Publication Details

Pubmed32350066
Title: FBXW7 Triggers Degradation of KMT2D to Favor Growth of Diffuse Large B-cell Lymphoma Cells.
Year: 2020
DOI: https://doi.org/10.1158/0008-5472.CAN-19-2247
First Author: Saffie
Experimental setup: affinity chromatography technology (Biogrid)
enzymatic study (Biogrid)
pull down (Biogrid)
Throughput: High Throughput (Biogrid)
Low Throughput (Biogrid)

Interactions

22 interactions
InteractorPartnerSourcesLink
SKP1_HUMANFBW1A_HUMANBioGRIDdetails
FBW1B_HUMANSKP1_HUMANBioGRIDdetails
FBXW7_HUMANCUL1_HUMANBioGRIDdetails
SKP2_HUMANSKP1_HUMANBioGRIDdetails
SKP1_HUMANFBXW2_HUMANBioGRIDdetails
SKP1_HUMANFBXW5_HUMANBioGRIDdetails
FBXW7_HUMANSKP1_HUMANBioGRIDdetails
KMT2D_HUMANASH2L_HUMANBioGRIDdetails
MYC_HUMANFBXW7_HUMANBioGRIDdetails
WDR5_HUMANKMT2D_HUMANBioGRIDdetails
KMT2D_HUMANKDM6A_HUMANBioGRIDdetails
KMT2D_HUMANNCOA6_HUMANBioGRIDdetails
FXL15_HUMANSKP1_HUMANBioGRIDdetails
FBXL3_HUMANSKP1_HUMANBioGRIDdetails
NFKB2_HUMANFBXW7_HUMANBioGRIDdetails
RBX1_HUMANUB2D3_HUMANBioGRIDdetails
FBXW7_HUMANASH2L_HUMANBioGRIDdetails
FBXW7_HUMANDPY30_HUMANBioGRIDdetails
FBXW7_HUMANKMT2D_HUMANBioGRIDdetails
FBXW7_HUMANNCOA6_HUMANBioGRIDdetails
FBXW7_HUMANKDM6A_HUMANBioGRIDdetails
FBXW7_HUMANWDR5_HUMANBioGRIDdetails