Rattus norvegicus

0 known processes

Ndufa6

NADH dehydrogenase (ubiquinone) 1 alpha subcomplex, 6 (B14)

Ndufa6 biological process predictions


Filter by process size:
Biological process GO term ID Process size Probability Func Analog Org
peptide metabolic process GO:0006518 32 0.130
carboxylic acid metabolic process GO:0019752 289 0.063
cellular modified amino acid metabolic process GO:0006575 61 0.059
cellular amino acid metabolic process GO:0006520 107 0.056
cellular cation homeostasis GO:0030003 180 0.055
gliogenesis GO:0042063 93 0.046
regulation of metal ion transport GO:0010959 118 0.046
protein localization to endoplasmic reticulum GO:0070972 1 0.042
cellular metal ion homeostasis GO:0006875 172 0.033
cation homeostasis GO:0055080 195 0.031
ion homeostasis GO:0050801 212 0.031
positive regulation of cytosolic calcium ion concentration GO:0007204 122 0.031
glutathione metabolic process GO:0006749 15 0.030
sulfur compound metabolic process GO:0006790 70 0.025
regulation of cellular localization GO:0060341 263 0.023
metal ion homeostasis GO:0055065 186 0.023
regulation of molecular function GO:0065009 398 0.023
cellular ketone metabolic process GO:0042180 51 0.022
organic acid metabolic process GO:0006082 292 0.021
cellular ion homeostasis GO:0006873 184 0.019
sequestering of calcium ion GO:0051208 8 0.019
sequestering of metal ion GO:0051238 9 0.019
regulation of calcium ion transport into cytosol GO:0010522 25 0.018
chemical homeostasis GO:0048878 292 0.018
protein complex subunit organization GO:0071822 302 0.018
calcium ion transport GO:0006816 131 0.017
neurological system process GO:0050877 219 0.017
cellular calcium ion homeostasis GO:0006874 160 0.017
peptidyl cysteine modification GO:0018198 2 0.017
divalent inorganic cation homeostasis GO:0072507 165 0.016
single organism intracellular transport GO:1902582 166 0.016
maintenance of location GO:0051235 17 0.016
response to cadmium ion GO:0046686 35 0.016
negative regulation of sequestering of calcium ion GO:0051283 25 0.016
cellular chemical homeostasis GO:0055082 247 0.015
cytosolic calcium ion homeostasis GO:0051480 140 0.015
cellular catabolic process GO:0044248 295 0.015
cytosolic calcium ion transport GO:0060401 39 0.015
calcium ion homeostasis GO:0055074 162 0.015
transmission of nerve impulse GO:0019226 42 0.015
cellular component biogenesis GO:0044085 368 0.015
cell projection organization GO:0030030 302 0.014
cellular response to nitrogen compound GO:1901699 210 0.013
positive regulation of catalytic activity GO:0043085 184 0.013
positive regulation of molecular function GO:0044093 230 0.013
oxoacid metabolic process GO:0043436 290 0.013
regulation of anatomical structure size GO:0090066 135 0.013
regulation of ion transport GO:0043269 245 0.013
organophosphate metabolic process GO:0019637 370 0.012
divalent metal ion transport GO:0070838 132 0.012
response to nutrient levels GO:0031667 370 0.012
cellular divalent inorganic cation homeostasis GO:0072503 162 0.012
cellular response to endogenous stimulus GO:0071495 377 0.012
homeostatic process GO:0042592 331 0.012
multicellular organismal signaling GO:0035637 44 0.012
regulation of calcium ion transport GO:0051924 77 0.012
nucleoside metabolic process GO:0009116 179 0.011
regulation of catalytic activity GO:0050790 304 0.011
regulation of hormone levels GO:0010817 187 0.011
ensheathment of neurons GO:0007272 40 0.011
regulation of response to reactive oxygen species GO:1901031 3 0.011
negative regulation of protein modification by small protein conjugation or removal GO:1903321 4 0.011
cytoplasmic transport GO:0016482 115 0.011
catabolic process GO:0009056 351 0.011
spermatid differentiation GO:0048515 14 0.011
protein complex biogenesis GO:0070271 263 0.011
nucleobase containing small molecule metabolic process GO:0055086 316 0.011
macromolecular complex assembly GO:0065003 273 0.011
vascular process in circulatory system GO:0003018 96 0.011
regulation of homeostatic process GO:0032844 101 0.010
divalent inorganic cation transport GO:0072511 134 0.010

Ndufa6 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