Abstract
ABSTRACTUbiquitin chain formation by HECT catalytic domain-containing E3 ligases regulates vast biology, yet the structural mechanisms remain unknown. We employed chemistry and cryo-EM to visualize stable mimics of the intermediates along K48-linked ubiquitin chain formation by the human E3, UBR5. The structural data reveal a ≈620 kDa UBR5 dimer as the functional unit, comprising a scaffold with flexibly-tethered ubiquitin-binding UBA domains, and elaborately arranged HECT domains. Chains are forged by a UBA domain capturing an acceptor ubiquitin, with its K48 lured into the active site by numerous interactions between the acceptor ubiquitin, manifold UBR5 elements, and the donor ubiquitin. The cryo-EM reconstructions allow defining conserved HECT domain conformations catalyzing ubiquitin transfer from E2 to E3, and from E3. Our data show how a full-length E3, ubiquitins to be adjoined, E2, and intermediary products guide a feed-forward HECT domain conformational cycle establishing a highly efficient, broadly targeting, K48-linked ubiquitin chain forging machine.
Publisher
Cold Spring Harbor Laboratory
Cited by
2 articles.
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