Publication Details

Pubmed22792062
Title: Proteomic profiling of the TRAF3 interactome network reveals a new role for the ER-to-Golgi transport compartments in innate immunity.
Year: 2012
DOI: https://doi.org/10.1371/journal.ppat.1002747
First Author: van Zuylen
Experimental setup: affinity chromatography technology (Biogrid)
Throughput: High Throughput (Biogrid)
Low Throughput (Biogrid)

Interactions

22 interactions
InteractorPartnerSourcesLink
TRAF3_HUMANUSO1_HUMANBioGRIDdetails
SC16A_HUMANUSO1_HUMANBioGRIDdetails
SNP29_HUMANTRAF3_HUMANBioGRIDdetails
MAVS_HUMANTRAF3_HUMANBioGRIDdetails
TBK1_HUMANTRAF3_HUMANBioGRIDdetails
GOGA2_HUMANUSO1_HUMANBioGRIDdetails
TRAF3_HUMANTFG_HUMANBioGRIDdetails
TRAF3_HUMANSC16A_HUMANBioGRIDdetails
TRAF3_HUMANRBM14_HUMANBioGRIDdetails
TRAF3_HUMANDCAF7_HUMANBioGRIDdetails
TRAF3_HUMANGALC_HUMANBioGRIDdetails
TRAF3_HUMANDYR1A_HUMANBioGRIDdetails
TRAF3_HUMANETV6_HUMANBioGRIDdetails
TRAF3_HUMANTROAP_HUMANBioGRIDdetails
TRAF3_HUMANMYT1_HUMANBioGRIDdetails
USO1_HUMANMYOME_HUMANBioGRIDdetails
USO1_HUMANKAPCA_HUMANBioGRIDdetails
USO1_HUMANTRIPB_HUMANBioGRIDdetails
USO1_HUMANKAP3_HUMANBioGRIDdetails
USO1_HUMANCEP68_HUMANBioGRIDdetails
USO1_HUMANF184A_HUMANBioGRIDdetails
SC16A_HUMANTRAF2_HUMANBioGRIDdetails