Rattus norvegicus

0 known processes

Mrpl28

mitochondrial ribosomal protein L28

Mrpl28 biological process predictions


Filter by process size:
Biological processGO term IDProcess sizeProbabilityFunc Analog Org
response to hexoseGO:00097461440.047
response to monosaccharideGO:00342841590.035
reproductive processGO:00224143720.031
response to glucoseGO:00097491360.030
positive regulation of neurogenesisGO:00507691650.028
positive regulation of cell developmentGO:00107201760.027
positive regulation of nervous system developmentGO:00519621780.025
response to carbohydrateGO:00097431830.024
regulation of nervous system developmentGO:00519602640.024
response to hypoxiaGO:00016662310.022
organic substance catabolic processGO:19015753160.022
response to extracellular stimulusGO:00099913800.021
nucleoside phosphate metabolic processGO:00067532830.020
protein complex biogenesisGO:00702712630.020
regulation of catalytic activityGO:00507903040.019
protein oligomerizationGO:00512591910.018
hormone transportGO:00099141210.018
response to oxidative stressGO:00069791860.017
protein complex assemblyGO:00064612630.017
positive regulation of multicellular organismal processGO:00512403870.017
regulation of multicellular organismal developmentGO:20000263760.017
carbohydrate derivative metabolic processGO:19011353460.017
ribose phosphate metabolic processGO:00196932350.017
positive regulation of cell differentiationGO:00455972170.017
nucleoside metabolic processGO:00091161790.017
ribonucleotide metabolic processGO:00092592310.016
central nervous system developmentGO:00074173110.016
cation transportGO:00068123820.016
purine nucleoside metabolic processGO:00422781690.016
response to decreased oxygen levelsGO:00362932370.016
regulation of cell developmentGO:00602842630.016
cell cell signalingGO:00072673350.016
response to nutrientGO:00075842480.016
nucleobase containing small molecule metabolic processGO:00550863160.015
nucleobase containing compound catabolic processGO:00346551520.015
regulation of neuron differentiationGO:00456642080.015
secretion by cellGO:00329402480.015
cellular response to stressGO:00335542690.014
organophosphate metabolic processGO:00196373700.014
single organism catabolic processGO:00447122830.014
regulation of cell differentiationGO:00455953200.014
positive regulation of response to stimulusGO:00485842850.014
regulation of cellular component organizationGO:00511283680.014
cellular component assemblyGO:00226073600.014
nucleoside triphosphate metabolic processGO:00091411440.013
purine ribonucleoside metabolic processGO:00461281680.013
multicellular organismal reproductive processGO:00486092330.013
cellular response to oxygen containing compoundGO:19017013860.013
response to metal ionGO:00100382530.013
positive regulation of cellular component organizationGO:00511302000.013
regulation of neurogenesisGO:00507672470.013
purine ribonucleotide metabolic processGO:00091502270.012
protein localizationGO:00081041910.012
purine containing compound metabolic processGO:00725212530.012
macromolecular complex assemblyGO:00650032730.012
positive regulation of cellular amine metabolic processGO:003324030.012
positive regulation of neuron differentiationGO:00456661260.012
macromolecular complex subunit organizationGO:00439333390.012
cation transmembrane transportGO:00986552630.012
cellular component biogenesisGO:00440853680.011
dephosphorylationGO:0016311980.011
monovalent inorganic cation transportGO:00156721720.011
gamete generationGO:00072761240.011
glycosyl compound metabolic processGO:19016571820.011
nucleoside phosphate catabolic processGO:19012921400.011
signal releaseGO:00230611450.011
cellular nitrogen compound catabolic processGO:00442701630.011
regulation of secretion by cellGO:19035302080.011
carbohydrate homeostasisGO:0033500750.011
organic cyclic compound catabolic processGO:19013611750.011
regulation of peptide transportGO:0090087870.010
cellular homeostasisGO:00197252520.010
ribonucleoside triphosphate metabolic processGO:00091991410.010
cellular amine metabolic processGO:0044106380.010

Mrpl28 disease predictions

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

DiseaseDO term IDSizeProbabilityFunc Analog Org