二级泛素-RING 连接增强了 Arkadia 和 Ark2C E3 连接酶的活性。

Secondary ubiquitin-RING docking enhances Arkadia and Ark2C E3 ligase activity.

机构信息

Biochemistry Department, University of Otago, Dunedin, New Zealand.

出版信息

Nat Struct Mol Biol. 2016 Jan;23(1):45-52. doi: 10.1038/nsmb.3142. Epub 2015 Dec 14.

Abstract

RING-domain E3 ligases enhance transfer of ubiquitin to substrate proteins by stabilizing the RING-bound thioester-linked E2∼ubiquitin conjugate in a defined conformation that primes the active site for nucleophilic attack. Here we report that the monomeric RING domains from the human E3 ligases Arkadia and Ark2C bind directly to free ubiquitin with an affinity comparable to that of other dedicated ubiquitin-binding domains. Further work showed that the Ark-like RING domain and the noncovalently bound ubiquitin molecule coordinately stabilize the E2-conjugated ubiquitin (donor ubiquitin) in the 'closed' conformation. Our studies identify the RING domain of Arkadia as a ubiquitin-binding domain and provide insight into a new ubiquitin-dependent mechanism used by monomeric RING domains to activate ubiquitin transfer. This study also suggests how substrates that have been monoubiquitinated could be favored for further ubiquitination.

摘要

RING 结构域 E3 连接酶通过稳定 RING 结合的硫酯连接的 E2∼泛素缀合物来增强泛素向底物蛋白的转移，这种缀合物处于特定构象，使活性位点能够进行亲核攻击。在这里，我们报告说，来自人类 E3 连接酶 Arkadia 和 Ark2C 的单体 RING 结构域可直接与游离泛素结合，亲和力与其他专用泛素结合结构域相当。进一步的研究表明，Ark 样 RING 结构域和非共价结合的泛素分子协调稳定 E2 连接的泛素（供体泛素）处于“闭合”构象。我们的研究确定了 Arkadia 的 RING 结构域是一个泛素结合结构域，并提供了对单体 RING 结构域激活泛素转移所使用的新的泛素依赖性机制的深入了解。这项研究还表明，已经单泛素化的底物如何更有利于进一步的泛素化。

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二级泛素-RING 连接增强了 Arkadia 和 Ark2C E3 连接酶的活性。

Secondary ubiquitin-RING docking enhances Arkadia and Ark2C E3 ligase activity.

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