Abstract
Covalent, reversible, post-translational modification of cellular proteins with the small modifier, ubiquitin (Ub), regulates virtually every known cellular process in eukaryotes. The process is carried out by a trio of enzymes: a Ub-activating (E1) enzyme, a Ub-conjugating (E2) enzyme, and a Ub ligase (E3) enzyme. RING-in-Between-RING (RBR) E3s constitute one of three classes of E3 ligases and are defined by a RING-HECT-hybrid mechanism that utilizes a E2-binding RING domain and a second domain (called RING2) that contains an active site Cys required for the formation of an obligatory E3~Ub intermediate. Albeit a small class, RBR E3s in humans regulate diverse cellular process. This review focuses on non-Parkin members such as HOIP/HOIL-1L (the only E3s known to generate linear Ub chains), HHARI and TRIAD1, both of which have been recently demonstrated to work together with Cullin RING E3 ligases. We provide a brief historical background and highlight, summarize, and discuss recent developments in the young field of RBR E3s. Insights reviewed here include new understandings of the RBR Ub-transfer mechanism, specifically the role of RING1 and various Ub-binding sites, brief structural comparisons among members, and different modes of auto-inhibition and activation.
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