Names	Description
SPBC776.03, SPBC776.03, 	threonine metabolism| methionine metabolism| homoserine dehydrogenase activity| cellular_component unknown
SPBC776.15c, SPBC776.15c, 	2-oxoglutarate metabolism| tricarboxylic acid cycle| dihydrolipoyllysine-residue succinyltransferase activity| oxoglutarate dehydrogenase complex (sensu Eukarya)
SPAC1F12.07, SPAC1F12.07, 	L-serine biosynthesis| phosphoserine phosphatase activity| cellular_component unknown
SPBC1677.03c, SPBC1677.03c, 	threonine catabolism| threonine ammonia-lyase activity| cellular_component unknown
SPBC31E1.04, pep12, 	Golgi to vacuole transport| vesicle-mediated transport| SNAP receptor activity| vacuolar membrane
SPAC3G9.06, SPAC3G9.06, 	phenylalanyl-tRNA aminoacylation| phenylalanine-tRNA ligase activity| cytoplasm| phenylalanine-tRNA ligase complex
SPAPB17E12.07c, SPAPB17E12.07c, 	tRNA-intron endonuclease complex| tRNA-intron endonuclease activity| nuclear inner membrane| tRNA splicing
SPBC25B2.09c, SPBC25B2.09c, 	arginyl-tRNA aminoacylation| arginine-tRNA ligase activity| cellular_component unknown
SPCC965.07c, gst2, 	response to oxidative stress| response to drug| glutathione transferase activity| cytoplasm| nucleus
SPBC337.14, rpb4, 	transcription from Pol II promoter| DNA-directed RNA polymerase activity| DNA-directed RNA polymerase II\, holoenzyme
SPBP23A10.08, alp5, 	establishment and/or maintenance of chromatin architecture| nucleus| regulation of mitosis
SPBC1773.10c, SPBC1773.10c, 	asparaginyl-tRNA aminoacylation| asparagine-tRNA ligase activity| cytoplasm
SPACUNK4.06c, rpb7, SPAPYUK71.02	transcription from Pol II promoter| DNA-directed RNA polymerase activity| DNA-directed RNA polymerase II\, holoenzyme
SPAC4G8.13c, prz1, 	calcium ion homeostasis| chloride ion homeostasis| calcium-mediated signaling| transcription regulator activity| nucleus| cytoplasm
SPBC1604.05, pgi1, 	gluconeogenesis| glycolysis| pentose-phosphate shunt| glucose-6-phosphate isomerase activity| cytosol
SPAC17A5.15c, SPAC17A5.15c, 	glutamyl-tRNA aminoacylation| glutamate-tRNA ligase activity| cellular_component unknown
SPAC26F1.13c, SPAC26F1.13c, 	leucyl-tRNA aminoacylation| leucine-tRNA ligase activity| cytoplasm
SPBC2F12.09c, atf21, 	regulation of meiosis| regulation of transcription from Pol II promoter| transcription factor activity| nucleus
SPCC1020.04c, rpb6, rpo15	DNA-directed RNA polymerase activity| DNA-directed RNA polymerase I complex| DNA-directed RNA polymerase II\, holoenzyme| DNA-directed RNA polymerase III complex| RNA elongation
SPBC1271.14, SPBC1271.14, 	ornithine biosynthesis| arginine biosynthesis| glutamate N-acetyltransferase activity| mitochondrial matrix
SPAPB1A10.11c, SPAPB1A10.11c, 	glutamyl-tRNA aminoacylation| glutamate-tRNA ligase activity| mitochondrion
SPAC27E2.06c, SPAC27E2.06c, 	methionyl-tRNA aminoacylation| methionine-tRNA ligase activity| mitochondrion
SPBC17A3.04c, SPBC17A3.04c, 	methionyl-tRNA aminoacylation| methionine-tRNA ligase activity| cytoplasm
SPBC3E7.02c, hsp16, 	heat shock protein activity
SPAC3G9.13c, SPAC3G9.13c, 	tryptophanyl-tRNA aminoacylation| tryptophan-tRNA ligase activity| mitochondrion
SPAC3A12.18, zwf1, SPAC9.01	pentose-phosphate shunt\, oxidative branch| glucose 6-phosphate utilization| glucose-6-phosphate 1-dehydrogenase activity| cytoplasm
SPBP19A11.01, SPBP19A11.01, 	glycine catabolism| glycine metabolism| glycine cleavage complex| mitochondrion
SPBC3H7.07c, SPBC3H7.07c, 	L-serine biosynthesis| phosphoserine phosphatase activity
SPBC4C3.03, SPBC4C3.03, 	threonine biosynthesis| methionine metabolism| homoserine catabolism| homoserine kinase activity| cellular_component unknown
SPCC330.12c, sdh3, 	tricarboxylic acid cycle| mitochondrial electron transport\, succinate to ubiquinone| succinate metabolism| succinate dehydrogenase (ubiquinone) activity| respiratory chain complex II (sensu Eukarya)
SPAC23C11.09, SPAC23C11.09, 	alanyl-tRNA aminoacylation| alanine-tRNA ligase activity| cytoplasm
SPBC215.08c, arg4, 	arginine biosynthesis| glutamate catabolism| carbamoyl-phosphate synthase (glutamine-hydrolyzing) activity| cytosol
SPAP27G11.15, slx1, 	endonuclease activity\, active with either ribo- or deoxyribonucleic acids and producing 3'-phosphomonoesters| nucleotide-excision repair\, DNA incision\, 3'-to lesion| recombination within rDNA repeats| rDNA maintenance
SPCC1235.04c, SPCC1235.04c, 	FMN metabolism| mitochondrion| FAD biosynthesis| FMN adenylyltransferase activity
SPCC737.06c, SPCC737.06c, 	glutathione biosynthesis| aldo-keto reductase activity| cellular_component unknown
SPCC191.09c, gst1, 	response to oxidative stress| response to drug| glutathione transferase activity| cytoplasm| nucleus
SPAC6F12.03c, fsv1, 	Golgi to vacuole transport| SNAP receptor activity| sporulation| endocytosis| vacuole fusion\, non-autophagic
SPCC16C4.10, SPCC16C4.10, 	pentose-phosphate shunt\, oxidative branch| 6-phosphogluconolactonase activity| cytoplasm
SPAC24C9.12c, SPAC24C9.12c, 	glycine metabolism| L-serine metabolism| one-carbon compound metabolism| glycine hydroxymethyltransferase activity| cytoplasm
SPAC4A8.08c, SPAC4A8.08c, 	valyl-tRNA aminoacylation| valine-tRNA ligase activity| cellular_component unknown
SPCC777.09c, arg1, 	ornithine biosynthesis| arginine biosynthesis via ornithine| glutamate catabolism| acetylornithine transaminase activity| mitochondrial matrix
SPAC4G9.09c, arg11, 	arginine biosynthesis| ornithine biosynthesis| N-acetyl-gamma-glutamyl-phosphate reductase activity| acetylglutamate kinase activity| mitochondrion
SPCC736.03c, SPCC736.03c, 	phenylalanyl-tRNA aminoacylation| phenylalanine-tRNA ligase activity| mitochondrion
SPBC28F2.12, rpb1, 	transcription from Pol II promoter| DNA-directed RNA polymerase activity| DNA binding| DNA-directed RNA polymerase II\, core complex
SPBC25H2.02, ths1, 	threonyl-tRNA aminoacylation| threonine-tRNA ligase activity| cytoplasm
SPBC2G2.12, SPBC2G2.12, 	histidyl-tRNA aminoacylation| histidine-tRNA ligase activity| cytoplasm| mitochondrion
SPBC19F5.04, SPBC19F5.04, 	threonine biosynthesis| methionine metabolism| aspartate kinase activity| cellular_component unknown
SPBC776.14, plh1, 	phospholipid\:diacylglycerol acyltransferase activity| triacylglycerol biosynthesis| diacylglycerol metabolism| lipid storage
SPBC17G9.03c, SPBC17G9.03c, 	lysyl-tRNA aminoacylation| lysine-tRNA ligase activity| cytoplasm
SPAC4G8.09, SPAC4G8.09, 	leucyl-tRNA aminoacylation| leucine-tRNA ligase activity| mitochondrion
SPCC18B5.08c, SPCC18B5.08c, 	isoleucyl-tRNA aminoacylation| isoleucine-tRNA ligase activity| mitochondrion
SPAC3C7.13c, SPAC3C7.13c, 	pentose-phosphate shunt\, oxidative branch| glucose 6-phosphate utilization| glucose-6-phosphate 1-dehydrogenase activity| cytoplasm
SPAC1B3.12c, rpb10, 	transcription from Pol I promoter| transcription from Pol II promoter| transcription from Pol III promoter| DNA-directed RNA polymerase activity| DNA-directed RNA polymerase I complex| DNA-directed RNA polymerase II\, holoenzyme| DNA-directed RNA polymerase III complex
SPBC14C8.12, rpb8, 	transcription from Pol I promoter| transcription from Pol II promoter| transcription from Pol III promoter| DNA-directed RNA polymerase activity| DNA-directed RNA polymerase I complex| DNA-directed RNA polymerase II\, holoenzyme| DNA-directed RNA polymerase III complex
SPCC613.09, SPCC613.09, 	tRNA-intron endonuclease complex| tRNA-intron endonuclease activity| nuclear inner membrane| tRNA splicing
SPAC2F7.13c, SPAC2F7.13c, 	tryptophanyl-tRNA aminoacylation| tryptophan-tRNA ligase activity| cytoplasm
SPAC22F3.03c, rdh54, 	double-strand break repair via homologous recombination| meiotic recombination| ATP-dependent DNA helicase activity| nucleus
SPAC22F3.10c, gcs1, 	glutathione biosynthesis| response to cadmium ion| glutamate-cysteine ligase activity| intracellular
SPAC23A1.14c, SPAC23A1.14c, 	cysteine metabolism| methionine biosynthesis from homoserine via O-succinyl-L-homoserine and cystathione| cystathionine gamma-synthase activity| cellular_component unknown
SPBC16G5.02c, SPBC16G5.02c, 	D-ribose metabolism| ribokinase activity| cellular_component unknown
SPCC794.01c, SPCC794.01c, 	pentose-phosphate shunt\, oxidative branch| glucose 6-phosphate utilization| glucose-6-phosphate 1-dehydrogenase activity| cytoplasm
SPCC1672.05c, SPCC1672.05c, 	tyrosyl-tRNA aminoacylation| tyrosine-tRNA ligase activity| cytoplasm| nucleus
SPAC29A4.15, SPAC29A4.15, 	seryl-tRNA aminoacylation| serine-tRNA ligase activity| cytoplasm
SPBC3H7.03c, SPBC3H7.03c, 	2-oxoglutarate metabolism| tricarboxylic acid cycle| oxoglutarate dehydrogenase (succinyl-transferring) activity| oxoglutarate dehydrogenase complex (sensu Eukarya)
SPAC959.10, SPAC959.10, 	tRNA-intron endonuclease complex| tRNA-intron endonuclease activity| nuclear inner membrane| tRNA splicing
SPCC320.14, SPCC320.14, SPCC330.15c	threonine catabolism| threo-3-hydroxyaspartate ammonia-lyase activity| cellular_component unknown
SPAC31G5.05c, SPAC31G5.05c, 	pentose-phosphate shunt\, non-oxidative branch| ribulose-phosphate 3-epimerase activity| cytosol
SPAC343.05, vma1, 	endocytosis| vacuolar acidification
SPAC23G3.01, rpb2, SPAC521.06	transcription from Pol II promoter| DNA-directed RNA polymerase activity| DNA binding| RNA binding| DNA-directed RNA polymerase II\, core complex
SPBP23A10.16, SPBP23A10.16, 	mitochondrial electron transport\, succinate to ubiquinone| protein-membrane targeting| protein-mitochondrial targeting| protein binding| mitochondrial inner membrane
SPCC18.08, SPCC18.08, 	lysyl-tRNA aminoacylation| lysine-tRNA ligase activity| mitochondrion
SPAC23A1.12c, SPAC23A1.12c, 	phenylalanyl-tRNA aminoacylation| phenylalanine-tRNA ligase activity| cytoplasm| phenylalanine-tRNA ligase complex
SPBC2G5.05, SPBC2G5.05, 	pentose-phosphate shunt\, non-oxidative branch| transketolase activity| cytoplasm
SPAC688.06c, slx4, 	nucleotide-excision repair\, DNA incision\, 3'-to lesion
SPAC3F10.03, SPAC3F10.03, 	glycyl-tRNA aminoacylation| glycine-tRNA ligase activity| cytoplasm| mitochondrion
SPCC550.10, meu8, 	betaine biosynthesis from choline| meiosis| betaine-aldehyde dehydrogenase activity| mitochondrial matrix
SPAC16E8.17c, SPAC16E8.17c, 	succinyl-CoA metabolism| tricarboxylic acid cycle| succinate-CoA ligase activity| mitochondrial matrix
SPAC57A10.12c, ura3, 	pyrimidine base biosynthesis| dihydroorotate dehydrogenase activity| mitochondrion
SPAC13G6.06c, SPAC13G6.06c, 	glycine metabolism| glycine dehydrogenase (decarboxylating) activity| glycine cleavage complex| mitochondrion
SPBC1709.02c, SPBC1709.02c, SPBC1734.18c	valyl-tRNA aminoacylation| valine-tRNA ligase activity| cellular_component unknown
SPCC1442.10c, rpb3, 	transcription from Pol II promoter| DNA-directed RNA polymerase activity| DNA binding| DNA-directed RNA polymerase II\, core complex
SPCC622.16c, epe1, 	establishment and/or maintenance of chromatin architecture
SPAC1039.08, SPAC1039.08, 	cysteine biosynthesis from serine| serine O-acetyltransferase activity| cellular_component unknown
SPAC140.01, sdh2, 	tricarboxylic acid cycle| mitochondrial electron transport\, succinate to ubiquinone| succinate dehydrogenase (ubiquinone) activity| respiratory chain complex II (sensu Eukarya)
SPAC25B8.03, SPAC25B8.03, 	phosphatidylcholine biosynthesis| phosphatidylserine decarboxylase activity| mitochondrial inner membrane
SPCC1183.06, ung1, 	DNA N-glycosylase activity
SPBC26H8.03, cho2, 	phosphatidylcholine biosynthesis| phosphatidylethanolamine N-methyltransferase activity| endoplasmic reticulum membrane
SPCC1620.08, SPCC1620.08, 	succinyl-CoA metabolism| tricarboxylic acid cycle| succinate-CoA ligase activity| mitochondrial matrix
SPCC1827.06c, SPCC1827.06c, 	threonine biosynthesis| methionine metabolism| aspartate-semialdehyde dehydrogenase activity| cellular_component unknown
SPAC16.03c, ura2, 	pyrimidine nucleotide biosynthesis| dihydroorotase activity| cellular_component unknown
SPBC19C7.07c, SPBC19C7.07c, 	tRNA-intron endonuclease complex| tRNA-intron endonuclease activity| nuclear inner membrane| tRNA splicing
SPBC32F12.10, SPBC32F12.10, 	glucose 1-phosphate utilization| glucose 6-phosphate utilization| phosphoglucomutase activity| cytosol
SPCC1020.06c, tal1, 	pentose-phosphate shunt\, non-oxidative branch| transaldolase activity| cytoplasm
SPBC56F2.09c, arg5, 	arginine biosynthesis| glutamate catabolism| carbamoyl-phosphate synthase (glutamine-hydrolyzing) activity| cytosol
SPAC9E9.06c, SPAC9E9.06c, 	threonine biosynthesis| threonine synthase activity| cellular_component unknown
SPAC6G10.08, idp1, 	isocitrate metabolism| glutamate metabolism| tricarboxylic acid cycle| isocitrate dehydrogenase (NADP+) activity| mitochondrion
SPCC1442.12, SPCC1442.12, 	CDP-diacylglycerol-serine O-phosphatidyltransferase activity| endoplasmic reticulum membrane
SPBC19C2.03, rpc10, rpb12	transcription from Pol I promoter| transcription from Pol II promoter| transcription from Pol III promoter| DNA-directed RNA polymerase activity| DNA-directed RNA polymerase I complex| DNA-directed RNA polymerase II\, core complex| DNA-directed RNA polymerase III complex
SPBC15D4.09c, SPBC15D4.09c, 	cysteine metabolism| methionine biosynthesis from homoserine via O-succinyl-L-homoserine and cystathione| cystathionine gamma-synthase activity| cellular_component unknown
SPCC70.03c, SPCC70.03c, 	proline catabolism| glutamate biosynthesis| proline dehydrogenase activity
SPAC23H3.09c, gly1, 	glycine biosynthesis| threonine catabolism| threonine aldolase activity| glycine metabolism
SPCC1235.15, dga1, SPCC548.01	diacylglycerol O-acyltransferase activity| triacylglycerol biosynthesis| diacylglycerol metabolism| lipid storage
SPCC11E10.01, SPCC11E10.01, SPCC61.06	methionine biosynthesis from L-homoserine via cystathione| cystathionine beta-lyase activity| peroxisome
SPAC22G7.06c, ura1, 	transferase activity\, transferring pentosyl groups| glutamate metabolism| pyrimidine base biosynthesis| aspartate metabolism| carbamoyl-phosphate synthase (glutamine-hydrolyzing) activity| aspartate carbamoyltransferase activity| dihydroorotase activity| cytoplasm
SPAC24C9.09, SPAC24C9.09, 	threonyl-tRNA aminoacylation| threonine-tRNA ligase activity| mitochondrion
SPAC1556.02c, sdh1, 	tricarboxylic acid cycle| mitochondrial electron transport\, succinate to ubiquinone| succinate metabolism| succinate dehydrogenase (ubiquinone) activity| respiratory chain complex II (sensu Eukarya)
SPBC660.16, SPBC660.16, 	pentose-phosphate shunt\, oxidative branch| glucose metabolism| phosphogluconate dehydrogenase (decarboxylating) activity| cytoplasm
SPCC622.12c, SPCC622.12c, 	glutamate biosynthesis\, using glutamate dehydrogenase (NAD(P)+)| nitrogen metabolism| glutamate dehydrogenase (NADP+) activity
SPAC18G6.04c, shm2, 	glycine metabolism| L-serine metabolism| one-carbon compound metabolism| glycine hydroxymethyltransferase activity| mitochondrion
SPCC417.11c, SPCC417.11c, 	transaminase activity| biological_process unknown| cellular_component unknown
SPBC342.02, SPBC342.02, 	glutaminyl-tRNA aminoacylation| glutamine-tRNA ligase activity| cytoplasm
SPBC30D10.13c, pdb1, 	acetyl-CoA biosynthesis from pyruvate| pyruvate dehydrogenase (acetyl-transferring) activity| pyruvate dehydrogenase complex (sensu Eukarya)| mitochondrion
SPBC725.14, SPBC725.14, 	ornithine biosynthesis| arginine biosynthesis| glutamate catabolism| amino-acid N-acetyltransferase activity| mitochondrial matrix
SPBP35G2.03c, sgo1, 	mitotic chromosome segregation| meiosis II\, chromosome segregation| meiosis I\, chromosome segregation| nucleus| kinetochore
SPBC19C7.06, SPBC19C7.06, 	prolyl-tRNA aminoacylation| proline-tRNA ligase activity| cellular_component unknown
SPBC902.05c, idh2, glu2	tricarboxylic acid cycle| isocitrate metabolism| glutamate biosynthesis| isocitrate dehydrogenase (NAD+) activity| mitochondrial matrix
SPCC1223.07c, SPCC1223.07c, 	aspartyl-tRNA aminoacylation| aspartate-tRNA ligase activity| cytoplasm
SPAC23C4.15, rpb5, 	transcription from Pol I promoter| transcription from Pol II promoter| transcription from Pol III promoter| DNA-directed RNA polymerase activity| DNA-directed RNA polymerase I complex| DNA-directed RNA polymerase II\, holoenzyme| DNA-directed RNA polymerase III complex
SPBC8D2.06, SPBC8D2.06, 	isoleucyl-tRNA aminoacylation| isoleucine-tRNA ligase activity| cytosol
SPCC364.07, SPCC364.07, SPCC4G3.01	L-serine biosynthesis| phosphoglycerate dehydrogenase activity| cellular_component unknown
SPAC6C3.04, cit1, 	tricarboxylic acid cycle| citrate metabolism| citrate (Si)-synthase activity| mitochondrion
SPCC736.06, SPCC736.06, 	aspartyl-tRNA aminoacylation| aspartate-tRNA ligase activity| mitochondrion
SPBC337.16, cho1, 	phosphatidylcholine biosynthesis| phosphatidyl-N-methylethanolamine N-methyltransferase activity| endoplasmic reticulum membrane
SPCC1450.13c, SPCC1450.13c, 	vitamin B2 and derivative metabolism| riboflavin synthase activity
SPAC24C9.06c, SPAC24C9.06c, 	citrate metabolism| glutamate metabolism| propionate metabolism| tricarboxylic acid cycle| aconitate hydratase activity| cytosol| mitochondrial matrix
SPBC29A10.14, rec8, 	cohesin complex
SPBC24C6.03, SPBC24C6.03, 	prolyl-tRNA aminoacylation| proline-tRNA ligase activity| cellular_component unknown
SPAC15A10.15, sgo2, 	kinetochore| mitotic chromosome segregation| meiosis I\, chromosome segregation
SPCC576.06c, SPCC576.06c, 	tyrosyl-tRNA aminoacylation| tyrosine-tRNA ligase activity| mitochondrion
SPBC16E9.18, SPBC16E9.18, SPBC1E8.01	phosphatidylcholine biosynthesis| phosphatidylserine decarboxylase activity| mitochondrial inner membrane
SPBC1703.07, SPBC1703.07, 	tricarboxylic acid cycle| citrate metabolism| ATP catabolism| acetyl-CoA biosynthesis| fatty acid biosynthesis| ATP citrate synthase activity| cytoplasm
SPBC19C2.07, fba1, 	glycolysis| fructose-bisphosphate aldolase activity| cytoplasm
SPCC1259.09c, SPCC1259.09c, 	acetyl-CoA biosynthesis from pyruvate| mitochondrion| pyruvate dehydrogenase complex (sensu Eukarya)
SPAPYUG7.04c, rpb9, 	transcription from Pol II promoter| DNA-directed RNA polymerase activity| DNA-directed RNA polymerase II\, holoenzyme
SPAC22A12.16, SPAC22A12.16, 	tricarboxylic acid cycle| citrate metabolism| ATP catabolism| acetyl-CoA biosynthesis| fatty acid biosynthesis| ATP citrate synthase activity| cytoplasm
SPAC644.11c, SPAC644.11c, 	acetyl-CoA biosynthesis from pyruvate| [pyruvate dehydrogenase (lipoamide)] kinase activity| pyruvate dehydrogenase complex (sensu Eukarya)| mitochondrion
SPCC18.18c, fum1, SPCC290.01c	fumarate metabolism| tricarboxylic acid cycle| fumarate hydratase activity| mitochondrion| cytoplasm
SPAC869.08, pcm2, 	protein-L-isoaspartate (D-aspartate) O-methyltransferase activity| protein modification| cellular_component unknown
SPAC3A12.07, rpb11, 	transcription from Pol II promoter| DNA-directed RNA polymerase activity| DNA binding| DNA-directed RNA polymerase II\, core complex
SPAC31G5.14, gcv1, n313	glycine metabolism| glycine catabolism| glycine cleavage complex| mitochondrion| aminomethyltransferase activity
SPAC688.04c, gst3, 	response to oxidative stress| response to drug| glutathione transferase activity| cytoplasm| glutathione peroxidase activity
SPCC132.04c, SPCC132.04c, 	nitrogen metabolism| glutamate metabolism| glutamate dehydrogenase activity
SPBP18G5.02, SPBP18G5.02, 	phosphatidylglycerol biosynthesis| glycerol-3-phosphate catabolism| CDP-diacylglycerol-glycerol-3-phosphate 3-phosphatidyltransferase activity| mitochondrion
SPAC105.01c, SPAC105.01c, 	potassium\:hydrogen antiporter activity| monovalent inorganic cation transport| plasma membrane| potassium ion homeostasis
SPBC1198.10c, SPBC1198.10c, 	asparaginyl-tRNA aminoacylation| asparagine-tRNA ligase activity| mitochondrion
SPAC2F3.09, SPAC2F3.09, 	glycine metabolism| heme biosynthesis| 5-aminolevulinate synthase activity| mitochondrial matrix
SPCC794.07, SPCC794.07, 	acetyl-CoA biosynthesis from pyruvate| dihydrolipoyllysine-residue acetyltransferase activity| mitochondrion| pyruvate dehydrogenase complex (sensu Eukarya)
SPBC16H5.02, pfk1, 	glycolysis| regulation of cell cycle| 6-phosphofructokinase activity| cytoplasm
SPAC144.12, SPAC144.12, 	pentose-phosphate shunt\, non-oxidative branch| ribose-5-phosphate isomerase activity| cytoplasm
SPCC306.08c, SPCC306.08c, 	malate metabolism| tricarboxylic acid cycle| L-malate dehydrogenase activity| mitochondrion
SPAC29E6.06c, SPAC29E6.06c, SPAC30.10c	cysteinyl-tRNA aminoacylation| cysteine-tRNA ligase activity| cellular_component unknown
SPAC26F1.03, pda1, 	acetyl-CoA biosynthesis from pyruvate| pyruvate dehydrogenase (acetyl-transferring) activity| mitochondrion| pyruvate dehydrogenase complex (sensu Eukarya)
SPAC11G7.03, idh1, glu3	tricarboxylic acid cycle| isocitrate metabolism| glutamate biosynthesis| isocitrate dehydrogenase (NAD+) activity| mitochondrial matrix
SPAC1B3.14, vma3, 	endocytosis| vacuolar acidification
SPAC1002.09c, dld1, dldh	glycine catabolism| isoleucine catabolism| leucine catabolism| L-serine biosynthesis| valine catabolism| G1/S transition of mitotic cell cycle| acetyl-CoA biosynthesis from pyruvate| tricarboxylic acid cycle| 2-oxoglutarate metabolism| dihydrolipoyl dehydrogenase activity| pyruvate dehydrogenase complex (sensu Eukarya)| oxoglutarate dehydrogenase complex (sensu Eukarya)
SPAC25B8.06c, SPAC25B8.06c, 	seryl-tRNA aminoacylation| serine-tRNA ligase activity| cellular_component unknown
SPBC6B1.09c, nbs1, 	Mre11 complex| recombinational repair| telomere maintenance| DNA damage response\, signal transduction resulting in cell cycle arrest
SPAC31G5.15, SPAC31G5.15, 	phosphatidylcholine biosynthesis| phosphatidylserine decarboxylase activity| Golgi membrane| vacuolar membrane (sensu Fungi)
SPBP4H10.15, SPBP4H10.15, 	tricarboxylic acid cycle| citrate metabolism| aconitate hydratase activity| mitochondrion
SPCC5E4.05c, SPCC5E4.05c, 	lipid metabolism
SPCC777.13, vps35, 	intracellular protein transport| cytoplasmic vesicle
SPBC21D10.12, hob1, 	cell cycle| signal transduction| actin cytoskeleton organization and biogenesis| cell organization and biogenesis| actin cytoskeleton| actin cortical patch (sensu Fungi)| cytoskeleton
SPAPB1A10.04c, cwp1, 	carbohydrate metabolism| lipid metabolism| cell organization and biogenesis
SPAC694.06c, mrc1, 	cell cycle checkpoint| DNA replication checkpoint| establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| S phase of mitotic cell cycle| DNA replication| transcription| DNA packaging| cell organization and biogenesis| chromatin silencing| regulation of cell cycle| chromatin
SPBC1683.09c, frp1, 	membrane
SPAC17A2.01, bsu1, SPAC1B1.05, car1	transport| membrane
SPAC2E1P3.01, SPAC2E1P3.01, 	oxidoreductase activity
SPAC1782.09c, clp1, flp1	cell cycle| barrier septum formation| cytokinesis| signal transduction| protein modification| M phase of mitotic cell cycle| G2/M transition of mitotic cell cycle| cell organization and biogenesis| nucleolus| spindle pole body| phosphoprotein phosphatase activity
SPBC1E8.05, SPBC1E8.05, 	cell surface
SPBC14F5.10c, SPBC14F5.10c, 	proteolysis and peptidolysis| ubiquitin ligase complex| ubiquitin-protein ligase activity
SPBC4F6.10, vps901, vps9a	signal transduction| endocytosis| intracellular protein transport
SPAC1687.12c, coq4, 	energy pathways| electron transport| ubiquinone biosynthesis| membrane| mitochondrial inner membrane| mitochondrial membrane| mitochondrion
SPAC1093.06c, dhc1, SPAC30C2.01c	meiosis| cell organization and biogenesis| actin cytoskeleton| cytosol
SPAC139.02c, SPAC139.02c, 	transport| mitochondrial transport| membrane
SPCC757.13, SPCC757.13, 	transport| allantoate transport| membrane
SPAC16E8.15, tif45, tif1	protein biosynthesis
SPAC3F10.15c, spo12, 	MAPKKK cascade| sporulation (sensu Fungi)| protein kinase cascade| regulation of mitosis
SPBC1289.07c, rpc40, rpa42	transcription| DNA-directed RNA polymerase I complex| nucleolus| DNA-directed RNA polymerase III complex| nucleus| DNA-directed RNA polymerase activity
SPBC8D2.02c, SPBC8D2.02c, 	membrane
SPAC2F3.04c, SPAC2F3.04c, 	mitochondrion organization and biogenesis| mitochondrial genome maintenance| cell organization and biogenesis| mitochondrion| DNA binding
SPBC1703.15c, vps33, SPBC2A9.01c	vacuole organization and biogenesis| vacuole fusion\, non-autophagic| ER to Golgi transport| exocytosis| intracellular protein transport| cell organization and biogenesis| vacuolar membrane| membrane| cytoplasmic vesicle| Golgi cis-face| TRAPP
SPAC57A10.02, cdr2, 	traversing start control point of mitotic cell cycle| cell cycle| cytokinesis| signal transduction| protein modification| M phase of mitotic cell cycle| G2/M transition of mitotic cell cycle| protein amino acid phosphorylation| mitotic cell cycle| protein kinase activity
SPBC3B9.02c, cwf28, 	mRNA processing| spliceosome complex
SPAC1635.01, SPAC1635.01, 	transport| anion transport| membrane| mitochondrial outer membrane| mitochondrial membrane
SPAC144.11, rps1102, rps11-2, rps11	protein biosynthesis| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex| cytosolic ribosome (sensu Eukarya)
SPBC646.16, SPBC646.16, 	proteolysis and peptidolysis| proteasome complex (sensu Eukarya)
SPCC16C4.18c, taf50, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| regulation of transcription from Pol II promoter| transcription| DNA packaging| cell organization and biogenesis| transcription factor TFIID complex| SAGA complex| transcription factor complex| chromatin| nucleus| transcription factor activity
SPBC21.07c, SPBC21.07c, 	signal transduction| protein modification| protein amino acid phosphorylation| protein kinase activity
SPAC21E11.05c, cyp8, 	protein folding| ubiquitin ligase complex| ubiquitin-protein ligase activity| peptidyl-prolyl cis-trans isomerase activity
SPBC4F6.16c, SPBC4F6.16c, 	protein folding| endoplasmic reticulum| oxidoreductase activity
SPBC2F12.04, rpl1701, rpl17, rpl17-1	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPAC57A7.08, pzh1, 	cell ion homeostasis| signal transduction| protein modification| plasma membrane| cytoplasm| nucleus| phosphoprotein phosphatase activity| ATPase activity
SPAPB17E12.10c, SPAPB17E12.10c, 	rRNA processing| methyltransferase activity
SPAC17H9.13c, SPAC17H9.13c, 	amino acid metabolism| glutamate metabolism| proline metabolism| glutamate 5-kinase activity
SPAC3C7.05c, SPAC3C7.05c, 	carbohydrate metabolism
SPAC1002.07c, ats1, 	protein modification| acetyltransferase activity
SPAC1B1.01, rdp1, 	regulation of transcription\, DNA-dependent| transcription| nucleus
SPAC29B12.04, snz1, 	coenzyme and prosthetic group metabolism
SPBC1105.11c, h3.3, hht3	establishment and/or maintenance of chromatin architecture| DNA packaging| cell organization and biogenesis| chromatin
SPAC23H3.05c, swd1, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| transcription| DNA packaging| cell organization and biogenesis| chromatin silencing| chromatin remodeling complex| chromatin
SPCC794.12c, mae2, 	carbohydrate catabolism| energy pathways| carbohydrate metabolism| TCA intermediate metabolism| main pathways of carbohydrate metabolism| oxidoreductase activity| malate dehydrogenase (oxaloacetate-decarboxylating) activity
SPCC794.12c, mae2, 	threonine metabolism| methionine metabolism| homoserine dehydrogenase activity| cellular_component unknown| amino acid metabolism| sulfur metabolism| methionine metabolism| threonine metabolism| lysine metabolism| homoserine dehydrogenase activity| oxidoreductase activity
SPBC17D11.01, SPBC17D11.01, 	proteolysis and peptidolysis
SPAC589.12, SPAC589.12, SPAC688.01	membrane
SPAC9E9.07c, ypt2, 	exocytosis| intracellular protein transport
SPAC9G1.06c, cyk3, 	cytokinesis| signal transduction| M phase of mitotic cell cycle| contractile ring (sensu Fungi)
SPAPB2B4.04c, SPAPB2B4.04c, 	transport| cation transport| membrane| vacuole| ATPase activity
SPBC1921.01c, rpl3701, rpl37-1, rpl37	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPCC1739.08c, SPCC1739.08c, 	carbohydrate metabolism| oxidoreductase activity
SPCC965.03, vma8, 	transport| intracellular protein transport| hydrogen transport| cell organization and biogenesis
SPBP22H7.08, rps1002, rps10-2, rps10B	protein biosynthesis| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex| cytosolic ribosome (sensu Eukarya)
SPBC776.11, rpl2801, rpl28-1	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPAC27E2.10c, rfc3, SPAPJ698.01c	cell cycle checkpoint| S phase of mitotic cell cycle| DNA replication| DNA repair| DNA damage response\, signal transduction resulting in cell cycle arrest| regulation of cell cycle| replication fork| ATPase activity
SPBC16D10.06, SPBC16D10.06, 	transport| metal ion transport| membrane
SPBC1683.10c, SPBC1683.10c, 	cell ion homeostasis| membrane
SPBC215.02, bob1, 	conjugation with cellular fusion| protein folding| cell organization and biogenesis| prefoldin complex
SPBC30D10.08, SPBC30D10.08, 	mitochondrion organization and biogenesis| mitochondrial genome maintenance| DNA repair| cell organization and biogenesis| mitochondrion
SPBC1778.09, SPBC1778.09, 	signal transduction
SPAC19E9.02, fin1, 	establishment and/or maintenance of chromatin architecture| spindle assembly| cell cycle| barrier septum formation| cytokinesis| signal transduction| protein modification| M phase of mitotic cell cycle| chromosome condensation| DNA packaging| protein amino acid phosphorylation| cell organization and biogenesis| protein kinase activity
SPCC1682.05c, SPCC1682.05c, 	protein-ER targeting| protein targeting| intracellular protein transport| endoplasmic reticulum| signal recognition particle| signal sequence binding
SPAC31A2.07c, SPAC31A2.07c, 	ribosome biogenesis| cell organization and biogenesis| helicase activity
SPBC27.02c, SPBC27.02c, 	cell cycle| M phase of mitotic cell cycle| chromosome segregation| cell organization and biogenesis| cytoskeleton| spindle pole body| kinetochore| microtubule organizing center| microtubule cytoskeleton
SPBC27.02c, SPBC27.02c, 	2-oxoglutarate metabolism| tricarboxylic acid cycle| dihydrolipoyllysine-residue succinyltransferase activity| oxoglutarate dehydrogenase complex (sensu Eukarya)| carbohydrate catabolism| energy pathways| carbohydrate metabolism| TCA intermediate metabolism| main pathways of carbohydrate metabolism| oxidoreductase activity| dihydrolipoyllysine-residue succinyltransferase activity
SPBC23E6.03c, SPBC23E6.03c, 	nitrogen metabolism
SPAC4G8.05, SPAC4G8.05, 	signal transduction| protein modification| protein amino acid phosphorylation| protein kinase activity
SPAC26H5.12, SPAC26H5.12, 	mitochondrion| DNA-directed RNA polymerase activity
SPBC18E5.13, SPBC18E5.13, SPBC23G7.03	protein biosynthesis| eukaryotic 48S initiation complex
SPBC21B10.03c, SPBC21B10.03c, 	mRNA processing| RNA processing| mRNA polyadenylation
SPAC2F7.08c, SPAC2F7.08c, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| transcription| DNA packaging| cell organization and biogenesis| chromatin| SWI/SNF complex
SPAC18B11.08c, SPAC18B11.08c, 	membrane
SPAC222.11, SPAC222.11, 	coenzyme and prosthetic group metabolism| coproporphyrinogen oxidase activity
SPAC227.11c, SPAC227.11c, 	ER to Golgi transport| intracellular protein transport| endoplasmic reticulum| membrane| cytoplasmic vesicle| cell surface| Golgi apparatus
SPAC2F3.13c, SPAC2F3.13c, 	tRNA metabolism| queuine tRNA-ribosyltransferase activity
SPBC13A2.03, SPBC13A2.03, 	signal transduction| phosphatidate cytidylyltransferase activity
SPAC57A10.08c, SPAC57A10.08c, 	lipid metabolism
SPBC115.03, SPBC115.03, SPBC839.18c	oxidoreductase activity
SPAC1D4.11c, lkh1, kic1	response to stress| cytokinesis| conjugation with cellular fusion| signal transduction| protein modification| M phase of mitotic cell cycle| protein amino acid phosphorylation| cell organization and biogenesis| protein kinase activity
SPBC2G2.08, ade9, 	coenzyme and prosthetic group metabolism| purine nucleotide metabolism| mitochondrion| formate-tetrahydrofolate ligase activity| oxidoreductase activity
SPAC13A11.06, SPAC13A11.06, SPAC3H8.01	pyruvate metabolism| pyruvate decarboxylase activity
SPAC2H10.01, SPAC2H10.01, 	regulation of transcription\, DNA-dependent| transcription| transcription regulator activity
SPAC3A12.15, vps53, 	intracellular protein transport
SPAC823.03, SPAC823.03, 	signal transduction| protein modification| protein amino acid phosphorylation| protein kinase activity
SPAC110.02, pds5, 	cell cycle| S phase of mitotic cell cycle| response to stress| DNA repair| sister chromatid cohesion| chromosome segregation| cell organization and biogenesis| nucleus
SPBC1198.07c, SPBC1198.07c, 	cytoskeleton organization and biogenesis| establishment and/or maintenance of cell polarity
SPCC4B3.15, dmf1, mid1	barrier septum formation| cytokinesis| signal transduction| M phase of mitotic cell cycle
SPBC29A3.03c, SPBC29A3.03c, 	cell organization and biogenesis| cytoskeleton| ubiquitin ligase complex| microtubule organizing center| microtubule cytoskeleton| ubiquitin-protein ligase activity
SPAC17C9.01c, nuc2, SPAC1851.01	cell cycle| barrier septum formation| response to stress| cytokinesis| M phase of mitotic cell cycle| anaphase-promoting complex| ubiquitin ligase complex| nucleus
SPBC800.05c, tub1, atb2, alp2, ban5	mitochondrion organization and biogenesis| cytoskeleton organization and biogenesis| microtubule-based process| chromosome segregation| cell organization and biogenesis| microtubule cytoskeleton organization and biogenesis| establishment and/or maintenance of cell polarity| microtubule| cytoskeleton| microtubule organizing center| microtubule cytoskeleton
SPBC21C3.11, SPBC21C3.11, 	nucleus
SPBC27B12.03c, SPBC27B12.03c, 	ergosterol biosynthesis| lipid metabolism| membrane| lathosterol oxidase activity
SPAC750.04c, SPAC750.04c, SPAC1348.03	membrane
SPBC660.10, SPBC660.10, 	mitochondrion
SPAC31G5.16c, dpm1, 	N-linked glycosylation| protein modification| carbohydrate metabolism| GPI anchor biosynthesis| endoplasmic reticulum| dolichyl-phosphate beta-D-mannosyltransferase activity
SPAC1B3.13, SPAC1B3.13, 	rRNA processing| regulation of transcription\, DNA-dependent| transcription| RNA processing| nucleolus
SPBC1347.13c, SPBC1347.13c, 	RNA processing| methyltransferase activity
SPAC17H9.03c, SPAC17H9.03c, 	DNA repair
SPAC17H9.03c, SPAC17H9.03c, 	L-serine biosynthesis| phosphoserine phosphatase activity| cellular_component unknown| amino acid metabolism| L-serine metabolism| phosphoserine transaminase activity
SPBC29A3.10c, SPBC29A3.10c, 	mitochondrial inner membrane| mitochondrial membrane| ATPase activity
SPBC17A3.05c, SPBC17A3.05c, 	protein folding
SPAC23C4.19, spt5, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| regulation of transcription from Pol II promoter| transcription| RNA processing| DNA packaging| cell organization and biogenesis| chromatin
SPBC1718.07c, zfs1, 	cell cycle| signal transduction| M phase of mitotic cell cycle
SPAC227.01c, SPAC227.01c, SPAPB21F2.04c	intracellular protein transport| membrane| cell surface
SPAP8A3.09c, paa1, 	cell wall organization and biogenesis| cytokinesis| M phase of mitotic cell cycle| cell wall biosynthesis| cell organization and biogenesis
SPAC1783.08c, rpl1502, rpl15-2	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPCC1393.10, ctr4, 	transport| metal ion transport| cytoplasmic vesicle
SPCC24B10.09, rps1702, rps17-2, rps17	protein biosynthesis| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex| cytosolic ribosome (sensu Eukarya)
SPAC27F1.07, SPAC27F1.07, 	N-linked glycosylation| protein modification| endoplasmic reticulum| membrane| cell surface| dolichyl-diphosphooligosaccharide-protein glycotransferase activity
SPAC27F1.07, SPAC27F1.07, 	threonine catabolism| threonine ammonia-lyase activity| cellular_component unknown| amino acid metabolism| threonine metabolism| threonine ammonia-lyase activity
SPAC323.07c, SPAC323.07c, 	transport| membrane
SPBC1604.15, SPBC1604.15, 	GPI anchor biosynthesis
SPAC11G7.05c, SPAC11G7.05c, 	fatty acid biosynthesis| [acyl-carrier protein] S-malonyltransferase activity
SPBC17A3.01c, SPBC17A3.01c, SPBC8D2.21c	mitochondrial matrix protein import| mitochondrial inner membrane| mitochondrial membrane
SPCC1795.08c, SPCC1795.08c, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| transcription| DNA packaging| cell organization and biogenesis| chromatin| nucleus| DNA binding
SPAC3F10.16c, SPAC3F10.16c, 	ribosome biogenesis| cell organization and biogenesis| cytoplasm| GTPase activity
SPCC24B10.08c, SPCC24B10.08c, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| protein modification| transcription| DNA packaging| cell organization and biogenesis| chromatin| nucleus| acetyltransferase activity
SPAC959.04c, SPAC959.04c, 	protein amino acid glycosylation| protein modification| carbohydrate metabolism
SPCC11E10.07c, SPCC11E10.07c, 	protein biosynthesis| eukaryotic translation initiation factor 2B complex| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex
SPCC4B3.18, SPCC4B3.18, 	energy pathways| lipid metabolism| coenzyme and prosthetic group metabolism
SPAC24C9.15c, spn5, mde9, meu28	meiosis| cytokinesis| M phase of mitotic cell cycle| GTP binding
SPAC8F11.04, SPAC8F11.04, 	rRNA processing| RNA processing
SPBC1348.09, SPBC1348.09, SPAC1348.09	oxidoreductase activity
SPAC32A11.03c, SPAC32A11.03c, 	regulation of transcription\, DNA-dependent| transcription| nucleus| DNA binding
SPAC17A2.12, SPAC17A2.12, 	establishment and/or maintenance of chromatin architecture| DNA repair| DNA packaging| cell organization and biogenesis| chromatin remodeling complex| chromatin| ubiquitin ligase complex| helicase activity| ubiquitin-protein ligase activity| ATPase activity
SPBC29A10.13, atp7, 	hydrogen transport| mitochondrial inner membrane| proton-transporting ATP synthase complex (sensu Eukarya)| mitochondrion| ATPase activity
SPAC3A11.12c, rpt5, pam2, tbp1	MAPKKK cascade| meiosis| protein kinase cascade| signal transduction| proteolysis and peptidolysis| proteasome complex (sensu Eukarya)| ATPase activity
SPBC14C8.10, SPBC14C8.10, 	protein biosynthesis| mitochondrial ribosome
SPBC12C2.07c, SPBC12C2.07c, 	cell organization and biogenesis| spermidine synthase activity
SPCC338.07c, SPCC338.07c, 	protein modification| acetyltransferase activity
SPAC637.03, SPAC637.03, 	membrane
SPAC637.03, SPAC637.03, 	Golgi to vacuole transport| vesicle-mediated transport| SNAP receptor activity| vacuolar membrane| vesicle-mediated transport| intracellular protein transport| cytoplasmic vesicle
SPBC2D10.08c, SPBC2D10.08c, 	protein biosynthesis| mitochondrial ribosome
SPBC83.17, SPBC83.17, 	regulation of transcription\, DNA-dependent| transcription| nucleus
SPAC24H6.09, gef1, 	cytoskeleton organization and biogenesis| cell cycle| barrier septum formation| signal transduction| establishment and/or maintenance of cell polarity| septum
SPAC222.12c, atp2, 	hydrogen transport| mitochondrial inner membrane| proton-transporting ATP synthase complex (sensu Eukarya)| mitochondrion| ATPase activity
SPAC222.12c, atp2, 	phenylalanyl-tRNA aminoacylation| phenylalanine-tRNA ligase activity| cytoplasm| phenylalanine-tRNA ligase complex| tRNA metabolism| cytoplasm| phenylalanine-tRNA ligase activity
SPAC222.12c, atp2, 	tRNA-intron endonuclease complex| tRNA-intron endonuclease activity| nuclear inner membrane| tRNA splicing| tRNA metabolism| tRNA splicing
SPCC338.16, pof3, 	telomere maintenance| proteolysis and peptidolysis| cell organization and biogenesis| ubiquitin ligase complex
SPACUNK4.16c, SPACUNK4.16c, 	protein modification| carbohydrate metabolism
SPACUNK4.16c, SPACUNK4.16c, 	arginyl-tRNA aminoacylation| arginine-tRNA ligase activity| cellular_component unknown| tRNA metabolism| arginine-tRNA ligase activity
SPBC409.18, SPBC409.18, 	phosphate metabolism| membrane
SPAC12G12.15, sif3, 	cell cycle| cell organization and biogenesis| membrane| spindle pole body
SPAC1486.08, SPAC1486.08, 	energy pathways| electron transport| cell organization and biogenesis
SPBC336.11, SPBC336.11, 	cell organization and biogenesis| actin cytoskeleton| cytoskeleton
SPAC3C7.12, noc1, tip1	cytoskeleton organization and biogenesis| microtubule-based process| response to stress| actin cytoskeleton organization and biogenesis| chromosome segregation| cell organization and biogenesis| establishment and/or maintenance of cell polarity| actin cytoskeleton| microtubule| cytoskeleton| microtubule organizing center| microtubule cytoskeleton
SPAC1D4.01, SPAC1D4.01, SPAC1F3.11	nucleus
SPBC20F10.03, SPBC20F10.03, 	signal transduction
SPBP8B7.23, SPBP8B7.23, 	ubiquitin ligase complex| nucleus| ubiquitin-protein ligase activity
SPAC1420.03, rpn501, rpn5-a	proteolysis and peptidolysis| cell organization and biogenesis| proteasome complex (sensu Eukarya)| ATPase activity
SPAC17G6.09, sec62, 	protein-ER targeting| protein targeting| intracellular protein transport| endoplasmic reticulum| signal recognition particle| signal sequence binding
SPBC9B6.07, SPBC9B6.07, 	rRNA processing| RNA processing
SPAC977.07c, SPAC977.07c, 	cell surface
SPBC1734.14c, suc1, 	regulation of cyclin dependent protein kinase activity| cell cycle| regulation of mitosis| regulation of mitotic cell cycle| M/G1 transition of mitotic cell cycle| mitotic cell cycle| cyclin catabolism
SPBC839.04, rpl803, rpl8-3, rpk5-b, rpkD4	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPBC12D12.03, cct1, 	microtubule-based process| protein folding| tubulin folding| cell organization and biogenesis| actin cytoskeleton| cytoskeleton| chaperonin-containing T-complex| microtubule organizing center| microtubule cytoskeleton| chaperone activity
SPAC2F3.06c, kap104, 	nucleocytoplasmic transport| protein targeting| nucleus| nuclear pore
SPCC1682.01, qcr9, 	energy pathways| electron transport| membrane| mitochondrial inner membrane| mitochondrial membrane| mitochondrion| ubiquinol-cytochrome-c reductase activity
SPBPB8B6.03, SPBPB8B6.03, SPAPB8B6.03	amidase activity
SPBPB8B6.03, SPBPB8B6.03, SPAPB8B6.03	response to oxidative stress| response to drug| glutathione transferase activity| cytoplasm| nucleus| response to stress| glutathione transferase activity
SPAC14C4.13, rad17, 	cell cycle checkpoint| DNA replication checkpoint| S phase of mitotic cell cycle| DNA replication| DNA repair| DNA damage response\, signal transduction resulting in cell cycle arrest| double-strand break repair| regulation of cell cycle
SPAC890.06, SPAC890.06, 	nucleocytoplasmic transport| protein targeting| nucleus| nuclear pore
SPAC8C9.14, prr1, 	regulation of transcription\, DNA-dependent| response to stress| conjugation with cellular fusion| signal transduction| transcription| nucleus
SPBPB2B2.14c, SPBPB2B2.14c, 	membrane| cell surface
SPAC323.06c, uba5, 	proteolysis and peptidolysis
SPCPB1C11.01, SPCPB1C11.01, 	transport| membrane
SPAC227.04, SPAC227.04, 	response to stress
SPBC9B6.09c, SPBC9B6.09c, 	transport
SPAC56F8.09, SPAC56F8.09, 	rRNA processing| RNA processing| nucleolus| methyltransferase activity
SPAC4A8.15c, cdc3, 	cytokinesis| M phase of mitotic cell cycle| chromosome condensation| cell organization and biogenesis| contractile ring (sensu Fungi)| actin cytoskeleton| cytoskeleton
SPAC139.01c, SPAC139.01c, SPAC955.02c	DNA repair| nucleotide-excision repair| nucleotide excision repair complex
SPAC23D3.07, SPAC23D3.07, 	proteolysis and peptidolysis| proteasome complex (sensu Eukarya)
SPAC1071.08, rpp203, rpp2-3, rla6	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPCC330.11, SPCC330.11, 	proteolysis and peptidolysis| cell organization and biogenesis
SPCC830.07c, psi1, psi	protein folding| protein biosynthesis
SPBC23E6.08, sat1, 	response to stress
SPAC31A2.12, SPAC31A2.12, 	signal transduction| ubiquitin ligase complex
SPAC21E11.07, SPAC21E11.07, SPAC2C4.01	regulation of transcription\, DNA-dependent| transcription| CCR4-NOT core complex
SPCC1259.12c, SPCC1259.12c, 	signal transduction
SPBP23A10.15c, qcr1, mas1	energy pathways| electron transport| proteolysis and peptidolysis| membrane| mitochondrial inner membrane| mitochondrial membrane| mitochondrion| mitochondrial processing peptidase activity
SPBC15D4.15, pho2, 	phosphate metabolism| 4-nitrophenylphosphatase activity
SPBC336.06c, rnh1, 	ribonuclease H activity
SPAC1039.01, SPAC1039.01, 	transport| amino acid transport| membrane
SPAC22H10.07, scd2, ral3	cytoskeleton organization and biogenesis| sporulation (sensu Fungi)| conjugation with cellular fusion| signal transduction| cell organization and biogenesis| establishment and/or maintenance of cell polarity
SPCC162.06c, SPCC162.06c, 	intracellular protein transport
SPAC821.06, spn2, 	cytokinesis| M phase of mitotic cell cycle| GTP binding
SPBC2D10.12, rhp23, 	cell cycle| DNA repair| nucleotide-excision repair| protein modification| nucleotide excision repair complex
SPAC23H4.04, SPAC23H4.04, 	tRNA metabolism| tRNA (5-methylaminomethyl-2-thiouridylate)-methyltransferase activity| methyltransferase activity
SPAC4A8.05c, myp2, myo3	cytokinesis| M phase of mitotic cell cycle| chromosome condensation| cell organization and biogenesis| contractile ring (sensu Fungi)| actin cytoskeleton| cytoskeleton
SPCC417.10, SPCC417.10, 	transport| allantoate transport| membrane
SPCC645.03c, isa1, 	sulfur metabolism| cell ion homeostasis| cell organization and biogenesis| mitochondrion
SPCC1235.03, SPCC1235.03, 	DNA repair
SPAC26H5.10c, tif51, 	protein biosynthesis
SPBPJ4664.01, dps, SPBPJ694.01	lipid metabolism
SPAC9.05, SPAC9.05, 	helicase activity
SPAC2E1P5.02c, SPAC2E1P5.02c, 	membrane
SPBC1198.02, dea2, 	adenine deaminase activity
SPAC607.04, SPAC607.04, 	amino acid metabolism| signal transduction| lipid metabolism| arginine metabolism
SPCC126.02c, pku70, 	telomere maintenance| S phase of mitotic cell cycle| DNA repair| double-strand break repair| cell organization and biogenesis| DNA binding| helicase activity
SPBC21C3.05, sap62, 	mRNA processing| spliceosome complex
SPAC27E2.11c, SPAC27E2.11c, 	cell surface
SPBC1683.02, SPBC1683.02, 	adenine deaminase activity
SPBC30B4.07c, tfb4, 	regulation of transcription\, DNA-dependent| DNA repair| nucleotide-excision repair| regulation of transcription from Pol II promoter| transcription| transcription factor TFIIH complex| transcription factor complex| nucleotide excision repair complex| chromatin| nucleus| transcription factor activity
SPAC27D7.07c, smd1, 	mRNA processing| RNA processing| spliceosome complex
SPBPB21E7.01c, eno102, SPAP8B6.07c, SPBPB8B6.07c, SPAPB21E7.01c, eno1	carbohydrate catabolism| energy pathways| glycolysis| main pathways of carbohydrate metabolism
SPACUNK4.07c, cta4, sev4, SPAPYUK71.01	microtubule-based process| cytokinesis| M phase of mitotic cell cycle| cell organization and biogenesis| endoplasmic reticulum| membrane| cytoskeleton| microtubule organizing center| microtubule cytoskeleton| ATPase activity
SPBPB10D8.07c, SPBPB10D8.07c, 	transport| carbohydrate transport| membrane
SPBC3H7.04, SPBC3H7.04, 	response to stress
SPBP8B7.04, SPBP8B7.04, 	membrane
SPAC15A10.03c, rhp54, rad54	meiosis| establishment and/or maintenance of chromatin architecture| DNA repair| DNA recombination| DNA packaging| cell organization and biogenesis| chromatin remodeling complex| chromatin| nucleus| helicase activity| ATPase activity
SPAC22G7.09c, SPAC22G7.09c, 	nucleocytoplasmic transport| protein targeting| nucleus| nuclear pore
SPAC806.06c, SPAC806.06c, 	coenzyme and prosthetic group metabolism| nicotinamide-nucleotide adenylyltransferase activity
SPAC8E11.07c, alp31, 	cytoskeleton organization and biogenesis| microtubule-based process| protein folding| cell organization and biogenesis| establishment and/or maintenance of cell polarity| cytoskeleton| microtubule organizing center| microtubule cytoskeleton| chaperone activity
SPAC30C2.06c, SPAC30C2.06c, 	mitochondrion organization and biogenesis| mitochondrial genome maintenance| cell organization and biogenesis
SPBC11C11.07, rpl1801, rpl18-1, rpl18	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPAC12G12.14c, pfs2, 	mRNA processing| RNA processing| mRNA polyadenylation
SPCC188.04c, SPCC188.04c, 	ER to Golgi transport| intracellular protein transport| cytoplasmic vesicle
SPBC1105.17, cnp1, sim2	establishment and/or maintenance of chromatin architecture| cell cycle| DNA packaging| chromosome segregation| cell organization and biogenesis| chromatin
SPBC18H10.03, tif35, 	protein biosynthesis| eukaryotic translation initiation factor 3 complex| eukaryotic 48S initiation complex| RNA binding
SPAC3H8.10, spo20, sec14	sporulation (sensu Fungi)| signal transduction| lipid metabolism| cytosol
SPAC1782.07, qcr8, 	energy pathways| electron transport| membrane| mitochondrial inner membrane| mitochondrial membrane| mitochondrion| ubiquinol-cytochrome-c reductase activity
SPBC106.14c, SPBC106.14c, 	cell cycle| actin cytoskeleton organization and biogenesis| cell organization and biogenesis| actin cytoskeleton| cytoskeleton
SPAC23H4.18c, pip1, 	cell cycle| protein modification| proteolysis and peptidolysis| ubiquitin ligase complex| ubiquitin-protein ligase activity
SPCC4G3.11, SPCC4G3.11, 	membrane
SPAC17A5.12, ucp7, 	protein modification| protein folding
SPBP16F5.06, SPBP16F5.06, 	ribosome biogenesis| cell organization and biogenesis| nucleolus| RNA binding
SPAC26F1.04c, SPAC26F1.04c, 	oxidoreductase activity
SPCC613.11c, meu23, B13958-2	meiosis
SPBC19C7.10, SPBC19C7.10, 	nucleus| DNA binding
SPCC553.04, cyp9, 	protein folding
SPAC1687.08, SPAC1687.08, 	membrane
SPBC27.08c, met3, SPBC28F2.01c	amino acid metabolism| sulfur metabolism| methionine metabolism| sulfate adenylyltransferase (ATP) activity
SPCC1183.10, wtf10, 	membrane
SPCC622.06c, SPCC622.06c, 	membrane
SPBC337.07c, SPBC337.07c, 	proteolysis and peptidolysis
SPBC337.07c, SPBC337.07c, 	transcription from Pol II promoter| DNA-directed RNA polymerase activity| DNA-directed RNA polymerase II\, holoenzyme| regulation of transcription from Pol II promoter| transcription| DNA-directed RNA polymerase II\, holoenzyme| nucleus
SPCC1020.12c, SPCC1020.12c, SPCC14G10.06	nucleus
SPCC126.03, lps1, 	pyrimidine base metabolism| tRNA modification| RNA processing| tRNA metabolism| pseudouridylate synthase activity
SPCC1529.01, SPCC1529.01, SPCC794.14	transport| multidrug transport| membrane
SPBC2F12.13, klp5, sot1	meiosis| microtubule-based process| cell cycle| barrier septum formation| cytokinesis| M phase of mitotic cell cycle| chromosome condensation| chromosome segregation| cell organization and biogenesis| actin cytoskeleton| microtubule| cytoskeleton| spindle pole body| kinetochore| microtubule organizing center| microtubule cytoskeleton
SPAC26F1.06, gpm1, 	carbohydrate catabolism| energy pathways| glycolysis| carbohydrate metabolism| main pathways of carbohydrate metabolism| cytoplasm| phosphoglycerate mutase activity
SPBC16E9.10c, SPBC16E9.10c, 	ATPase activity
SPCC663.06c, SPCC663.06c, 	oxidoreductase activity
SPCC663.06c, SPCC663.06c, 	establishment and/or maintenance of chromatin architecture| nucleus| regulation of mitosis| cytoskeleton organization and biogenesis| cell organization and biogenesis| establishment and/or maintenance of cell polarity| actin cytoskeleton| cytoskeleton
SPCC417.06c, SPCC417.06c, 	signal transduction| protein modification| protein amino acid phosphorylation| protein kinase activity
SPAC1F7.07c, fip1, 	transport| metal ion transport| membrane
SPCC663.08c, SPCC663.08c, 	oxidoreductase activity
SPCC1235.13, ght6, meu12	transport| meiosis| carbohydrate transport| membrane| plasma membrane
SPBC1347.03, meu14, 	meiosis| sporulation (sensu Fungi)| spore wall assembly (sensu Fungi)| cell organization and biogenesis
SPBP19A11.03c, mts4, rpn1	proteolysis and peptidolysis| proteasome complex (sensu Eukarya)
SPBC13E7.08c, SPBC13E7.08c, 	regulation of transcription from Pol II promoter| transcription| proteolysis and peptidolysis| nucleus
SPBC19G7.01c, msh2, SPBC24C6.12c	meiosis| mismatch repair| DNA repair| DNA recombination| mating-type switching/recombination| cell organization and biogenesis
SPAC959.07, rps403, rps4-3, rps4	protein biosynthesis| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex| cytosolic ribosome (sensu Eukarya)
SPCC777.07, SPCC777.07, 	protein modification| carbohydrate metabolism| glycolipid 2-alpha-mannosyltransferase activity
SPBC83.08, SPBC83.08, 	establishment and/or maintenance of chromatin architecture| DNA packaging| cell organization and biogenesis| chromatin remodeling complex| chromatin| ATPase activity
SPAC24C9.16c, cox8, 	energy pathways| electron transport| membrane| mitochondrial inner membrane| mitochondrial membrane
SPAC27F1.08, SPAC27F1.08, 	cell ion homeostasis| cell organization and biogenesis| membrane
SPACUNK4.13c, SPACUNK4.13c, 	GTP binding
SPAC1F5.11c, SPAC1F5.11c, 	signal transduction| lipid metabolism
SPAC1F3.06c, spo15, 	meiosis| sporulation (sensu Fungi)| cell cycle| chromosome segregation| cell organization and biogenesis| microtubule| cytoskeleton| spindle pole body| microtubule organizing center| microtubule cytoskeleton
SPCC16A11.06c, SPCC16A11.06c, 	protein modification| carbohydrate metabolism| lipid metabolism| GPI anchor biosynthesis| endoplasmic reticulum
SPBC4F6.13c, SPBC4F6.13c, 	ribosome biogenesis| rRNA processing| RNA processing| cell organization and biogenesis
SPBC19G7.15, SPBC19G7.15, 	nucleocytoplasmic transport| protein targeting| nucleus| nuclear pore
SPAC2F7.14c, SPAC2F7.14c, 	rRNA processing| RNA processing| exosome (RNase complex)
SPAC9E9.13, wos2, 	protein folding| regulation of mitotic cell cycle| mitotic cell cycle
SPCPJ732.02c, SPCPJ732.02c, 	carbohydrate metabolism
SPAC3A11.11c, SPAC3A11.11c, 	coenzyme and prosthetic group metabolism| oxidoreductase activity
SPCC550.08, SPCC550.08, 	protein modification| acetyltransferase activity
SPBC31F10.08, mde2, 	meiosis| sporulation (sensu Fungi)| transcription
SPBC16G5.12c, top3, 	establishment and/or maintenance of chromatin architecture| cell cycle| S phase of mitotic cell cycle| DNA replication| DNA packaging| chromosome segregation| cell organization and biogenesis| DNA topoisomerase type I activity
SPAC4G9.04c, SPAC4G9.04c, 	mRNA processing| RNA processing| mRNA polyadenylation
SPAC1F5.03c, SPAC1F5.03c, 	oxidoreductase activity
SPAC222.07c, hri2, 	signal transduction| protein modification| protein biosynthesis| protein amino acid phosphorylation| protein kinase activity
SPAC1A6.02, SPAC1A6.02, SPAC23C4.21	protein modification
SPBC4C3.12, sep1, 	regulation of transcription\, DNA-dependent| barrier septum formation| cytokinesis| transcription| M phase of mitotic cell cycle| nucleus
SPAC1A6.03c, SPAC1A6.03c, 	lipid metabolism| cell surface| lysophospholipase activity
SPCC584.15c, SPCC584.15c, 	signal transduction| ubiquitin ligase complex
SPBC36B7.09, SPBC36B7.09, SPBP18G5.01	signal transduction| protein modification| protein biosynthesis| protein amino acid phosphorylation| protein kinase activity
SPBC36B7.09, SPBC36B7.09, SPBP18G5.01	asparaginyl-tRNA aminoacylation| asparagine-tRNA ligase activity| cytoplasm| tRNA metabolism| cytoplasm| asparagine-tRNA ligase activity
SPAC9G1.08c, SPAC9G1.08c, 	lipid metabolism
SPBC11B10.01, SPBC11B10.01, SPBC32H8.14	protein modification| carbohydrate metabolism| cell organization and biogenesis| endoplasmic reticulum
SPCC4F11.04c, SPCC4F11.04c, 	protein modification| carbohydrate metabolism| lipid metabolism| sphingolipid metabolism| membrane
SPAC23H4.14, vps39, 	vacuole organization and biogenesis| vacuole fusion\, non-autophagic| intracellular protein transport| vacuolar membrane| membrane
SPAC2G11.03c, vps45, 	ER to Golgi transport| exocytosis| intracellular protein transport| cytoplasmic vesicle| Golgi cis-face| TRAPP
SPBC1105.01, SPBC1105.01, SPBPB7E8.03	rRNA processing| RNA processing| exosome (RNase complex)| cytoplasm| nucleus
SPAC607.05, rpn9, 	proteolysis and peptidolysis| proteasome complex (sensu Eukarya)
SPAC1093.02, SPAC1093.02, 	coenzyme and prosthetic group metabolism| pyridoxamine-phosphate oxidase activity
SPCC757.10, vph2, 	cell organization and biogenesis| ATPase activity
SPCC61.01c, str2, str1, SPCC622.20c	transport| metal ion transport| membrane
SPAC24H6.01c, SPAC24H6.01c, SPAPB21F2.01	membrane
SPBC19F8.01c, spn7, SPBC21.08c	sporulation (sensu Fungi)| M phase of mitotic cell cycle| GTP binding
SPCC16C4.05, SPCC16C4.05, 	rRNA processing| RNA processing| ribonuclease MRP complex
SPBC16D10.11c, rps1801, rps18-1	protein biosynthesis| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex| cytosolic ribosome (sensu Eukarya)
SPBPJ4664.02, SPBPJ4664.02, 	cell surface
SPAC18G6.11c, rrn3, 	regulation of transcription\, DNA-dependent| transcription| nucleolus| nucleus
SPAC821.08c, slp1, 	G1/S transition of mitotic cell cycle| spindle assembly| cell cycle| endomitotic cell cycle| S phase of mitotic cell cycle| G1 phase of mitotic cell cycle| M phase of mitotic cell cycle| regulation of mitosis| G2/M transition of mitotic cell cycle| mitotic metaphase| mitotic anaphase| cell organization and biogenesis| regulation of cell cycle
SPAC29B12.01, SPAC29B12.01, SPAC3G6.12	establishment and/or maintenance of chromatin architecture| DNA repair| DNA packaging| cell organization and biogenesis| chromatin remodeling complex| chromatin| helicase activity| ATPase activity
SPBP35G2.09, SPBP35G2.09, 	mRNA processing| RNA processing| cell organization and biogenesis| spliceosome complex
SPBC725.07, pex5, 	protein targeting| cell organization and biogenesis| peroxisome| peroxisomal membrane
SPAC1952.17c, SPAC1952.17c, SPAC890.01c	signal transduction
SPBC1685.07c, SPBC1685.07c, 	transport| amino acid transport| membrane
SPBC16C6.06, pep1, vps10	intracellular protein transport| cell organization and biogenesis| membrane
SPBC776.04, sec2302, sec23-b	vesicle-mediated transport| ER to Golgi transport| intracellular protein transport| COPII-coated vesicle| cytoplasmic vesicle| Golgi vesicle| COPI-coated vesicle| GTPase regulator activity
SPAPB1A10.10c, ypt71, 	signal transduction| endocytosis| intracellular protein transport| GTP binding
SPBC530.08, SPBC530.08, 	regulation of transcription\, DNA-dependent| transcription| cell organization and biogenesis| membrane| chromatin| nucleus| transcription regulator activity
SPAPB2B4.01c, SPAPB2B4.01c, 	signal transduction| lipid metabolism| GPI anchor biosynthesis| endoplasmic reticulum| endoplasmic reticulum membrane
SPBC30B4.05, SPBC30B4.05, 	nucleocytoplasmic transport| cell cycle| protein targeting| chromosome segregation| cell organization and biogenesis| nucleus| nuclear pore
SPAC869.10c, SPAC869.10c, 	transport| amino acid transport| membrane
SPBC24C6.07, cdc14, 	barrier septum formation| cytokinesis| M phase of mitotic cell cycle
SPBC3D6.10, apn2, 	DNA repair| nucleotide excision repair complex| nucleus| DNA-(apurinic or apyrimidinic site) lyase activity
SPAC1834.03c, hhf1, h4.1	establishment and/or maintenance of chromatin architecture| DNA packaging| cell organization and biogenesis| chromatin
SPBC17D1.06, SPBC17D1.06, 	ribosome biogenesis| cell organization and biogenesis| helicase activity
SPBC409.03, swi5, 	meiosis| DNA recombination| mating-type switching/recombination| double-strand break repair
SPCC777.14, prp4, 	mRNA processing| signal transduction| protein modification| protein amino acid phosphorylation| protein kinase activity
SPCC162.08c, SPCC162.08c, 	nucleus| nuclear pore
