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p54 RNA解旋酶活性及其C末端结构域在翻译抑制、P小体定位和组装中的作用。

Role of p54 RNA helicase activity and its C-terminal domain in translational repression, P-body localization and assembly.

作者信息

Minshall Nicola, Kress Michel, Weil Dominique, Standart Nancy

机构信息

Department of Biochemistry, University of Cambridge, Cambridge CB2 1GA, United Kingdom.

出版信息

Mol Biol Cell. 2009 May;20(9):2464-72. doi: 10.1091/mbc.e09-01-0035. Epub 2009 Mar 18.

Abstract

The RNA helicase p54 (DDX6, Dhh1, Me31B, Cgh-1, RCK) is a prototypic component of P-(rocessing) bodies in cells ranging from yeast to human. Previously, we have shown that it is also a component of the large cytoplasmic polyadenylation element-binding protein translation repressor complex in Xenopus oocytes and that when tethered to the 3' untranslated region, Xp54 represses reporter mRNA translation. Here, we examine the role of the p54 helicase activity in translational repression and in P-body formation. Mutagenesis of conserved p54 helicase motifs activates translation in the tethered function assay, reduces accumulation of p54 in P-bodies in HeLa cells, and inhibits its capacity to assemble P-bodies in p54-depleted cells. Similar results were obtained in four helicase motifs implicated in ATP binding and in coupling ATPase and RNA binding activities. This is accompanied by changes in the interaction of the mutant p54 with the oocyte repressor complex components. Surprisingly, the C-terminal D2 domain alone is sufficient for translational repression and complete accumulation in P-bodies, although it is deficient for P-body assembly. We propose a novel RNA helicase model, in which the D2 domain acts as a protein binding platform and the ATPase/helicase activity allows protein complex remodeling that dictates the balance between repressors and an activator of translation.

摘要

RNA解旋酶p54(DDX6、Dhh1、Me31B、Cgh-1、RCK)是从酵母到人类等细胞中P(加工)小体的典型组成部分。此前,我们已经表明它也是非洲爪蟾卵母细胞中大型细胞质聚腺苷酸化元件结合蛋白翻译抑制复合物的一个组成部分,并且当与3'非翻译区相连时,Xp54会抑制报告基因mRNA的翻译。在这里,我们研究了p54解旋酶活性在翻译抑制和P小体形成中的作用。保守的p54解旋酶基序的诱变在连接功能测定中激活翻译,减少HeLa细胞中p54在P小体中的积累,并抑制其在p54缺失细胞中组装P小体的能力。在与ATP结合以及与ATP酶和RNA结合活性偶联的四个解旋酶基序中也获得了类似的结果。这伴随着突变型p54与卵母细胞抑制复合物组分相互作用的变化。令人惊讶的是,单独的C末端D2结构域就足以实现翻译抑制并在P小体中完全积累,尽管它在P小体组装方面存在缺陷。我们提出了一种新的RNA解旋酶模型,其中D2结构域作为蛋白质结合平台,而ATP酶/解旋酶活性允许蛋白质复合物重塑,从而决定翻译抑制因子和激活因子之间的平衡。

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