Saccharomyces cerevisiae

0 known processes

MRPL37 (YBR268W)

Mrpl37p

MRPL37 biological process predictions


Filter by process size:
Biological process GO term ID Process size Probability Func Analog Org
cellular protein complex assembly GO:0043623 209 0.286
mitochondrion organization GO:0007005 261 0.252
protein complex assembly GO:0006461 302 0.190
single organism membrane organization GO:0044802 275 0.140
single organism cellular localization GO:1902580 375 0.093
cellular response to chemical stimulus GO:0070887 315 0.080
response to chemical GO:0042221 390 0.080
protein localization to mitochondrion GO:0070585 63 0.067
protein complex biogenesis GO:0070271 314 0.063
positive regulation of cellular biosynthetic process GO:0031328 336 0.059
membrane organization GO:0061024 276 0.058
negative regulation of cellular metabolic process GO:0031324 407 0.058
positive regulation of nitrogen compound metabolic process GO:0051173 412 0.052
negative regulation of macromolecule metabolic process GO:0010605 375 0.050
protein targeting GO:0006605 272 0.049
dna recombination GO:0006310 172 0.045
negative regulation of nucleobase containing compound metabolic process GO:0045934 295 0.042
cation transport GO:0006812 166 0.042
establishment of protein localization to organelle GO:0072594 278 0.042
protein localization to organelle GO:0033365 337 0.039
establishment of protein localization GO:0045184 367 0.037
transmembrane transport GO:0055085 349 0.035
establishment of protein localization to membrane GO:0090150 99 0.035
positive regulation of biosynthetic process GO:0009891 336 0.035
positive regulation of nucleobase containing compound metabolic process GO:0045935 409 0.034
positive regulation of macromolecule biosynthetic process GO:0010557 325 0.031
negative regulation of gene expression GO:0010629 312 0.029
intracellular protein transport GO:0006886 319 0.028
negative regulation of nitrogen compound metabolic process GO:0051172 300 0.027
regulation of transcription from rna polymerase ii promoter GO:0006357 394 0.027
single organism catabolic process GO:0044712 619 0.026
chemical homeostasis GO:0048878 137 0.021
cellular response to oxidative stress GO:0034599 94 0.021
negative regulation of cellular biosynthetic process GO:0031327 312 0.019
regulation of biological quality GO:0065008 391 0.018
homeostatic process GO:0042592 227 0.017
positive regulation of rna metabolic process GO:0051254 294 0.017
organonitrogen compound biosynthetic process GO:1901566 314 0.017
regulation of cellular component organization GO:0051128 334 0.017
single organism developmental process GO:0044767 258 0.017
negative regulation of macromolecule biosynthetic process GO:0010558 291 0.017
dna dependent dna replication GO:0006261 115 0.017
negative regulation of biosynthetic process GO:0009890 312 0.016
cellular component disassembly GO:0022411 86 0.015
protein complex disassembly GO:0043241 70 0.015
protein transport GO:0015031 345 0.014
dna replication GO:0006260 147 0.014
carbohydrate metabolic process GO:0005975 252 0.013
translational initiation GO:0006413 56 0.013
dna templated transcription initiation GO:0006352 71 0.013
response to oxidative stress GO:0006979 99 0.013
cation homeostasis GO:0055080 105 0.012
protein localization to membrane GO:0072657 102 0.012
regulation of organelle organization GO:0033043 243 0.012
positive regulation of macromolecule metabolic process GO:0010604 394 0.012
ribosome biogenesis GO:0042254 335 0.011
protein maturation GO:0051604 76 0.011
macromolecular complex disassembly GO:0032984 80 0.011
posttranscriptional regulation of gene expression GO:0010608 115 0.011
carbohydrate derivative metabolic process GO:1901135 549 0.011
ion transport GO:0006811 274 0.011
cellular response to external stimulus GO:0071496 150 0.011
mitochondrial membrane organization GO:0007006 48 0.010
metal ion transport GO:0030001 75 0.010
regulation of phosphate metabolic process GO:0019220 230 0.010

MRPL37 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