Abstract
TRIM family of E3 ubiquitin ligases have an amino-terminal conserved tripartite motif consisting of RING, B-Box, coiled-coil domain and different C-terminal domain leading it to classification into 11 subclasses. TRIM72 is an E3 ligase of class IV and subclass 1 with its role in a multitude of cellular processes. Despite being crucial in multiple cellular processes, TRIM72 still hasn't been biochemically characterized. In the present study, we have characterized the oligomeric status of TRIM72 and found that it forms both monomers, dimers, and tetramers. We have screened a set of 12 E2s and identified two novel E2 enzymes (Ubch5c and Ubch10) that work in cooperation with TRIM72. Nevertheless, E3 ligase activity is minimal and we propose that additional regulation is required to enhance its E3 ligase activity. We have also used surface plasmon resonance to study interaction with one of its substrate proteins, IRS1, and identified the PH domain of IRS1 is mediating interaction with the TRIM72 E3 ligase while the PTB domain of IRS1, does not show any interaction.