Saccharomyces cerevisiae

28 known processes

GEP3 (YOR205C)

Gep3p

(Aliases: FMP38,AIM40)

GEP3 biological process predictions


Filter by process size:
Biological processGO term IDProcess sizeProbabilityFunc Analog Org
mitochondrion organizationGO:00070052610.703
mitochondrial genome maintenanceGO:0000002400.300
dna recombinationGO:00063101720.196
vesicle mediated transportGO:00161923350.107
cellular macromolecule catabolic processGO:00442653630.103
positive regulation of cellular biosynthetic processGO:00313283360.093
positive regulation of nitrogen compound metabolic processGO:00511734120.092
aromatic compound catabolic processGO:00194394910.082
regulation of phosphate metabolic processGO:00192202300.077
dna dependent dna replicationGO:00062611150.077
rna catabolic processGO:00064011180.069
regulation of cellular component organizationGO:00511283340.068
rna splicingGO:00083801310.065
positive regulation of macromolecule metabolic processGO:00106043940.062
ribosomal large subunit biogenesisGO:0042273980.061
regulation of biological qualityGO:00650083910.054
regulation of phosphorus metabolic processGO:00511742300.051
positive regulation of macromolecule biosynthetic processGO:00105573250.047
positive regulation of cellular component organizationGO:00511301160.044
organic cyclic compound catabolic processGO:19013614990.041
membrane organizationGO:00610242760.041
regulation of catalytic activityGO:00507903070.040
cellular developmental processGO:00488691910.038
er to golgi vesicle mediated transportGO:0006888860.037
trna metabolic processGO:00063991510.035
chemical homeostasisGO:00488781370.035
positive regulation of biosynthetic processGO:00098913360.034
cellular ion homeostasisGO:00068731120.033
posttranscriptional regulation of gene expressionGO:00106081150.033
ion homeostasisGO:00508011180.033
single organism developmental processGO:00447672580.032
regulation of molecular functionGO:00650093200.031
macromolecule catabolic processGO:00090573830.029
cellular nitrogen compound catabolic processGO:00442704940.028
translationGO:00064122300.028
regulation of organelle organizationGO:00330432430.027
heterocycle catabolic processGO:00467004940.027
negative regulation of nitrogen compound metabolic processGO:00511723000.027
ribosome biogenesisGO:00422543350.026
negative regulation of cellular component organizationGO:00511291090.025
rrna metabolic processGO:00160722440.024
homeostatic processGO:00425922270.024
positive regulation of nucleobase containing compound metabolic processGO:00459354090.024
glycosyl compound metabolic processGO:19016573980.023
cellular chemical homeostasisGO:00550821230.022
positive regulation of phosphate metabolic processGO:00459371470.021
cellular response to dna damage stimulusGO:00069742870.020
regulation of protein metabolic processGO:00512462370.020
positive regulation of organelle organizationGO:0010638850.019
developmental processGO:00325022610.019
negative regulation of macromolecule metabolic processGO:00106053750.019
positive regulation of cellular protein metabolic processGO:0032270890.018
ribonucleotide catabolic processGO:00092613270.018
positive regulation of protein metabolic processGO:0051247930.018
ribosomal large subunit assemblyGO:0000027350.018
proteolysisGO:00065082680.018
cellular homeostasisGO:00197251380.017
nucleobase containing small molecule metabolic processGO:00550864910.017
nucleoside monophosphate catabolic processGO:00091252240.017
positive regulation of gene expressionGO:00106283210.017
ribonucleoside catabolic processGO:00424543320.017
purine nucleotide catabolic processGO:00061953280.016
pseudohyphal growthGO:0007124750.016
cellular component morphogenesisGO:0032989970.016
phosphorylationGO:00163102910.016
mitochondrial membrane organizationGO:0007006480.016
anatomical structure morphogenesisGO:00096531600.015
organonitrogen compound catabolic processGO:19015654040.015
establishment of protein localizationGO:00451843670.015
proteolysis involved in cellular protein catabolic processGO:00516031980.015
purine nucleoside triphosphate catabolic processGO:00091463290.015
dna templated transcription terminationGO:0006353420.015
dna repairGO:00062812360.015
mrna metabolic processGO:00160712690.014
regulation of cellular protein metabolic processGO:00322682320.014
protein localization to membraneGO:00726571020.014
nucleobase containing compound catabolic processGO:00346554790.014
meiotic nuclear divisionGO:00071261630.014
nucleotide catabolic processGO:00091663300.014
nucleotide metabolic processGO:00091174530.014
ncrna processingGO:00344703300.014
single organism catabolic processGO:00447126190.014
cellular protein catabolic processGO:00442572130.014
anatomical structure developmentGO:00488561600.013
single organism membrane organizationGO:00448022750.013
mitochondrial rna metabolic processGO:0000959240.013
oxidation reduction processGO:00551143530.013
glycosyl compound catabolic processGO:19016583350.013
purine ribonucleoside monophosphate catabolic processGO:00091692240.013
cellular cation homeostasisGO:00300031000.013
positive regulation of phosphorus metabolic processGO:00105621470.013
positive regulation of molecular functionGO:00440931850.012
establishment of protein localization to membraneGO:0090150990.012
cellular metal ion homeostasisGO:0006875780.012
meiotic cell cycleGO:00513212720.012
cell growthGO:0016049890.011
protein complex biogenesisGO:00702713140.011
nucleic acid phosphodiester bond hydrolysisGO:00903051940.011
reproduction of a single celled organismGO:00325051910.011
rna 3 end processingGO:0031123880.011
ribonucleoprotein complex subunit organizationGO:00718261520.011
endocytosisGO:0006897900.011
positive regulation of nucleic acid templated transcriptionGO:19035082860.011
regulation of transportGO:0051049850.010
positive regulation of catalytic activityGO:00430851780.010
recombinational repairGO:0000725640.010
ribonucleoside metabolic processGO:00091193890.010
filamentous growth of a population of unicellular organismsGO:00441821090.010
response to abiotic stimulusGO:00096281590.010

GEP3 disease predictions

Disease predictions are made from cross-annotation of human disease genes to the identified functional analogs in yeast and predicted with the yeast functional network.

DiseaseDO term IDSizeProbabilityFunc Analog Org