BAIT
ATG9A
APG9L1, MGD3208, mATG9
autophagy related 9A
GO Process (5)
GO Function (1)
GO Component (9)
Gene Ontology Biological Process
Gene Ontology Molecular Function
Gene Ontology Cellular Component
Homo sapiens
PREY
SNX3
Grd19, MCOPS8, SDP3, RP3-429G5.4
sorting nexin 3
GO Process (12)
GO Function (6)
GO Component (11)
Gene Ontology Biological Process
- intralumenal vesicle formation [IMP]
- membrane invagination [IDA]
- negative regulation of early endosome to late endosome transport [IDA]
- negative regulation of phagocytosis [IMP]
- negative regulation of protein catabolic process [IDA]
- negative regulation of protein transport [IDA]
- negative regulation of viral entry into host cell [IDA]
- positive regulation of neuron projection development [ISS]
- protein to membrane docking [IDA]
- regulation of Wnt signaling pathway [IMP]
- response to bacterium [IDA]
- vesicle organization [IBA]
Gene Ontology Molecular Function
Gene Ontology Cellular Component
Homo sapiens
Proximity Label-MS
An interaction is inferred when a bait-enzyme fusion protein selectively modifies a vicinal protein with a diffusible reactive product, followed by affinity capture of the modified protein and identification by mass spectrometric methods.
Publication
BioID reveals an ATG9A interaction with ATG13-ATG101 in the degradation of p62/SQSTM1-ubiquitin clusters.
ATG9A, the only multi-pass transmembrane protein among core ATG proteins, is an essential regulator of autophagy, yet its regulatory mechanisms and network of interactions are poorly understood. Through quantitative BioID proteomics, we identify a network of ATG9A interactions that includes members of the ULK1 complex and regulators of membrane fusion and vesicle trafficking, including the TRAPP, EARP, GARP, exocyst, AP-1, ... [more]
EMBO Rep Dec. 05, 2020; 22(10);e51136 [Pubmed: 34369648]
Throughput
- High Throughput
Curated By
- BioGRID