.93 Golgi vesicle mds271 8 10 2 25.0000 20.0000 6.2e-05 0.1174 0.93 RHO GTPase activator cz135 10 8 2 20.0000 25.0000 6.2e-05 0.1174 0.93 casein kinase II cz75 8 10 2 25.0000 20.0000 6.2e-05 0.1174 0.93 snRNA cap binding complex cz160 2 51 2 100.0000 3.9216 6.3e-05 0.1194 0.92 G2/M transition of mitotic cell cycle cz156 33 84 5 15.1515 5.9524 6.4e-05 0.1201 0.92 histone acetyltransferase complex mds317 9 9 2 22.2222 22.2222 6.4e-05 0.1207 0.92 RAB small monomeric GTPase mds204 9 9 2 22.2222 22.2222 6.4e-05 0.1207 0.92 transcription regulation from Pol II promoter mds153 76 19 4 5.2632 21.0526 6.4e-05 0.1208 0.92 mRNA-nucleus export mds338 48 11 3 6.2500 27.2727 6.4e-05 0.1210 0.92 cytosol cz62 115 13 4 3.4783 30.7692 6.4e-05 0.1213 0.92 rRNA processing mds310 35 15 3 8.5714 20.0000 6.7e-05 0.1259 0.90 RNA elongation from Pol II promoter cz20 17 5 2 11.7647 40.0000 6.7e-05 0.1268 0.90 soluble fraction mds312 17 5 2 11.7647 40.0000 6.7e-05 0.1268 0.90 fructose transporter mds98 14 6 2 14.2857 33.3333 6.7e-05 0.1272 0.90 protein transport cz141 6 14 2 33.3333 14.2857 6.7e-05 0.1272 0.90 nucleolus mds470 81 7 3 3.7037 42.8571 6.7e-05 0.1273 0.90 pre-mRNA splicing factor cz129 41 35 4 9.7561 11.4286 6.8e-05 0.1278 0.89 actin filament organization mds238 41 13 3 7.3171 23.0769 6.8e-05 0.1289 0.89 G2/M transition of mitotic cell cycle cz93 33 16 3 9.0909 18.7500 6.8e-05 0.1290 0.89 ion homeostasis mds186 12 7 2 16.6667 28.5714 6.8e-05 0.1291 0.89 septin assembly and septum formation cz103 7 12 2 28.5714 16.6667 6.8e-05 0.1291 0.89 prospore membrane mds94 12 7 2 16.6667 28.5714 6.8e-05 0.1291 0.89 ion homeostasis mds454 12 7 2 16.6667 28.5714 6.8e-05 0.1291 0.89 bud tip cz169 22 4 2 9.0909 50.0000 6.8e-05 0.1292 0.89 cytoplasm mds76 492 11 6 1.2195 54.5455 6.9e-05 0.1304 0.88 protein phosphatase type 2A mds50 12 45 3 25.0000 6.6667 7e-05 0.1320 0.88 DNA-directed RNA polymerase I cz145 28 19 3 10.7143 15.7895 7.1e-05 0.1339 0.87 eukaryotic translation initiation factor 3 complex cz126 11 50 3 27.2727 6.0000 7.2e-05 0.1368 0.86 phosphogluconate dehydrogenase (decarboxylating) mds210 2 55 2 100.0000 3.6364 7.4e-05 0.1391 0.86 replication fork mds169 16 34 3 18.7500 8.8235 7.5e-05 0.1413 0.85 19S proteasome regulatory particle, base subcomplex cz95 4 23 2 50.0000 8.6957 7.5e-05 0.1415 0.85 intracellular mds71 23 4 2 8.6957 50.0000 7.5e-05 0.1415 0.85 mitochondrial matrix cz68 72 8 3 4.1667 37.5000 7.5e-05 0.1418 0.85 ribosome cz160 29 51 4 13.7931 7.8431 7.5e-05 0.1425 0.85 poly(A) binding cz226 5 18 2 40.0000 11.1111 7.5e-05 0.1426 0.85 RNA binding cz132 62 46 5 8.0645 10.8696 7.6e-05 0.1431 0.84 tricarboxylic acid cycle mds307 15 6 2 13.3333 33.3333 7.8e-05 0.1467 0.83 mannose transporter mds98 15 6 2 13.3333 33.3333 7.8e-05 0.1467 0.83 fermentation mds230 6 15 2 33.3333 13.3333 7.8e-05 0.1467 0.83 autophagy cz192 33 3 2 6.0606 66.6667 7.8e-05 0.1478 0.83 chromatin modeling mds289 33 3 2 6.0606 66.6667 7.8e-05 0.1478 0.83 G2/M transition of mitotic cell cycle mds479 33 3 2 6.0606 66.6667 7.8e-05 0.1478 0.83 G2/M transition of mitotic cell cycle mds299 33 3 2 6.0606 66.6667 7.8e-05 0.1478 0.83 autophagy cz210 33 3 2 6.0606 66.6667 7.8e-05 0.1478 0.83 G2/M transition of mitotic cell cycle mds158 33 3 2 6.0606 66.6667 7.8e-05 0.1478 0.83 protein serine/threonine kinase cz30 33 3 2 6.0606 66.6667 7.8e-05 0.1478 0.83 mitochondrial matrix mds300 72 21 4 5.5556 19.0476 7.8e-05 0.1482 0.83 stress response mds121 57 2 2 3.5088 100.0000 7.9e-05 0.1495 0.83 ubiquinol-cytochrome-c reductase mds277 9 10 2 22.2222 20.0000 8e-05 0.1508 0.82 cytoskeleton mds422 13 7 2 15.3846 28.5714 8.1e-05 0.1525 0.82 ribosome biogenesis cz146 16 35 3 18.7500 8.5714 8.2e-05 0.1543 0.81 rRNA processing mds166 35 16 3 8.5714 18.7500 8.2e-05 0.1543 0.81 nucleosome remodeling complex cz146 16 35 3 18.7500 8.5714 8.2e-05 0.1543 0.81 chromatin remodeling complex cz116 4 24 2 50.0000 8.3333 8.2e-05 0.1544 0.81 chromatin silencing at HML and HMR (sensu Saccharomyces) mds428 24 4 2 8.3333 50.0000 8.2e-05 0.1544 0.81 glycogen metabolism mds434 24 4 2 8.3333 50.0000 8.2e-05 0.1544 0.81 G2/M transition of mitotic cell cycle mds358 33 17 3 9.0909 17.6471 8.3e-05 0.1561 0.81 protein phosphorylation mds454 87 7 3 3.4483 42.8571 8.3e-05 0.1577 0.80 mRNA binding mds3 25 61 4 16.0000 6.5574 8.4e-05 0.1581 0.80 transcription elongation factor complex cz20 19 5 2 10.5263 40.0000 8.4e-05 0.1593 0.80 protein folding mds377 48 12 3 6.2500 25.0000 8.5e-05 