Nathalie Eisenhardt scite author profile

Abstract:The regulation of protein fate by modification with the small ubiquitin-related modifier (SUMO) plays an essential and crucial role in most cellular pathways. Sumoylation is highly dynamic due to the opposing activities of SUMO conjugation and SUMO deconjugation. SUMO conjugation is performed by the hierarchical action of E1, E2 and E3 enzymes, while its deconjugation involves SUMO-specific proteases. In this review, we summarize and compare the mechanistic principles of how SUMO gets conjugated to its substrate. We focus on the interplay of the E1, E2 and E3 enzymes and discuss how specificity could be achieved given the limited number of conjugating enzymes and the thousands of substrates.

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Dimerization and direct membrane interaction of Nup53 contribute to nuclear pore complex assembly

Vollmer

et al. 2012

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A new vertebrate SUMO enzyme family reveals insights into SUMO-chain assembly

Eisenhardt

Chaugule

Koidl

et al. 2015

Nat Struct Mol Biol

134

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SUMO chains act as stress-induced degradation tags or repair factor-recruiting signals at DNA lesions. Although E1 activating, E2 conjugating and E3 ligating enzymes efficiently assemble SUMO chains, specific chain-elongation mechanisms are unknown. E4 elongases are specialized E3 ligases that extend a chain but are inefficient in the initial conjugation of the modifier. We identified ZNF451, a representative member of a new class of SUMO2 and SUMO3 (SUMO2/3)-specific enzymes that execute catalysis via a tandem SUMO-interaction motif (SIM) region. One SIM positions the donor SUMO while a second SIM binds SUMO on the back side of the E2 enzyme. This tandem-SIM region is sufficient to extend a back side-anchored SUMO chain (E4 elongase activity), whereas efficient chain initiation also requires a zinc-finger region to recruit the initial acceptor SUMO (E3 ligase activity). Finally, we describe four human proteins sharing E4 elongase activities and their function in stress-induced SUMO2/3 conjugation.

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The nucleoporin Nup188 controls passage of membrane proteins across the nuclear pore complex

et al. 2010

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