Saccharomyces cerevisiae

0 known processes

YBR255C-A

hypothetical protein

YBR255C-A biological process predictions


Filter by process size:
Biological processGO term IDProcess sizeProbabilityFunc Analog Org
proteolysisGO:00065082680.060
regulation of biological qualityGO:00650083910.032
autophagyGO:00069141060.028
carbohydrate derivative metabolic processGO:19011355490.027
carbohydrate derivative catabolic processGO:19011363390.025
regulation of cellular component organizationGO:00511283340.024
response to chemicalGO:00422213900.024
organic acid metabolic processGO:00060823520.023
negative regulation of cellular metabolic processGO:00313244070.023
response to abiotic stimulusGO:00096281590.023
organophosphate metabolic processGO:00196375970.021
modification dependent protein catabolic processGO:00199411810.021
proteasomal protein catabolic processGO:00104981410.021
positive regulation of macromolecule metabolic processGO:00106043940.020
microtubule based processGO:00070171170.020
negative regulation of macromolecule metabolic processGO:00106053750.020
cell communicationGO:00071543450.020
cellular response to chemical stimulusGO:00708873150.019
oxoacid metabolic processGO:00434363510.019
protein complex assemblyGO:00064613020.019
microtubule cytoskeleton organizationGO:00002261090.019
cellular macromolecule catabolic processGO:00442653630.018
ncrna processingGO:00344703300.018
developmental processGO:00325022610.018
positive regulation of nitrogen compound metabolic processGO:00511734120.018
macromolecule catabolic processGO:00090573830.017
rrna processingGO:00063642270.017
protein complex biogenesisGO:00702713140.017
single organism membrane organizationGO:00448022750.016
ubiquitin dependent protein catabolic processGO:00065111810.016
negative regulation of nucleobase containing compound metabolic processGO:00459342950.016
organonitrogen compound biosynthetic processGO:19015663140.016
nucleobase containing small molecule metabolic processGO:00550864910.016
signal transductionGO:00071652080.015
glycoprotein metabolic processGO:0009100620.015
regulation of protein metabolic processGO:00512462370.015
single organism catabolic processGO:00447126190.015
positive regulation of biosynthetic processGO:00098913360.015
mitotic cell cycle processGO:19030472940.015
positive regulation of transcription dna templatedGO:00458932860.015
carboxylic acid metabolic processGO:00197523380.014
proteolysis involved in cellular protein catabolic processGO:00516031980.014
organic cyclic compound catabolic processGO:19013614990.014
membrane organizationGO:00610242760.013
translationGO:00064122300.013
negative regulation of gene expressionGO:00106293120.013
positive regulation of macromolecule biosynthetic processGO:00105573250.013
rrna metabolic processGO:00160722440.013
negative regulation of cellular macromolecule biosynthetic processGO:20001132890.013
negative regulation of nitrogen compound metabolic processGO:00511723000.013
posttranscriptional regulation of gene expressionGO:00106081150.013
negative regulation of cellular biosynthetic processGO:00313273120.013
heterocycle catabolic processGO:00467004940.013
negative regulation of nucleic acid templated transcriptionGO:19035072600.012
signalingGO:00230522080.012
cellular nitrogen compound catabolic processGO:00442704940.012
positive regulation of cellular biosynthetic processGO:00313283360.012
regulation of cellular protein metabolic processGO:00322682320.012
organelle fissionGO:00482852720.012
nucleobase containing compound catabolic processGO:00346554790.011
purine containing compound metabolic processGO:00725214000.011
positive regulation of gene expressionGO:00106283210.011
small molecule biosynthetic processGO:00442832580.011
single organism developmental processGO:00447672580.011
negative regulation of transcription dna templatedGO:00458922580.010
ribonucleoprotein complex subunit organizationGO:00718261520.010
regulation of cell cycleGO:00517261950.010

YBR255C-A 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