Drosophila melanogaster

0 known processes

Srp14 (Dmel_CG5417)

CG5417 gene product from transcript CG5417-RC

(Aliases: Dmel\CG5417,BcDNA:RE48595,CG5417)

Srp14 biological process predictions


Filter by process size:
Biological process GO term ID Process size Probability Func Analog Org
catabolic process GO:0009056 409 0.072
single organism cellular localization GO:1902580 180 0.069
cytoplasmic transport GO:0016482 130 0.045
organic substance transport GO:0071702 257 0.044
establishment of localization in cell GO:0051649 402 0.041
embryo development ending in birth or egg hatching GO:0009792 152 0.041
protein localization GO:0008104 284 0.041
cellular macromolecule localization GO:0070727 220 0.039
positive regulation of developmental process GO:0051094 143 0.039
developmental growth GO:0048589 280 0.036
single organism intracellular transport GO:1902582 207 0.036
regulation of catabolic process GO:0009894 170 0.036
transcription from rna polymerase ii promoter GO:0006366 368 0.034
protein transport GO:0015031 155 0.032
intracellular protein transport GO:0006886 104 0.031
establishment of protein localization GO:0045184 163 0.030
endocytosis GO:0006897 310 0.027
larval development GO:0002164 104 0.027
intracellular transport GO:0046907 228 0.024
regulation of cellular catabolic process GO:0031329 157 0.023
protein targeting GO:0006605 64 0.022
chaperone mediated protein transport GO:0072321 1 0.021
positive regulation of macromolecule biosynthetic process GO:0010557 283 0.021
molting cycle chitin based cuticle GO:0007591 56 0.020
regulation of multicellular organismal development GO:2000026 414 0.020
small molecule metabolic process GO:0044281 305 0.020
response to oxygen containing compound GO:1901700 200 0.019
positive regulation of macromolecule metabolic process GO:0010604 405 0.019
eye development GO:0001654 323 0.016
positive regulation of gene expression GO:0010628 290 0.016
regulation of transcription from rna polymerase ii promoter GO:0006357 378 0.016
single organism catabolic process GO:0044712 228 0.016
regulation of cellular protein metabolic process GO:0032268 243 0.016
positive regulation of rna biosynthetic process GO:1902680 266 0.016
organelle fission GO:0048285 340 0.015
regulation of transport GO:0051049 181 0.015
regulation of immune system process GO:0002682 176 0.015
cellular catabolic process GO:0044248 372 0.015
positive regulation of nucleobase containing compound metabolic process GO:0045935 332 0.014
negative regulation of intrinsic apoptotic signaling pathway GO:2001243 1 0.014
mitotic nuclear division GO:0007067 213 0.014
response to organic substance GO:0010033 284 0.014
positive regulation of nitrogen compound metabolic process GO:0051173 354 0.014
regionalization GO:0003002 416 0.013
compound eye morphogenesis GO:0001745 249 0.013
eye photoreceptor cell differentiation GO:0001754 145 0.013
nucleoside phosphate catabolic process GO:1901292 110 0.013
negative regulation of cellular metabolic process GO:0031324 382 0.013
regulation of protein metabolic process GO:0051246 256 0.013
cellular response to chemical stimulus GO:0070887 199 0.013
cell migration GO:0016477 238 0.012
positive regulation of multicellular organismal process GO:0051240 143 0.012
smoothened signaling pathway GO:0007224 49 0.012
establishment of protein localization to organelle GO:0072594 62 0.012
phagocytosis GO:0006909 215 0.012
death GO:0016265 284 0.012
positive regulation of transcription dna templated GO:0045893 266 0.012
cellular protein localization GO:0034613 160 0.011
organic acid metabolic process GO:0006082 103 0.011
organonitrogen compound metabolic process GO:1901564 318 0.011
localization of cell GO:0051674 257 0.011
determination of adult lifespan GO:0008340 137 0.010
single organism membrane organization GO:0044802 93 0.010
purine containing compound catabolic process GO:0072523 112 0.010
positive regulation of transcription from rna polymerase ii promoter GO:0045944 204 0.010
regulation of localization GO:0032879 275 0.010
regulation of developmental growth GO:0048638 174 0.010

Srp14 disease predictions

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

Disease DO term ID Size Probability Func Analog Org