Abstract
In eukaryotes, DNA damage repair is implemented by a host of proteins that are coordinated by defined molecular signals. One such signal that transpires during the Fanconi Anemia (FA) - interstrand crosslink (ICL) repair pathway is the site-specific monoubiquitination of FANCD2 and FANCI proteins by a large, multi-protein FA core complex. The mechanics for this exquisitely specific monoubiquitin signal has been elusive. Here we show FANCL, the RING E3 module of the FA core complex, allosterically activates its cognate E2 Ube2T for monoubiquitination by a mechanism distinct from the typical RING-based catalysis. FANCL triggers intricate re-wiring of Ube2T’s intra-residue network thus activating the E2 for precision targeting. This network is intrinsically regulated by conserved gates and loops which can be engineered to yield Ube2T variants that enhance FANCD2 ubiquitination by ~30-fold without compromising on target specificity. Finally, we also uncover allosteric networks in other ubiquitin E2s that can be leveraged by RING E3 ligases to drive specific ubiquitination.