Saccharomyces cerevisiae

37 known processes

HNM1 (YGL077C)

Hnm1p

(Aliases: CTR1)

HNM1 biological process predictions


Filter by process size:
Biological process GO term ID Process size Probability Func Analog Org
transmembrane transport GO:0055085 349 0.481
oxoacid metabolic process GO:0043436 351 0.415
nitrogen compound transport GO:0071705 212 0.280
vesicle mediated transport GO:0016192 335 0.209
organic anion transport GO:0015711 114 0.194
organic acid metabolic process GO:0006082 352 0.185
lipid metabolic process GO:0006629 269 0.133
small molecule biosynthetic process GO:0044283 258 0.115
ion transport GO:0006811 274 0.114
cation transport GO:0006812 166 0.110
carboxylic acid metabolic process GO:0019752 338 0.081
anion transport GO:0006820 145 0.076
response to organic cyclic compound GO:0014070 1 0.074
organic acid transport GO:0015849 77 0.062
phospholipid metabolic process GO:0006644 125 0.057
lipid biosynthetic process GO:0008610 170 0.057
ion transmembrane transport GO:0034220 200 0.055
organophosphate metabolic process GO:0019637 597 0.050
organonitrogen compound biosynthetic process GO:1901566 314 0.048
cellular amino acid metabolic process GO:0006520 225 0.047
regulation of cellular component organization GO:0051128 334 0.047
cellular amine metabolic process GO:0044106 51 0.045
response to organic substance GO:0010033 182 0.044
anion transmembrane transport GO:0098656 79 0.040
anatomical structure morphogenesis GO:0009653 160 0.039
organic acid biosynthetic process GO:0016053 152 0.038
glycerophospholipid metabolic process GO:0006650 98 0.035
response to organonitrogen compound GO:0010243 18 0.035
endocytosis GO:0006897 90 0.035
amine metabolic process GO:0009308 51 0.034
cellular lipid metabolic process GO:0044255 229 0.032
carboxylic acid transport GO:0046942 74 0.032
glycerolipid metabolic process GO:0046486 108 0.028
regulation of biological quality GO:0065008 391 0.028
organic hydroxy compound metabolic process GO:1901615 125 0.028
developmental process GO:0032502 261 0.027
alcohol metabolic process GO:0006066 112 0.026
intracellular signal transduction GO:0035556 112 0.026
multi organism process GO:0051704 233 0.025
cell communication GO:0007154 345 0.024
glycerophospholipid biosynthetic process GO:0046474 68 0.024
pseudohyphal growth GO:0007124 75 0.023
phosphatidylcholine metabolic process GO:0046470 20 0.023
vacuole organization GO:0007033 75 0.023
phospholipid biosynthetic process GO:0008654 89 0.022
negative regulation of nuclear division GO:0051784 62 0.021
ribonucleoprotein complex assembly GO:0022618 143 0.020
response to endogenous stimulus GO:0009719 26 0.020
filamentous growth of a population of unicellular organisms GO:0044182 109 0.019
signal transduction GO:0007165 208 0.019
regulation of nuclear division GO:0051783 103 0.018
detection of stimulus GO:0051606 4 0.016
cellular nitrogen compound catabolic process GO:0044270 494 0.016
negative regulation of cellular component organization GO:0051129 109 0.016
response to external stimulus GO:0009605 158 0.016
single organism signaling GO:0044700 208 0.016
organelle fission GO:0048285 272 0.016
secretion GO:0046903 50 0.015
signaling GO:0023052 208 0.015
carboxylic acid biosynthetic process GO:0046394 152 0.015
growth GO:0040007 157 0.014
cofactor metabolic process GO:0051186 126 0.014
lipid localization GO:0010876 60 0.014
regulation of organelle organization GO:0033043 243 0.014
single organism membrane organization GO:0044802 275 0.013
cellular modified amino acid metabolic process GO:0006575 51 0.013
ribonucleoprotein complex subunit organization GO:0071826 152 0.012
amino acid transport GO:0006865 45 0.012
response to oxygen containing compound GO:1901700 61 0.012
regulation of cell cycle GO:0051726 195 0.012
nucleobase containing compound transport GO:0015931 124 0.011
cellular biogenic amine metabolic process GO:0006576 37 0.011
single organism developmental process GO:0044767 258 0.011
response to oxidative stress GO:0006979 99 0.010

HNM1 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.

Disease DO term ID Size Probability Func Analog Org