0.1604 0.79 commitment complex mds340 19 30 3 15.7895 10.0000 8.7e-05 0.1653 0.78 ribosome mds373 29 53 4 13.7931 7.5472 8.8e-05 0.1660 0.78 cytoplasm cz149 492 26 9 1.8293 34.6154 8.8e-05 0.1663 0.78 intra Golgi transport mds323 35 3 2 5.7143 66.6667 8.8e-05 0.1666 0.78 mitotic recombination cz152 3 35 2 66.6667 5.7143 8.8e-05 0.1666 0.78 pyruvate dehydrogenase (lipoamide) cz106 3 35 2 66.6667 5.7143 8.8e-05 0.1666 0.78 rRNA modification mds60 16 6 2 12.5000 33.3333 8.9e-05 0.1676 0.78 flocculation mds166 6 16 2 33.3333 12.5000 8.9e-05 0.1676 0.78 hexose transport mds98 16 6 2 12.5000 33.3333 8.9e-05 0.1676 0.78 RHO protein signal transduction mds285 25 4 2 8.0000 50.0000 8.9e-05 0.1677 0.78 mRNA binding cz167 25 4 2 8.0000 50.0000 8.9e-05 0.1677 0.78 ribosomal large subunit assembly and maintenance mds166 36 16 3 8.3333 18.7500 8.9e-05 0.1681 0.77 ribosomal large subunit assembly and maintenance mds197 36 16 3 8.3333 18.7500 8.9e-05 0.1681 0.77 transcription from Pol II promoter cz113 45 13 3 6.6667 23.0769 9e-05 0.1708 0.77 protein carrier mds405 12 8 2 16.6667 25.0000 9.1e-05 0.1720 0.76 histone methylation mds168 12 8 2 16.6667 25.0000 9.1e-05 0.1720 0.76 prospore membrane mds62 12 8 2 16.6667 25.0000 9.1e-05 0.1720 0.76 transcription cz184 36 3 2 5.5556 66.6667 9.3e-05 0.1763 0.75 membrane fraction cz192 36 3 2 5.5556 66.6667 9.3e-05 0.1763 0.75 chromatin assembly/disassembly mds172 20 5 2 10.0000 40.0000 9.4e-05 0.1769 0.75 nucleotide-excision repair mds81 20 5 2 10.0000 40.0000 9.4e-05 0.1769 0.75 chromatin assembly/disassembly mds424 20 5 2 10.0000 40.0000 9.4e-05 0.1769 0.75 epsilon DNA polymerase cz130 7 14 2 28.5714 14.2857 9.4e-05 0.1778 0.75 protein carrier cz126 12 50 3 25.0000 6.0000 9.6e-05 0.1814 0.74 pseudohyphal growth mds270 50 12 3 6.0000 25.0000 9.6e-05 0.1814 0.74 central plaque of spindle pole body mds25 4 26 2 50.0000 7.6923 9.6e-05 0.1817 0.74 cytoskeleton mds119 13 46 3 23.0769 6.5217 9.7e-05 0.1825 0.74 G1/S transition of mitotic cell cycle cz93 37 16 3 8.1081 18.7500 9.7e-05 0.1826 0.74 ubiquitin-dependent protein degradation mds180 105 29 5 4.7619 17.2414 9.7e-05 0.1833 0.74 late endosome mds10 9 11 2 22.2222 18.1818 9.7e-05 0.1842 0.73 DNA damage checkpoint mds237 9 11 2 22.2222 18.1818 9.7e-05 0.1842 0.73 eukaryotic translation initiation factor 3 complex cz54 11 9 2 18.1818 22.2222 9.7e-05 0.1842 0.73 G1/S transition of mitotic cell cycle mds158 37 3 2 5.4054 66.6667 9.9e-05 0.1864 0.73 G1/S transition of mitotic cell cycle mds479 37 3 2 5.4054 66.6667 9.9e-05 0.1864 0.73 G1/S transition of mitotic cell cycle mds299 37 3 2 5.4054 66.6667 9.9e-05 0.1864 0.73 chromatin modeling cz189 33 18 3 9.0909 16.6667 9.9e-05 0.1867 0.73 Arp2/3 protein complex mds290 10 10 2 20.0000 20.0000 1e-04 0.1884 0.73 transcription regulation from Pol III promoter cz75 10 10 2 20.0000 20.0000 1e-04 0.1884 0.73 DNA repair cz57 64 2 2 3.1250 100.0000 1e-04 0.1888 0.72 RNA elongation from Pol II promoter mds489 17 6 2 11.7647 33.3333 0.00010 0.1898 0.72 DNA binding mds233 62 10 3 4.8387 30.0000 0.00010 0.1911 0.72 ribosome mds210 29 55 4 13.7931 7.2727 0.00010 0.1921 0.72 aerobic respiration cz133 65 2 2 3.0769 100.0000 0.00010 0.1948 0.71 polyubiquitylation mds15 21 5 2 9.5238 40.0000 0.00010 0.1955 0.71 monoubiquitylation mds15 21 5 2 9.5238 40.0000 0.00010 0.1955 0.71 ATP/ADP antiporter mds300 5 21 2 40.0000 9.5238 0.00010 0.1955 0.71 integral plasma membrane protein mds182 27 4 2 7.4074 50.0000 0.00010 0.1962 0.71 mRNA catabolism cz167 27 4 2 7.4074 50.0000 0.00010 0.1962 0.71 glutamate--tRNA ligase mds286 3 38 2 66.6667 5.2632 0.00010 0.1967 0.71 ubiquitin--protein ligase mds158 38 3 2 5.2632 66.6667 0.00010 0.1967 0.71 ubiquitin--protein ligase mds299 38 3 2 5.2632 66.6667 0.00010 0.1967 0.71 protein synthesis initiation mds234 40 40 4 10.0000 10.0000 0.00010 0.1976 0.70 translation initiation factor mds234 40 40 4 10.0000 10.0000 0.00010 0.1976 0.70 establishment of cell polarity (sensu Saccharomyces) cz70 78 21 4 5.1282 19.0476 0.00011 0.2029 0.69 cytosolic ribosome cz230 8 13 2 25.0000 15.3846 0.00011 0.2031 0.69 RAS protein signal transduction cz32 15 7 2 13.3333 28.5714 0.00011 0.2051 0.69 protein acetylation cz97 7 15 2 28.5714 13.3333 0.00011 0.2051 0.69 shmoo mds481 7 15 2 28.5714 13.3333 0.00011 0.2051 0.69 spore wall (sensu Fungi) mds481 7 15 2 28.5714 13.3333 0.00011 0.2051 0.69 IMP dehydrogenase mds136 4 28 2 50.0000 7.1429 0.00011 0.2112 0.68 nucleic acid binding