SPCC1919.01, SPCC1919.01, SPCC830.12	signal transduction| protein modification| protein amino acid phosphorylation| protein kinase activity
SPCC553.12c, SPCC553.12c, SPCC794.13	energy pathways| electron transport| membrane| mitochondrial inner membrane| mitochondrial membrane| oxidoreductase activity
SPAPB24D3.03, SPAPB24D3.03, 	amino acid metabolism| arginine metabolism
SPAC26H5.11, SPAC26H5.11, 	sporulation (sensu Fungi)| signal transduction| spore wall assembly (sensu Fungi)| cell organization and biogenesis
SPBC18H10.13, rps1402, rps14-2	protein biosynthesis| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex| cytosolic ribosome (sensu Eukarya)
SPBC16H5.04, SPBC16H5.04, 	membrane
SPAC30D11.05, aps3, 	vesicle-mediated transport| intracellular protein transport| cytoplasmic vesicle| 
SPAC144.14, klp8, 	cell organization and biogenesis| cytoskeleton| microtubule organizing center| microtubule cytoskeleton
SPBC2G2.13c, SPBC2G2.13c, 	dCMP deaminase activity
SPBC839.16, SPBC839.16, 	coenzyme and prosthetic group metabolism
SPAPB1A10.07c, SPAPB1A10.07c, 	membrane
SPCC1223.02, nmt1, thi3	pyrimidine base metabolism
SPBC577.15c, SPBC577.15c, 	establishment and/or maintenance of chromatin architecture| DNA packaging| cell organization and biogenesis| chromatin
SPAC8E11.03c, dmc1, dmp1	meiosis| DNA recombination| DNA binding| ATPase activity
SPBC32H8.07, git5, gpb1	regulation of transcription\, DNA-dependent| signal transduction| transcription
SPBC32H8.07, git5, gpb1	transcription from Pol II promoter| DNA-directed RNA polymerase activity| DNA-directed RNA polymerase II\, holoenzyme| regulation of transcription from Pol II promoter| transcription| RNA processing| nucleus| RNA binding
SPAC637.12c, mst1, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| protein modification| transcription| DNA packaging| cell organization and biogenesis| chromatin silencing| chromatin| nucleus| acetyltransferase activity
SPBC1921.03c, mex67, 	nucleocytoplasmic transport| RNA localization| transcription| protein targeting| nucleolus| nucleus| nuclear pore
SPAC110.01, SPAC110.01, SPAC140.05	signal transduction| protein modification| protein amino acid phosphorylation| protein kinase activity
SPBC32H8.13c, mok12, 	cell wall organization and biogenesis| protein modification| cell wall biosynthesis| cell organization and biogenesis| membrane| alpha-1\,3-glucan synthase activity
SPBC582.10c, SPBC582.10c, 	establishment and/or maintenance of chromatin architecture| DNA repair| DNA packaging| cell organization and biogenesis| nucleotide excision repair complex| chromatin| helicase activity
SPAC4D7.13, prp40, 	mRNA processing| signal transduction| nucleus
SPCC188.09c, SPCC188.09c, 	cell surface
SPAC16C9.04c, SPAC16C9.04c, 	regulation of transcription\, DNA-dependent| transcription| CCR4-NOT core complex| RNA binding
SPAC589.11, SPAC589.11, 	protein biosynthesis
SPAC513.07, SPAC513.07, 	coenzyme and prosthetic group metabolism
SPAPB1E7.04c, SPAPB1E7.04c, 	cytokinesis| M phase of mitotic cell cycle| carbohydrate metabolism| cell organization and biogenesis| cell surface| chitinase activity
SPBC16A3.11, eso1, 	cell cycle| S phase of mitotic cell cycle| DNA replication| sister chromatid cohesion
SPAC343.19, SPAC343.19, SPAC824.01	signal transduction| actin cytoskeleton organization and biogenesis| lipid metabolism| cell organization and biogenesis| actin cytoskeleton| cytoskeleton| 1-phosphatidylinositol 4-kinase activity
SPAC890.04c, SPAC890.04c, 	cell organization and biogenesis| cytoskeleton| microtubule organizing center| microtubule cytoskeleton
SPCC594.06c, SPCC594.06c, 	vesicle-mediated transport| signal transduction| intracellular protein transport| cytoplasmic vesicle
SPAC19E9.03, pas1, SPAC57A10.01	traversing start control point of mitotic cell cycle| G1/S transition of mitotic cell cycle| cell cycle| mitotic cell cycle
SPAC3F10.06c, SPAC3F10.06c, 	RNA processing
SPBC660.11, tcg1, 	telomere maintenance| G1/S transition of mitotic cell cycle| regulation of mitosis| M/G1 transition of mitotic cell cycle| cell organization and biogenesis| DNA binding| RNA binding
SPCC1020.02, spc7, 	cell cycle| cell organization and biogenesis| spindle pole body
SPAC16E8.11c, tfb1, 	regulation of transcription\, DNA-dependent| regulation of transcription from Pol II promoter| transcription| transcription factor TFIIH complex| transcription factor complex| chromatin| nucleus| transcription factor activity
SPAC17H9.10c, ddb1, 	cell cycle checkpoint| DNA replication checkpoint| cell cycle| S phase of mitotic cell cycle| DNA replication| regulation of cell cycle| signalosome complex| nucleolus| nucleus
SPAP7G5.04c, lys1, 	amino acid metabolism| lysine metabolism| oxidoreductase activity| L-aminoadipate-semialdehyde dehydrogenase activity
SPCC364.03, rpl1702, rpl17-2, rpl17	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPAC1486.06, SPAC1486.06, 	coenzyme and prosthetic group metabolism| nicotinate phosphoribosyltransferase activity
SPBC21.06c, cdc7, 	barrier septum formation| cytokinesis| signal transduction| protein modification| M phase of mitotic cell cycle| protein amino acid phosphorylation| protein kinase activity
SPAC23C4.06c, SPAC23C4.06c, 	methyltransferase activity
SPAC3A11.04, SPAC3A11.04, 	membrane
SPAC6F6.02c, pof5, 	proteolysis and peptidolysis| ubiquitin ligase complex
SPAC9.13c, cwf16, SPAPJ735.01c	cell cycle| mRNA processing
SPAC3G6.03c, SPAC3G6.03c, 	barrier septum formation| cytokinesis| M phase of mitotic cell cycle
SPBC31F10.11c, cwf4, syf3	mRNA processing| RNA processing| spliceosome complex
SPBC29A10.02, SPBC29A10.02, SPBC365.18	RNA binding
SPBC660.13c, ssb1, rpa1, rad11	telomere maintenance| meiosis| S phase of mitotic cell cycle| DNA replication| DNA repair| cell organization and biogenesis| regulation of cell cycle| DNA replication factor A complex| replication fork| DNA binding
SPBC4.04c, mcm2, cdc19, nda1	S phase of mitotic cell cycle| DNA replication| replication fork
SPCC1020.13c, SPCC1020.13c, SPCC14G10.05	lipid metabolism
SPBC887.10, mcs4, 	MAPKKK cascade| protein kinase cascade| cell cycle| signal transduction
SPAC343.03, apc11, 	cell cycle| anaphase-promoting complex| ubiquitin ligase complex| nucleus
SPAC3A12.05c, taf2, 	regulation of transcription\, DNA-dependent| regulation of transcription from Pol II promoter| transcription| cell organization and biogenesis| transcription factor TFIID complex| transcription factor complex| chromatin| nucleus| transcription factor activity
SPAC7D4.07c, trx2, 	mitochondrion
SPBPB10D8.02c, SPBPB10D8.02c, 	sulfur metabolism| arylsulfatase activity
SPAC1B9.03c, SPAC1B9.03c, SPAC6B12.01	ribosome biogenesis| RNA processing| cell organization and biogenesis| nucleolus| RNA binding
SPAC13A11.05, SPAC13A11.05, 	proteolysis and peptidolysis
SPAPB24D3.10c, agl1, agl	carbohydrate metabolism| alpha-glucosidase activity
SPBC1271.04c, SPBC1271.04c, 	deoxyhypusine synthase activity
SPCC1322.06, SPCC1322.06, 	nucleocytoplasmic transport| protein targeting| nucleus| nuclear pore
SPBC11G11.03, SPBC11G11.03, 	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPAC19A8.06, SPAC19A8.06, 	membrane| nuclear membrane| oxidoreductase activity
SPAC13F5.03c, SPAC13F5.03c, 	carbohydrate metabolism| mitochondrion| oxidoreductase activity| glycerol dehydrogenase activity
SPAC890.08, rpl31, 	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPBC725.06c, SPBC725.06c, 	signal transduction| protein modification| protein amino acid phosphorylation| protein kinase activity
SPAC20H4.07, rhp57, 	meiosis| sporulation (sensu Fungi)| DNA repair| DNA recombination| DNA binding| ATPase activity
SPBC1734.16c, pst3, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| transcription| DNA packaging| cell organization and biogenesis| transcription factor complex| chromatin
SPAC5D6.02c, SPAC5D6.02c, 	nucleus
SPAC4F8.13c, rng2, 	cell cycle| cytokinesis| M phase of mitotic cell cycle| chromosome condensation| cell organization and biogenesis| actin cytoskeleton| cytoskeleton| spindle pole body
SPAC2G11.15c, SPAC2G11.15c, SPAC521.01c	RNA processing| nucleolus| methyltransferase activity
SPCC825.03c, psy1, sso1	sporulation (sensu Fungi)| intracellular protein transport| membrane| cytoplasmic vesicle| plasma membrane
SPAC23A1.02c, SPAC23A1.02c, 	signal transduction| membrane
SPAC1F5.04c, cdc12, 	cytoskeleton organization and biogenesis| cell cycle| actin filament-based process| cytokinesis| M phase of mitotic cell cycle| chromosome condensation| actin cytoskeleton organization and biogenesis| cell organization and biogenesis| establishment and/or maintenance of cell polarity| contractile ring (sensu Fungi)| actin cytoskeleton| cytoskeleton| microtubule organizing center| microtubule cytoskeleton
SPCC1235.10c, sec6, 	exocytosis| intracellular protein transport| exocyst
SPCC895.05, for3, 	cytoskeleton organization and biogenesis| microtubule-based process| actin filament-based process| M phase of mitotic cell cycle| actin cytoskeleton organization and biogenesis| cell organization and biogenesis| microtubule cytoskeleton organization and biogenesis| establishment and/or maintenance of cell polarity| actin cytoskeleton| cytoskeleton| microtubule organizing center| microtubule cytoskeleton
SPCC16A11.11, SPCC16A11.11, 	protein biosynthesis| mitochondrial ribosome
SPCC16A11.11, SPCC16A11.11, 	calcium ion homeostasis| chloride ion homeostasis| calcium-mediated signaling| transcription regulator activity| nucleus| cytoplasm| regulation of transcription\, DNA-dependent| cell ion homeostasis| signal transduction| transcription| cytoplasm| nucleus
SPCC16A11.11, SPCC16A11.11, 	gluconeogenesis| glycolysis| pentose-phosphate shunt| glucose-6-phosphate isomerase activity| cytosol| carbohydrate catabolism| energy pathways| glycolysis| carbohydrate metabolism| pentose-phosphate shunt| main pathways of carbohydrate metabolism| cytosol| glucose-6-phosphate isomerase activity
SPAPJ696.02, SPAPJ696.02, 	signal transduction| actin cytoskeleton organization and biogenesis| endocytosis| intracellular protein transport| cell organization and biogenesis| actin cytoskeleton| actin cortical patch (sensu Fungi)| cytoskeleton
SPBC15C4.06c, SPBC15C4.06c, SPBC21H7.01c	ubiquitin ligase complex| ubiquitin-protein ligase activity
SPAC343.14c, SPAC343.14c, 	protein biosynthesis| eukaryotic translation initiation factor 2B complex| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex
SPAC1F8.07c, SPAC1F8.07c, 	pyruvate metabolism| pyruvate decarboxylase activity
SPBC887.11, SPBC887.11, 	pyrimidine base metabolism| tRNA modification| RNA processing| tRNA metabolism| pseudouridylate synthase activity
SPBC365.15, alp4, 	cytoskeleton organization and biogenesis| spindle assembly| microtubule-based process| cell cycle| cytokinesis| M phase of mitotic cell cycle| cell organization and biogenesis| establishment and/or maintenance of cell polarity| regulation of cell cycle| cytoskeleton| spindle pole body| microtubule organizing center| microtubule cytoskeleton
SPAC3A12.02, SPAC3A12.02, 	energy pathways| inorganic diphosphatase activity
SPAC144.17c, SPAC144.17c, 	carbohydrate metabolism| fructose-2\,6-bisphosphate 2-phosphatase activity
SPCC576.13, SPCC576.13, 	establishment and/or maintenance of chromatin architecture| DNA packaging| cell organization and biogenesis| chromatin remodeling complex| chromatin
SPBC119.10, SPBC119.10, 	aspartate metabolism| asparagine synthase (glutamine-hydrolyzing) activity
SPAC821.13c, SPAC821.13c, SPAC955.01c	lipid metabolism| membrane| ATPase activity| phospholipid-translocating ATPase activity
SPCC962.04, rps1201, rps12-1, rps12	protein biosynthesis| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex| cytosolic ribosome (sensu Eukarya)
SPAC2C4.11c, SPAC2C4.11c, 	RNA binding
SPCC553.03, SPCC553.03, 	cell organization and biogenesis| ATPase activity
SPAC2F3.03c, rpa49, 	transcription| DNA-directed RNA polymerase I complex| nucleolus| nucleus| DNA-directed RNA polymerase activity
SPAC2F3.03c, rpa49, 	glutamyl-tRNA aminoacylation| glutamate-tRNA ligase activity| cellular_component unknown| tRNA metabolism| glutamate-tRNA ligase activity
SPAC13G6.04, tim8, 	transport| mitochondrial transport| membrane| mitochondrial membrane
SPAC29A4.19c, SPAC29A4.19c, 	membrane| ATPase activity
SPAC1A6.06c, meu31, 	meiosis
SPCC5E4.03c, taf72, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| regulation of transcription from Pol II promoter| transcription| DNA packaging| cell organization and biogenesis| transcription factor TFIID complex| SAGA complex| transcription factor complex| chromatin| nucleus| transcription factor activity
SPAC16E8.03, spgna1	protein modification| cell organization and biogenesis| acetyltransferase activity
SPAC23E2.02, SPAC23E2.02, 	regulation of transcription\, DNA-dependent| transcription| nucleus
SPBC30D10.18c, rpl102, rpl1-2, rpl10a-2	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPBP4H10.04, ppb1, 	cytoskeleton organization and biogenesis| cell cycle| barrier septum formation| cytokinesis| conjugation with cellular fusion| signal transduction| protein modification| M phase of mitotic cell cycle| cell organization and biogenesis| establishment and/or maintenance of cell polarity| spindle pole body| phosphoprotein phosphatase activity
SPBP4H10.04, ppb1, 	leucyl-tRNA aminoacylation| leucine-tRNA ligase activity| cytoplasm| tRNA metabolism| cytoplasm| leucine-tRNA ligase activity
SPAC6B12.12, tom70, 	mitochondrial outer membrane protein import| mitochondrial outer membrane
SPBC691.03c, apl3, 	vesicle-mediated transport| intracellular protein transport| membrane| cytoplasmic vesicle
SPCC736.14, dis1, 	microtubule-based process| cell cycle| M phase of mitotic cell cycle| chromosome segregation| cell organization and biogenesis| microtubule| cytoskeleton| spindle pole body| kinetochore| microtubule organizing center| microtubule cytoskeleton
SPBC14F5.13c, SPBC14F5.13c, 	vacuolar membrane| membrane| alkaline phosphatase activity
SPAC3A11.10c, SPAC3A11.10c, 	proteolysis and peptidolysis| membrane dipeptidase activity
SPCC4B3.17, cbp3, 	energy pathways| electron transport| protein folding| cell organization and biogenesis| mitochondrion| chaperone activity
SPCC1919.11, SPCC1919.11, 	signal transduction
SPCC1919.11, SPCC1919.11, 	regulation of meiosis| regulation of transcription from Pol II promoter| transcription factor activity| nucleus| meiosis| regulation of transcription\, DNA-dependent| regulation of transcription from Pol II promoter| transcription| nucleus| transcription factor activity
SPCC736.09c, SPCC736.09c, 	meiosis| DNA repair| DNA recombination
SPAC1952.07, rad1, 	cell cycle checkpoint| DNA replication checkpoint| S phase of mitotic cell cycle| DNA replication| DNA repair| DNA damage response\, signal transduction resulting in cell cycle arrest| regulation of cell cycle
SPAC8F11.03, swi4, 	mismatch repair| DNA repair
SPCPB1C11.02, SPCPB1C11.02, 	transport| amino acid transport| membrane
SPAC750.05c, SPAC750.05c, 	membrane| cell surface
SPAC14C4.14, atp1, 	hydrogen transport| mitochondrial inner membrane| proton-transporting ATP synthase complex (sensu Eukarya)| mitochondrion| ATPase activity
SPBC32F12.09, rum1, 	G1/S transition of mitotic cell cycle| protein kinase cascade| cell cycle| endomitotic cell cycle| response to stress| G1 phase of mitotic cell cycle| M phase of mitotic cell cycle| cyclin catabolism
SPAC13C5.05c, SPAC13C5.05c, 	protein modification| carbohydrate metabolism| cell organization and biogenesis| phosphoacetylglucosamine mutase activity
SPBC16H5.12c, SPBC16H5.12c, 	signal transduction
SPAC13F5.01c, msh1, SPAC23C11.18c	mismatch repair| DNA repair| mitochondrion
SPAC1399.05c, SPAC1399.05c, 	regulation of transcription\, DNA-dependent| transcription| transcription regulator activity
SPBC18H10.04c, sce3, tif48	protein biosynthesis| cytoplasm| RNA binding
SPBC577.14c, spa1, spa	amino acid metabolism| proline metabolism| arginine metabolism
SPCC1223.14, SPCC1223.14, SPCC297.01	amino acid metabolism| tyrosine metabolism| L-phenylalanine metabolism| tryptophan metabolism
SPAC2G11.12, hus2, rqh1, rad12	meiosis| S phase of mitotic cell cycle| DNA repair| DNA recombination| replication fork| helicase activity
SPBC685.05, SPBC685.05, 	signal transduction| lipid metabolism| membrane| cell surface| phosphatidylinositol N-acetylglucosaminyltransferase activity
SPAC9E9.11, plr1, plr	coenzyme and prosthetic group metabolism| oxidoreductase activity| pyridoxine 4-dehydrogenase activity
SPAC227.05, SPAC227.05, 	protein folding| cell organization and biogenesis| prefoldin complex
SPCC613.02, SPCC613.02, 	transport| membrane
SPAC26H5.13c, SPAC26H5.13c, 	membrane
SPAC26H5.13c, SPAC26H5.13c, 	DNA-directed RNA polymerase activity| DNA-directed RNA polymerase I complex| DNA-directed RNA polymerase II\, holoenzyme| DNA-directed RNA polymerase III complex| RNA elongation| transcription from Pol I promoter| transcription from Pol III promoter| regulation of transcription from Pol II promoter| transcription| DNA-directed RNA polymerase I complex| nucleolus| nucleus
SPCC965.13, SPCC965.13, 	transport| membrane
SPBC16A3.01, spn3, SPBC543.01c	cytokinesis| M phase of mitotic cell cycle| GTP binding
SPBC3B9.03, SPBC3B9.03, 	protein-ER targeting| intracellular protein transport| GTP binding
SPAC9G1.13c, SPAC9G1.13c, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| transcription| DNA packaging| cell organization and biogenesis| chromatin remodeling complex| chromatin| nucleus| DNA binding
SPBC30D10.12c, SPBC30D10.12c, 	protein biosynthesis| mitochondrial ribosome
SPAC10F6.03c, SPAC10F6.03c, 	pyrimidine base metabolism| CTP synthase activity
SPCC4G3.04c, coq5, 	energy pathways| electron transport| ubiquinone biosynthesis| membrane| mitochondrial inner membrane| mitochondrial membrane| mitochondrion
SPAC1782.11, SPAC1782.11, 	sulfur metabolism
SPAC17H9.09c, ras1, ste5	cell cycle| conjugation with cellular fusion| signal transduction| lipid metabolism| chromosome segregation| cell organization and biogenesis
SPBC3F6.01c, SPBC3F6.01c, 	signal transduction| protein modification| phosphoprotein phosphatase activity
SPBC146.13c, myo1, 	actin filament-based process| cytokinesis| signal transduction| M phase of mitotic cell cycle| actin cytoskeleton organization and biogenesis| cell organization and biogenesis| actin cytoskeleton| actin cortical patch (sensu Fungi)| cytoskeleton
SPBC12C2.13c, fnx1, SPBC21D10.04c	transport| response to stress| multidrug transport| membrane
SPAC8E11.02c, rad24, 	cell cycle checkpoint| cell cycle| DNA repair| DNA damage response\, signal transduction resulting in cell cycle arrest| G2/M transition of mitotic cell cycle| regulation of cell cycle
SPAC21E11.08, lcb2, SPAC2C4.02	lipid metabolism| membrane| serine C-palmitoyltransferase activity
SPBC1539.08, SPBC1539.08, 	intracellular protein transport| GTPase activity
SPAC1687.15, gsk3, skp1	sporulation (sensu Fungi)| response to stress| cytokinesis| signal transduction| protein modification| M phase of mitotic cell cycle| carbohydrate metabolism| regulation of mitotic cell cycle| protein amino acid phosphorylation| mitotic cell cycle| protein kinase activity
SPAC17A5.11, rec12, 	meiosis| DNA recombination
SPAC823.15, ppa1, 	cell cycle| signal transduction| protein modification| phosphoprotein phosphatase activity
SPAC823.15, ppa1, 	ornithine biosynthesis| arginine biosynthesis| glutamate N-acetyltransferase activity| mitochondrial matrix| amino acid metabolism| glutamate metabolism| protein modification| arginine metabolism| mitochondrion| amino-acid N-acetyltransferase activity| glutamate N-acetyltransferase activity| acetyltransferase activity
SPBC418.02, SPBC418.02, 	protein modification| acetyltransferase activity
SPAC1093.03, SPAC1093.03, 	conjugation with cellular fusion| cell organization and biogenesis| cell surface
SPAC3G6.05, SPAC3G6.05, 	membrane| peroxisomal membrane
SPBC17G9.06c, SPBC17G9.06c, 	acetyltransferase activity
SPBC1683.13c, SPBC1683.13c, 	regulation of transcription\, DNA-dependent| transcription| transcription regulator activity
SPAC22G7.02, SPAC22G7.02, 	nucleocytoplasmic transport| protein targeting| nucleus| nuclear pore
SPAPYUG7.02c, sin1, 	MAPKKK cascade| protein kinase cascade| response to stress| signal transduction
SPAC664.14, SPAC664.14, 	transport| membrane
SPAC29E6.08, tbp1, tdf1, tbp, SPAC30.12	regulation of transcription\, DNA-dependent| regulation of transcription from Pol II promoter| transcription| transcription factor TFIID complex| transcription factor complex| chromatin| nucleus| transcription factor activity
SPAC17C9.12, SPAC17C9.12, 	signal transduction| lipid metabolism| endoplasmic reticulum| endoplasmic reticulum membrane
SPBC18H10.02, lcf1, 	lipid metabolism| cytosol| long-chain-fatty-acid-CoA ligase activity
SPAC8C9.08, rps5, 	protein biosynthesis| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex| cytosolic ribosome (sensu Eukarya)
SPCC285.08, ret2, 	intracellular protein transport| cytoplasmic vesicle| Golgi apparatus| Golgi vesicle
SPAC24B11.06c, sty1, spc1, phh1	MAPKKK cascade| cell cycle checkpoint| protein kinase cascade| cell cycle| response to stress| signal transduction| protein modification| protein amino acid phosphorylation| cell organization and biogenesis| regulation of cell cycle| protein kinase activity
SPBC1683.06c, SPBC1683.06c, 	pyrimidine base metabolism| nucleoside metabolism
SPAC2E12.02, hsf1, hstf, hsf	regulation of transcription\, DNA-dependent| response to stress| transcription
SPAC17C9.02c, lys7, 	amino acid metabolism| lysine metabolism
SPBC1348.14c, SPBC1348.14c, SPAPB8B6.01c, SPAC1348.14c, SPBPB8B6.01c	transport| carbohydrate transport| membrane| plasma membrane
SPCC1020.11c, SPCC1020.11c, 	membrane
SPCC338.15, SPCC338.15, 	N-linked glycosylation| protein modification| carbohydrate metabolism
SPAC19B12.04, rps3001, rps30-1	protein biosynthesis| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex| cytosolic ribosome (sensu Eukarya)
SPCC962.06c, bpb1, sf1	mRNA processing
SPCC13B11.01, adh1, adh	energy pathways| main pathways of carbohydrate metabolism| alcohol dehydrogenase activity| oxidoreductase activity
SPAC14C4.05c, SPAC14C4.05c, 	cell cycle| membrane
SPCC965.05c, thp1, 	DNA repair| nucleotide excision repair complex
SPBC839.08c, SPBC839.08c, 	signal transduction| lipid metabolism| membrane
SPAC1805.01c, SPAC1805.01c, SPAPJ736.02c	signal transduction| protein modification| protein amino acid phosphorylation| protein kinase activity
SPAC12B10.14c, SPAC12B10.14c, 	signal transduction| protein modification| protein amino acid phosphorylation| protein kinase activity
SPBC25H2.05, SPBC25H2.05, 	protein biosynthesis
SPBC25H2.05, SPBC25H2.05, 	glutamyl-tRNA aminoacylation| glutamate-tRNA ligase activity| mitochondrion| glutamate metabolism| protein biosynthesis| tRNA metabolism| mitochondrion| glutamate-tRNA ligase activity
SPCC1620.13, SPCC1620.13, 	carbohydrate catabolism| energy pathways| glycolysis| carbohydrate metabolism| main pathways of carbohydrate metabolism
SPAC19B12.11c, SPAC19B12.11c, 	regulation of transcription\, DNA-dependent
SPBC8D2.14c, sed5, 	vesicle-mediated transport| intracellular protein transport| endoplasmic reticulum| membrane| cytoplasmic vesicle| Golgi apparatus
SPAC1006.05c, och1, 	protein modification| carbohydrate metabolism| cell surface
SPAC9E9.14, vps24, 	intracellular protein transport
SPBC1347.04, SPBC1347.04, 	mitochondrial inner membrane protein import| mitochondrial inner membrane| mitochondrial membrane
SPBC15D4.07c, apg9, 	response to stress
SPBC3B8.09, SPBC3B8.09, 	establishment and/or maintenance of chromatin architecture| rRNA processing| RNA processing| DNA packaging| cell organization and biogenesis| nucleolus| chromatin| nucleus
SPCC13B11.04c, SPCC13B11.04c, SPCC777.01c	oxidoreductase activity| formaldehyde dehydrogenase (glutathione) activity
SPAC2F3.10, SPAC2F3.10, 	regulation of transcription\, DNA-dependent| actin cytoskeleton organization and biogenesis| intracellular protein transport| cell organization and biogenesis| actin cytoskeleton| cytoskeleton
SPAC16E8.13, SPAC16E8.13, 	ubiquitin ligase complex| ubiquitin-protein ligase activity
SPAC29B12.11c, SPAC29B12.11c, 	signal transduction
SPBC20F10.10, SPBC20F10.10, 	cell cycle
SPBC1778.07, SPBC1778.07, 	methyltransferase activity
SPBC800.09, sum2, 	cell cycle| G2/M transition of mitotic cell cycle| regulation of cell cycle
SPCC290.02, rpc34, 	transcription| DNA-directed RNA polymerase III complex| DNA-directed RNA polymerase activity
SPCC364.06, SPCC364.06, 	establishment and/or maintenance of chromatin architecture| DNA packaging| cell organization and biogenesis| chromatin
SPBC2D10.20, ubc1, 	proteolysis and peptidolysis| ubiquitin conjugating enzyme activity| ubiquitin-protein ligase activity
SPBC1709.20, SPBC1709.20, 	rRNA processing| RNA processing| ribonuclease MRP complex
SPAC19G12.06c, hta2, 	establishment and/or maintenance of chromatin architecture| DNA packaging| cell organization and biogenesis| chromatin
SPAC607.06c, SPAC607.06c, 	proteolysis and peptidolysis
SPCC1620.12c, SPCC1620.12c, 	signal transduction
SPBC27B12.12c, SPBC27B12.12c, 	transport| cation transport| metal ion transport| membrane
SPCC550.09, SPCC550.09, 	cell organization and biogenesis| membrane| peroxisomal membrane
SPCC553.07c, SPCC553.07c, 	DNA repair
SPBC1711.07, SPBC1711.07, 	ribosome biogenesis| cell organization and biogenesis| nucleolus
SPCC24B10.10c, SPCC24B10.10c, 	ATPase activity
SPBC1685.09, rps29, 	protein biosynthesis| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex| cytosolic ribosome (sensu Eukarya)
SPBC215.11c, SPBC215.11c, 	oxidoreductase activity
SPAC6F12.11c, sfc1, 	regulation of transcription\, DNA-dependent| transcription from Pol III promoter| transcription| transcription factor complex| chromatin| nucleus| transcription factor TFIIIC complex| transcription factor activity
SPBC211.04c, mcm6, mis5	establishment and/or maintenance of chromatin architecture| S phase of mitotic cell cycle| DNA replication| DNA packaging| cell organization and biogenesis| replication fork| chromatin
SPAC22G7.04, ubp13, 	mRNA processing| RNA processing| mRNA polyadenylation| proteolysis and peptidolysis
SPAC29E6.02, prp3, SPAC30.06	mRNA processing| RNA processing
SPCC18.11c, sdc1, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| transcription| DNA packaging| cell organization and biogenesis| chromatin silencing| chromatin remodeling complex| Lid2 complex| chromatin
SPAC3A11.03, SPAC3A11.03, 	methyltransferase activity
SPAC17G8.14c, pck1, SPAC22H10.01c	signal transduction| protein modification| protein amino acid phosphorylation| cell organization and biogenesis| protein kinase activity
SPBC216.04c, SPBC216.04c, 	response to stress
SPMIT.10, atp9, P21537	transport| lipid metabolism| hydrogen transport| mitochondrial inner membrane| proton-transporting ATP synthase complex (sensu Eukarya)| ATPase activity
SPBC1711.09c, SPBC1711.09c, 	membrane
SPAC5H10.11, gmh1, 	protein amino acid galactosylation| protein modification| cell surface
SPBC26H8.12, SPBC26H8.12, 	energy pathways| electron transport
SPAC13C5.04, SPAC13C5.04, 	amino acid metabolism| histidine metabolism
SPAC23C4.16c, SPAC23C4.16c, 	lipid metabolism
SPBC29A10.11c, vps902, vps9b	signal transduction| endocytosis| intracellular protein transport
SPCC962.02c, cut17, pbh1, bir1, SPCP31B10.10c	establishment and/or maintenance of chromatin architecture| cell cycle| response to stress| M phase of mitotic cell cycle| chromosome condensation| DNA packaging| chromosome segregation| cell organization and biogenesis| kinetochore
SPAC22E12.08, rrn10, 	transcription| nucleolus| RNA polymerase I upstream activating factor complex| nucleus
SPAC17G8.06c, SPAC17G8.06c, 	isoleucine metabolism| valine metabolism| amino acid metabolism| mitochondrion| dihydroxy-acid dehydratase activity
SPBC2G2.11, SPBC2G2.11, 	protein modification| glycylpeptide N-tetradecanoyltransferase activity
SPBC16G5.17, SPBC16G5.17, 	regulation of transcription\, DNA-dependent| transcription| transcription regulator activity
SPBC725.08, SPBC725.08, 	regulation of transcription\, DNA-dependent
SPBC776.05, SPBC776.05, 	transport| membrane
SPBC119.11c, pac1, hcs	conjugation with cellular fusion| RNA processing| nucleolus| ribonuclease III activity
SPCC965.12, SPCC965.12, 	proteolysis and peptidolysis
SPAC11D3.08c, SPAC11D3.08c, 	transport| amino acid transport| membrane
SPAC13G7.05, SPAC13G7.05, 	lipid metabolism| sterol O-acyltransferase activity
SPAC30D11.01c, SPAC30D11.01c, SPAC56F8.01	carbohydrate metabolism| membrane
SPAC30D11.04c, nup124, 	nucleocytoplasmic transport| protein targeting| nucleus| nuclear pore
SPBC56F2.12, SPBC56F2.12, 	mitochondrion organization and biogenesis| isoleucine metabolism| valine metabolism| amino acid metabolism| mitochondrial genome maintenance| leucine metabolism| cell organization and biogenesis| ketol-acid reductoisomerase activity
SPAC1002.03c, SPAC1002.03c, 	carbohydrate metabolism
SPAPB2B4.05, vma5, 	transport| intracellular protein transport| hydrogen transport| cell organization and biogenesis| ATPase activity
SPBC31F10.15c, atp15, 	hydrogen transport| mitochondrial inner membrane| proton-transporting ATP synthase complex (sensu Eukarya)| mitochondrion| ATPase activity
SPAC22H10.10, alp21, sto1	cytoskeleton organization and biogenesis| microtubule-based process| protein folding| cell organization and biogenesis| establishment and/or maintenance of cell polarity| cytoskeleton| microtubule organizing center| microtubule cytoskeleton| chaperone activity
SPBC17G9.07, rps2402, rps24-2	protein biosynthesis| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex| cytosolic ribosome (sensu Eukarya)
SPAC1F12.09, SPAC1F12.09, 	membrane
SPAC23H4.03c, erv25, 	vesicle-mediated transport| intracellular protein transport| membrane| COPII-coated vesicle| cytoplasmic vesicle| Golgi vesicle| COPI-coated vesicle
SPAC2F7.16c, SPAC2F7.16c, 	signal transduction| lipid metabolism
SPAC23C4.17, SPAC23C4.17, 	tRNA metabolism| methyltransferase activity
SPCC965.04c, SPCC965.04c, 	proteolysis and peptidolysis| ATPase activity
SPBC1706.01, SPBC1706.01, 	signal transduction
SPCC553.10, SPCC553.10, 	cell surface
SPCC24B10.07, gad8, 	conjugation with cellular fusion| signal transduction| protein modification| protein amino acid phosphorylation| protein kinase activity
SPCC777.17c, SPCC777.17c, 	protein biosynthesis
SPAC15E1.02c, SPAC15E1.02c, 	membrane
SPBC1921.02, rad60, 	DNA repair| double-strand break repair
SPBC887.13c, SPBC887.13c, 	energy pathways| lipid metabolism
SPBC713.04c, SPBC713.04c, 	rRNA processing| cytokinesis| M phase of mitotic cell cycle| RNA processing| nucleolus
SPBC365.09c, SPBC365.09c, 	regulation of transcription\, DNA-dependent
SPCC18.01c, adg3, SPCC74.07c	carbohydrate metabolism| cell surface
SPBC14C8.03, SPBC14C8.03, 	proteolysis and peptidolysis| methionyl aminopeptidase activity
SPBC2F12.11c, rep2, 	meiosis| regulation of transcription\, DNA-dependent| transcription
SPBC26H8.06, grx5, 	response to stress| energy pathways
SPBC29A3.08, pof4, 	proteolysis and peptidolysis| ubiquitin ligase complex
SPAC24C9.11, SPAC24C9.11, 	signal transduction
SPAC821.04c, cid13, 	mRNA processing| RNA processing| cytoplasm
SPCC18B5.03, wee1, 	cell cycle checkpoint| DNA replication checkpoint| cell cycle| S phase of mitotic cell cycle| DNA replication| DNA repair| DNA damage response\, signal transduction resulting in cell cycle arrest| signal transduction| protein modification| regulation of mitosis| G2/M transition of mitotic cell cycle| regulation of mitotic cell cycle| protein amino acid phosphorylation| mitotic cell cycle| regulation of cell cycle| protein kinase activity
SPAC4C5.04, rad31, uba4	DNA repair| proteolysis and peptidolysis| cell organization and biogenesis
SPAC4G9.13c, vps26, pep8	intracellular protein transport| cytoplasmic vesicle
SPBC11B10.07c, SPBC11B10.07c, 	membrane
SPBC902.03, SPBC902.03, 	meiosis| sporulation (sensu Fungi)| membrane
SPAC13A11.02c, cyp51, 	energy pathways
SPAC3F10.18c, rpl4102, rpl41-2, rpl41, SPAC8F11.01c	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPAC959.03c, SPAC959.03c, 	rRNA processing| RNA processing| nucleolus
SPBC23E6.07c, rfc1, 	S phase of mitotic cell cycle| DNA replication| replication fork| ATPase activity
SPAC144.06, apl5, 	intracellular protein transport| cell organization and biogenesis| membrane| cytoplasmic vesicle| 
SPBC8D2.04, hht2, h3.2	establishment and/or maintenance of chromatin architecture| DNA packaging| cell organization and biogenesis| chromatin
SPCC16C4.19, SPCC16C4.19, SPCC5E4.08	rRNA processing| RNA processing| ribonuclease MRP complex| RNA binding
SPAP8A3.12c, SPAP8A3.12c, 	proteolysis and peptidolysis
SPAC17G8.03c, SPAC17G8.03c, 	regulation of transcription\, DNA-dependent| regulation of transcription from Pol II promoter| transcription| cell organization and biogenesis| DNA binding
SPBC21C3.13, rps1901, rps19-1	protein biosynthesis| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex| cytosolic ribosome (sensu Eukarya)
SPBC3F6.05, rga1, 	cell wall organization and biogenesis| barrier septum formation| actin cytoskeleton organization and biogenesis| cell wall biosynthesis| cell organization and biogenesis| actin cytoskeleton| cytoskeleton| GTPase regulator activity
SPAC7D4.10, vma13, 	transport| intracellular protein transport| hydrogen transport| cell organization and biogenesis| ATPase activity
SPBC28E12.05, SPBC28E12.05, SPBC3H7.17c	regulation of transcription\, DNA-dependent| transcription| RNA binding
SPBC577.10, SPBC577.10, 	proteolysis and peptidolysis| proteasome complex (sensu Eukarya)
SPAC4G9.19, SPAC4G9.19, 	protein folding
SPBC30D10.02, SPBC30D10.02, 	regulation of transcription\, DNA-dependent| regulation of transcription from Pol II promoter| transcription
SPAC23D3.06c, SPAC23D3.06c, 	nucleocytoplasmic transport| protein targeting| nucleus| nuclear pore
SPBP16F5.04, ubc3, ubcp3	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| transcription| DNA packaging| proteolysis and peptidolysis| cell organization and biogenesis| chromatin silencing| chromatin| ubiquitin conjugating enzyme activity| ubiquitin-protein ligase activity
SPAC19D5.07, SPAC19D5.07, 	amino acid metabolism| glutamate metabolism| 4-aminobutyrate transaminase activity
SPCC1235.05c, SPCC1235.05c, 	establishment and/or maintenance of chromatin architecture| DNA packaging| cell organization and biogenesis| chromatin| helicase activity| ATPase activity
SPBC660.12c, SPBC660.12c, 	protein modification
SPAC25H1.09, mde5, meu30, SPAC4A8.01	meiosis
SPBC83.15, SPBC83.15, 	ribosome biogenesis| cell organization and biogenesis
SPAP7G5.02c, gua2, 	purine nucleotide metabolism
SPAC4A8.14, prs1, 	purine nucleotide metabolism| ribose-phosphate diphosphokinase activity
SPBC800.10c, SPBC800.10c, 	actin cytoskeleton organization and biogenesis| endocytosis| intracellular protein transport| cell organization and biogenesis| actin cytoskeleton| actin cortical patch (sensu Fungi)| cytoskeleton
SPBC12D12.05c, SPBC12D12.05c, 	transport| mitochondrial transport| membrane| mitochondrial membrane
SPBC1652.01, SPBC1652.01, 	cell organization and biogenesis| chromatin
SPAC19B12.03, bgs3, 	cytoskeleton organization and biogenesis| cell wall organization and biogenesis| protein modification| carbohydrate metabolism| cell wall biosynthesis| cell organization and biogenesis| establishment and/or maintenance of cell polarity| membrane| plasma membrane| 1\,3-beta-glucan synthase complex| 1\,3-beta-glucan synthase activity
SPCC70.07c, tmp1, tmp	pyrimidine base metabolism| M phase of mitotic cell cycle| thymidylate kinase activity
SPAC17A5.02c, dbr1, 	mRNA processing| RNA processing
SPAC5H10.06c, SPAC5H10.06c, 	energy pathways| main pathways of carbohydrate metabolism| oxidoreductase activity| alcohol dehydrogenase activity
SPBC1709.16c, SPBC1709.16c, 	oxidoreductase activity
SPCC594.07c, SPCC594.07c, 	membrane
SPAC1071.06, SPAC1071.06, 	establishment and/or maintenance of chromatin architecture| DNA packaging| cell organization and biogenesis| actin cytoskeleton| cytoskeleton| chromatin
SPCC736.13, SPCC736.13, 	oxidoreductase activity
SPAC13G6.03, SPAC13G6.03, 	signal transduction| membrane| methyltransferase activity
SPBC947.05c, SPBC947.05c, 	cell ion homeostasis| membrane| ferric-chelate reductase activity
SPAPB1A10.14, SPAPB1A10.14, 	proteolysis and peptidolysis| ubiquitin ligase complex
SPBC887.03c, SPBC887.03c, 	ribosome biogenesis| nucleocytoplasmic transport| establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| S phase of mitotic cell cycle| DNA replication| transcription| protein targeting| DNA packaging| cell organization and biogenesis| nucleolus| chromatin
SPBC428.14, SPBC428.14, 	carbohydrate metabolism| acetyltransferase activity
SPBC21D10.10, SPBC21D10.10, 	establishment and/or maintenance of chromatin architecture| DNA packaging| chromatin| nucleus
SPCC576.11, rpl15, 	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPAC1039.07c, SPAC1039.07c, 	amino acid metabolism| glycine metabolism| coenzyme and prosthetic group metabolism
SPCC1183.02, SPCC1183.02, 	protein biosynthesis| eukaryotic 48S initiation complex
SPBC106.20, exo70, SPBC582.02	exocytosis| intracellular protein transport| exocyst
SPAC16.05c, SPAC16.05c, 	regulation of transcription\, DNA-dependent
SPAC13F5.02c, ptr6, taf7	regulation of transcription\, DNA-dependent| RNA localization| regulation of transcription from Pol II promoter| transcription| transcription factor TFIID complex| transcription factor complex| chromatin| nucleus| transcription factor activity
SPAC3G9.04, ssu72, 	mRNA processing| transcription| RNA processing| mRNA polyadenylation| transcription factor complex| nucleus
SPBC1685.02c, rps1202, rps12-2	protein biosynthesis| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex| cytosolic ribosome (sensu Eukarya)
SPCC4G3.12c, SPCC4G3.12c, 	ubiquitin ligase complex| ubiquitin-protein ligase activity
SPCC895.04c, ufe1, 	vesicle-mediated transport| intracellular protein transport| retrograde transport\, Golgi to ER| membrane| cytoplasmic vesicle
SPBC13G1.04c, SPBC13G1.04c, 	DNA repair
SPBC16A3.10, SPBC16A3.10, 	membrane
SPBC13E7.01, cwf22, SPBC15D4.16	mRNA processing| spliceosome complex
SPCC1620.09c, SPCC1620.09c, 	regulation of transcription\, DNA-dependent| regulation of transcription from Pol II promoter| transcription| transcription factor complex| chromatin| nucleus| transcription factor activity
SPBC1271.11, SPBC1271.11, 	transport| mitochondrial transport| membrane| mitochondrial membrane
SPBC24C6.09c, SPBC24C6.09c, 	phosphoketolase activity
SPAC1805.17, crm1, caf2, SPAC1B2.01	nucleocytoplasmic transport| response to stress| protein targeting| cell organization and biogenesis| nucleus| nuclear pore
SPAC23C11.08, php3, 	regulation of transcription\, DNA-dependent| transcription| CCAAT-binding factor complex
SPCC330.14c, rpl2402, rpl24-2	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPBC839.06, cta3, 	membrane| ATPase activity
SPBC12D12.01, sad1, SPBC16H5.01c	spindle assembly| cell cycle| cell organization and biogenesis| membrane| spindle pole body
SPAC1486.07c, SPAC1486.07c, 	protein biosynthesis| mitochondrial ribosome
SPAC13F5.05, SPAC13F5.05, 	protein folding| protein disulfide isomerase activity
SPAC4G8.02c, SPAC4G8.02c, 	intracellular protein transport| translocon
SPCC970.04c, mob2, 	cytoskeleton organization and biogenesis| cell cycle| cell organization and biogenesis| establishment and/or maintenance of cell polarity| cytoplasm
SPBCPT2R1.08c, SPBCPT2R1.08c, 	helicase activity
SPAC6F6.10c, arc2, arc34	actin filament-based process| actin cytoskeleton organization and biogenesis| endocytosis| intracellular protein transport| cell organization and biogenesis| actin cytoskeleton| actin cortical patch (sensu Fungi)| cytoskeleton| Arp2/3 protein complex
SPAC22H10.13, zym1, 	cell ion homeostasis
SPAC31G5.10, eta2, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| response to stress| regulation of transcription from Pol II promoter| transcription| DNA packaging| nucleus| DNA binding
SPAC31G5.10, eta2, 	methionyl-tRNA aminoacylation| methionine-tRNA ligase activity| mitochondrion| tRNA metabolism| mitochondrion| methionine-tRNA ligase activity
SPBC354.02c, sec61, 	protein-ER targeting| intracellular protein transport| endoplasmic reticulum| endoplasmic reticulum membrane| translocon
SPBC691.05c, pi030, SPBP22H7.01c	transport| membrane
SPAC9G1.10c, SPAC9G1.10c, 	signal transduction| lipid metabolism
SPCC613.03, SPCC613.03, 	intracellular protein transport
SPBC83.16c, SPBC83.16c, 	membrane
SPAC1006.09, win1, SPAC1250.06c, SPAPJ730.01	MAPKKK cascade| protein kinase cascade| cell cycle| signal transduction| protein modification| G2/M transition of mitotic cell cycle| regulation of mitotic cell cycle| protein amino acid phosphorylation| mitotic cell cycle| protein kinase activity
SPBC1683.04, SPBC1683.04, 	carbohydrate metabolism| beta-glucosidase activity
SPCC162.07, SPCC162.07, 	actin cytoskeleton organization and biogenesis| endocytosis| intracellular protein transport| cell organization and biogenesis| actin cytoskeleton| actin cortical patch (sensu Fungi)| cytoskeleton
SPAC23C4.14, SPAC23C4.14, 	N-linked glycosylation| protein modification| carbohydrate metabolism
SPAC26A3.08, smb1, smb	mRNA processing| RNA processing| spliceosome complex
SPAC6G9.07c, arc4, 	actin filament-based process| actin cytoskeleton organization and biogenesis| cell organization and biogenesis| actin cytoskeleton| actin cortical patch (sensu Fungi)| cytoskeleton| Arp2/3 protein complex
SPAC1039.03, SPAC1039.03, 	lipid metabolism
SPBC27B12.09c, SPBC27B12.09c, 	mitochondrial membrane
SPAC23H4.06, gln1, 	amino acid metabolism| glutamate metabolism| nitrogen metabolism| glutamate-ammonia ligase activity
SPAC6F6.08c, cdc16, bub2	spindle assembly| cell cycle| barrier septum formation| cytokinesis| signal transduction| M phase of mitotic cell cycle| cell organization and biogenesis| regulation of cell cycle| spindle pole body
SPCC13B11.03c, SPCC13B11.03c, 	sulfur metabolism| hydroxyacylglutathione hydrolase activity
SPAC1399.04c, SPAC1399.04c, 	pyrimidine base metabolism
SPBC16G5.16, SPBC16G5.16, 	regulation of transcription\, DNA-dependent| transcription| transcription regulator activity
SPBC1D7.03, SPBC1D7.03, 	cell cycle
SPBC16A3.08c, SPBC16A3.08c, 	telomere maintenance| cell organization and biogenesis
SPBC1861.09, SPBC1861.09, 	signal transduction| protein modification| protein amino acid phosphorylation| protein kinase activity
SPCC320.07c, mde7, 	meiosis| sporulation (sensu Fungi)| RNA binding
SPBC30D10.16, SPBC30D10.16, 	amino acid metabolism| tyrosine metabolism| L-phenylalanine metabolism| tryptophan metabolism| alanine metabolism
SPAC26A3.12c, dhp1, 	meiosis| cell cycle| DNA recombination| RNA processing| chromosome segregation| cell organization and biogenesis| nucleus
SPAC24C9.05c, SPAC24C9.05c, 	cytoplasm| nucleus
SPCC320.08, SPCC320.08, 	membrane
SPAC869.04, SPAC869.04, 	nitrogen metabolism
SPBC947.01, sur2, 	cell organization and biogenesis| cytoskeleton| microtubule organizing center| microtubule cytoskeleton| ATPase activity
SPBC29A10.03c, SPBC29A10.03c, SPBC365.19c	establishment and/or maintenance of chromatin architecture| DNA packaging| cell organization and biogenesis| chromatin remodeling complex| chromatin
SPAPB1A10.06c, SPAPB1A10.06c, 	rRNA processing| RNA processing| nucleolus| helicase activity
SPAC26F1.14c, SPAC26F1.14c, SPAC29A4.01c	establishment and/or maintenance of chromatin architecture| response to stress| energy pathways| DNA packaging| cell organization and biogenesis| chromatin
SPCC63.12c, SPCC63.12c, 	proteolysis and peptidolysis| proteasome complex (sensu Eukarya)
SPBC16C6.12c, SPBC16C6.12c, 	cytoskeleton organization and biogenesis| actin cytoskeleton organization and biogenesis| cell organization and biogenesis| establishment and/or maintenance of cell polarity| actin cytoskeleton| cytoskeleton
SPAPB21F2.02, SPAPB21F2.02, 	conjugation with cellular fusion| cell organization and biogenesis
SPBC20F10.01, gar1, SPBC25H2.01c	rRNA processing| RNA processing| nucleolus
SPAC1783.04c, hst4, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| transcription| DNA packaging| cell organization and biogenesis| chromatin silencing| chromatin remodeling complex| transcription factor complex| chromatin
SPBC26H8.08c, SPBC26H8.08c, 	RNA processing| GTPase activity
SPBC26H8.08c, SPBC26H8.08c, 	methionyl-tRNA aminoacylation| methionine-tRNA ligase activity| cytoplasm| tRNA metabolism| cytoplasm| methionine-tRNA ligase activity
SPAC1002.04c, taf11, 	regulation of transcription\, DNA-dependent| regulation of transcription from Pol II promoter| transcription| cell organization and biogenesis| transcription factor TFIID complex| transcription factor complex| chromatin| nucleus| transcription factor activity
SPAC1B3.16c, vht1, 	transport| allantoate transport| coenzyme and prosthetic group metabolism| membrane| plasma membrane
SPBC14F5.11c, SPBC14F5.11c, 	signal transduction| intracellular protein transport
SPBC1604.04, SPBC1604.04, 	mitochondrial inner membrane| mitochondrial membrane
SPAC1F8.06, SPAC1F8.06, 	cell surface
SPBC17F3.02, nak1, 	signal transduction| protein modification| protein amino acid phosphorylation| cell organization and biogenesis| protein kinase activity
SPCC1840.04, SPCC1840.04, 	proteolysis and peptidolysis
SPBC1348.07, SPBC1348.07, SPAC1348.07	membrane| cell surface
SPAC25B8.11, SPAC25B8.11, 	regulation of transcription\, DNA-dependent| transcription| purine nucleotide metabolism| transcription regulator activity
SPBC14C8.17c, SPBC14C8.17c, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| transcription| DNA packaging| SAGA complex| chromatin
SPBC4B4.05, smg1, 	mRNA processing| RNA processing| spliceosome complex
SPAC23C4.08, rho3, 	cytoskeleton organization and biogenesis| microtubule-based process| barrier septum formation| cytokinesis| signal transduction| M phase of mitotic cell cycle| actin cytoskeleton organization and biogenesis| exocytosis| intracellular protein transport| cell organization and biogenesis| microtubule cytoskeleton organization and biogenesis| establishment and/or maintenance of cell polarity| actin cytoskeleton| cytoskeleton| microtubule organizing center| microtubule cytoskeleton
SPCC613.08, SPCC613.08, 	cell cycle
SPBC342.03, SPBC342.03, 	cell surface
SPAC15A10.16, fat1, SPAC15E1.01	actin filament-based process| actin cytoskeleton organization and biogenesis| cell organization and biogenesis| actin cytoskeleton| cytoskeleton
SPBC11C11.05, SPBC11C11.05, 	cell wall organization and biogenesis| cell wall biosynthesis| cell organization and biogenesis
SPBC1539.05, SPBC1539.05, 	ER to Golgi transport| intracellular protein transport| cytoplasmic vesicle| Golgi apparatus
SPAC17A2.13c, rad25, 	cell cycle checkpoint| cell wall organization and biogenesis| DNA repair| cytokinesis| DNA damage response\, signal transduction resulting in cell cycle arrest| M phase of mitotic cell cycle| cell organization and biogenesis| regulation of cell cycle
SPBC365.08c, SPBC365.08c, 	proteolysis and peptidolysis| membrane
SPAC5D6.13, SPAC5D6.13, SPAPJ735.02c	intracellular protein transport
SPBC18H10.06c, swd2.1	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| transcription| DNA packaging| cell organization and biogenesis| chromatin silencing| chromatin remodeling complex| chromatin
SPAC11D3.18c, SPAC11D3.18c, 	transport| membrane
SPAC9E9.10c, cbh1, cbh	establishment and/or maintenance of chromatin architecture| cell cycle| DNA packaging| chromosome segregation| cell organization and biogenesis| chromatin
SPBC337.12, SPBC337.12, 	mRNA processing| RNA processing| mRNA polyadenylation
SPCC338.14, SPCC338.14, 	purine nucleotide metabolism
SPBC32F12.12c, SPBC32F12.12c, 	membrane
SPCC24B10.17, SPCC24B10.17, 	vesicle-mediated transport| ER to Golgi transport| intracellular protein transport| endoplasmic reticulum| membrane| COPII-coated vesicle| cytoplasmic vesicle| endoplasmic reticulum membrane| Golgi vesicle| COPI-coated vesicle
SPCC417.12, SPCC417.12, 	lipid metabolism
SPBC216.05, rad3, 	cell cycle checkpoint| DNA replication checkpoint| meiosis| S phase of mitotic cell cycle| DNA replication| DNA repair| DNA damage response\, signal transduction resulting in cell cycle arrest| DNA recombination| regulation of cell cycle
SPBC216.05, rad3, 	heat shock protein activity| protein kinase cascade| response to stress| protein folding| chaperone activity| heat shock protein activity
SPAC6F12.04, SPAC6F12.04, 	vesicle-mediated transport| intracellular protein transport| membrane| cytoplasmic vesicle
SPBC1604.20c, tea2, klp4	cytoskeleton organization and biogenesis| microtubule-based process| actin cytoskeleton organization and biogenesis| cell organization and biogenesis| establishment and/or maintenance of cell polarity| actin cytoskeleton| cytoskeleton| microtubule organizing center| microtubule cytoskeleton
SPBC646.02, cwf11, 	mRNA processing| spliceosome complex
SPCC188.13c, dcr1, SPCC584.10c	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| cell cycle| transcription| RNA processing| DNA packaging| chromosome segregation| RNA interference| cell organization and biogenesis| chromatin silencing| chromatin| helicase activity
SPAC12B10.11, exg2, 	carbohydrate metabolism| glucan 1\,3-beta-glucosidase activity
SPBC1685.08, SPBC1685.08, 	regulation of transcription\, DNA-dependent| transcription| nucleus
SPCP25A2.03, SPCP25A2.03, 	RNA processing
SPAC31A2.15c, SPAC31A2.15c, 	cell cycle| S phase of mitotic cell cycle| DNA replication| sister chromatid cohesion| replication fork
SPAC31A2.15c, SPAC31A2.15c, 	tryptophanyl-tRNA aminoacylation| tryptophan-tRNA ligase activity| mitochondrion| tRNA metabolism| mitochondrion| tryptophan-tRNA ligase activity
SPAC732.02c, SPAC732.02c, 	carbohydrate metabolism| fructose-2\,6-bisphosphate 2-phosphatase activity
SPCC11E10.05c, ynd1, 	protein amino acid glycosylation| protein modification| membrane| Golgi apparatus
SPBC13G1.02, SPBC13G1.02, 	protein modification| mannose-1-phosphate guanylyltransferase activity
SPBC25B2.05, mis3, 	ribosome biogenesis| cell cycle| cell organization and biogenesis| nucleolus| RNA binding
SPAC11H11.04, mam2, 	signal transduction| membrane
SPBC16E9.11c, pub3, 	signal transduction| ubiquitin ligase complex| ubiquitin-protein ligase activity
SPBC2D10.07c, SPBC2D10.07c, 	proteolysis and peptidolysis| mitochondrial inner membrane
SPBC18H10.10c, cwc16, 	mRNA processing| spliceosome complex
SPCC188.02, par1, 	cell cycle| barrier septum formation| cytokinesis| signal transduction| protein modification| M phase of mitotic cell cycle| cell organization and biogenesis| phosphoprotein phosphatase activity
SPAC22E12.03c, SPAC22E12.03c, 	pyrimidine base metabolism
SPAC5D6.08c, mes1, 	meiosis| mRNA processing
SPAC9G1.04, oxa101, oxa1, oxa1-1, cox18, oxa1sp1	energy pathways| electron transport| cell organization and biogenesis| mitochondrial inner membrane| mitochondrial membrane
SPAC1834.07, klp3, krp1	cell organization and biogenesis| cytoplasmic vesicle| cytoskeleton| microtubule organizing center| microtubule cytoskeleton
SPAC1556.01c, rad50, SPAP4C9.01c	cell cycle checkpoint| telomere maintenance| meiosis| cell cycle| S phase of mitotic cell cycle| DNA replication| DNA repair| DNA recombination| cell organization and biogenesis| regulation of cell cycle| Mre11 complex| nucleus| DNA binding| ATPase activity
SPAC29B12.03, spd1, 	cell cycle arrest| S phase of mitotic cell cycle| DNA replication
SPAC29E6.01, pof11, SPAC30.05	proteolysis and peptidolysis| ubiquitin ligase complex
SPBC6B1.04, mde4, 	meiosis| sporulation (sensu Fungi)
SPAC4D7.01c, sec71, sec7a, SPAP8A3.15c	vesicle-mediated transport| signal transduction| intracellular protein transport| cytoplasmic vesicle| vesicle coat
SPAC3A11.06, mvp1, 	signal transduction| intracellular protein transport| Golgi apparatus
SPAC11E3.01c, SPAC11E3.01c, SPAC2H10.03c	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| transcription| DNA packaging| cell organization and biogenesis| chromatin remodeling complex| chromatin| helicase activity| ATPase activity
SPBC11B10.05c, rsp1, 	protein folding
SPBC354.07c, SPBC354.07c, 	ergosterol biosynthesis| lipid metabolism| membrane
SPAC2E1P5.05, SPAC2E1P5.05, 	rRNA processing| RNA processing| nucleolus
SPAC30C2.05, erv14, 	vesicle-mediated transport| ER to Golgi transport| intracellular protein transport| membrane| COPII-coated vesicle| cytoplasmic vesicle| Golgi vesicle| COPI-coated vesicle
SPBC1711.08, SPBC1711.08, 	protein folding| chaperone regulator activity
SPAC12G12.13c, cid14, 	S phase of mitotic cell cycle| replication fork
SPAC24H6.11c, SPAC24H6.11c, 	transport| anion transport| membrane
SPAC750.02c, SPAC750.02c, 	transport| membrane
SPAC8C9.12c, SPAC8C9.12c, 	transport| mitochondrial transport| membrane| mitochondrial membrane
SPAC24C9.02c, SPAC24C9.02c, 	energy pathways| electron transport
SPBC4F6.17c, SPBC4F6.17c, 	protein folding| mitochondrion| chaperone activity| ATPase activity
SPAC27D7.02c, SPAC27D7.02c, 	intracellular protein transport
SPCC1322.04, SPCC1322.04, 	protein amino acid glycosylation| protein modification| UTP-glucose-1-phosphate uridylyltransferase activity
SPBP8B7.05c, SPBP8B7.05c, 	energy pathways
SPAC18G6.07c, mra1, 	ribosome biogenesis| conjugation with cellular fusion| cell organization and biogenesis| nucleolus
SPCC1450.09c, SPCC1450.09c, 	lipid metabolism| lysophospholipase activity
SPBP35G2.07, ilv1, 	isoleucine metabolism| valine metabolism| amino acid metabolism| carbohydrate catabolism| energy pathways| TCA intermediate metabolism| leucine metabolism| main pathways of carbohydrate metabolism
SPAC19B12.07c, SPAC19B12.07c, 	regulation of transcription\, DNA-dependent
SPBC215.01, SPBC215.01, SPBC3B9.20	signal transduction
SPAC694.04c, SPAC694.04c, 	lipid metabolism
SPAC513.05, SPAC513.05, 	carbohydrate metabolism| vacuolar membrane| membrane
SPAC22G7.05, SPAC22G7.05, 	ribosome biogenesis| cell organization and biogenesis| nucleolus
SPCC757.12, SPCC757.12, 	carbohydrate metabolism| cell surface
SPBC1709.15c, cft2, 	mRNA processing| RNA processing| mRNA polyadenylation
SPAC23H4.10c, thi4, 	pyrimidine base metabolism| hydroxyethylthiazole kinase activity| thiamin-phosphate diphosphorylase activity
SPCC1739.09c, cox13, 	energy pathways| electron transport| mitochondrial inner membrane| mitochondrial membrane| cytochrome-c oxidase activity
SPAC2G11.05c, SPAC2G11.05c, 	MAPKKK cascade| protein kinase cascade| signal transduction
SPAC10F6.09c, psm3, smc3	cell cycle| S phase of mitotic cell cycle| DNA repair| sister chromatid cohesion| cell organization and biogenesis| mitotic cohesin complex| nucleus| ATPase activity
SPBC16G5.10, SPBC16G5.10, 	rRNA processing| RNA processing| exosome (RNase complex)
SPBC2G2.03c, SPBC2G2.03c, 	protein-ER targeting| intracellular protein transport| translocon
SPBC28E12.03, rga4, 	GTPase regulator activity
SPAC30D11.07, nth1, 	DNA repair| nucleotide-excision repair| nucleotide excision repair complex| DNA-(apurinic or apyrimidinic site) lyase activity
SPCC663.05c, cia1, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| protein folding| transcription| DNA packaging| cell organization and biogenesis| chromatin silencing| chromatin remodeling complex| chromatin| chaperone activity
SPCPB1C11.03, SPCPB1C11.03, 	transport| membrane
SPAC57A7.09, SPAC57A7.09, 	proteolysis and peptidolysis| membrane| ubiquitin ligase complex| ubiquitin-protein ligase activity
SPAC29B12.05c, SPAC29B12.05c, 	methyltransferase activity
SPAC1782.05, SPAC1782.05, 	cell cycle
SPAC323.05c, SPAC323.05c, 	methyltransferase activity
SPAC644.13c, SPAC644.13c, 	ER to Golgi transport| intracellular protein transport| membrane| cytoplasmic vesicle
SPAC630.11, SPAC630.11, 	intracellular protein transport| membrane
SPAC630.11, SPAC630.11, 	pentose-phosphate shunt\, oxidative branch| glucose 6-phosphate utilization| glucose-6-phosphate 1-dehydrogenase activity| cytoplasm| carbohydrate metabolism| pentose-phosphate shunt| cytoplasm| glucose-6-phosphate 1-dehydrogenase activity| oxidoreductase activity
SPCC16C4.06c, SPCC16C4.06c, 	pyrimidine base metabolism| tRNA modification| RNA processing| tRNA metabolism| pseudouridylate synthase activity
SPBC21C3.10c, SPBC21C3.10c, 	coenzyme and prosthetic group metabolism| 5-amino-6-(5-phosphoribosylamino)uracil reductase activity
SPCC553.08c, SPCC553.08c, 	ribosome biogenesis| protein biosynthesis| cell organization and biogenesis
SPBC428.02c, eca39, SPBC582.12c	isoleucine metabolism| valine metabolism| amino acid metabolism| leucine metabolism| coenzyme and prosthetic group metabolism| mitochondrion| branched-chain-amino-acid transaminase activity
SPBC23E6.05, SPBC23E6.05, 	ribosome biogenesis| proteolysis and peptidolysis| cell organization and biogenesis
SPCC338.06c, SPCC338.06c, 	response to stress| protein folding| chaperone activity| heat shock protein activity
SPBC18E5.08, SPBC18E5.08, 	protein modification| acetyltransferase activity
SPBC776.08c, SPBC776.08c, 	ribosome biogenesis| cell organization and biogenesis| nucleolus
SPAC4G9.08c, rpc2, 	transcription| DNA-directed RNA polymerase III complex| DNA-directed RNA polymerase activity
SPBC685.09, orc2, orp2	S phase of mitotic cell cycle| DNA replication| replication fork
SPBC685.09, orc2, orp2	glycine catabolism| glycine metabolism| glycine cleavage complex| mitochondrion| amino acid metabolism| glycine metabolism| mitochondrion
SPBP4H10.10, SPBP4H10.10, 	proteolysis and peptidolysis| membrane
SPBC19G7.13, SPBC19G7.13, 	telomere maintenance| establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| transcription| DNA packaging| cell organization and biogenesis| nucleus| DNA binding
SPBC16H5.06, rip1, 	energy pathways| membrane| mitochondrial inner membrane| mitochondrial membrane| mitochondrion| ubiquinol-cytochrome-c reductase activity
SPAC22G7.01c, SPAC22G7.01c, SPAPJ696.03c	proteolysis and peptidolysis| X-Pro aminopeptidase activity
SPBC1347.01c, SPBC1347.01c, SPBC215.16c	S phase of mitotic cell cycle| DNA replication| DNA repair
SPAC17A5.01, SPAC17A5.01, 	cell organization and biogenesis| peroxisomal membrane| ATPase activity
SPBP22H7.07, prp5, cwf1	mRNA processing| RNA processing| spliceosome complex
SPBC839.07, ibp1, 	G1/S transition of mitotic cell cycle| S phase of mitotic cell cycle
SPCC737.02c, qcr7, 	energy pathways| electron transport| membrane| mitochondrial inner membrane| mitochondrial membrane| mitochondrion| ubiquinol-cytochrome-c reductase activity
SPBC14C8.04, SPBC14C8.04, 	isoleucine metabolism| valine metabolism| amino acid metabolism| carbohydrate catabolism| energy pathways| TCA intermediate metabolism| main pathways of carbohydrate metabolism
SPBC428.13c, mob1, 	barrier septum formation| cytokinesis| M phase of mitotic cell cycle
SPAC167.03c, snu66, 	mRNA processing| RNA processing| spliceosome complex
SPAC1002.11, SPAC1002.11, 	GPI anchor biosynthesis| membrane
SPCC1281.08, wtf11, meu24	membrane
SPBP23A10.02, SPBP23A10.02, 	membrane
SPBC211.03c, SPBC211.03c, 	vesicle-mediated transport| signal transduction| intracellular protein transport| cytoplasmic vesicle| vesicle coat
