Publication Details

Pubmed28720576
Title: Deubiquitinating Enzyme USP9X Suppresses Tumor Growth via LATS Kinase and Core Components of the Hippo Pathway.
Year: 2017
DOI: https://doi.org/10.1158/0008-5472.CAN-16-3413
First Author: Toloczko
Experimental setup: affinity chromatography technology (Biogrid)
biochemical (Biogrid)
Throughput: High Throughput (Biogrid)
Low Throughput (Biogrid)

Interactions

25 interactions
InteractorPartnerSourcesLink
KIBRA_HUMANPTN14_HUMANBioGRIDdetails
KIBRA_HUMANAMOT_HUMANBioGRIDdetails
KIBRA_HUMANKPCI_HUMANBioGRIDdetails
KIBRA_HUMANDAG1_HUMANBioGRIDdetails
LATS2_HUMANUSP9X_HUMANBioGRIDdetails
USP9X_HUMANAMOL2_HUMANBioGRIDdetails
USP9X_HUMANAMOT_HUMANBioGRIDdetails
KIBRA_HUMANCTRO_HUMANBioGRIDdetails
KIBRA_HUMANUSP9X_HUMANBioGRIDdetails
KIBRA_HUMANMPDZ_HUMANBioGRIDdetails
KIBRA_HUMANRPGF6_HUMANBioGRIDdetails
KIBRA_HUMANAMOL1_HUMANBioGRIDdetails
KIBRA_HUMANPALS1_HUMANBioGRIDdetails
KIBRA_HUMANDLG1_HUMANBioGRIDdetails
KIBRA_HUMANDCTN1_HUMANBioGRIDdetails
KIBRA_HUMANMAEA_HUMANBioGRIDdetails
KIBRA_HUMANMYO1C_HUMANBioGRIDdetails
KIBRA_HUMANRMD5A_HUMANBioGRIDdetails
KIBRA_HUMANARMC8_HUMANBioGRIDdetails
KIBRA_HUMANCPVL_HUMANBioGRIDdetails
KIBRA_HUMANLIN7C_HUMANBioGRIDdetails
KIBRA_HUMANKC1E_HUMANBioGRIDdetails
AMOL1_HUMANUSP9X_HUMANBioGRIDdetails
SAV1_HUMANUSP9X_HUMANBioGRIDdetails
LATS1_HUMANUSP9X_HUMANBioGRIDdetails