cz226 6 18 2 33.3333 11.1111 0.00011 0.2135 0.67 3'-5' exoribonuclease cz201 18 6 2 11.1111 33.3333 0.00011 0.2135 0.67 DNA replication cz212 18 6 2 11.1111 33.3333 0.00011 0.2135 0.67 glucose transporter mds98 18 6 2 11.1111 33.3333 0.00011 0.2135 0.67 DNA binding mds273 62 50 5 8.0645 10.0000 0.00011 0.2146 0.67 lagging strand elongation mds81 22 5 2 9.0909 40.0000 0.00011 0.2150 0.67 translation initiation factor mds276 40 3 2 5.0000 66.6667 0.00012 0.2182 0.66 protein synthesis initiation mds276 40 3 2 5.0000 66.6667 0.00012 0.2182 0.66 exit from mitosis cz88 12 9 2 16.6667 22.2222 0.00012 0.2209 0.66 G1/S transition of mitotic cell cycle mds173 37 17 3 8.1081 17.6471 0.00012 0.2209 0.66 G1/S transition of mitotic cell cycle mds358 37 17 3 8.1081 17.6471 0.00012 0.2209 0.66 mRNA binding cz143 25 25 3 12.0000 12.0000 0.00012 0.2209 0.66 adenosinetriphosphatase cz126 33 50 4 12.1212 8.0000 0.00012 0.2218 0.65 G2/M transition of mitotic cell cycle mds273 33 50 4 12.1212 8.0000 0.00012 0.2218 0.65 rRNA processing mds372 35 18 3 8.5714 16.6667 0.00012 0.2232 0.65 DNA-directed RNA polymerase III cz189 35 18 3 8.5714 16.6667 0.00012 0.2232 0.65 osmotic response mds425 35 18 3 8.5714 16.6667 0.00012 0.2232 0.65 cytosol mds255 115 15 4 3.4783 26.6667 0.00012 0.2252 0.65 cell wall organization and biogenesis mds481 115 15 4 3.4783 26.6667 0.00012 0.2252 0.65 19S proteasome regulatory particle, base subcomplex cz115 4 29 2 50.0000 6.8966 0.00012 0.2268 0.64 actin cortical patch (sensu Saccharomyces) cz81 29 4 2 6.8966 50.0000 0.00012 0.2268 0.64 actin cortical patch (sensu Saccharomyces) cz169 29 4 2 6.8966 50.0000 0.00012 0.2268 0.64 ribosome mds78 29 4 2 6.8966 50.0000 0.00012 0.2268 0.64 19S proteasome regulatory particle, lid subcomplex cz115 4 29 2 50.0000 6.8966 0.00012 0.2268 0.64 glucose 1-phosphate utilization mds292 4 29 2 50.0000 6.8966 0.00012 0.2268 0.64 IMP dehydrogenase mds180 4 29 2 50.0000 6.8966 0.00012 0.2268 0.64 repairosome cz115 4 29 2 50.0000 6.8966 0.00012 0.2268 0.64 actin cortical patch (sensu Saccharomyces) cz78 29 4 2 6.8966 50.0000 0.00012 0.2268 0.64 glucose 6-phosphate utilization mds292 4 29 2 50.0000 6.8966 0.00012 0.2268 0.64 DNA damage response cz75 11 10 2 18.1818 20.0000 0.00012 0.2300 0.64 nuclear membrane organization and biogenesis cz93 7 16 2 28.5714 12.5000 0.00012 0.2342 0.63 rRNA modification mds145 16 7 2 12.5000 28.5714 0.00012 0.2342 0.63 cytokinesis cz107 43 15 3 6.9767 20.0000 0.00012 0.2346 0.63 ribosome mds409 29 22 3 10.3448 13.6364 0.00012 0.2348 0.63 ribosome mds225 29 22 3 10.3448 13.6364 0.00012 0.2348 0.63 protein synthesis termination cz101 5 23 2 40.0000 8.6957 0.00012 0.2353 0.63 fructose transporter mds106 14 8 2 14.2857 25.0000 0.00013 0.2368 0.63 cytoplasm mds23 492 8 5 1.0163 62.5000 0.00013 0.2372 0.62 cytoplasm mds390 492 8 5 1.0163 62.5000 0.00013 0.2372 0.62 MAP kinase kinase mds283 4 30 2 50.0000 6.6667 0.00013 0.2430 0.61 protein phosphorylation mds279 87 8 3 3.4483 37.5000 0.00013 0.2498 0.60 protein phosphorylation mds23 87 8 3 3.4483 37.5000 0.00013 0.2498 0.60 protein phosphorylation mds281 87 8 3 3.4483 37.5000 0.00013 0.2498 0.60 microtubule nucleation mds487 24 5 2 8.3333 40.0000 0.00014 0.2567 0.59 glycogen (starch) synthase mds12 4 31 2 50.0000 6.4516 0.00014 0.2597 0.59 cell cycle control mds387 31 4 2 6.4516 50.0000 0.00014 0.2597 0.59 cell cycle control mds88 31 4 2 6.4516 50.0000 0.00014 0.2597 0.59 cytoskeleton mds167 13 9 2 15.3846 22.2222 0.00014 0.2608 0.58 bud mds123 9 13 2 22.2222 15.3846 0.00014 0.2608 0.58 protein-vacuolar targeting mds440 69 10 3 4.3478 30.0000 0.00014 0.2633 0.58 DNA-directed RNA polymerase III cz145 35 19 3 8.5714 15.7895 0.00014 0.2640 0.58 transcription co-repressor mds93 20 6 2 10.0000 33.3333 0.00014 0.2649 0.58 transcription co-repressor mds343 20 6 2 10.0000 33.3333 0.00014 0.2649 0.58 translational regulation, elongation cz76 6 20 2 33.3333 10.0000 0.00014 0.2649 0.58 cytoskeleton organization and biogenesis mds422 17 7 2 11.7647 28.5714 0.00014 0.2653 0.58 nucleus mds68 504 8 5 0.9921 62.5000 0.00014 0.2664 0.57 transcription regulation from Pol II promoter mds320 76 2 2 2.6316 100.0000 0.00014 0.2669 0.57 tricarboxylic acid cycle cz68 15 8 2 13.3333 25.0000 0.00014 0.2731 0.56 mannose transporter mds106 15 8 2 13.3333 25.0000 0.00014 0.2731 0.56 RAS protein signal transduction mds23 15 8 2 13.3333 25.0000 0.00014 0.2731 0.56 protein carrier mds19 12 10 2 16.6667 20.0000 0.00015 