SPBC16H5.14c, SPBC16H5.14c, SPBC21H7.08	oxidoreductase activity
SPCC645.13, SPCC645.13, 	regulation of transcription\, DNA-dependent| regulation of transcription from Pol II promoter| transcription| nucleus
SPAC1F5.07c, SPAC1F5.07c, 	coenzyme and prosthetic group metabolism| protoporphyrinogen oxidase activity
SPCC364.05, vps3, 	intracellular protein transport
SPBP19A11.02c, SPBP19A11.02c, 	membrane| cell surface
SPBC582.09, pex11, 	cell organization and biogenesis| membrane| peroxisomal membrane
SPBC8E4.03, SPBC8E4.03, 	amino acid metabolism| arginine metabolism| agmatinase activity
SPAC8C9.15c, tif225, 	protein biosynthesis| eukaryotic translation initiation factor 2B complex| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex
SPAC694.05c, rps2502, rps25-2, rps25	protein biosynthesis| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex| cytosolic ribosome (sensu Eukarya)
SPAC6F6.07c, rps13, 	protein biosynthesis| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex| cytosolic ribosome (sensu Eukarya)
SPAPB2B4.06, SPAPB2B4.06, 	mitochondrion
SPBC776.10c, SPBC776.10c, 	ER to Golgi transport| intracellular protein transport| cytoplasmic vesicle
SPBPB2B2.16c, SPBPB2B2.16c, 	transport| membrane
SPBC947.07, SPBC947.07, 	ribosome biogenesis| cell organization and biogenesis
SPBPB10D8.01, SPBPB10D8.01, 	transport| membrane
SPAC6G9.14, SPAC6G9.14, 	regulation of transcription\, DNA-dependent| transcription| RNA binding
SPCC74.09, SPCC74.09, 	RNA binding
SPAC3H5.10, rpl3202, rpl32-2, rpl32	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPAC1093.04c, SPAC1093.04c, 	tRNA metabolism
SPAP32A8.02, SPAP32A8.02, 	carbohydrate metabolism| oxidoreductase activity
SPAP32A8.02, SPAP32A8.02, 	L-serine biosynthesis| phosphoserine phosphatase activity| amino acid metabolism| L-serine metabolism| phosphoserine phosphatase activity
SPBP8B7.16c, dbp2, 	RNA processing| helicase activity
SPBC11G11.04, trs20, 	intracellular protein transport| Golgi cis-face| TRAPP
SPAC4F10.14c, btf3, 	protein biosynthesis
SPBC9B6.08, clc1, 	endocytosis| intracellular protein transport| cell organization and biogenesis
SPBC1539.06, SPBC1539.06, 	lipid metabolism| coenzyme and prosthetic group metabolism
SPAC110.04c, pss1, ssp1, SPAP14E8.01c	response to stress| cytoplasm| chaperone activity| heat shock protein activity
SPBP8B7.29, SPBP8B7.29, 	coenzyme and prosthetic group metabolism
SPCC576.15c, ksg1, 	sporulation (sensu Fungi)| cell wall organization and biogenesis| conjugation with cellular fusion| signal transduction| protein modification| protein amino acid phosphorylation| cell organization and biogenesis| protein kinase activity
SPAC16.01, rho2, 	cytoskeleton organization and biogenesis| cell wall organization and biogenesis| barrier septum formation| signal transduction| actin cytoskeleton organization and biogenesis| cell wall biosynthesis| cell organization and biogenesis| establishment and/or maintenance of cell polarity| actin cytoskeleton| cytoskeleton
SPBC23E6.01c, SPBC23E6.01c, SPBPJ758.01	regulation of transcription\, DNA-dependent| transcription| RNA binding
SPBC2G2.04c, mmf1, pmf1	mitochondrion organization and biogenesis| isoleucine metabolism| amino acid metabolism| mitochondrial genome maintenance| response to stress| leucine metabolism| cell organization and biogenesis| mitochondrion| cytoplasm
SPAC10F6.02c, prp22, 	mRNA processing| spliceosome complex| helicase activity
SPAC9G1.12, cpd1, 	tRNA modification| RNA processing| tRNA metabolism| methyltransferase activity
SPAC644.06c, cdr1, nim1	regulation of cyclin dependent protein kinase activity| cell cycle| signal transduction| protein modification| protein amino acid phosphorylation| protein kinase activity
SPAC5D6.07c, SPAC5D6.07c, 	signal transduction
SPAC23H3.02c, ini1, 	regulation of transcription\, DNA-dependent| mRNA processing| transcription| nucleus
SPAC9.10, SPAC9.10, 	transport| amino acid transport| membrane
SPBC3B9.15c, scp1, 	lipid metabolism| membrane
SPBC21C3.01c, vps13a, SPBC31F10.18c	intracellular protein transport
SPAC6F12.15c, cut9, 	cell cycle| anaphase-promoting complex| ubiquitin ligase complex| nucleus
SPAC11D3.07c, SPAC11D3.07c, 	regulation of transcription\, DNA-dependent| transcription| transcription regulator activity
SPBC4C3.04c, SPBC4C3.04c, 	signal transduction
SPAC343.08c, SPAC343.08c, 	protein biosynthesis| mitochondrial ribosome
SPAC343.08c, SPAC343.08c, 	threonine biosynthesis| methionine metabolism| homoserine catabolism| homoserine kinase activity| cellular_component unknown| amino acid metabolism| L-serine metabolism| threonine metabolism| homoserine kinase activity
SPBC1685.10, rps27, 	protein biosynthesis| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex| cytosolic ribosome (sensu Eukarya)
SPCC16C4.14c, sfc4, 	regulation of transcription\, DNA-dependent| transcription from Pol III promoter| transcription| transcription factor complex| chromatin| nucleus| transcription factor TFIIIC complex| transcription factor activity
SPAC458.07, tfa1, SPAPYUG7.01	regulation of transcription\, DNA-dependent| regulation of transcription from Pol II promoter| transcription| transcription factor TFIIE complex| transcription factor complex| chromatin| nucleus| transcription factor activity
SPBPB21E7.04c, SPBPB21E7.04c, SPAPB21E7.04c	methyltransferase activity| catechol O-methyltransferase activity
SPCC1450.06c, grx3, 	response to stress| energy pathways| arsenate reductase (glutaredoxin) activity
SPAC19B12.12c, yip11, yip1, yip1-a	mRNA processing| RNA processing| cell organization and biogenesis
SPCC1183.01, sec15, SPCC1672.13	exocytosis| intracellular protein transport| exocyst
SPBC336.07, sfc3, 	regulation of transcription\, DNA-dependent| transcription from Pol III promoter| transcription| transcription factor complex| chromatin| nucleus| transcription factor TFIIIC complex| transcription factor activity
SPBC13A2.02, SPBC13A2.02, 	nucleocytoplasmic transport| protein targeting| nucleus| nuclear pore
SPAC1782.10c, nhp2, 	rRNA processing| nucleolus
SPBC16C6.01c, SPBC16C6.01c, SPBC543.11c	regulation of transcription\, DNA-dependent| transcription| cell organization and biogenesis| chromatin| methyltransferase activity
SPBC16C6.01c, SPBC16C6.01c, SPBC543.11c	tricarboxylic acid cycle| mitochondrial electron transport\, succinate to ubiquinone| succinate metabolism| succinate dehydrogenase (ubiquinone) activity| respiratory chain complex II (sensu Eukarya)| energy pathways| electron transport| TCA intermediate metabolism| membrane| mitochondrial inner membrane| mitochondrial membrane| mitochondrion| oxidoreductase activity
SPAC1B3.15c, SPAC1B3.15c, 	transport| allantoate transport| membrane
SPBC428.11, SPBC428.11, 	cysteine metabolism| amino acid metabolism| sulfur metabolism| methionine metabolism
SPBC418.01c, his4, SPBC887.20c	amino acid metabolism| histidine metabolism| 1-(5-phosphoribosyl)-5-[(5-phosphoribosylamino)methylideneamino]imidazole-4-carboxamide isomerase activity
SPCC70.05c, SPCC70.05c, 	signal transduction| protein modification| protein amino acid phosphorylation| protein kinase activity
SPCC895.07, alp14, 	cytoskeleton organization and biogenesis| cell cycle| M phase of mitotic cell cycle| cell organization and biogenesis| establishment and/or maintenance of cell polarity| regulation of cell cycle| spindle pole body| kinetochore
SPAC6F6.05, SPAC6F6.05, 	response to stress| protein modification| carbohydrate metabolism| dolichyl-diphosphooligosaccharide-protein glycotransferase activity
SPCC1620.07c, SPCC1620.07c, 	membrane
SPBC1D7.04, mlo3, 	cell cycle| RNA localization| regulation of transcription from Pol II promoter| transcription| chromosome segregation| cell organization and biogenesis| transcription export complex| THO complex| RNA binding
SPAC3G9.11c, SPAC3G9.11c, 	pyruvate metabolism| pyruvate decarboxylase activity
SPBC1198.05, SPBC1198.05, 	guanylate kinase activity
SPBC17D11.05, tif32, 	protein biosynthesis| eukaryotic translation initiation factor 3 complex| eukaryotic 48S initiation complex
SPAC4G8.08, SPAC4G8.08, 	transport| mitochondrial transport| membrane| mitochondrial membrane
SPAC3F10.13, ucp6, 	protein modification
SPBC18E5.10, SPBC18E5.10, 	energy pathways| electron transport| membrane| mitochondrial inner membrane| mitochondrial membrane| oxidoreductase activity
SPAC31G5.11, pac2, 	conjugation with cellular fusion
SPAC26H5.02c, SPAC26H5.02c, 	S phase of mitotic cell cycle| DNA replication| replication fork| ATPase activity
SPBP4H10.05c, spe2, 	amino acid metabolism| proline metabolism| arginine metabolism| adenosylmethionine decarboxylase activity
SPBC2A9.09, SPBC2A9.09, 	signal transduction
SPCC1682.04, cdc31, 	cell cycle| cell organization and biogenesis| spindle pole body
SPBC428.12c, SPBC428.12c, 	RNA binding
SPCC962.03c, cut15, 	nucleocytoplasmic transport| establishment and/or maintenance of chromatin architecture| cell cycle| transcription| protein targeting| chromosome condensation| DNA packaging| nucleolus| nucleus| nuclear pore
SPCC962.03c, cut15, 	alanyl-tRNA aminoacylation| alanine-tRNA ligase activity| cytoplasm| tRNA metabolism| cytoplasm| alanine-tRNA ligase activity
SPBC19C7.11, SPBC19C7.11, 	transport| anion transport| membrane
SPAC1296.01c, SPAC1296.01c, SPAC22F3.01	protein modification| carbohydrate metabolism| cell organization and biogenesis| phosphoacetylglucosamine mutase activity
SPAC22E12.14c, SPAC22E12.14c, 	protein kinase cascade| signal transduction| protein modification| protein amino acid phosphorylation| protein kinase activity
SPBC24C6.05, sec28, 	intracellular protein transport| cytoplasmic vesicle| Golgi apparatus| Golgi vesicle
SPAC644.12, cdc5, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| cell cycle| mRNA processing| transcription| RNA processing| G2/M transition of mitotic cell cycle| DNA packaging| spliceosome complex| nucleus| DNA binding
SPAC17C9.05c, pmc3, 	regulation of transcription\, DNA-dependent| transcription| mediator complex| nucleus
SPAC3G9.03, rpl2301, rpl23-1	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPBC1734.05c, spf31, 	mRNA processing| protein folding| spliceosome complex
SPBC15C4.05, SPBC15C4.05, 	helicase activity
SPCC4G3.08, psk1, 	signal transduction| protein modification| protein amino acid phosphorylation| protein kinase activity
SPBC2A9.05c, SPBC2A9.05c, 	intracellular protein transport| membrane
SPCC1281.01, ags1, mok1, SPCC17A7.01, SPCC338.01c	cell wall organization and biogenesis| protein modification| cell wall biosynthesis| cell organization and biogenesis| membrane| alpha-1\,3-glucan synthase activity
SPAC26F1.07, SPAC26F1.07, 	isoleucine metabolism| amino acid metabolism| leucine metabolism| oxidoreductase activity
SPAC17A5.13, SPAC17A5.13, 	GTP cyclohydrolase I activity
SPBC12C2.11, SPBC12C2.11, SPBC21D10.02	glutamine-fructose-6-phosphate transaminase (isomerizing) activity
SPBC365.06, pmt3, ubl2, smt3	telomere maintenance| cell cycle| chromosome segregation| cell organization and biogenesis
SPAC3H1.10, SPAC3H1.10, 	response to stress
SPAC186.03, SPAC186.03, 	aspartate metabolism
SPBPB8B6.04c, grt1, SPAPB8B6.04c	regulation of transcription\, DNA-dependent| transcription| transcription regulator activity
SPCC285.15c, rps2802, rps28-2, rps28	protein biosynthesis| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex| cytosolic ribosome (sensu Eukarya)
SPBC25H2.07, tif11, 	protein biosynthesis
SPAC1F8.08, SPAC1F8.08, 	membrane
SPCC18.06c, SPCC18.06c, 	regulation of transcription\, DNA-dependent| transcription| CCR4-NOT core complex
SPCC18.06c, SPCC18.06c, 	arginine biosynthesis| glutamate catabolism| carbamoyl-phosphate synthase (glutamine-hydrolyzing) activity| cytosol| amino acid metabolism| glutamate metabolism| arginine metabolism| cytosol| carbamoyl-phosphate synthase (glutamine-hydrolyzing) activity
SPBC8E4.04, SPBC8E4.04, 	carbohydrate metabolism| oxidoreductase activity
SPAC2E12.03c, SPAC2E12.03c, 	response to stress| conjugation with cellular fusion| signal transduction| membrane
SPAC24B11.08c, SPAC24B11.08c, 	ER to Golgi transport| intracellular protein transport| endoplasmic reticulum| membrane| COPII-coated vesicle| cytoplasmic vesicle| endoplasmic reticulum membrane| Golgi apparatus| Golgi vesicle| Golgi membrane| COPI-coated vesicle
SPCC794.11c, SPCC794.11c, 	actin cytoskeleton organization and biogenesis| endocytosis| intracellular protein transport| cell organization and biogenesis| actin cytoskeleton| actin cortical patch (sensu Fungi)| cytoskeleton
SPAC637.05c, vma2, 	vacuolar membrane| membrane| vacuole| ATPase activity
SPAC4A8.07c, SPAC4A8.07c, 	lipid metabolism| sphingolipid metabolism| Golgi apparatus
SPCC1739.11c, cdc11, 	barrier septum formation| cytokinesis| M phase of mitotic cell cycle
SPAC3H8.06, aur1, 	signal transduction| lipid metabolism| cell organization and biogenesis| membrane
SPBC1683.01, SPBC1683.01, 	transport| anion transport| membrane
SPAC343.16, lys2, 	amino acid metabolism| carbohydrate catabolism| glutamate metabolism| energy pathways| TCA intermediate metabolism| main pathways of carbohydrate metabolism| lysine metabolism| homoaconitate hydratase activity
SPCC16A11.16c, SPCC16A11.16c, 	cell surface
SPAC56F8.08, mud1, ucp1, ddi1	protein modification| intracellular protein transport
SPAC1F7.05, cdc22, 	meiosis| S phase of mitotic cell cycle| DNA replication| ribonucleoside-diphosphate reductase activity
SPBC4B4.04, SPBC4B4.04, 	protein biosynthesis
SPAC23D3.14c, SPAC23D3.14c, 	cell surface| alpha-amylase activity
SPBC23E6.04c, SPBC23E6.04c, 	rRNA processing| RNA processing| nucleolus
SPAC3G6.08, SPAC3G6.08, 	mitochondrion organization and biogenesis| cell organization and biogenesis| mitochondrion
SPBC405.07, rpl3602, rpl36-2, rpl36	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPAC1039.02, SPAC1039.02, 	signal transduction
SPAC521.04c, SPAC521.04c, 	transport| cation transport| membrane
SPAC1093.05, SPAC1093.05, 	rRNA processing| RNA processing| nucleolus| helicase activity
SPBC2F12.10, SPBC2F12.10, 	protein biosynthesis| lipid metabolism| proteolysis and peptidolysis| mitochondrial ribosome
SPAC16E8.04c, SPAC16E8.04c, 	amino acid metabolism| tyrosine metabolism| L-phenylalanine metabolism| tryptophan metabolism| chorismate mutase activity
SPAPB1A10.15, SPAPB1A10.15, 	G1/S transition of mitotic cell cycle| cell cycle| G2/M transition of mitotic cell cycle| lipid metabolism| sphingolipid metabolism| membrane
SPAC22E12.07, rna1, 	RNA processing
SPCC74.03c, ssp2, 	signal transduction| protein modification| protein amino acid phosphorylation| protein kinase activity
SPAC17A5.09c, SPAC17A5.09c, 	signal transduction| protein modification| phosphoprotein phosphatase activity
SPCC61.04c, SPCC61.04c, 	ER to Golgi transport| intracellular protein transport| membrane| cytoplasmic vesicle| Golgi apparatus| Golgi membrane
SPAC4F8.05c, SPAC4F8.05c, 	protein biosynthesis| mitochondrial ribosome
SPCC1672.07, SPCC1672.07, 	RNA processing| nucleolus
SPCC830.06, SPCC830.06, 	signal transduction| protein modification| phosphoprotein phosphatase activity
SPCC1183.11, SPCC1183.11, SPCC31H12.01	transport| membrane
SPCC417.09c, SPCC417.09c, 	regulation of transcription\, DNA-dependent| transcription| transcription regulator activity
SPAC1399.01c, SPAC1399.01c, 	transport| nucleotide transport| membrane
SPCC622.17, apn1, 	DNA repair| cell organization and biogenesis| DNA-(apurinic or apyrimidinic site) lyase activity
SPAC57A10.09c, SPAC57A10.09c, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| regulation of transcription from Pol II promoter| transcription| DNA packaging| cell organization and biogenesis| chromatin| nucleus
SPCC162.09c, hmg1, 	ergosterol biosynthesis| lipid metabolism| coenzyme and prosthetic group metabolism| endoplasmic reticulum| membrane| endoplasmic reticulum membrane| mitochondrion| hydroxymethylglutaryl-CoA reductase (NADPH) activity
SPBC1271.15c, SPBC1271.15c, 	protein biosynthesis| mitochondrion| GTP binding
SPCC825.04c, SPCC825.04c, 	establishment and/or maintenance of chromatin architecture| protein modification| DNA packaging| cell organization and biogenesis| chromatin| acetyltransferase activity
SPAC25B8.10, SPAC25B8.10, 	methyltransferase activity
SPAC1F5.08c, yam8, ehs1	cell ion homeostasis| cell surface
SPAC688.14, SPAC688.14, 	regulation of transcription\, DNA-dependent| transcription| cell organization and biogenesis| chromatin| methyltransferase activity
SPAC1805.08, dlc1, 	meiosis| cell organization and biogenesis| actin cytoskeleton| cytoplasm
SPAC19A8.15, trp2, 	amino acid metabolism| tryptophan metabolism| tryptophan synthase activity
SPBC1734.07c, SPBC1734.07c, 	intracellular protein transport| Golgi cis-face| TRAPP
SPBC4F6.12, SPBC4F6.12, 	cytoskeleton organization and biogenesis| cell organization and biogenesis| establishment and/or maintenance of cell polarity
SPAC1952.16, rga9, 	GTPase regulator activity
SPBC26H8.10, dis3, 	rRNA processing| cell cycle| RNA processing| exosome (RNase complex)
SPAC17C9.16c, SPAC17C9.16c, SPAC9E9.16	transport| membrane
SPCC1827.02c, SPCC1827.02c, 	lipid metabolism
SPCC777.04, SPCC777.04, 	transport| amino acid transport| membrane
SPBP23A10.09, SPBP23A10.09, 	S phase of mitotic cell cycle| DNA replication
SPAC24H6.10c, SPAC24H6.10c, 	amino acid metabolism| tyrosine metabolism| L-phenylalanine metabolism| tryptophan metabolism
SPCP1E11.07c, cwf18, 	mRNA processing| spliceosome complex
SPCC126.11c, SPCC126.11c, 	RNA binding
SPAC3C7.08c, elf1, 	RNA localization| transcription| ATPase activity
SPBC21B10.07, SPBC21B10.07, 	carbohydrate metabolism
SPBC947.02, apl2, 	vesicle-mediated transport| intracellular protein transport| membrane| cytoplasmic vesicle
SPBC28F2.05c, SPBC28F2.05c, 	oxidoreductase activity
SPBC3F6.03, trr1, caf4	pyrimidine base metabolism
SPAC16A10.03c, vps11, pep5	vacuole organization and biogenesis| vacuole fusion\, non-autophagic| intracellular protein transport| vacuolar membrane| membrane| ubiquitin ligase complex| ubiquitin-protein ligase activity
SPBC691.02c, SPBC691.02c, 	regulation of cell cycle
SPCC1739.03, SPCC1739.03, 	mRNA processing| helicase activity
SPAC31G5.01, sap49, SPAPB1A11.05	mRNA processing| RNA processing| RNA binding
SPAC664.10, SPAC664.10, 	cell organization and biogenesis| cytoskeleton| microtubule organizing center| microtubule cytoskeleton
SPAC22E12.02, SPAC22E12.02, 	RNA binding
SPAC1071.10c, pma1, 	transport| cation transport| hydrogen transport| membrane| plasma membrane| ATPase activity| hydrogen-exporting ATPase activity\, phosphorylative mechanism
SPAC18G6.14c, rps7, 	protein biosynthesis| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex| cytosolic ribosome (sensu Eukarya)
SPBC1683.11c, SPBC1683.11c, 	amino acid metabolism| TCA intermediate metabolism| threonine metabolism| mitochondrion| isocitrate lyase activity
SPCC188.03, cnd3, 	establishment and/or maintenance of chromatin architecture| cell cycle| chromosome condensation| DNA packaging| cell organization and biogenesis| condensin complex| nucleus
SPAC6G9.11, syb1, 	vesicle-mediated transport| cytoskeleton organization and biogenesis| cytokinesis| M phase of mitotic cell cycle| intracellular protein transport| establishment and/or maintenance of cell polarity| cytoplasmic vesicle
SPAC1093.01, SPAC1093.01, SPAC12B10.18	mitochondrial inner membrane| mitochondrial membrane
SPCC417.05c, cfh2, 	cell organization and biogenesis| contractile ring (sensu Fungi)
SPCC1450.08c, wtf16, 	membrane
SPBC9B6.03, SPBC9B6.03, 	signal transduction| lipid metabolism
SPBC9B6.03, SPBC9B6.03, 	endonuclease activity\, active with either ribo- or deoxyribonucleic acids and producing 3'-phosphomonoesters| nucleotide-excision repair\, DNA incision\, 3'-to lesion| recombination within rDNA repeats| rDNA maintenance| meiosis| establishment and/or maintenance of chromatin architecture| S phase of mitotic cell cycle| DNA repair| nucleotide-excision repair| DNA recombination| DNA packaging| cell organization and biogenesis| nucleolus| nucleotide excision repair complex| replication fork| chromatin
SPAC664.08c, SPAC664.08c, 	ER to Golgi transport| intracellular protein transport| cytoplasmic vesicle
SPAC31A2.16, gef2, 	signal transduction
SPBC1773.17c, SPBC1773.17c, SPBP26C9.01c	oxidoreductase activity
SPCC970.01, rad16, rad10, rad20, swi9	meiosis| DNA repair| DNA recombination| mating-type switching/recombination| nucleotide excision repair complex
SPCC794.02, wtf5, 	membrane
SPBC1A4.10c, pmc1, SPBP23A10.01c	regulation of transcription\, DNA-dependent| transcription| mediator complex| nucleus
SPAC4G8.10, gos1, 	vesicle-mediated transport| ER to Golgi transport| intracellular protein transport| membrane| cytoplasmic vesicle
SPCC550.14, SPCC550.14, 	cell cycle| chromosome segregation| cell organization and biogenesis| RNA binding
SPAC2F7.17, SPAC2F7.17, 	protein biosynthesis| mitochondrion
SPBC409.06, uch2, 	protein modification| proteolysis and peptidolysis
SPAC890.02c, alp7, mia1	cytoskeleton organization and biogenesis| cell cycle| chromosome segregation| cell organization and biogenesis| establishment and/or maintenance of cell polarity| microtubule| cytoskeleton| spindle pole body| microtubule organizing center| microtubule cytoskeleton
SPCC622.21, wtf12, 	meiosis| membrane
SPAC13G6.05c, SPAC13G6.05c, 	ER to Golgi transport| intracellular protein transport| cytoplasmic vesicle| Golgi cis-face| TRAPP
SPBC16D10.02, SPBC16D10.02, 	methyltransferase activity
SPAPB24D3.08c, SPAPB24D3.08c, 	oxidoreductase activity
SPAC3H1.06c, SPAC3H1.06c, 	transport| membrane
SPBC1706.03, SPBC1706.03, SPBC839.01	mitochondrion organization and biogenesis| cell organization and biogenesis| membrane| mitochondrial outer membrane| mitochondrial membrane| GTP binding
SPAC1D4.13, byr1, ste1, ste3	MAPKKK cascade| sporulation (sensu Fungi)| protein kinase cascade| conjugation with cellular fusion| signal transduction| protein modification| protein amino acid phosphorylation| protein kinase activity
SPAC27D7.06, SPAC27D7.06, 	energy pathways| electron transport| mitochondrion
SPAC630.12, SPAC630.12, 	signal transduction| protein modification| membrane| phosphoprotein phosphatase activity
SPAC19A8.12, SPAC19A8.12, 	mRNA processing
SPAC5D6.04, SPAC5D6.04, 	transport| membrane
SPBC15C4.02, SPBC15C4.02, 	mitochondrion
SPAC1952.11c, ure2, 	nitrogen metabolism| urease activity
SPCC285.12, lsm7, 	mRNA processing| RNA processing| spliceosome complex
SPCC285.12, lsm7, 	FMN metabolism| mitochondrion| FAD biosynthesis| FMN adenylyltransferase activity| coenzyme and prosthetic group metabolism| FMN adenylyltransferase activity
SPBC776.06c, SPBC776.06c, 	cell cycle| cell organization and biogenesis| spindle pole body
SPBC776.06c, SPBC776.06c, 	glutathione biosynthesis| aldo-keto reductase activity| cellular_component unknown| amino acid metabolism| sulfur metabolism| glutamate metabolism| coenzyme and prosthetic group metabolism| oxidoreductase activity
SPBC1A4.07c, SPBC1A4.07c, 	rRNA processing| RNA processing| nucleolus
SPBC646.03, SPBC646.03, 	tRNA metabolism
SPAC23C11.15, pst2, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| transcription| DNA packaging| histone deacetylation| cell organization and biogenesis| chromatin silencing| chromatin remodeling complex| chromatin| acetyltransferase activity
SPCC4G3.09c, gyp3, 	signal transduction
SPAC212.11, SPAC212.11, 	helicase activity
SPBC19F8.07, crk1, mop1, mcs6	regulation of transcription\, DNA-dependent| signal transduction| protein modification| transcription| protein amino acid phosphorylation| transcription factor TFIIH complex| transcription factor complex| chromatin| nucleus| protein kinase activity
SPCP1E11.05c, SPCP1E11.05c, 	lipid metabolism
SPAC823.11, SPAC823.11, 	lipid metabolism| sphingolipid metabolism| membrane
SPAC4F8.01, SPAC4F8.01, SPAC644.03c	intracellular protein transport
SPAC18B11.03c, SPAC18B11.03c, 	membrane
SPCC1840.02c, bgs4, 	cell wall organization and biogenesis| protein modification| carbohydrate metabolism| cell wall biosynthesis| cell organization and biogenesis| plasma membrane| 1\,3-beta-glucan synthase complex
SPAC20H4.03c, tfs1, 	regulation of transcription from Pol II promoter| transcription| transcription factor complex
SPBC18H10.07, SPBC18H10.07, 	mRNA processing| RNA processing
SPAC6F12.09, rdr1, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| transcription| DNA packaging| RNA interference| cell organization and biogenesis| chromatin silencing| chromatin
SPAC1250.03, ubc14, 	conjugation with cellular fusion| proteolysis and peptidolysis| ubiquitin conjugating enzyme activity
SPBC4F6.11c, SPBC4F6.11c, 	aspartate metabolism
SPBC2G5.04c, SPBC2G5.04c, 	ER to Golgi transport| intracellular protein transport| endoplasmic reticulum| membrane| COPII-coated vesicle| cytoplasmic vesicle| endoplasmic reticulum membrane| Golgi apparatus| Golgi vesicle| Golgi membrane| COPI-coated vesicle
SPCC1322.03, SPCC1322.03, 	membrane
SPCC16A11.14, sfh1, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| cell cycle| transcription| DNA packaging| cell organization and biogenesis| chromatin remodeling complex| spindle pole body| chromatin
SPAC16E8.09, scd1, ral1	cytoskeleton organization and biogenesis| spindle assembly| microtubule-based process| cell cycle| barrier septum formation| actin filament-based process| cytokinesis| conjugation with cellular fusion| signal transduction| M phase of mitotic cell cycle| actin cytoskeleton organization and biogenesis| endocytosis| intracellular protein transport| cell organization and biogenesis| establishment and/or maintenance of cell polarity| actin cytoskeleton| cytoskeleton| microtubule organizing center| microtubule cytoskeleton
SPBC3B9.08c, SPBC3B9.08c, 	mRNA processing
SPAC17A2.09c, csx1, 	regulation of transcription\, DNA-dependent| transcription| RNA binding
SPBC660.15, SPBC660.15, 	mRNA processing| RNA processing| mRNA polyadenylation| RNA binding
SPAC24C9.14, SPAC24C9.14, 	proteolysis and peptidolysis
SPAC1A6.09c, lag1, 	response to stress| ER to Golgi transport| lipid metabolism| intracellular protein transport| membrane| cytoplasmic vesicle
SPBC947.15c, SPBC947.15c, 	energy pathways| electron transport| membrane| mitochondrial inner membrane| mitochondrial membrane| mitochondrion| oxidoreductase activity
SPBC947.15c, SPBC947.15c, 	response to oxidative stress| response to drug| glutathione transferase activity| cytoplasm| nucleus| response to stress| glutathione transferase activity
SPBC887.07, SPBC887.07, 	protein biosynthesis| mitochondrial ribosome
SPAC16A10.07c, taz1, myb1, myb	telomere maintenance| meiosis| establishment and/or maintenance of chromatin architecture| sporulation (sensu Fungi)| regulation of transcription\, DNA-dependent| cell cycle| DNA repair| DNA recombination| transcription| G2/M transition of mitotic cell cycle| DNA packaging| chromosome segregation| double-strand break repair| cell organization and biogenesis| chromatin silencing| regulation of cell cycle| chromatin| nucleus| DNA binding
SPAC1805.11c, rps2602, rps26-2	protein biosynthesis| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex| cytosolic ribosome (sensu Eukarya)
SPAC19A8.02, SPAC19A8.02, 	signal transduction| membrane
SPBC3E7.13c, SPBC3E7.13c, 	mRNA processing| spliceosome complex
SPBPB10D8.06c, SPBPB10D8.06c, 	transport| carbohydrate transport| membrane
SPAC17A2.05, SPAC17A2.05, 	energy pathways| mitochondrial electron transport chain| mitochondrial inner membrane| mitochondrion
SPBC839.13c, rpl1601, 	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPAC2G11.07c, ptc3, 	signal transduction| protein modification| phosphoprotein phosphatase activity
SPAC9E9.03, leu2, 	amino acid metabolism| leucine metabolism| 3-isopropylmalate dehydratase activity
SPAC9E9.03, leu2, 	Golgi to vacuole transport| SNAP receptor activity| sporulation| endocytosis| vacuole fusion\, non-autophagic| vesicle-mediated transport| exocytosis| intracellular protein transport| cytoplasmic vesicle
SPBC119.12, SPBC119.12, 	intracellular protein transport| cell organization and biogenesis| Golgi apparatus
SPCC16C4.13c, rpl1201, rpl12-1, rpl12.1	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPAP14E8.04, SPAP14E8.04, 	proteolysis and peptidolysis| membrane
SPBC1709.01, chs2, SPBC1734.17	cytokinesis| M phase of mitotic cell cycle| cell organization and biogenesis| septum
SPAC2F3.01, SPAC2F3.01, SPAC323.09	lipid metabolism| sphingolipid metabolism| membrane
SPAC30C2.02, mmd1, 	microtubule-based process| cell organization and biogenesis| cytoskeleton| cytoplasm| microtubule organizing center| microtubule cytoskeleton
SPAC10F6.10, SPAC10F6.10, 	cell organization and biogenesis
SPBPB8B6.02c, SPBPB8B6.02c, SPAPB8B6.02c	transport| urea transport| membrane
SPBC1105.12, h4.3, hhf3	establishment and/or maintenance of chromatin architecture| DNA packaging| cell organization and biogenesis| chromatin
SPAC6F12.14, cut23, apc8	cell cycle| anaphase-promoting complex| ubiquitin ligase complex| nucleus
SPBC31F10.12, SPBC31F10.12, 	RNA processing| RNA binding
SPAC13D6.05, alp11, SPAC4G9.01	cytoskeleton organization and biogenesis| microtubule-based process| protein folding| cell organization and biogenesis| establishment and/or maintenance of cell polarity| cytoskeleton| microtubule organizing center| microtubule cytoskeleton| chaperone activity
SPBC244.01c, sid4, 	cytokinesis| M phase of mitotic cell cycle
SPBC1685.03, SPBC1685.03, 	proteolysis and peptidolysis| endoplasmic reticulum
SPAC20H4.04, SPAC20H4.04, 	helicase activity
SPBC839.03c, SPBC839.03c, 	cytoskeleton organization and biogenesis| cell organization and biogenesis| establishment and/or maintenance of cell polarity
SPBC19F8.06c, meu22, 	transport| meiosis| amino acid transport| membrane
SPCC1223.01, SPCC1223.01, SPCC285.18	regulation of transcription\, DNA-dependent| ubiquitin ligase complex| ubiquitin-protein ligase activity
SPAC15E1.05c, SPAC15E1.05c, 	lipid metabolism| ethanolamine-phosphate cytidylyltransferase activity
SPBC146.08c, SPBC146.08c, 	protein biosynthesis
SPAC227.12, SPAC227.12, 	rRNA processing| mRNA processing| RNA processing
SPAC56F8.04c, coq2, ppt1	energy pathways| electron transport| ubiquinone biosynthesis| membrane| mitochondrial inner membrane| mitochondrial membrane| mitochondrion
SPAC1002.13c, psu1, 	cell wall organization and biogenesis| carbohydrate metabolism| cell wall biosynthesis| cell organization and biogenesis| cell surface| beta-glucosidase activity
SPAC1002.13c, psu1, 	pentose-phosphate shunt\, oxidative branch| 6-phosphogluconolactonase activity| cytoplasm| pentose-phosphate shunt| cytoplasm| 6-phosphogluconolactonase activity
SPAC6F12.10c, ade3, min11	purine nucleotide metabolism| cytoplasm| phosphoribosylformylglycinamidine synthase activity
SPCC4B3.09c, SPCC4B3.09c, 	protein biosynthesis| mitochondrial ribosome
SPBC1703.02, SPBC1703.02, 	establishment and/or maintenance of chromatin architecture| DNA packaging| cell organization and biogenesis| chromatin remodeling complex| chromatin| DNA binding
SPAC6G9.06c, pcp1, 	spindle assembly| cell cycle| chromosome segregation| cell organization and biogenesis| spindle pole body
SPAC589.06c, SPAC589.06c, 	phosphate metabolism| membrane
SPAC9.09, SPAC9.09, 	cysteine metabolism| amino acid metabolism| sulfur metabolism| methionine metabolism| 5-methyltetrahydropteroyltriglutamate-homocysteine S-methyltransferase activity| methyltransferase activity
SPBC336.08, SPBC336.08, 	cell cycle| cell organization and biogenesis| spindle pole body
SPBP22H7.05c, SPBP22H7.05c, 	establishment and/or maintenance of chromatin architecture| DNA packaging| chromatin| nucleus| ATPase activity
SPBC19C7.09c, uve1, uvde	response to stress| DNA repair| nucleotide-excision repair| nucleotide excision repair complex
SPAPB1A11.04c, SPAPB1A11.04c, 	regulation of transcription\, DNA-dependent| transcription| transcription regulator activity
SPBC31F10.07, SPBC31F10.07, 	actin cytoskeleton organization and biogenesis| endocytosis| intracellular protein transport| cell organization and biogenesis| actin cytoskeleton| actin cortical patch (sensu Fungi)| cytoskeleton
SPAC22A12.03c, csn4, 	cell cycle| S phase of mitotic cell cycle| signalosome complex| nucleus
SPBC106.12c, SPBC106.12c, 	RNA binding
SPAC17G6.17, pof8, 	proteolysis and peptidolysis| ubiquitin ligase complex
SPBC27B12.10c, tom7, 	mitochondrial outer membrane protein import| mitochondrial outer membrane
SPAC630.13c, tsc2, 	amino acid metabolism| protein folding| intracellular protein transport| arginine metabolism| cytosol| chaperone activity
SPCC1795.11, sum3, ded1, slh3, moc2	protein biosynthesis| cytoplasm| helicase activity
SPCC736.11, ago1, csp9	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| cell cycle| transcription| protein biosynthesis| DNA packaging| chromosome segregation| RNA interference| cell organization and biogenesis| chromatin silencing| chromatin
SPBC1271.13, SPBC1271.13, 	protein biosynthesis| mitochondrial ribosome
SPBP16F5.02, mcs2, 	regulation of transcription\, DNA-dependent| cell cycle| transcription| transcription factor TFIIH complex| transcription factor complex| chromatin| nucleus
SPBC1D7.01, SPBC1D7.01, 	protein folding| cell organization and biogenesis| prefoldin complex
SPAC3G9.02, SPAC3G9.02, 	lipid metabolism| mitochondrion| 3-oxoacyl-[acyl-carrier protein] reductase activity
SPAC1783.06c, SPAC1783.06c, 	response to stress
SPBC29A3.05, SPBC29A3.05, 	establishment and/or maintenance of chromatin architecture| DNA packaging| cell organization and biogenesis| chromatin remodeling complex| chromatin
SPBC1105.06, pmc4, 	regulation of transcription\, DNA-dependent| transcription| mediator complex| nucleus
SPMIT.09, atp8, P21536	transport| hydrogen transport| mitochondrial inner membrane| proton-transporting ATP synthase complex (sensu Eukarya)| ATPase activity
SPMIT.09, atp8, P21536	glycine metabolism| L-serine metabolism| one-carbon compound metabolism| glycine hydroxymethyltransferase activity| cytoplasm| amino acid metabolism| L-serine metabolism| glycine metabolism| cytoplasm| methyltransferase activity| glycine hydroxymethyltransferase activity
SPAC12B10.05, SPAC12B10.05, 	proteolysis and peptidolysis
SPCP1E11.08, SPCP1E11.08, 	protein biosynthesis
SPAC644.16, SPAC644.16, 	mRNA processing| RNA processing| mRNA polyadenylation| RNA binding
SPAC23E2.01, fep1, gaf2	transport| regulation of transcription\, DNA-dependent| metal ion transport| transcription
SPAC1F5.02, SPAC1F5.02, 	protein folding| endoplasmic reticulum| protein disulfide isomerase activity
SPAC24H6.13, SPAC24H6.13, 	membrane
SPBC336.01, fdh1, fdh	proteolysis and peptidolysis| ubiquitin ligase complex| DNA binding| helicase activity
SPBC3D6.11c, slx8, 	meiosis| ubiquitin ligase complex| nucleus| ubiquitin-protein ligase activity
SPBC14C8.15, SPBC14C8.15, 	lipid metabolism
SPAPB1A10.12c, SPAPB1A10.12c, 	carbohydrate metabolism| mitochondrion
SPAC12G12.03, SPAC12G12.03, 	cytoplasm| RNA binding
SPBC16D10.09, pcn1, pcn	cell cycle| S phase of mitotic cell cycle| mismatch repair| DNA replication| DNA repair| replication fork
SPBC16A3.12c, SPBC16A3.12c, 	lipid metabolism
SPBC16A3.12c, SPBC16A3.12c, 	valyl-tRNA aminoacylation| valine-tRNA ligase activity| cellular_component unknown| tRNA metabolism| valine-tRNA ligase activity
SPBC3D6.09, dpb4, 	S phase of mitotic cell cycle| DNA replication| replication fork
SPAP27G11.10c, nup184, 	nucleocytoplasmic transport| RNA localization| transcription| protein targeting| nucleus| nuclear pore
SPBC17D11.02c, SPBC17D11.02c, 	endoplasmic reticulum| membrane| endoplasmic reticulum membrane| ubiquitin ligase complex| ubiquitin-protein ligase activity
SPAC7D4.12c, SPAC7D4.12c, 	membrane
SPBC557.03c, pim1, dcd1, ptr2	cell cycle checkpoint| nucleocytoplasmic transport| cell cycle| RNA localization| signal transduction| transcription| RNA processing| protein targeting| regulation of cell cycle
SPAC19G12.09, SPAC19G12.09, 	oxidoreductase activity
SPAC1F3.03, SPAC1F3.03, 	exocytosis| intracellular protein transport
SPBC36.02c, SPBC36.02c, 	transport| membrane
SPAC1B9.02c, sck1, 	protein kinase cascade| signal transduction| protein modification| protein amino acid phosphorylation| protein kinase activity
SPAC16A10.05c, SPAC16A10.05c, 	cell cycle| M phase of mitotic cell cycle| chromosome segregation| cell organization and biogenesis| cytoskeleton| spindle pole body| kinetochore| microtubule organizing center| microtubule cytoskeleton
SPAC1B3.09c, SPAC1B3.09c, 	ribosome biogenesis| cell organization and biogenesis| nucleus
SPAC1B3.09c, SPAC1B3.09c, 	ornithine biosynthesis| arginine biosynthesis via ornithine| glutamate catabolism| acetylornithine transaminase activity| mitochondrial matrix| amino acid metabolism| glutamate metabolism| proline metabolism| arginine metabolism| mitochondrion| acetylornithine transaminase activity
SPAP14E8.05c, SPAP14E8.05c, 	membrane
SPAC23C11.16, plo1, 	spindle assembly| regulation of transcription\, DNA-dependent| cell cycle| barrier septum formation| cytokinesis| signal transduction| protein modification| transcription| M phase of mitotic cell cycle| chromosome condensation| protein amino acid phosphorylation| cell organization and biogenesis| regulation of cell cycle| actin cytoskeleton| cytoskeleton| spindle pole body| protein kinase activity
SPAC15A10.01, SPAC15A10.01, SPAC8C9.18	transport| membrane| mitochondrion
SPCC14G10.03c, SPCC14G10.03c, 	proteolysis and peptidolysis
SPAC23A1.17, SPAC23A1.17, 	signal transduction| actin cytoskeleton organization and biogenesis| cell organization and biogenesis| actin cytoskeleton| actin cortical patch (sensu Fungi)| cytoskeleton
SPBP8B7.08c, SPBP8B7.08c, 	amino acid metabolism| protein modification| leucine metabolism| methyltransferase activity
SPBC12C2.08, SPBC12C2.08, 	mitochondrion organization and biogenesis| mitochondrial fission| cell organization and biogenesis| mitochondrial outer membrane| mitochondrial membrane
SPBC3E7.06c, SPBC3E7.06c, 	transport| membrane
SPCC4G3.07c, SPCC4G3.07c, 	regulation of transcription\, DNA-dependent| transcription
SPAC637.11, SPAC637.11, 	mitochondrion| helicase activity
SPCC663.02, wtf14, 	membrane
SPAC6F6.04c, SPAC6F6.04c, 	transport| membrane
SPAC57A7.05, SPAC57A7.05, 	membrane
SPBC1A4.06c, SPBC1A4.06c, 	mitochondrial matrix protein import| mitochondrion
SPBC30D10.07c, SPBC30D10.07c, 	coenzyme and prosthetic group metabolism| biotin-[acetyl-CoA-carboxylase] ligase activity
SPAC7D4.06c, SPAC7D4.06c, 	protein modification| carbohydrate metabolism| membrane
SPBC887.14c, pfh1, pif1	cell cycle arrest| meiosis| S phase of mitotic cell cycle| DNA replication| DNA repair| helicase activity| ATPase activity
SPCC622.18, rpl6, 	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPAC977.10, sod2, 	transport| cation transport| membrane
SPBC1703.14c, top1, 	establishment and/or maintenance of chromatin architecture| DNA packaging| cell organization and biogenesis| chromatin| DNA topoisomerase type I activity
SPBC1703.14c, top1, 	arginine biosynthesis| ornithine biosynthesis| N-acetyl-gamma-glutamyl-phosphate reductase activity| acetylglutamate kinase activity| mitochondrion| amino acid metabolism| arginine metabolism| mitochondrion| N-acetyl-gamma-glutamyl-phosphate reductase activity| acetylglutamate kinase activity
SPCC63.13, SPCC63.13, 	protein folding
SPAC11E3.12, SPAC11E3.12, 	energy pathways| electron transport| membrane| mitochondrial inner membrane| mitochondrial membrane| mitochondrion| respiratory chain complex I (sensu Eukarya)| NADH dehydrogenase (ubiquinone) activity| oxidoreductase activity
SPBC19C2.10, SPBC19C2.10, 	signal transduction
SPAC26H5.05, SPAC26H5.05, 	regulation of transcription\, DNA-dependent| transcription| cell organization and biogenesis
SPCC1494.01, SPCC1494.01, SPCC965.15	oxidoreductase activity
SPCC126.12, SPCC126.12, 	regulation of transcription\, DNA-dependent| transcription
SPCC613.06, rpl902, rpl9-2	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPCC613.06, rpl902, rpl9-2	phenylalanyl-tRNA aminoacylation| phenylalanine-tRNA ligase activity| mitochondrion| alanine metabolism| protein biosynthesis| tRNA metabolism| mitochondrion| phenylalanine-tRNA ligase activity
SPBP19A11.06, lid2, SPBP4H10.01	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| transcription| DNA packaging| cell organization and biogenesis| chromatin remodeling complex| Lid2 complex| chromatin| DNA binding
SPBC405.06, SPBC405.06, 	protein folding
SPBP16F5.08c, SPBP16F5.08c, 	protein modification| protein folding
SPBC1347.09, SPBC1347.09, 	mitochondrial inner membrane| mitochondrial membrane| methyltransferase activity
SPAC7D4.15c, SPAC7D4.15c, 	N-linked glycosylation| protein modification| carbohydrate metabolism
SPAC23G3.08c, ubp7, 	proteolysis and peptidolysis
SPAC23G3.08c, ubp7, 	transcription from Pol II promoter| DNA-directed RNA polymerase activity| DNA binding| DNA-directed RNA polymerase II\, core complex| regulation of transcription from Pol II promoter| transcription| DNA-directed RNA polymerase II\, holoenzyme| nucleus| DNA binding| DNA-directed RNA polymerase activity
SPAC9.08c, SPAC9.08c, 	lipid metabolism| membrane
SPAC24C9.03, SPAC24C9.03, 	steroid metabolism| ergosterol biosynthesis| lipid metabolism| coenzyme and prosthetic group metabolism| diphosphomevalonate decarboxylase activity
SPBC32F12.06, pch1, 	cell cycle
SPCC1620.01c, lsm2, 	mRNA processing| RNA processing| spliceosome complex
SPBC1773.07c, sbp1, yrb1	cell cycle| GTP binding
SPBC2F12.15c, SPBC2F12.15c, 	lipid metabolism| membrane
SPAC17H9.17c, SPAC17H9.17c, 	mitochondrion organization and biogenesis| actin cytoskeleton organization and biogenesis| cell organization and biogenesis| mitochondrial outer membrane| actin cytoskeleton| mitochondrial membrane| cytoskeleton
SPAPB1E7.02c, mcl1, 	cell cycle| S phase of mitotic cell cycle| DNA replication| DNA repair| sister chromatid cohesion| chromosome segregation| cell organization and biogenesis| replication fork
SPAC1565.04c, ste4, 	meiosis| conjugation with cellular fusion| signal transduction
SPAC12G12.06c, SPAC12G12.06c, 	RNA processing
SPAC644.05c, SPAC644.05c, 	dUTP diphosphatase activity
SPAC750.07c, SPAC750.07c, 	cell surface
SPAC1565.08, SPAC1565.08, SPAC6F12.01	proteolysis and peptidolysis| ATPase activity
SPBC1861.07, SPBC1861.07, 	regulation of transcription from Pol II promoter| transcription| chromatin
SPAC664.07c, rad9, 	cell cycle checkpoint| DNA replication checkpoint| S phase of mitotic cell cycle| DNA replication| DNA repair| DNA damage response\, signal transduction resulting in cell cycle arrest| regulation of cell cycle
SPAC19B12.09, srp14, 	protein-ER targeting| protein targeting| intracellular protein transport| endoplasmic reticulum| signal recognition particle| signal sequence binding
SPAC19B12.09, srp14, 	threonyl-tRNA aminoacylation| threonine-tRNA ligase activity| cytoplasm| tRNA metabolism| cytoplasm| threonine-tRNA ligase activity
SPBC16H5.03c, uba2, 	proteolysis and peptidolysis
SPAC227.08c, yth1, 	mRNA processing| RNA processing| mRNA polyadenylation
SPBC36.12c, git7, 	regulation of transcription\, DNA-dependent| signal transduction| transcription| cell organization and biogenesis| purine nucleotide metabolism
SPAPJ696.01c, vps17, 	signal transduction| intracellular protein transport
SPCC1840.06, atp5, 	hydrogen transport| mitochondrial inner membrane| proton-transporting ATP synthase complex (sensu Eukarya)| mitochondrion| ATPase activity
SPAC16E8.16, SPAC16E8.16, 	regulation of transcription\, DNA-dependent| regulation of transcription from Pol II promoter| transcription| transcription factor complex| chromatin| nucleus| transcription factor activity
SPAC19A8.01c, sec73, sec7c, SPAC23H3.01	intracellular protein transport
SPBC1289.14, SPBC1289.14, SPBC8E4.10c	cell organization and biogenesis
SPBC6B1.07, prp1, zer1	mRNA processing
SPAC24H6.05, cdc25, sal2	cell cycle checkpoint| regulation of cyclin dependent protein kinase activity| cell cycle| DNA repair| DNA damage response\, signal transduction resulting in cell cycle arrest| signal transduction| protein modification| G2/M transition of mitotic cell cycle| regulation of mitotic cell cycle| mitotic cell cycle| regulation of cell cycle| nucleus| phosphoprotein phosphatase activity| protein tyrosine phosphatase activity
SPAC17G8.08c, SPAC17G8.08c, 	membrane
SPAC17G8.08c, SPAC17G8.08c, 	histidyl-tRNA aminoacylation| histidine-tRNA ligase activity| cytoplasm| mitochondrion| tRNA metabolism| mitochondrion| cytoplasm| histidine-tRNA ligase activity
SPBC582.05c, brc1, 	DNA repair| regulation of cell cycle
SPBP4H10.20, nhm1, DcpS	rRNA processing| mRNA processing| RNA processing| exosome (RNase complex)| nucleus| RNA binding
SPBC1778.04, spo6, 	meiosis| sporulation (sensu Fungi)| S phase of mitotic cell cycle
SPBC18E5.04, rpl1001, rpl10-1	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPAC1805.16c, SPAC1805.16c, 	nucleoside metabolism
SPAC12B10.02c, SPAC12B10.02c, 	membrane
SPAC25G10.01, SPAC25G10.01, SPAC2C4.18	RNA binding
SPBC1105.05, exg1, 	carbohydrate metabolism| glucan 1\,3-beta-glucosidase activity
SPBC4F6.09, str1, 	transport| metal ion transport| membrane
SPBC21H7.02, taf10, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| regulation of transcription from Pol II promoter| transcription| DNA packaging| cell organization and biogenesis| transcription factor TFIID complex| SAGA complex| transcription factor complex| chromatin| nucleus| transcription factor activity
SPBC1826.01c, SPBC1826.01c, 	establishment and/or maintenance of chromatin architecture| transcription| DNA packaging| cell organization and biogenesis| chromatin remodeling complex| chromatin| helicase activity
SPCC23B6.05c, ssb3, rpa3	telomere maintenance| meiosis| S phase of mitotic cell cycle| DNA replication| DNA repair| cell organization and biogenesis| regulation of cell cycle| DNA replication factor A complex| replication fork| DNA binding
SPBC18E5.02c, SPBC18E5.02c, SPBC29A3.20c	lipid metabolism| endoplasmic reticulum| endoplasmic reticulum membrane| serine C-palmitoyltransferase activity
SPAC323.08, SPAC323.08, 	RNA processing| tRNA metabolism
SPAC823.12, SPAC823.12, 	intracellular protein transport| vacuolar membrane| membrane| ubiquitin ligase complex| ubiquitin-protein ligase activity
SPAC823.12, SPAC823.12, 	threonine biosynthesis| methionine metabolism| aspartate kinase activity| cellular_component unknown| amino acid metabolism| sulfur metabolism| aspartate metabolism| methionine metabolism| threonine metabolism| aspartate kinase activity
SPBC1652.02, aap1, SPBC16A3.20c	transport| amino acid transport| membrane
SPAC23H3.03c, SPAC23H3.03c, 	endoplasmic reticulum
SPAC6G9.12, SPAC6G9.12, 	conjugation with cellular fusion| cell organization and biogenesis
SPAC5H10.09c, SPAC5H10.09c, 	coenzyme and prosthetic group metabolism| methyltransferase activity| 3-methyl-2-oxobutanoate hydroxymethyltransferase activity
SPAC4H3.01, SPAC4H3.01, 	protein folding
SPAC13G6.14, aps1, SPAC24B11.03	signal transduction| lipid metabolism
SPCC550.15c, SPCC550.15c, 	regulation of transcription\, DNA-dependent| proteolysis and peptidolysis
SPAP8A3.11c, SPAP8A3.11c, 	GTP binding
SPCC4B3.04c, SPCC4B3.04c, 	lipid metabolism| membrane
SPAC9G1.02, wis4, wak1, wik1	MAPKKK cascade| protein kinase cascade| cell cycle| signal transduction| protein modification| regulation of mitotic cell cycle| protein amino acid phosphorylation| mitotic cell cycle| protein kinase activity
SPAC4G9.12, SPAC4G9.12, 	carbohydrate catabolism| energy pathways| glycolysis| carbohydrate metabolism| main pathways of carbohydrate metabolism| gluconokinase activity
SPAC17G6.05c, SPAC17G6.05c, 	signal transduction| intracellular protein transport
SPAC3C7.09, SPAC3C7.09, 	regulation of transcription\, DNA-dependent| transcription| cell organization and biogenesis| chromatin| methyltransferase activity
SPAC3C7.09, SPAC3C7.09, 	phospholipid\:diacylglycerol acyltransferase activity| triacylglycerol biosynthesis| diacylglycerol metabolism| lipid storage| lipid metabolism| membrane| phospholipid\:diacylglycerol acyltransferase activity
SPCC1183.03c, SPCC1183.03c, 	cell ion homeostasis| cell organization and biogenesis| mitochondrion
SPBC23G7.06c, SPBC23G7.06c, 	signal transduction
SPAC343.06c, SPAC343.06c, 	signal transduction| lipid metabolism
SPCC970.11c, wtf9, 	membrane
SPBC3E7.10, SPBC3E7.10, 	proteolysis and peptidolysis| methionyl aminopeptidase activity
SPBC337.05c, cct8, 	microtubule-based process| protein folding| tubulin folding| cell organization and biogenesis| actin cytoskeleton| cytoskeleton| chaperonin-containing T-complex| microtubule organizing center| microtubule cytoskeleton
SPCC622.19, jmj4, 	regulation of transcription\, DNA-dependent| transcription
SPBC354.03, swd3, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| transcription| DNA packaging| cell organization and biogenesis| chromatin silencing| chromatin remodeling complex| chromatin
SPBC14C8.02, SPBC14C8.02, 	mitochondrial matrix protein import| mitochondrial inner membrane| mitochondrial membrane
SPAC19A8.13, SPAC19A8.13, 	mRNA processing| RNA processing| spliceosome complex| RNA binding
SPAC2F7.03c, pom1, 	cytoskeleton organization and biogenesis| cytokinesis| signal transduction| protein modification| M phase of mitotic cell cycle| protein amino acid phosphorylation| cell organization and biogenesis| establishment and/or maintenance of cell polarity| protein kinase activity
SPAC1527.03, SPAC1527.03, 	RNA binding
SPBC725.13c, SPBC725.13c, 	DNA repair
SPBC15C4.03, SPBC15C4.03, 	lipid metabolism
SPBC119.01, rpn3, SPBPJ4664.07	proteolysis and peptidolysis| proteasome complex (sensu Eukarya)
SPBC13E7.05, SPBC13E7.05, 	signal transduction| protein modification| carbohydrate metabolism| lipid metabolism| membrane
SPBC19F5.05c, ppp1, SPBC25D12.01c	ribosome biogenesis| S phase of mitotic cell cycle| DNA replication| cell organization and biogenesis| nucleolus| replication fork
SPAP8A3.08, cdc4, 	cytoskeleton organization and biogenesis| barrier septum formation| cytokinesis| signal transduction| M phase of mitotic cell cycle| chromosome condensation| lipid metabolism| cell organization and biogenesis| establishment and/or maintenance of cell polarity| contractile ring (sensu Fungi)| actin cytoskeleton| cytoskeleton
SPBPB2B2.07c, SPBPB2B2.07c, 	cell surface
SPBP26C9.02c, car1, 	amino acid metabolism| arginine metabolism| arginase activity
SPBC3E7.11c, SPBC3E7.11c, 	protein folding
SPCC320.13c, ark1, aim1, SPCC330.16	spindle assembly| cell cycle| signal transduction| protein modification| protein amino acid phosphorylation| cell organization and biogenesis| regulation of cell cycle| cytoskeleton| microtubule organizing center| microtubule cytoskeleton| protein kinase activity
SPBC4B4.07c, SPBC4B4.07c, 	mRNA processing| RNA processing| RNA binding
SPAC31A2.04c, SPAC31A2.04c, 	proteolysis and peptidolysis| proteasome complex (sensu Eukarya)
SPBC3B9.19, SPBC3B9.19, 	protein folding| mitochondrion| chaperone activity
SPAC29A4.18, prw1, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| transcription| DNA packaging| histone deacetylation| cell organization and biogenesis| chromatin silencing| chromatin remodeling complex| chromatin| acetyltransferase activity
SPCC4G3.02, aph1, 	pyrimidine base metabolism| nucleoside metabolism| purine nucleotide metabolism| bis(5'-nucleosyl)-tetraphosphatase (asymmetrical) activity
SPCC4G3.02, aph1, 	lysyl-tRNA aminoacylation| lysine-tRNA ligase activity| cytoplasm| tRNA metabolism| cytoplasm| lysine-tRNA ligase activity
SPBC31F10.13c, SPBC31F10.13c, 	cell organization and biogenesis| chromatin
SPAC17A5.03, rpl301, rpl3-1, rpl3	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPAC32A11.04c, tif212, tif22, SPAC6B12.17c	protein biosynthesis
SPAC26F1.09, gyp51, 	signal transduction
SPCC737.09c, hmt1, SPCC74.08c	transport| metal ion transport| response to stress| vacuolar membrane| membrane
SPCC737.09c, hmt1, SPCC74.08c	leucyl-tRNA aminoacylation| leucine-tRNA ligase activity| mitochondrion| tRNA metabolism| mitochondrion| leucine-tRNA ligase activity
SPCC970.02, SPCC970.02, 	carbohydrate metabolism| cell surface
SPAC31G5.02, SPAC31G5.02, 	cell cycle| membrane
SPBC947.11c, SPBC947.11c, 	meiosis| ATPase activity
SPBC3H7.13, SPBC3H7.13, 	membrane
SPBC16G5.04, SPBC16G5.04, 	protein biosynthesis| mitochondrial ribosome
SPBC16A3.15c, nda2, 	microtubule-based process| chromosome segregation| cell organization and biogenesis| microtubule| cytoskeleton| microtubule organizing center| microtubule cytoskeleton
SPCC16A11.13, luc7, 	mRNA processing| spliceosome complex
SPCC338.10c, cox5, 	energy pathways| electron transport| mitochondrial inner membrane| mitochondrial membrane
SPAPB8E5.04c, SPAPB8E5.04c, 	signal transduction| lipid metabolism
SPBP8B7.09c, SPBP8B7.09c, 	RNA localization| tRNA metabolism| tRNA splicing| nuclear pore
SPAC4D7.04c, SPAC4D7.04c, 	protein modification| endoplasmic reticulum| endoplasmic reticulum membrane
SPBC17D11.06, spp2, pri2	telomere maintenance| cell cycle| S phase of mitotic cell cycle| DNA replication| cell organization and biogenesis| replication fork
SPAC16A10.06c, SPAC16A10.06c, 	DNA repair| nucleus
SPAC3C7.06c, pit1, 	sporulation (sensu Fungi)| signal transduction| protein modification| protein amino acid phosphorylation| protein kinase activity
SPBC11C11.08, srp1, 	mRNA processing| nucleus| RNA binding
SPAC222.05c, SPAC222.05c, 	GTP binding
SPAPB1E7.09, SPAPB1E7.09, 	protein modification| carbohydrate metabolism| membrane
SPBC354.12, gpd3, 	carbohydrate catabolism| energy pathways| glycolysis| main pathways of carbohydrate metabolism| glyceraldehyde-3-phosphate dehydrogenase (phosphorylating) activity| oxidoreductase activity
SPBC16A3.05c, rae1, 	nucleocytoplasmic transport| cell cycle| RNA localization| transcription| protein targeting| nucleus| nuclear pore
SPAC17C9.09c, tim13, 	mitochondrion
SPBC9B6.06, SPBC9B6.06, 	protein biosynthesis| mitochondrial ribosome
SPBC106.17c, SPBC106.17c, 	amino acid metabolism| sulfur metabolism| L-serine metabolism| methionine metabolism| acetyltransferase activity| homoserine O-acetyltransferase activity
SPAC17C9.11c, SPAC17C9.11c, 	regulation of transcription\, DNA-dependent
SPAC2C4.14c, SPAC2C4.14c, 	sporulation (sensu Fungi)| signal transduction| protein modification| protein amino acid phosphorylation| protein kinase activity
SPAC3A11.08, pcu4, Cul-4	cell cycle| S phase of mitotic cell cycle| proteolysis and peptidolysis| signalosome complex| ubiquitin ligase complex| nucleus
SPBC1539.07c, SPBC1539.07c, 	oxidoreductase activity| formaldehyde dehydrogenase (glutathione) activity
SPCC63.03, SPCC63.03, 	protein folding
SPCC338.17c, rad21, 	cell cycle| S phase of mitotic cell cycle| DNA repair| sister chromatid cohesion| M phase of mitotic cell cycle| double-strand break repair| cell organization and biogenesis| mitotic cohesin complex| kinetochore| nucleus
SPAC631.02, SPAC631.02, 	establishment and/or maintenance of chromatin architecture| DNA packaging| chromatin| nucleus
SPBC8D2.09c, SPBC8D2.09c, 	mRNA processing| spliceosome complex| RNA binding
SPAC1D4.12, rad15, rhp3	regulation of transcription\, DNA-dependent| DNA repair| nucleotide-excision repair| transcription| transcription factor TFIIH complex| transcription factor complex| nucleotide excision repair complex| chromatin| nucleus| helicase activity
SPAC23C11.17, SPAC23C11.17, 	membrane
SPBC16G5.11c, bag101, bag1-a, bag1	protein folding| chaperone regulator activity
SPAC144.05, SPAC144.05, 	establishment and/or maintenance of chromatin architecture| DNA repair| DNA packaging| cell organization and biogenesis| chromatin remodeling complex| chromatin| ubiquitin ligase complex| helicase activity| ubiquitin-protein ligase activity| ATPase activity
SPBC16G5.08, trp4, 	amino acid metabolism| tryptophan metabolism| anthranilate phosphoribosyltransferase activity
SPCC285.09c, cgs2, pde1	purine nucleotide metabolism| 3'\,5'-cyclic-nucleotide phosphodiesterase activity
SPAC2F3.02, SPAC2F3.02, 	protein-ER targeting| protein targeting| intracellular protein transport| endoplasmic reticulum| signal recognition particle| signal sequence binding
SPBC660.17c, SPBC660.17c, 	membrane
SPAC22E12.19, SPAC22E12.19, SPAC2E12.01	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| transcription| DNA packaging| nucleus| DNA binding
SPAC3A12.12, atp11, 	energy pathways| electron transport| protein folding| hydrogen transport| cell organization and biogenesis| ATPase activity
SPAC29A4.08c, prp19, cwf8	mRNA processing| spliceosome complex| ubiquitin ligase complex| ubiquitin-protein ligase activity
SPAC29A4.08c, prp19, cwf8	isoleucyl-tRNA aminoacylation| isoleucine-tRNA ligase activity| mitochondrion| tRNA metabolism| mitochondrion| isoleucine-tRNA ligase activity
SPAP14E8.03, bos1, 	vesicle-mediated transport| ER to Golgi transport| intracellular protein transport| membrane| cytoplasmic vesicle
SPAC22E12.11c, SPAC22E12.11c, 	regulation of transcription\, DNA-dependent| transcription| cell organization and biogenesis| chromatin| nucleus| methyltransferase activity
SPBP35G2.14, SPBP35G2.14, 	RNA binding
SPAPB24D3.02c, SPAPB24D3.02c, 	transport| amino acid transport| membrane
SPAC3A12.09c, SPAC3A12.09c, 	nitrogen metabolism
SPAC890.03, SPAC890.03, 	signal transduction| protein modification| protein amino acid phosphorylation| protein kinase activity
SPBC12C2.10c, pst1, SPBC21D10.01c	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| transcription| DNA packaging| histone deacetylation| cell organization and biogenesis| chromatin silencing| chromatin
SPCC1827.03c, SPCC1827.03c, 	lipid metabolism| membrane| plasma membrane
SPBC646.09c, yin6, int6	microtubule-based process| cell cycle| S phase of mitotic cell cycle| protein biosynthesis| chromosome segregation| proteolysis and peptidolysis| cell organization and biogenesis| signalosome complex| cytoskeleton| nucleus| microtubule organizing center| microtubule cytoskeleton
SPBC543.07, pek1, skh1, mkk1	MAPKKK cascade| protein kinase cascade| signal transduction| protein modification| protein amino acid phosphorylation| protein kinase activity
SPCC1281.02c, spf30, 	mRNA processing| spliceosome complex
SPAC1687.22c, SPAC1687.22c, SPAC222.02c	RNA binding
SPAC30.02c, SPAC30.02c, 	transcription| nucleus| polynucleotide 5'-hydroxyl-kinase activity
SPBC106.11c, SPBC106.11c, 	lipid metabolism| 1-alkyl-2-acetylglycerophosphocholine esterase activity
SPAC2E1P5.03, SPAC2E1P5.03, 	protein folding
SPBC3B9.16c, nup120, 	nucleocytoplasmic transport| RNA localization| transcription| protein targeting| nucleus| nuclear pore
SPCC550.06c, hsp10, 	response to stress| protein folding| mitochondrion| chaperone activity| heat shock protein activity
SPBC4F6.18c, arf1, 	intracellular protein transport| membrane| Golgi apparatus| Golgi membrane| GTPase activity| GTP binding
SPAC11D3.15, SPAC11D3.15, 	amino acid metabolism| glutamate metabolism| proline metabolism
SPCC4B3.14, cwf20, 	mRNA processing| spliceosome complex
SPCC830.10, SPCC830.10, 	DNA repair
SPAC19G12.14, its3, 	cytokinesis| signal transduction| M phase of mitotic cell cycle| lipid metabolism| 1-phosphatidylinositol-4-phosphate 5-kinase activity
