Ski2 样 RNA 解旋酶结构:共同主题与复杂组装。
Ski2-like RNA helicase structures: common themes and complex assemblies.
机构信息
Department of Chemistry & Biochemistry, Utah State University, Logan, UT, USA.
出版信息
RNA Biol. 2013 Jan;10(1):33-43. doi: 10.4161/rna.22101. Epub 2012 Sep 20.
Abstract
Ski2-like RNA helicases are large multidomain proteins involved in a variety of RNA processing and degradation events. Recent structures of Mtr4, Ski2 and Brr2 provide our first view of these intricate helicases. Here we review these structures, which reveal a conserved ring-like architecture that extends beyond the canonical RecA domains to include a winged helix and ratchet domain. Comparison of apo- and RNA-bound Mtr4 structures suggests a role for the winged helix domain as a molecular hub that coordinates RNA interacting events throughout the helicase. Unique accessory domains provide expanded diversity and functionality to each Ski2-like family member. A common theme is the integration of Ski2-like RNA helicases into larger protein assemblies. We describe the central role of Mtr4 and Ski2 in formation of complexes that activate RNA decay by the eukaryotic exosome. The current structures provide clues into what promises to be a fascinating view of these dynamic assemblies.
摘要
Ski2 样 RNA 解旋酶是参与多种 RNA 加工和降解事件的大型多功能蛋白。最近的 Mtr4、Ski2 和 Brr2 结构为我们提供了对这些复杂解旋酶的首次观察。在这里,我们回顾这些结构,揭示了一种保守的环状结构,该结构超出了规范的 RecA 结构域,包括一个翼状螺旋和棘轮结构域。apo 和 RNA 结合的 Mtr4 结构的比较表明,翼状螺旋结构域作为一个分子枢纽,在整个解旋酶中协调 RNA 相互作用事件。独特的辅助结构域为每个 Ski2 样家族成员提供了扩展的多样性和功能。一个共同的主题是将 Ski2 样 RNA 解旋酶整合到更大的蛋白质组装中。我们描述了 Mtr4 和 Ski2 在形成复合物中的核心作用,这些复合物通过真核 exosome 激活 RNA 降解。目前的结构为这些动态组装提供了一个引人入胜的视角。
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