Rattus norvegicus

0 known processes

Rpl31

ribosomal protein L31

(Aliases: MGC72834)

Rpl31 biological process predictions


Filter by process size:
Biological process GO term ID Process size Probability Func Analog Org
ncrna processing GO:0034470 3 0.370
cellular component biogenesis GO:0044085 368 0.186
ncrna metabolic process GO:0034660 8 0.180
rna metabolic process GO:0016070 406 0.128
rrna processing GO:0006364 2 0.114
ribosome biogenesis GO:0042254 8 0.049
macromolecular complex subunit organization GO:0043933 339 0.042
reproduction GO:0000003 245 0.040
organelle organization GO:0006996 266 0.038
spindle organization GO:0007051 2 0.035
cellular macromolecular complex assembly GO:0034622 58 0.035
cell cycle GO:0007049 101 0.035
ribonucleoprotein complex biogenesis GO:0022613 10 0.034
macromolecular complex assembly GO:0065003 273 0.031
macromolecule localization GO:0033036 252 0.030
cellular component assembly GO:0022607 360 0.029
hydrogen ion transmembrane transport GO:1902600 11 0.027
transition metal ion transport GO:0000041 12 0.026
macrophage differentiation GO:0030225 1 0.026
localization within membrane GO:0051668 2 0.025
ribosome assembly GO:0042255 6 0.024
spliceosomal complex assembly GO:0000245 2 0.022
positive regulation of phosphate metabolic process GO:0045937 262 0.021
negative regulation of protein autophosphorylation GO:0031953 2 0.020
negative regulation of autophagy GO:0010507 1 0.020
negative regulation of tumor necrosis factor superfamily cytokine production GO:1903556 5 0.020
anatomical structure morphogenesis GO:0009653 298 0.019
apoptotic process GO:0006915 381 0.018
regulation of cellular ketone metabolic process GO:0010565 27 0.018
negative regulation of metabolic process GO:0009892 331 0.018
positive regulation of mesonephros development GO:0061213 7 0.018
smad protein import into nucleus GO:0007184 3 0.018
regulation of insulin secretion involved in cellular response to glucose stimulus GO:0061178 14 0.018
programmed cell death GO:0012501 392 0.017
regulation of photoreceptor cell differentiation GO:0046532 3 0.015
cell fate specification involved in pattern specification GO:0060573 2 0.015
cellular amino acid metabolic process GO:0006520 107 0.015
mitotic spindle organization GO:0007052 2 0.014
triglyceride homeostasis GO:0070328 2 0.014
organelle assembly GO:0070925 22 0.014
positive regulation of nuclear division GO:0051785 7 0.013
mitotic cell cycle process GO:1903047 35 0.013
peptidyl cysteine modification GO:0018198 2 0.013
amine metabolic process GO:0009308 38 0.012
dorsal ventral pattern formation GO:0009953 4 0.012
regulation of nuclear division GO:0051783 9 0.012
magnesium ion homeostasis GO:0010960 2 0.012
neuropeptide catabolic process GO:0010813 1 0.012
regulation of cytokinesis GO:0032465 3 0.012
multicellular organism growth GO:0035264 1 0.011
dephosphorylation GO:0016311 98 0.011
maintenance of protein localization in organelle GO:0072595 1 0.011
positive regulation of mitotic cell cycle GO:0045931 16 0.011
regulation of the force of heart contraction GO:0002026 9 0.011
cytoplasmic transport GO:0016482 115 0.011
negative regulation of gene expression GO:0010629 199 0.011
protein localization to endoplasmic reticulum GO:0070972 1 0.011
gonad development GO:0008406 104 0.011
single organism organelle organization GO:1902589 180 0.011
immune system process GO:0002376 204 0.011
single organism membrane budding GO:1902591 1 0.011
insulin secretion involved in cellular response to glucose stimulus GO:0035773 14 0.011
cellular amine metabolic process GO:0044106 38 0.010
rrna metabolic process GO:0016072 2 0.010
ion homeostasis GO:0050801 212 0.010
regulation of cellular amine metabolic process GO:0033238 8 0.010
negative regulation of protein modification by small protein conjugation or removal GO:1903321 4 0.010
dorsal ventral axis specification GO:0009950 2 0.010
positive regulation of phosphorus metabolic process GO:0010562 262 0.010

Rpl31 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.

Disease DO term ID Size Probability Func Analog Org