SPBC839.11c, hut1, 	transport| protein modification| amine/polyamine transport| intracellular protein transport| cell organization and biogenesis| carbohydrate transport| membrane
SPBC1773.16c, SPBC1773.16c, 	regulation of transcription\, DNA-dependent| transcription| transcription regulator activity
SPAC13G7.03, SPAC13G7.03, 	mRNA processing
SPAC18G6.03, ypt3, 	cytokinesis| signal transduction| M phase of mitotic cell cycle| exocytosis| intracellular protein transport| cell organization and biogenesis| cytoplasm| GTP binding
SPAC18G6.03, ypt3, 	pentose-phosphate shunt\, oxidative branch| glucose 6-phosphate utilization| glucose-6-phosphate 1-dehydrogenase activity| cytoplasm| carbohydrate metabolism| pentose-phosphate shunt| cytoplasm| oxidoreductase activity| glucose-6-phosphate 1-dehydrogenase activity
SPAC23D3.02, rfc2, 	S phase of mitotic cell cycle| DNA replication| replication fork| ATPase activity
SPBC3F6.04c, SPBC3F6.04c, 	ribosome biogenesis| rRNA processing| RNA processing| cell organization and biogenesis| nucleolus
SPAC6F6.17, rif1, tap1, tap11, SPAPJ736.01	telomere maintenance| establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| transcription| DNA packaging| cell organization and biogenesis| chromatin silencing| chromatin
SPAC24H6.04, hxk1, 	carbohydrate catabolism| energy pathways| glycolysis| main pathways of carbohydrate metabolism| hexokinase activity
SPBC1539.03c, argx, 	amino acid metabolism| arginine metabolism| argininosuccinate lyase activity
SPCC16C4.09, sts5, 	cytoskeleton organization and biogenesis| signal transduction| cell organization and biogenesis| establishment and/or maintenance of cell polarity
SPAC11H11.06, arp2, SPAC22F8.01	cytoskeleton organization and biogenesis| actin filament-based process| actin cytoskeleton organization and biogenesis| endocytosis| intracellular protein transport| cell organization and biogenesis| establishment and/or maintenance of cell polarity| actin cytoskeleton| actin cortical patch (sensu Fungi)| cytoskeleton| Arp2/3 protein complex
SPAPB17E12.02, yip12, yip1, yip1-b	mRNA processing| RNA processing| cell organization and biogenesis
SPAC227.09, SPAC227.09, 	amino acid metabolism| glutamate metabolism
SPCC16C4.11, pef1, 	cell cycle| signal transduction| protein modification| protein amino acid phosphorylation| protein kinase activity
SPAC6G10.04c, SPAC6G10.04c, 	proteolysis and peptidolysis| proteasome complex (sensu Eukarya)
SPBC216.06c, swi1, 	cell cycle checkpoint| DNA replication checkpoint| meiosis| S phase of mitotic cell cycle| DNA replication| DNA recombination| mating-type switching/recombination| regulation of cell cycle| replication fork
SPBC30D10.05c, SPBC30D10.05c, 	oxidoreductase activity
SPBC21C3.17c, SPBC21C3.17c, 	membrane
SPBC16G5.07c, SPBC16G5.07c, 	proteolysis and peptidolysis| mitochondrion
SPAC1782.06c, SPAC1782.06c, 	proteolysis and peptidolysis| mitochondrion
SPBC21C3.20c, git1, 	signal transduction
SPAC186.01, SPAC186.01, 	cell surface
SPBC36.05c, clr6, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| transcription| DNA packaging| cell organization and biogenesis| chromatin silencing| chromatin remodeling complex| transcription factor complex| chromatin
SPCC417.08, tef3, EF-3	protein biosynthesis| ATPase activity
SPAPB1A10.13, SPAPB1A10.13, 	cell surface
SPAPB1A10.13, SPAPB1A10.13, 	transcription from Pol I promoter| transcription from Pol II promoter| transcription from Pol III promoter| DNA-directed RNA polymerase activity| DNA-directed RNA polymerase I complex| DNA-directed RNA polymerase II\, holoenzyme| DNA-directed RNA polymerase III complex| transcription from Pol I promoter| transcription from Pol III promoter| regulation of transcription from Pol II promoter| transcription| DNA-directed RNA polymerase I complex| nucleolus| DNA-directed RNA polymerase II\, holoenzyme| DNA-directed RNA polymerase III complex| nucleus
SPCC297.04c, SPCC297.04c, 	regulation of transcription\, DNA-dependent| transcription| cell organization and biogenesis| chromatin| methyltransferase activity
SPAC222.14c, SPAC222.14c, 	GTP binding
SPCC1682.06, SPCC1682.06, 	membrane
SPAC16C9.06c, SPAC16C9.06c, 	S phase of mitotic cell cycle| mRNA processing| helicase activity
SPAC10F6.13c, SPAC10F6.13c, 	cysteine metabolism| amino acid metabolism| sulfur metabolism| aspartate metabolism| aspartate transaminase activity
SPAC23D3.04c, gpd2, 	carbohydrate metabolism| oxidoreductase activity
SPCC1223.05c, rpl3702, rpl37-2, rpl37	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPCC1223.05c, rpl3702, rpl37-2, rpl37	transcription from Pol I promoter| transcription from Pol II promoter| transcription from Pol III promoter| DNA-directed RNA polymerase activity| DNA-directed RNA polymerase I complex| DNA-directed RNA polymerase II\, holoenzyme| DNA-directed RNA polymerase III complex| transcription from Pol I promoter| transcription from Pol III promoter| regulation of transcription from Pol II promoter| transcription| DNA-directed RNA polymerase I complex| nucleolus| DNA-directed RNA polymerase II\, holoenzyme| DNA-directed RNA polymerase III complex| nucleus
SPAC1D4.04, cct2, 	microtubule-based process| protein folding| tubulin folding| cell organization and biogenesis| actin cytoskeleton| cytoskeleton| chaperonin-containing T-complex| microtubule organizing center| microtubule cytoskeleton
SPAC19G12.08, SPAC19G12.08, 	lipid metabolism| endoplasmic reticulum| membrane
SPAC1687.19c, SPAC1687.19c, 	tRNA metabolism| queuine tRNA-ribosyltransferase activity
SPAC644.15, rpp101, rpp1-1	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPBP8B7.20c, SPBP8B7.20c, 	RNA processing| nucleolus| methyltransferase activity
SPAC1002.14, itt1, 	protein biosynthesis| ubiquitin ligase complex| ubiquitin-protein ligase activity
SPAC6F6.03c, SPAC6F6.03c, 	nucleocytoplasmic transport| protein targeting| nucleus| GTP binding
SPBC1105.14, SPBC1105.14, 	regulation of transcription\, DNA-dependent| transcription
SPAC926.03, rlc1, 	cytokinesis| M phase of mitotic cell cycle| chromosome condensation| cell organization and biogenesis| contractile ring (sensu Fungi)| actin cytoskeleton| cytoskeleton
SPBC11G11.06c, sme1, 	mRNA processing| RNA processing
SPBC530.11c, SPBC530.11c, 	regulation of transcription\, DNA-dependent| transcription
SPAC977.09c, SPAC977.09c, 	lipid metabolism| lysophospholipase activity
SPBC25B2.04c, SPBC25B2.04c, 	mitochondrion
SPBPB8B6.05c, SPBPB8B6.05c, SPAPB8B6.05c	aspartate metabolism| asparaginase activity
SPAC23A1.07, SPAC23A1.07, 	ubiquitin ligase complex| ubiquitin-protein ligase activity
SPAC24C9.08, SPAC24C9.08, 	proteolysis and peptidolysis| vacuole| Gly-X carboxypeptidase activity
SPAC31A2.05c, mis4, 	establishment and/or maintenance of chromatin architecture| cell cycle| S phase of mitotic cell cycle| DNA replication| sister chromatid cohesion| M phase of mitotic cell cycle| DNA packaging| cell organization and biogenesis| kinetochore| chromatin
SPCC1672.09, SPCC1672.09, 	lipid metabolism
SPCC18B5.10c, SPCC18B5.10c, 	transcription export complex
SPAC1296.02, cox4, 	energy pathways| electron transport| mitochondrial inner membrane| mitochondrial membrane| mitochondrion
SPBC13E7.04, atp16, 	hydrogen transport| mitochondrial inner membrane| proton-transporting ATP synthase complex (sensu Eukarya)| mitochondrion| ATPase activity
SPBC1778.06c, fim1, 	cytoskeleton organization and biogenesis| cytokinesis| M phase of mitotic cell cycle| chromosome condensation| actin cytoskeleton organization and biogenesis| cell organization and biogenesis| establishment and/or maintenance of cell polarity| actin cytoskeleton| actin cortical patch (sensu Fungi)| cytoskeleton
SPAC17G6.07c, SPAC17G6.07c, 	vesicle-mediated transport| intracellular protein transport| retrograde transport\, Golgi to ER| endoplasmic reticulum| membrane| cytoplasmic vesicle| endoplasmic reticulum membrane
SPCC548.05c, SPCC548.05c, 	ubiquitin ligase complex| ubiquitin-protein ligase activity
SPCC645.05c, myo2, rng5	cell cycle| cytokinesis| M phase of mitotic cell cycle| chromosome condensation| cell organization and biogenesis| contractile ring (sensu Fungi)| actin cytoskeleton| cytoskeleton
SPBC29A3.06, SPBC29A3.06, 	ribosome biogenesis| cell organization and biogenesis
SPAC20G4.03c, hri1, 	signal transduction| protein modification| protein biosynthesis| protein amino acid phosphorylation| protein kinase activity
SPBC1709.04c, cyp3, 	mRNA processing| protein folding| RNA processing| spliceosome complex| nucleus| peptidyl-prolyl cis-trans isomerase activity
SPAC22F3.06c, SPAC22F3.06c, 	proteolysis and peptidolysis| mitochondrion| DNA binding
SPAC1D4.03c, SPAC1D4.03c, 	intracellular protein transport
SPAC2F7.02c, SPAC2F7.02c, 	response to stress| signal transduction| protein modification| membrane| plasma membrane| phosphoprotein phosphatase activity
SPAC1002.05c, jmj2, 	regulation of transcription\, DNA-dependent| transcription| DNA binding
SPAC4C5.03, SPAC4C5.03, 	protein modification| membrane
SPBC30D10.10c, tor1, 	response to stress| signal transduction| lipid metabolism| phosphatidylinositol 3-kinase activity
SPBC28F2.06c, mdm12, 	mitochondrion organization and biogenesis| cell organization and biogenesis| mitochondrial outer membrane| mitochondrial membrane
SPAC4D7.02c, SPAC4D7.02c, 	lipid metabolism
SPAC4D7.08c, ade4, min13, aza1	amino acid metabolism| glutamate metabolism| purine nucleotide metabolism| amidophosphoribosyltransferase activity
SPBC106.18, rpl25a, 	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPBC428.18, cdt1, 	S phase of mitotic cell cycle| DNA replication| regulation of mitotic cell cycle| mitotic cell cycle
SPAC1687.21, SPAC1687.21, SPAC222.01	carbohydrate catabolism| energy pathways| glycolysis| carbohydrate metabolism| main pathways of carbohydrate metabolism| phosphoglycerate mutase activity
SPBC21B10.04c, nrf1, 	vacuole organization and biogenesis| endocytosis| intracellular protein transport| cell organization and biogenesis| membrane| ATPase activity
SPBC713.03, SPBC713.03, 	energy pathways| oxidoreductase activity
SPAC6G9.09c, rpl24, 	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPBC32C12.02, ste11, aff1, stex	regulation of transcription\, DNA-dependent| conjugation with cellular fusion| signal transduction| transcription| nucleus
SPAC17H9.19c, cdt2, sev1	sporulation (sensu Fungi)| S phase of mitotic cell cycle| DNA replication| nucleus
SPBC13A2.01c, SPBC13A2.01c, 	RNA processing| RNA binding
SPBC25B2.07c, SPBC25B2.07c, 	microtubule-based process| chromosome segregation| cell organization and biogenesis| microtubule| cytoskeleton| microtubule organizing center| microtubule cytoskeleton
SPCC1884.02, nic1, SPCC757.01	transport| metal ion transport| membrane
SPCC594.02c, SPCC594.02c, 	membrane
SPCC162.02c, SPCC162.02c, 	oxidoreductase activity
SPBC146.04, SPBC146.04, 	mitochondrion organization and biogenesis| cell organization and biogenesis| membrane| mitochondrion
SPBC27B12.01c, SPBC27B12.01c, SPBC30B4.09c	mitochondrion organization and biogenesis| cell organization and biogenesis| mitochondrial outer membrane| actin cytoskeleton| mitochondrial membrane| cytoskeleton
SPBC27B12.01c, SPBC27B12.01c, SPBC30B4.09c	tRNA-intron endonuclease complex| tRNA-intron endonuclease activity| nuclear inner membrane| tRNA splicing| tRNA metabolism| tRNA splicing
SPAC22H10.05c, SPAC22H10.05c, 	mRNA processing| RNA processing| mRNA polyadenylation| mRNA cleavage and polyadenylation specificity factor complex
SPBC25D12.04, suc22, 	S phase of mitotic cell cycle| DNA replication| ribonucleoside-diphosphate reductase activity
SPAC30D11.09, cwf19, 	RNA processing| spliceosome complex
SPBC3H7.05c, SPBC3H7.05c, 	membrane
SPBC2D10.11c, SPBC2D10.11c, 	establishment and/or maintenance of chromatin architecture| DNA packaging| cell organization and biogenesis| chromatin
SPAC22H12.04c, rps102, rps1-2, rps3a-2	protein biosynthesis| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex| cytosolic ribosome (sensu Eukarya)
SPBC685.07c, rpl2701, rpl27-1	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPAC31G5.17c, rps1001, rps10-1	protein biosynthesis| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex| cytosolic ribosome (sensu Eukarya)
SPCC4E9.01c, rec11, SPCC550.16c	meiosis| cell cycle| S phase of mitotic cell cycle| DNA recombination| sister chromatid cohesion| cell organization and biogenesis| meiotic cohesin complex| nucleus
SPAC1071.01c, pta1, SPAC4H3.15c	mRNA processing| RNA processing| mRNA polyadenylation
SPBC337.11, SPBC337.11, 	oxidoreductase activity
SPCC126.06, twf1, 	actin filament-based process| actin cytoskeleton organization and biogenesis| cell organization and biogenesis| actin cytoskeleton| actin cortical patch (sensu Fungi)| cytoskeleton
SPAC4F8.10c, SPAC4F8.10c, 	actin cytoskeleton organization and biogenesis| cell organization and biogenesis| actin cytoskeleton| cytoskeleton
SPAPB18E9.04c, SPAPB18E9.04c, 	cell surface
SPAC22E12.01, SPAC22E12.01, SPAC890.09	transport| membrane
SPAC12G12.12, SPAC12G12.12, 	carbohydrate transport| membrane
SPAC5H10.10, SPAC5H10.10, 	energy pathways| electron transport| NADPH dehydrogenase activity| oxidoreductase activity
SPAC5H10.10, SPAC5H10.10, 	tryptophanyl-tRNA aminoacylation| tryptophan-tRNA ligase activity| cytoplasm| tRNA metabolism| cytoplasm| tryptophan-tRNA ligase activity
SPBP4H10.13, rps2302, rps23-2	protein biosynthesis| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex| cytosolic ribosome (sensu Eukarya)
SPBC3H7.01, spo14, stl1, SPBP16F5.01c	vesicle-mediated transport| sporulation (sensu Fungi)| signal transduction| ER to Golgi transport| spore wall assembly (sensu Fungi)| intracellular protein transport| cell organization and biogenesis| endoplasmic reticulum| membrane| cytoplasmic vesicle| endoplasmic reticulum membrane
SPBC3H7.01, spo14, stl1, SPBP16F5.01c	double-strand break repair via homologous recombination| meiotic recombination| ATP-dependent DNA helicase activity| nucleus| meiosis| establishment and/or maintenance of chromatin architecture| DNA repair| DNA recombination| DNA packaging| double-strand break repair| cell organization and biogenesis| chromatin| nucleus| helicase activity| ATPase activity
SPBC28F2.11, SPBC28F2.11, 	regulation of transcription\, DNA-dependent| transcription| nucleus
SPBC23G7.15c, rpp202, rpp2-2	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPAC824.05, vps16, 	vacuole organization and biogenesis| vacuole fusion\, non-autophagic| intracellular protein transport| vacuolar membrane| membrane
SPBC2F12.07c, rpl802, rpl8-2, rpk37, rpk5b	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPBC11C11.04c, alp1, 	cytoskeleton organization and biogenesis| microtubule-based process| cell organization and biogenesis| establishment and/or maintenance of cell polarity| cytoskeleton| microtubule organizing center| microtubule cytoskeleton
SPCC4G3.14, SPCC4G3.14, 	protein folding
SPBC1215.01, SPBC1215.01, 	energy pathways| electron transport| cell organization and biogenesis| membrane| mitochondrial inner membrane| mitochondrial membrane
SPCC4B3.13, SPCC4B3.13, 	transport| membrane
SPAC57A7.04c, pab1, pabp	RNA localization| mRNA processing| transcription| RNA processing| mRNA polyadenylation| RNA binding
SPAC513.02, SPAC513.02, 	carbohydrate catabolism| energy pathways| glycolysis| carbohydrate metabolism| main pathways of carbohydrate metabolism
SPBC1289.15, SPBC1289.15, SPBC8E4.07c	cell surface
SPAC19B12.08, SPAC19B12.08, 	proteolysis and peptidolysis
SPBC17A3.06, SPBC17A3.06, 	meiosis| sporulation (sensu Fungi)
SPAC1F5.10, tif412, 	ribosome biogenesis| protein biosynthesis| cell organization and biogenesis| helicase activity
SPBC646.10c, SPBC646.10c, 	rRNA processing| RNA processing| nucleolus| RNA binding
SPBC3B8.06, SPBC3B8.06, 	membrane
SPBC365.01, SPBC365.01, 	signal transduction| lipid metabolism
SPAC22E12.04, SPAC22E12.04, 	response to stress| protein folding| chaperone activity
SPBC4F6.05c, SPBC4F6.05c, 	ER to Golgi transport| intracellular protein transport| cell organization and biogenesis| endoplasmic reticulum| membrane| COPII-coated vesicle| cytoplasmic vesicle| endoplasmic reticulum membrane| cell surface| Golgi apparatus| Golgi vesicle| Golgi membrane| COPI-coated vesicle
SPBC725.04, SPBC725.04, 	carbohydrate metabolism
SPAC31G5.03, rps1101, rps11-1	protein biosynthesis| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex| cytosolic ribosome (sensu Eukarya)
SPCC31H12.05c, sds21, 	signal transduction| protein modification| phosphoprotein phosphatase activity
SPAC3H5.12c, rpl501, rpl5-1, rpl5	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPCC645.06c, rgf3, 	cell cycle| signal transduction| M phase of mitotic cell cycle
SPAC1B3.10c, SPAC1B3.10c, 	cell surface
SPBC530.10c, anc1, 	transport| mitochondrial transport| membrane| mitochondrial membrane
SPCC736.10c, SPCC736.10c, 	protein biosynthesis| mitochondrial ribosome
SPBC336.10c, tif512, 	protein biosynthesis
SPAC1527.02, sft2, 	ER to Golgi transport| intracellular protein transport| cytoplasmic vesicle
SPAC19A8.10, SPAC19A8.10, 	ubiquitin ligase complex| ubiquitin-protein ligase activity
SPCC965.11c, SPCC965.11c, 	transport| amino acid transport| membrane
SPBC31F10.10c, SPBC31F10.10c, 	cytoskeleton organization and biogenesis| cell organization and biogenesis| establishment and/or maintenance of cell polarity
SPAC4D7.09, tif223, 	protein biosynthesis| eukaryotic translation initiation factor 2B complex| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex
SPBC8D2.13, SPBC8D2.13, 	ribosome biogenesis| cell organization and biogenesis| nucleolus
SPAC3A11.07, SPAC3A11.07, 	oxidoreductase activity
SPAC1F7.12, yakC, SPAC21E11.01	coenzyme and prosthetic group metabolism| oxidoreductase activity
SPCPB16A4.04c, SPCPB16A4.04c, 	methyltransferase activity
SPCC1620.10, cwf26, 	mRNA processing| spliceosome complex
SPCC663.14c, SPCC663.14c, 	membrane
SPAC2C4.05, SPAC2C4.05, 	vesicle-mediated transport| ER to Golgi transport| intracellular protein transport| endoplasmic reticulum| membrane| cytoplasmic vesicle| endoplasmic reticulum membrane
SPBC215.04, git11, 	regulation of transcription\, DNA-dependent| signal transduction| transcription| membrane| plasma membrane
SPBC215.04, git11, 	glutathione biosynthesis| response to cadmium ion| glutamate-cysteine ligase activity| intracellular| amino acid metabolism| sulfur metabolism| glutamate metabolism| coenzyme and prosthetic group metabolism| glutamate-cysteine ligase activity
SPCC970.03, SPCC970.03, 	energy pathways| electron transport
SPBC776.01, rpl29, 	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPBC25H2.14, SPBC25H2.14, 	vesicle-mediated transport| intracellular protein transport| membrane| cytoplasmic vesicle
SPAC25B8.19c, SPAC25B8.19c, SPAC683.01c	regulation of transcription\, DNA-dependent
SPCC594.04c, SPCC594.04c, 	membrane
SPBC1921.06c, pvg3, 	cell wall organization and biogenesis| protein modification| cell wall biosynthesis| cell organization and biogenesis| cell surface
SPAC1F7.13c, rpl801, rpl8-1, rpl18, rpk5a, rpl2-1, SPAC21E11.02c	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPCC777.15, SPCC777.15, 	tRNA modification| RNA processing| tRNA metabolism
SPAC2F3.15, SPAC2F3.15, 	signal transduction| protein modification| protein amino acid phosphorylation| protein kinase activity
SPCC126.07c, SPCC126.07c, 	regulation of transcription\, DNA-dependent| transcription| ubiquitin ligase complex| ubiquitin-protein ligase activity
SPAC17H9.08, SPAC17H9.08, 	transport| mitochondrial transport| membrane| mitochondrial membrane
SPAC27D7.04, omt2, 	amino acid metabolism| sporulation (sensu Fungi)| L-phenylalanine metabolism| 4-alpha-hydroxytetrahydrobiopterin dehydratase activity
SPBC947.04, SPBC947.04, 	cell surface
SPBPB2B2.10c, SPBPB2B2.10c, 	carbohydrate metabolism| UTP-hexose-1-phosphate uridylyltransferase activity
SPBC30D10.06, lsm4, 	mRNA processing| RNA processing| spliceosome complex
SPAC227.17c, SPAC227.17c, 	meiosis
SPBC9B6.11c, SPBC9B6.11c, 	RNA processing
SPAC17G8.09, shg1, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| transcription| DNA packaging| cell organization and biogenesis| chromatin silencing| chromatin remodeling complex| chromatin
SPBC1703.08c, SPBC1703.08c, 	coenzyme and prosthetic group metabolism| 5-formyltetrahydrofolate cyclo-ligase activity
SPCC584.04, sup35, eRF3	protein biosynthesis| GTP binding
SPAC222.13c, SPAC222.13c, 	phosphate metabolism| carbohydrate metabolism| 6-phosphofructo-2-kinase activity
SPAC222.13c, SPAC222.13c, 	cysteine metabolism| methionine biosynthesis from homoserine via O-succinyl-L-homoserine and cystathione| cystathionine gamma-synthase activity| cellular_component unknown| cysteine metabolism| amino acid metabolism| sulfur metabolism| methionine metabolism| cystathionine gamma-synthase activity
SPAC2F7.15, SPAC2F7.15, 	protein biosynthesis| mitochondrial ribosome
SPAC21E11.04, ppr1, 	acetyltransferase activity
SPAC23H4.15, SPAC23H4.15, 	RNA processing
SPBC2D10.15c, SPBC2D10.15c, 	RNA processing| aminoacyl-tRNA hydrolase activity
SPAC22E12.16c, pik1, 	signal transduction| lipid metabolism| 1-phosphatidylinositol 4-kinase activity
SPAC9G1.05, SPAC9G1.05, 	actin cytoskeleton organization and biogenesis| cell organization and biogenesis| actin cytoskeleton| actin cortical patch (sensu Fungi)| cytoskeleton
SPBC1604.19c, SPBC1604.19c, 	intracellular protein transport| Golgi cis-face| TRAPP
SPAC1250.01, SPAC1250.01, SPAC29A4.21	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| transcription| DNA packaging| cell organization and biogenesis| chromatin remodeling complex| chromatin| nucleus| helicase activity| ATPase activity
SPBC776.02c, dis2, sds1, bws1	cell cycle checkpoint| meiosis| cell cycle| DNA repair| DNA damage response\, signal transduction resulting in cell cycle arrest| signal transduction| protein modification| chromosome segregation| cell organization and biogenesis| regulation of cell cycle| phosphoprotein phosphatase activity
SPBC15D4.06, SPBC15D4.06, 	protein modification| acetyltransferase activity
SPBC21C3.04c, SPBC21C3.04c, 	protein biosynthesis| mitochondrial ribosome
SPCC645.10, SPCC645.10, 	tRNA metabolism| tRNA adenylyltransferase activity
SPAC22F3.05c, alp41, 	cytoskeleton organization and biogenesis| microtubule-based process| intracellular protein transport| cell organization and biogenesis| microtubule cytoskeleton organization and biogenesis| establishment and/or maintenance of cell polarity| cytoskeleton| microtubule organizing center| microtubule cytoskeleton| GTPase activity| GTP binding
SPCC4G3.03, SPCC4G3.03, 	proteolysis and peptidolysis
SPBC13G1.08c, ash2, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| signal transduction| transcription| DNA packaging| cell organization and biogenesis| chromatin silencing| chromatin remodeling complex| Lid2 complex| chromatin
SPBC106.15, idi1, 	steroid metabolism| isopentenyl-diphosphate delta-isomerase activity
SPBC18H10.14, rps1601, rps16-1	protein biosynthesis| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex| cytosolic ribosome (sensu Eukarya)
SPCC895.09c, SPCC895.09c, 	mRNA processing| helicase activity
SPBC16A3.19, SPBC16A3.19, 	nucleus
SPAC19D5.03, cid1, 	mRNA processing| RNA processing| regulation of cell cycle| cytoplasm
SPCC74.02c, SPCC74.02c, 	mRNA processing| RNA processing| mRNA polyadenylation
SPBC336.02, dim1, 	cell cycle
SPBC21D10.06c, SPBC21D10.06c, 	cell surface
SPAC688.10, rev3, 	S phase of mitotic cell cycle| DNA repair| replication fork
SPAC343.18, SPAC343.18, 	ubiquitin ligase complex| ubiquitin-protein ligase activity
SPBC56F2.08c, SPBC56F2.08c, 	RNA binding
SPBC776.13, cnd1, 	establishment and/or maintenance of chromatin architecture| cell cycle| chromosome condensation| DNA packaging| cell organization and biogenesis| condensin complex| nucleus
SPCC663.13c, SPCC663.13c, 	protein modification| acetyltransferase activity
SPBC1271.07c, SPBC1271.07c, 	acetyltransferase activity
SPCC1753.03c, rec7, 	meiosis| DNA recombination| nucleus
SPCC1672.06c, asp1, 	phosphate metabolism| cell organization and biogenesis| establishment and/or maintenance of cell polarity| actin cytoskeleton| cytoskeleton| Arp2/3 protein complex
SPAC29A4.05, cam2, 	cell organization and biogenesis
SPBC16A3.17c, SPBC16A3.17c, 	transport| membrane
SPBP19A11.04c, mor2, cps12	regulation of transcription\, DNA-dependent| transcription| regulation of mitosis| cell organization and biogenesis
SPBC725.11c, php2, 	regulation of transcription\, DNA-dependent| transcription| CCAAT-binding factor complex
SPAC23D3.12, SPAC23D3.12, 	transport| anion transport
SPAC56F8.06c, SPAC56F8.06c, 	N-linked glycosylation| protein modification| carbohydrate metabolism| endoplasmic reticulum| membrane| endoplasmic reticulum membrane
SPBC839.15c, ef1a-c, 	protein biosynthesis
SPBC19F5.01c, puc1, SPBP8B7.32c	cell cycle
SPAC4G8.11c, atp10, 	energy pathways| electron transport| hydrogen transport| cell organization and biogenesis| ATPase activity
SPAC14C4.10c, SPAC14C4.10c, 	membrane
SPCC1322.12c, bub1, 	spindle assembly| cell cycle| signal transduction| protein modification| M phase of mitotic cell cycle| protein amino acid phosphorylation| cell organization and biogenesis| regulation of cell cycle| kinetochore| protein kinase activity
SPAC1002.12c, SPAC1002.12c, 	amino acid metabolism| tyrosine metabolism| glutamate metabolism| oxidoreductase activity| succinate-semialdehyde dehydrogenase [NAD(P)+] activity
SPBC19C7.08c, SPBC19C7.08c, 	amino acid metabolism| protein modification| leucine metabolism| methyltransferase activity
SPAC14C4.11, SPAC14C4.11, 	phosphate metabolism
SPCC1393.09c, SPCC1393.09c, 	signal transduction
SPBC1685.15c, klp6, sot2, SPBC649.01c	meiosis| microtubule-based process| cell cycle| barrier septum formation| cytokinesis| M phase of mitotic cell cycle| chromosome condensation| chromosome segregation| cell organization and biogenesis| actin cytoskeleton| microtubule| cytoskeleton| spindle pole body| kinetochore| microtubule organizing center| microtubule cytoskeleton
SPAC1687.20c, mis6, 	G1/S transition of mitotic cell cycle| cell cycle| S phase of mitotic cell cycle| DNA replication| M phase of mitotic cell cycle| chromosome segregation| cell organization and biogenesis| kinetochore
SPAC869.05c, SPAC869.05c, 	transport| anion transport| membrane| plasma membrane
SPCC1020.03, SPCC1020.03, 	transport| cation transport| metal ion transport| cell ion homeostasis| membrane
SPBC1709.13c, SPBC1709.13c, 	regulation of transcription\, DNA-dependent| transcription| cell organization and biogenesis| chromatin| methyltransferase activity
SPBC8D2.01, gsk31, 	signal transduction| protein modification| carbohydrate metabolism| protein amino acid phosphorylation| protein kinase activity
SPBC11C11.11c, SPBC11C11.11c, SPBC3B8.12	helicase activity
SPCC188.08c, ubp22, ubp5	proteolysis and peptidolysis| ubiquitin thiolesterase activity
SPBC902.04, SPBC902.04, 	nucleus| RNA binding
SPBC776.12c, hsk1, 	S phase of mitotic cell cycle| DNA replication| signal transduction| protein modification| protein amino acid phosphorylation| protein kinase activity
SPBC3B8.10c, SPBC3B8.10c, 	signal transduction| protein modification| phosphoprotein phosphatase activity
SPAC3A11.14c, pkl1, klp1, SPAC3H5.03c	cell organization and biogenesis| cytoskeleton| microtubule organizing center| microtubule cytoskeleton| ATPase activity
SPCC1739.10, SPCC1739.10, 	signal transduction| membrane
SPAC10F6.01c, SPAC10F6.01c, SPAC4C5.05c	sulfur metabolism| cell wall organization and biogenesis| cell organization and biogenesis| sulfite reductase (ferredoxin) activity
SPBC21.05c, ral2, 	meiosis| conjugation with cellular fusion
SPCC126.14, prp18, 	mRNA processing
SPBP8B7.25, cyp4, 	protein folding
SPAC227.16c, SPAC227.16c, 	DNA repair
SPBC18E5.03c, sim4, 	establishment and/or maintenance of chromatin architecture| cell cycle| M phase of mitotic cell cycle| DNA packaging| chromosome segregation| cell organization and biogenesis| kinetochore| chromatin
SPBC1773.06c, SPBC1773.06c, 	energy pathways| main pathways of carbohydrate metabolism| oxidoreductase activity| alcohol dehydrogenase activity
SPCC285.07c, wtf18, 	membrane
SPAC1399.03, fur4, 	transport| nucleotide transport| membrane| plasma membrane
SPAC6B12.07c, SPAC6B12.07c, 	signal transduction| ubiquitin ligase complex| ubiquitin-protein ligase activity
SPBC409.14c, SPBC409.14c, 	protein biosynthesis| mitochondrial ribosome
SPCC285.14, SPCC285.14, 	ER to Golgi transport| intracellular protein transport| cytoplasmic vesicle| Golgi cis-face| TRAPP
SPCC576.14, SPCC576.14, 	diphthine synthase activity
SPCC1183.04c, SPCC1183.04c, 	RNA processing| mitochondrial membrane
SPAC3C7.01c, SPAC3C7.01c, SPAC732.03c	signal transduction| lipid metabolism
SPCC290.03c, SPCC290.03c, 	nucleocytoplasmic transport| protein targeting| nucleus| nuclear pore
SPAC227.06, SPAC227.06, 	vesicle-mediated transport| intracellular protein transport| membrane| cytoplasmic vesicle
SPBC1734.11, SPBC1734.11, 	protein folding| cytoplasm| chaperone regulator activity
SPCC4B3.05c, SPCC4B3.05c, 	coenzyme and prosthetic group metabolism| uroporphyrinogen decarboxylase activity
SPAC26H5.03, SPAC26H5.03, 	establishment and/or maintenance of chromatin architecture| DNA packaging| cell organization and biogenesis| chromatin remodeling complex| chromatin
SPAC19A8.03, SPAC19A8.03, 	signal transduction| lipid metabolism| protein tyrosine phosphatase activity
SPAC3C7.10, SPAC3C7.10, 	signal transduction| protein targeting| membrane| peroxisomal membrane
SPBC32H8.02c, SPBC32H8.02c, 	proteolysis and peptidolysis| cytoplasm
SPBC337.04, SPBC337.04, 	signal transduction| protein modification| protein amino acid phosphorylation| protein kinase activity
SPBC337.04, SPBC337.04, 	D-ribose metabolism| ribokinase activity| cellular_component unknown| carbohydrate metabolism| ribokinase activity
SPAC17D4.03c, SPAC17D4.03c, 	transport| cation transport| metal ion transport| membrane
SPCC1739.05, SPCC1739.05, 	regulation of transcription\, DNA-dependent| transcription| cell organization and biogenesis| chromatin| methyltransferase activity
SPAC2G11.13, SPAC2G11.13, 	response to stress| membrane
SPAC521.05, rps802, rps8-2	protein biosynthesis| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex| cytosolic ribosome (sensu Eukarya)
SPAC2G11.08c, smn1, yab8	RNA processing| cell organization and biogenesis| nucleus
SPAC6G10.02c, tea3, 	cell organization and biogenesis| establishment and/or maintenance of cell polarity
SPBC29A10.16c, SPBC29A10.16c, 	energy pathways| electron transport
SPBC21C3.07c, SPBC21C3.07c, 	methyltransferase activity
SPCC4B3.16, SPCC4B3.16, 	signal transduction
SPBC56F2.04, SPBC56F2.04, 	ribosome biogenesis| cell organization and biogenesis
SPAC16.04, SPAC16.04, 	tRNA modification| RNA processing| tRNA metabolism
SPAC4F10.16c, SPAC4F10.16c, 	lipid metabolism| membrane| ATPase activity
SPBC26H8.14c, cox17, 	energy pathways| electron transport| protein folding| cell organization and biogenesis| mitochondrial inner membrane| mitochondrial membrane| chaperone activity
SPBC31E1.06, SPBC31E1.06, SPBC800.01	ribosome biogenesis| rRNA processing| RNA processing| cell organization and biogenesis| GTP binding| ATPase activity
SPAC343.11c, msc1, 	regulation of transcription\, DNA-dependent| transcription
SPCC364.04c, SPCC364.04c, 	membrane| Golgi apparatus| Golgi membrane
SPBC1861.05, SPBC1861.05, 	carbohydrate metabolism
SPAC24H6.07, rps901, rps9-1, rps9a	protein biosynthesis| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex| cytosolic ribosome (sensu Eukarya)
SPCC1322.01, SPCC1322.01, SPCC23B6.06	mitochondrion organization and biogenesis| cell organization and biogenesis
SPAC227.10, SPAC227.10, 	protein folding| cell organization and biogenesis| prefoldin complex
SPCC1620.02, wtf23, 	membrane
SPBC1604.18c, SPBC1604.18c, 	intracellular protein transport
SPBC3D6.07, SPBC3D6.07, 	protein modification| lipid metabolism| GPI anchor biosynthesis
SPAC4G9.15, SPAC4G9.15, 	fatty acid biosynthesis| lipid metabolism
SPAC4F10.20, grx1, 	response to stress| energy pathways
SPBC31F10.14c, SPBC31F10.14c, 	regulation of transcription\, DNA-dependent| transcription| cell organization and biogenesis| chromatin
SPBC12C2.06, SPBC12C2.06, 	RNA localization| transcription| cytosol| helicase activity
SPBC354.13, rga6, 	GTPase regulator activity
SPBC3D6.06c, SPBC3D6.06c, 	purine nucleotide metabolism| ribose-phosphate diphosphokinase activity
SPCC1450.11c, cek1, 	cell cycle| signal transduction| protein modification| protein amino acid phosphorylation| protein kinase activity
SPCC1739.04c, SPCC1739.04c, 	rRNA processing| RNA processing| exosome (RNase complex)| nucleus
SPAC328.10c, rps502, rps5-2	protein biosynthesis| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex| cytosolic ribosome (sensu Eukarya)
SPBC1105.08, SPBC1105.08, 	membrane
SPBC2A9.08c, sec22, 	vesicle-mediated transport| ER to Golgi transport| intracellular protein transport| retrograde transport\, Golgi to ER| endoplasmic reticulum| cytoplasmic vesicle| endoplasmic reticulum membrane
SPMIT.07, atp6, P21535	mitochondrial inner membrane| proton-transporting ATP synthase complex (sensu Eukarya)| ATPase activity
SPBC27.03, meu25, 	meiosis
SPBC32H8.08c, SPBC32H8.08c, 	protein amino acid glycosylation| protein modification| carbohydrate metabolism
SPAC977.01, SPAC977.01, 	cell surface
SPACUNK4.12c, SPACUNK4.12c, 	signal transduction| proteolysis and peptidolysis
SPAC29B12.06c, rcd1, 	regulation of transcription\, DNA-dependent| response to stress| conjugation with cellular fusion| transcription| CCR4-NOT core complex| RNA binding
SPBC3B9.10, vti1, 	vacuole organization and biogenesis| vacuole fusion\, non-autophagic| intracellular protein transport| vacuolar membrane| membrane| cytoplasmic vesicle
SPCC1442.01, ste6, SPCC1450.17	conjugation with cellular fusion| signal transduction
SPBC17G9.04c, nup85, 	nucleocytoplasmic transport| protein targeting| nucleus| nuclear pore
SPBC19F5.03, SPBC19F5.03, 	transport| nucleotide transport| cell organization and biogenesis| membrane| actin cytoskeleton| cytoskeleton
SPBC1604.13c, SPBC1604.13c, 	protein biosynthesis| mitochondrial ribosome
SPAC1F3.05, SPAC1F3.05, 	intracellular protein transport
SPAC1002.17c, SPAC1002.17c, 	pyrimidine base metabolism
SPBC15D4.02, SPBC15D4.02, 	regulation of transcription\, DNA-dependent| transcription| transcription regulator activity
SPAC323.02c, SPAC323.02c, 	proteolysis and peptidolysis| proteasome complex (sensu Eukarya)
SPBC25D12.05, trm1, 	tRNA metabolism| tRNA (guanine-N2-)-methyltransferase activity| methyltransferase activity
SPBC3B9.07c, rpa43, rpa21	transcription| DNA-directed RNA polymerase I complex| nucleolus| nucleus| DNA-directed RNA polymerase activity
SPAC20G8.05c, cdc15, 	cell cycle| barrier septum formation| cytokinesis| signal transduction| M phase of mitotic cell cycle| chromosome condensation| actin cytoskeleton organization and biogenesis| cell organization and biogenesis| actin cytoskeleton| cytoskeleton| septum| cytoplasm
SPAPJ760.03c, adg1, 	cell surface
SPAC23D3.01, SPAC23D3.01, 	establishment and/or maintenance of chromatin architecture| DNA packaging| cell organization and biogenesis| chromatin
SPAC13C5.07, rad32, 	cell cycle checkpoint| telomere maintenance| meiosis| S phase of mitotic cell cycle| DNA replication| DNA repair| DNA recombination| double-strand break repair| cell organization and biogenesis| regulation of cell cycle| Mre11 complex| nucleus
SPCC1494.04c, SPCC1494.04c, 	amino acid metabolism| tyrosine metabolism| oxidoreductase activity
SPBC119.03, SPBC119.03, 	methyltransferase activity| catechol O-methyltransferase activity
SPCC63.11, prp28, 	mRNA processing| RNA processing| spliceosome complex| helicase activity
SPBC776.18c, pmh1, mcr1	regulation of transcription\, DNA-dependent| regulation of transcription from Pol II promoter| transcription| transcription factor TFIIH complex| transcription factor complex| chromatin| ubiquitin ligase complex| nucleus| transcription factor activity| ubiquitin-protein ligase activity
SPBC887.04c, SPBC887.04c, 	DNA repair| lipid metabolism| proteolysis and peptidolysis
SPBC887.04c, SPBC887.04c, 	pentose-phosphate shunt\, oxidative branch| glucose 6-phosphate utilization| glucose-6-phosphate 1-dehydrogenase activity| cytoplasm| carbohydrate metabolism| pentose-phosphate shunt| cytoplasm| oxidoreductase activity| glucose-6-phosphate 1-dehydrogenase activity
SPBC32H8.11, mei4, 	meiosis| regulation of transcription\, DNA-dependent| transcription| nucleus
SPAC22H10.03c, kap114, 	nuclear pore
SPAC17A2.14, SPAC17A2.14, SPAC17G6.01	transport| metal ion transport| membrane
SPBC19G7.03c, rps3002, rps30-2, rps30	protein biosynthesis| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex| cytosolic ribosome (sensu Eukarya)
SPBC56F2.07c, SPBC56F2.07c, 	ATPase activity
SPAC25B8.09, SPAC25B8.09, 	methyltransferase activity
SPCC5E4.07, rpl2802, rpl28-2	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPCP1E11.09c, rpp103, rpp1-3	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPAC977.14c, SPAC977.14c, 	oxidoreductase activity
SPAP27G11.09c, SPAP27G11.09c, 	coenzyme and prosthetic group metabolism
SPAC922.05c, SPAC922.05c, 	membrane
SPAC922.05c, SPAC922.05c, 	tyrosyl-tRNA aminoacylation| tyrosine-tRNA ligase activity| cytoplasm| nucleus| tRNA metabolism| cytoplasm| nucleus| tyrosine-tRNA ligase activity
SPBC32F12.04, tug1, gtb1	spindle assembly| microtubule-based process| cell cycle| cytokinesis| M phase of mitotic cell cycle| chromosome segregation| cell organization and biogenesis| regulation of cell cycle| microtubule| cytoskeleton| microtubule organizing center| microtubule cytoskeleton
SPBC1703.04, mlh1, 	mismatch repair| DNA repair| DNA binding
SPCC1682.12c, ubp16, 	proteolysis and peptidolysis
SPAC1D4.06c, csk1, 	cell cycle| signal transduction| protein modification| protein amino acid phosphorylation| protein kinase activity
SPAC1D4.06c, csk1, 	seryl-tRNA aminoacylation| serine-tRNA ligase activity| cytoplasm| tRNA metabolism| cytoplasm| serine-tRNA ligase activity
SPCC553.06, SPCC553.06, 	membrane
SPAC15F9.03c, nft2, ntf2, SPAC1B9.01c	nucleocytoplasmic transport| protein targeting
SPAC15F9.03c, nft2, ntf2, SPAC1B9.01c	2-oxoglutarate metabolism| tricarboxylic acid cycle| oxoglutarate dehydrogenase (succinyl-transferring) activity| oxoglutarate dehydrogenase complex (sensu Eukarya)| carbohydrate catabolism| energy pathways| carbohydrate metabolism| TCA intermediate metabolism| main pathways of carbohydrate metabolism| oxidoreductase activity| oxoglutarate dehydrogenase (succinyl-transferring) activity
SPCC18.07, rpc53, 	transcription| DNA-directed RNA polymerase III complex
SPAC6F12.02, rst2, 	regulation of transcription\, DNA-dependent| conjugation with cellular fusion| transcription| nucleus
SPAC4F10.05c, SPAC4F10.05c, 	coenzyme and prosthetic group metabolism
SPCC61.02, spt3, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| regulation of transcription from Pol II promoter| transcription| DNA packaging| cell organization and biogenesis| transcription factor TFIID complex| SAGA complex| transcription factor complex| chromatin| nucleus| transcription factor activity
SPBC8E4.05c, SPBC8E4.05c, 	carbohydrate metabolism| purine nucleotide metabolism| 3-carboxy-cis\,cis-muconate cycloisomerase activity
SPAC29A4.02c, SPAC29A4.02c, 	protein biosynthesis| eukaryotic 48S initiation complex
SPAC824.02, SPAC824.02, 	intracellular protein transport| endoplasmic reticulum| membrane| cytoplasmic vesicle
SPAC17G6.04c, cpp1, 	lipid metabolism
SPCC1682.07, ssl1, 	regulation of transcription\, DNA-dependent| regulation of transcription from Pol II promoter| transcription| transcription factor TFIIH complex| transcription factor complex| chromatin| nucleus| transcription factor activity
SPAC167.01, SPAC167.01, 	signal transduction| protein modification| protein amino acid phosphorylation| protein kinase activity
SPAC25G10.02, cce1, ydc2	mitochondrion organization and biogenesis| meiosis| mitochondrial genome maintenance| cell organization and biogenesis| mitochondrial inner membrane| mitochondrial membrane| DNA binding
SPBC21H7.05, sfc6, 	regulation of transcription\, DNA-dependent| transcription from Pol III promoter| transcription| transcription factor complex| chromatin| nucleus| transcription factor TFIIIC complex| transcription factor activity
SPAC25H1.05, meu29, 	meiosis| membrane
SPBC1347.07, SPBC1347.07, 	RNA processing
SPAC17A2.02c, SPAC17A2.02c, 	membrane
SPBC1709.19c, SPBC1709.19c, 	cell ion homeostasis| mitochondrion
SPBC28F2.10c, kap1, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| transcription| DNA packaging| cell organization and biogenesis| cytoskeleton| SAGA complex| chromatin| microtubule organizing center| microtubule cytoskeleton
SPBC28F2.10c, kap1, 	tRNA-intron endonuclease complex| tRNA-intron endonuclease activity| nuclear inner membrane| tRNA splicing| tRNA metabolism| tRNA splicing
SPCC1223.04c, SPCC1223.04c, 	regulation of transcription\, DNA-dependent| transcription| cell organization and biogenesis| chromatin| methyltransferase activity
SPBC1709.14, SPBC1709.14, 	protein modification| proteolysis and peptidolysis
SPAC31G5.04, SPAC31G5.04, 	amino acid metabolism| carbohydrate catabolism| energy pathways| carbohydrate metabolism| TCA intermediate metabolism| main pathways of carbohydrate metabolism| lysine metabolism| oxidoreductase activity
SPAC2F3.16, SPAC2F3.16, 	regulation of transcription\, DNA-dependent| ubiquitin ligase complex| ubiquitin-protein ligase activity
SPAC2F3.16, SPAC2F3.16, 	threonine catabolism| threo-3-hydroxyaspartate ammonia-lyase activity| cellular_component unknown| amino acid metabolism| threonine metabolism| threo-3-hydroxyaspartate ammonia-lyase activity
SPBC56F2.11, met6, 	amino acid metabolism| sulfur metabolism| methionine metabolism| homoserine O-acetyltransferase activity| acetyltransferase activity
SPAC2F7.06c, SPAC2F7.06c, 	S phase of mitotic cell cycle| DNA repair| double-strand break repair
SPBC32F12.15, SPBC32F12.15, 	DNA repair
SPAC22F3.12c, rgs1, 	conjugation with cellular fusion| signal transduction
SPAC4F10.11, spn1, 	barrier septum formation| cytokinesis| M phase of mitotic cell cycle| GTP binding
SPCC1672.03c, SPCC1672.03c, 	purine nucleotide metabolism| guanine deaminase activity
SPAC29B12.07, sec16, 	ER to Golgi transport| intracellular protein transport| cytoplasmic vesicle
SPAC11D3.06, SPAC11D3.06, 	transport| membrane
SPBC56F2.10c, SPBC56F2.10c, 	protein modification| carbohydrate metabolism| dolichyl-phosphate beta-glucosyltransferase activity
SPAC13A11.04c, ubp8, 	protein modification| proteolysis and peptidolysis| ubiquitin thiolesterase activity
SPAC688.11, SPAC688.11, 	cytoskeleton organization and biogenesis| actin filament-based process| actin cytoskeleton organization and biogenesis| endocytosis| intracellular protein transport| cell organization and biogenesis| establishment and/or maintenance of cell polarity| actin cytoskeleton| actin cortical patch (sensu Fungi)| cytoskeleton
SPAC630.14c, tup12	meiosis| establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| DNA recombination| transcription| DNA packaging| cell organization and biogenesis| chromatin silencing| chromatin| nucleus
SPCC1620.11, SPCC1620.11, 	nucleocytoplasmic transport| protein targeting| nucleus| nuclear pore
SPAC57A10.03, cyp1, 	protein folding| peptidyl-prolyl cis-trans isomerase activity
SPCC18.12c, SPCC18.12c, 	rRNA processing| RNA processing| nucleolus
SPAC4F10.15c, wsp1, 	actin filament-based process| cytokinesis| M phase of mitotic cell cycle| actin cytoskeleton organization and biogenesis| endocytosis| intracellular protein transport| cell organization and biogenesis| actin cytoskeleton| actin cortical patch (sensu Fungi)| cytoskeleton
SPBC30B4.01c, SPBC30B4.01c, SPBC3D6.14c	signal transduction| membrane| plasma membrane
SPAC31A2.10, SPAC31A2.10, 	GTP binding
SPAC29A4.16, SPAC29A4.16, 	signal transduction| protein modification| protein amino acid phosphorylation| protein kinase activity
SPCC4B3.07, SPCC4B3.07, 	nucleocytoplasmic transport| protein targeting| nucleus| nuclear pore
SPCC576.04, SPCC576.04, 	membrane
SPAC2G11.02, SPAC2G11.02, 	ribosome biogenesis| cell organization and biogenesis
SPBC215.05, gpd1, 	response to stress| carbohydrate metabolism| glycerol-3-phosphate dehydrogenase (NAD+) activity| oxidoreductase activity
SPBC1703.10, ypt1, 	intracellular protein transport| endoplasmic reticulum| Golgi apparatus| GTP binding
SPAC29E6.03c, uso1, SPAC30.07c	ER to Golgi transport| intracellular protein transport| cytoplasmic vesicle
SPBC12C2.03c, SPBC12C2.03c, 	oxidoreductase activity
SPBC17A3.07, pgr1, 	sulfur metabolism
SPBC725.01, SPBC725.01, 	cysteine metabolism| amino acid metabolism| sulfur metabolism| aspartate metabolism| aspartate transaminase activity
SPBC354.01, gtp1, SPBC649.06	GTP binding
SPBC428.07, meu6, 	meiosis| signal transduction
SPAC2C4.17c, SPAC2C4.17c, 	transport| membrane
SPAC22A12.04c, rps2201, rps22-1, rps15a-1	protein biosynthesis| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex| cytosolic ribosome (sensu Eukarya)
SPAC3H5.07, rpl701, rpl7-1, rpl7	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPAC589.08c, SPAC589.08c, 	cell cycle| M phase of mitotic cell cycle| cell organization and biogenesis| cytoskeleton| spindle pole body| kinetochore| microtubule organizing center| microtubule cytoskeleton
SPBC36.03c, SPBC36.03c, 	transport| membrane
SPBC29B5.03c, rpl26, 	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPBC725.10, SPBC725.10, 	membrane
SPCC1259.03, rpa12, 	transcription from Pol I promoter| transcription| DNA-directed RNA polymerase I complex| nucleolus| nucleus| DNA-directed RNA polymerase activity
SPAC6B12.15, cpc2, rkp1	sporulation (sensu Fungi)| conjugation with cellular fusion| signal transduction| actin cytoskeleton organization and biogenesis| cell organization and biogenesis| actin cytoskeleton| cytoskeleton
SPAC1639.02c, trk2, SPAC1F5.12	cell ion homeostasis| membrane
SPAC3F10.04, gsa1, gsh2	MAPKKK cascade| amino acid metabolism| sulfur metabolism| protein kinase cascade| glutamate metabolism| signal transduction| coenzyme and prosthetic group metabolism| glutathione synthase activity
SPBC1677.02, dpm3, 	protein modification| carbohydrate metabolism| endoplasmic reticulum| membrane| endoplasmic reticulum membrane
SPBC16E9.06c, uvi31, 	cell cycle arrest| cell cycle
SPBPB2B2.19c, SPBPB2B2.19c, SPAC1348.02	membrane| cell surface
SPAC1F8.05, isp3, meu4	meiosis| conjugation with cellular fusion
SPBC1861.04c, SPBC1861.04c, 	mRNA processing| spliceosome complex| RNA binding
SPAC17H9.07, SPAC17H9.07, 	protein-ER targeting| intracellular protein transport
SPBC8D2.20c, sec31, 	intracellular protein transport| COPII-coated vesicle| cytoplasmic vesicle| Golgi vesicle| COPI-coated vesicle
SPAC8F11.02c, SPAC8F11.02c, 	protein modification
SPBC1271.02, stt3, 	protein modification| carbohydrate metabolism| membrane
SPBC1198.08, SPBC1198.08, 	proteolysis and peptidolysis
SPBC1734.10c, SPBC1734.10c, 	RNA processing
SPBC31A8.01c, cwl1, rtn1, SPBC651.13c	endoplasmic reticulum| membrane| endoplasmic reticulum membrane
SPCC285.03, SPCC285.03, 	rRNA processing| RNA processing| helicase activity
SPBC11C11.10, SPBC11C11.10, SPBC3B8.13c	rRNA processing| RNA processing| pseudouridylate synthase activity
SPBC29A3.11c, SPBC29A3.11c, 	transport| mitochondrial transport| membrane| mitochondrial membrane
SPBC29A3.11c, SPBC29A3.11c, 	pentose-phosphate shunt\, non-oxidative branch| ribulose-phosphate 3-epimerase activity| cytosol| pentose-phosphate shunt| cytosol| ribulose-phosphate 3-epimerase activity
SPAC1F8.03c, str3, 	transport| metal ion transport| membrane
SPCC1322.10, SPCC1322.10, 	cell surface
SPAC22F8.11, plc1, 	signal transduction| lipid metabolism| phosphoinositide phospholipase C activity
SPAC1F12.10c, SPAC1F12.10c, 	energy pathways| electron transport
SPBC19F5.02c, SPBC19F5.02c, 	rRNA processing| RNA processing| nucleolus
SPBC1A4.01, apc10, SPBC1E8.06	cell cycle| anaphase-promoting complex| ubiquitin ligase complex| nucleus
SPAC1002.15c, pmc5, 	regulation of transcription\, DNA-dependent| transcription| mediator complex| nucleus
SPBC16A3.02c, SPBC16A3.02c, 	oxidoreductase activity| NADPH\:quinone reductase activity
SPAC17A2.03c, vma6, 	transport| intracellular protein transport| hydrogen transport| cell organization and biogenesis| ATPase activity
SPAC17A2.03c, vma6, 	endocytosis| vacuolar acidification| intracellular protein transport| cell organization and biogenesis| vacuolar membrane| membrane| vacuole| ATPase activity
SPAC890.05, SPAC890.05, 	ribosome biogenesis| cell organization and biogenesis| nucleolus| RNA binding
SPAC18B11.10, tup11, 	meiosis| establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| DNA recombination| transcription| DNA packaging| cell organization and biogenesis| chromatin silencing| chromatin| nucleus
SPAC1D4.14, SPAC1D4.14, SPAC22F3.14c	RNA localization| regulation of transcription from Pol II promoter| transcription| THO complex
SPAC13G6.02c, rps101, rps1-1, rps3a-1	protein biosynthesis| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex| cytosolic ribosome (sensu Eukarya)
SPBC543.06c, SPBC543.06c, 	ribosome biogenesis| cell organization and biogenesis| helicase activity
SPAC14C4.02c, spr18, smc5	DNA repair
SPAC13A11.03, SPAC13A11.03, 	meiosis| DNA repair| double-strand break repair
SPBC365.05c, slu7, 	mRNA processing| spliceosome complex
SPAC16A10.04, rho4, 	cell wall organization and biogenesis| barrier septum formation| actin filament-based process| cytokinesis| signal transduction| M phase of mitotic cell cycle| actin cytoskeleton organization and biogenesis| cell organization and biogenesis| actin cytoskeleton| cytoskeleton| septum
SPAC821.09, eng1, 	barrier septum formation| cytokinesis| M phase of mitotic cell cycle| carbohydrate metabolism| cell surface
SPBC56F2.03, SPBC56F2.03, 	cell organization and biogenesis| actin cytoskeleton| cytoskeleton
SPAC1D4.05c, SPAC1D4.05c, 	intracellular protein transport| membrane
SPBC21B10.05c, pop3, wat1	microtubule-based process| signal transduction| RNA processing| protein targeting| cell organization and biogenesis| microtubule cytoskeleton organization and biogenesis| cytoskeleton| microtubule organizing center| microtubule cytoskeleton
SPAC19G12.12, dlp1, coq1	energy pathways| electron transport| ubiquinone biosynthesis| lipid metabolism| membrane| mitochondrial inner membrane| mitochondrial membrane| mitochondrion
SPAC27D7.12, but1, 	nucleus
SPBC14C8.14c, pol5, 	S phase of mitotic cell cycle| replication fork| DNA-directed DNA polymerase activity
SPBC337.08c, ubi4, 	meiosis
SPCC736.04c, gma12, 	protein amino acid galactosylation| protein modification| cell surface| Golgi apparatus
SPBC365.12c, ish1, 	protein kinase cascade| membrane| nuclear membrane
SPAC2F3.05c, SPAC2F3.05c, 	carbohydrate metabolism| oxidoreductase activity
SPCC794.10, SPCC794.10, 	protein amino acid glycosylation| protein modification| UTP-glucose-1-phosphate uridylyltransferase activity
SPAC9E9.09c, SPAC9E9.09c, 	energy pathways| electron transport| mitochondrion| oxidoreductase activity| aldehyde dehydrogenase (NAD) activity
SPBC17A3.09c, SPBC17A3.09c, 	coenzyme and prosthetic group metabolism
SPAC869.03c, SPAC869.03c, 	transport| urea transport| membrane
SPCC548.03c, wtf4, SPCC548.03	membrane
SPBC3B9.21, SPBC3B9.21, 	mRNA processing
SPBC887.05c, cwf29, 	mRNA processing| RNA processing| spliceosome complex| RNA binding
SPAC6G10.05c, SPAC6G10.05c, 	intracellular protein transport| Golgi cis-face| TRAPP
SPBC106.01, mph1, SPBC1271.16c, SPBC243.01	spindle assembly| cell cycle| signal transduction| protein modification| protein amino acid phosphorylation| cell organization and biogenesis| regulation of cell cycle| protein kinase activity
SPCC1259.11c, gyp2, 	signal transduction
SPBC1604.06c, SPBC1604.06c, 	ribosome biogenesis| cell organization and biogenesis| nucleolus
SPAC20H4.11c, rho5, 	signal transduction
SPACUNK4.08, SPACUNK4.08, 	proteolysis and peptidolysis
SPAC4G9.11c, cmb1, 	regulation of transcription\, DNA-dependent| mismatch repair| DNA repair| transcription| nucleus| DNA binding
SPAC15E1.06, vps29, 	signal transduction| intracellular protein transport| cytoplasmic vesicle
SPAC20H4.10, ufd2, 	ubiquitin ligase complex| nucleus| ubiquitin-protein ligase activity
SPBC887.15c, SPBC887.15c, 	lipid metabolism| sphingolipid metabolism| membrane
SPAC11D3.17, SPAC11D3.17, 	regulation of transcription\, DNA-dependent| transcription
SPAPB15E9.02c, SPAPB15E9.02c, 	membrane
SPBC3B9.11c, ctf1, 	mRNA processing| transcription| RNA processing| mRNA polyadenylation| RNA binding
SPBC428.04, SPBC428.04, 	membrane
SPBC13E7.11, SPBC13E7.11, SPBC30D10.19c	proteolysis and peptidolysis
SPAC1639.01c, SPAC1639.01c, SPAC806.09c	lipid metabolism
SPBC337.15c, coq7, 	energy pathways| electron transport| ubiquinone biosynthesis| membrane| mitochondrial inner membrane| mitochondrial membrane| mitochondrion
SPAPB1E7.07, SPAPB1E7.07, 	amino acid metabolism| glutamate metabolism| glutamate synthase (NADPH+) activity
SPBC32H8.10, cdk9, 	cell cycle| signal transduction| protein modification| regulation of transcription from Pol II promoter| transcription| protein amino acid phosphorylation| protein kinase activity
SPAC3C7.03c, rhp55, 	meiosis| sporulation (sensu Fungi)| DNA repair| DNA recombination| ATPase activity
SPBC887.19, SPBC887.19, 	N-linked glycosylation| protein modification| membrane
SPAC14C4.06c, SPAC14C4.06c, 	nucleocytoplasmic transport| protein targeting| cytoplasm| nucleus| RNA binding
SPCC553.11c, SPCC553.11c, 	regulation of transcription\, DNA-dependent| regulation of transcription from Pol II promoter| transcription| transcription factor TFIIA complex| transcription factor complex| chromatin| nucleus| transcription factor activity
SPAC3A12.14, cam1, 	cell cycle| chromosome segregation| cell organization and biogenesis| spindle pole body
SPAC2C4.13, vma16, 	transport| hydrogen transport| vacuolar membrane| membrane| vacuole| ATPase activity
SPCC663.01c, eck1, SPCC777.16c	cell cycle| chromosome segregation| cell organization and biogenesis
SPAPB1A10.03, SPAPB1A10.03, 	nucleocytoplasmic transport| RNA localization| transcription| protein targeting
SPBC577.06c, SPBC577.06c, 	signal transduction| lipid metabolism| 1-phosphatidylinositol 4-kinase activity
SPBC336.03, efc25, 	signal transduction
SPBC14C8.05c, meu17, 	meiosis| sporulation (sensu Fungi)| carbohydrate metabolism| cell surface
SPAC10F6.11c, SPAC10F6.11c, 	response to stress
SPBC1604.08c, imp1, 	nuclear pore
SPBC12C2.05c, SPBC12C2.05c, 	signal transduction| actin cytoskeleton organization and biogenesis| lipid metabolism| cell organization and biogenesis| actin cytoskeleton| actin cortical patch (sensu Fungi)| cytoskeleton
SPBC8D2.03c, hhf2, ams3, h4.2	establishment and/or maintenance of chromatin architecture| DNA packaging| cell organization and biogenesis| chromatin
SPAC2F7.04, pmc2, 	regulation of transcription\, DNA-dependent| transcription| mediator complex| nucleus
SPAC19A8.04, SPAC19A8.04, 	energy pathways| lipid metabolism
SPBC21C3.18, spo4, 	meiosis| sporulation (sensu Fungi)| spindle assembly| S phase of mitotic cell cycle| signal transduction| protein modification| protein amino acid phosphorylation| cell organization and biogenesis| protein kinase activity
SPAC2F7.07c, SPAC2F7.07c, 	regulation of transcription\, DNA-dependent| transcription
SPAC17H9.20, psc3, SPAC607.01	cell cycle| S phase of mitotic cell cycle| sister chromatid cohesion| regulation of mitotic cell cycle| cell organization and biogenesis| mitotic cell cycle| mitotic cohesin complex| nucleus
SPBC19F8.03c, SPBC19F8.03c, 	actin cytoskeleton organization and biogenesis| endocytosis| intracellular protein transport| cell organization and biogenesis| actin cytoskeleton| actin cortical patch (sensu Fungi)| cytoskeleton
SPAC631.01c, SPAC631.01c, 	actin filament-based process| actin cytoskeleton organization and biogenesis| cell organization and biogenesis| actin cytoskeleton| actin cortical patch (sensu Fungi)| cytoskeleton
SPAC22H12.03, SPAC22H12.03, 	lipid metabolism
SPBC428.15, SPBC428.15, 	GTP binding
SPBC1604.07, atp4, 	hydrogen transport| mitochondrial inner membrane| proton-transporting ATP synthase complex (sensu Eukarya)| mitochondrion| ATPase activity
SPAC328.03, tps1, 	protein modification| carbohydrate metabolism| alpha\,alpha-trehalose-phosphate synthase (UDP-forming) activity
SPCC645.08c, SPCC645.08c, 	regulation of transcription\, DNA-dependent| transcription| transcription factor complex| RNA binding
SPAC23A1.09, SPAC23A1.09, 	mRNA processing| RNA binding
SPAC4G9.14, SPAC4G9.14, 	membrane| peroxisomal membrane
SPBC11G11.01, SPBC11G11.01, 	mitochondrion organization and biogenesis| mitochondrial fission| membrane
SPBC365.04c, SPBC365.04c, 	ribosome biogenesis| cell organization and biogenesis| nucleolus| RNA binding
SPAC29B12.10c, SPAC29B12.10c, 	transport| signal transduction| membrane
SPBC36B7.07, tlg1, 	vesicle-mediated transport| intracellular protein transport| membrane| cytoplasmic vesicle| cell surface| Golgi apparatus
SPBC216.02, SPBC216.02, 	signal transduction
SPCC16A11.08, SPCC16A11.08, 	signal transduction| intracellular protein transport
SPBC30D10.11, gpi1, 	cytokinesis| M phase of mitotic cell cycle| lipid metabolism| GPI anchor biosynthesis| membrane
SPBC1271.12, kes1, 	ergosterol biosynthesis| lipid metabolism| Golgi apparatus
SPBC26H8.11c, SPBC26H8.11c, 	mitochondrion
SPAC1399.02, SPAC1399.02, 	transport| membrane
SPAC1687.06c, rpl44, rpl28	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPAC1783.02c, SPAC1783.02c, 	lipid metabolism| membrane
SPAC1486.09, SPAC1486.09, 	proteolysis and peptidolysis
SPAC20H4.09, SPAC20H4.09, 	mRNA processing| helicase activity
SPAC19G12.02c, pms1, 	mismatch repair| DNA repair| DNA binding
SPAC17H9.12c, SPAC17H9.12c, 	energy pathways| cytochrome-b5 reductase activity
SPAC3H5.05c, rps1401, rps14-1, rps14	protein biosynthesis| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex| cytosolic ribosome (sensu Eukarya)
SPAC23C11.04c, pnk1, 	response to stress| DNA repair| nucleus
SPBC18H10.18c, SPBC18H10.18c, 	membrane
SPAC513.01c, eft201, eft2-1, etf2, SPAPYUK71.04c	protein biosynthesis| GTP binding
SPBC13E7.02, cwf24, 	mRNA processing| spliceosome complex| ubiquitin ligase complex| ubiquitin-protein ligase activity| acetyltransferase activity
SPBC1711.10c, SPBC1711.10c, 	proteolysis and peptidolysis
SPAC12B10.04, SPAC12B10.04, 	microtubule-based process| protein modification| cell organization and biogenesis| cytoskeleton| microtubule organizing center| microtubule cytoskeleton
SPBC29A3.04, rpl701, rpl7a	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPCC1672.04c, SPCC1672.04c, 	energy pathways| electron transport| cell organization and biogenesis
SPAC823.09c, SPAC823.09c, 	aspartate metabolism| cell surface
SPAC23H3.11c, SPAC23H3.11c, 	cell wall organization and biogenesis| carbohydrate metabolism| cell organization and biogenesis
SPAC18B11.09c, SPAC18B11.09c, 	membrane| acetyltransferase activity
SPAC26A3.15c, SPAC26A3.15c, 	nucleocytoplasmic transport| protein targeting| nucleus| nuclear pore
