Saccharomyces cerevisiae

26 known processes

CFT2 (YLR115W)

Cft2p

(Aliases: YDH1)

CFT2 biological process predictions


Filter by process size:
Biological processGO term IDProcess sizeProbabilityFunc Analog Org
mrna polyadenylationGO:0006378200.997
mrna cleavageGO:0006379260.991
rna 3 end processingGO:0031123880.986
mrna processingGO:00063971850.983
mrna 3 end processingGO:0031124540.982
rna polyadenylationGO:0043631260.980
mrna metabolic processGO:00160712690.925
nucleic acid phosphodiester bond hydrolysisGO:00903051940.537
dna templated transcription terminationGO:0006353420.313
termination of rna polymerase ii transcriptionGO:0006369260.251
snorna metabolic processGO:0016074400.154
ncrna 3 end processingGO:0043628440.139
ncrna processingGO:00344703300.122
snorna processingGO:0043144340.073
regulation of biological qualityGO:00650083910.036
response to chemicalGO:00422213900.034
regulation of cellular protein metabolic processGO:00322682320.032
homeostatic processGO:00425922270.029
ribonucleoprotein complex subunit organizationGO:00718261520.029
cellular response to chemical stimulusGO:00708873150.029
cellular ion homeostasisGO:00068731120.027
termination of rna polymerase ii transcription exosome dependentGO:0030847100.026
organophosphate metabolic processGO:00196375970.024
organic acid metabolic processGO:00060823520.023
organonitrogen compound catabolic processGO:19015654040.022
negative regulation of nitrogen compound metabolic processGO:00511723000.022
negative regulation of gene expressionGO:00106293120.022
negative regulation of cellular metabolic processGO:00313244070.021
cation homeostasisGO:00550801050.021
ion homeostasisGO:00508011180.021
heterocycle catabolic processGO:00467004940.021
ribonucleoprotein complex assemblyGO:00226181430.020
regulation of protein metabolic processGO:00512462370.019
protein catabolic processGO:00301632210.018
single organism catabolic processGO:00447126190.018
transmembrane transportGO:00550853490.017
cell cycle checkpointGO:0000075820.016
nucleotide catabolic processGO:00091663300.016
cellular homeostasisGO:00197251380.016
negative regulation of macromolecule metabolic processGO:00106053750.015
cellular chemical homeostasisGO:00550821230.015
negative regulation of rna biosynthetic processGO:19026792600.015
rna splicingGO:00083801310.015
nucleobase containing compound catabolic processGO:00346554790.014
chemical homeostasisGO:00488781370.014
mitochondrion organizationGO:00070052610.014
nucleobase containing small molecule metabolic processGO:00550864910.014
cellular cation homeostasisGO:00300031000.013
positive regulation of protein metabolic processGO:0051247930.013
mitotic cell cycleGO:00002783060.013
positive regulation of cellular response to drugGO:200104030.013
nucleoside phosphate metabolic processGO:00067534580.013
posttranscriptional regulation of gene expressionGO:00106081150.012
regulation of cellular component organizationGO:00511283340.012
single organism signalingGO:00447002080.012
negative regulation of organelle organizationGO:00106391030.012
protein localization to mitochondrionGO:0070585630.012
purine containing compound catabolic processGO:00725233320.012
cell communicationGO:00071543450.012
regulation of cellular catabolic processGO:00313291950.012
ubiquitin dependent protein catabolic processGO:00065111810.012
purine containing compound metabolic processGO:00725214000.012
mitotic cell cycle processGO:19030472940.012
nucleoside metabolic processGO:00091163940.012
glutamine family amino acid metabolic processGO:0009064310.011
organic cyclic compound catabolic processGO:19013614990.011
macromolecule catabolic processGO:00090573830.011
regulation of cellular amino acid metabolic processGO:0006521160.010
cellular nitrogen compound catabolic processGO:00442704940.010
carbohydrate derivative metabolic processGO:19011355490.010
purine ribonucleotide metabolic processGO:00091503720.010
response to organic cyclic compoundGO:001407010.010

CFT2 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