0.2758 0.56 deadenylation-dependent decapping mds417 12 10 2 16.6667 20.0000 0.00015 0.2758 0.56 ion homeostasis cz75 12 10 2 16.6667 20.0000 0.00015 0.2758 0.56 protein carrier cz26 12 10 2 16.6667 20.0000 0.00015 0.2758 0.56 phosphomethylpyrimidine kinase mds50 3 45 2 66.6667 4.4444 0.00015 0.2769 0.56 protein-nucleus export mds295 32 4 2 6.2500 50.0000 0.00015 0.2769 0.56 actin binding mds9 5 25 2 40.0000 8.0000 0.00015 0.2789 0.55 translation initiation factor mds262 40 17 3 7.5000 17.6471 0.00015 0.2795 0.55 protein synthesis initiation mds262 40 17 3 7.5000 17.6471 0.00015 0.2795 0.55 rRNA processing mds273 35 50 4 11.4286 8.0000 0.00015 0.2806 0.55 establishment of cell polarity (sensu Saccharomyces) mds413 78 2 2 2.5641 100.0000 0.00015 0.2812 0.55 chromatin silencing at telomere cz150 34 20 3 8.8235 15.0000 0.00015 0.2835 0.55 nucleolus mds353 81 22 4 4.9383 18.1818 0.00015 0.2846 0.55 sporulation (sensu Saccharomyces) mds223 46 15 3 6.5217 20.0000 0.00015 0.2874 0.54 glycolysis cz139 16 43 3 18.7500 6.9767 0.00015 0.2874 0.54 ATP/ADP exchange mds104 3 46 2 66.6667 4.3478 0.00015 0.2894 0.54 glyceraldehyde 3-phosphate dehydrogenase (phosphorylating) cz151 3 46 2 66.6667 4.3478 0.00015 0.2894 0.54 adenosinetriphosphatase mds360 33 4 2 6.0606 50.0000 0.00016 0.2947 0.53 bud neck cz169 33 4 2 6.0606 50.0000 0.00016 0.2947 0.53 ER to Golgi transport mds28 80 2 2 2.5000 100.0000 0.00016 0.2959 0.53 cytosol mds466 115 16 4 3.4783 25.0000 0.00016 0.2961 0.53 mitochondrial intermembrane space mds87 18 7 2 11.1111 28.5714 0.00016 0.2984 0.53 ATP synthesis coupled proton transport mds483 41 17 3 7.3171 17.6471 0.00016 0.3010 0.52 Pol II transcription elongation factor cz20 26 5 2 7.6923 40.0000 0.00016 0.3020 0.52 centromere mds487 26 5 2 7.6923 40.0000 0.00016 0.3020 0.52 CCR4-NOT complex cz149 5 26 2 40.0000 7.6923 0.00016 0.3020 0.52 malic enzyme mds84 3 47 2 66.6667 4.2553 0.00016 0.3022 0.52 malate metabolism mds84 3 47 2 66.6667 4.2553 0.00016 0.3022 0.52 nucleotide-excision repair cz152 20 35 3 15.0000 8.5714 0.00016 0.3094 0.51 protein phosphorylation cz70 87 21 4 4.5977 19.0476 0.00016 0.3105 0.51 hexose transport mds106 16 8 2 12.5000 25.0000 0.00017 0.3119 0.51 trehalose biosynthesis cz31 8 16 2 25.0000 12.5000 0.00017 0.3119 0.51 casein kinase II mds166 8 16 2 25.0000 12.5000 0.00017 0.3119 0.51 G1/S transition of mitotic cell cycle mds153 37 19 3 8.1081 15.7895 0.00017 0.3122 0.51 chromatin silencing at telomere mds428 34 4 2 5.8824 50.0000 0.00017 0.3131 0.50 CCAAT-binding factor complex mds24 4 34 2 50.0000 5.8824 0.00017 0.3131 0.50 general regulation of carbohydrate metabolism mds24 4 34 2 50.0000 5.8824 0.00017 0.3131 0.50 19S proteasome regulatory particle, lid subcomplex cz99 4 34 2 50.0000 5.8824 0.00017 0.3131 0.50 multicatalytic endopeptidase mds391 60 12 3 5.0000 25.0000 0.00017 0.3133 0.50 protein folding mds488 48 3 2 4.1667 66.6667 0.00017 0.3154 0.50 protein folding mds410 48 3 2 4.1667 66.6667 0.00017 0.3154 0.50 protein folding cz25 48 3 2 4.1667 66.6667 0.00017 0.3154 0.50 protein folding cz221 48 3 2 4.1667 66.6667 0.00017 0.3154 0.50 microfilament motor mds415 6 22 2 33.3333 9.0909 0.00017 0.3218 0.49 nucleosome mds233 13 10 2 15.3846 20.0000 0.00017 0.3257 0.49 nucleosome mds175 13 10 2 15.3846 20.0000 0.00017 0.3257 0.49 respiratory chain complex III mds277 13 10 2 15.3846 20.0000 0.00017 0.3257 0.49 3'-5' exonuclease mds282 10 13 2 20.0000 15.3846 0.00017 0.3257 0.49 osmotic response cz81 35 4 2 5.7143 50.0000 0.00018 0.3320 0.48 19S proteasome regulatory particle, base subcomplex cz106 4 35 2 50.0000 5.7143 0.00018 0.3320 0.48 hydrogen-transporting ATPase V0 domain cz120 12 11 2 16.6667 18.1818 0.00018 0.3367 0.47 prospore membrane mds83 12 11 2 16.6667 18.1818 0.00018 0.3367 0.47 transcription initiation from Pol II promoter mds300 89 21 4 4.4944 19.0476 0.00018 0.3391 0.47 cytosol mds84 115 47 6 5.2174 12.7660 0.00018 0.3418 0.47 transcription co-factor cz159 3 50 2 66.6667 4.0000 0.00018 0.3424 0.47 protein synthesis initiation cz132 40 46 4 10.0000 8.6957 0.00018 0.3433 0.46 translation initiation factor cz132 40 46 4 10.0000 8.6957 0.00018 0.3433 0.46 G2/M transition of mitotic cell cycle mds353 33 22 3 9.0909 13.6364 0.00018 0.3474 0.46 G1/S transition of mitotic cell cycle mds273 37 50 4 10.8108 8.0000 0.00019 0.3499 0.46 protein phosphorylation mds269 87 2 2 2.2989 100.0000 0.00019 0.3503 0.46 protein phosphorylation mds413 87 2 2 2.2989 100.0000 