SPCC320.09, SPCC320.09, 	cell ion homeostasis| coenzyme and prosthetic group metabolism| ferrochelatase activity
SPAC458.03, SPAC458.03, 	telomere maintenance| cell organization and biogenesis
SPCC63.08c, SPCC63.08c, 	response to stress| signal transduction| protein modification| protein amino acid phosphorylation| protein kinase activity
SPAC30D11.06c, SPAC30D11.06c, 	membrane
SPAC30D11.06c, SPAC30D11.06c, 	transcription from Pol II promoter| DNA-directed RNA polymerase activity| DNA binding| RNA binding| DNA-directed RNA polymerase II\, core complex| regulation of transcription from Pol II promoter| transcription| DNA-directed RNA polymerase II\, holoenzyme| nucleus| DNA binding| RNA binding| DNA-directed RNA polymerase activity
SPBC1289.05c, vma10, 	transport| intracellular protein transport| hydrogen transport| cell organization and biogenesis| ATPase activity
SPAC23H4.09, cdb4, 	proteolysis and peptidolysis| DNA binding
SPBC2F12.14c, gua1, 	purine nucleotide metabolism| oxidoreductase activity| IMP dehydrogenase activity
SPAC750.08c, SPAC750.08c, 	carbohydrate metabolism
SPAC24H6.06, sld3, 	establishment and/or maintenance of chromatin architecture| S phase of mitotic cell cycle| DNA replication| DNA packaging| cell organization and biogenesis| chromatin
SPCC622.09, htb1, 	establishment and/or maintenance of chromatin architecture| DNA packaging| cell organization and biogenesis| chromatin
SPAC977.11, SPAC977.11, 	membrane
SPCC338.11c, rrg1, uvi22	cell cycle| G2/M transition of mitotic cell cycle
SPAC17C9.10, stm1, 	signal transduction| membrane
SPAC3A12.11c, cwf2, prp3	mRNA processing| RNA processing| spliceosome complex| RNA binding
SPCPB16A4.05c, SPCPB16A4.05c, 	nitrogen metabolism
SPCC613.07, SPCC613.07, 	nucleus
SPAC11E3.10, SPAC11E3.10, 	membrane
SPBC25D12.06, SPBC25D12.06, 	helicase activity
SPCC825.02, SPCC825.02, 	signal transduction| carbohydrate metabolism
SPAPJ760.02c, app1, 	actin filament-based process| signal transduction| actin cytoskeleton organization and biogenesis| endocytosis| intracellular protein transport| cell organization and biogenesis| actin cytoskeleton| actin cortical patch (sensu Fungi)| cytoskeleton
SPBC215.03c, csn1, 	cell cycle checkpoint| cell cycle| S phase of mitotic cell cycle| DNA repair| DNA damage response\, signal transduction resulting in cell cycle arrest| regulation of cell cycle| signalosome complex| nucleus
SPAC222.09, seb1, 	regulation of transcription from Pol II promoter| RNA binding
SPCC1795.01c, mad3, SPCC895.02	spindle assembly| cell cycle| M phase of mitotic cell cycle| cell organization and biogenesis| regulation of cell cycle| kinetochore| ubiquitin ligase complex| nucleus
SPBP8B7.11, SPBP8B7.11, 	nucleocytoplasmic transport| protein targeting| RNA binding
SPAC22G7.08, SPAC22G7.08, 	signal transduction| protein modification| protein amino acid phosphorylation| protein kinase activity
SPAC13G6.01c, rad8, SPAC5H10.14c	establishment and/or maintenance of chromatin architecture| DNA repair| nucleotide-excision repair| DNA packaging| cell organization and biogenesis| chromatin remodeling complex| nucleotide excision repair complex| chromatin| ubiquitin ligase complex| helicase activity| ubiquitin-protein ligase activity| ATPase activity
SPBC29B5.02c, isp4, 	transport| conjugation with cellular fusion| membrane
SPBC23E6.09, SPBC23E6.09, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| transcription| DNA packaging| cell organization and biogenesis| chromatin silencing| chromatin| nucleus
SPAC17G6.12, pcu1, 	cell cycle| protein modification| proteolysis and peptidolysis| ubiquitin ligase complex
SPBC119.02, ubc4, 	cell cycle| protein modification| proteolysis and peptidolysis| ubiquitin conjugating enzyme activity| ubiquitin-protein ligase activity
SPCC70.08c, SPCC70.08c, 	rRNA processing| methyltransferase activity
SPCC70.08c, SPCC70.08c, 	mitochondrial electron transport\, succinate to ubiquinone| protein-membrane targeting| protein-mitochondrial targeting| protein binding| mitochondrial inner membrane| energy pathways| electron transport| TCA intermediate metabolism| membrane| mitochondrial inner membrane| mitochondrial membrane| mitochondrion| oxidoreductase activity
SPAC664.02c, SPAC664.02c, 	cell organization and biogenesis| actin cytoskeleton| cytoskeleton| nucleus
SPAC17A5.06, ercc3sp, 	regulation of transcription\, DNA-dependent| DNA repair| regulation of transcription from Pol II promoter| transcription| transcription factor TFIIH complex| transcription factor complex| chromatin| nucleus| transcription factor activity| helicase activity
SPBC25H2.03, SPBC25H2.03, 	response to stress| signal transduction| lipid metabolism| vacuole
SPAC23H3.07c, SPAC23H3.07c, 	protein biosynthesis| mitochondrial ribosome
SPAC29A4.07, srb6, 	regulation of transcription\, DNA-dependent| transcription| mediator complex| nucleus
SPAC20G4.07c, sts1, 	ergosterol biosynthesis| lipid metabolism| membrane
SPAC222.10c, byr4, 	spindle assembly| cell cycle| barrier septum formation| cytokinesis| M phase of mitotic cell cycle| cell organization and biogenesis| regulation of cell cycle| spindle pole body
SPAC1B3.04c, SPAC1B3.04c, 	protein biosynthesis| GTPase activity| GTP binding
SPAC3A12.10, rpl2001, rpl20-1, rpl20, yl17b, rpl18a-2	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPBC21H7.04, SPBC21H7.04, 	rRNA processing| RNA processing| nucleolus| helicase activity
SPBC1A4.08c, cct3, 	microtubule-based process| protein folding| tubulin folding| cell organization and biogenesis| actin cytoskeleton| cytoskeleton| chaperonin-containing T-complex| microtubule organizing center| microtubule cytoskeleton
SPAC57A7.06, SPAC57A7.06, 	rRNA processing| RNA processing| nucleus| GTP binding
SPBC11B10.02c, his3, 	amino acid metabolism| histidine metabolism| histidinol-phosphate transaminase activity
SPBC409.05, skp1, psh1, sph1	cell cycle| cytokinesis| protein modification| M phase of mitotic cell cycle| proteolysis and peptidolysis| ubiquitin ligase complex
SPAC869.02c, SPAC869.02c, 	energy pathways
SPAC23A1.19c, SPAC23A1.19c, SPAC26H5.01c	helicase activity
SPAC1296.04, SPAC1296.04, 	peroxisome
SPBC19C2.12, SPBC19C2.12, 	protein biosynthesis| mitochondrial ribosome
SPAC17D4.04, SPAC17D4.04, SPAC458.01	tRNA metabolism| nucleolus| methyltransferase activity
SPCC663.03, pmd1, 	transport| multidrug transport| membrane| cell surface
SPAC22F8.10c, sap145, 	mRNA processing| RNA processing| spliceosome complex
SPBC15D4.03, slm9, 	regulation of mitotic cell cycle| cell organization and biogenesis| mitotic cell cycle| nucleus
SPBC16C6.08c, qcr6, 	energy pathways| electron transport| membrane| mitochondrial inner membrane| mitochondrial membrane| mitochondrion
SPCC1494.02c, taf13, 	regulation of transcription\, DNA-dependent| regulation of transcription from Pol II promoter| transcription| cell organization and biogenesis| transcription factor TFIID complex| transcription factor complex| chromatin| nucleus| transcription factor activity
SPBC11B10.03, SPBC11B10.03, 	intracellular protein transport| cytoplasmic vesicle
SPAPB24D3.04c, mag1, 	DNA repair| nucleotide-excision repair| nucleotide excision repair complex| alkylbase DNA N-glycosylase activity
SPBC1778.02, rap1, 	telomere maintenance| meiosis| establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| transcription| DNA packaging| cell organization and biogenesis| chromatin silencing| chromatin| nucleus| DNA binding
SPAC11D3.05, SPAC11D3.05, 	transport| membrane
SPAC343.07, SPAC343.07, 	RNA binding
SPAC343.07, SPAC343.07, 	lysyl-tRNA aminoacylation| lysine-tRNA ligase activity| mitochondrion| tRNA metabolism| mitochondrion
SPBC18A7.02c, SPBC18A7.02c, 	protein modification| carbohydrate metabolism| membrane
SPAC922.07c, SPAC922.07c, 	amino acid metabolism| alanine metabolism| oxidoreductase activity| aldehyde dehydrogenase [NAD(P)+] activity
SPCC4G3.16, SPCC4G3.16, 	rRNA processing| RNA processing| coenzyme and prosthetic group metabolism
SPAC2G11.14, taf111, taf1, taf130	regulation of transcription\, DNA-dependent| regulation of transcription from Pol II promoter| transcription| transcription factor TFIID complex| transcription factor complex| chromatin| nucleus| transcription factor activity
SPAC1250.04c, SPAC1250.04c, 	DNA repair| DNA binding| methyltransferase activity
SPAC1250.04c, SPAC1250.04c, 	phenylalanyl-tRNA aminoacylation| phenylalanine-tRNA ligase activity| cytoplasm| phenylalanine-tRNA ligase complex| tRNA metabolism| cytoplasm| phenylalanine-tRNA ligase activity
SPBC25B2.02c, mam1, SPBC2G5.09c	transport| signal transduction| membrane
SPBC428.01c, nup107, SPBC582.11c	nucleocytoplasmic transport| protein targeting| nucleus| nuclear pore
SPCC1393.08, SPCC1393.08, 	regulation of transcription\, DNA-dependent| transcription
SPCC1442.08c, cox12, 	energy pathways| electron transport| membrane| mitochondrial inner membrane| mitochondrial membrane| mitochondrion| cytochrome-c oxidase activity
SPBC31E1.02c, pmr1, 	cell ion homeostasis| signal transduction| cell organization and biogenesis| membrane| ATPase activity
SPCC970.05, rpl3601, rpl36-1	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPAC16C9.01c, SPAC16C9.01c, SPAC4G8.14c	RNA processing| carbohydrate metabolism
SPBC25B2.10, SPBC25B2.10, 	response to stress
SPAC15A10.11, ubr11, 	ubiquitin ligase complex| ubiquitin-protein ligase activity
SPCC1259.10, pgp1, 	proteolysis and peptidolysis
SPBC29A3.15c, SPBC29A3.15c, 	protein biosynthesis| mitochondrial ribosome
SPBC146.12, coq6, 	energy pathways| electron transport| ubiquinone biosynthesis| membrane| mitochondrial inner membrane| mitochondrial membrane| mitochondrion
SPBC725.15, ura5, 	pyrimidine base metabolism| orotate phosphoribosyltransferase activity
SPAC7D4.04, taf1, 	response to stress| conjugation with cellular fusion
SPBC359.03c, SPBC359.03c, 	transport| amino acid transport| membrane
SPBC4F6.07c, SPBC4F6.07c, 	ribosome biogenesis| rRNA processing| RNA processing| cell organization and biogenesis| helicase activity
SPBC16G5.05c, SPBC16G5.05c, 	signal transduction| lipid metabolism| endoplasmic reticulum| endoplasmic reticulum membrane
SPBC16G5.05c, SPBC16G5.05c, 	pentose-phosphate shunt\, non-oxidative branch| transketolase activity| cytoplasm| carbohydrate metabolism| cytoplasm| transketolase activity
SPAC17G8.01c, SPAC17G8.01c, SPAC6C3.10c	tRNA metabolism
SPBC11B10.09, cdc2, swo2	cell cycle checkpoint| DNA replication checkpoint| G1/S transition of mitotic cell cycle| regulation of cyclin dependent protein kinase activity| cell cycle| endomitotic cell cycle| S phase of mitotic cell cycle| DNA replication| DNA repair| G1 phase of mitotic cell cycle| DNA damage response\, signal transduction resulting in cell cycle arrest| signal transduction| protein modification| M phase of mitotic cell cycle| regulation of mitosis| G2/M transition of mitotic cell cycle| regulation of mitotic cell cycle| mitotic metaphase| mitotic anaphase| protein amino acid phosphorylation| mitotic cell cycle| regulation of cell cycle| protein kinase activity
SPCC306.05c, ins1, 	lipid metabolism| membrane
SPAC1B3.08, SPAC1B3.08, 	proteolysis and peptidolysis
SPAC3A11.09, SPAC3A11.09, 	cation transport| membrane
SPBC12C2.04, SPBC12C2.04, 	oxidoreductase activity
SPBC19G7.09, ulp1, 	S phase of mitotic cell cycle| DNA replication| protein modification| proteolysis and peptidolysis| cell organization and biogenesis| nucleus
SPAC13G7.04c, mac1, 	cytokinesis| membrane| septum
SPBC1734.04, SPBC1734.04, SPBC337.20	N-linked glycosylation| protein modification| carbohydrate metabolism| Golgi apparatus
SPAC10F6.12c, mam4, 	protein modification| lipid metabolism| membrane| methyltransferase activity| protein-S-isoprenylcysteine O-methyltransferase activity
SPBC6B1.06c, ucp2, 	protein modification| proteolysis and peptidolysis| ubiquitin thiolesterase activity
SPAC9.12c, atp12, 	energy pathways| electron transport| protein folding| hydrogen transport| cell organization and biogenesis| chaperone activity| ATPase activity
SPBC16C6.02c, vps1302, vps13b	intracellular protein transport
SPAC13G6.11c, SPAC13G6.11c, 	steroid metabolism| ergosterol biosynthesis| lipid metabolism| coenzyme and prosthetic group metabolism| mevalonate kinase activity
SPAC1039.10, mmf2, hpm1, SPAC922.01	mitochondrion organization and biogenesis| mitochondrial genome maintenance| protein biosynthesis| cell organization and biogenesis
SPCC1827.07c, SPCC1827.07c, SPCP1E11.01c	signal transduction| membrane
SPAC19D5.06c, din1, 	cell cycle| chromosome segregation| cell organization and biogenesis
SPAC24C9.07c, bgs2, meu21	meiosis| sporulation (sensu Fungi)| protein modification| spore wall assembly (sensu Fungi)| carbohydrate metabolism| cell organization and biogenesis| membrane| plasma membrane| 1\,3-beta-glucan synthase complex
SPAC167.02, ptb1, 	lipid metabolism
SPBC8D2.15, SPBC8D2.15, 	coenzyme and prosthetic group metabolism| mitochondrion
SPAC821.05, SPAC821.05, 	cell cycle| S phase of mitotic cell cycle| protein biosynthesis| signalosome complex| eukaryotic translation initiation factor 3 complex| eukaryotic 48S initiation complex| nucleus
SPBC354.14c, vac8, 	vacuole
SPAC15E1.03, rpl36a, 	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPBC725.02, mpr1, spy1	cell cycle| response to stress| signal transduction| G2/M transition of mitotic cell cycle
SPAC750.06c, SPAC750.06c, 	membrane| cell surface
SPBC16D10.08c, SPBC16D10.08c, 	protein folding| chaperone activity| ATPase activity
SPBC106.07c, SPBC106.07c, 	protein modification| acetyltransferase activity| peptide alpha-N-acetyltransferase activity
SPAC26A3.02, myh1, myh	mismatch repair| DNA repair
SPBC1215.02c, SPBC1215.02c, 	mitochondrion organization and biogenesis| cytoskeleton organization and biogenesis| actin filament-based process| protein modification| actin cytoskeleton organization and biogenesis| cell organization and biogenesis| establishment and/or maintenance of cell polarity| actin cytoskeleton| cytoskeleton| acetyltransferase activity
SPAC25G10.05c, his1, 	amino acid metabolism| histidine metabolism| ATP phosphoribosyltransferase activity
SPAC23A1.04c, SPAC23A1.04c, 	carbohydrate metabolism
SPBC1198.09, ubc16, 	proteolysis and peptidolysis| ubiquitin conjugating enzyme activity| ubiquitin-protein ligase activity
SPAC5H10.13c, gmh2, 	protein amino acid galactosylation| protein modification| cell surface
SPBC651.11c, apm2, 	vesicle-mediated transport| intracellular protein transport| cytoplasmic vesicle
SPBPB2B2.02, SPBPB2B2.02, 	lipid metabolism| membrane
SPCC576.07, ret3, 	intracellular protein transport| cytoplasmic vesicle| Golgi apparatus| Golgi vesicle
SPCC737.03c, SPCC737.03c, 	membrane
SPCC737.03c, SPCC737.03c, 	nucleotide-excision repair\, DNA incision\, 3'-to lesion| meiosis| establishment and/or maintenance of chromatin architecture| S phase of mitotic cell cycle| DNA repair| nucleotide-excision repair| DNA recombination| DNA packaging| cell organization and biogenesis| nucleolus| nucleotide excision repair complex| replication fork| chromatin
SPAC2G11.11c, prh1, 	ribosome biogenesis| cell organization and biogenesis| nucleolus| helicase activity
SPBC28F2.04c, cwf7, spf27	mRNA processing| RNA processing| spliceosome complex
SPCC132.02, SPCC132.02, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| transcription| DNA packaging| cell organization and biogenesis| chromatin silencing| chromatin remodeling complex| transcription factor complex| chromatin
SPBC4.03c, SPBC4.03c, 	vesicle-mediated transport| intracellular protein transport| COPII-coated vesicle| cytoplasmic vesicle| Golgi vesicle| COPI-coated vesicle
SPBC1105.09, ubc15, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| transcription| DNA packaging| proteolysis and peptidolysis| cell organization and biogenesis| chromatin silencing| chromatin| ubiquitin conjugating enzyme activity| ubiquitin-protein ligase activity
SPAC1565.02c, SPAC1565.02c, 	GTPase regulator activity
SPBC31F10.03, SPBC31F10.03, 	transport| cation transport| membrane
SPBC646.07c, SPBC646.07c, 	lipid metabolism| membrane| cell surface| oxidoreductase activity
SPBC577.13, SPBC577.13, 	signal transduction| lipid metabolism
SPAC2C4.16c, rps801, rps8-1	protein biosynthesis| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex| cytosolic ribosome (sensu Eukarya)
SPBC1683.07, SPBC1683.07, 	carbohydrate metabolism
SPCC417.02, hos3, 	response to stress
SPBPB21E7.07, aes1, SPAPB21E7.07	regulation of transcription\, DNA-dependent| transcription
SPBC3D6.05, ptp4, 	tRNA metabolism| tRNA splicing| membrane
SPCC794.06, SPCC794.06, 	transport| carbohydrate transport| membrane
SPAC1782.12c, SPAC1782.12c, 	membrane
SPBC12C2.12c, SPBC12C2.12c, SPBC21D10.03c	sulfur metabolism| lactoylglutathione lyase activity
SPBC29A10.07, SPBC29A10.07, 	nucleocytoplasmic transport| protein targeting| nucleus| nuclear pore
SPAPB1A11.03, SPAPB1A11.03, 	energy pathways| electron transport| mitochondrion| L-lactate dehydrogenase (cytochrome) activity| oxidoreductase activity
SPAC1610.02c, SPAC1610.02c, 	protein biosynthesis| mitochondrial ribosome
SPAC25A8.01c, SPAC25A8.01c, 	establishment and/or maintenance of chromatin architecture| DNA packaging| cell organization and biogenesis| chromatin remodeling complex| chromatin| helicase activity| ATPase activity
SPBC2D10.10c, fib1, fib	rRNA processing| mRNA processing| RNA processing| nucleolus
SPAC17H9.06c, SPAC17H9.06c, 	nucleus
SPBC17G9.10, rpl1102, rpl11-2	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPBC4F6.04, rpl2502, rpl25b, rpl23a-2	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPAC328.07c, SPAC328.07c, 	cell ion homeostasis
SPAC139.05, SPAC139.05, 	amino acid metabolism| tyrosine metabolism| glutamate metabolism| energy pathways| succinate-semialdehyde dehydrogenase [NAD(P)+] activity| oxidoreductase activity
SPAC3G6.11, SPAC3G6.11, 	helicase activity
SPAC664.06, rpl703, rpl7	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPCC1795.04c, SPCC1795.04c, 	proteolysis and peptidolysis| proteasome complex (sensu Eukarya)
SPCC74.01, sly1, 	ER to Golgi transport| exocytosis| intracellular protein transport| cytoplasmic vesicle| Golgi cis-face| TRAPP
SPBC1709.05, sks2, hsc1	response to stress| chaperone activity| heat shock protein activity
SPCC1739.07, SPCC1739.07, 	rRNA processing| RNA processing| exosome (RNase complex)| nucleus
SPBC19C2.01, cdc28, prp8	mRNA processing| spliceosome complex| helicase activity
SPCC31H12.06, SPCC31H12.06, 	membrane
SPCC1753.01c, ssb2, SPCC584.06c	telomere maintenance| meiosis| S phase of mitotic cell cycle| DNA replication| DNA repair| cell organization and biogenesis| regulation of cell cycle| DNA replication factor A complex| replication fork| DNA binding
SPBC713.12, SPBC713.12, 	ergosterol biosynthesis| lipid metabolism| squalene monooxygenase activity
SPBC17D1.03c, SPBC17D1.03c, 	rRNA processing| RNA processing| exosome (RNase complex)
SPBC17D1.03c, SPBC17D1.03c, 	glycyl-tRNA aminoacylation| glycine-tRNA ligase activity| cytoplasm| mitochondrion| tRNA metabolism| mitochondrion| cytoplasm| glycine-tRNA ligase activity
SPAC521.03, SPAC521.03, 	amino acid metabolism| L-serine metabolism| oxidoreductase activity
SPCC191.07, cyc1, 	energy pathways| electron transport
SPAC13C5.02, hgp1, 	signal transduction
SPAC328.02, SPAC328.02, 	proteolysis and peptidolysis| ubiquitin ligase complex| ubiquitin conjugating enzyme activity| ubiquitin-protein ligase activity
SPAC25B8.04c, SPAC25B8.04c, 	RNA processing
SPAC25B8.04c, SPAC25B8.04c, 	betaine biosynthesis from choline| meiosis| betaine-aldehyde dehydrogenase activity| mitochondrial matrix| meiosis| energy pathways| carbohydrate metabolism| main pathways of carbohydrate metabolism| mitochondrion| betaine-aldehyde dehydrogenase activity| oxidoreductase activity
SPAC1F8.02c, SPAC1F8.02c, 	cell surface
SPBC530.06c, SPBC530.06c, 	protein biosynthesis| eukaryotic translation initiation factor 3 complex| eukaryotic 48S initiation complex
SPAC821.11, pro1, 	amino acid metabolism| proline metabolism| glutamate-5-semialdehyde dehydrogenase activity
SPBC36.01c, SPBC36.01c, 	transport| membrane
SPAC1006.06, rgf2, 	cytokinesis| signal transduction| cytoplasm
SPBC119.06, sco1, 	energy pathways| electron transport| cell organization and biogenesis
SPAC23H4.07c, srp102, 	protein-ER targeting| protein targeting| intracellular protein transport| endoplasmic reticulum| signal recognition particle| GTP binding
SPAC31A2.13c, sft1, 	vesicle-mediated transport| intracellular protein transport| membrane| cytoplasmic vesicle
SPBC146.11c, SPBC146.11c, 	membrane
SPBC15C4.04c, SPBC15C4.04c, 	transport| amino acid transport| membrane
SPBC29A3.01, SPBC29A3.01, 	membrane| copper-exporting ATPase activity| ATPase activity
SPAC3H8.09c, SPAC3H8.09c, 	RNA processing| RNA binding
SPCP31B10.04, SPCP31B10.04, 	membrane
SPBPB2B2.12c, SPBPB2B2.12c, 	carbohydrate metabolism| UDP-glucose 4-epimerase activity| aldose 1-epimerase activity
SPCC23B6.04c, SPCC23B6.04c, 	signal transduction| lipid metabolism
SPBC13G1.10c, SPBC13G1.10c, 	RNA processing| helicase activity
SPBC4B4.10c, SPBC4B4.10c, 	response to stress
SPAPB2B4.02, grx4, 	response to stress| energy pathways
SPAC2H10.02c, SPAC2H10.02c, 	signal transduction| proteolysis and peptidolysis| proteasome complex (sensu Eukarya)
SPBC336.04, cdc6, pol3, pold, mis10	S phase of mitotic cell cycle| DNA replication| replication fork| DNA-directed DNA polymerase activity
SPBC16A3.06, SPBC16A3.06, 	tRNA metabolism
SPCC320.05, SPCC320.05, 	transport| anion transport| membrane
SPBC16E9.14c, SPBC16E9.14c, 	transport| cation transport| endoplasmic reticulum| membrane| endoplasmic reticulum membrane
SPBC1539.09c, trp1, 	amino acid metabolism| tryptophan metabolism| anthranilate synthase activity| indole-3-glycerol-phosphate synthase activity| phosphoribosylanthranilate isomerase activity
SPAC25B8.17, SPAC25B8.17, 	membrane
SPBC11C11.09c, rpl502, rpl5-2, rpl5b	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPBC3E7.16c, leu3, SPBC4F6.03c	amino acid metabolism| carbohydrate metabolism| leucine metabolism
SPAC144.08, SPAC144.08, 	protein folding| cell organization and biogenesis| mitochondrion| chaperone activity
SPBC21C3.15c, SPBC21C3.15c, 	oxidoreductase activity
SPCC1795.05c, SPCC1795.05c, 	purine nucleotide metabolism
SPMIT.05, cob, P05501	energy pathways
SPCC1281.05, SPCC1281.05, 	nucleocytoplasmic transport| protein targeting
SPCC576.17c, SPCC576.17c, 	transport| membrane
SPAC1805.02c, SPAC1805.02c, 	energy pathways| electron transport| mitochondrion
SPBC1734.13, atp3, 	transport| hydrogen transport| mitochondrial inner membrane| proton-transporting ATP synthase complex (sensu Eukarya)| ATPase activity
SPCC1739.13, ssa2, 	response to stress| protein folding| chaperone activity| heat shock protein activity
SPBC1685.11, SPBC1685.11, 	DNA repair| GTP binding
SPAC2G11.09, SPAC2G11.09, 	membrane
SPBC3B9.13c, rpp102, rpp1-2	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPAC1851.03, ckb1, 	signal transduction| protein kinase CK2 complex
SPBP35G2.06c, nup131, Nup133a	nucleocytoplasmic transport| protein targeting| nucleus| nuclear pore
SPCC31H12.02c, SPCC31H12.02c, 	transport| membrane
SPBC17G9.11c, pyr1, 	energy pathways| TCA intermediate metabolism| pyruvate carboxylase activity
SPAC18B11.02c, SPAC18B11.02c, 	pyrimidine base metabolism| RNA processing| tRNA metabolism| coenzyme and prosthetic group metabolism
SPAC31A2.03, SPAC31A2.03, 	protein biosynthesis| mitochondrial ribosome
SPBC530.13, SPBC530.13, 	cell cycle| nucleus
SPBC1105.04c, cbp1, abp1	meiosis| establishment and/or maintenance of chromatin architecture| cell cycle| S phase of mitotic cell cycle| DNA replication| DNA packaging| chromosome segregation| cell organization and biogenesis| replication fork| chromatin| DNA binding
SPAC24H6.12c, uba3, 	proteolysis and peptidolysis
SPCC1442.07c, SPCC1442.07c, 	proteolysis and peptidolysis
SPAC688.08, srb8, 	transcription| nucleus
SPBC16E9.13, SPBC16E9.13, 	signal transduction| protein modification| protein amino acid phosphorylation| protein kinase activity
SPCC18B5.06, erf1, sup45	protein biosynthesis
SPCC4B3.02c, SPCC4B3.02c, 	ER to Golgi transport| intracellular protein transport| membrane| cytoplasmic vesicle
SPAC1834.11c, sec18, 	vacuole organization and biogenesis| vacuole fusion\, non-autophagic| ER to Golgi transport| intracellular protein transport| vacuolar membrane| membrane| cytoplasmic vesicle| ATPase activity
SPMIT.04, cox3, P14575	energy pathways| electron transport| mitochondrial electron transport chain| respiratory chain complex IV (sensu Eukarya)| mitochondrial inner membrane| mitochondrial membrane| cytochrome-c oxidase activity
SPAC11E3.13c, SPAC11E3.13c, 	cell wall organization and biogenesis| cell organization and biogenesis| cell surface
SPBC14F5.08, med7, 	regulation of transcription\, DNA-dependent| transcription| mediator complex| nucleus
SPAC513.06c, SPAC513.06c, 	oxidoreductase activity| trans-1\,2-dihydrobenzene-1\,2-diol dehydrogenase activity
SPCC1742.01, SPCC1742.01, SPCC1795.13, SPCPB16A4.07c	cell surface
SPAC6B12.09, SPAC6B12.09, 	tRNA metabolism| methyltransferase activity
SPBC4F6.08c, SPBC4F6.08c, 	protein biosynthesis| mitochondrial ribosome
SPBC29A3.14c, trt1, 	telomere maintenance| cell organization and biogenesis
SPAPB1E7.03, SPAPB1E7.03, 	transcription| DNA-directed RNA polymerase III complex
SPAPB17E12.05, rpl3703, rpl37	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPBC56F2.05c, SPBC56F2.05c, 	regulation of transcription\, DNA-dependent| transcription| transcription regulator activity
SPAC11E3.05, SPAC11E3.05, 	cell organization and biogenesis
SPAC17G8.10c, dma1, 	spindle assembly| cell cycle| barrier septum formation| cytokinesis| signal transduction| M phase of mitotic cell cycle| cell organization and biogenesis| regulation of cell cycle| ubiquitin ligase complex| ubiquitin-protein ligase activity
SPBC24C6.02, SPBC24C6.02, 	ribosome biogenesis| cell organization and biogenesis| helicase activity
SPAPB24D3.09c, SPAPB24D3.09c, 	transport| membrane| plasma membrane
SPAC11D3.02c, SPAC11D3.02c, 	acetyltransferase activity
SPAPB15E9.01c, SPAPB15E9.01c, SPAPB18E9.06c	cell surface
SPBC146.01, SPBC146.01, SPBP35G2.15	regulation of transcription\, DNA-dependent| transcription| mediator complex| nucleus
SPBC32F12.02, rec14, 	meiosis| DNA recombination
SPBC32F12.02, rec14, 	succinyl-CoA metabolism| tricarboxylic acid cycle| succinate-CoA ligase activity| mitochondrial matrix| TCA intermediate metabolism| mitochondrion
SPAC23H4.01c, SPAC23H4.01c, SPAP27G11.01	signal transduction| ergosterol biosynthesis| lipid metabolism| cell organization and biogenesis
SPCC825.01, SPCC825.01, 	ATPase activity
SPAC8F11.07c, cdc24, 	S phase of mitotic cell cycle| DNA replication
SPAC19G12.05, SPAC19G12.05, 	transport
SPAC664.15, SPAC664.15, 	mitochondrion organization and biogenesis| mitochondrial fission
SPBC646.08c, SPBC646.08c, 	ergosterol biosynthesis| lipid metabolism
SPBC336.12c, cdc10, 	G1/S transition of mitotic cell cycle| meiosis| regulation of transcription\, DNA-dependent| S phase of mitotic cell cycle| G1 phase of mitotic cell cycle| transcription| M phase of mitotic cell cycle| regulation of mitosis| mitotic anaphase| cell organization and biogenesis| DNA binding
SPBC691.01, SPBC691.01, 	lipid metabolism| membrane
SPAC18G6.02c, chp1, 	establishment and/or maintenance of chromatin architecture| microtubule-based process| regulation of transcription\, DNA-dependent| cell cycle| transcription| DNA packaging| chromosome segregation| cell organization and biogenesis| chromatin silencing| cytoskeleton| chromatin| nucleus| microtubule organizing center| microtubule cytoskeleton| DNA binding
SPAC25B8.13c, isp7, 	conjugation with cellular fusion
SPBC26H8.02c, sec9, 	intracellular protein transport| cytoplasmic vesicle
SPBC651.01c, SPBC651.01c, SPBC725.18c	ribosome biogenesis| cell organization and biogenesis| nucleolus| GTPase activity| GTP binding
SPAC20G4.04c, hus1, 	cell cycle checkpoint| DNA replication checkpoint| cell cycle| S phase of mitotic cell cycle| DNA replication| DNA repair| DNA damage response\, signal transduction resulting in cell cycle arrest| regulation of cell cycle| replication fork
SPBC8D2.07c, sfc9, 	regulation of transcription\, DNA-dependent| transcription from Pol III promoter| transcription| transcription factor complex| chromatin| nucleus| transcription factor TFIIIC complex| transcription factor activity
SPBC211.06, gfh4, 	microtubule-based process| cell organization and biogenesis| cytoskeleton| microtubule organizing center| microtubule cytoskeleton
SPBC3H7.06c, pof9, 	establishment and/or maintenance of chromatin architecture| cell cycle| chromosome condensation| DNA packaging| proteolysis and peptidolysis| ubiquitin ligase complex
SPBC3H7.06c, pof9, 	pyrimidine base biosynthesis| dihydroorotate dehydrogenase activity| mitochondrion| pyrimidine base metabolism| mitochondrion| oxidoreductase activity| dihydroorotate oxidase activity
SPBC3H7.06c, pof9, 	glycine metabolism| glycine dehydrogenase (decarboxylating) activity| glycine cleavage complex| mitochondrion| amino acid metabolism| glycine metabolism| mitochondrion| oxidoreductase activity| glycine dehydrogenase (decarboxylating) activity
SPBC13A2.04c, ptr2, 	transport| membrane
SPCC306.04c, set1, 	telomere maintenance| establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| DNA repair| transcription| DNA packaging| cell organization and biogenesis| chromatin silencing| chromatin remodeling complex| chromatin| RNA binding| methyltransferase activity
SPAC3F10.10c, map3, 	meiosis| signal transduction| membrane
SPBC354.05c, sre2, 	regulation of transcription\, DNA-dependent| transcription| membrane| nucleus| DNA binding
SPBC1703.06, pof10, 	proteolysis and peptidolysis| ubiquitin ligase complex
SPBC21H7.07c, his5, 	amino acid metabolism| histidine metabolism| imidazoleglycerol-phosphate dehydratase activity
SPBC3B8.01c, SPBC3B8.01c, 	cell organization and biogenesis| mitochondrion| ferredoxin-NADP+ reductase activity
SPBC3B8.01c, SPBC3B8.01c, 	valyl-tRNA aminoacylation| valine-tRNA ligase activity| cellular_component unknown| tRNA metabolism| valine-tRNA ligase activity
SPAPB18E9.02c, SPAPB18E9.02c, 	signal transduction| protein modification| protein amino acid phosphorylation| protein kinase activity
SPBC428.20c, alp6, SPBC902.01c	cytoskeleton organization and biogenesis| spindle assembly| microtubule-based process| cell cycle| cell organization and biogenesis| establishment and/or maintenance of cell polarity| regulation of cell cycle| cytoskeleton| spindle pole body| microtubule organizing center| microtubule cytoskeleton
SPBC428.20c, alp6, SPBC902.01c	transcription from Pol II promoter| DNA-directed RNA polymerase activity| DNA binding| DNA-directed RNA polymerase II\, core complex| regulation of transcription from Pol II promoter| transcription| DNA-directed RNA polymerase II\, holoenzyme| nucleus| DNA binding
SPBC15D4.04, gpt2, gpt	protein modification| cell organization and biogenesis| UDP-N-acetylglucosamine-dolichyl-phosphate N-acetylglucosaminephosphotransferase activity
SPBC15D4.04, gpt2, gpt	establishment and/or maintenance of chromatin architecture| establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| transcription| DNA packaging| cell organization and biogenesis| chromatin
SPCC584.02, cuf2, 	regulation of transcription\, DNA-dependent| cell ion homeostasis| transcription| DNA binding
SPAC824.04, SPAC824.04, 	mRNA processing| RNA processing| mRNA polyadenylation
SPAC824.04, SPAC824.04, 	cysteine biosynthesis from serine| serine O-acetyltransferase activity| cellular_component unknown| cysteine metabolism| amino acid metabolism| sulfur metabolism| L-serine metabolism| serine O-acetyltransferase activity| acetyltransferase activity
SPAC1039.11c, SPAC1039.11c, SPAC922.02c	carbohydrate metabolism| cell surface| alpha-glucosidase activity
SPCC645.09, SPCC645.09, 	protein biosynthesis| mitochondrial ribosome
SPBC1861.03, SPBC1861.03, 	protein modification| acetyltransferase activity
SPAC1834.04, hht1, 	establishment and/or maintenance of chromatin architecture| DNA packaging| cell organization and biogenesis| chromatin
SPAC1142.06, SPAC1142.06, 	anion transport| cell ion homeostasis| ATPase activity
SPCC417.07c, mbo1, 	microtubule-based process| cell organization and biogenesis| microtubule cytoskeleton organization and biogenesis| cytoskeleton| microtubule organizing center| microtubule cytoskeleton
SPAC24B11.13, SPAC24B11.13, SPAC806.01	coenzyme and prosthetic group metabolism
SPAC29A4.13, SPAC29A4.13, 	nitrogen metabolism
SPAC3H1.02c, SPAC3H1.02c, 	proteolysis and peptidolysis
SPBC18E5.12c, SPBC18E5.12c, SPBC23G7.02c	proteolysis and peptidolysis| mitochondrion| mitochondrial processing peptidase activity
SPAC3H1.09c, SPAC3H1.09c, 	transport| amino acid transport| membrane
SPBC800.03, clr3, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| transcription| DNA packaging| cell organization and biogenesis| chromatin silencing| transcription factor complex| chromatin
SPCC31H12.08c, ccr4, SPCC5E4.02c	regulation of transcription\, DNA-dependent| transcription| CCR4-NOT core complex
SPCC1450.12, SPCC1450.12, 	signal transduction| intracellular protein transport
SPBC18H10.16, SPBC18H10.16, 	transport| anion transport| cation transport| membrane
SPCC1442.15c, SPCC1442.15c, 	membrane
SPCC1442.15c, SPCC1442.15c, 	tricarboxylic acid cycle| mitochondrial electron transport\, succinate to ubiquinone| succinate dehydrogenase (ubiquinone) activity| respiratory chain complex II (sensu Eukarya)| energy pathways| electron transport| TCA intermediate metabolism| membrane| mitochondrial inner membrane| mitochondrial membrane| mitochondrion| succinate dehydrogenase (ubiquinone) activity| oxidoreductase activity
SPBC713.06, adl1, 	S phase of mitotic cell cycle
SPAC26H5.08c, bgl2, 	carbohydrate metabolism| glucan 1\,3-beta-glucosidase activity
SPBC21D10.05c, ucp3, soc2	G1/S transition of mitotic cell cycle| endomitotic cell cycle| S phase of mitotic cell cycle| G1 phase of mitotic cell cycle| protein modification| M phase of mitotic cell cycle| regulation of mitosis| G2/M transition of mitotic cell cycle| mitotic metaphase| mitotic anaphase
SPBC21D10.05c, ucp3, soc2	phosphatidylcholine biosynthesis| phosphatidylserine decarboxylase activity| mitochondrial inner membrane| lipid metabolism| mitochondrial inner membrane| mitochondrial membrane| phosphatidylserine decarboxylase activity
SPAC22H12.02, taf14, 	regulation of transcription\, DNA-dependent| regulation of transcription from Pol II promoter| transcription| transcription factor TFIID complex| chromatin remodeling complex| transcription factor complex| chromatin| nucleus| transcription factor activity
SPBC2F12.12c, SPBC2F12.12c, 	cell organization and biogenesis
SPBC902.02c, ctf18, chl12	telomere maintenance| meiosis| cell cycle| S phase of mitotic cell cycle| DNA replication| DNA recombination| sister chromatid cohesion| chromosome segregation| cell organization and biogenesis| replication fork| ATPase activity
SPAP8A3.03, SPAP8A3.03, 	transport| metal ion transport| membrane
SPBC1198.12, mfr1, SPBC660.02	meiosis| sporulation (sensu Fungi)
SPBC1711.12, SPBC1711.12, 	proteolysis and peptidolysis
SPBC119.17, SPBC119.17, SPBC577.01	proteolysis and peptidolysis
SPAC1565.07c, SPAC1565.07c, 	regulation of transcription\, DNA-dependent| transcription
SPCC70.02c, SPCC70.02c, 	mitochondrion| ATPase activity
SPBC14F5.03c, kap123, 	nucleocytoplasmic transport| protein targeting| nucleus| nuclear pore
SPAC57A7.11, mip1, 	meiosis
SPBC19C2.04c, ubp11, 	proteolysis and peptidolysis
SPAC343.10, met11, mthfr2	amino acid metabolism| sulfur metabolism| methionine metabolism| coenzyme and prosthetic group metabolism| methylenetetrahydrofolate reductase (NADPH) activity
SPCP31B10.08c, rpl35a, rpl33	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPAC1071.04c, SPAC1071.04c, 	proteolysis and peptidolysis| endoplasmic reticulum| membrane
SPBC11B10.08, SPBC11B10.08, 	signal transduction
SPAC2E1P3.05c, SPAC2E1P3.05c, 	cell surface
SPAC19D5.02c, SPAC19D5.02c, 	membrane| peroxisomal membrane
SPAC19D5.02c, SPAC19D5.02c, 	DNA N-glycosylase activity| regulation of cell cycle| nucleus
SPCC1223.08c, dfr1, 	coenzyme and prosthetic group metabolism| dihydrofolate reductase activity
SPCC285.17, spp27, uaf30	transcription from Pol I promoter| regulation of transcription\, DNA-dependent| transcription| nucleolus| RNA polymerase I upstream activating factor complex| nucleus
SPAC26A3.09c, rga2, 	signal transduction| GTPase regulator activity
SPAC17C9.13c, cut8, 	cell cycle| proteolysis and peptidolysis
SPAC644.08, SPAC644.08, 	carbohydrate catabolism| energy pathways| glycolysis| main pathways of carbohydrate metabolism
SPAC20G8.04c, SPAC20G8.04c, 	energy pathways| electron transport| membrane| mitochondrial inner membrane| mitochondrial membrane| mitochondrion| oxidoreductase activity| electron-transferring-flavoprotein dehydrogenase activity
SPBP22H7.02c, SPBP22H7.02c, 	ribosome biogenesis| cell organization and biogenesis| RNA binding
SPBC651.07, csa1, 	cell cycle| S phase of mitotic cell cycle| signalosome complex| nucleus
SPBP35G2.05c, cki2, 	signal transduction| protein modification| protein amino acid phosphorylation| protein kinase CK2 complex| protein kinase activity
SPBC146.14c, sec26, SPBC337.01c	ER to Golgi transport| intracellular protein transport| membrane| cytoplasmic vesicle| Golgi apparatus| Golgi vesicle
SPBC887.17, SPBC887.17, 	transport| nucleotide transport| membrane
SPCC306.03c, cnd2, 	establishment and/or maintenance of chromatin architecture| cell cycle| chromosome condensation| DNA packaging| cell organization and biogenesis| condensin complex| nucleus
SPCPB16A4.02c, SPCPB16A4.02c, 	signal transduction
SPBC2G2.09c, SPBC2G2.09c, 	cell cycle| G2/M transition of mitotic cell cycle
SPBC1685.01, pmp1, 	MAPKKK cascade| protein kinase cascade| signal transduction| protein tyrosine phosphatase activity
SPAC1B2.02c, SPAC1B2.02c, 	mitochondrion organization and biogenesis| transport| mitochondrial transport| mitochondrial fission| membrane| mitochondrial outer membrane| mitochondrial membrane
SPCC63.07, SPCC63.07, 	tRNA modification| RNA processing| tRNA metabolism
SPAC4A8.09c, cwf21, 	mRNA processing| spliceosome complex| nucleus| RNA binding
SPAC4G8.03c, SPAC4G8.03c, 	RNA binding
SPBC1861.02, abp2, 	S phase of mitotic cell cycle| DNA replication| replication fork
SPBC1709.10c, SPBC1709.10c, 	cell ion homeostasis
SPAC4G9.20c, SPAC4G9.20c, 	transport| mitochondrial transport| membrane| mitochondrial membrane
SPAC637.10c, pus1, rpn10	protein modification| proteolysis and peptidolysis| proteasome complex (sensu Eukarya)
SPCC24B10.21, tpi1, tpi	glycolysis| carbohydrate metabolism
SPAC15E1.04, SPAC15E1.04, 	energy pathways| thymidylate synthase activity
SPBC1289.04c, pob1, 	cytoskeleton organization and biogenesis| cytokinesis| signal transduction| M phase of mitotic cell cycle| cell organization and biogenesis| establishment and/or maintenance of cell polarity
SPCC1450.16c, SPCC1450.16c, 	lipid metabolism
SPBC14C8.06, arc1, sop2	barrier septum formation| actin filament-based process| cytokinesis| M phase of mitotic cell cycle| actin cytoskeleton organization and biogenesis| cell organization and biogenesis| actin cytoskeleton| actin cortical patch (sensu Fungi)| cytoskeleton| Arp2/3 protein complex
SPAC23A1.03, apt1, 	purine base metabolism| adenine phosphoribosyltransferase activity
SPBC29A3.09c, SPBC29A3.09c, 	response to stress| ATPase activity
SPAC1002.16c, SPAC1002.16c, 	transport| membrane
SPCC74.04, SPCC74.04, 	transport| amino acid transport| membrane
SPCC16A11.17, cdc21, mcm4, SPCC24B10.01	S phase of mitotic cell cycle| DNA replication| replication fork
SPBC365.02c, cox10, 	energy pathways| electron transport| lipid metabolism| coenzyme and prosthetic group metabolism| cell organization and biogenesis| mitochondrial inner membrane| mitochondrial membrane
SPBC16H5.10c, prp43, 	mRNA processing| spliceosome complex| helicase activity
SPAP27G11.05c, vps41, 	vacuole organization and biogenesis| vacuole fusion\, non-autophagic| intracellular protein transport| vacuolar membrane| membrane
SPAC589.04, SPAC589.04, 	protein targeting| membrane| mitochondrial outer membrane| mitochondrial membrane
SPBP4H10.11c, SPBP4H10.11c, 	lipid metabolism| cytosol| long-chain-fatty-acid-CoA ligase activity
SPAC26H5.09c, SPAC26H5.09c, 	oxidoreductase activity
SPAC637.13c, SPAC637.13c, 	signal transduction
SPBC13E7.09, SPBC13E7.09, 	actin cytoskeleton organization and biogenesis| endocytosis| intracellular protein transport| cell organization and biogenesis| actin cytoskeleton| actin cortical patch (sensu Fungi)| cytoskeleton
SPCC16A11.09c, SPCC16A11.09c, 	mitochondrial matrix protein import| mitochondrial inner membrane| mitochondrial membrane
SPBC1289.16c, SPBC1289.16c, SPBC8E4.06	peroxisome| 
SPBC3B8.02, php5, 	regulation of transcription\, DNA-dependent| transcription| cell organization and biogenesis| CCAAT-binding factor complex| chromatin| nucleus| DNA binding
SPCC330.06c, pmp20, 	cell organization and biogenesis| membrane| peroxisomal membrane
SPCC622.03c, SPCC622.03c, 	membrane
SPAC4H3.05, srs2, 	meiosis| response to stress| DNA repair| DNA recombination| double-strand break repair| helicase activity
SPAC977.12, SPAC977.12, 	aspartate metabolism| asparaginase activity
SPBC3B9.06c, SPBC3B9.06c, 	response to stress
SPBC29A3.16, SPBC29A3.16, 	ribosome biogenesis| cell organization and biogenesis
SPBC14F5.06, SPBC14F5.06, 	RNA processing
SPBC342.06c, SPBC342.06c, 	DNA repair
SPCC1919.09, tif6, 	protein biosynthesis
SPBC1105.07c, SPBC1105.07c, 	regulation of transcription from Pol II promoter| THO complex
SPBC609.02, SPBC609.02, 	protein modification| protein tyrosine phosphatase activity
SPAC1805.06c, hem2, 	coenzyme and prosthetic group metabolism| porphobilinogen synthase activity
SPBC16C6.10, chp2, 	regulation of transcription\, DNA-dependent| transcription| chromatin| nucleus
SPAC31A2.11c, cuf1, 	transport| regulation of transcription\, DNA-dependent| metal ion transport| transcription| cytoplasmic vesicle| nucleus| DNA binding
SPAC2F3.17c, lsm6, 	mRNA processing| RNA processing
SPAC3F10.11c, SPAC3F10.11c, 	transport| membrane
SPAC17G8.13c, mst2, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| protein modification| transcription| DNA packaging| cell organization and biogenesis| chromatin silencing| chromatin| acetyltransferase activity
SPCC16A11.10c, oca8, 	energy pathways| electron transport
SPAC29A4.03c, SPAC29A4.03c, 	protein biosynthesis| mitochondrial ribosome
SPAC22A12.15c, bip1, bip	response to stress| protein modification| protein folding| intracellular protein transport| cell organization and biogenesis| endoplasmic reticulum| membrane| nuclear membrane| cell surface| chaperone activity| heat shock protein activity
SPBC800.13, SPBC800.13, 	regulation of transcription\, DNA-dependent| transcription| cell organization and biogenesis| transcription factor complex| chromatin| nucleus| DNA binding
SPAC19B12.13, cox1102, cox11, cox11-b, SPAPB8E5.01	energy pathways| electron transport| cell organization and biogenesis| mitochondrial inner membrane| mitochondrial membrane
SPBC543.02c, SPBC543.02c, 	protein folding
SPAC6C3.06c, SPAC6C3.06c, 	transport| cation transport| lipid metabolism| retrograde transport\, Golgi to ER| membrane| ATPase activity
SPAC139.06, SPAC139.06, SPAC23C4.01	establishment and/or maintenance of chromatin architecture| protein modification| DNA packaging| cell organization and biogenesis| chromatin| histone acetyltransferase activity| acetyltransferase activity
SPBC19F8.02, SPBC19F8.02, 	cell organization and biogenesis| cytoskeleton| microtubule organizing center| microtubule cytoskeleton
SPAC1556.06, meu1, 	meiosis| regulation of transcription\, DNA-dependent| transcription
SPCC1795.02c, SPCC1795.02c, SPCC895.01	transport| cation transport
SPCP31B10.05, SPCP31B10.05, 	DNA repair
SPBC1198.13c, SPBC1198.13c, SPBC660.03c	regulation of transcription\, DNA-dependent| transcription| transcription factor complex| chromatin| nucleus
SPCC4G3.06c, SPCC4G3.06c, 	protein biosynthesis| mitochondrial ribosome
SPBC354.11c, SPBC354.11c, 	membrane
SPCP31B10.03c, sep10, 	regulation of transcription\, DNA-dependent| cytokinesis| conjugation with cellular fusion| regulation of transcription from Pol II promoter| transcription| nucleus
SPAPB8E5.03, mae1, 	transport
SPBC1861.08c, SPBC1861.08c, 	mRNA processing| RNA processing| spliceosome complex
SPAPB1E7.05, SPAPB1E7.05, 	cell cycle| signal transduction| lipid metabolism| cell organization and biogenesis
SPAC17D4.02, sna41, goa1	establishment and/or maintenance of chromatin architecture| S phase of mitotic cell cycle| DNA replication| DNA packaging| cell organization and biogenesis| replication fork| chromatin
SPAC12B10.09, SPAC12B10.09, 	transport| mitochondrial transport| membrane| mitochondrial membrane
SPCC1795.03, gms1, 	carbohydrate transport| membrane
SPAC1687.01, rpc19, rpa17, SPAPYUL23.01	transcription| DNA-directed RNA polymerase I complex| nucleolus| DNA-directed RNA polymerase III complex| nucleus
SPAC977.03, SPAC977.03, 	lipid metabolism| methyltransferase activity
SPAC1486.04c, alm1, 	sporulation (sensu Fungi)| cell cycle| cytokinesis| M phase of mitotic cell cycle| cell organization and biogenesis| actin cytoskeleton| cytoskeleton
SPAC22A12.13, SPAC22A12.13, 	membrane| nuclear membrane
SPBP35G2.10, SPBP35G2.10, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| transcription| DNA packaging| cell organization and biogenesis| chromatin remodeling complex| chromatin| helicase activity| ATPase activity
SPAC23D3.11, SPAC23D3.11, 	carbohydrate metabolism| endoplasmic reticulum
SPAC4F10.04, SPAC4F10.04, 	signal transduction| protein modification| phosphoprotein phosphatase activity
SPAC19D5.04, SPAC19D5.04, 	ubiquitin ligase complex| ubiquitin-protein ligase activity
SPAC1B3.18c, SPAC1B3.18c, 	protein biosynthesis| mitochondrial ribosome
SPCC965.08c, SPCC965.08c, 	amino acid metabolism| alanine metabolism| alanine racemase activity
SPAC3H1.05, SPAC3H1.05, 	proteolysis and peptidolysis| membrane
SPBC1683.08, ght4, 	transport| carbohydrate transport| membrane| plasma membrane
SPAC16.02c, srp2, 	mRNA processing| nucleus| RNA binding
SPCC794.04c, SPCC794.04c, 	transport| membrane
SPBPB2B2.05, SPBPB2B2.05, 	GMP synthase (glutamine-hydrolyzing) activity
SPBC1685.06, cid11, 	S phase of mitotic cell cycle
SPBC19F8.04c, SPBC19F8.04c, 	membrane
SPCC576.08c, rps2, 	protein biosynthesis| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex| cytosolic ribosome (sensu Eukarya)
SPAC20G8.03, itr2, 	signal transduction| lipid metabolism| membrane
SPBC405.01, ade1, min4, SPBC4C3.02c	purine nucleotide metabolism| phosphoribosylamine-glycine ligase activity| phosphoribosylformylglycinamidine cyclo-ligase activity
SPAC4H3.10c, pyk1, 	carbohydrate catabolism| energy pathways| glycolysis| main pathways of carbohydrate metabolism| purine nucleotide metabolism| pyruvate kinase activity
SPCC31H12.03c, SPCC31H12.03c, 	DNA binding
SPBC25B2.11, pof2, 	proteolysis and peptidolysis| ubiquitin ligase complex
SPBC409.10, ade7, 	purine nucleotide metabolism| phosphoribosylaminoimidazolesuccinocarboxamide synthase activity
SPBC409.10, ade7, 	phosphatidylcholine biosynthesis| phosphatidylethanolamine N-methyltransferase activity| endoplasmic reticulum membrane| protein modification| lipid metabolism| endoplasmic reticulum| membrane| endoplasmic reticulum membrane| phosphatidylethanolamine N-methyltransferase activity| methyltransferase activity
SPAC22E12.05c, rer1, 	ER to Golgi transport| intracellular protein transport| cytoplasmic vesicle| Golgi apparatus
SPBC1773.15, SPBC1773.15, 	transport| allantoate transport| membrane
SPAC6F12.06, SPAC6F12.06, 	signal transduction
SPBC216.07c, tor2, SPBC646.01c	signal transduction| lipid metabolism| phosphatidylinositol 3-kinase activity
SPBC1711.02, matmc, 	regulation of transcription\, DNA-dependent| transcription| nucleus
SPBC1198.14c, fbp1, SPBC660.04c	regulation of transcription\, DNA-dependent| signal transduction| transcription| purine nucleotide metabolism| transcription factor complex
SPAC521.02, SPAC521.02, 	proteolysis and peptidolysis
SPAC16E8.14c, SPAC16E8.14c, 	methyltransferase activity
SPBC3E7.14, smf1, SPBC4F6.01	mRNA processing| RNA processing| spliceosome complex
SPAC9.06c, SPAC9.06c, 	carbohydrate metabolism
SPAC1B3.03c, wis2, cyp5	cell cycle| response to stress| protein folding| peptidyl-prolyl cis-trans isomerase activity
SPBC1709.06, SPBC1709.06, 	tRNA modification| RNA processing| tRNA metabolism
SPBC359.04c, SPBC359.04c, 	cell surface
SPAC8C9.17c, SPAC8C9.17c, 	cell cycle| M phase of mitotic cell cycle| chromosome segregation| cell organization and biogenesis| cytoskeleton| spindle pole body| kinetochore| microtubule organizing center| microtubule cytoskeleton
SPAC959.05c, SPAC959.05c, 	protein folding| endoplasmic reticulum| membrane| endoplasmic reticulum membrane| oxidoreductase activity
SPAC17H9.05, ebp2, 	ribosome biogenesis| rRNA processing| cell cycle| RNA processing| cell organization and biogenesis| nucleolus| spindle pole body
SPAC16C9.07, SPAC16C9.07, SPAC2G11.01	cytoskeleton organization and biogenesis| signal transduction| protein modification| M phase of mitotic cell cycle| protein amino acid phosphorylation| establishment and/or maintenance of cell polarity| protein kinase activity
SPBC19C2.02, pmt1, 	methyltransferase activity
SPAC227.03c, SPAC227.03c, 	transport| mitochondrial transport| membrane| mitochondrial membrane
SPCC1682.10, rpn8, 	proteolysis and peptidolysis| proteasome complex (sensu Eukarya)
SPBC3D6.08c, SPBC3D6.08c, 	rRNA processing| mRNA processing| RNA processing
SPBC660.05, SPBC660.05, 	signal transduction
SPAC821.12, orb6, 	cytoskeleton organization and biogenesis| cell cycle| response to stress| signal transduction| protein modification| protein amino acid phosphorylation| cell organization and biogenesis| establishment and/or maintenance of cell polarity| septum| protein kinase activity
SPAC821.12, orb6, 	succinyl-CoA metabolism| tricarboxylic acid cycle| succinate-CoA ligase activity| mitochondrial matrix| TCA intermediate metabolism| mitochondrion
SPBP4H10.21c, SPBP4H10.21c, 	S phase of mitotic cell cycle| DNA replication
SPAC15A10.10, mde6, 	sporulation (sensu Fungi)
SPCC1739.12, ppe1, esp1, ppx1	cell cycle| signal transduction| protein modification| regulation of mitotic cell cycle| cell organization and biogenesis| mitotic cell cycle| phosphoprotein phosphatase activity
SPCC1906.01, SPCC1906.01, 	protein modification| mannose-1-phosphate guanylyltransferase activity
SPBC25B2.06c, SPBC25B2.06c, 	proteolysis and peptidolysis
SPAC23C4.11, atp18, 	energy pathways| electron transport| hydrogen transport| membrane| mitochondrial membrane| mitochondrion| ATPase activity
SPBC337.09, erg28, 	steroid metabolism| ergosterol biosynthesis| lipid metabolism
SPAC3A12.06c, SPAC3A12.06c, 	transport| cation transport| membrane
SPAC688.09, SPAC688.09, 	transport| mitochondrial transport| membrane| mitochondrial membrane
SPAC458.05, vps34, pik3	sporulation (sensu Fungi)| vacuole organization and biogenesis| conjugation with cellular fusion| signal transduction| lipid metabolism| cell organization and biogenesis| vacuolar membrane| membrane| cytoplasm| phosphatidylinositol 3-kinase activity
SPBC16D10.10, SPBC16D10.10, 	tRNA modification| RNA processing| tRNA metabolism
SPBC1348.03, SPBC1348.03, SPAC1348.03	membrane
SPAC27F1.04c, nuf2, 	cell cycle| chromosome segregation| cell organization and biogenesis| spindle pole body
SPAC23G3.06, SPAC23G3.06, 	ribosome biogenesis| rRNA processing| RNA processing| cell organization and biogenesis| nucleolus| RNA binding
SPAC18G6.06, SPAC18G6.06, 	rRNA processing| RNA processing| nucleolus
SPAPB2B4.03, cig2, cyc17	traversing start control point of mitotic cell cycle| G1/S transition of mitotic cell cycle| regulation of cyclin dependent protein kinase activity| cell cycle| conjugation with cellular fusion| G1 phase of mitotic cell cycle| regulation of mitotic cell cycle| mitotic cell cycle
SPAC1565.06c, spg1, sid3	cell cycle| barrier septum formation| cytokinesis| signal transduction| M phase of mitotic cell cycle
SPBC31E1.05, SPBC31E1.05, 	nucleocytoplasmic transport| RNA localization| transcription| protein targeting| nucleus| nuclear pore
SPAC589.02c, srb9, spTrap240	transcription| nucleus
SPAC8F11.08c, SPAC8F11.08c, 	lipid metabolism
SPBP8B7.06, rpp201, rpp2, rpp2-1	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPAC13A11.01c, rga8, SPAC2F7.18c	cell cycle| cytokinesis| M phase of mitotic cell cycle| GTPase regulator activity
SPBC1709.11c, png2, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| transcription| DNA packaging| cell organization and biogenesis| chromatin
SPCC306.02c, SPCC306.02c, 	vesicle-mediated transport| intracellular protein transport| cytoplasmic vesicle
SPBC947.06c, SPBC947.06c, 	transport| membrane
SPAC3H1.01c, orp3, orc3, SPAP14E8.06c	S phase of mitotic cell cycle| DNA replication| replication fork
SPCC1795.10c, SPCC1795.10c, 	membrane| cytoplasm
SPBC2D10.17, SPBC2D10.17, 	regulation of transcription\, DNA-dependent
SPBC211.02c, cwf3, syf1	mRNA processing| spliceosome complex
SPBC365.03c, rpl2101, rpl21, rpl21-1	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPCC1827.05c, SPCC1827.05c, 	ribosome biogenesis| cell organization and biogenesis| nucleolus| RNA binding
SPAC1071.09c, SPAC1071.09c, 	protein folding
SPBC29A3.17, gef3, 	signal transduction| cell organization and biogenesis
SPBC16C6.13c, sec27, 	intracellular protein transport| cytoplasmic vesicle| Golgi apparatus| Golgi vesicle
SPAC8E11.01c, SPAC8E11.01c, SPAC959.01	carbohydrate metabolism| beta-fructofuranosidase activity
SPAPJ698.02c, rps002, rpsa-2, rps0-2	protein biosynthesis| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex| cytosolic ribosome (sensu Eukarya)
SPCC1840.05c, SPCC1840.05c, 	carbohydrate metabolism
SPAC1556.04c, pcd1, 	pyrimidine base metabolism| cytidine deaminase activity
SPAC977.02, SPAC977.02, 	membrane
SPAC29A4.04c, SPAC29A4.04c, 	rRNA processing| pyrimidine base metabolism| RNA processing| tRNA metabolism
SPBC2G2.16, SPBC2G2.16, 	carbohydrate metabolism| mannose-6-phosphate isomerase activity
SPAC22A12.01c, pso2, SPAC56F8.17c, snm1	DNA repair| double-strand break repair| nucleus| DNA binding
SPAC25B8.16, SPAC25B8.16, 	rRNA processing| RNA processing| tRNA metabolism| nucleus
SPAC25B8.16, SPAC25B8.16, 	threonine biosynthesis| methionine metabolism| aspartate-semialdehyde dehydrogenase activity| cellular_component unknown| amino acid metabolism| sulfur metabolism| aspartate metabolism| methionine metabolism| threonine metabolism| oxidoreductase activity| aspartate-semialdehyde dehydrogenase activity
SPAC3G9.07c, hda1, phd1	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| transcription| DNA packaging| cell organization and biogenesis| chromatin silencing| chromatin remodeling complex| transcription factor complex| chromatin
SPCC16A11.02, SPCC16A11.02, SPCC63.16	rRNA processing| RNA processing| nucleolus
SPAC19B12.02c, SPAC19B12.02c, 	cell organization and biogenesis| cell surface
SPAC6F6.06c, SPAC6F6.06c, 	cytoskeleton organization and biogenesis| cell organization and biogenesis| establishment and/or maintenance of cell polarity
SPCC1682.09c, SPCC1682.09c, 	transport| mitochondrial transport| membrane| mitochondrial membrane
SPAC13G6.15c, SPAC13G6.15c, SPAC24B11.04c	signal transduction
SPAC22F8.06, pam1, 	proteolysis and peptidolysis| proteasome complex (sensu Eukarya)
SPAC328.08c, SPAC328.08c, 	microtubule-based process| protein folding| cell organization and biogenesis| cytoskeleton| microtubule organizing center| microtubule cytoskeleton| chaperone activity
SPCC16C4.15, SPCC16C4.15, 	protein biosynthesis| mitochondrial ribosome
SPAC12G12.04, mcp60, hsp60	response to stress| protein folding| TCA intermediate metabolism| cell organization and biogenesis| membrane| mitochondrial inner membrane| mitochondrion| chaperone activity| heat shock protein activity| oxidoreductase activity
SPAC17C9.03, tif471, 	protein biosynthesis
SPAC19A8.07c, SPAC19A8.07c, 	ribosome biogenesis| rRNA processing| RNA processing| cell organization and biogenesis| nucleolus| RNA binding
SPAC13G6.12c, chs1, SPAC24B11.01c	sporulation (sensu Fungi)| cytokinesis| M phase of mitotic cell cycle| cell organization and biogenesis| chitin synthase activity
SPBC530.14c, dsk1, 	mRNA processing| signal transduction| protein modification| regulation of mitotic cell cycle| protein amino acid phosphorylation| mitotic cell cycle| protein kinase activity
SPCC576.01c, SPCC576.01c, SPCPB1C11.04c	sulfur metabolism
SPAC27E2.03c, SPAC27E2.03c, 	GTP binding
SPAC25H1.06, SPAC25H1.06, 	establishment and/or maintenance of chromatin architecture| DNA packaging| cell organization and biogenesis| chromatin remodeling complex| chromatin
SPAC1071.07c, rps1502, rps15-2, rps15	protein biosynthesis| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex| cytosolic ribosome (sensu Eukarya)
SPAC1952.14c, SPAC1952.14c, 	protein biosynthesis| mitochondrial ribosome
SPAC17A5.08, SPAC17A5.08, 	vesicle-mediated transport| intracellular protein transport| COPII-coated vesicle| cytoplasmic vesicle| Golgi vesicle| COPI-coated vesicle
SPAC56F8.10, met9, met5	amino acid metabolism| sulfur metabolism| methionine metabolism| coenzyme and prosthetic group metabolism| methylenetetrahydrofolate reductase (NADPH) activity
SPBPB2B2.09c, SPBPB2B2.09c, 	coenzyme and prosthetic group metabolism| 2-dehydropantoate 2-reductase activity
SPAC23D3.10c, eng2, 	carbohydrate metabolism
SPAC17G6.10, SPAC17G6.10, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| transcription| DNA packaging| cell organization and biogenesis| chromatin| nucleus| DNA binding
SPAC17G6.10, SPAC17G6.10, 	pyrimidine nucleotide biosynthesis| dihydroorotase activity| cellular_component unknown| pyrimidine base metabolism| dihydroorotase activity
SPAC9E9.12c, SPAC9E9.12c, 	transport| membrane
SPAC12D12.09, SPAC12D12.09, 	cell cycle
SPAC4A8.03c, ptc4, 	signal transduction| protein modification| vacuolar membrane| membrane| phosphoprotein phosphatase activity
SPAC328.05, SPAC328.05, 	RNA binding
SPCC162.10, SPCC162.10, 	signal transduction| protein modification| protein amino acid phosphorylation| protein kinase activity
SPBC119.04, mei3, 	meiosis
SPAC167.04, SPAC167.04, 	membrane
SPBC29A3.13, SPBC29A3.13, 	establishment and/or maintenance of chromatin architecture| DNA packaging| cell organization and biogenesis| chromatin
SPBC1271.01c, pof13, 	proteolysis and peptidolysis| ubiquitin ligase complex
SPAC3C7.14c, obr1, uhp1	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| S phase of mitotic cell cycle| DNA replication| transcription| DNA packaging| cell organization and biogenesis| chromatin silencing| chromatin
SPBC4.07c, rpt2, mts2	proteolysis and peptidolysis| proteasome complex (sensu Eukarya)| ATPase activity
SPBC215.06c, SPBC215.06c, 	regulation of transcription\, DNA-dependent| cell organization and biogenesis
SPBC25H2.04c, SPBC25H2.04c, 	mitochondrial inner membrane protein import| mitochondrial inner membrane
