PANTHER Gene Information   
Gene Symbol(s): ISG15
Organism: Canis lupus familiaris
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Gene Name: ISG15 ubiquitin like modifier
Gene ID: ENSCAFG00845020316.1
Protein ID: A0A8I3P342
Persistent Id: PTN000071958
Alternate Ids:
A0A8I3P342_CANLF(UniProtKB-ID) A0A8I3P342(Synonym)
100855667(GeneID) XP_003639101(refSeq)
ENSCAFG00845020316(Ensembl) 359319512(GI)
ENSCAFP00845028016(Ensembl_PRO) ENSCAFT00845035810(Ensembl_TRS)
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PANTHER Classification
PANTHER Family: UBIQUITIN (PTHR10666)
PANTHER Subfamily: UBIQUITIN-LIKE PROTEIN ISG15 (PTHR10666:SF267)  
PANTHER GO-slim Molecular Function: ubiquitin protein ligase binding
PANTHER GO-slim Biological Process: modification-dependent protein catabolic process
protein ubiquitination
PANTHER GO-slim Cellular Component: nucleus
cytoplasm
PANTHER protein class:
Pathway Categories: No pathway information available
GENE ONTOLOGY DATABASE ANNOTATIONS      Click to Expand...
GO MF Complete: ubiquitin protein ligase binding, integrin binding, protein tag activity
GO BP Complete: positive regulation of protein oligomerization, ISG15-protein conjugation, response to type I interferon, negative regulation of type I interferon-mediated signaling pathway, defense response to bacterium, positive regulation of erythrocyte differentiation, integrin-mediated signaling pathway, protein localization to mitochondrion, positive regulation of interferon-beta production, positive regulation of type II interferon production, defense response to virus, negative regulation of protein ubiquitination, positive regulation of interleukin-10 production, modification-dependent protein catabolic process, negative regulation of viral genome replication, positive regulation of bone mineralization
GO CC Complete: nucleus, cytoplasm, extracellular region
REACTOME DATABASE ANNOTATIONS   Click to Expand...
Reactome Pathways: Termination of translesion DNA synthesis, Immune System, Cytokine Signaling in Immune system, ISG15 antiviral mechanism, Translesion synthesis by Y family DNA polymerases bypasses lesions on DNA template, Interferon Signaling, DNA Repair, DNA Damage Bypass, Antiviral mechanism by IFN-stimulated genes

Orthologs