0.00019 0.3503 0.46 ubiquinol-cytochrome-c reductase mds80 9 15 2 22.2222 13.3333 0.00019 0.3506 0.46 cell mds128 28 5 2 7.1429 40.0000 0.00019 0.3511 0.45 ribosomal large subunit assembly and maintenance mds414 36 4 2 5.5556 50.0000 0.00019 0.3514 0.45 nonsense-mediated mRNA decay cz128 4 36 2 50.0000 5.5556 0.00019 0.3514 0.45 RAN small monomeric GTPase mds41 4 36 2 50.0000 5.5556 0.00019 0.3514 0.45 glycolysis cz151 16 46 3 18.7500 6.5217 0.00019 0.3519 0.45 hydrogen-transporting ATP synthase, stator stalk mds483 8 17 2 25.0000 11.7647 0.00019 0.3532 0.45 cell growth and maintenance cz224 17 8 2 11.7647 25.0000 0.00019 0.3532 0.45 ARF small monomeric GTPase mds13 3 51 2 66.6667 3.9216 0.00019 0.3563 0.45 NADPH regeneration mds13 3 51 2 66.6667 3.9216 0.00019 0.3563 0.45 RNA methyltransferase cz163 2 88 2 100.0000 2.2727 0.00019 0.3585 0.45 actin filament organization mds425 41 18 3 7.3171 16.6667 0.00019 0.3596 0.44 actin filament organization mds29 41 18 3 7.3171 16.6667 0.00019 0.3596 0.44 transcription factor cz202 89 2 2 2.2472 100.0000 0.00019 0.3667 0.44 transcription initiation from Pol II promoter cz29 89 2 2 2.2472 100.0000 0.00019 0.3667 0.44 transcription initiation from Pol II promoter mds404 89 2 2 2.2472 100.0000 0.00019 0.3667 0.44 endocytosis cz107 50 15 3 6.0000 20.0000 0.00020 0.3690 0.43 G1/S transition of mitotic cell cycle mds88 37 4 2 5.4054 50.0000 0.00020 0.3714 0.43 G1/S transition of mitotic cell cycle mds407 37 4 2 5.4054 50.0000 0.00020 0.3714 0.43 ATP dependent RNA helicase cz111 26 73 4 15.3846 5.4795 0.00020 0.3742 0.43 chromatin silencing at HML and HMR (sensu Saccharomyces) cz137 24 31 3 12.5000 9.6774 0.00020 0.3754 0.43 actin cortical patch (sensu Saccharomyces) mds254 29 5 2 6.8966 40.0000 0.00020 0.3770 0.42 pre-mRNA splicing factor cz132 41 46 4 9.7561 8.6957 0.00020 0.3784 0.42 actin filament organization cz151 41 46 4 9.7561 8.6957 0.00020 0.3784 0.42 steroid biosynthesis cz7 14 10 2 14.2857 20.0000 0.00020 0.3796 0.42 cell wall organization and biogenesis cz118 115 17 4 3.4783 23.5294 0.00020 0.3818 0.42 glycogen metabolism mds147 24 6 2 8.3333 33.3333 0.00020 0.3841 0.42 microfilament motor cz77 6 24 2 33.3333 8.3333 0.00020 0.3841 0.42 long-chain-fatty-acid-CoA-ligase mds20 6 24 2 33.3333 8.3333 0.00020 0.3841 0.42 mRNA binding mds340 25 30 3 12.0000 10.0000 0.00020 0.3850 0.41 GTP biosynthesis mds373 3 53 2 66.6667 3.7736 0.00020 0.3850 0.41 lipid particle mds41 21 36 3 14.2857 8.3333 0.00021 0.3915 0.41 hydrogen-transporting ATPase V1 domain mds438 18 8 2 11.1111 25.0000 0.00021 0.3971 0.40 glucose transporter mds106 18 8 2 11.1111 25.0000 0.00021 0.3971 0.40 cytoskeleton mds237 13 11 2 15.3846 18.1818 0.00021 0.3976 0.40 histone acetyltransferase mds388 16 9 2 12.5000 22.2222 0.00021 0.4004 0.40 histone acetyltransferase mds317 16 9 2 12.5000 22.2222 0.00021 0.4004 0.40 rRNA modification cz54 16 9 2 12.5000 22.2222 0.00021 0.4004 0.40 SAGA complex mds317 16 9 2 12.5000 22.2222 0.00021 0.4004 0.40 multicatalytic endopeptidase cz230 60 13 3 5.0000 23.0769 0.00021 0.4046 0.39 nucleotide excision repair factor 3 mds300 7 21 2 28.5714 9.5238 0.00022 0.4089 0.39 mRNA cleavage mds315 21 7 2 9.5238 28.5714 0.00022 0.4089 0.39 regulation of CDK activity mds336 21 7 2 9.5238 28.5714 0.00022 0.4089 0.39 Golgi to vacuole transport cz89 21 7 2 9.5238 28.5714 0.00022 0.4089 0.39 nucleolus mds100 81 44 5 6.1728 11.3636 0.00022 0.4133 0.38 ribosomal large subunit assembly and maintenance cz140 36 54 4 11.1111 7.4074 0.00022 0.4241 0.37 nucleolus mds397 81 10 3 3.7037 30.0000 0.00022 0.4244 0.37 19S proteasome regulatory particle mds300 37 21 3 8.1081 14.2857 0.00022 0.4251 0.37 cytoskeleton organization and biogenesis mds119 17 46 3 17.6471 6.5217 0.00022 0.4252 0.37 chaperone mds488 56 3 2 3.5714 66.6667 0.00023 0.4302 0.37 chaperone cz15 56 3 2 3.5714 66.6667 0.00023 0.4302 0.37 chaperone mds410 56 3 2 3.5714 66.6667 0.00023 0.4302 0.37 chaperone cz25 56 3 2 3.5714 66.6667 0.00023 0.4302 0.37 protein synthesis initiation mds78 40 4 2 5.0000 50.0000 0.00023 0.4348 0.36 translation initiation factor mds78 40 4 2 5.0000 50.0000 0.00023 0.4348 0.36 ribonucleoside-diphosphate reductase mds234 4 40 2 50.0000 5.0000 0.00023 0.4348 0.36 RAS protein signal transduction mds92 15 10 2 13.3333 20.0000 0.00023 0.4376 0.36 protein serine/threonine phosphatase mds153 8 19 2 25.0000 10.5263 0.00023 0.4436 0.35 stress response cz221 57 3 2 3.5088 66.6667 0.00024 0.4458 0.35 