Saccharomyces cerevisiae

0 known processes

MRPL19 (YNL185C)

Mrpl19p

MRPL19 biological process predictions


Filter by process size:
Biological processGO term IDProcess sizeProbabilityFunc Analog Org
ribosome biogenesisGO:00422543350.073
cellular protein complex assemblyGO:00436232090.036
response to chemicalGO:00422213900.036
oxidation reduction processGO:00551143530.032
positive regulation of nitrogen compound metabolic processGO:00511734120.030
single organism catabolic processGO:00447126190.030
organophosphate metabolic processGO:00196375970.028
nitrogen compound transportGO:00717052120.027
organonitrogen compound catabolic processGO:19015654040.021
sporulation resulting in formation of a cellular sporeGO:00304351290.020
nucleobase containing small molecule metabolic processGO:00550864910.020
organonitrogen compound biosynthetic processGO:19015663140.020
positive regulation of nucleobase containing compound metabolic processGO:00459354090.019
rna transportGO:0050658920.019
ribonucleoprotein complex assemblyGO:00226181430.019
carbohydrate derivative catabolic processGO:19011363390.019
nucleic acid transportGO:0050657940.019
protein complex biogenesisGO:00702713140.018
guanosine containing compound metabolic processGO:19010681110.018
regulation of cellular component organizationGO:00511283340.018
negative regulation of macromolecule biosynthetic processGO:00105582910.017
tetrapyrrole metabolic processGO:0033013150.017
cellular developmental processGO:00488691910.016
cellular response to chemical stimulusGO:00708873150.016
pigment metabolic processGO:0042440230.016
cellular nitrogen compound catabolic processGO:00442704940.016
protein localization to organelleGO:00333653370.016
carboxylic acid transportGO:0046942740.016
negative regulation of cellular component organizationGO:00511291090.015
oxoacid metabolic processGO:00434363510.015
energy derivation by oxidation of organic compoundsGO:00159801250.015
guanosine containing compound catabolic processGO:19010691090.015
protein transportGO:00150313450.015
negative regulation of macromolecule metabolic processGO:00106053750.015
cofactor metabolic processGO:00511861260.014
purine containing compound metabolic processGO:00725214000.014
single organism cellular localizationGO:19025803750.014
rna localizationGO:00064031120.014
macromolecule catabolic processGO:00090573830.014
heme metabolic processGO:0042168150.014
positive regulation of biosynthetic processGO:00098913360.014
sporulationGO:00439341320.013
protein complex assemblyGO:00064613020.013
regulation of dna metabolic processGO:00510521000.013
establishment of protein localization to organelleGO:00725942780.013
negative regulation of cellular macromolecule biosynthetic processGO:20001132890.012
reproductive process in single celled organismGO:00224131450.012
cell differentiationGO:00301541610.012
negative regulation of organelle organizationGO:00106391030.012
single organism carbohydrate metabolic processGO:00447232370.012
dephosphorylationGO:00163111270.012
oxidoreduction coenzyme metabolic processGO:0006733580.011
translational elongationGO:0006414320.011
nucleobase containing compound transportGO:00159311240.011
heme biosynthetic processGO:0006783140.011
cofactor biosynthetic processGO:0051188800.011
positive regulation of programmed cell deathGO:004306830.011
sexual sporulation resulting in formation of a cellular sporeGO:00439351130.011
regulation of hydrolase activityGO:00513361330.011
organic acid metabolic processGO:00060823520.011
protein targeting to mitochondrionGO:0006626560.011
aerobic respirationGO:0009060550.011
nucleoside phosphate metabolic processGO:00067534580.011
regulation of cellular ketone metabolic processGO:0010565420.011
generation of precursor metabolites and energyGO:00060911470.011
dna recombinationGO:00063101720.010
cellular response to oxidative stressGO:0034599940.010
chromatin modificationGO:00165682000.010

MRPL19 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