Saccharomyces cerevisiae

12 known processes

MNP1 (YGL068W)

Mnp1p

MNP1 biological process predictions


Filter by process size:
Biological processGO term IDProcess sizeProbabilityFunc Analog Org
protein complex biogenesisGO:00702713140.097
organonitrogen compound biosynthetic processGO:19015663140.064
protein localization to organelleGO:00333653370.053
single organism cellular localizationGO:19025803750.039
tetrapyrrole metabolic processGO:0033013150.037
positive regulation of macromolecule biosynthetic processGO:00105573250.035
protein complex assemblyGO:00064613020.035
cofactor metabolic processGO:00511861260.035
mitochondrion organizationGO:00070052610.031
establishment of protein localizationGO:00451843670.031
tetrapyrrole biosynthetic processGO:0033014140.031
regulation of protein metabolic processGO:00512462370.030
positive regulation of macromolecule metabolic processGO:00106043940.028
porphyrin containing compound metabolic processGO:0006778150.026
carbohydrate derivative metabolic processGO:19011355490.025
response to chemicalGO:00422213900.024
cofactor biosynthetic processGO:0051188800.023
establishment of protein localization to organelleGO:00725942780.023
ribosome biogenesisGO:00422543350.022
sporulationGO:00439341320.020
purine nucleotide metabolic processGO:00061633760.019
regulation of cellular protein metabolic processGO:00322682320.019
purine containing compound metabolic processGO:00725214000.018
posttranscriptional regulation of gene expressionGO:00106081150.018
cellular protein complex assemblyGO:00436232090.018
transmembrane transportGO:00550853490.018
protein maturationGO:0051604760.018
nucleotide metabolic processGO:00091174530.018
positive regulation of cellular biosynthetic processGO:00313283360.017
protein transportGO:00150313450.017
carboxylic acid metabolic processGO:00197523380.017
negative regulation of macromolecule metabolic processGO:00106053750.017
establishment of protein localization to mitochondrionGO:0072655630.016
positive regulation of biosynthetic processGO:00098913360.016
protein processingGO:0016485640.016
regulation of cellular component organizationGO:00511283340.016
cellular lipid metabolic processGO:00442552290.015
monocarboxylic acid metabolic processGO:00327871220.015
protein targetingGO:00066052720.015
pigment biosynthetic processGO:0046148220.015
regulation of organelle organizationGO:00330432430.015
pigment metabolic processGO:0042440230.015
negative regulation of nitrogen compound metabolic processGO:00511723000.015
positive regulation of organelle organizationGO:0010638850.015
regulation of translationGO:0006417890.015
positive regulation of nucleobase containing compound metabolic processGO:00459354090.014
porphyrin containing compound biosynthetic processGO:0006779140.014
heme metabolic processGO:0042168150.014
small molecule biosynthetic processGO:00442832580.013
cytoplasmic translationGO:0002181650.013
negative regulation of gene expressionGO:00106293120.013
anion transportGO:00068201450.013
positive regulation of cellular component organizationGO:00511301160.013
intracellular protein transportGO:00068863190.012
negative regulation of macromolecule biosynthetic processGO:00105582910.012
purine ribonucleoside metabolic processGO:00461283800.012
oxoacid metabolic processGO:00434363510.012
purine nucleoside metabolic processGO:00422783800.012
nucleocytoplasmic transportGO:00069131630.011
negative regulation of cellular metabolic processGO:00313244070.011
positive regulation of protein metabolic processGO:0051247930.011
purine ribonucleoside triphosphate metabolic processGO:00092053540.011
reproductive processGO:00224142480.011
nucleoside metabolic processGO:00091163940.011
organic cyclic compound catabolic processGO:19013614990.011
sexual sporulationGO:00342931130.011
sulfur compound biosynthetic processGO:0044272530.011
purine ribonucleotide metabolic processGO:00091503720.011
carboxylic acid biosynthetic processGO:00463941520.010
lipid biosynthetic processGO:00086101700.010
glycosyl compound metabolic processGO:19016573980.010

MNP1 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