SPAC56E4.04c, cut6, 	amino acid metabolism| cell cycle| fatty acid biosynthesis| cytokinesis| M phase of mitotic cell cycle| lipid metabolism| chromosome segregation| coenzyme and prosthetic group metabolism| cell organization and biogenesis| arginine metabolism| mitochondrion| cytoplasm| biotin carboxylase activity
SPAC19G12.04, SPAC19G12.04, 	nitrogen metabolism| purine nucleotide metabolism| ureidoglycolate hydrolase activity
SPCC330.08, alg11, gmd3	protein modification| phosphate metabolism
SPBP35G2.13c, SPBP35G2.13c, 	establishment and/or maintenance of chromatin architecture| DNA packaging| cell organization and biogenesis| chromatin remodeling complex| chromatin
SPBC13G1.09, SPBC13G1.09, 	ribosome biogenesis| rRNA processing| RNA processing| cell organization and biogenesis| nucleus
SPAC6F6.11c, SPAC6F6.11c, 	coenzyme and prosthetic group metabolism| pyridoxal kinase activity
SPBP23A10.07, rpa2, 	transcription| DNA-directed RNA polymerase I complex| nucleolus| nucleus| DNA-directed RNA polymerase activity
SPCC24B10.22, mip1, SPCPB16A4.01	S phase of mitotic cell cycle| DNA replication| mitochondrion| DNA-directed DNA polymerase activity
SPAC17A5.04c, mde10, 	meiosis| sporulation (sensu Fungi)| spore wall assembly (sensu Fungi)| proteolysis and peptidolysis| cell organization and biogenesis| endoplasmic reticulum| membrane| cell surface
SPBC577.07, ubp10, 	mRNA processing| RNA processing| proteolysis and peptidolysis| cell organization and biogenesis
SPCC1322.07c, SPCC1322.07c, 	membrane
SPBC1198.11c, reb1, SPBC660.01c	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| S phase of mitotic cell cycle| DNA replication| transcription| DNA packaging| replication fork| nucleus| DNA binding
SPAC2G11.10c, SPAC2G11.10c, 	coenzyme and prosthetic group metabolism
SPBC83.14c, rfc5, 	S phase of mitotic cell cycle| DNA replication| replication fork| ATPase activity
SPAC1296.06, SPAC1296.06, 	energy pathways| NADPH-hemoprotein reductase activity
SPAC29A4.14c, SPAC29A4.14c, 	cell organization and biogenesis| membrane| peroxisomal membrane
SPAC140.02, gar2, 	ribosome biogenesis| rRNA processing| RNA processing| cell organization and biogenesis| nucleolus| RNA binding
SPCC1183.07, SPCC1183.07, 	rRNA processing| RNA processing| nucleolus| RNA binding
SPCC830.05c, SPCC830.05c, 	establishment and/or maintenance of chromatin architecture| protein modification| DNA packaging| cell organization and biogenesis| chromatin| acetyltransferase activity
SPBC14F5.05c, sam1, 	amino acid metabolism| sulfur metabolism| methionine metabolism| methionine adenosyltransferase activity
SPCC1322.11, rpl2302, rpl23-2	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPCC330.01c, rhp16, rad16, SPCC613.13c	establishment and/or maintenance of chromatin architecture| DNA repair| DNA packaging| cell organization and biogenesis| chromatin remodeling complex| nucleotide excision repair complex| chromatin| ubiquitin ligase complex| helicase activity| ubiquitin-protein ligase activity| ATPase activity
SPAC30.01c, sec72, sec7b	vesicle-mediated transport| signal transduction| intracellular protein transport| cytoplasmic vesicle| vesicle coat
SPAC22A12.12c, SPAC22A12.12c, 	rRNA processing| RNA processing| exosome (RNase complex)
SPCC4B3.10c, ipk1, 	signal transduction| lipid metabolism
SPAC869.07c, SPAC869.07c, 	carbohydrate metabolism| alpha-galactosidase activity
SPCC1902.02, SPCC1902.02, SPCC663.16c	coenzyme and prosthetic group metabolism| septum
SPBC4.01, SPBC4.01, 	membrane
SPBC1703.01c, SPBC1703.01c, SPBP4H10.22c	rRNA processing| RNA processing| tRNA metabolism| exosome (RNase complex)| ribonuclease MRP complex| nucleus
SPBC405.04c, ypt7, 	vacuole organization and biogenesis| vacuole fusion\, non-autophagic| signal transduction| intracellular protein transport
SPAC1786.03, cut11, SPAC24C9.01	cell cycle| cell organization and biogenesis| membrane| nuclear membrane| spindle pole body
SPAC22E12.06c, gmh3, 	protein amino acid galactosylation| protein modification| cell surface
SPAC4F8.07c, hxk2, 	carbohydrate catabolism| energy pathways| glycolysis| main pathways of carbohydrate metabolism| hexokinase activity
SPAC4F8.04, SPAC4F8.04, 	ribosome biogenesis| RNA processing| cell organization and biogenesis| nucleolus| RNA binding
SPAC767.01c, vps1, SPAC9G1.14c	intracellular protein transport| GTPase activity
SPBC19C2.14, smd3, 	mRNA processing| RNA processing| spliceosome complex
SPBC23E6.02, SPBC23E6.02, 	establishment and/or maintenance of chromatin architecture| DNA repair| DNA packaging| cell organization and biogenesis| chromatin remodeling complex| chromatin| ubiquitin ligase complex| helicase activity| ubiquitin-protein ligase activity
SPBC14F5.04c, pgk1, 	carbohydrate catabolism| energy pathways| glycolysis| main pathways of carbohydrate metabolism| phosphoglycerate kinase activity
SPAC23C4.18c, rad4, cut5	cell cycle checkpoint| DNA replication checkpoint| G1/S transition of mitotic cell cycle| S phase of mitotic cell cycle| DNA replication| DNA repair| cytokinesis| DNA damage response\, signal transduction resulting in cell cycle arrest| M phase of mitotic cell cycle| regulation of cell cycle| replication fork
SPAC1D4.08, SPAC1D4.08, 	signal transduction| lipid metabolism| CDP-diacylglycerol-inositol 3-phosphatidyltransferase activity
SPAC27E2.09, mak2, 	MAPKKK cascade| protein kinase cascade| cell cycle| response to stress| conjugation with cellular fusion| signal transduction| regulation of mitotic cell cycle| mitotic cell cycle
SPBC428.19c, SPBC428.19c, 	rRNA processing| RNA processing| nucleolus
SPAC9.03c, brr2, 	mRNA processing| RNA processing| spliceosome complex| helicase activity| ATPase activity
SPCC364.02c, bis1, 	cell organization and biogenesis| cytoskeleton| nucleus| microtubule organizing center| microtubule cytoskeleton
SPCC364.02c, bis1, 	tRNA-intron endonuclease complex| tRNA-intron endonuclease activity| nuclear inner membrane| tRNA splicing| tRNA metabolism| tRNA splicing| tRNA-intron endonuclease activity
SPCC364.02c, bis1, 	glucose 1-phosphate utilization| glucose 6-phosphate utilization| phosphoglucomutase activity| cytosol| carbohydrate metabolism| cytosol| phosphoglucomutase activity
SPAC1786.02, SPAC1786.02, 	lipid metabolism| cell surface
SPBC119.08, pmk1, spm1	MAPKKK cascade| protein kinase cascade| cell wall organization and biogenesis| signal transduction| protein modification| cell wall biosynthesis| protein amino acid phosphorylation| cell organization and biogenesis| protein kinase activity
SPBC119.08, pmk1, spm1	pentose-phosphate shunt\, non-oxidative branch| transaldolase activity| cytoplasm| carbohydrate metabolism| cytoplasm| transaldolase activity
SPAC25G10.06, rps2801, rps28-1	protein biosynthesis| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex| cytosolic ribosome (sensu Eukarya)
SPCC18B5.01c, bfr1, hba2, SPCPJ732.04c	transport| multidrug transport| membrane| plasma membrane
SPBC1348.01, SPBC1348.01, SPAC1348.01	membrane| cell surface
SPAPB8E5.07c, SPAPB8E5.07c, 	rRNA processing| RNA processing
SPAC17C9.14, SPAC17C9.14, 	lipid metabolism| cell organization and biogenesis| membrane
SPBPB7E8.01, SPBPB7E8.01, 	cell surface
SPBC11B10.10c, pht1, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| transcription| DNA packaging| cell organization and biogenesis| chromatin silencing| chromatin remodeling complex| chromatin
SPAC30D11.10, rad22, 	meiosis| DNA repair| DNA recombination| mating-type switching/recombination| double-strand break repair| DNA binding
SPAC3F10.02c, trk1, sptrk	cell ion homeostasis| membrane
SPBC776.17, SPBC776.17, 	ribosome biogenesis| rRNA processing| RNA processing| cell organization and biogenesis
SPBC29A10.05, exo1, 	mismatch repair| DNA repair
SPAPB1E7.06c, eme1, 	meiosis| S phase of mitotic cell cycle| DNA repair| nucleotide-excision repair| DNA recombination| nucleotide excision repair complex| replication fork
SPCC24B10.20, SPCC24B10.20, 	oxidoreductase activity
SPBC25H2.16c, SPBC25H2.16c, 	intracellular protein transport| membrane
SPBC16A3.18, SPBC16A3.18, 	RNA binding
SPBC839.14c, SPBC839.14c, 	methyltransferase activity
SPCC18B5.11c, cds1, 	cell cycle checkpoint| DNA replication checkpoint| S phase of mitotic cell cycle| DNA replication| DNA repair| DNA damage response\, signal transduction resulting in cell cycle arrest| signal transduction| protein modification| protein amino acid phosphorylation| regulation of cell cycle| protein kinase activity
SPBC83.01, ucp8, 	protein modification| actin cytoskeleton organization and biogenesis| endocytosis| intracellular protein transport| cell organization and biogenesis| actin cytoskeleton| actin cortical patch (sensu Fungi)| cytoskeleton
SPAC1006.01, psp3, 	proteolysis and peptidolysis
SPAC57A7.12, SPAC57A7.12, 	response to stress| chaperone activity| heat shock protein activity
SPAC27F1.03c, uch1, 	proteolysis and peptidolysis| ubiquitin thiolesterase activity
SPAC688.12c, SPAC688.12c, 	membrane
SPAPB1E7.12, rps602, rps6-2, rps6	protein biosynthesis| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex| cytosolic ribosome (sensu Eukarya)
SPAPB1E7.12, rps602, rps6-2, rps6	arginine biosynthesis| glutamate catabolism| carbamoyl-phosphate synthase (glutamine-hydrolyzing) activity| cytosol| amino acid metabolism| glutamate metabolism| arginine metabolism| cytosol| carbamoyl-phosphate synthase (glutamine-hydrolyzing) activity
SPBC1289.12, SPBC1289.12, 	RNA binding
SPAC1142.08, SPAC1142.08, SPAC8C9.01	regulation of transcription\, DNA-dependent| transcription| nucleus
SPAC3H5.04, aar2, 	RNA processing| spliceosome complex
SPCC1682.15, SPCC1682.15, 	signal transduction
SPCC126.09, SPCC126.09, 	transport| metal ion transport| cell ion homeostasis| vacuolar membrane| membrane
SPBC1711.11, SPBC1711.11, 	signal transduction| intracellular protein transport
SPAC10F6.05c, ubc6, 	proteolysis and peptidolysis| ubiquitin conjugating enzyme activity| ubiquitin-protein ligase activity
SPAC31A2.14, SPAC31A2.14, 	septum
SPBC2F12.03c, SPBC2F12.03c, 	telomere maintenance| cell organization and biogenesis
SPAC1687.17c, SPAC1687.17c, 	membrane
SPAC4D7.05, sum1, tif34	response to stress| protein biosynthesis| proteolysis and peptidolysis| regulation of cell cycle| eukaryotic translation initiation factor 3 complex| eukaryotic 48S initiation complex
SPBC8D2.17, SPBC8D2.17, 	protein amino acid galactosylation| protein modification| cell surface
SPBC1709.17, SPBC1709.17, 	amino acid metabolism| glutamate metabolism| cytoplasm
SPAPB8E5.06c, rpl302, rpl3-2, rpl3-b	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPCC1494.10, SPCC1494.10, SPCC70.01	regulation of transcription\, DNA-dependent| transcription| DNA binding
SPBC409.08, SPBC409.08, 	transport| membrane
SPAC2F7.11, nrd1, 	conjugation with cellular fusion| RNA binding
SPBPB10D8.05c, SPBPB10D8.05c, 	transport| carbohydrate transport| membrane
SPCC70.06, SPCC70.06, 	nucleocytoplasmic transport| protein targeting| cell organization and biogenesis| actin cytoskeleton| cytoskeleton| nucleus| nuclear pore
SPCC576.05, SPCC576.05, 	nucleocytoplasmic transport| protein targeting| cell organization and biogenesis| actin cytoskeleton| cytoskeleton| nucleus| nuclear pore
SPCC70.04c, SPCC70.04c, 	membrane
SPAC11E3.08c, cor1, 	cytoskeleton organization and biogenesis| cell organization and biogenesis| establishment and/or maintenance of cell polarity
SPCC1739.15, wtf21, SPCC1739.15	membrane
SPBC211.01, SPBC211.01, SPBC23E6.11	protein biosynthesis| mitochondrial ribosome
SPBC2F12.08c, ceg1, pce1	mRNA processing| mRNA guanylyltransferase activity
SPBC336.13c, SPBC336.13c, 	proteolysis and peptidolysis| mitochondrial inner membrane
SPAC227.07c, pab1, 	cell wall organization and biogenesis| cytokinesis| signal transduction| protein modification| M phase of mitotic cell cycle| cell wall biosynthesis| cell organization and biogenesis| phosphoprotein phosphatase activity
SPAC6B12.16, meu26, 	meiosis| nucleus
SPAC6B12.16, meu26, 	threonine biosynthesis| threonine synthase activity| cellular_component unknown| amino acid metabolism| threonine metabolism| threonine synthase activity
SPAC15E1.09, grx2, 	response to stress| energy pathways
SPBC25B2.03, SPBC25B2.03, 	regulation of transcription\, DNA-dependent
SPCC550.03c, SPCC550.03c, 	helicase activity
SPBC28E12.06c, SPBC28E12.06c, SPBC3H7.16	signal transduction| lipid metabolism
SPBC2G2.15c, SPBC2G2.15c, 	rRNA processing| methyltransferase activity
SPCC794.09c, ef1a-a, 	protein biosynthesis| eukaryotic 48S initiation complex
SPBP23A10.03c, SPBP23A10.03c, 	mitochondrion
SPAC57A10.05c, pof1, 	sulfur metabolism| protein modification| proteolysis and peptidolysis| ubiquitin ligase complex
SPBC16C6.11, rpl3201, rpl32-1	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPBC21D10.11c, SPBC21D10.11c, 	cysteine metabolism| amino acid metabolism| sulfur metabolism| alanine metabolism| cell organization and biogenesis| mitochondrion
SPCC338.05c, spm2, mms2	S phase of mitotic cell cycle| DNA repair| proteolysis and peptidolysis| ubiquitin conjugating enzyme activity
SPAC977.06, SPAC977.06, 	membrane| cell surface
SPAC1834.01, sup45, 	protein biosynthesis
SPAC664.04c, rps1602, rps16-2, rps16	protein biosynthesis| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex| cytosolic ribosome (sensu Eukarya)
SPBPB21E7.09, SPBPB21E7.09, SPAPB21E7.09	aspartate metabolism| asparaginase activity
SPBC119.14, rti1, 	meiosis| S phase of mitotic cell cycle| DNA replication| DNA repair| DNA recombination| double-strand break repair| DNA binding
SPCC548.06c, SPCC548.06c, 	transport| carbohydrate transport| membrane| plasma membrane
SPCC645.14c, sti1, 	protein folding| chaperone regulator activity
SPCC320.11c, SPCC320.11c, SPCC330.18	cell organization and biogenesis
SPAC26A3.10, SPAC26A3.10, 	signal transduction| intracellular protein transport
SPAC1486.05, nup189, 	nucleocytoplasmic transport| protein targeting| nucleus| nuclear pore
SPAC1006.08, etd1, 	barrier septum formation| cytokinesis| M phase of mitotic cell cycle
SPBC8D2.05c, SPBC8D2.05c, 	establishment and/or maintenance of chromatin architecture| spindle assembly| cell cycle| chromosome condensation| DNA packaging| cell organization and biogenesis
SPCC126.08c, SPCC126.08c, 	cell organization and biogenesis| membrane
SPCC757.04, SPCC757.04, 	regulation of transcription\, DNA-dependent| transcription| transcription regulator activity
SPCC1672.10, SPCC1672.10, 	establishment and/or maintenance of chromatin architecture| DNA packaging| cell organization and biogenesis| chromatin remodeling complex| chromatin
SPCC5E4.04, cut1, 	cell cycle| chromosome segregation| proteolysis and peptidolysis| cell organization and biogenesis
SPAC1751.03, csn72, csn7b, csn7, csn7-2, SPAC31A2.01	cell cycle| S phase of mitotic cell cycle| signalosome complex| nucleus
SPAC26H5.07c, SPAC26H5.07c, 	protein modification| carbohydrate metabolism| membrane
SPAC1B2.03c, SPAC1B2.03c, 	lipid metabolism| membrane
SPAC31G5.07, SPAC31G5.07, 	conjugation with cellular fusion| membrane
SPAC11E3.03, pcs1, 	cell cycle| M phase of mitotic cell cycle| chromosome segregation| cell organization and biogenesis| nucleolus| kinetochore
SPCC1739.02c, SPCC1739.02c, 	protein biosynthesis| mitochondrial ribosome
SPAC4D7.12c, fet5, 	transcription
SPAC1687.02, SPAC1687.02, 	lipid metabolism| proteolysis and peptidolysis| membrane
SPAC3A12.03c, SPAC3A12.03c, 	ubiquitin ligase complex| ubiquitin-protein ligase activity
SPAC1250.05, rpl3002, rpl30-2, rpl30	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPCC1322.13, ade6, min1	purine nucleotide metabolism| phosphoribosylaminoimidazole carboxylase activity
SPBC23G7.08c, rga7, 	actin cytoskeleton organization and biogenesis| cell organization and biogenesis| actin cytoskeleton| actin cortical patch (sensu Fungi)| cytoskeleton| GTPase regulator activity
SPBC354.06, SPBC354.06, 	protein biosynthesis| mitochondrial ribosome
SPCC320.04c, SPCC320.04c, 	response to stress| membrane
SPBC27B12.11c, SPBC27B12.11c, 	regulation of transcription\, DNA-dependent| transcription| transcription regulator activity
SPBC1105.10, SPBC1105.10, 	vacuolar membrane| membrane| ATPase activity
SPBC16G5.09, SPBC16G5.09, 	proteolysis and peptidolysis
SPAC1952.09c, SPAC1952.09c, 	lipid metabolism
SPAC823.05c, tlg2, 	vesicle-mediated transport| intracellular protein transport| membrane| cytoplasmic vesicle
SPAC16A10.02, SPAC16A10.02, 	regulation of transcription\, DNA-dependent| regulation of transcription from Pol II promoter| transcription| transcription export complex| transcription factor complex| DNA binding
SPBC660.06, SPBC660.06, 	signal transduction
SPAC23H4.17c, srb10, 	cell cycle| signal transduction| protein modification| transcription| protein amino acid phosphorylation| nucleus| protein kinase activity
SPBPB10D8.04c, SPBPB10D8.04c, 	transport| carbohydrate transport| membrane
SPBC2D10.14c, myo51, 	barrier septum formation| cytokinesis| M phase of mitotic cell cycle| cell organization and biogenesis| actin cytoskeleton| cytoskeleton
SPBC1773.01, SPBC1773.01, 	cell organization and biogenesis
SPBC30D10.09c, SPBC30D10.09c, 	membrane
SPAC31G5.09c, spk1, 	MAPKKK cascade| protein kinase cascade| conjugation with cellular fusion| signal transduction| protein modification| protein amino acid phosphorylation| protein kinase activity
SPAC19G12.16c, adg2, SPAC23A1.01c	cell surface
SPAC23G3.10c, SPAC23G3.10c, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| transcription| DNA packaging| cell organization and biogenesis| chromatin
SPBC4B4.02c, SPBC4B4.02c, 	membrane
SPAP27G11.04c, SPAP27G11.04c, 	tRNA metabolism
SPAP27G11.04c, SPAP27G11.04c, 	isocitrate metabolism| glutamate metabolism| tricarboxylic acid cycle| isocitrate dehydrogenase (NADP+) activity| mitochondrion| amino acid metabolism| carbohydrate catabolism| glutamate metabolism| energy pathways| carbohydrate metabolism| TCA intermediate metabolism| main pathways of carbohydrate metabolism| mitochondrion| isocitrate dehydrogenase (NADP+) activity| oxidoreductase activity
SPBC1271.10c, SPBC1271.10c, 	transport| membrane
SPCC1902.01, gaf1, SPCC417.01c	regulation of transcription\, DNA-dependent| nitrogen metabolism| transcription| nucleus
SPAC16E8.10c, SPAC16E8.10c, 	protein biosynthesis| mitochondrial ribosome
SPBC428.08c, clr4, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| transcription| DNA packaging| cell organization and biogenesis| chromatin silencing| chromatin| nucleus| methyltransferase activity
SPBC428.08c, clr4, 	CDP-diacylglycerol-serine O-phosphatidyltransferase activity| endoplasmic reticulum membrane| amino acid metabolism| L-serine metabolism| lipid metabolism| endoplasmic reticulum| endoplasmic reticulum membrane| CDP-diacylglycerol-serine O-phosphatidyltransferase activity
SPCC285.10c, SPCC285.10c, 	signal transduction
SPAC3H5.06c, pol1, swi7, polA	telomere maintenance| meiosis| establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| S phase of mitotic cell cycle| DNA replication| DNA repair| DNA recombination| transcription| mating-type switching/recombination| DNA packaging| cell organization and biogenesis| chromatin silencing| regulation of cell cycle| replication fork| chromatin| DNA-directed DNA polymerase activity
SPCC825.05c, SPCC825.05c, 	mRNA processing
SPCC825.05c, SPCC825.05c, 	transcription from Pol I promoter| transcription from Pol II promoter| transcription from Pol III promoter| DNA-directed RNA polymerase activity| DNA-directed RNA polymerase I complex| DNA-directed RNA polymerase II\, core complex| DNA-directed RNA polymerase III complex| transcription from Pol I promoter| transcription from Pol III promoter| regulation of transcription from Pol II promoter| transcription| DNA-directed RNA polymerase I complex| nucleolus| DNA-directed RNA polymerase II\, holoenzyme| DNA-directed RNA polymerase III complex| nucleus| DNA-directed RNA polymerase activity
SPAC17H9.11, SPAC17H9.11, 	actin filament-based process| cell organization and biogenesis| actin cytoskeleton| cytoskeleton
SPAC23C4.02, crn1, 	actin filament-based process| actin cytoskeleton organization and biogenesis| cell organization and biogenesis| actin cytoskeleton| actin cortical patch (sensu Fungi)| cytoskeleton
SPAC1002.19, SPAC1002.19, 	coenzyme and prosthetic group metabolism
SPBC530.04, mod5, 	cytoskeleton organization and biogenesis| cell organization and biogenesis| establishment and/or maintenance of cell polarity| membrane| plasma membrane
SPCC1682.08c, SPCC1682.08c, 	RNA binding
SPBC543.08, SPBC543.08, 	signal transduction| lipid metabolism
SPBC3H7.09, SPBC3H7.09, 	lipid metabolism
SPAPB1A11.01, SPAPB1A11.01, SPAPB24D3.11	transport| membrane
SPBC28F2.03, ppi1, cyp2	protein folding| peptidyl-prolyl cis-trans isomerase activity
SPBC12C2.02c, ste16, 	meiosis| cell cycle| response to stress| conjugation with cellular fusion| signal transduction
SPBC36.10, SPBC36.10, 	alanine metabolism| protein biosynthesis| tRNA metabolism| mitochondrion
SPCC965.09, SPCC965.09, 	nitrogen metabolism
SPCP1E11.06, apl4, 	vesicle-mediated transport| intracellular protein transport| membrane| cytoplasmic vesicle
SPBC21D10.09c, SPBC21D10.09c, 	ubiquitin ligase complex| ubiquitin-protein ligase activity
SPAC3G6.09c, SPAC3G6.09c, 	protein modification| carbohydrate metabolism| trehalose-phosphatase activity
SPBC36B7.04, SPBC36B7.04, 	tRNA modification| RNA processing| tRNA metabolism
SPAC589.09, SPAC589.09, 	signal transduction| lipid metabolism
SPAC589.09, SPAC589.09, 	cysteine metabolism| methionine biosynthesis from homoserine via O-succinyl-L-homoserine and cystathione| cystathionine gamma-synthase activity| cellular_component unknown| cysteine metabolism| amino acid metabolism| sulfur metabolism| methionine metabolism| cystathionine gamma-synthase activity
SPAC1687.05, pli1, 	M phase of mitotic cell cycle| proteolysis and peptidolysis| DNA binding| ubiquitin conjugating enzyme activity
SPAC4F10.09c, SPAC4F10.09c, 	ribosome biogenesis| cell organization and biogenesis
SPCC1259.15c, ubc11, ubcdp, ubcp4	cell cycle| protein modification| proteolysis and peptidolysis| ubiquitin conjugating enzyme activity| ubiquitin-protein ligase activity
SPBC11G11.07, SPBC11G11.07, SPBC18H10.01	nucleocytoplasmic transport| RNA localization| transcription| protein targeting| nucleus| nuclear pore
SPBC11G11.07, SPBC11G11.07, SPBC18H10.01	proline catabolism| glutamate biosynthesis| proline dehydrogenase activity| amino acid metabolism| glutamate metabolism| proline metabolism| mitochondrion| oxidoreductase activity| proline dehydrogenase activity
SPAC328.04, SPAC328.04, 	ATPase activity
SPAC328.04, SPAC328.04, 	glycine biosynthesis| threonine catabolism| threonine aldolase activity| glycine metabolism| amino acid metabolism| threonine metabolism| glycine metabolism| threonine aldolase activity
SPAC22F3.08c, SPAC22F3.08c, 	ribosome biogenesis| cell organization and biogenesis| helicase activity
SPAC22F3.08c, SPAC22F3.08c, 	diacylglycerol O-acyltransferase activity| triacylglycerol biosynthesis| diacylglycerol metabolism| lipid storage| lipid metabolism| membrane| diacylglycerol O-acyltransferase activity
SPAC4F8.11, SPAC4F8.11, 	protein targeting| peroxisomal membrane
SPBC359.01, SPBC359.01, SPBPB10D8.08	transport| amino acid transport| membrane
SPBC6B1.05c, SPBC6B1.05c, 	response to stress
SPAC30C2.07, SPAC30C2.07, 	cell surface
SPAC20G8.06, SPAC20G8.06, 	regulation of transcription\, DNA-dependent| transcription| CCR4-NOT core complex
SPBC36.09, sap61, 	regulation of transcription\, DNA-dependent| mRNA processing| spliceosome complex| RNA binding
SPCC1020.01c, pma2, SPCC1393.01	transport| cation transport| hydrogen transport| membrane| plasma membrane| ATPase activity
SPBC1347.12, SPBC1347.12, 	cell organization and biogenesis| actin cytoskeleton| cytoskeleton
SPBC32C12.03c, SPBC32C12.03c, 	signal transduction| protein modification| protein amino acid phosphorylation| protein kinase activity
SPBPB2B2.06c, SPBPB2B2.06c, 	signal transduction
SPAC13G7.13c, SPAC13G7.13c, SPAC6C3.01c	meiosis| sporulation (sensu Fungi)| spindle assembly| cell organization and biogenesis| RNA binding
SPBC543.05c, SPBC543.05c, 	anion transport| membrane
SPAC12B10.07, SPAC12B10.07, 	actin filament-based process| actin cytoskeleton organization and biogenesis| cell organization and biogenesis| actin cytoskeleton| actin cortical patch (sensu Fungi)| cytoskeleton
SPAC23C11.02c, rps23, 	protein biosynthesis| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex| cytosolic ribosome (sensu Eukarya)
SPCC4B3.12, SPCC4B3.12, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| transcription| DNA packaging| cell organization and biogenesis| chromatin| methyltransferase activity
SPAC19B12.05c, fcp1, 	regulation of transcription from Pol II promoter| transcription| phosphoserine phosphatase activity
SPBP8B7.21, ubp3, 	proteolysis and peptidolysis
SPBC4C3.09, SPBC4C3.09, 	protein modification
SPAC1687.03c, rfc4, 	S phase of mitotic cell cycle| DNA replication| replication fork
SPACUNK4.10, SPACUNK4.10, 	oxidoreductase activity
SPACUNK4.10, SPACUNK4.10, 	methionine biosynthesis from L-homoserine via cystathione| cystathionine beta-lyase activity| peroxisome| amino acid metabolism| sulfur metabolism| methionine metabolism| cystathionine beta-lyase activity
SPBC29A3.18, cyt1, 	energy pathways| electron transport| respiratory chain complex III (sensu Eukarya)| mitochondrial electron transport chain| mitochondrial inner membrane
SPBC1D7.02c, scr1, 	regulation of transcription\, DNA-dependent| transcription
SPCC553.02, SPCC553.02, 	NAD+ synthase (glutamine-hydrolyzing) activity
SPCC1827.08c, pof7, SPCC70.11c	proteolysis and peptidolysis| ubiquitin ligase complex
SPBC83.02c, rpl4302, rpl43-2, rpl43, rpl37a-2	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPAC144.10c, gwt1, 	lipid metabolism| GPI anchor biosynthesis| membrane
SPAC17A5.14, exo2, 	ribosome biogenesis| meiosis| microtubule-based process| regulation of transcription\, DNA-dependent| cell organization and biogenesis| microtubule cytoskeleton organization and biogenesis| cytoskeleton| microtubule organizing center| microtubule cytoskeleton
SPAC56F8.11, SPAC56F8.11, 	proteolysis and peptidolysis| endoplasmic reticulum
SPCC63.04, mok14, 	cell wall organization and biogenesis| protein modification| cell wall biosynthesis| cell organization and biogenesis| membrane| alpha-1\,3-glucan synthase activity
SPBC16E9.17c, rem1, 	cell cycle| regulation of mitotic cell cycle| mitotic cell cycle
SPBC2G2.02, SPBC2G2.02, 	signal transduction| lipid metabolism
SPCC320.03, SPCC320.03, 	transport| regulation of transcription\, DNA-dependent| transcription| carbohydrate transport| membrane| transcription regulator activity
SPCC320.03, SPCC320.03, 	transferase activity\, transferring pentosyl groups| glutamate metabolism| pyrimidine base biosynthesis| aspartate metabolism| carbamoyl-phosphate synthase (glutamine-hydrolyzing) activity| aspartate carbamoyltransferase activity| dihydroorotase activity| cytoplasm| amino acid metabolism| pyrimidine base metabolism| glutamate metabolism| arginine metabolism| cytoplasm| aspartate carbamoyltransferase activity| carbamoyl-phosphate synthase (glutamine-hydrolyzing) activity| dihydroorotase activity
SPAC9E9.05, SPAC9E9.05, 	actin filament-based process| actin cytoskeleton organization and biogenesis| cell organization and biogenesis| actin cytoskeleton| cytoskeleton
SPBC2F12.02c, SPBC2F12.02c, 	protein biosynthesis| mitochondrial ribosome
SPAC13G6.07c, rps601, rps6-1	protein biosynthesis| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex| cytosolic ribosome (sensu Eukarya)
SPAC1F7.02c, SPAC1F7.02c, 	helicase activity
SPBC16D10.01c, SPBC16D10.01c, SPBC418.03c	signal transduction| protein modification| phosphoprotein phosphatase activity
SPAC30.03c, SPAC30.03c, 	meiosis| DNA repair| DNA recombination| DNA binding
SPAC11H11.03c, SPAC11H11.03c, 	DNA repair
SPAC31G5.19, SPAC31G5.19, 	establishment and/or maintenance of chromatin architecture| DNA packaging| chromatin| nucleus| ATPase activity
SPAC458.02c, SPAC458.02c, 	meiosis| spindle assembly| cell cycle| cytokinesis| M phase of mitotic cell cycle| cell organization and biogenesis
SPBC8D2.18c, SPBC8D2.18c, 	amino acid metabolism| sulfur metabolism| methionine metabolism| adenosylhomocysteinase activity
SPAC17A2.04c, SPAC17A2.04c, 	protein folding
SPAC3F10.09, SPAC3F10.09, 	amino acid metabolism| histidine metabolism| 1-(5-phosphoribosyl)-5-[(5-phosphoribosylamino)methylideneamino]imidazole-4-carboxamide isomerase activity
SPBC9B6.05c, lsm3, 	mRNA processing| RNA processing| spliceosome complex
SPBPB2B2.13, SPBPB2B2.13, 	carbohydrate metabolism| galactokinase activity
SPBC1734.03, SPBC1734.03, SPBC337.19	coenzyme and prosthetic group metabolism| 2-amino-4-hydroxy-6-hydroxymethyldihydropteridine diphosphokinase activity| dihydroneopterin aldolase activity| dihydropteroate synthase activity
SPBC1734.03, SPBC1734.03, SPBC337.19	threonyl-tRNA aminoacylation| threonine-tRNA ligase activity| mitochondrion| tRNA metabolism| mitochondrion| threonine-tRNA ligase activity
SPAC4D7.06c, SPAC4D7.06c, 	coenzyme and prosthetic group metabolism
SPBC1711.14, rec15, 	meiosis| DNA recombination
SPAC6F12.17, SPAC6F12.17, 	mRNA processing| RNA processing| mRNA polyadenylation
SPBC3D6.15, rps2501, rps25-1	protein biosynthesis| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex| cytosolic ribosome (sensu Eukarya)
SPCC18.16c, fmn1, 	coenzyme and prosthetic group metabolism| mitochondrion
SPAC222.06, SPAC222.06, 	ribosome biogenesis| cell organization and biogenesis| nucleolus
SPAC1834.02, aro1, 	amino acid metabolism| tyrosine metabolism| L-phenylalanine metabolism| tryptophan metabolism| 3-dehydroquinate dehydratase activity| 3-phosphoshikimate 1-carboxyvinyltransferase activity| shikimate 5-dehydrogenase activity| shikimate kinase activity| oxidoreductase activity
SPBC20F10.06, mad2, 	spindle assembly| cell cycle| cell organization and biogenesis| regulation of cell cycle
SPBC20F10.06, mad2, 	tricarboxylic acid cycle| mitochondrial electron transport\, succinate to ubiquinone| succinate metabolism| succinate dehydrogenase (ubiquinone) activity| respiratory chain complex II (sensu Eukarya)| energy pathways| electron transport| TCA intermediate metabolism| membrane| mitochondrial inner membrane| mitochondrial membrane| mitochondrion| oxidoreductase activity| succinate dehydrogenase (ubiquinone) activity
SPCC970.08, SPCC970.08, 	signal transduction| lipid metabolism
SPBC16D10.03, pgp2, 	proteolysis and peptidolysis
SPAC19G12.15c, tpp1, 	protein modification| carbohydrate metabolism| trehalose-phosphatase activity
SPCC1795.09, yps1, 	cell wall organization and biogenesis| cell wall biosynthesis| proteolysis and peptidolysis| cell organization and biogenesis| cell surface
SPCC1795.09, yps1, 	pentose-phosphate shunt\, oxidative branch| glucose metabolism| phosphogluconate dehydrogenase (decarboxylating) activity| cytoplasm| carbohydrate metabolism| pentose-phosphate shunt| cytoplasm| phosphogluconate dehydrogenase (decarboxylating) activity| oxidoreductase activity
SPCC1620.05, SPCC1620.05, 	lipid metabolism
SPAP8A3.05, SPAP8A3.05, 	protein biosynthesis
SPAC105.03c, SPAC105.03c, 	regulation of transcription\, DNA-dependent| transcription| transcription regulator activity
SPAC1805.07c, hos2, 	cell cycle| response to stress| M phase of mitotic cell cycle| chromosome segregation| cell organization and biogenesis| cytoskeleton| spindle pole body| kinetochore| microtubule organizing center| microtubule cytoskeleton
SPAC6G10.12c, ace2, 	regulation of transcription\, DNA-dependent| cell ion homeostasis| barrier septum formation| cytokinesis| M phase of mitotic cell cycle
SPAC922.06, SPAC922.06, 	oxidoreductase activity
SPBC530.05, SPBC530.05, 	regulation of transcription\, DNA-dependent| transcription| transcription regulator activity
SPAC26A3.07c, rpl1101, rpl11-1, rpl11	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPBC1289.11, spf38, cwf17	mRNA processing| RNA processing| spliceosome complex
SPAC3C7.07c, SPAC3C7.07c, 	tRNA metabolism
SPAC644.04, pct1, 	mRNA processing| polynucleotide 5'-phosphatase activity
SPAC26A3.17c, SPAC26A3.17c, SPAC8E11.11	protein modification| methyltransferase activity
SPAP8A3.07c, SPAP8A3.07c, 	amino acid metabolism| tyrosine metabolism| L-phenylalanine metabolism| tryptophan metabolism
SPBC29A3.12, rps902, rps9-2, rps9b	protein biosynthesis| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex| cytosolic ribosome (sensu Eukarya)
SPCC645.07, rgf1, 	cell cycle| signal transduction| M phase of mitotic cell cycle
SPCC645.07, rgf1, 	glutamate biosynthesis\, using glutamate dehydrogenase (NAD(P)+)| nitrogen metabolism| glutamate dehydrogenase (NADP+) activity| amino acid metabolism| glutamate metabolism| nitrogen metabolism| oxidoreductase activity| glutamate dehydrogenase (NADP+) activity
SPAC186.05c, SPAC186.05c, 	membrane
SPBP26C9.03c, SPBP26C9.03c, 	transport| membrane
SPBC365.10, SPBC365.10, 	intracellular protein transport| cell organization and biogenesis| actin cytoskeleton| cytoskeleton
SPAC22E12.10c, etp1, cox15	energy pathways| electron transport| lipid metabolism| cell organization and biogenesis| membrane| mitochondrial inner membrane| mitochondrial membrane| mitochondrion
SPCC330.09, SPCC330.09, 	ribosome biogenesis| cell organization and biogenesis
SPCC16C4.12, SPCC16C4.12, 	protein modification| acetyltransferase activity
SPAPYUG7.06, SPAPYUG7.06, 	response to stress
SPAC29A4.11, rga3, 	septum| GTPase regulator activity
SPBC106.06, cct4, 	microtubule-based process| protein folding| tubulin folding| cell organization and biogenesis| actin cytoskeleton| cytoskeleton| chaperonin-containing T-complex| microtubule organizing center| microtubule cytoskeleton| chaperone activity
SPAC167.05, SPAC167.05, SPAC57A7.01	response to stress
SPAC24H6.03, pcu3, 	cell cycle| protein modification| proteolysis and peptidolysis| ubiquitin ligase complex
SPBC1289.08, SPBC1289.08, 	protein modification| cell organization and biogenesis| UDP-N-acetylglucosamine diphosphorylase activity
SPAC1952.12c, csn71, csn7a, csn7	cell cycle| S phase of mitotic cell cycle| signalosome complex| nucleus
SPAC22E12.09c, krp1, krp	proteolysis and peptidolysis| membrane| cell surface
SPAC25B8.05, SPAC25B8.05, 	pyrimidine base metabolism| RNA processing| tRNA metabolism
SPAC607.08c, SPAC607.08c, 	membrane
SPAC30D11.11, SPAC30D11.11, 	endoplasmic reticulum| membrane| endoplasmic reticulum membrane
SPCC584.05, sec1, 	ER to Golgi transport| exocytosis| intracellular protein transport| cytoplasmic vesicle| Golgi cis-face| TRAPP
SPAC824.06, SPAC824.06, 	mitochondrial matrix protein import| protein folding| mitochondrial inner membrane| mitochondrial membrane| chaperone activity
SPCC550.13, dfp1, rad35, him1	G1/S transition of mitotic cell cycle| S phase of mitotic cell cycle| DNA replication| mitotic cell cycle| regulation of cell cycle
SPAC1F7.01c, SPAC1F7.01c, SPAC694.07c	establishment and/or maintenance of chromatin architecture| DNA packaging| cell organization and biogenesis| chromatin
SPAC4G9.10, arg3, 	amino acid metabolism| arginine metabolism| mitochondrion| ornithine carbamoyltransferase activity
SPAC664.09, SPAC664.09, 	proteolysis and peptidolysis
SPAC9G1.03c, rpl3001, rpl30-1, rpl30	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPCC1259.01c, rps1802, rps18-2, SPCC825.06c	protein biosynthesis| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex| cytosolic ribosome (sensu Eukarya)
SPAC2G11.06, vps4, 	intracellular protein transport| ATPase activity
SPAC2E1P5.04c, cwg2, 	carbohydrate metabolism| lipid metabolism| cell organization and biogenesis
SPBC30D10.15, SPBC30D10.15, 	rRNA processing| RNA processing| cell organization and biogenesis| nucleolus
SPAC25G10.03, zip1, 	regulation of transcription\, DNA-dependent| transcription| nucleus
SPAC14C4.07, SPAC14C4.07, 	transport| membrane
SPCC970.06, SPCC970.06, 	ER to Golgi transport| intracellular protein transport| endoplasmic reticulum| membrane| cytoplasmic vesicle| endoplasmic reticulum membrane
SPAC6F12.12, par2, pbp2	cytokinesis| signal transduction| protein modification| M phase of mitotic cell cycle| cell organization and biogenesis| phosphoprotein phosphatase activity
SPAC144.13c, srw1, ste9	cell cycle| conjugation with cellular fusion| proteolysis and peptidolysis| cyclin catabolism| ubiquitin ligase complex
SPAC16C9.05, SPAC16C9.05, 	regulation of transcription\, DNA-dependent| transcription
SPAC22H12.05c, SPAC22H12.05c, 	membrane
SPBC337.13c, gtr1, 	GTP binding
SPAC1002.08c, SPAC1002.08c, 	transcription| mitochondrion
SPBP16F5.05c, SPBP16F5.05c, 	cell organization and biogenesis
SPAC10F6.17c, SPAC10F6.17c, SPAC56E4.01c	signal transduction| protein modification| phosphoprotein phosphatase activity
SPAC926.04c, swo1, hsp90	response to stress| protein folding| proteolysis and peptidolysis| cell organization and biogenesis| chaperone activity| heat shock protein activity
SPBC1105.03c, SPBC1105.03c, 	protein biosynthesis| mitochondrial ribosome
SPAC11E3.15, rpl22, SPAP8A3.01	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPCC1183.05c, lig4, 	DNA repair
SPBC32F12.11, gpd1, tdh1	carbohydrate catabolism| energy pathways| glycolysis| main pathways of carbohydrate metabolism| cytoplasm| glyceraldehyde-3-phosphate dehydrogenase (phosphorylating) activity| oxidoreductase activity
SPCC320.10, srp72, 	protein-ER targeting| protein targeting| intracellular protein transport| endoplasmic reticulum| signal recognition particle| signal sequence binding
SPAC6F12.05c, tnr3, 	phosphate metabolism| thiamin diphosphokinase activity
SPAC23C11.01, SPAC23C11.01, 	membrane
SPBC16D10.05, mok13, 	cell wall organization and biogenesis| protein modification| cell wall biosynthesis| cell organization and biogenesis| membrane| alpha-1\,3-glucan synthase activity
SPAC664.05, rpl13, 	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPBC530.12c, pdf1, 	phosphate metabolism| lipid metabolism
SPAC26A3.01, sxa1, SPAC2E1P5.06	conjugation with cellular fusion| proteolysis and peptidolysis| membrane| plasma membrane| cell surface
SPAC5D6.05, sep11, pmc6	regulation of transcription\, DNA-dependent| cytokinesis| conjugation with cellular fusion| transcription| M phase of mitotic cell cycle| mediator complex| nucleus
SPAC1039.09, isp5, 	transport| conjugation with cellular fusion| amino acid transport| membrane
SPAC1687.11, pmt2, 	rRNA processing| RNA processing| nucleolus| nucleus| methyltransferase activity
SPBC365.07c, SPBC365.07c, 	regulation of transcription\, DNA-dependent| transcription
SPAC22F8.07c, SPAC22F8.07c, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| regulation of transcription from Pol II promoter| transcription| DNA packaging| nucleus| DNA binding
SPAC23A1.06c, cmk2, mkp2	MAPKKK cascade| cell cycle checkpoint| DNA replication checkpoint| protein kinase cascade| cell cycle| S phase of mitotic cell cycle| DNA replication| response to stress| signal transduction| protein modification| G2/M transition of mitotic cell cycle| protein amino acid phosphorylation| cell organization and biogenesis| regulation of cell cycle| cytoplasm| protein kinase activity
SPBC29A10.08, SPBC29A10.08, 	cell wall organization and biogenesis| cell wall biosynthesis| cell organization and biogenesis| cell surface
SPAC57A7.13, SPAC57A7.13, 	regulation of transcription\, DNA-dependent| RNA binding
SPAC57A7.13, SPAC57A7.13, 	glycine metabolism| L-serine metabolism| one-carbon compound metabolism| glycine hydroxymethyltransferase activity| mitochondrion| amino acid metabolism| L-serine metabolism| glycine metabolism| mitochondrion| methyltransferase activity| glycine hydroxymethyltransferase activity
SPAC5D6.09c, SPAC5D6.09c, 	membrane
SPBC32F12.08c, SPBC32F12.08c, 	cell cycle| M phase of mitotic cell cycle| chromosome segregation| cell organization and biogenesis| cytoskeleton| spindle pole body| kinetochore| microtubule organizing center| microtubule cytoskeleton
SPBC14F5.09c, ade8, 	carbohydrate metabolism| purine nucleotide metabolism| adenylosuccinate lyase activity
SPAC6G9.08, ubp6, 	proteolysis and peptidolysis| ubiquitin thiolesterase activity
SPBC1709.18, tif452, SPBC409.01	protein biosynthesis
SPAC9.07c, SPAC9.07c, 	GTP binding
SPAC27D7.13c, ssm4, SPAC637.01c	meiosis| cell organization and biogenesis| cytoskeleton| microtubule organizing center| microtubule cytoskeleton
SPCC2H8.02, SPCC2H8.02, 	transport| anion transport| membrane
SPAC5H10.08c, pan6, 	coenzyme and prosthetic group metabolism| pantoate-beta-alanine ligase activity
SPCC1259.13, chk1, rad27	cell cycle checkpoint| DNA repair| DNA damage response\, signal transduction resulting in cell cycle arrest| signal transduction| protein modification| protein amino acid phosphorylation| regulation of cell cycle| protein kinase activity
SPCC63.05, SPCC63.05, 	signal transduction
SPBCPT2R1.01c, SPBCPT2R1.01c, SPBPB2B2.20c	membrane| cell surface
SPAC227.15, SPAC227.15, 	signal transduction| protein modification| phosphoprotein phosphatase activity
SPCC1235.02, bio2, SPCC320.01c	sulfur metabolism| coenzyme and prosthetic group metabolism| biotin synthase activity
SPBC725.09c, hob3, 	cell cycle| cytokinesis| M phase of mitotic cell cycle| actin cytoskeleton organization and biogenesis| endocytosis| intracellular protein transport| cell organization and biogenesis| actin cytoskeleton| actin cortical patch (sensu Fungi)| cytoskeleton
SPCC553.09c, SPCC553.09c, 	S phase of mitotic cell cycle| DNA replication| replication fork
SPAC31G5.08, ups1, ups	coenzyme and prosthetic group metabolism| uroporphyrinogen-III synthase activity
SPAC4G8.07c, SPAC4G8.07c, 	RNA processing| methyltransferase activity
SPAC1006.07, SPAC1006.07, 	ribosome biogenesis| protein biosynthesis| cell organization and biogenesis| cytoplasm| helicase activity
SPBC1A4.02c, leu1, SPBC1E8.07c	amino acid metabolism| carbohydrate catabolism| energy pathways| TCA intermediate metabolism| leucine metabolism| main pathways of carbohydrate metabolism| oxidoreductase activity| 3-isopropylmalate dehydrogenase activity
SPAC3H1.07, aru1, 	amino acid metabolism| arginine metabolism| arginase activity
SPBC18A7.01, SPBC18A7.01, SPBC4F6.19c	proteolysis and peptidolysis
SPBC14F5.12c, cbh2, 	establishment and/or maintenance of chromatin architecture| cell cycle| DNA packaging| chromosome segregation| cell organization and biogenesis| chromatin| DNA binding
SPBC428.16c, rhb1, 	amino acid metabolism| signal transduction| arginine metabolism| GTP binding
SPAC56F8.12, SPAC56F8.12, 	membrane
SPBC83.18c, SPBC83.18c, 	signal transduction
SPAC17H9.04c, SPAC17H9.04c, 	RNA binding
SPAC22A12.14c, SPAC22A12.14c, 	regulation of transcription\, DNA-dependent| transcription
SPAC20G8.10c, SPAC20G8.10c, SPAC3A12.01c	response to stress
SPAC22A12.11, dak1, 	carbohydrate metabolism| cytoplasm| glycerone kinase activity
SPAC227.13c, isu1, 	energy pathways| cell organization and biogenesis| mitochondrion
SPCC4G3.19, alp16, 	cytoskeleton organization and biogenesis| microtubule-based process| cell organization and biogenesis| establishment and/or maintenance of cell polarity| cytoskeleton| microtubule organizing center| microtubule cytoskeleton
SPBP4H10.07, SPBP4H10.07, 	ubiquitin ligase complex| ubiquitin-protein ligase activity
SPAC16E8.07c, vph1, 	transport| hydrogen transport| vacuolar membrane| membrane| vacuole| ATPase activity
SPBCPT2R1.07c, SPBCPT2R1.07c, 	malate dehydrogenase (oxaloacetate-decarboxylating) activity
SPBC1718.05, trs31, 	intracellular protein transport| Golgi cis-face| TRAPP
SPAC15A10.09c, SPAC15A10.09c, 	membrane
SPCC1682.11c, SPCC1682.11c, 	membrane
SPAC1F8.01, ght3, 	transport| carbohydrate transport| membrane| plasma membrane
SPAC12G12.05c, taf9, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| regulation of transcription from Pol II promoter| transcription| DNA packaging| cell organization and biogenesis| transcription factor TFIID complex| SAGA complex| transcription factor complex| chromatin| nucleus| transcription factor activity
SPBC660.14, mik1, 	cell cycle checkpoint| DNA replication checkpoint| G1/S transition of mitotic cell cycle| endomitotic cell cycle| S phase of mitotic cell cycle| DNA replication| DNA repair| G1 phase of mitotic cell cycle| DNA damage response\, signal transduction resulting in cell cycle arrest| signal transduction| protein modification| M phase of mitotic cell cycle| regulation of mitosis| G2/M transition of mitotic cell cycle| mitotic metaphase| mitotic anaphase| protein amino acid phosphorylation| regulation of cell cycle| protein kinase activity
SPBC18H10.15, SPBC18H10.15, 	signal transduction| protein modification| protein amino acid phosphorylation| protein kinase activity
SPAC16A10.01, SPAC16A10.01, 	membrane
SPBC336.14c, SPBC336.14c, 	mRNA processing| signal transduction| protein modification| RNA processing| mRNA polyadenylation| protein amino acid phosphorylation| protein kinase activity
SPAC6B12.11, SPAC6B12.11, 	S phase of mitotic cell cycle| DNA replication| replication fork
SPAC1486.10, thi1, ntf1, SPAC6G10.01	regulation of transcription\, DNA-dependent| transcription| transcription regulator activity
SPAC13C5.03, tht1, 	conjugation with cellular fusion| membrane
SPAPB17E12.13, rpl1802, rpl18-2	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPBC839.10, SPBC839.10, 	mRNA processing| RNA binding
SPAC14C4.15c, SPAC14C4.15c, SPAPJ760.01c	proteolysis and peptidolysis
SPAP32A8.03c, SPAP32A8.03c, 	ubiquitin ligase complex| ubiquitin-protein ligase activity
SPBC119.07, SPBC119.07, 	signal transduction| protein modification| lipid metabolism| protein amino acid phosphorylation| protein kinase activity
SPAC9E9.04, SPAC9E9.04, 	endoplasmic reticulum| membrane| endoplasmic reticulum membrane
SPBC106.16, SPBC106.16, 	proteolysis and peptidolysis| proteasome complex (sensu Eukarya)
SPBP23A10.13, orc4, orp4	S phase of mitotic cell cycle| DNA replication| replication fork| DNA binding| ATPase activity
SPBPB2B2.17c, SPBPB2B2.17c, SPAC1348.03	membrane
SPBC3H7.11, SPBC3H7.11, 	S phase of mitotic cell cycle| actin filament-based process| cell organization and biogenesis| actin cytoskeleton| cytoskeleton| methyltransferase activity
SPBC2F12.05c, SPBC2F12.05c, 	signal transduction| ergosterol biosynthesis| lipid metabolism| cell organization and biogenesis
SPCC794.03, SPCC794.03, 	transport| amino acid transport| membrane
SPBC1289.03c, spi1, 	nucleocytoplasmic transport| cell cycle| S phase of mitotic cell cycle| DNA replication| signal transduction| protein targeting| regulation of mitotic cell cycle| chromosome segregation| cell organization and biogenesis| mitotic cell cycle| nucleus| GTP binding
SPBP8B7.03c, rpl402, rpl4-2, rpl4	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPAC27F1.06c, SPAC27F1.06c, 	protein folding| peptidyl-prolyl cis-trans isomerase activity
SPBC1734.15, brd1, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| transcription| DNA packaging| cell organization and biogenesis| chromatin| nucleus
SPCC188.06c, srp54, 	protein-ER targeting| intracellular protein transport| GTPase activity
SPCPB16A4.03c, ade10, 	purine nucleotide metabolism| IMP cyclohydrolase activity| phosphoribosylaminoimidazolecarboxamide formyltransferase activity
SPBC1348.10c, SPBC1348.10c, SPAC1348.10c	lipid metabolism
SPCC584.03c, SPCC584.03c, 	GTP binding
SPBC6B1.10, prp17, 	mRNA processing| spliceosome complex
SPAC3G9.09c, tif211, 	protein biosynthesis
SPBC215.15, sec13, 	nucleocytoplasmic transport| barrier septum formation| protein targeting| intracellular protein transport| COPII-coated vesicle| cytoplasmic vesicle| nucleus| nuclear pore| Golgi vesicle| COPI-coated vesicle
SPCC1739.06c, SPCC1739.06c, 	sulfur metabolism| coenzyme and prosthetic group metabolism| methyltransferase activity
SPAC637.08, SPAC637.08, 	ATPase activity
SPAC30C2.08, SPAC30C2.08, 	cell surface
SPCC965.06, SPCC965.06, 	transport| cation transport| membrane| oxidoreductase activity
SPAC23A1.15c, SPAC23A1.15c, 	vesicle-mediated transport| intracellular protein transport| retrograde transport\, Golgi to ER| endoplasmic reticulum| cytoplasmic vesicle| endoplasmic reticulum membrane
SPBC36B7.03, SPBC36B7.03, 	protein-ER targeting| protein folding| protein targeting| intracellular protein transport| endoplasmic reticulum| signal recognition particle| signal sequence binding
SPAC1F5.06, SPAC1F5.06, 	response to stress| protein folding| chaperone activity| heat shock protein activity
SPAC1952.10c, SPAC1952.10c, 	membrane| cell surface
SPBC1105.16c, SPBC1105.16c, 	RNA processing| tRNA metabolism
SPBC947.08c, SPBC947.08c, 	regulation of transcription\, DNA-dependent| cell cycle| transcription| cell organization and biogenesis| chromatin
SPCC16A11.04, SPCC16A11.04, 	signal transduction| intracellular protein transport
SPAC5D6.06c, SPAC5D6.06c, 	response to stress| protein modification| membrane
SPAC23G3.02c, SPAC23G3.02c, 	nonribosomal peptide biosynthesis
SPAC12G12.16c, SPAC12G12.16c, SPAC18B11.01c	DNA repair
SPAC343.02, SPAC343.02, 	protein biosynthesis| mitochondrial ribosome
SPCC1739.14, npp106, 	nucleocytoplasmic transport| RNA localization| transcription| protein targeting| nucleus| nuclear pore
SPBC428.05c, SPBC428.05c, 	amino acid metabolism| arginine metabolism| argininosuccinate synthase activity
SPCC1183.08c, rpl101, rpl1-1, rpl10a-1	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPBC18H10.08c, ubp4, 	proteolysis and peptidolysis
SPBC19G7.05c, cps1, drc1, bgs1	cytoskeleton organization and biogenesis| sporulation (sensu Fungi)| cell cycle| cell wall organization and biogenesis| S phase of mitotic cell cycle| barrier septum formation| DNA replication| conjugation with cellular fusion| protein modification| spore wall assembly (sensu Fungi)| carbohydrate metabolism| cell wall biosynthesis| cell organization and biogenesis| establishment and/or maintenance of cell polarity| membrane| plasma membrane| 1\,3-beta-glucan synthase complex| 1\,3-beta-glucan synthase activity
SPBC14F5.07, SPBC14F5.07, 	mRNA processing| RNA processing| mRNA polyadenylation| ubiquitin ligase complex| ubiquitin-protein ligase activity
SPBC646.13, sds23, psp1, moc1	G1/S transition of mitotic cell cycle| cell cycle| endomitotic cell cycle| S phase of mitotic cell cycle| G1 phase of mitotic cell cycle| protein modification| M phase of mitotic cell cycle| regulation of mitosis| G2/M transition of mitotic cell cycle| M/G1 transition of mitotic cell cycle| mitotic metaphase| mitotic anaphase| nucleus
SPAC19A8.05c, vps27, 	signal transduction| lipid metabolism
SPAC19A8.05c, vps27, 	glutaminyl-tRNA aminoacylation| glutamine-tRNA ligase activity| cytoplasm| protein biosynthesis| tRNA metabolism| cytoplasm| glutamine-tRNA ligase activity
SPBC359.02, SPBC359.02, 	amino acid metabolism| alanine metabolism
SPBC800.11, SPBC800.11, 	nucleoside metabolism
SPBC800.11, SPBC800.11, 	acetyl-CoA biosynthesis from pyruvate| pyruvate dehydrogenase (acetyl-transferring) activity| pyruvate dehydrogenase complex (sensu Eukarya)| mitochondrion| coenzyme and prosthetic group metabolism| mitochondrion| oxidoreductase activity| pyruvate dehydrogenase (acetyl-transferring) activity
SPBC2G5.02c, SPBC2G5.02c, 	signal transduction| protein kinase CK2 complex
SPBC13G1.06c, SPBC13G1.06c, 	energy pathways| electron transport| membrane| mitochondrial inner membrane| mitochondrial membrane| mitochondrion| respiratory chain complex I (sensu Eukarya)| oxidoreductase activity
SPAC17G6.16c, ysh1, 	mRNA processing| RNA processing| mRNA polyadenylation
SPCC11E10.03, SPCC11E10.03, 	cell organization and biogenesis| cytoskeleton| microtubule organizing center| microtubule cytoskeleton
SPAC1783.01, SPAC1783.01, 	oxidoreductase activity
SPBC27.04, SPBC27.04, 	telomere maintenance| meiosis| DNA repair| DNA recombination| double-strand break repair| cell organization and biogenesis| Mre11 complex| nucleus
SPAC6C3.08, SPAC6C3.08, 	proteolysis and peptidolysis| cell organization and biogenesis
SPCC18B5.05c, SPCC18B5.05c, 	pyrimidine base metabolism
SPCC16C4.03, pin1, 	signal transduction| regulation of transcription from Pol II promoter| protein folding| transcription| nucleus| peptidyl-prolyl cis-trans isomerase activity
SPAC607.03c, snu13, 	rRNA processing| mRNA processing| RNA processing| nucleolus| spliceosome complex
SPAC6F6.15, ypt5, 	signal transduction| intracellular protein transport| cytoplasmic vesicle| GTP binding
SPAC323.04, SPAC323.04, 	ATPase activity
SPAC1F7.11c, SPAC1F7.11c, 	regulation of transcription\, DNA-dependent| transcription| transcription regulator activity
SPBC776.07, SPBC776.07, 	energy pathways| electron transport| cell surface| mitochondrion
SPAC869.11, SPAC869.11, SPAC922.08c	transport| amino acid transport| membrane
SPAC11D3.09, SPAC11D3.09, 	amino acid metabolism| arginine metabolism| agmatinase activity
SPAC56F8.03, SPAC56F8.03, 	protein biosynthesis
SPBC4F6.06, kin1, 	cytoskeleton organization and biogenesis| microtubule-based process| signal transduction| protein modification| protein amino acid phosphorylation| cell organization and biogenesis| establishment and/or maintenance of cell polarity| cytoskeleton| microtubule organizing center| microtubule cytoskeleton| protein kinase activity
SPAC15A10.02, taf12, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| regulation of transcription from Pol II promoter| transcription| DNA packaging| cell organization and biogenesis| transcription factor TFIID complex| SAGA complex| transcription factor complex| chromatin| nucleus| transcription factor activity
SPAC19G12.07c, rsd1, 	mRNA processing| RNA binding
SPCC1919.03c, SPCC1919.03c, 	fatty acid biosynthesis| carbohydrate metabolism| lipid metabolism| membrane| cytoplasm
SPAC13F5.06c, sec10, 	exocytosis| intracellular protein transport| exocyst
SPCC330.05c, ura4, 	pyrimidine base metabolism| orotidine-5'-phosphate decarboxylase activity
SPBC9B6.10, cdc37, 	regulation of cell cycle| protein folding| chaperone activity
SPAC6B12.08, SPAC6B12.08, 	regulation of transcription\, DNA-dependent| protein folding
SPBC16H5.11c, skb1, 	cell cycle| response to stress| cell organization and biogenesis| methyltransferase activity
SPAC1F7.08, fio1, 	cell ion homeostasis
SPAC19G12.01c, cut20, lid1, SPAPJ698.04c	cell cycle| anaphase-promoting complex| ubiquitin ligase complex| nucleus
SPCC1753.04, tol1, 	signal transduction| lipid metabolism| 3'(2')\,5'-bisphosphate nucleotidase activity
SPAC8E11.10, sou1, 	oxidoreductase activity
SPCP1E11.03, SPCP1E11.03, 	signal transduction
SPAC22F8.04, SPAC22F8.04, 	transport| membrane
SPBC530.09c, SPBC530.09c, 	intracellular protein transport
SPCC1450.15, SPCC1450.15, 	protein modification| lipid metabolism| GPI anchor biosynthesis| endoplasmic reticulum| membrane| methyltransferase activity
SPAC1F12.02c, p23fy, 	cytoplasm
SPAC10F6.04, SPAC10F6.04, 	microtubule-based process| cell organization and biogenesis| cytoskeleton| microtubule organizing center| microtubule cytoskeleton
SPCC338.13, SPCC338.13, 	ER to Golgi transport| intracellular protein transport| cytoplasmic vesicle
SPBC11C11.02, imp2, 	barrier septum formation| cytokinesis| signal transduction| M phase of mitotic cell cycle| chromosome condensation| cell organization and biogenesis| actin cytoskeleton| cytoskeleton
SPBC839.05c, rps1701, rps17-1	protein biosynthesis| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex| cytosolic ribosome (sensu Eukarya)
SPAC17A2.06c, SPAC17A2.06c, 	intracellular protein transport| cell organization and biogenesis| ubiquitin ligase complex| ubiquitin-protein ligase activity
SPAC13G7.10, SPAC13G7.10, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| transcription| DNA packaging| nucleus| DNA binding
SPBC3B8.04c, SPBC3B8.04c, 	transport| membrane
SPBC3E7.12c, cfh4, 	cytokinesis| M phase of mitotic cell cycle| cell organization and biogenesis
SPBC887.06c, grd19, 	signal transduction| intracellular protein transport| Golgi apparatus
SPBC409.21, sec66, 	protein-ER targeting| protein targeting| intracellular protein transport| endoplasmic reticulum| signal recognition particle| signal sequence binding
SPBC27B12.06, SPBC27B12.06, 	lipid metabolism| GPI anchor biosynthesis| endoplasmic reticulum
SPBC1105.02c, lys4, 	amino acid metabolism| carbohydrate catabolism| energy pathways| carbohydrate metabolism| TCA intermediate metabolism| main pathways of carbohydrate metabolism| lysine metabolism
SPCC1020.10, oca2, 	signal transduction| protein modification| protein amino acid phosphorylation| protein kinase activity
SPBC1711.17, prp16, SPBC17G9.01	regulation of transcription\, DNA-dependent| mRNA processing| transcription| helicase activity
SPAC26A3.11, SPAC26A3.11, 	nitrogen metabolism
SPAC22F3.09c, mcs1, res2, pct1	meiosis| regulation of transcription\, DNA-dependent| S phase of mitotic cell cycle| G1 phase of mitotic cell cycle| transcription| regulation of mitosis| cell organization and biogenesis| DNA binding
SPAC4F8.12c, spp42, cwf6	mRNA processing| spliceosome complex
SPAC959.06c, SPAC959.06c, 	membrane
SPBC24C6.11, cwf14, 	cell cycle| mRNA processing| spliceosome complex
SPAC1142.03c, swi2, SPAC17G6.20c	meiosis| DNA recombination| mating-type switching/recombination
SPBC1773.05c, tms1, 	carbohydrate metabolism| oxidoreductase activity| L-iditol 2-dehydrogenase activity
SPAC3G9.12, SPAC3G9.12, 	cell cycle| cell organization and biogenesis| spindle pole body
SPAC3A12.04c, SPAC3A12.04c, 	RNA processing| tRNA metabolism| ribonuclease P activity
SPAPJ698.03c, prp12, sap130	mRNA processing| RNA processing| spliceosome complex
SPBC887.12, SPBC887.12, 	lipid metabolism| membrane| ATPase activity
SPBC32F12.07c, SPBC32F12.07c, 	membrane
SPCC5E4.06, rad18, smc6	response to stress| DNA repair| nucleus
SPCC757.09c, rnc1, 	MAPKKK cascade| protein kinase cascade| signal transduction| RNA binding
SPBP8B7.22, erd2, 	intracellular protein transport| membrane| cytoplasmic vesicle| Golgi apparatus
SPCC70.10, SPCC70.10, 	cell surface
SPAC1071.11, SPAC1071.11, 	oxidoreductase activity
SPAC17G8.04c, arc5, arc16	actin filament-based process| actin cytoskeleton organization and biogenesis| cell organization and biogenesis| actin cytoskeleton| actin cortical patch (sensu Fungi)| cytoskeleton| Arp2/3 protein complex
SPAC17G8.04c, arc5, arc16	ornithine biosynthesis| arginine biosynthesis| glutamate catabolism| amino-acid N-acetyltransferase activity| mitochondrial matrix| amino acid metabolism| glutamate metabolism| protein modification| arginine metabolism| mitochondrion| amino-acid N-acetyltransferase activity| acetyltransferase activity
SPCC830.09c, SPCC830.09c, 	rRNA processing| RNA processing| ribonuclease MRP complex
SPBC1778.01c, SPBC1778.01c, SPBC30D10.01	protein folding| DNA binding
SPCC757.11c, SPCC757.11c, 	transport| membrane
SPAC607.10, spo3, 	sporulation (sensu Fungi)
SPAP8A3.06, SPAP8A3.06, 	mRNA processing| spliceosome complex| RNA binding
SPBC582.03, cdc13, 	cell cycle checkpoint| DNA replication checkpoint| G1/S transition of mitotic cell cycle| regulation of cyclin dependent protein kinase activity| cell cycle| S phase of mitotic cell cycle| DNA replication| DNA repair| DNA damage response\, signal transduction resulting in cell cycle arrest| regulation of mitosis| G2/M transition of mitotic cell cycle| regulation of mitotic cell cycle| M/G1 transition of mitotic cell cycle| mitotic cell cycle| regulation of cell cycle| nucleus