ribosomal large subunit assembly and maintenance mds353 36 22 3 8.3333 13.6364 0.00024 0.4516 0.35 cytoskeleton organization and biogenesis mds167 17 9 2 11.7647 22.2222 0.00024 0.4534 0.34 ubiquinol-cytochrome-c reductase mds173 9 17 2 22.2222 11.7647 0.00024 0.4534 0.34 general RNA polymerase II transcription factor cz139 46 43 4 8.6957 9.3023 0.00024 0.4563 0.34 vesicle transport cz96 41 4 2 4.8780 50.0000 0.00024 0.4570 0.34 actin filament organization cz81 41 4 2 4.8780 50.0000 0.00024 0.4570 0.34 chromosome segregation mds487 32 5 2 6.2500 40.0000 0.00024 0.4601 0.34 35S primary transcript processing mds372 45 18 3 6.6667 16.6667 0.00025 0.4753 0.32 shmoo tip mds242 12 13 2 16.6667 15.3846 0.00025 0.4765 0.32 cytoskeleton cz153 13 12 2 15.3846 16.6667 0.00025 0.4765 0.32 exit from mitosis mds123 12 13 2 16.6667 15.3846 0.00025 0.4765 0.32 oxidative stress response mds71 42 4 2 4.7619 50.0000 0.00025 0.4797 0.32 mRNA catabolism mds340 27 30 3 11.1111 10.0000 0.00026 0.4865 0.31 mRNA catabolism cz201 27 6 2 7.4074 33.3333 0.00026 0.4879 0.31 mating (sensu Saccharomyces) mds72 33 5 2 6.0606 40.0000 0.00026 0.4896 0.31 G1/S transition of mitotic cell cycle mds353 37 22 3 8.1081 13.6364 0.00026 0.4903 0.31 cytosolic ribosome cz76 8 20 2 25.0000 10.0000 0.00026 0.4926 0.31 chromatin binding mds169 24 34 3 12.5000 8.8235 0.00026 0.4960 0.30 DNA replication initiation mds169 24 34 3 12.5000 8.8235 0.00026 0.4960 0.30 vesicle transport mds127 41 20 3 7.3171 15.0000 0.00026 0.4979 0.30 transcription regulation from Pol III promoter mds166 10 16 2 20.0000 12.5000 0.00026 0.4997 0.30 non-selective vesicle docking cz109 16 10 2 12.5000 20.0000 0.00026 0.4997 0.30 cytoplasm mds212 492 9 5 1.0163 55.5556 0.00026 0.4998 0.30 cytoplasm mds143 492 9 5 1.0163 55.5556 0.00026 0.4998 0.30 DNA damage checkpoint mds365 9 18 2 22.2222 11.1111 0.00027 0.5097 0.29 telomere cz88 18 9 2 11.1111 22.2222 0.00027 0.5097 0.29 ubiquitin-dependent protein degradation mds205 105 2 2 1.9048 100.0000 0.00027 0.5113 0.29 DNA repair mds396 64 32 4 6.2500 12.5000 0.00027 0.5149 0.29 chaperone mds80 56 15 3 5.3571 20.0000 0.00027 0.5174 0.29 chromatin silencing at telomere mds257 34 5 2 5.8824 40.0000 0.00028 0.5201 0.28 protein phosphorylation mds271 87 10 3 3.4483 30.0000 0.00028 0.5247 0.28 nuclear pore mds444 44 4 2 4.5455 50.0000 0.00028 0.5268 0.28 glycogen metabolism cz32 24 7 2 8.3333 28.5714 0.00028 0.5365 0.27 cell cycle control mds55 31 27 3 9.6774 11.1111 0.00028 0.5371 0.27 ribosome biogenesis mds373 16 53 3 18.7500 5.6604 0.00028 0.5373 0.27 stress response mds223 57 15 3 5.2632 20.0000 0.00029 0.5454 0.26 NADPH dehydrogenase mds50 4 45 2 50.0000 4.4444 0.00029 0.5512 0.26 osmotic response mds254 35 5 2 5.7143 40.0000 0.00029 0.5514 0.26 osmotic response mds261 35 5 2 5.7143 40.0000 0.00029 0.5514 0.26 mRNA splice site selection cz129 5 35 2 40.0000 5.7143 0.00029 0.5514 0.26 sister chromatid cohesion mds351 12 14 2 16.6667 14.2857 0.00029 0.5554 0.26 cytoplasm mds20 492 24 8 1.6260 33.3333 0.00030 0.5581 0.25 nucleus mds193 504 9 5 0.9921 55.5556 0.00030 0.5604 0.25 19S proteasome regulatory particle cz95 37 23 3 8.1081 13.0435 0.00030 0.5616 0.25 bud growth mds50 19 45 3 15.7895 6.6667 0.00030 0.5617 0.25 establishment of cell polarity (sensu Saccharomyces) mds55 78 27 4 5.1282 14.8148 0.00030 0.5625 0.25 DNA repair mds448 64 3 2 3.1250 66.6667 0.00030 0.5627 0.25 DNA repair mds200 64 3 2 3.1250 66.6667 0.00030 0.5627 0.25 ribosome cz13 29 6 2 6.8966 33.3333 0.00030 0.5638 0.25 phosphoglucomutase mds292 6 29 2 33.3333 6.8966 0.00030 0.5638 0.25 double-strand break repair cz115 6 29 2 33.3333 6.8966 0.00030 0.5638 0.25 DNA binding mds251 62 14 3 4.8387 21.4286 0.00030 0.5638 0.25 actin cortical patch assembly cz118 10 17 2 20.0000 11.7647 0.00030 0.5659 0.25 sporulation (sensu Saccharomyces) mds113 46 4 2 4.3478 50.0000 0.00030 0.5762 0.24 19S proteasome regulatory particle, lid subcomplex mds104 4 46 2 50.0000 4.3478 0.00030 0.5762 0.24 nucleolus mds338 81 11 3 3.7037 27.2727 0.00031 0.5783 0.24 polar budding cz79 36 5 2 5.5556 40.0000 0.00031 0.5836 0.23 polar budding mds254 36 5 2 5.5556 40.0000 0.00031 0.5836 0.23 membrane fraction mds312 36 5 2 5.5556 40.0000 0.00031 0.5836 0.23 mitochondrion cz100 173 13 4 2.3121 30.7692 0.00031 0.5918 0.23 general RNA polymerase II transcription factor cz145 46 19 3 6.5217 15.7895 0.00032 0.5997 0.22 DNA damage response mds166 11 16 2 18.1818 12.5000 0.00032 0.6099 0.21 