Drosophila melanogaster

10 known processes

CG8928 (Dmel_CG8928)

CG8928 gene product from transcript CG8928-RA

(Aliases: Dmel\CG8928)

CG8928 biological process predictions


Filter by process size:
Biological processGO term IDProcess sizeProbabilityFunc Analog Org
mitotic g2 m transition checkpointGO:0044818700.218
cellular response to dna damage stimulusGO:00069742230.068
regulation of cell cycle phase transitionGO:19019871300.061
mitotic cell cycle phase transitionGO:00447721380.060
regulation of mitotic cell cycleGO:00073461900.055
regulation of mitotic cell cycle phase transitionGO:19019901300.045
transcription from rna polymerase ii promoterGO:00063663680.044
vesicle mediated transportGO:00161923810.039
negative regulation of mitotic cell cycleGO:00459301090.039
negative regulation of mitotic cell cycle phase transitionGO:19019911030.037
negative regulation of cell cycle phase transitionGO:19019881030.035
cell cycle phase transitionGO:00447701400.034
negative regulation of intrinsic apoptotic signaling pathwayGO:200124310.029
gland developmentGO:00487321910.028
positive regulation of nucleobase containing compound metabolic processGO:00459353320.028
regulation of phosphate metabolic processGO:00192202100.028
muscle structure developmentGO:00610612240.027
regulation of response to stressGO:00801342000.025
cell chemotaxis involved in malpighian tubule morphogenesisGO:006135230.025
cell cycle checkpointGO:0000075950.024
regulation of multicellular organismal developmentGO:20000264140.024
negative regulation of eye photoreceptor cell developmentGO:004248030.024
organic substance catabolic processGO:19015753080.022
positive regulation of cell communicationGO:00106472500.021
positive regulation of macromolecule biosynthetic processGO:00105572830.021
protein transmembrane transportGO:007180640.020
cellular catabolic processGO:00442483720.020
septin cytoskeleton organizationGO:003218510.020
regulation of viral genome replicationGO:004506940.020
regulation of phosphatase activityGO:001092130.019
endocytosisGO:00068973100.019
positive regulation of developmental processGO:00510941430.018
catabolic processGO:00090564090.018
morphogenesis of an epitheliumGO:00020092760.018
mitotic g2 dna damage checkpointGO:0007095690.017
organelle assemblyGO:00709251980.017
positive regulation of histone h3 k4 methylationGO:005157110.016
actin filament based processGO:00300292200.016
organophosphate metabolic processGO:00196371950.016
purine containing compound metabolic processGO:00725211550.016
phagocytosisGO:00069092150.016
base excision repairGO:000628420.015
dna integrity checkpointGO:0031570810.015
macromolecular complex assemblyGO:00650032560.015
positive regulation of cellular biosynthetic processGO:00313283160.015
protein dna complex assemblyGO:0065004630.015
regulation of transcription from rna polymerase ii promoterGO:00063573780.014
defense response to bacteriumGO:00427421780.014
tissue deathGO:00162711020.014
g2 dna damage checkpointGO:0031572690.014
phosphorylationGO:00163102940.013
negative regulation of phosphatase activityGO:001092330.013
positive regulation of rna biosynthetic processGO:19026802660.013
dendrite developmentGO:00163582040.013
peptidyl serine phosphorylationGO:001810570.012
positive regulation of signalingGO:00230562430.012
actin cytoskeleton organizationGO:00300362060.011
regulation of cellular response to stressGO:0080135890.011
negative regulation of neurotransmitter secretionGO:004692920.011
positive regulation of signal transductionGO:00099672230.011
positive regulation of nitrogen compound metabolic processGO:00511733540.011
positive regulation of ribosome biogenesisGO:009007030.010
protein localizationGO:00081042840.010
negative regulation of cell cycleGO:00457861160.010
positive regulation of epidermal growth factor activated receptor activityGO:004574110.010
left right axis specificationGO:007098610.010
positive regulation of biosynthetic processGO:00098913160.010
organelle disassemblyGO:190300810.010

CG8928 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.

DiseaseDO term IDSizeProbabilityFunc Analog Org