SPAC27E2.07, pvg2, 	cell wall organization and biogenesis| protein modification| cell wall biosynthesis| cell organization and biogenesis
SPCC4G3.10c, rhp42, rhp4b	mismatch repair| DNA repair| nucleotide excision repair complex
SPCC1259.05c, cox9, 	energy pathways| electron transport| membrane| mitochondrial inner membrane| mitochondrial membrane| mitochondrion| cytochrome-c oxidase activity
SPAPYUK71.03c, SPAPYUK71.03c, 	signal transduction
SPAPYUK71.03c, SPAPYUK71.03c, 	mitotic chromosome segregation| meiosis II\, chromosome segregation| meiosis I\, chromosome segregation| nucleus| kinetochore| meiosis| cell cycle| M phase of mitotic cell cycle| chromosome segregation| cell organization and biogenesis| kinetochore
SPAPB8E5.02c, rpn502, rpn5-b	proteolysis and peptidolysis| cell organization and biogenesis| proteasome complex (sensu Eukarya)| ATPase activity
SPAC144.18, SPAC144.18, 	transport| protein modification| carbohydrate transport| membrane
SPAC144.18, SPAC144.18, 	prolyl-tRNA aminoacylation| proline-tRNA ligase activity| cellular_component unknown| tRNA metabolism| proline-tRNA ligase activity
SPBC17G9.02c, SPBC17G9.02c, 	transcription| nucleus
SPBC20F10.09, lsm5, 	mRNA processing| RNA processing| spliceosome complex
SPCC584.13, SPCC584.13, 	transport| amino acid transport| membrane
SPAPYUG7.05, SPAPYUG7.05, 	amino acid metabolism| proline metabolism| pyrroline-5-carboxylate reductase activity
SPBC530.15c, SPBC530.15c, SPBC661.01	transport| membrane
SPBC23G7.16, ctr6, 	transport| metal ion transport| vacuolar membrane| membrane| cytoplasmic vesicle
SPCC285.16c, msh6, 	mismatch repair| DNA repair
SPCC285.16c, msh6, 	tricarboxylic acid cycle| isocitrate metabolism| glutamate biosynthesis| isocitrate dehydrogenase (NAD+) activity| mitochondrial matrix| amino acid metabolism| carbohydrate catabolism| glutamate metabolism| energy pathways| carbohydrate metabolism| TCA intermediate metabolism| main pathways of carbohydrate metabolism| mitochondrion| oxidoreductase activity| isocitrate dehydrogenase (NAD+) activity
SPAC22A12.17c, SPAC22A12.17c, 	carbohydrate metabolism| oxidoreductase activity
SPCC1919.10c, myo52, 	cytoskeleton organization and biogenesis| cytokinesis| M phase of mitotic cell cycle| cell organization and biogenesis| establishment and/or maintenance of cell polarity| actin cytoskeleton| cytoskeleton
SPAC3C7.11c, cnx1, cal1	protein modification| protein folding| intracellular protein transport| cell organization and biogenesis| endoplasmic reticulum| endoplasmic reticulum membrane| cell surface| chaperone activity
SPBC4C3.07, SPBC4C3.07, 	cell cycle| S phase of mitotic cell cycle| signalosome complex| nucleus
SPAC30D11.12, rpl3802, rpl38-2, rps38	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPAC110.03, cdc42, 	cytoskeleton organization and biogenesis| barrier septum formation| conjugation with cellular fusion| signal transduction| cell organization and biogenesis| establishment and/or maintenance of cell polarity
SPAPB2C8.01, SPAPB2C8.01, 	cell surface
SPBC16A3.16, cwc27, 	mRNA processing| spliceosome complex
SPBC685.04c, aps2, 	vesicle-mediated transport| intracellular protein transport| cytoplasmic vesicle
SPBC115.01c, SPBC115.01c, 	rRNA processing| RNA processing| exosome (RNase complex)
SPBC1347.02, fkbp39, 	protein folding| peptidyl-prolyl cis-trans isomerase activity
SPAC2F3.08, sut1, 	transport| membrane
SPCC1259.14c, meu27, B8647-6	meiosis
SPAC18B11.07c, rhp6, ubc2	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| DNA repair| protein modification| transcription| DNA packaging| proteolysis and peptidolysis| cell organization and biogenesis| chromatin silencing| regulation of cell cycle| chromatin| ubiquitin conjugating enzyme activity| ubiquitin-protein ligase activity
SPCC191.02c, SPCC191.02c, SPCC417.14c	acetate-CoA ligase activity
SPACUNK12.02c, cmk1, 	protein kinase cascade| signal transduction| protein modification| protein amino acid phosphorylation| cell organization and biogenesis| protein kinase activity| calcium/calmodulin-dependent protein kinase activity
SPCC18.10, SPCC18.10, 	coenzyme and prosthetic group metabolism| pyridoxal kinase activity
SPAC186.07c, SPAC186.07c, 	oxidoreductase activity
SPAC11E3.02c, SPAC11E3.02c, 	signal transduction
SPAPB8E5.09, SPAPB8E5.09, 	ATPase activity
SPBC1198.04c, zas1, 	regulation of transcription\, DNA-dependent
SPAC222.03c, SPAC222.03c, 	mitochondrial inner membrane protein import| mitochondrial inner membrane| mitochondrion
SPBC16G5.14c, rps3, 	protein biosynthesis| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex| cytosolic ribosome (sensu Eukarya)
SPBC9B6.04c, SPBC9B6.04c, 	protein biosynthesis| mitochondrion| GTP binding
SPAC4H3.08, SPAC4H3.08, 	fatty acid biosynthesis| lipid metabolism| peroxisome| oxidoreductase activity
SPCC23B6.02c, SPCC23B6.02c, 	membrane
SPAC16E8.06c, SPAC16E8.06c, 	rRNA processing| RNA processing| nucleolus| RNA binding
SPAP7G5.06, SPAP7G5.06, 	transport| amino acid transport| membrane
SPAC27E2.05, cdc1, mis1	telomere maintenance| S phase of mitotic cell cycle| DNA replication| cell organization and biogenesis| replication fork| DNA-directed DNA polymerase activity
SPBC27B12.13, tom40, SPBC8D2.22	mitochondrial outer membrane protein import| mitochondrial outer membrane
SPBC23E6.06c, SPBC23E6.06c, 	coenzyme and prosthetic group metabolism| GTP cyclohydrolase II activity
SPAC22E12.17c, SPAC22E12.17c, 	retrograde transport\, Golgi to ER
SPBC23G7.13c, SPBC23G7.13c, 	transport| urea transport| membrane
SPAC57A10.10c, sla1, 	meiosis| sporulation (sensu Fungi)| RNA processing| tRNA metabolism| nucleus| RNA binding
SPBC2A9.11c, SPBC2A9.11c, SPBC2D10.01c	nucleocytoplasmic transport| protein targeting
SPCC1442.09, trp3, 	amino acid metabolism| tryptophan metabolism
SPAC644.14c, rhp51, rad51	telomere maintenance| meiosis| DNA repair| DNA recombination| mating-type switching/recombination| cell organization and biogenesis| DNA binding| ATPase activity
SPCC965.10, SPCC965.10, 	regulation of transcription\, DNA-dependent| transcription| transcription regulator activity
SPCC162.05, coq3, 	energy pathways| electron transport| ubiquinone biosynthesis| membrane| mitochondrial inner membrane| mitochondrial membrane| mitochondrion| hexaprenyldihydroxybenzoate methyltransferase activity| methyltransferase activity
SPBC28F2.08c, SPBC28F2.08c, 	proteolysis and peptidolysis| endoplasmic reticulum| membrane| endoplasmic reticulum membrane
SPAC824.07, SPAC824.07, 	sulfur metabolism
SPAC22G7.10, SPAC22G7.10, 	mRNA processing| RNA processing| mRNA polyadenylation
SPAC3H1.13, SPAC3H1.13, 	signal transduction| protein modification| protein amino acid phosphorylation| protein kinase activity
SPBC1306.01c, SPBC1306.01c, SPBC409.22c	protein biosynthesis| mitochondrion
SPAC29E6.04, SPAC29E6.04, SPAC30.08	cell cycle| RNA localization| transcription| cell organization and biogenesis| spindle pole body
SPAC18B11.05, SPAC18B11.05, 	membrane
SPBC32H8.12c, act1, cps8	cytoskeleton organization and biogenesis| cytokinesis| M phase of mitotic cell cycle| chromosome condensation| actin cytoskeleton organization and biogenesis| cell organization and biogenesis| establishment and/or maintenance of cell polarity| actin cytoskeleton| actin cortical patch (sensu Fungi)| cytoskeleton
SPBC11C11.03, ndc10, tid3	cell cycle| M phase of mitotic cell cycle| chromosome segregation| cell organization and biogenesis| spindle pole body| kinetochore
SPAC16E8.01, SPAC16E8.01, 	cell wall organization and biogenesis| signal transduction| actin cytoskeleton organization and biogenesis| endocytosis| intracellular protein transport| cell organization and biogenesis| actin cytoskeleton| actin cortical patch (sensu Fungi)| cytoskeleton
SPAC1F3.02c, mkh1, 	MAPKKK cascade| protein kinase cascade| cell wall organization and biogenesis| response to stress| signal transduction| protein modification| protein amino acid phosphorylation| cell organization and biogenesis| protein kinase activity
SPCC18.14c, rpp0, 	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPBP22H7.04, SPBP22H7.04, 	membrane
SPCP1E11.11, SPCP1E11.11, 	ribosome biogenesis| cell organization and biogenesis| RNA binding
SPAC1952.03, SPAC1952.03, 	proteolysis and peptidolysis
SPAC1556.08c, SPAC1556.08c, SPAC1F12.01c	carbohydrate metabolism
SPBC1105.18c, SPBC1105.18c, SPBC887.21c	tRNA metabolism| mitochondrion
SPBC3B8.03, SPBC3B8.03, 	amino acid metabolism| lysine metabolism| saccharopine dehydrogenase (NADP+\, L-glutamate-forming) activity| oxidoreductase activity
SPAC4G9.05, SPAC4G9.05, 	RNA binding
SPBC25B2.01, SPBC25B2.01, SPBC2G5.08	protein biosynthesis| GTP binding
SPAC56E4.02c, SPAC56E4.02c, 	protein modification
SPBC1347.06c, cki1, 	signal transduction| protein modification| lipid metabolism| protein amino acid phosphorylation| protein kinase CK2 complex| protein kinase activity
SPBC1711.05, SPBC1711.05, 	protein folding| nucleolus| chaperone activity
SPAC959.02, sec17, 	vacuole organization and biogenesis| vacuole fusion\, non-autophagic| ER to Golgi transport| intracellular protein transport| vacuolar membrane| membrane| cytoplasmic vesicle
SPBC146.05c, cwf25, 	mRNA processing| spliceosome complex
SPBC1718.04, SPBC1718.04, 	lipid metabolism| membrane
SPBPB2B2.11, SPBPB2B2.11, 	carbohydrate metabolism
SPBC12D12.06, srb11, 	cell cycle
SPBC25H2.12c, cct7, 	microtubule-based process| protein folding| tubulin folding| cell organization and biogenesis| actin cytoskeleton| cytoskeleton| chaperonin-containing T-complex| microtubule organizing center| microtubule cytoskeleton
SPBC530.02, SPBC530.02, 	transport| membrane
SPBC3B9.12, SPBC3B9.12, 	intracellular protein transport| Golgi cis-face| TRAPP
SPBC28E12.01c, apc13, SPBC9B6.12c	cell cycle| anaphase-promoting complex| ubiquitin ligase complex| nucleus
SPAC1486.03c, SPAC1486.03c, 	M phase of mitotic cell cycle
SPBC3D6.13c, SPBC3D6.13c, 	protein folding| endoplasmic reticulum| membrane| endoplasmic reticulum membrane| oxidoreductase activity
SPCC1919.04, SPCC1919.04, 	membrane
SPBC21B10.12, rec6, 	meiosis| DNA recombination
SPAC977.08, SPAC977.08, 	oxidoreductase activity
SPAC1952.08c, SPAC1952.08c, 	RNA processing| coenzyme and prosthetic group metabolism
SPCC24B10.05, SPCC24B10.05, 	protein folding| mitochondrion| chaperone activity
SPAC4G9.16c, rpl901, rpl9-1	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPAC17H9.16, tom22, 	mitochondrial outer membrane protein import| mitochondrial outer membrane
SPAC1039.05c, SPAC1039.05c, 	regulation of transcription\, DNA-dependent
SPBC557.04, SPBC557.04, 	signal transduction| protein modification| actin cytoskeleton organization and biogenesis| protein amino acid phosphorylation| cell organization and biogenesis| actin cytoskeleton| actin cortical patch (sensu Fungi)| cytoskeleton| protein kinase activity
SPAC3A12.17c, SPAC3A12.17c, 	cysteine metabolism| amino acid metabolism| sulfur metabolism
SPAC1834.08, mak1, 	MAPKKK cascade| protein kinase cascade| cell cycle| response to stress| conjugation with cellular fusion| signal transduction| regulation of mitotic cell cycle| mitotic cell cycle
SPAC1834.08, mak1, 	aspartyl-tRNA aminoacylation| aspartate-tRNA ligase activity| cytoplasm| tRNA metabolism| cytoplasm| aspartate-tRNA ligase activity
SPBC947.10, SPBC947.10, 	membrane| ubiquitin ligase complex| ubiquitin-protein ligase activity
SPBC83.07, ecm5, jmj3	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| transcription| DNA packaging| cell organization and biogenesis| chromatin remodeling complex| Lid2 complex| chromatin
SPBC23G7.04c, nif1, 	regulation of mitotic cell cycle| mitotic cell cycle
SPAC1851.02, SPAC1851.02, 	fatty acid biosynthesis| lipid metabolism| sphingolipid metabolism| membrane| 1-acylglycerol-3-phosphate O-acyltransferase activity
SPAC1805.09c, SPAC1805.09c, 	transcription| RNA processing| tRNA metabolism
SPBP4H10.08, qcr10, 	energy pathways| electron transport| membrane| mitochondrial inner membrane| mitochondrial membrane| mitochondrion
SPBC16H5.08c, SPBC16H5.08c, 	ATPase activity
SPCC330.10, pcm1, 	mRNA processing| methyltransferase activity
SPBC17G9.05, cyp6, 	protein folding| cell organization and biogenesis| RNA binding
SPBP4H10.06c, cut14, smc2	establishment and/or maintenance of chromatin architecture| cell cycle| chromosome condensation| DNA packaging| chromosome segregation| cell organization and biogenesis| condensin complex| nucleus
SPBC19G7.08c, SPBC19G7.08c, 	signal transduction
SPAC23D3.03c, SPAC23D3.03c, 	signal transduction
SPCC126.15c, sec65, 	protein-ER targeting| protein targeting| intracellular protein transport| endoplasmic reticulum| signal recognition particle| signal sequence binding
SPCC126.15c, sec65, 	transcription from Pol I promoter| transcription from Pol II promoter| transcription from Pol III promoter| DNA-directed RNA polymerase activity| DNA-directed RNA polymerase I complex| DNA-directed RNA polymerase II\, holoenzyme| DNA-directed RNA polymerase III complex| transcription from Pol I promoter| transcription from Pol III promoter| regulation of transcription from Pol II promoter| transcription| DNA-directed RNA polymerase I complex| nucleolus| DNA-directed RNA polymerase II\, holoenzyme| DNA-directed RNA polymerase III complex| nucleus
SPAC2E1P3.02c, SPAC2E1P3.02c, 	transport| membrane
SPCC1906.03, wtf19, 	membrane
SPBC24C6.06, gpa1, 	sporulation (sensu Fungi)| conjugation with cellular fusion| GTP binding
SPAC1A6.07, SPAC1A6.07, 	cell organization and biogenesis
SPCC757.05c, SPCC757.05c, 	proteolysis and peptidolysis
SPAC17G6.11c, SPAC17G6.11c, 	carbohydrate metabolism| cell organization and biogenesis
SPCC1322.15, rpl3402, rpl34-2	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPCC74.05, rpl2702, rpl27-2	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPBC3F6.02c, SPBC3F6.02c, 	lipid metabolism| oxidoreductase activity| steroid delta-isomerase activity
SPCC18B5.12, SPCC18B5.12, SPCC14G10.01, SPBC18B5.12	dephospho-CoA kinase activity
SPCC1223.09, SPCC1223.09, 	nitrogen metabolism| purine nucleotide metabolism| urate oxidase activity
SPAC24B11.07c, SPAC24B11.07c, 	coenzyme and prosthetic group metabolism
SPCC1235.14, ght5, 	transport| carbohydrate transport| membrane| plasma membrane
SPBC19C2.05, ran1, pat1	meiosis| conjugation with cellular fusion| signal transduction| protein modification| protein amino acid phosphorylation| protein kinase activity
SPBC19C2.05, ran1, pat1	isoleucyl-tRNA aminoacylation| isoleucine-tRNA ligase activity| cytosol| tRNA metabolism| cytosol| isoleucine-tRNA ligase activity
SPAC1687.13c, csn5, 	cell cycle| S phase of mitotic cell cycle| signalosome complex| nucleus
SPAC1556.07, pmm1, 	carbohydrate metabolism| intracellular protein transport| phosphomannomutase activity
SPCC1840.01c, mog1, SPCC790.04c	nucleocytoplasmic transport| cell cycle| protein targeting| GTP binding
SPAC19G12.10c, cpy1, pcy1	protein modification| proteolysis and peptidolysis| vacuole| carboxypeptidase C activity
SPCC1259.02c, SPCC1259.02c, 	proteolysis and peptidolysis| membrane
SPBC12D12.04c, pck2, sts6, pkc1	cytoskeleton organization and biogenesis| cell wall organization and biogenesis| signal transduction| protein modification| cell wall biosynthesis| protein amino acid phosphorylation| cell organization and biogenesis| establishment and/or maintenance of cell polarity| septum| protein kinase activity
SPAC22A12.10, SPAC22A12.10, 	lipid metabolism| membrane| ethanolaminephosphotransferase activity
SPBC2G5.06c, hmt2, cad1	response to stress| mitochondrion| oxidoreductase activity
SPBC336.09c, rrn7, 	regulation of transcription\, DNA-dependent| transcription| nucleolus| nucleus
SPBC12D12.08c, ubl1, ned8, nedd8, SPBC24C6.01c	proteolysis and peptidolysis| ubiquitin ligase complex
SPCC548.07c, ght1, 	transport| carbohydrate transport| membrane| plasma membrane
SPBC16H5.05c, cyp7, cwf27	mRNA processing| protein folding| spliceosome complex| peptidyl-prolyl cis-trans isomerase activity
SPBC713.02c, ubp21, ubpD, ubp15	proteolysis and peptidolysis| nucleus| ubiquitin thiolesterase activity
SPBC14C8.07c, cdc18, 	cell cycle checkpoint| DNA replication checkpoint| G1/S transition of mitotic cell cycle| regulation of cyclin dependent protein kinase activity| endomitotic cell cycle| S phase of mitotic cell cycle| DNA replication| M phase of mitotic cell cycle| regulation of mitosis| regulation of mitotic cell cycle| mitotic cell cycle| regulation of cell cycle
SPBC56F2.02, rpl1901, rpl19-1	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPCC338.12, SPCC338.12, 	proteolysis and peptidolysis
SPCC584.01c, SPCC584.01c, 	energy pathways| sulfite reductase (NADPH) activity
SPBC16G5.03, SPBC16G5.03, 	ubiquitin ligase complex| ubiquitin-protein ligase activity
SPCC1620.04c, SPCC1620.04c, 	S phase of mitotic cell cycle
SPBC685.06, rps001, rps0-1, rpsa-1	protein biosynthesis| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex| cytosolic ribosome (sensu Eukarya)
SPAC1705.03c, SPAC1705.03c, SPAC23H4.19	cell wall organization and biogenesis| cell wall biosynthesis| cell organization and biogenesis| cell surface
SPBC609.05, SPBC609.05, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| cell cycle| S phase of mitotic cell cycle| DNA replication| regulation of transcription from Pol II promoter| transcription| DNA packaging| cell organization and biogenesis| chromatin remodeling complex| replication fork| chromatin| nucleus| DNA binding
SPCC550.04c, SPCC550.04c, 	signal transduction| lipid metabolism| GPI anchor biosynthesis| membrane
SPBC428.17c, SPBC428.17c, 	nucleus
SPAC17G8.11c, SPAC17G8.11c, 	protein modification| carbohydrate metabolism| lipid metabolism| sphingolipid metabolism| membrane
SPBC1683.12, SPBC1683.12, 	transport| membrane
SPAC694.02, SPAC694.02, 	helicase activity
SPBC30B4.04c, SPBC30B4.04c, 	regulation of transcription\, DNA-dependent| transcription| DNA binding
SPAC144.09c, sfc2, 	regulation of transcription\, DNA-dependent| transcription from Pol III promoter| transcription| transcription factor complex| chromatin| nucleus
SPAC637.07, moe1, 	spindle assembly| microtubule-based process| cell cycle| protein biosynthesis| chromosome segregation| cell organization and biogenesis| microtubule cytoskeleton organization and biogenesis| eukaryotic translation initiation factor 3 complex| cytoskeleton| eukaryotic 48S initiation complex| microtubule organizing center| microtubule cytoskeleton
SPBC29A10.15, orc1, orp1	G1/S transition of mitotic cell cycle| endomitotic cell cycle| S phase of mitotic cell cycle| DNA replication| M phase of mitotic cell cycle| regulation of mitosis| regulation of cell cycle| replication fork| ATPase activity
SPBC1289.10c, SPBC1289.10c, 	regulation of transcription\, DNA-dependent| transcription| DNA binding
SPAC1F3.01, SPAC1F3.01, SPAC3H8.11	rRNA processing| mRNA processing| RNA processing| exosome (RNase complex)
SPAC1F3.01, SPAC1F3.01, SPAC3H8.11	L-serine biosynthesis| phosphoglycerate dehydrogenase activity| cellular_component unknown| amino acid metabolism| L-serine metabolism| phosphoglycerate dehydrogenase activity| oxidoreductase activity
SPBC1347.10, cdc23, mcm10	establishment and/or maintenance of chromatin architecture| S phase of mitotic cell cycle| DNA replication| DNA packaging| cell organization and biogenesis| chromatin
SPAC23C4.12, hhp2, 	cell cycle| DNA repair| signal transduction| protein modification| M phase of mitotic cell cycle| protein amino acid phosphorylation| cell organization and biogenesis| protein kinase activity
SPBC83.13, SPBC83.13, 	transport| mitochondrial transport| membrane| mitochondrial membrane
SPAC2C4.03c, smd2, cwf9	mRNA processing| RNA processing| spliceosome complex
SPBPJ4664.05, SPBPJ4664.05, 	membrane
SPAC27D7.14c, tpr1, SPAC637.02c	transcription| nucleus
SPAC823.13c, SPAC823.13c, 	mitochondrion organization and biogenesis| cell organization and biogenesis| membrane| mitochondrial inner membrane| mitochondrial membrane
SPAC23H3.06, apl6, 	vesicle-mediated transport| intracellular protein transport| membrane| cytoplasmic vesicle| 
SPBC17D11.07c, rpn2, 	proteolysis and peptidolysis| proteasome complex (sensu Eukarya)
SPBC21.02, SPBC21.02, 	cytoplasm
SPBP16F5.03c, SPBP16F5.03c, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| signal transduction| transcription| lipid metabolism| DNA packaging| SAGA complex| chromatin
SPCC16A11.05c, dim1, 	mRNA processing| RNA processing| spliceosome complex
SPAC19B12.01, SPAC19B12.01, SPAC4F10.21	conjugation with cellular fusion
SPAC22F8.02c, pvg5, 	cell wall organization and biogenesis| cell wall biosynthesis| cell organization and biogenesis| cell surface
SPBC13G1.01c, SPBC13G1.01c, 	protein biosynthesis| mitochondrial ribosome
SPAC23C11.06c, SPAC23C11.06c, 	membrane
SPAC10F6.14c, SPAC10F6.14c, 	mitochondrion
SPAC11E3.11c, SPAC11E3.11c, 	vesicle-mediated transport| signal transduction| intracellular protein transport| cytoplasmic vesicle| vesicle coat
SPAC3A12.16c, SPAC3A12.16c, 	mitochondrial matrix protein import| mitochondrial inner membrane| mitochondrial membrane
SPBC1289.13c, SPBC1289.13c, 	protein amino acid galactosylation| protein modification| cell surface
SPBC3B9.09, vps36, 	intracellular protein transport
SPAPB17E12.14c, SPAPB17E12.14c, 	carbohydrate metabolism
SPBC359.06, SPBC359.06, 	cell organization and biogenesis
SPBC2G2.06c, apl1, 	vesicle-mediated transport| intracellular protein transport| membrane| cytoplasmic vesicle
SPAC23C11.14, zhf1, 	transport| cation transport| metal ion transport| cell ion homeostasis| endoplasmic reticulum| membrane
SPAC23C11.14, zhf1, 	tricarboxylic acid cycle| citrate metabolism| citrate (Si)-synthase activity| mitochondrion| carbohydrate catabolism| energy pathways| TCA intermediate metabolism| main pathways of carbohydrate metabolism| mitochondrion| citrate (Si)-synthase activity
SPAC23C11.14, zhf1, 	aspartyl-tRNA aminoacylation| aspartate-tRNA ligase activity| mitochondrion| tRNA metabolism| mitochondrion
SPAC823.07, SPAC823.07, 	cell ion homeostasis| membrane
SPBC17A3.10, SPBC17A3.10, 	cell organization and biogenesis| ubiquitin ligase complex| ubiquitin-protein ligase activity
SPAC26A3.06, SPAC26A3.06, 	methyltransferase activity
SPBC1778.08c, arc21	actin filament-based process| actin cytoskeleton organization and biogenesis| cell organization and biogenesis| actin cytoskeleton| actin cortical patch (sensu Fungi)| cytoskeleton| Arp2/3 protein complex
SPAC1D4.02c, SPAC1D4.02c, 	cell organization and biogenesis| regulation of cell cycle
SPAC824.08, gda1, gdp1	protein amino acid glycosylation| protein modification| membrane| Golgi apparatus
SPAC17A5.07c, ulp2, 	protein modification| proteolysis and peptidolysis
SPAC57A7.07c, SPAC57A7.07c, 	cysteine metabolism| amino acid metabolism| sulfur metabolism| methyltransferase activity
SPCC1795.07, SPCC1795.07, 	protein biosynthesis| mitochondrial ribosome
SPAC6B12.10c, spp1, pri1	telomere maintenance| cell cycle| S phase of mitotic cell cycle| DNA replication| cell organization and biogenesis| replication fork
SPBC83.06c, SPBC83.06c, 	protein biosynthesis| mitochondrial ribosome
SPBC14C8.01c, cut2, SPBC1815.02c	cell cycle| regulation of mitotic cell cycle| proteolysis and peptidolysis| cell organization and biogenesis| mitotic cell cycle| regulation of cell cycle| spindle pole body| nucleus
SPCC1223.12c, meu10, 	meiosis| sporulation (sensu Fungi)| cell wall organization and biogenesis| spore wall assembly (sensu Fungi)| cell wall biosynthesis| cell organization and biogenesis| cell surface
SPAC19D5.01, pyp2, 	MAPKKK cascade| meiosis| protein kinase cascade| signal transduction| protein modification| protein tyrosine phosphatase activity
SPCC4F11.02, ptc1, 	response to stress| signal transduction| protein modification| phosphoprotein phosphatase activity
SPBC211.07c, ubc8, 	proteolysis and peptidolysis| ubiquitin conjugating enzyme activity
SPAC3G9.16c, bet5, SPAC688.15	intracellular protein transport| Golgi cis-face| TRAPP
SPBC106.04, ada1, 	purine nucleotide metabolism| cytoplasm| AMP deaminase activity
SPAC11D3.14c, SPAC11D3.14c, 	amino acid metabolism| glutamate metabolism| proline metabolism
SPAC4D7.03, pop2, sud1	proteolysis and peptidolysis| ubiquitin ligase complex
SPBC3B9.18c, vma7, 	transport| intracellular protein transport| hydrogen transport| cell organization and biogenesis| vacuole
SPBC4.06, SPBC4.06, 	phosphate metabolism
SPAC664.11, ssc1, ssp1	response to stress| protein folding| protein targeting| protein-mitochondrial targeting| mitochondrion| chaperone activity| heat shock protein activity
SPAC1B2.05, mcm5, nda4, SPAC3F10.01	S phase of mitotic cell cycle| DNA replication| replication fork| helicase activity| ATPase activity
SPAC328.06, ubp2, 	proteolysis and peptidolysis
SPCC297.03, ssp1, 	cytoskeleton organization and biogenesis| actin filament-based process| signal transduction| protein modification| actin cytoskeleton organization and biogenesis| protein amino acid phosphorylation| cell organization and biogenesis| establishment and/or maintenance of cell polarity| actin cytoskeleton| cytoskeleton| cell surface| cytoplasm| protein kinase activity
SPAC823.10c, SPAC823.10c, 	transport| mitochondrial transport| membrane| mitochondrial membrane
SPAC23H3.10, SPAC23H3.10, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| transcription| DNA packaging| cell organization and biogenesis| chromatin| nucleus| DNA binding
SPBC1271.03c, SPBC1271.03c, 	signal transduction| protein modification| phosphoprotein phosphatase activity
SPCC1827.01c, SPCC1827.01c, 	nucleolus
SPCC790.03, SPCC790.03, 	proteolysis and peptidolysis| membrane
SPBC4B4.03, rsc1, 	establishment and/or maintenance of chromatin architecture| DNA packaging| cell organization and biogenesis| chromatin| nucleus
SPAC1327.01c, SPAC1327.01c, SPAC1783.09c, SPAC18G6.16c	regulation of transcription\, DNA-dependent| transcription| transcription regulator activity
SPCC4G3.15c, SPCC4G3.15c, 	regulation of transcription\, DNA-dependent| transcription| CCR4-NOT core complex
SPAC1F7.04, rho1, 	cytoskeleton organization and biogenesis| vacuole organization and biogenesis| cell wall organization and biogenesis| barrier septum formation| vacuole fusion\, non-autophagic| signal transduction| actin cytoskeleton organization and biogenesis| cell wall biosynthesis| cell organization and biogenesis| establishment and/or maintenance of cell polarity| actin cytoskeleton| cytoskeleton
SPBC342.05, crb2, rhp9	cell cycle checkpoint| DNA repair| DNA damage response\, signal transduction resulting in cell cycle arrest| regulation of cell cycle
SPAC3G6.06c, rad2, fen1	telomere maintenance| S phase of mitotic cell cycle| DNA replication| DNA repair| cell organization and biogenesis| replication fork
SPAC17H9.02, SPAC17H9.02, 	RNA localization| transcription| helicase activity
SPBC4B4.01c, SPBC4B4.01c, 	lipid metabolism| coenzyme and prosthetic group metabolism| pantothenate kinase activity
SPBC13G1.11, ykt6, 	vesicle-mediated transport| vacuole organization and biogenesis| vacuole fusion\, non-autophagic| intracellular protein transport| vacuolar membrane| membrane| cytoplasmic vesicle
SPAC3G9.10c, SPAC3G9.10c, 	rRNA processing| RNA processing| exosome (RNase complex)
SPAC144.02, SPAC144.02, 	regulation of transcription\, DNA-dependent
SPBC19G7.06, SPBC19G7.06, 	regulation of transcription\, DNA-dependent| transcription| nucleus
SPCP25A2.02c, rhp26, 	meiosis| establishment and/or maintenance of chromatin architecture| DNA repair| nucleotide-excision repair| DNA recombination| DNA packaging| cell organization and biogenesis| chromatin remodeling complex| nucleotide excision repair complex| chromatin| helicase activity| ATPase activity
SPAC343.15, SPAC343.15, 	tRNA metabolism
SPCPJ732.03, meu15, 	meiosis
SPAC11E3.09, pyp3, 	protein modification| regulation of mitotic cell cycle| mitotic cell cycle| protein tyrosine phosphatase activity
SPBC36B7.05c, SPBC36B7.05c, 	signal transduction| lipid metabolism
SPBC19C2.15c, SPBC19C2.15c, SPBC2F12.16	membrane
SPAC3G6.02, dss1, 	mitochondrion organization and biogenesis| cell organization and biogenesis
SPAC27D7.05c, apc14, omt1	sporulation (sensu Fungi)| cell cycle| spore wall assembly (sensu Fungi)| cell organization and biogenesis| anaphase-promoting complex| ubiquitin ligase complex| nucleus
SPBC1773.12, SPBC1773.12, 	regulation of transcription\, DNA-dependent| transcription| transcription regulator activity
SPBC29A3.02c, his7, 	amino acid metabolism| histidine metabolism| phosphoribosyl-AMP cyclohydrolase activity| phosphoribosyl-ATP diphosphatase activity
SPCC613.01, SPCC613.01, SPCC757.14	transport| membrane
SPBC31F10.09c, nut2, 	regulation of transcription\, DNA-dependent| transcription| mediator complex| nucleus
SPCC965.14c, SPCC965.14c, 	RNA processing| tRNA metabolism
SPAC20G8.09c, SPAC20G8.09c, 	acetyltransferase activity
SPBC1604.10, srb7, 	regulation of transcription\, DNA-dependent| transcription| mediator complex| nucleus
SPAC821.10c, sod1, 	response to stress| superoxide dismutase activity
SPBC1348.04, SPBC1348.04, SPAC1348.04	lipid metabolism| methyltransferase activity
SPCC1620.06c, SPCC1620.06c, 	purine nucleotide metabolism
SPBC2A9.06c, SPBC2A9.06c, 	endoplasmic reticulum| cytoplasmic vesicle| cytoplasm
SPBC2D10.06, rep1, rec16	meiosis| regulation of transcription\, DNA-dependent| transcription
SPCC736.08, SPCC736.08, 	DNA binding
SPAC328.01c, SPAC328.01c, SPAC3A11.01	nucleocytoplasmic transport| protein targeting| nuclear pore
SPAC22A12.09c, sap114, 	mRNA processing| spliceosome complex
SPAC644.18c, bet3, 	ER to Golgi transport| intracellular protein transport| cytoplasmic vesicle| Golgi cis-face| TRAPP
SPAC222.08c, SPAC222.08c, 	coenzyme and prosthetic group metabolism
SPBC6B1.02, SPBC6B1.02, 	signal transduction| protein modification| actin cytoskeleton organization and biogenesis| protein amino acid phosphorylation| cell organization and biogenesis| actin cytoskeleton| actin cortical patch (sensu Fungi)| cytoskeleton| protein kinase activity
SPCC1672.01, SPCC1672.01, 	amino acid metabolism| histidine metabolism| histidinol-phosphatase activity
SPAPB18E9.01, SPAPB18E9.01, 	tRNA metabolism| methyltransferase activity
SPAC16C9.03, SPAC16C9.03, 	mRNA processing
SPBC31F10.04c, srb4, 	regulation of transcription\, DNA-dependent| transcription| mediator complex| nucleus
SPBC4C3.05c, nuc1, rpa1	transcription| cell organization and biogenesis| DNA-directed RNA polymerase I complex| nucleolus| nucleus| DNA-directed RNA polymerase activity
SPCC338.04, cid2, 	cell cycle checkpoint| DNA replication checkpoint| S phase of mitotic cell cycle| DNA replication| regulation of cell cycle
SPCC320.12, SPCC320.12, SPCC330.17c	proteolysis and peptidolysis
SPAC15E1.08, SPAC15E1.08, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| protein modification| transcription| DNA packaging| cell organization and biogenesis| chromatin silencing| chromatin| acetyltransferase activity
SPAC14C4.09, SPAC14C4.09, 	carbohydrate metabolism| membrane
SPBC725.16, res1, sct1	traversing start control point of mitotic cell cycle| regulation of transcription\, DNA-dependent| cell cycle| S phase of mitotic cell cycle| G1 phase of mitotic cell cycle| transcription| regulation of mitosis| cell organization and biogenesis| mitotic cell cycle| DNA binding
SPBC16G5.18, erg24, 	steroid metabolism| ergosterol biosynthesis| lipid metabolism| membrane
SPCC1450.14c, SPCC1450.14c, 	protein folding| endoplasmic reticulum
SPAC26F1.01, sec74, SPAPJ691.01c	vesicle-mediated transport| signal transduction| intracellular protein transport| cytoplasmic vesicle| vesicle coat
SPAC18B11.04, ncs1, 	cell ion homeostasis| conjugation with cellular fusion| signal transduction
SPAC1786.01c, SPAC1786.01c, SPAC31G5.20c	lipid metabolism
SPAC3H1.12c, snt2, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| transcription| DNA packaging| cell organization and biogenesis| chromatin remodeling complex| Lid2 complex| chromatin| nucleus
SPBC691.04, SPBC691.04, 	helicase activity
SPBC21B10.06c, SPBC21B10.06c, 	membrane
SPCC1450.05c, rox3, 	regulation of transcription\, DNA-dependent| transcription| mediator complex| nucleus
SPBP4H10.09, rsv1, 	regulation of transcription\, DNA-dependent| transcription| nucleus
SPAC1556.05c, SPAC1556.05c, 	ribosome biogenesis| rRNA processing| RNA processing| cell organization and biogenesis| nucleolus
SPBC3E7.01, fab1, ste12, SPBC6B1.11c	vacuole organization and biogenesis| response to stress| conjugation with cellular fusion| signal transduction| lipid metabolism| intracellular protein transport| cell organization and biogenesis| 1-phosphatidylinositol-4-phosphate 5-kinase activity
SPAC4A8.12c, sds22, 	signal transduction| protein modification| phosphoprotein phosphatase activity
SPBC1539.10, SPBC1539.10, 	ribosome biogenesis| cell organization and biogenesis| nucleolus
SPAC24B11.10c, cfh1, 	cell organization and biogenesis
SPAC23A1.08c, rpl34, 	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPAC630.03, arp3, act2	cytoskeleton organization and biogenesis| actin filament-based process| M phase of mitotic cell cycle| actin cytoskeleton organization and biogenesis| endocytosis| intracellular protein transport| cell organization and biogenesis| establishment and/or maintenance of cell polarity| actin cytoskeleton| actin cortical patch (sensu Fungi)| cytoskeleton| Arp2/3 protein complex
SPBC215.13, SPBC215.13, 	cell surface
SPBC215.13, SPBC215.13, 	phosphatidylcholine biosynthesis| phosphatidyl-N-methylethanolamine N-methyltransferase activity| endoplasmic reticulum membrane| protein modification| lipid metabolism| endoplasmic reticulum| membrane| endoplasmic reticulum membrane| phosphatidyl-N-methylethanolamine N-methyltransferase activity| methyltransferase activity
SPAC4A8.04, isp6, prb1	conjugation with cellular fusion| proteolysis and peptidolysis
SPCC1494.05c, ubp12, 	protein modification| proteolysis and peptidolysis
SPAC24B11.11c, sid2, 	cell cycle| barrier septum formation| cytokinesis| signal transduction| protein modification| M phase of mitotic cell cycle| protein amino acid phosphorylation| cell organization and biogenesis| spindle pole body| protein kinase activity
SPBC1703.12, ubp9, 	proteolysis and peptidolysis
SPAC3H8.07c, SPAC3H8.07c, 	protein folding| cell organization and biogenesis| prefoldin complex
SPAC3G9.14, sak1, 	regulation of mitotic cell cycle| mitotic cell cycle| DNA binding
SPBPB2B2.01, SPBPB2B2.01, 	transport| amino acid transport| membrane
SPCC1840.08c, SPCC1840.08c, 	protein folding| endoplasmic reticulum| membrane| endoplasmic reticulum membrane| oxidoreductase activity
SPAC664.03, SPAC664.03, 	regulation of transcription from Pol II promoter| transcription| nucleus
SPAC343.01c, SPAC343.01c, 	steroid metabolism| lipid metabolism| coenzyme and prosthetic group metabolism| phosphomevalonate kinase activity
SPBC32F12.01c, SPBC32F12.01c, SPBC685.10c	lipid metabolism| sphingolipid metabolism| mitochondrion
SPAC12B10.12c, rhp41, rhp4a	DNA repair| nucleotide-excision repair| nucleotide excision repair complex
SPBC1921.05, ape1, 	proteolysis and peptidolysis
SPAC1805.15c, pub2, 	signal transduction| ubiquitin ligase complex
SPCC1450.04, tef5, 	protein biosynthesis| eukaryotic 48S initiation complex
SPAC3H1.14, SPAC3H1.14, SPAC9G1.01	membrane
SPBC30D10.17c, SPBC30D10.17c, 	cell wall organization and biogenesis| cell organization and biogenesis
SPBC146.07, prp2, mis11	mRNA processing| spliceosome complex| RNA binding
SPCC737.05, SPCC737.05, 	membrane| peroxisomal membrane
SPMIT.11, cox2, P21534	energy pathways| electron transport| mitochondrial electron transport chain| respiratory chain complex IV (sensu Eukarya)| mitochondrial inner membrane| mitochondrial membrane
SPCP1E11.10, SPCP1E11.10, 	cell organization and biogenesis
SPBC1711.06, rpl401, rpl4-1, rpl4	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPAC6F12.16c, SPAC6F12.16c, 	RNA localization| transcription| helicase activity
SPBC649.02, rps1902, rps19-2, rps19	protein biosynthesis| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex| cytosolic ribosome (sensu Eukarya)
SPBC6B1.08c, SPBC6B1.08c, 	establishment and/or maintenance of chromatin architecture| protein modification| DNA packaging| cell organization and biogenesis| chromatin| acetyltransferase activity
SPAC1A6.04c, plb1, 	response to stress| conjugation with cellular fusion| lipid metabolism| lysophospholipase activity
SPAC23A1.10, ef1a-b, 	protein biosynthesis
SPAC3H8.08c, SPAC3H8.08c, 	regulation of transcription\, DNA-dependent| transcription| transcription regulator activity
SPBC800.08, SPBC800.08, 	protein biosynthesis| eukaryotic translation initiation factor 3 complex| eukaryotic 48S initiation complex| RNA binding
SPAC10F6.08c, SPAC10F6.08c, 	regulation of transcription\, DNA-dependent| transcription| nucleus| DNA binding
SPAC12B10.01c, SPAC12B10.01c, SPAC31F12.02c, SPAC637.15c	proteolysis and peptidolysis| cell organization and biogenesis| ubiquitin ligase complex| ubiquitin-protein ligase activity
SPBC1604.01, SPBC1604.01, SPBC1677.01c	sulfur metabolism| protein modification
SPAPJ691.03, SPAPJ691.03, 	membrane
SPCC18.04, pof6, 	cytokinesis| M phase of mitotic cell cycle| intracellular protein transport| proteolysis and peptidolysis| ubiquitin ligase complex
SPBC15D4.11c, SPBC15D4.11c, 	cell surface
SPBP4H10.19c, SPBP4H10.19c, 	intracellular protein transport| cell organization and biogenesis
SPAC27D7.03c, mei2, 	meiosis| conjugation with cellular fusion| proteolysis and peptidolysis| RNA binding
SPBC12D12.02c, cdm1, 	S phase of mitotic cell cycle| DNA replication| replication fork
SPAC30D11.13, hus5, ubc9	cell cycle| S phase of mitotic cell cycle| DNA replication| regulation of mitotic cell cycle| proteolysis and peptidolysis| mitotic cell cycle| ubiquitin conjugating enzyme activity| ubiquitin-protein ligase activity
SPAC167.07c, SPAC167.07c, SPAC57A7.03c	cell organization and biogenesis| ubiquitin ligase complex| ubiquitin-protein ligase activity
SPAC13G6.08, SPAC13G6.08, 	S phase of mitotic cell cycle
SPAC13G6.08, SPAC13G6.08, 	vitamin B2 and derivative metabolism| riboflavin synthase activity| coenzyme and prosthetic group metabolism| riboflavin synthase activity
SPBC1718.03, ker1, 	transcription| nucleolus| nucleus
SPAC144.04c, spe1, 	amino acid metabolism| proline metabolism| arginine metabolism| ornithine decarboxylase activity
SPCC24B10.06, SPCC24B10.06, 	cell surface
SPCC16C4.01, sif2, SPCC5E4.09	cell cycle| cell organization and biogenesis| membrane| spindle pole body
SPAC22E12.13c, rpl2403, rpl24-3	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPAC22E12.13c, rpl2403, rpl24-3	citrate metabolism| glutamate metabolism| propionate metabolism| tricarboxylic acid cycle| aconitate hydratase activity| cytosol| mitochondrial matrix| amino acid metabolism| carbohydrate catabolism| glutamate metabolism| energy pathways| TCA intermediate metabolism| main pathways of carbohydrate metabolism| cytosol| mitochondrion| aconitate hydratase activity
SPAC1B3.05, SPAC1B3.05, 	regulation of transcription\, DNA-dependent| transcription| CCR4-NOT core complex
SPCC550.11, SPCC550.11, 	RNA localization| mRNA processing| transcription| RNA processing| nuclear pore
SPAC6G9.10c, sen1, 	S phase of mitotic cell cycle| RNA processing| tRNA metabolism| tRNA splicing| helicase activity
SPAC6G10.07, SPAC6G10.07, 	RNA processing
SPBC839.09c, SPBC839.09c, 	protein biosynthesis| mitochondrial ribosome
SPBC2D10.13, est1, 	telomere maintenance| establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| transcription| DNA packaging| cell organization and biogenesis| chromatin silencing| chromatin
SPBC2G2.07c, SPBC2G2.07c, 	protein biosynthesis| mitochondrial ribosome
SPAC16E8.02, SPAC16E8.02, 	membrane
SPBC16C6.09, SPBC16C6.09, 	protein modification| carbohydrate metabolism| endoplasmic reticulum| membrane| dolichyl-phosphate-mannose-protein mannosyltransferase activity
SPBC839.12, rpc31, 	transcription| DNA-directed RNA polymerase III complex
SPBC83.04, apc15, 	cell cycle| anaphase-promoting complex| ubiquitin ligase complex| nucleus
SPAC25G10.07c, cut7, 	cell cycle| cell organization and biogenesis| cytoskeleton| spindle pole body| microtubule organizing center| microtubule cytoskeleton
SPAC23G3.12c, SPAC23G3.12c, 	signal transduction| proteolysis and peptidolysis
SPAC23G3.05c, SPAC23G3.05c, 	cytoskeleton organization and biogenesis| signal transduction| cell organization and biogenesis| establishment and/or maintenance of cell polarity| membrane
SPAC56E4.07, SPAC56E4.07, 	acetyltransferase activity
SPCC1906.04, wtf20, 	membrane
SPAC6B12.13, SPAC6B12.13, 	signal transduction| protein modification| phosphoprotein phosphatase activity
SPBP22H7.09c, SPBP22H7.09c, 	cell cycle| M phase of mitotic cell cycle| chromosome segregation| cell organization and biogenesis| kinetochore
SPCC1682.02c, mcm3, 	S phase of mitotic cell cycle| DNA replication| replication fork
SPCC1322.16, SPCC1322.16, 	proteolysis and peptidolysis| mitochondrion
SPCC63.02c, SPCC63.02c, 	carbohydrate metabolism| cell surface| alpha-amylase activity
SPBC365.13c, hba1, caf1	nucleocytoplasmic transport| response to stress| protein targeting| nucleoplasm| nucleus
SPAC13D6.04c, SPAC13D6.04c, 	proteolysis and peptidolysis| cell organization and biogenesis
SPAC20G4.01, SPAC20G4.01, SPAC22F8.13	regulation of transcription\, DNA-dependent| transcription| CCR4-NOT core complex| ATPase activity
SPAC4H3.09, SPAC4H3.09, 	fatty acid biosynthesis| lipid metabolism| mitochondrion
SPCC1682.14, rpl1902, rpl19-2	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPBC646.11, cct6, 	microtubule-based process| protein folding| tubulin folding| cell organization and biogenesis| actin cytoskeleton| cytoskeleton| chaperonin-containing T-complex| microtubule organizing center| microtubule cytoskeleton| chaperone activity
SPAPB1A11.02, SPAPB1A11.02, 	lipid metabolism
SPBC211.08c, SPBC211.08c, 	RNA processing
SPBP8B7.13, SPBP8B7.13, 	membrane
SPCC1919.05, SPCC1919.05, 	mRNA processing
SPAC20G8.08c, SPAC20G8.08c, 	establishment and/or maintenance of chromatin architecture| DNA packaging| cell organization and biogenesis| chromatin remodeling complex| chromatin| helicase activity
SPBC15D4.01c, SPBC15D4.01c, SPBC2D10.21c	cell organization and biogenesis| cytoskeleton| microtubule organizing center| microtubule cytoskeleton
SPAC1B1.02c, SPAC1B1.02c, 	NAD+ kinase activity
SPAP7G5.03, SPAP7G5.03, 	membrane
SPAC5H10.03, SPAC5H10.03, 	carbohydrate catabolism| energy pathways| glycolysis| carbohydrate metabolism| main pathways of carbohydrate metabolism
SPCC1223.06, tea1, 	cytoskeleton organization and biogenesis| microtubule-based process| cytokinesis| M phase of mitotic cell cycle| cell organization and biogenesis| establishment and/or maintenance of cell polarity| cytoskeleton| microtubule organizing center| microtubule cytoskeleton
SPBC1198.06c, SPBC1198.06c, 	cytoskeleton organization and biogenesis| establishment and/or maintenance of cell polarity
SPBC2A9.12, orc6, SPBC2D10.02	S phase of mitotic cell cycle| DNA replication| replication fork
SPBC1703.13c, SPBC1703.13c, 	transport| mitochondrial transport| membrane| mitochondrial membrane
SPCC18B5.04, SPCC18B5.04, 	protein biosynthesis| mitochondrial ribosome
SPAC2F3.11, SPAC2F3.11, 	phosphate metabolism| exopolyphosphatase activity
SPBC409.07c, wis1, spc2, smf2	MAPKKK cascade| protein kinase cascade| cell cycle| signal transduction| protein modification| regulation of mitotic cell cycle| protein amino acid phosphorylation| mitotic cell cycle| protein kinase activity
SPAC821.07c, SPAC821.07c, 	regulation of transcription\, DNA-dependent| transcription| nucleus| transcription regulator activity
SPAC4A8.13c, pts1, 	proteolysis and peptidolysis| proteasome complex (sensu Eukarya)
SPCC622.11, SPCC622.11, 	membrane
SPCC622.11, SPCC622.11, 	cohesin complex| meiosis| cell cycle| S phase of mitotic cell cycle| DNA recombination| chromosome segregation| cell organization and biogenesis| meiotic cohesin complex| nucleus
SPBC887.02, SPBC887.02, 	transport| anion transport| membrane
SPAPB1A10.09, SPAPB1A10.09, 	cytokinesis| M phase of mitotic cell cycle| cell organization and biogenesis| cytoskeleton| microtubule organizing center| microtubule cytoskeleton
SPCC63.10c, SPCC63.10c, 	protein modification| lipid metabolism
SPCC1840.10, lsm8, 	rRNA processing| mRNA processing| RNA processing
SPAC12G12.08, SPAC12G12.08, 	protein biosynthesis| mitochondrial ribosome
SPAC1687.16c, SPAC1687.16c, 	ergosterol biosynthesis| lipid metabolism
SPAC823.06, taf3, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| regulation of transcription from Pol II promoter| transcription| DNA packaging| cell organization and biogenesis| transcription factor TFIID complex| transcription factor complex| chromatin| nucleus
SPAC4F10.10c, SPAC4F10.10c, 	N-linked glycosylation| protein modification| carbohydrate metabolism| Golgi apparatus
SPBC115.02c, SPBC115.02c, 	ATPase activity
SPAC9G1.09, sid1, 	barrier septum formation| cytokinesis| signal transduction| protein modification| M phase of mitotic cell cycle| protein amino acid phosphorylation| protein kinase activity
SPAC1A6.05c, SPAC1A6.05c, 	lipid metabolism
SPCC126.10, iah1, 	energy pathways| carbohydrate metabolism| main pathways of carbohydrate metabolism
SPCC1919.08c, SPCC1919.08c, 	protein biosynthesis| mitochondrial ribosome
SPAC637.06, SPAC637.06, 	protein amino acid galactosylation| protein modification| cell surface
SPBC342.01c, SPBC342.01c, SPBC3F6.06c	protein modification
SPBC11B10.04c, SPBC11B10.04c, 	protein biosynthesis| mitochondrial ribosome
SPBC800.14c, SPBC800.14c, 	membrane
SPAC29A4.10, rrn5, 	transcription from Pol I promoter| establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| transcription| DNA packaging| nucleolus| RNA polymerase I upstream activating factor complex| nucleus| DNA binding
SPAC29B12.14c, SPAC29B12.14c, 	transport| nucleotide transport| membrane
SPBC19C2.08, SPBC19C2.08, 	mRNA processing| spliceosome complex
SPBC13G1.12, SPBC13G1.12, 	intracellular protein transport
SPBC1A4.03c, top2, 	establishment and/or maintenance of chromatin architecture| DNA packaging| DNA topoisomerase (ATP-hydrolyzing) activity
SPCC1393.06c, SPCC1393.06c, 	rRNA processing| RNA processing
SPBC1773.08c, SPBC1773.08c, 	protein amino acid glycosylation| protein modification| carbohydrate metabolism
SPBC2G2.05, rpl1603, rpl16c	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPAC29A4.20, SPAC29A4.20, 	establishment and/or maintenance of chromatin architecture| protein modification| transcription| DNA packaging| cell organization and biogenesis| chromatin| nucleus| acetyltransferase activity
SPBC21C3.08c, SPBC21C3.08c, 	amino acid metabolism| proline metabolism| arginine metabolism| ornithine-oxo-acid transaminase activity
SPBP16F5.07, apm1, 	vesicle-mediated transport| intracellular protein transport| cytoplasmic vesicle
SPBC29B5.01, atf1, mts1, sss1, gad7	MAPKKK cascade| meiosis| establishment and/or maintenance of chromatin architecture| protein kinase cascade| regulation of transcription\, DNA-dependent| response to stress| conjugation with cellular fusion| DNA recombination| signal transduction| transcription| DNA packaging| cell organization and biogenesis| chromatin| nucleus| DNA binding
SPAC806.03c, rps2601, rps26-1, rps26	protein biosynthesis| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex| cytosolic ribosome (sensu Eukarya)
SPAC23E2.03c, ste7, 	meiosis| conjugation with cellular fusion
SPBC215.14c, SPBC215.14c, 	vesicle-mediated transport| intracellular protein transport| cytoplasmic vesicle
SPBP23A10.04, apc2, 	cell cycle| proteolysis and peptidolysis| anaphase-promoting complex| ubiquitin ligase complex| nucleus
SPAC652.01, SPAC652.01, 	membrane
SPBC4C3.10c, SPBC4C3.10c, 	proteolysis and peptidolysis| proteasome complex (sensu Eukarya)
SPAC22A12.08c, SPAC22A12.08c, 	lipid metabolism| mitochondrion
SPAC31A2.08, SPAC31A2.08, 	protein biosynthesis| mitochondrial ribosome
SPBP8B7.27, SPBP8B7.27, 	ubiquitin ligase complex| ubiquitin-protein ligase activity
SPAC57A10.11c, SPAC57A10.11c, 	mitochondrion
SPAC17G6.08, pep7, vac1	regulation of transcription\, DNA-dependent| signal transduction| lipid metabolism
SPAC23C11.03, SPAC23C11.03, 	rRNA processing| RNA processing| nucleolus
SPAC22H10.04, SPAC22H10.04, 	signal transduction| protein modification| phosphoprotein phosphatase activity
SPCC126.13c, SPCC126.13c, 	regulation of transcription\, DNA-dependent| transcription
SPBC337.06c, cwf15, 	mRNA processing| spliceosome complex
SPAC1486.02c, SPAC1486.02c, 	membrane
SPBC1289.01c, cfh3, SPBC1539.11c	cytokinesis| M phase of mitotic cell cycle| cell organization and biogenesis
SPAC328.09, SPAC328.09, 	transport| mitochondrial transport| membrane| mitochondrial membrane
SPAC328.09, SPAC328.09, 	prolyl-tRNA aminoacylation| proline-tRNA ligase activity| cellular_component unknown| tRNA metabolism| proline-tRNA ligase activity
SPAC1952.01, SPAC1952.01, SPAC1B3.19	lipid metabolism| GPI anchor biosynthesis| membrane
SPAC3F10.12c, SPAC3F10.12c, 	regulation of transcription\, DNA-dependent| cell cycle| transcription| M phase of mitotic cell cycle| kinetochore| DNA binding
SPCC24B10.02c, SPCC24B10.02c, 	NAD+ kinase activity
SPAC186.09, SPAC186.09, 	pyruvate metabolism
SPBC359.05, SPBC359.05, 	transport| membrane
SPAC11G7.01, SPAC11G7.01, 	membrane| cell surface
SPCC23B6.01c, SPCC23B6.01c, 	ergosterol biosynthesis| lipid metabolism
SPBC23G7.11, SPBC23G7.11, 	DNA repair| nucleotide-excision repair| nucleotide excision repair complex| alkylbase DNA N-glycosylase activity
SPAC29E6.05c, SPAC29E6.05c, SPAC30.09c	protein-methionine-S-oxide reductase activity
SPAC3G6.01, hrp3, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| transcription| DNA packaging| cell organization and biogenesis| chromatin silencing| chromatin remodeling complex| chromatin| nucleus| helicase activity| ATPase activity
SPAC22F3.02, atf31, 	meiosis| regulation of transcription\, DNA-dependent| regulation of transcription from Pol II promoter| transcription| nucleus| transcription factor activity
SPBC1773.04, SPBC1773.04, 	coenzyme and prosthetic group metabolism| cinnamoyl-CoA reductase activity
SPBC776.09, ste13, 	response to stress| conjugation with cellular fusion| RNA processing| cytoplasm| helicase activity
SPBC106.03, SPBC106.03, 	membrane
SPAC26H5.06, pot1, 	telomere maintenance| cell organization and biogenesis| nucleus| DNA binding
SPAC31G5.13, rpn11, pad1, sks1, bfr2	protein modification| proteolysis and peptidolysis| cell organization and biogenesis| proteasome complex (sensu Eukarya)
SPCC1795.06, map2, 	conjugation with cellular fusion
SPAC1F7.03, SPAC1F7.03, 	membrane
SPBP8B7.07c, SPBP8B7.07c, 	regulation of transcription\, DNA-dependent| transcription| cell organization and biogenesis| chromatin| methyltransferase activity
SPAC9G1.11c, spn4, 	cytokinesis| M phase of mitotic cell cycle| GTP binding
SPCC777.02, SPCC777.02, 	regulation of transcription\, DNA-dependent| transcription| transcription regulator activity
SPAC23C4.09c, SPAC23C4.09c, 	DNA binding
SPAC1420.04c, cox1101, cox11, SPAPB17E12.01c	energy pathways| electron transport| cell organization and biogenesis| membrane| mitochondrial inner membrane| mitochondrial membrane
SPBC106.10, pka1, tpk, git6	meiosis| protein kinase cascade| regulation of transcription\, DNA-dependent| conjugation with cellular fusion| signal transduction| protein modification| transcription| protein amino acid phosphorylation| protein kinase activity
SPAC644.07, SPAC644.07, 	cell ion homeostasis| energy pathways| electron transport| protein folding| cell organization and biogenesis| membrane| mitochondrial inner membrane| mitochondrial membrane| mitochondrion| ATPase activity
SPBC1539.04, SPBC1539.04, 	membrane
SPBC119.09c, SPBC119.09c, 	endoplasmic reticulum| membrane| endoplasmic reticulum membrane
SPCC790.02, pep3, vps18	cytoskeleton organization and biogenesis| vacuole organization and biogenesis| vacuole fusion\, non-autophagic| intracellular protein transport| cell organization and biogenesis| establishment and/or maintenance of cell polarity| vacuolar membrane| membrane| ubiquitin ligase complex| ubiquitin-protein ligase activity
SPBC1734.02c, cdc27, SPBC337.18c	telomere maintenance| cell cycle| S phase of mitotic cell cycle| DNA replication| G2/M transition of mitotic cell cycle| cell organization and biogenesis| replication fork
SPAC3G9.15c, SPAC3G9.15c, 	nucleolus
SPBC21B10.09, SPBC21B10.09, 	lipid metabolism
SPBC8D2.19, mde3, 	meiosis| signal transduction| protein modification| protein amino acid phosphorylation| protein kinase activity
SPBC28F2.09, SPBC28F2.09, 	regulation of transcription\, DNA-dependent| transcription| transcription factor TFIIA complex| transcription factor complex| chromatin| nucleus
SPBC4.05, mlo2, 	regulation of transcription\, DNA-dependent| cell cycle| transcription| chromosome segregation| cell organization and biogenesis
SPBC646.04, pla1, 	mRNA processing| RNA processing| mRNA polyadenylation
SPBC1718.06, msp1, 	mitochondrion organization and biogenesis| mitochondrial genome maintenance| cell organization and biogenesis| mitochondrial inner membrane| mitochondrial membrane| GTPase activity
SPBC29A3.07c, SPBC29A3.07c, 	RNA binding
SPCC306.09c, cap1, cap	signal transduction| actin cytoskeleton organization and biogenesis| cell organization and biogenesis| actin cytoskeleton| actin cortical patch (sensu Fungi)| cytoskeleton
SPAC977.17, SPAC977.17, 	transport| membrane
SPAC3H1.11, SPAC3H1.11, 	regulation of transcription\, DNA-dependent| transcription
SPBC36.07, SPBC36.07, 	transcription| chromatin| nucleus
SPBC543.03c, pku80, 	telomere maintenance| S phase of mitotic cell cycle| DNA repair| double-strand break repair| cell organization and biogenesis| DNA binding| helicase activity
SPBC4F6.14, SPBC4F6.14, 	rRNA processing| RNA processing| RNA binding
SPBC317.01, pvg4, 	regulation of transcription\, DNA-dependent| cell wall organization and biogenesis| transcription| cell wall biosynthesis| cell organization and biogenesis| nucleus
SPBC13G1.05, SPBC13G1.05, 	membrane
SPBC215.12, cwf10, spef2, snu114	mRNA processing| RNA processing| spliceosome complex
SPBP8B7.30c, SPBP8B7.30c, 	regulation of transcription\, DNA-dependent| transcription| membrane| nucleus| transcription regulator activity
SPAC5H10.12c, SPAC5H10.12c, 	protein modification
SPAC23H3.08c, bub3, 	spindle assembly| cell cycle| cell organization and biogenesis| regulation of cell cycle
SPAC15A10.08, ain1, 	cytoskeleton organization and biogenesis| cytokinesis| M phase of mitotic cell cycle| chromosome condensation| actin cytoskeleton organization and biogenesis| cell organization and biogenesis| actin cytoskeleton| cytoskeleton
SPAC19E9.01c, nup40, 	nucleocytoplasmic transport| cell cycle| protein targeting| cell organization and biogenesis| spindle pole body| nucleus| nuclear pore
SPAC15A10.04c, zpr1, 	protein biosynthesis
SPBC56F2.01, pof12, 	proteolysis and peptidolysis| ubiquitin ligase complex
SPAC20G8.07c, SPAC20G8.07c, 	lipid metabolism
SPAC1039.04, SPAC1039.04, 	transport| membrane
SPAPB1E7.08c, SPAPB1E7.08c, 	transport| membrane
SPBC21B10.13c, SPBC21B10.13c, 	regulation of transcription\, DNA-dependent| transcription| DNA binding
SPAC144.03, ade2, min10, min3	purine nucleotide metabolism| adenylosuccinate synthase activity
SPAC25H1.02, jmj1, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| transcription| DNA packaging| cell organization and biogenesis| chromatin
SPBC8E4.01c, SPBC8E4.01c, SPBP4G3.01	transport| anion transport| membrane
SPAC1834.05, SPAC1834.05, 	N-linked glycosylation| protein modification| carbohydrate metabolism| membrane
SPAC1834.05, SPAC1834.05, 	kinetochore| mitotic chromosome segregation| meiosis I\, chromosome segregation| meiosis| establishment and/or maintenance of chromatin architecture| cell cycle| DNA packaging| chromosome segregation| cell organization and biogenesis| chromatin| nucleus
SPAC186.02c, SPAC186.02c, 	oxidoreductase activity
SPBPJ4664.06, gpt1, 	protein modification| carbohydrate metabolism| endoplasmic reticulum| cell surface
SPAC4C5.02c, ryh1, hos1	response to stress| GTP binding
SPAC13C5.01c, SPAC13C5.01c, SPAC31A2.17c	proteolysis and peptidolysis| proteasome complex (sensu Eukarya)
SPAC15A10.13, SPAC15A10.13, 	signal transduction| protein modification| protein amino acid phosphorylation| protein kinase activity
SPAC1610.03c, crp79, meu5	nucleocytoplasmic transport| meiosis| RNA localization| transcription| protein targeting| cytoplasm| RNA binding
SPAC977.16c, dak2, 	carbohydrate metabolism| glycerone kinase activity
SPBC1734.06, rhp18, 	S phase of mitotic cell cycle| response to stress| DNA repair| ubiquitin ligase complex| DNA binding| ubiquitin-protein ligase activity
SPAC22A12.07c, SPAC22A12.07c, 	protein modification| carbohydrate metabolism| dolichyl-phosphate-mannose-protein mannosyltransferase activity
SPAC1B3.07c, vps28, 	intracellular protein transport
SPAC4F8.15, itr1, SPAC7D4.01	sporulation (sensu Fungi)| conjugation with cellular fusion| signal transduction| lipid metabolism
SPAC1805.05, cki3, 	signal transduction| protein modification| protein amino acid phosphorylation| protein kinase CK2 complex| protein kinase activity
SPAC688.02c, SPAC688.02c, 	cell cycle| chromosome segregation| cell organization and biogenesis| spindle pole body
SPBC17A3.02, SPBC17A3.02, 	membrane
SPBC409.19c, SPBC409.19c, 	protein targeting| membrane| mitochondrial outer membrane| mitochondrial membrane
SPCC10H11.02, cwf23, SPCP31B10.01	protein folding| spliceosome complex
SPAC1B1.03c, SPAC1B1.03c, 	nucleocytoplasmic transport| protein targeting| nucleus| nuclear pore
SPCC1223.11, ptc2, 	mRNA processing| signal transduction| protein modification| phosphoprotein phosphatase activity
SPCC1450.07c, SPCC1450.07c, 	D-amino-acid oxidase activity
SPCC1450.07c, SPCC1450.07c, 	tyrosyl-tRNA aminoacylation| tyrosine-tRNA ligase activity| mitochondrion| tRNA metabolism| mitochondrion| tyrosine-tRNA ligase activity
SPBC947.12, kms2, 	meiosis| membrane| cytoplasm| nucleus
SPCC737.07c, SPCC737.07c, 	cell cycle| S phase of mitotic cell cycle| DNA replication| helicase activity
SPBC17D11.04c, SPBC17D11.04c, 	regulation of transcription\, DNA-dependent| transcription
SPCC330.02, SPCC330.02, SPCC613.14	DNA repair| nucleotide excision repair complex
SPCC576.09, rps20, 	protein biosynthesis| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex| cytosolic ribosome (sensu Eukarya)
SPBC36.06c, SPBC36.06c, 	steroid metabolism| ergosterol biosynthesis| lipid metabolism
SPCC737.08, SPCC737.08, 	nucleocytoplasmic transport| rRNA processing| RNA processing| ATPase activity
SPAC13D6.03c, SPAC13D6.03c, 	tRNA metabolism| methyltransferase activity
SPBC215.09c, SPBC215.09c, 	ergosterol biosynthesis| lipid metabolism| acetyltransferase activity| acetyl-CoA C-acetyltransferase activity
SPAC19A8.09, SPAC19A8.09, 	membrane
SPAC644.09, SPAC644.09, 	coenzyme and prosthetic group metabolism
SPBC25H2.06c, hrf1, 	ER to Golgi transport| intracellular protein transport| COPII-coated vesicle| cytoplasmic vesicle| Golgi vesicle| COPI-coated vesicle