cytosol cz179 115 2 2 1.7391 100.0000 0.00032 0.6138 0.21 cytosol mds28 115 2 2 1.7391 100.0000 0.00032 0.6138 0.21 G1/S transition of mitotic cell cycle mds304 37 5 2 5.4054 40.0000 0.00033 0.6168 0.21 mRNA-nucleus export mds295 48 4 2 4.1667 50.0000 0.00033 0.6277 0.20 protein folding mds2 48 4 2 4.1667 50.0000 0.00033 0.6277 0.20 pheromone response cz149 7 26 2 28.5714 7.6923 0.00033 0.6311 0.20 cytoplasmic exosome (RNase complex) cz127 10 18 2 20.0000 11.1111 0.00034 0.6361 0.20 protein phosphatase type 1 mds56 12 15 2 16.6667 13.3333 0.00034 0.6401 0.19 prospore membrane mds481 12 15 2 16.6667 13.3333 0.00034 0.6401 0.19 protein phosphorylation mds50 87 45 5 5.7471 11.1111 0.00034 0.6433 0.19 ATP dependent RNA helicase cz156 26 84 4 15.3846 4.7619 0.00034 0.6434 0.19 RNA helicase mds373 17 53 3 17.6471 5.6604 0.00034 0.6485 0.19 endocytosis mds425 50 18 3 6.0000 16.6667 0.00034 0.6508 0.19 protein-vacuolar targeting cz210 69 3 2 2.8986 66.6667 0.00035 0.6544 0.18 small GTPase mediated signal transduction cz135 23 8 2 8.6957 25.0000 0.00035 0.6546 0.18 intracellular cz135 23 8 2 8.6957 25.0000 0.00035 0.6546 0.18 GTPase mds26 13 14 2 15.3846 14.2857 0.00035 0.6555 0.18 ribosome mds12 29 31 3 10.3448 9.6774 0.00035 0.6665 0.18 gluconeogenesis cz139 21 43 3 14.2857 6.9767 0.00035 0.6667 0.18 integral plasma membrane protein mds8 27 7 2 7.4074 28.5714 0.00036 0.6812 0.17 pseudohyphal growth mds250 50 4 2 4.0000 50.0000 0.00036 0.6813 0.17 endocytosis cz81 50 4 2 4.0000 50.0000 0.00036 0.6813 0.17 endocytosis cz169 50 4 2 4.0000 50.0000 0.00036 0.6813 0.17 19S proteasome regulatory particle, lid subcomplex cz126 4 50 2 50.0000 4.0000 0.00036 0.6813 0.17 retrograde (Golgi to ER) transport cz140 17 54 3 17.6471 5.5556 0.00036 0.6856 0.16 mitochondrial genome maintenance cz140 17 54 3 17.6471 5.5556 0.00036 0.6856 0.16 cytoskeletal protein binding protein cz118 11 17 2 18.1818 11.7647 0.00037 0.6906 0.16 cytoskeleton organization and biogenesis mds237 17 11 2 11.7647 18.1818 0.00037 0.6906 0.16 invasive growth mds222 21 9 2 9.5238 22.2222 0.00037 0.6981 0.16 RNA binding mds310 62 15 3 4.8387 20.0000 0.00037 0.6999 0.15 pyruvate carboxylase mds13 4 51 2 50.0000 3.9216 0.00038 0.7090 0.15 bud growth cz207 19 10 2 10.5263 20.0000 0.00038 0.7103 0.15 mitotic spindle assembly (sensu Saccharomyces) cz121 19 10 2 10.5263 20.0000 0.00038 0.7103 0.15 mitochondrial matrix mds347 72 3 2 2.7778 66.6667 0.00038 0.7128 0.15 mitochondrial matrix cz217 72 3 2 2.7778 66.6667 0.00038 0.7128 0.15 heat shock protein mds438 24 8 2 8.3333 25.0000 0.00038 0.7137 0.15 protein myristylation mds20 8 24 2 25.0000 8.3333 0.00038 0.7137 0.15 spindle pole body mds487 40 5 2 5.0000 40.0000 0.00038 0.7217 0.14 ion homeostasis mds166 12 16 2 16.6667 12.5000 0.00039 0.7308 0.14 nuclear ubiquitin ligase complex mds326 6 33 2 33.3333 6.0606 0.00039 0.7320 0.14 protein phosphorylation mds65 87 26 4 4.5977 15.3846 0.00039 0.7361 0.13 eukaryotic translation initiation factor 3 complex cz163 11 88 3 27.2727 3.4091 0.00039 0.7388 0.13 cytosol cz76 115 20 4 3.4783 20.0000 0.00039 0.7454 0.13 respiratory chain complex III mds80 13 15 2 15.3846 13.3333 0.00040 0.7555 0.12 cytoskeleton mds80 13 15 2 15.3846 13.3333 0.00040 0.7555 0.12 glucose metabolism mds481 13 15 2 15.3846 13.3333 0.00040 0.7555 0.12 tricarboxylic acid cycle mds386 15 13 2 13.3333 15.3846 0.00040 0.7555 0.12 G1/S transition of mitotic cell cycle mds3 37 61 4 10.8108 6.5574 0.00040 0.7573 0.12 hydrogen-transporting two-sector ATPase mds483 56 17 3 5.3571 17.6471 0.00040 0.7636 0.12 IMP dehydrogenase mds373 4 53 2 50.0000 3.7736 0.00041 0.7660 0.12 transcription regulation from Pol II promoter mds340 76 30 4 5.2632 13.3333 0.00041 0.7734 0.11 signal transducer cz135 25 8 2 8.0000 25.0000 0.00041 0.7753 0.11 pre-replicative complex mds9 8 25 2 25.0000 8.0000 0.00041 0.7753 0.11 nuclear exosome (RNase complex) cz127 11 18 2 18.1818 11.1111 0.00041 0.7762 0.11 vacuolar transport mds425 11 18 2 18.1818 11.1111 0.00041 0.7762 0.11 exocytosis mds10 18 11 2 11.1111 18.1818 0.00041 0.7762 0.11 small nucleolar ribonucleoprotein particle mds60 34 6 2 5.8824 33.3333 0.00041 0.7775 0.11 small nucleolar ribonucleoprotein particle mds146 34 6 2 5.8824 33.3333 0.00041 0.7775 0.11 nuclear ubiquitin ligase complex mds169 6 34 2 33.3333 5.8824 0.00041 0.7775 0.11 mRNA polyadenylation mds315 29 7 2 6.8966 28.5714 0.00042 0.7871 0.10 DNA replication, priming cz115 7 29 2 28.5714 6.8966 0.00042 0.7871 0.10 nucleotide excision repair factor 3 cz115 7 29 2 28.5714 6.8966 0.00042 0.7871 0.10 chromatin assembly/disassembly mds175 20 10 2 10.0000 20.0000 0.00042 0.7886 0.10 chromatin assembly/disassembly mds233 20 10 2 10.0000 20.0000 0.00042 0.7886 0.10 chromatin silencing at ribosomal DNA (rDNA) cz150 10 20 2 20.0000 10.0000 0.00042 0.7886 0.10 adenosinetriphosphatase mds180 33 29 3 9.0909 10.3448 0.00043 0.8041 0.09 adenosinetriphosphatase cz115 33 29 3 9.0909 10.3448 0.00043 0.8041 0.09 stress response mds472 57 17 3 5.2632 17.6471 0.00043 0.8047 0.09 DNA-directed RNA polymerase II mds472 12 17 2 16.6667 11.7647 0.00044 0.8274 0.08 DNA-directed RNA polymerase II, core mds472 12 17 2 16.6667 11.7647 0.00044 0.8274 0.08 cell growth and maintenance mds97 17 12 2 11.7647 16.6667 0.00044 0.8274 0.08 cytoskeleton organization and biogenesis cz153 17 12 2 11.7647 16.6667 0.00044 0.8274 0.08 centromere cz190 26 8 2 7.6923 25.0000 0.00044 0.8393 0.08 chromatin modification mds317 23 9 2 8.6957 22.2222 0.00044 0.8398 0.08 mRNA catabolism cz128 27 36 3 11.1111 8.3333 0.00045 0.8411 0.08 MAP kinase mds283 7 30 2 28.5714 6.6667 0.00045 0.8429 0.07 nucleocytoplasmic transport mds340 7 30 2 28.5714 6.6667 0.00045 0.8429 0.07 structural protein mds9 39 25 3 7.6923 12.0000 0.00045 0.8466 0.07 cytosol mds379 115 9 3 2.6087 33.3333 0.00045 0.8470 0.07 cytosol mds133 115 9 3 2.6087 33.3333 0.00045 0.8470 0.07 protein phosphorylation mds55 87 27 4 4.5977 14.8148 0.00045 0.8552 0.07 chaperone mds2 56 4 2 3.5714 50.0000 0.00045 0.8555 0.07 DNA-directed RNA polymerase III cz110 35 28 3 8.5714 10.7143 0.00046 0.8628 0.06 eukaryotic translation initiation factor 3 complex cz91 11 19 2 18.1818 10.5263 0.00046 0.8667 0.06 transcription mds115 36 6 2 5.5556 33.3333 0.00046 0.8723 0.06 cytoplasm mds124 492 3 3 0.6098 100.0000 0.00046 0.8725 0.06 cytoplasm cz30 492 3 3 0.6098 100.0000 0.00046 0.8725 0.06 ribosome cz99 29 34 3 10.3448 8.8235 0.00047 0.8792 0.06 thioredoxin peroxidase mds26 15 14 2 13.3333 14.2857 0.00047 0.8802 0.06 ER to Golgi transport mds323 80 3 2 2.5000 66.6667 0.00047 0.8804 0.06 ER to Golgi transport mds79 80 3 2 2.5000 66.6667 0.00047 0.8804 0.06 cytoplasm mds267 492 6 4 0.8130 66.6667 0.00047 0.8877 0.05 cytoplasm mds343 492 6 4 0.8130 66.6667 0.00047 0.8877 0.05 chromatin assembly/disassembly cz126 20 50 3 15.0000 6.0000 0.00048 0.8991 0.05 mRNA cleavage and polyadenylation specificity factor complex mds12 7 31 2 28.5714 6.4516 0.00048 0.9006 0.05 nucleolus mds458 81 3 2 2.4691 66.6667 0.00048 0.9026 0.04 mRNA catabolism mds385 27 8 2 7.4074 25.0000 0.00048 0.9059 0.04 ubiquitin-dependent protein degradation mds154 105 10 3 2.8571 30.0000 0.00048 0.9141 0.04 protein binding mds282 79 13 3 3.7975 23.0769 0.00048 0.9142 0.04 chromatin silencing at HML and HMR (sensu Saccharomyces) cz88 24 9 2 8.3333 22.2222 0.00048 0.9155 0.04 histone acetyltransferase complex cz116 9 24 2 22.2222 8.3333 0.00048 0.9155 0.04 structural protein of ribosome cz161 220 82 10 4.5455 12.1951 0.00049 0.9185 0.04 protein carrier mds365 12 18 2 16.6667 11.1111 0.00049 0.9298 0.03 protein phosphatase type 2A mds29 12 18 2 16.6667 11.1111 0.00049 0.9298 0.03 DNA replication mds442 18 12 2 11.1111 16.6667 0.00049 0.9298 0.03 cytoplasm mds440 492 10 5 1.0163 50.0000 0.00050 0.9362 0.03 cytoplasm cz121 492 10 5 1.0163 50.0000 0.00050 0.9362 0.03 cytoplasm mds271 492 10 5 1.0163 50.0000 0.00050 0.9362 0.03 35S primary transcript processing mds373 45 53 4 8.8889 7.5472 0.00050 0.9434 0.03 ATP/ADP antiporter mds104 5 46 2 40.0000 4.3478 0.00051 0.9558 0.02 endonuclease mds396 7 32 2 28.5714 6.2500 0.00051 0.9601 0.02 microsome cz92 11 20 2 18.1818 10.0000 0.00051 0.9620 0.02 establishment of cell polarity (sensu Saccharomyces) cz137 78 31 4 5.1282 12.9032 0.00051 0.9717 0.01 nucleus mds195 504 6 4 0.7937 66.6667 0.00052 0.9747 0.01 nucleus mds450 504 6 4 0.7937 66.6667 0.00052 0.9747 0.01 rRNA-nucleus export mds68 28 8 2 7.1429 25.0000 0.00052 0.9750 0.01 DNA strand elongation cz110 8 28 2 25.0000 7.1429 0.00052 0.9750 0.01 respiratory chain complex III mds173 13 17 2 15.3846 11.7647 0.00052 0.9763 0.01 nucleolus cz4 81 13 3 3.7037 23.0769 0.00052 0.9840 0.01 nucleolus cz73 81 13 3 3.7037 23.0769 0.00052 0.9840 0.01 ATP dependent DNA helicase mds9 9 25 2 22.2222 8.0000 0.00053 0.9944 0.00 threonine metabolism mds84 5 47 2 40.0000 4.2553 0.00053 0.9980 0.00 ; Job started 2003_01_17.113218 ; Job done 2003_01_17.114113