SPCC1672.02c, sap1, 	meiosis| establishment and/or maintenance of chromatin architecture| DNA packaging| cell organization and biogenesis| chromatin| nucleus| DNA binding
SPBC4F6.15c, swi10, 	meiosis| mismatch repair| DNA repair| nucleotide-excision repair| DNA recombination| mating-type switching/recombination| nucleotide excision repair complex
SPAC18G6.15, mal3, 	cytoskeleton organization and biogenesis| spindle assembly| microtubule-based process| chromosome segregation| cell organization and biogenesis| microtubule cytoskeleton organization and biogenesis| establishment and/or maintenance of cell polarity| microtubule| cytoskeleton| microtubule organizing center| microtubule cytoskeleton
SPBC1271.09, SPBC1271.09, 	transport| lipid metabolism| membrane
SPBC2A9.04c, SPBC2A9.04c, 	ubiquitin ligase complex| ubiquitin-protein ligase activity
SPBC27.06c, SPBC27.06c, 	membrane
SPCC550.12, arp6, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| transcription| DNA packaging| cell organization and biogenesis| chromatin silencing| actin cytoskeleton| cytoskeleton| chromatin| nucleus
SPCC16A11.12c, ubp1, 	proteolysis and peptidolysis| ubiquitin thiolesterase activity
SPCC16A11.12c, ubp1, 	phosphatidylcholine biosynthesis| phosphatidylserine decarboxylase activity| mitochondrial inner membrane| lipid metabolism| mitochondrial inner membrane| mitochondrial membrane| phosphatidylserine decarboxylase activity
SPAC18G6.05c, SPAC18G6.05c, 	protein biosynthesis
SPAC18G6.05c, SPAC18G6.05c, 	tricarboxylic acid cycle| citrate metabolism| ATP catabolism| acetyl-CoA biosynthesis| fatty acid biosynthesis| ATP citrate synthase activity| cytoplasm| fatty acid biosynthesis| carbohydrate catabolism| energy pathways| TCA intermediate metabolism| lipid metabolism| main pathways of carbohydrate metabolism| coenzyme and prosthetic group metabolism| cytoplasm| ATP citrate synthase activity
SPAC823.08c, SPAC823.08c, 	rRNA processing| RNA processing| helicase activity
SPAC2C4.06c, SPAC2C4.06c, 	methyltransferase activity
SPAC926.05c, SPAC926.05c, 	protein folding
SPAC2F7.05c, SPAC2F7.05c, 	protein biosynthesis
SPAC2F7.05c, SPAC2F7.05c, 	glycolysis| fructose-bisphosphate aldolase activity| cytoplasm| carbohydrate catabolism| energy pathways| glycolysis| main pathways of carbohydrate metabolism| cytoplasm| fructose-bisphosphate aldolase activity
SPCC1672.11c, SPCC1672.11c, 	membrane| ATPase activity
SPAC19G12.03, SPAC19G12.03, 	carbohydrate metabolism
SPBC11C11.01, SPBC11C11.01, SPBC17D1.08	RNA binding
SPBC1718.02, SPBC1718.02, 	regulation of transcription\, DNA-dependent| transcription
SPAC1142.04, SPAC1142.04, 	ribosome biogenesis| cell organization and biogenesis| nucleus
SPAC1142.04, SPAC1142.04, 	acetyl-CoA biosynthesis from pyruvate| mitochondrion| pyruvate dehydrogenase complex (sensu Eukarya)| coenzyme and prosthetic group metabolism| mitochondrion| oxidoreductase activity
SPCC1919.02, SPCC1919.02, 	proteolysis and peptidolysis| endoplasmic reticulum| endoplasmic reticulum membrane
SPAC9.02c, SPAC9.02c, 	protein modification| acetyltransferase activity
SPAC30.04c, SPAC30.04c, 	transport| membrane
SPAC6G9.04, SPAC6G9.04, 	signal transduction
SPBC1683.03c, SPBC1683.03c, 	transport| membrane
SPBC16H5.09c, SPBC16H5.09c, 	protein amino acid glycosylation| protein modification| carbohydrate metabolism
SPAC1783.07c, pap1, caf3	nucleocytoplasmic transport| regulation of transcription\, DNA-dependent| response to stress| transcription| protein targeting| cytoplasm| nucleus
SPAC10F6.06, vip1, 	RNA binding
SPBC1348.08c, SPBC1348.08c, SPAC1348.08c	cell surface
SPAC212.04c, SPAC212.04c, 	membrane| cell surface
SPCC1919.15, SPCC1919.15, SPCC790.01	establishment and/or maintenance of chromatin architecture| protein modification| DNA packaging| cell organization and biogenesis| chromatin| ubiquitin ligase complex| ubiquitin-protein ligase activity
SPBC36B7.08c, SPBC36B7.08c, 	establishment and/or maintenance of chromatin architecture| DNA packaging| cell organization and biogenesis| chromatin
SPAC30C2.04, SPAC30C2.04, 	glutamate metabolism| protein biosynthesis
SPAC11H11.02c, SPAC11H11.02c, 	membrane
SPAC19D5.05c, SPAC19D5.05c, 	rRNA processing| RNA processing| nucleolus
SPAC14C4.03, mek1, 	meiosis| S phase of mitotic cell cycle| DNA recombination| signal transduction| protein modification| protein amino acid phosphorylation| regulation of cell cycle| protein kinase activity
SPBC3E7.15c, SPBC3E7.15c, SPBC4F6.02c	lipid metabolism| membrane
SPCC1393.03, rps1501, rps15-1	protein biosynthesis| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex| cytosolic ribosome (sensu Eukarya)
SPAC6F6.01, SPAC6F6.01, 	transport| cation transport| membrane
SPAC17G6.15c, SPAC17G6.15c, 	transport| membrane
SPAC17G6.02c, SPAC17G6.02c, 	lipid metabolism| membrane
SPAC869.09, SPAC869.09, 	sporulation (sensu Fungi)
SPCC306.07c, SPCC306.07c, 	rRNA processing| RNA processing
SPCC1919.14c, bdp1, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| transcription from Pol III promoter| transcription| DNA packaging| transcription factor complex| nucleus| transcription factor TFIIIB complex| DNA binding
SPAC1952.05, SPAC1952.05, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| transcription| DNA packaging| SAGA complex| chromatin| nucleus| acetyltransferase activity
SPBC3B9.14c, SPBC3B9.14c, 	RNA processing| protein biosynthesis| mitochondrial ribosome| RNA binding
SPBC649.03, rhp14, 	DNA repair| nucleotide-excision repair| nucleotide excision repair complex
SPBC1683.05, SPBC1683.05, 	transport| amine/polyamine transport| membrane
SPAC1071.02, SPAC1071.02, 	regulation of transcription\, DNA-dependent| DNA repair| nucleotide-excision repair| transcription| transcription factor TFIIH complex| transcription factor complex| nucleotide excision repair complex| nucleus
SPBC16A3.14, SPBC16A3.14, 	response to stress| superoxide dismutase activity
SPAC1420.02c, cct5, 	microtubule-based process| protein folding| tubulin folding| cell organization and biogenesis| actin cytoskeleton| cytoskeleton| chaperonin-containing T-complex| microtubule organizing center| microtubule cytoskeleton
SPAC3A11.05c, kms1, 	meiosis| cell cycle| DNA recombination| cell organization and biogenesis| membrane| spindle pole body
SPCC830.03, SPCC830.03, 	establishment and/or maintenance of chromatin architecture| DNA packaging| cell organization and biogenesis| chromatin| nucleus
SPAC25B8.01, SPAC25B8.01, SPAC26H5.15	response to stress| DNA repair| lipid metabolism| membrane
SPBC27.01c, SPBC27.01c, 	endoplasmic reticulum| nuclear membrane| endoplasmic reticulum membrane
SPAC8F11.10c, pvg1, SPACUNK4.18	cell wall organization and biogenesis| cell wall biosynthesis| cell organization and biogenesis
SPAC27E2.01, SPAC27E2.01, 	alpha-amylase activity
SPBC1685.05, SPBC1685.05, 	proteolysis and peptidolysis
SPBC17G9.08c, csx2, 	signal transduction| intracellular protein transport
SPCC663.09c, SPCC663.09c, 	oxidoreductase activity
SPCC1322.14c, SPCC1322.14c, 	vacuole organization and biogenesis| vacuole fusion\, non-autophagic| phosphate metabolism| vacuolar membrane| membrane
SPAC17C9.07, SPAC17C9.07, 	protein modification| carbohydrate metabolism| membrane
SPBC1734.09, SPBC1734.09, 	transport| protein modification| amine/polyamine transport| cell organization and biogenesis| carbohydrate transport
SPCC4G3.05c, mus81, 	meiosis| S phase of mitotic cell cycle| DNA repair| nucleotide-excision repair| DNA recombination| nucleotide excision repair complex| replication fork
SPCC24B10.13, skb5, 	signal transduction
SPCC18.03, SPCC18.03, 	regulation of transcription\, DNA-dependent| transcription| ubiquitin ligase complex| ubiquitin-protein ligase activity
SPAC806.07, ndk1, 	pyrimidine base metabolism| conjugation with cellular fusion| purine nucleotide metabolism| mitochondrion| nucleoside-diphosphate kinase activity
SPBC1711.03, SPBC1711.03, 	membrane
SPAC23A1.18c, SPAC23A1.18c, 	protein biosynthesis| mitochondrial ribosome
SPCC622.08c, hta1, 	establishment and/or maintenance of chromatin architecture| DNA packaging| cell organization and biogenesis| chromatin
SPCC622.08c, hta1, 	transcription from Pol II promoter| DNA-directed RNA polymerase activity| DNA-directed RNA polymerase II\, holoenzyme| regulation of transcription from Pol II promoter| transcription| DNA-directed RNA polymerase II\, holoenzyme| nucleus| DNA-directed RNA polymerase activity
SPAC23A1.11, rpl1602, rpl16-2	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPAC6F12.07, tom20, 	mitochondrial outer membrane protein import| mitochondrial outer membrane
SPBC2G2.01c, liz1, SPBC4B4.13c	cell cycle| membrane
SPBC1773.14, arg7, 	amino acid metabolism| arginine metabolism| argininosuccinate lyase activity
SPAC11G7.02, pub1, 	signal transduction| transcription| endocytosis| intracellular protein transport| ubiquitin ligase complex| nucleus| ubiquitin-protein ligase activity
SPAC139.03, SPAC139.03, 	regulation of transcription\, DNA-dependent| transcription| transcription regulator activity
SPAC20G8.02, SPAC20G8.02, 	lipid metabolism
SPBC215.07c, SPBC215.07c, 	establishment and/or maintenance of chromatin architecture| DNA packaging| cell organization and biogenesis| chromatin
SPAC1296.03c, sxa2, 	conjugation with cellular fusion| proteolysis and peptidolysis| cell surface
SPCC613.04c, rng3, 	cytokinesis| M phase of mitotic cell cycle| chromosome condensation| cell organization and biogenesis| actin cytoskeleton| cytoskeleton| cytoplasm
SPBC21B10.10, rps402, rps4-2	protein biosynthesis| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex| cytosolic ribosome (sensu Eukarya)
SPBC83.05, SPBC83.05, 	rRNA processing| RNA processing| mitochondrial inner membrane| mitochondrial membrane| RNA binding
SPAP11E10.02c, SPAP11E10.02c, SPAPB1A10.01c	cell surface
SPCC1020.08, SPCC1020.08, 	energy pathways| electron transport| membrane
SPAC27D7.08c, SPAC27D7.08c, 	methyltransferase activity
SPCP31B10.06, SPCP31B10.06, 	signal transduction
SPAC1B2.04, cox6, 	energy pathways| electron transport| mitochondrial inner membrane| mitochondrial membrane
SPBP23A10.11c, SPBP23A10.11c, 	cell organization and biogenesis
SPAC959.08, rpl2102, rpl21-2, rpl21	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPAC7D4.02c, SPAC7D4.02c, 	signal transduction
SPBC4B4.08, ght2, 	transport| carbohydrate transport| membrane| plasma membrane
SPBP8B7.19, SPBP8B7.19, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| cell cycle| S phase of mitotic cell cycle| DNA replication| regulation of transcription from Pol II promoter| transcription| DNA packaging| cell organization and biogenesis| chromatin remodeling complex| replication fork| chromatin| nucleus
SPCC1235.08c, pdh1, 	membrane
SPBC543.09, SPBC543.09, 	energy pathways| electron transport| proteolysis and peptidolysis| cell organization and biogenesis| membrane| mitochondrial inner membrane| mitochondrial membrane| mitochondrion| ATPase activity
SPBC409.11, meu18, 	meiosis
SPBP23A10.10, SPBP23A10.10, 	signal transduction| protein modification| protein amino acid phosphorylation| protein kinase activity
SPCC757.08, SPCC757.08, 	rRNA processing| RNA processing| exosome (RNase complex)
SPCC757.08, SPCC757.08, 	tricarboxylic acid cycle| citrate metabolism| ATP catabolism| acetyl-CoA biosynthesis| fatty acid biosynthesis| ATP citrate synthase activity| cytoplasm| fatty acid biosynthesis| carbohydrate catabolism| energy pathways| TCA intermediate metabolism| lipid metabolism| main pathways of carbohydrate metabolism| cytoplasm| ATP citrate synthase activity
SPBC582.08, SPBC582.08, 	amino acid metabolism| alanine metabolism| alanine transaminase activity
SPCC613.10, qcr2, 	energy pathways| electron transport| proteolysis and peptidolysis| membrane| mitochondrial inner membrane| mitochondrial membrane| mitochondrion| ubiquinol-cytochrome-c reductase activity
SPAP27G11.06c, SPAP27G11.06c, 	vesicle-mediated transport| intracellular protein transport| cytoplasmic vesicle
SPAC222.16c, csn3, SPAC821.02c	cell cycle| S phase of mitotic cell cycle| signalosome complex| nucleus
SPCC23B6.03c, tel1, 	telomere maintenance| signal transduction| cell organization and biogenesis
SPBC19C2.09, sre1, 	regulation of transcription\, DNA-dependent| transcription| membrane| nucleus| DNA binding
SPAC20G4.02c, fus1, 	cytoskeleton organization and biogenesis| actin filament-based process| conjugation with cellular fusion| M phase of mitotic cell cycle| actin cytoskeleton organization and biogenesis| cell organization and biogenesis| actin cytoskeleton| cytoskeleton
SPCC777.10c, ubc12, 	proteolysis and peptidolysis| ubiquitin conjugating enzyme activity
SPAC6G9.02c, SPAC6G9.02c, 	rRNA processing| RNA processing| RNA binding
SPAC22F8.05, SPAC22F8.05, 	protein modification| carbohydrate metabolism
SPBC21C3.03, SPBC21C3.03, 	mitochondrion
SPAP8A3.04c, hsp9, 	response to stress| chaperone activity| heat shock protein activity
SPBC83.09c, SPBC83.09c, 	cell cycle| S phase of mitotic cell cycle| DNA replication| sister chromatid cohesion
SPAC23H4.02, SPAC23H4.02, 	signal transduction| protein modification| protein amino acid phosphorylation| protein kinase activity
SPBC26H8.05c, SPBC26H8.05c, 	signal transduction| protein modification| phosphoprotein phosphatase activity
SPBC1685.13, SPBC1685.13, 	membrane
SPBC32F12.03c, gpx1, 	sulfur metabolism| response to stress| glutathione peroxidase activity
SPCC1322.05c, SPCC1322.05c, 	lipid metabolism| leukotriene-A4 hydrolase activity
SPBC2D10.18, abc1, coq8	sulfur metabolism| energy pathways| electron transport| ubiquinone biosynthesis| membrane| mitochondrial inner membrane| mitochondrial membrane| mitochondrion
SPCC1827.04, SPCC1827.04, 	cell organization and biogenesis
SPBC25D12.03c, mcm7, 	S phase of mitotic cell cycle| DNA replication| replication fork
SPAC25G10.08, SPAC25G10.08, 	protein biosynthesis| eukaryotic translation initiation factor 3 complex| eukaryotic 48S initiation complex| RNA binding
SPBC21.04, sep15, med8	sporulation (sensu Fungi)| regulation of transcription\, DNA-dependent| barrier septum formation| conjugation with cellular fusion| transcription| mediator complex| nucleus
SPAP19A11.05c, SPAP19A11.05c, 	protein biosynthesis| mitochondrial ribosome
SPAC1F5.09c, shk2, pak2	signal transduction| protein modification| protein amino acid phosphorylation| protein kinase activity
SPAC186.08c, SPAC186.08c, 	oxidoreductase activity| L-lactate dehydrogenase activity
SPBC1709.07, SPBC1709.07, 	ergosterol biosynthesis| lipid metabolism
SPAC4F8.14c, hcs1, hcs	ergosterol biosynthesis| lipid metabolism| coenzyme and prosthetic group metabolism| endoplasmic reticulum| mitochondrion
SPBC6B1.12c, SPBC6B1.12c, 	nucleocytoplasmic transport| regulation of transcription\, DNA-dependent| transcription| protein targeting| cell organization and biogenesis| chromatin
SPCC1753.02c, git3, 	regulation of transcription\, DNA-dependent| signal transduction| transcription| purine nucleotide metabolism| membrane| plasma membrane
SPAC1B1.04c, SPAC1B1.04c, 	mRNA processing| RNA processing
SPAC11E3.07, vma4, 	transport| intracellular protein transport| hydrogen transport| cell organization and biogenesis| ATPase activity
SPAC105.02c, SPAC105.02c, 	cell organization and biogenesis
SPBC16G5.01, rpn12, mts3, SPBC342.07	proteolysis and peptidolysis| proteasome complex (sensu Eukarya)
SPBC23G7.05, sui1, psu1	protein biosynthesis
SPAPB17E12.03, SPAPB17E12.03, 	proteolysis and peptidolysis| cell organization and biogenesis| membrane| ubiquitin ligase complex| peroxisomal membrane
SPBP4H10.03, oxa102, oxa1, oxa1-2, oxa1sp2	energy pathways| electron transport| cell organization and biogenesis| membrane| mitochondrial inner membrane| mitochondrial membrane
SPAC57A7.10c, sec21, 	intracellular protein transport| membrane| cytoplasmic vesicle| Golgi apparatus| Golgi vesicle
SPBC29A10.10c, SPBC29A10.10c, 	tRNA metabolism
SPBC1348.02, SPBC1348.02, SPAC1348.02	membrane| cell surface
SPAC31A2.09c, apm4, 	vesicle-mediated transport| intracellular protein transport| cytoplasmic vesicle
SPCC162.11c, SPCC162.11c, 	pyrimidine base metabolism| uracil phosphoribosyltransferase activity| uridine kinase activity
SPAC1952.02, SPAC1952.02, 	ribosome biogenesis| cell organization and biogenesis| nucleolus| RNA binding
SPBC25H2.11c, SPBC25H2.11c, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| transcription| DNA packaging| SAGA complex| chromatin| nucleus
SPBC25H2.11c, SPBC25H2.11c, 	acetyl-CoA biosynthesis from pyruvate| [pyruvate dehydrogenase (lipoamide)] kinase activity| pyruvate dehydrogenase complex (sensu Eukarya)| mitochondrion| coenzyme and prosthetic group metabolism| mitochondrion| oxidoreductase activity| ATPase activity| [pyruvate dehydrogenase (lipoamide)] kinase activity
SPCC4E9.02, cig1, SPCC645.01	traversing start control point of mitotic cell cycle| G1/S transition of mitotic cell cycle| regulation of cyclin dependent protein kinase activity| cell cycle| regulation of mitotic cell cycle| mitotic cell cycle
SPBC1709.08, cft1, 	mRNA processing| RNA processing| mRNA polyadenylation
SPAC8C9.03, cgs1, 	meiosis| protein kinase cascade| signal transduction
SPBC24C6.04, SPBC24C6.04, 	amino acid metabolism| glutamate metabolism| proline metabolism| 1-pyrroline-5-carboxylate dehydrogenase activity| oxidoreductase activity
SPBC3H7.02, SPBC3H7.02, 	transport| anion transport| membrane| plasma membrane
SPAC21E11.03c, pcr1, mts2	meiosis| establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| conjugation with cellular fusion| DNA recombination| transcription| DNA packaging| cell organization and biogenesis| chromatin| nucleus| DNA binding
SPAC23D3.09, SPAC23D3.09, 	cell organization and biogenesis| actin cytoskeleton| cytoskeleton
SPAC2C4.12c, SPAC2C4.12c, 	tRNA metabolism| tRNA splicing
SPBC29A10.01, ccr1, SPBC365.17	energy pathways| ergosterol biosynthesis| lipid metabolism| NADPH-hemoprotein reductase activity
SPBC83.11, SPBC83.11, 	transport
SPAC1F3.10c, SPAC1F3.10c, 	proteolysis and peptidolysis| mitochondrion| mitochondrial intermediate peptidase activity
SPAPB17E12.11, SPAPB17E12.11, 	protein modification| carbohydrate metabolism| membrane| dolichyl-diphosphooligosaccharide-protein glycotransferase activity
SPBC13G1.13, tfb2, SPBC31F10.01	regulation of transcription\, DNA-dependent| transcription| transcription factor TFIIH complex| transcription factor complex| chromatin| nucleus
SPACUNK4.17, SPACUNK4.17, 	oxidoreductase activity
SPCC330.07c, SPCC330.07c, 	transport| membrane
SPBC3E7.08c, rad13, 	DNA repair| nucleotide-excision repair| nucleotide excision repair complex
SPBCPT2R1.04c, SPBCPT2R1.04c, 	membrane| cell surface
SPBC17F3.01c, rga5, SPBC557.01	cell wall organization and biogenesis| cell wall biosynthesis| cell organization and biogenesis| GTPase regulator activity
SPBC887.18c, SPBC887.18c, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| transcription| DNA packaging| cell organization and biogenesis| chromatin
SPBC19G7.04, SPBC19G7.04, 	regulation of transcription\, DNA-dependent| transcription| proteolysis and peptidolysis| nucleus
SPAC24C9.13c, SPAC24C9.13c, 	protein biosynthesis| mitochondrial ribosome
SPAC24C9.13c, SPAC24C9.13c, 	fumarate metabolism| tricarboxylic acid cycle| fumarate hydratase activity| mitochondrion| cytoplasm| carbohydrate catabolism| energy pathways| TCA intermediate metabolism| main pathways of carbohydrate metabolism| mitochondrion| cytoplasm| fumarate hydratase activity
SPCPJ732.01, vps5, 	signal transduction| intracellular protein transport
SPBC23G7.12c, rpt6, let1	proteolysis and peptidolysis| proteasome complex (sensu Eukarya)| ATPase activity
SPBC3H7.15, hhp1, 	cell cycle| DNA repair| signal transduction| protein modification| M phase of mitotic cell cycle| protein amino acid phosphorylation| cell organization and biogenesis| protein kinase activity
SPBC557.05, SPBC557.05, 	signal transduction
SPAC26F1.10c, pyp1, 	MAPKKK cascade| protein kinase cascade| signal transduction| protein modification| protein tyrosine phosphatase activity
SPBC1778.10c, SPBC1778.10c, SPBC4C3.11	signal transduction| protein modification| protein amino acid phosphorylation| protein kinase activity
SPAC227.18, lys3, SPAC2F7.01	amino acid metabolism| lysine metabolism| saccharopine dehydrogenase (NAD+\, L-lysine-forming) activity| oxidoreductase activity
SPAC23H3.04, SPAC23H3.04, 	membrane| cell surface
SPCC297.05, SPCC297.05, 	GTP binding
SPAC4A8.11c, lsd1, fas2	fatty acid biosynthesis| lipid metabolism| cytoplasm| 3-oxoacyl-[acyl-carrier protein] synthase activity
SPCC4B3.03c, SPCC4B3.03c, 	mitochondrion organization and biogenesis| mitochondrial genome maintenance| cell organization and biogenesis
SPBC19C7.03, cyr1, git2	regulation of transcription\, DNA-dependent| signal transduction| transcription| purine nucleotide metabolism| membrane| plasma membrane| adenylate cyclase activity
SPBC1347.05c, SPBC1347.05c, 	protein folding
SPAC732.01, vma11, 	transport| hydrogen transport| vacuolar membrane| membrane| vacuole| ATPase activity
SPAC4G9.03, adk1, 	purine nucleotide metabolism| adenylate kinase activity
SPAC26A3.04, rpl2002, rpl20, rpl20-2	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPAC1071.12c, stp1, SPAC926.01c	cell cycle| signal transduction| protein modification| phosphoprotein phosphatase activity| acid phosphatase activity
SPCC1442.06, SPCC1442.06, 	proteolysis and peptidolysis| proteasome complex (sensu Eukarya)
SPAC25G10.04c, rec10, 	meiosis| cell cycle| S phase of mitotic cell cycle| DNA recombination| sister chromatid cohesion
SPBC839.17c, SPBC839.17c, 	protein folding| peptidyl-prolyl cis-trans isomerase activity
SPBC2D10.05, exg3, 	carbohydrate metabolism
SPCC663.04, rpl39, 	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPAC6G9.05, SPAC6G9.05, 	lipid metabolism| peroxisome
SPAC6G9.05, SPAC6G9.05, 	protein-L-isoaspartate (D-aspartate) O-methyltransferase activity| protein modification| cellular_component unknown| aspartate metabolism| protein modification| protein-L-isoaspartate (D-aspartate) O-methyltransferase activity| methyltransferase activity
SPCC11E10.08, rik1, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| transcription| DNA packaging| cell organization and biogenesis| chromatin silencing| chromatin
SPCC162.03, SPCC162.03, 	oxidoreductase activity
SPAP27G11.13c, SPAP27G11.13c, 	rRNA processing| RNA processing
SPBC651.08c, rpc1, 	transcription| DNA-directed RNA polymerase III complex| DNA-directed RNA polymerase activity
SPAC23C11.12, hcn1, 	cell cycle| anaphase-promoting complex| ubiquitin ligase complex| nucleus
SPBC428.03c, pho4, 	phosphate metabolism| acid phosphatase activity
SPBC31F10.06c, sar1, 	intracellular protein transport| membrane| COPII-coated vesicle| nuclear membrane| cytoplasmic vesicle| Golgi vesicle| COPI-coated vesicle| GTPase activity| GTP binding
SPAC20H4.02, SPAC20H4.02, 	GTP binding
SPAC1805.13, rpl14, 	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPAC17G8.07, SPAC17G8.07, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| transcription| DNA packaging| cell organization and biogenesis| chromatin| nucleus
SPBC409.04c, mis12, 	cell cycle| chromosome segregation| cell organization and biogenesis| spindle pole body
SPCC11E10.06c, SPCC11E10.06c, 	transcription| nucleus
SPAC15F9.02, seh1, 	nucleocytoplasmic transport| protein targeting| nucleus| nuclear pore
SPBC577.02, rpl3801, rpl38-1	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPCC594.05c, spp1, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| transcription| DNA packaging| cell organization and biogenesis| chromatin silencing| chromatin remodeling complex| chromatin
SPAC1565.01, SPAC1565.01, 	membrane
SPAC3C7.04, SPAC3C7.04, 	regulation of transcription\, DNA-dependent| transcription| transcription regulator activity
SPAC1B3.06c, SPAC1B3.06c, 	methyltransferase activity
SPBC3B8.07c, dsd1, 	meiosis| lipid metabolism| membrane
SPAC27F1.09c, prp10, sap155	mRNA processing| RNA processing| spliceosome complex| nucleus
SPBC21H7.03c, SPBC21H7.03c, 	phosphate metabolism| cell surface| acid phosphatase activity
SPBC21H7.03c, SPBC21H7.03c, 	transcription from Pol II promoter| DNA-directed RNA polymerase activity| DNA binding| DNA-directed RNA polymerase II\, core complex| regulation of transcription from Pol II promoter| transcription| nucleus| DNA binding
SPAC926.09c, fas1, 	fatty acid biosynthesis| lipid metabolism| cytoplasm| acetyltransferase activity| [acyl-carrier protein] S-acetyltransferase activity| [acyl-carrier protein] S-malonyltransferase activity| 3-hydroxypalmitoyl-[acyl-carrier protein] dehydratase activity| enoyl-[acyl-carrier protein] reductase (NADH) activity| oleoyl-[acyl-carrier protein] hydrolase activity| fatty-acyl-CoA synthase activity
SPAC2F7.10, SPAC2F7.10, 	lipid metabolism| cell organization and biogenesis
SPBPB8B6.06c, SPBPB8B6.06c, SPAPB8B6.06c	membrane
SPCP1E11.02, SPCP1E11.02, 	signal transduction| protein modification| actin cytoskeleton organization and biogenesis| protein amino acid phosphorylation| cell organization and biogenesis| actin cytoskeleton| actin cortical patch (sensu Fungi)| cytoskeleton| protein kinase activity
SPCC10H11.01, prp11, 	mRNA processing| helicase activity
SPBC530.03c, bag102, bag1-b	protein folding| chaperone regulator activity
SPAC343.13, SPAC343.13, 	tRNA metabolism
SPAC343.13, SPAC343.13, 	glycine metabolism| glycine catabolism| glycine cleavage complex| mitochondrion| aminomethyltransferase activity| amino acid metabolism| glycine metabolism| mitochondrion| aminomethyltransferase activity| methyltransferase activity
SPAC343.13, SPAC343.13, 	response to oxidative stress| response to drug| glutathione transferase activity| cytoplasm| glutathione peroxidase activity| response to stress| cytoplasm| glutathione transferase activity
SPAC3H8.03, SPAC3H8.03, 	protein biosynthesis| mitochondrial ribosome
SPBC19C7.12c, SPBC19C7.12c, 	protein amino acid glycosylation| protein modification| carbohydrate metabolism
SPAC3G9.08, png1, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| protein modification| transcription| DNA packaging| cell organization and biogenesis| chromatin| acetyltransferase activity
SPAC17G6.06, rps2401, rps24-1, rps24	protein biosynthesis| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex| cytosolic ribosome (sensu Eukarya)
SPAC3G6.04, rnp24, 	RNA binding
SPAC664.01c, swi6, SPAC824.10c	meiosis| establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| cell cycle| S phase of mitotic cell cycle| DNA recombination| sister chromatid cohesion| transcription| mating-type switching/recombination| DNA packaging| chromosome segregation| cell organization and biogenesis| chromatin silencing| chromatin| nucleus| DNA binding
SPCC188.11, cwf13, snw1, SPCC584.08	mRNA processing| spliceosome complex
SPBC36.04, SPBC36.04, 	cysteine metabolism| amino acid metabolism| sulfur metabolism
SPBC3D6.12, SPBC3D6.12, 	rRNA processing| RNA processing| nucleolus
SPBC660.07, ntp1, 	sporulation (sensu Fungi)| carbohydrate metabolism| cytoplasm| alpha\,alpha-trehalase activity
SPCC1682.16, rpt4, 	proteolysis and peptidolysis| proteasome complex (sensu Eukarya)| ATPase activity
SPAC4G8.12c, SPAC4G8.12c, 	protein modification| carbohydrate metabolism| lipid metabolism| GPI anchor biosynthesis| membrane
SPBC106.09, cut4, 	cell cycle| anaphase-promoting complex| ubiquitin ligase complex| nucleus
SPBC13G1.14c, SPBC13G1.14c, 	mRNA processing| RNA binding
SPAC890.07c, SPAC890.07c, 	nucleocytoplasmic transport| protein modification| protein targeting| nucleus| methyltransferase activity
SPAC630.05, gyp7, 	signal transduction
SPCC1672.08c, tfa2, 	regulation of transcription\, DNA-dependent| transcription| transcription factor TFIIE complex| transcription factor complex| chromatin| nucleus| transcription factor activity
SPBC1734.12c, SPBC1734.12c, 	cell wall organization and biogenesis| cell wall biosynthesis| cell organization and biogenesis| membrane
SPAC3A11.02, scp3, 	cell organization and biogenesis
SPAC23C4.03, SPAC23C4.03, 	cell cycle| DNA repair
SPCC569.05c, SPCC569.05c, 	transport| membrane
SPBC4C3.08, SPBC4C3.08, 	protein modification
SPAC4F8.06, SPAC4F8.06, 	protein biosynthesis| mitochondrial ribosome
SPAC7D4.09c, SPAC7D4.09c, 	cytoskeleton organization and biogenesis| cell organization and biogenesis| establishment and/or maintenance of cell polarity
SPBC21C3.16c, spt4, 	regulation of transcription\, DNA-dependent| response to stress| DNA repair| regulation of transcription from Pol II promoter| transcription
SPCC1494.07, SPCC1494.07, 	protein targeting
SPCC1494.07, SPCC1494.07, 	nitrogen metabolism| glutamate metabolism| glutamate dehydrogenase activity| amino acid metabolism| glutamate metabolism| nitrogen metabolism| oxidoreductase activity| glutamate dehydrogenase activity
SPBC16H5.07c, ppa2, 	signal transduction| protein modification| phosphoprotein phosphatase activity
SPBC1D7.05, byr2, ste8, SPBC2F12.01	MAPKKK cascade| protein kinase cascade| conjugation with cellular fusion| signal transduction| protein modification| protein amino acid phosphorylation| protein kinase activity
SPBC1D7.05, byr2, ste8, SPBC2F12.01	phosphatidylglycerol biosynthesis| glycerol-3-phosphate catabolism| CDP-diacylglycerol-glycerol-3-phosphate 3-phosphatidyltransferase activity| mitochondrion| carbohydrate metabolism| lipid metabolism| mitochondrion| CDP-diacylglycerol-glycerol-3-phosphate 3-phosphatidyltransferase activity
SPAC23H4.12, alp13, 	cytoskeleton organization and biogenesis| establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| protein modification| transcription| DNA packaging| histone deacetylation| cell organization and biogenesis| chromatin silencing| establishment and/or maintenance of cell polarity| chromatin remodeling complex| chromatin| nucleus| acetyltransferase activity
SPAC630.08c, SPAC630.08c, 	ergosterol biosynthesis| lipid metabolism
SPAC926.07c, SPAC926.07c, 	cell organization and biogenesis| actin cytoskeleton| cytoplasm
SPBC29A10.04, psm1, smc1	cell cycle| S phase of mitotic cell cycle| sister chromatid cohesion| cell organization and biogenesis| mitotic cohesin complex| nucleus| ATPase activity
SPAC17H9.14c, SPAC17H9.14c, 	protein folding| protein disulfide isomerase activity
SPCC14G10.02, SPCC14G10.02, SPCC18B5.13	ribosome biogenesis| cell organization and biogenesis| nucleolus
SPAC6F12.13c, SPAC6F12.13c, 	steroid metabolism| ergosterol biosynthesis| lipid metabolism| dimethylallyltranstransferase activity
SPAC5D6.01, rps2202, rps22-2, rps15a-2	protein biosynthesis| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex| cytosolic ribosome (sensu Eukarya)
SPBC646.06c, SPBC646.06c, 	carbohydrate metabolism
SPAC26A3.16, dph1, 	protein modification
SPAC23G3.09, taf4, 	regulation of transcription\, DNA-dependent| regulation of transcription from Pol II promoter| transcription| cell organization and biogenesis| transcription factor TFIID complex| transcription factor complex| chromatin| nucleus| transcription factor activity
SPBC649.04, uvi15, 	response to stress| RNA processing
SPBC119.05c, csh3, 	signal transduction
SPAC17G6.14c, uap56, 	RNA localization| mRNA processing| regulation of transcription from Pol II promoter| transcription| transcription export complex| THO complex| helicase activity
SPBC3B9.04, SPBC3B9.04, 	methyltransferase activity
SPAC26F1.08c, SPAC26F1.08c, 	membrane
SPBC1711.04, SPBC1711.04, 	amino acid metabolism| sulfur metabolism| methionine metabolism| coenzyme and prosthetic group metabolism
SPAC19A8.08, upf2, 	mRNA processing
SPBC1718.01, pop1, SPBC2G2.18	cell cycle| proteolysis and peptidolysis| ubiquitin ligase complex
SPAC13G7.12c, SPAC13G7.12c, 	lipid metabolism| choline kinase activity
SPAC23H3.13c, gpa2, git8	sporulation (sensu Fungi)| regulation of transcription\, DNA-dependent| signal transduction| transcription| GTP binding
SPAC23H3.13c, gpa2, git8	potassium\:hydrogen antiporter activity| monovalent inorganic cation transport| plasma membrane| potassium ion homeostasis| transport| cation transport| membrane
SPBC2D10.04, SPBC2D10.04, 	signal transduction
SPBC646.14c, orc5, 	S phase of mitotic cell cycle| DNA replication| replication fork
SPAC4A8.16c, tif33, SPAC823.01c	protein biosynthesis| eukaryotic translation initiation factor 3 complex| eukaryotic 48S initiation complex
SPAC1296.05c, SPAC1296.05c, 	cell cycle
SPAC1751.02c, SPAC1751.02c, 	protein biosynthesis| mitochondrial ribosome
SPAC1751.02c, SPAC1751.02c, 	asparaginyl-tRNA aminoacylation| asparagine-tRNA ligase activity| mitochondrion| tRNA metabolism| mitochondrion| asparagine-tRNA ligase activity
SPBC11G11.02c, end3, 	actin cytoskeleton organization and biogenesis| endocytosis| intracellular protein transport| cell organization and biogenesis| actin cytoskeleton| actin cortical patch (sensu Fungi)| cytoskeleton
SPAC11E3.04c, ubc13, spu13	S phase of mitotic cell cycle| DNA repair| protein modification| proteolysis and peptidolysis| cell organization and biogenesis| chromatin| ubiquitin conjugating enzyme activity| ubiquitin-protein ligase activity
SPAC11E3.04c, ubc13, spu13	glycine metabolism| heme biosynthesis| 5-aminolevulinate synthase activity| mitochondrial matrix| amino acid metabolism| glycine metabolism| coenzyme and prosthetic group metabolism| mitochondrion| 5-aminolevulinate synthase activity
SPAC17C9.08, pnu1, nuc1	response to stress| mitochondrion
SPAC1805.04, nup132, Nup133b	nucleocytoplasmic transport| protein targeting| nucleus| nuclear pore
SPAC29B12.02c, SPAC29B12.02c, 	regulation of transcription\, DNA-dependent| signal transduction| transcription| cell organization and biogenesis| chromatin| methyltransferase activity
SPAC1142.05, SPAC1142.05, 	transport| membrane| plasma membrane
SPAC23C11.05, SPAC23C11.05, 	energy pathways| inorganic diphosphatase activity
SPAC23C11.05, SPAC23C11.05, 	acetyl-CoA biosynthesis from pyruvate| dihydrolipoyllysine-residue acetyltransferase activity| mitochondrion| pyruvate dehydrogenase complex (sensu Eukarya)| coenzyme and prosthetic group metabolism| mitochondrion| dihydrolipoyllysine-residue acetyltransferase activity| acetyltransferase activity| oxidoreductase activity
SPAC23C11.05, SPAC23C11.05, 	glycolysis| regulation of cell cycle| 6-phosphofructokinase activity| cytoplasm| carbohydrate catabolism| energy pathways| glycolysis| carbohydrate metabolism| main pathways of carbohydrate metabolism| cytoplasm| 6-phosphofructokinase activity
SPBC582.07c, rpn7, 	proteolysis and peptidolysis| proteasome complex (sensu Eukarya)
SPAC1834.12, pex7, SPAP17D4.01	protein targeting| cell organization and biogenesis| peroxisome| peroxisomal membrane
SPAC11D3.01c, SPAC11D3.01c, 	sporulation (sensu Fungi)| cell wall organization and biogenesis| cell wall biosynthesis| cell organization and biogenesis
SPBC31F10.02, SPBC31F10.02, 	cell cycle
SPAC607.09c, btn1, 	membrane
SPAC607.09c, btn1, 	pentose-phosphate shunt\, non-oxidative branch| ribose-5-phosphate isomerase activity| cytoplasm| pentose-phosphate shunt| ribose-5-phosphate isomerase activity
SPAC27F1.02c, cdc8, fus4	actin filament-based process| cytokinesis| conjugation with cellular fusion| M phase of mitotic cell cycle| chromosome condensation| cell organization and biogenesis| contractile ring (sensu Fungi)| actin cytoskeleton| cytoskeleton
SPBC1734.08, SPBC1734.08, 	signal transduction
SPBC19F8.08, rps401, rps4-1, rps4, SPBC25H2.17c	protein biosynthesis| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex| cytosolic ribosome (sensu Eukarya)
SPAC30D11.03, SPAC30D11.03, 	rRNA processing| RNA processing| helicase activity
SPAC18B11.06, SPAC18B11.06, 	rRNA processing| RNA processing| nucleolus
SPAC25G10.09c, SPAC25G10.09c, SPAC27F1.01c	actin filament-based process| actin cytoskeleton organization and biogenesis| endocytosis| intracellular protein transport| cell organization and biogenesis| actin cytoskeleton| actin cortical patch (sensu Fungi)| cytoskeleton| nucleus
SPCC613.05c, rpl35, 	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPBC354.09c, SPBC354.09c, 	proteolysis and peptidolysis
SPBC800.06, SPBC800.06, 	ribosome biogenesis| RNA processing| cell organization and biogenesis| nucleolus| RNA binding
SPBC16A3.13, meu7, 	meiosis| cell surface| alpha-amylase activity
SPBC2G2.17c, SPBC2G2.17c, 	carbohydrate metabolism| cell surface
SPAC56E4.06c, SPAC56E4.06c, 	proteolysis and peptidolysis| gamma-glutamyltransferase activity
SPCC74.06, mak3, 	MAPKKK cascade| protein kinase cascade| cell cycle| response to stress| conjugation with cellular fusion| signal transduction| regulation of mitotic cell cycle| mitotic cell cycle
SPAC3G6.13c, rpl4101, rpl41-1	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPCC330.03c, SPCC330.03c, 	energy pathways| electron transport
SPBC23G7.10c, SPBC23G7.10c, 	energy pathways| oxidoreductase activity
SPAPB17E12.04c, csn2, 	cell cycle checkpoint| cell cycle| S phase of mitotic cell cycle| DNA repair| DNA damage response\, signal transduction resulting in cell cycle arrest| regulation of cell cycle| signalosome complex| nucleus
SPBC146.03c, cut3, smc4	establishment and/or maintenance of chromatin architecture| cell cycle| chromosome condensation| DNA packaging| chromosome segregation| cell organization and biogenesis| condensin complex| nucleus
SPBC2G5.07c, rpc25, 	transcription| DNA-directed RNA polymerase III complex| DNA-directed RNA polymerase activity
SPAPB24D3.01, SPAPB24D3.01, SPAPB2C8.02	regulation of transcription\, DNA-dependent| transcription| transcription regulator activity
SPAC3H1.03, SPAC3H1.03, 	regulation of transcription\, DNA-dependent| transcription
SPCC970.10c, SPCC970.10c, 	establishment and/or maintenance of chromatin architecture| protein modification| DNA packaging| proteolysis and peptidolysis| cell organization and biogenesis| chromatin| ubiquitin ligase complex
SPBC3D6.04c, mad1, 	spindle assembly| cell cycle| cytokinesis| M phase of mitotic cell cycle| cell organization and biogenesis| regulation of cell cycle
SPBC530.01, gyp1, 	signal transduction
SPBC530.01, gyp1, 	malate metabolism| tricarboxylic acid cycle| L-malate dehydrogenase activity| mitochondrion| carbohydrate catabolism| energy pathways| carbohydrate metabolism| TCA intermediate metabolism| main pathways of carbohydrate metabolism| mitochondrion| oxidoreductase activity| L-malate dehydrogenase activity
SPBC1815.01, eno101, eno1	carbohydrate catabolism| energy pathways| glycolysis| main pathways of carbohydrate metabolism| phosphopyruvate hydratase activity
SPAC8E11.04c, SPAC8E11.04c, 	lipid metabolism| lysophospholipase activity
SPAC23C4.10, sec2, 	signal transduction| intracellular protein transport
SPAC23C4.10, sec2, 	cysteinyl-tRNA aminoacylation| cysteine-tRNA ligase activity| cellular_component unknown| tRNA metabolism| cysteine-tRNA ligase activity
SPAC4G8.04, SPAC4G8.04, 	signal transduction
SPAP8A3.14c, SPAP8A3.14c, 	mitochondrial inner membrane| mitochondrial membrane
SPBC4B4.09, prp39, 	mRNA processing
SPAC13G7.02c, ssa1, 	response to stress| chaperone activity| heat shock protein activity
SPCC550.05, nse1, 	DNA repair| nucleus
SPCC962.01, SPCC962.01, SPCP31B10.09	signal transduction
SPAP11E10.01, SPAP11E10.01, 	ornithine cyclodeaminase activity
SPBC336.15, pic1, SPBC685.01	cell cycle| cytokinesis| M phase of mitotic cell cycle| chromosome segregation| cell organization and biogenesis
SPBC19G7.17, SPBC19G7.17, SPBC36B7.01	protein-ER targeting| intracellular protein transport| translocon
SPBC21B10.11, dpm2, 	N-linked glycosylation| protein modification| carbohydrate metabolism| endoplasmic reticulum| membrane| endoplasmic reticulum membrane
SPAC20G8.01, cdc17, 	telomere maintenance| S phase of mitotic cell cycle| DNA replication| DNA repair| cell organization and biogenesis| nucleus| DNA ligase (ATP) activity
SPAC20G8.01, cdc17, 	acetyl-CoA biosynthesis from pyruvate| pyruvate dehydrogenase (acetyl-transferring) activity| mitochondrion| pyruvate dehydrogenase complex (sensu Eukarya)| coenzyme and prosthetic group metabolism| mitochondrion| pyruvate dehydrogenase (acetyl-transferring) activity| oxidoreductase activity
SPBC409.20c, psh3, 	amino acid transport| intracellular protein transport| membrane
SPBC8D2.10c, SPBC8D2.10c, 	protein modification| methyltransferase activity
SPAC4F10.02, SPAC4F10.02, 	proteolysis and peptidolysis
SPAC6G10.09, SPAC6G10.09, 	carbohydrate metabolism| mannosyl-oligosaccharide glucosidase activity
SPCC31H12.07, sec231, sec23a, SPCC5E4.01	ER to Golgi transport| intracellular protein transport| COPII-coated vesicle| cytoplasmic vesicle| Golgi vesicle| COPI-coated vesicle| GTPase regulator activity
SPBC354.08c, SPBC354.08c, 	sporulation (sensu Fungi)| membrane
SPBC26H8.07c, nda3, ben1, alp12	cytoskeleton organization and biogenesis| microtubule-based process| chromosome segregation| cell organization and biogenesis| microtubule cytoskeleton organization and biogenesis| establishment and/or maintenance of cell polarity| microtubule| cytoskeleton| microtubule organizing center| microtubule cytoskeleton
SPAC56F8.16, esc1, 	regulation of transcription\, DNA-dependent| conjugation with cellular fusion| transcription| nucleus| DNA binding
SPCC895.03c, SPCC895.03c, 	protein biosynthesis
SPBC839.02, SPBC839.02, 	signal transduction
SPCP31B10.07, eft202, 	protein biosynthesis| GTP binding
SPCC1322.08, srk1, mkp1	MAPKKK cascade| cell cycle checkpoint| meiosis| protein kinase cascade| response to stress| signal transduction| protein modification| protein amino acid phosphorylation| regulation of cell cycle| cytoplasm| nucleus| protein kinase activity
SPCC1322.08, srk1, mkp1	tricarboxylic acid cycle| isocitrate metabolism| glutamate biosynthesis| isocitrate dehydrogenase (NAD+) activity| mitochondrial matrix| amino acid metabolism| carbohydrate catabolism| glutamate metabolism| energy pathways| carbohydrate metabolism| TCA intermediate metabolism| main pathways of carbohydrate metabolism| mitochondrion| isocitrate dehydrogenase (NAD+) activity| oxidoreductase activity
SPBC18E5.06, rps21, 	protein biosynthesis| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex| cytosolic ribosome (sensu Eukarya)
SPAC56E4.05, SPAC56E4.05, 	membrane
SPAC56E4.05, SPAC56E4.05, 	endocytosis| vacuolar acidification| intracellular protein transport| cell organization and biogenesis| vacuolar membrane| membrane| vacuole| ATPase activity
SPBP4G3.02, pho1, 	phosphate metabolism| cell surface| acid phosphatase activity
SPAC1527.01, mok11, SPAC23D3.15	cell wall organization and biogenesis| protein modification| cell wall biosynthesis| cell organization and biogenesis| membrane| alpha-1\,3-glucan synthase activity
SPBC646.05c, erg9, 	steroid metabolism| ergosterol biosynthesis| lipid metabolism| membrane| farnesyl-diphosphate farnesyltransferase activity
SPCC191.11, inv1, 	carbohydrate metabolism| cell surface| beta-fructofuranosidase activity
SPCC18.02, SPCC18.02, 	transport| amine/polyamine transport| membrane
SPBC16E9.15, SPBC16E9.15, 	response to stress
SPAC1782.01, SPAC1782.01, SPAPYUG7.07	cell wall organization and biogenesis| cell organization and biogenesis
SPAC4F10.07c, SPAC4F10.07c, 	response to stress| nucleolus
SPAC212.08c, SPAC212.08c, 	cell surface
SPBC25H2.08c, SPBC25H2.08c, 	mitochondrion
SPBC25H2.13c, cdc20, pol2	telomere maintenance| S phase of mitotic cell cycle| DNA replication| cell organization and biogenesis| replication fork| DNA-directed DNA polymerase activity
SPCC1840.11, SPCC1840.11, SPCC965.01	rRNA processing| RNA processing| exosome (RNase complex)| nucleolus| cytoplasm| RNA binding
SPAC23C11.13c, SPAC23C11.13c, 	purine nucleotide metabolism
SPAC20G4.06c, adf1, cof1	actin filament-based process| actin cytoskeleton organization and biogenesis| cell organization and biogenesis| actin cytoskeleton| actin cortical patch (sensu Fungi)| cytoskeleton
SPBC800.04c, rpl4301, rpl43-1, rpl43, rpl37a-1	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPCC126.05c, SPCC126.05c, 	protein biosynthesis| mitochondrial ribosome
SPBC1861.01c, SPBC1861.01c, SPBC56F2.13	cell cycle| M phase of mitotic cell cycle| cell organization and biogenesis| kinetochore| DNA binding
SPBC1709.09, SPBC1709.09, 	protein biosynthesis| mitochondrion
SPBC31F10.16, SPBC31F10.16, 	cell wall organization and biogenesis| cell organization and biogenesis
SPCC1442.16c, SPCC1442.16c, SPCC285.01c	oxidoreductase activity| NADPH\:quinone reductase activity
SPAC3A11.13, SPAC3A11.13, SPAC3H5.02	protein folding| cell organization and biogenesis| prefoldin complex
SPBC28F2.07, sfr1, dds20	meiosis| DNA repair| double-strand break repair
SPBC28F2.07, sfr1, dds20	glycine catabolism| isoleucine catabolism| leucine catabolism| L-serine biosynthesis| valine catabolism| G1/S transition of mitotic cell cycle| acetyl-CoA biosynthesis from pyruvate| tricarboxylic acid cycle| 2-oxoglutarate metabolism| dihydrolipoyl dehydrogenase activity| pyruvate dehydrogenase complex (sensu Eukarya)| oxoglutarate dehydrogenase complex (sensu Eukarya)| isoleucine metabolism| valine metabolism| G1/S transition of mitotic cell cycle| amino acid metabolism| carbohydrate catabolism| L-serine metabolism| energy pathways| carbohydrate metabolism| TCA intermediate metabolism| glycine metabolism| leucine metabolism| main pathways of carbohydrate metabolism| coenzyme and prosthetic group metabolism| oxidoreductase activity| dihydrolipoyl dehydrogenase activity
SPAC2C4.07c, SPAC2C4.07c, 	cytoplasm
SPBC651.03c, gyp10, 	signal transduction| intracellular protein transport| endoplasmic reticulum
SPAC11E3.06, map1, 	regulation of transcription\, DNA-dependent| transcription| nucleus| DNA binding
SPAC11E3.06, map1, 	seryl-tRNA aminoacylation| serine-tRNA ligase activity| cellular_component unknown| tRNA metabolism| serine-tRNA ligase activity
SPCC11E10.02c, gpi8, 	GPI anchor biosynthesis| proteolysis and peptidolysis
SPBC800.07c, SPBC800.07c, 	protein biosynthesis
SPCC1840.12, SPCC1840.12, SPCC965.02	transport| membrane
SPBC609.04, caf5, 	transport| multidrug transport| membrane
SPBC18H10.19, SPBC18H10.19, 	response to stress| DNA repair
SPCC1281.04, SPCC1281.04, 	coenzyme and prosthetic group metabolism| oxidoreductase activity
SPBC651.09c, SPBC651.09c, 	regulation of transcription from Pol II promoter| transcription| nucleus
SPAC1B3.01c, SPAC1B3.01c, 	pyrimidine base metabolism| uracil phosphoribosyltransferase activity
SPBC1348.05, SPBC1348.05, SPAC1348.05	transport| membrane
SPBC31E1.01c, SPBC31E1.01c, SPBC660.18c	sporulation (sensu Fungi)| regulation of transcription\, DNA-dependent| response to stress| transcription| transcription regulator activity
SPAC926.08c, SPAC926.08c, 	ribosome biogenesis| RNA processing| cell organization and biogenesis| nucleolus| RNA binding
SPCC569.08c, ade5, ade8	purine nucleotide metabolism| nucleus| phosphoribosylglycinamide formyltransferase activity
SPAC24B11.12c, SPAC24B11.12c, 	lipid metabolism| membrane| ATPase activity| phospholipid-translocating ATPase activity
SPCC16C4.07, scw1, 	barrier septum formation| cell organization and biogenesis| RNA binding
SPCC1620.14c, SPCC1620.14c, SPCC830.01c	establishment and/or maintenance of chromatin architecture| DNA packaging| cell organization and biogenesis| chromatin remodeling complex| chromatin| nucleus| helicase activity| ATPase activity
SPCC1281.06c, SPCC1281.06c, 	lipid metabolism
SPAC959.09c, apc5, SPAP32A8.01c	cell cycle| anaphase-promoting complex| ubiquitin ligase complex| nucleus
SPCC162.04c, wtf13, 	membrane
SPBC13G1.03c, SPBC13G1.03c, 	membrane| peroxisomal membrane
SPBC16C6.07c, rpt1, 	proteolysis and peptidolysis| proteasome complex (sensu Eukarya)| ATPase activity
SPAC23C4.13, bet1, 	vesicle-mediated transport| ER to Golgi transport| intracellular protein transport| membrane| cytoplasmic vesicle
SPBC17G9.09, tif213, 	protein biosynthesis| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex
SPBPJ4664.04, SPBPJ4664.04, 	intracellular protein transport| cytoplasmic vesicle| Golgi apparatus| Golgi vesicle
SPCC830.11c, SPCC830.11c, 	nucleus
SPBC13E7.10c, brf1, SPBC30D10.20	regulation of transcription\, DNA-dependent| transcription from Pol III promoter| transcription| transcription factor complex| nucleus| transcription factor TFIIIB complex
SPAC13D6.02c, byr3, 	sporulation (sensu Fungi)| conjugation with cellular fusion
SPBC119.13c, prp31, 	meiosis| mRNA processing
SPCC31H12.04c, rpl1202, rpl12-2	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPAC22F8.08, SPAC22F8.08, 	ER to Golgi transport| intracellular protein transport| COPII-coated vesicle| cytoplasmic vesicle| Golgi vesicle| COPI-coated vesicle
SPCC1223.03c, gut2, 	carbohydrate metabolism| mitochondrion| oxidoreductase activity| glycerol-3-phosphate dehydrogenase activity
SPBC3B9.17, isa2, 	cell ion homeostasis| cell organization and biogenesis| mitochondrion
SPAC24C9.10c, SPAC24C9.10c, 	protein biosynthesis| mitochondrial ribosome
SPAC23G3.11, rpn6, 	proteolysis and peptidolysis| proteasome complex (sensu Eukarya)
SPCC550.02c, cwf5, ecm2	mRNA processing| RNA processing| spliceosome complex| RNA binding
SPCC1494.06c, SPCC1494.06c, 	rRNA processing| RNA processing| helicase activity
SPBC12C2.09c, SPBC12C2.09c, 	lipid metabolism| membrane
SPAC222.15, meu13, SPAC821.01	meiosis| DNA recombination
SPBC30B4.06c, SPBC30B4.06c, 	tRNA modification| RNA processing| protein biosynthesis| tRNA metabolism| mitochondrion
SPAC25B8.14, mal2, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| cell cycle| transcription| DNA packaging| chromosome segregation| cell organization and biogenesis| chromatin silencing| chromatin
SPBP23A10.06, SPBP23A10.06, 	transport| mitochondrial transport| membrane| mitochondrial membrane
SPBC1773.02c, SPBC1773.02c, 	regulation of transcription\, DNA-dependent| response to stress| transcription| nucleus
SPAC9E9.08, rad26, 	cell cycle checkpoint| DNA replication checkpoint| cell cycle| S phase of mitotic cell cycle| DNA replication| DNA repair| DNA damage response\, signal transduction resulting in cell cycle arrest| G2/M transition of mitotic cell cycle| regulation of cell cycle
SPBC32F12.05c, cwf12, 	mRNA processing| spliceosome complex
SPBC1289.02c, uap2, 	mRNA processing| spliceosome complex| RNA binding
SPAC4F10.03c, SPAC4F10.03c, 	tRNA metabolism| methyltransferase activity
SPBC23E6.10c, SPBC23E6.10c, 	protein biosynthesis| eukaryotic translation initiation factor 2B complex| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex
SPAC1142.07c, vps32, snf7	intracellular protein transport
SPAC2E1P5.01c, SPAC2E1P5.01c, SPAPB1E7.13c	N-linked glycosylation| protein modification| carbohydrate metabolism| endoplasmic reticulum
SPAC4G9.17c, SPAC4G9.17c, 	protein biosynthesis| mitochondrial ribosome
SPAC6F6.12, SPAC6F6.12, 	signal transduction| intracellular protein transport| proteolysis and peptidolysis
SPMIT.01, cox1, P07657	energy pathways| electron transport| mitochondrial electron transport chain| respiratory chain complex IV (sensu Eukarya)| mitochondrial inner membrane| mitochondrial membrane
SPCC1450.02, SPCC1450.02, SPCC191.13	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| transcription| DNA packaging| chromatin| nucleus
SPAC3H8.02, SPAC3H8.02, 	signal transduction| lipid metabolism
SPCC576.10c, rpt3, 	proteolysis and peptidolysis| proteasome complex (sensu Eukarya)| ATPase activity
SPCC576.10c, rpt3, 	Mre11 complex| recombinational repair| telomere maintenance| DNA damage response\, signal transduction resulting in cell cycle arrest| cell cycle checkpoint| S phase of mitotic cell cycle| DNA replication| DNA repair| regulation of cell cycle| Mre11 complex| nucleus
SPBC16E9.12c, pab2, 	mRNA processing| RNA processing| mRNA polyadenylation| RNA binding
SPBP8B7.14c, dpb2, 	S phase of mitotic cell cycle| DNA replication| cell organization and biogenesis| replication fork
SPCC1442.03, SPCC1442.03, SPCC1450.19	transport| mitochondrial transport| membrane| mitochondrial membrane
SPAC806.02c, SPAC806.02c, 	ATPase activity
SPAC22F3.13, tsc1, 	amino acid metabolism| intracellular protein transport| arginine metabolism
SPBC244.02c, SPBC244.02c, 	nucleus
SPAC15A10.06, SPAC15A10.06, 	transport| cation transport| membrane
SPBC1703.05, SPBC1703.05, 	rRNA processing| RNA processing
SPBC1711.13, his2, 	amino acid metabolism| histidine metabolism| histidinol dehydrogenase activity| oxidoreductase activity
SPBC16D10.07c, sir2, 	establishment and/or maintenance of chromatin architecture| regulation of transcription\, DNA-dependent| transcription| DNA packaging| cell organization and biogenesis| chromatin silencing| chromatin remodeling complex| transcription factor complex| chromatin
SPBC651.05c, SPBC651.05c, 	regulation of transcription from Pol II promoter| transcription| carbohydrate metabolism
SPBC16E9.05, SPBC16E9.05, 	ergosterol biosynthesis| lipid metabolism| sterol 24-C-methyltransferase activity| methyltransferase activity
SPAC2E1P3.04, SPAC2E1P3.04, 	peroxisome| 
SPCC736.05, wtf7, 	membrane
SPBP8B7.24c, SPBP8B7.24c, 	sporulation (sensu Fungi)| response to stress| cell organization and biogenesis| cytoskeleton| microtubule organizing center| microtubule cytoskeleton
SPAC212.01c, SPAC212.01c, 	membrane| cell surface
SPBC649.05, cut12, stf1	cell cycle| cell organization and biogenesis| spindle pole body
SPAC644.17c, SPAC644.17c, 	protein biosynthesis| mitochondrial ribosome
SPCC757.07c, ctt1, cta1	response to stress| catalase activity
SPBC16E9.09c, SPBC16E9.09c, 	intracellular protein transport| COPII-coated vesicle| cytoplasmic vesicle| Golgi vesicle| COPI-coated vesicle
SPBC1198.01, SPBC1198.01, 	oxidoreductase activity
SPAC19B12.06c, SPAC19B12.06c, 	proteolysis and peptidolysis| membrane
SPAPB17E12.12c, SPAPB17E12.12c, 	transport| mitochondrial transport| membrane| mitochondrial membrane
SPBC725.17c, SPBC725.17c, 	transcription| nucleolus| nucleus
SPAC26A3.05, chc1, 	intracellular protein transport| cell organization and biogenesis
SPBC16D10.04c, dna2, 	S phase of mitotic cell cycle| DNA replication| DNA repair| replication fork| helicase activity
SPAC1783.05, hrp1, chd1	establishment and/or maintenance of chromatin architecture| cell cycle| transcription| DNA packaging| chromosome segregation| cell organization and biogenesis| chromatin| nucleus| DNA binding| helicase activity| ATPase activity
SPBC18H10.12c, rpl702, rpl7-2	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPAC23C11.11, cka1, orb5	cytoskeleton organization and biogenesis| signal transduction| protein modification| protein amino acid phosphorylation| cell organization and biogenesis| establishment and/or maintenance of cell polarity| protein kinase CK2 complex| protein kinase activity
SPAC23C11.11, cka1, orb5	phosphatidylcholine biosynthesis| phosphatidylserine decarboxylase activity| Golgi membrane| vacuolar membrane (sensu Fungi)| signal transduction| lipid metabolism| vacuolar membrane| membrane| Golgi apparatus| Golgi membrane| phosphatidylserine decarboxylase activity
SPBC15D4.14, taf73, 	regulation of transcription\, DNA-dependent| regulation of transcription from Pol II promoter| transcription| transcription factor TFIID complex| transcription factor complex| chromatin| nucleus| transcription factor activity
SPAC17G8.02, SPAC17G8.02, 	pyrimidine base metabolism
SPAC4F8.02c, SPAC4F8.02c, SPAC644.02	protein biosynthesis| mitochondrial ribosome
SPAC4F10.08, SPAC4F10.08, 	membrane
SPCC188.12, spn6, SPCC584.09	sporulation (sensu Fungi)| M phase of mitotic cell cycle| GTP binding
SPBC1773.09c, SPBC1773.09c, 	protein folding
SPBC1773.09c, SPBC1773.09c, 	tricarboxylic acid cycle| citrate metabolism| aconitate hydratase activity| mitochondrion| amino acid metabolism| carbohydrate catabolism| glutamate metabolism| energy pathways| TCA intermediate metabolism| main pathways of carbohydrate metabolism| mitochondrion| aconitate hydratase activity
SPAC1486.01, SPAC1486.01, 	response to stress| mitochondrion| superoxide dismutase activity
SPCC1919.12c, SPCC1919.12c, 	proteolysis and peptidolysis| membrane
SPAC13G7.08c, crb3, 	S phase of mitotic cell cycle| regulation of cell cycle| nucleus
SPAC13G7.01c, erg7, SPAC4G9.21c	steroid metabolism| ergosterol biosynthesis| lipid metabolism| lanosterol synthase activity
SPAC1039.06, SPAC1039.06, 	coenzyme and prosthetic group metabolism
SPAP7G5.05, rpl1002, rpl10-2	protein biosynthesis| cytosolic ribosome (sensu Eukarya)
SPCC16A11.01, SPCC16A11.01, SPCC63.15	membrane
SPAC21E11.06, tif224, 	protein biosynthesis| eukaryotic translation initiation factor 2B complex| eukaryotic 48S initiation complex| eukaryotic 43S preinitiation complex
SPBC1604.21c, ptr3, uba1, SPBC211.09	RNA localization| transcription| proteolysis and peptidolysis
SPBC577.03c, SPBC577.03c, 	protein modification| acetyltransferase activity
SPBC19C7.02, ubr1, SPBC32F12.14	ubiquitin ligase complex| ubiquitin-protein ligase activity
SPAC22A12.05, rpc11, 	transcription| DNA-directed RNA polymerase III complex| DNA-directed RNA polymerase activity
SPCC306.06c, SPCC306.06c, 	cell wall organization and biogenesis| cell wall biosynthesis| cell organization and biogenesis| endoplasmic reticulum| membrane| endoplasmic reticulum membrane
SPBC16G5.15c, SPBC16G5.15c, 	regulation of transcription\, DNA-dependent| transcription| nucleus
SPAC17G6.03, SPAC17G6.03, 	signal transduction
SPBC1604.11, atp17, 	energy pathways| electron transport| hydrogen transport| membrane| mitochondrial membrane| mitochondrion| ATPase activity
SPAC5H10.04, SPAC5H10.04, 	energy pathways| electron transport| NADPH dehydrogenase activity| oxidoreductase activity
SPAPB1E7.10, rpc17, 	transcription| DNA-directed RNA polymerase III complex
SPCC330.13, rpc37, 	transcription| DNA-directed RNA polymerase III complex
SPCC970.09, sec8, 	cytokinesis| M phase of mitotic cell cycle| exocytosis| intracellular protein transport| exocyst
SPAC20H4.01, SPAC20H4.01, SPAC631.03	rRNA processing| RNA processing| nucleolus
SPAPYUG7.03c, mid2, 	barrier septum formation| cytokinesis| signal transduction| M phase of mitotic cell cycle| chromosome condensation| cell organization and biogenesis| contractile ring (sensu Fungi)| actin cytoskeleton| cytoskeleton| GTP binding
SPAC1F7.09c, SPAC1F7.09c, 	nitrogen metabolism| purine nucleotide metabolism| allantoicase activity
SPCC1840.03, sal3, pse1	nucleocytoplasmic transport| protein targeting| nucleus| nuclear pore
SPBC1604.14c, shk1, pak1, orb2	cytoskeleton organization and biogenesis| microtubule-based process| cytokinesis| conjugation with cellular fusion| signal transduction| protein modification| M phase of mitotic cell cycle| actin cytoskeleton organization and biogenesis| protein amino acid phosphorylation| cell organization and biogenesis| establishment and/or maintenance of cell polarity| actin cytoskeleton| cytoskeleton| microtubule organizing center| microtubule cytoskeleton| protein kinase activity
SPAC2F3.14c, SPAC2F3.14c, 	signal transduction
SPAC30D11.08c, SPAC30D11.08c, 	regulation of transcription\, DNA-dependent| transcription
SPAC750.03c, SPAC750.03c, 	lipid metabolism| methyltransferase activity
SPBC409.13, SPBC409.13, 	coenzyme and prosthetic group metabolism
SPCC1235.06, sif1, 	meiosis| cell cycle| cell organization and biogenesis| spindle pole body
SPBC13G1.07, SPBC13G1.07, 	lipid metabolism| membrane