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核糖体相关复合物(RAC)的结构分析揭示了一种不寻常的 Hsp70/Hsp40 相互作用。

Structural analysis of the ribosome-associated complex (RAC) reveals an unusual Hsp70/Hsp40 interaction.

机构信息

Zentrum für Molekulare Biologie der Universität Heidelberg, DKFZ-ZMBH Alliance, INF282, 69120 Heidelberg, Germany.

出版信息

J Biol Chem. 2010 Jan 29;285(5):3227-34. doi: 10.1074/jbc.M109.075804. Epub 2009 Nov 17.

DOI:10.1074/jbc.M109.075804
PMID:19920147
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2823442/
Abstract

Yeast Zuotin and Ssz are members of the conserved Hsp40 and Hsp70 chaperone families, respectively, but compared with canonical homologs, they atypically form a stable heterodimer termed ribosome-associated complex (RAC). RAC acts as co-chaperone for another Hsp70 to assist de novo protein folding. In this study, we identified the molecular basis for the unusual Hsp70/Hsp40 pairing using amide hydrogen exchange (HX) coupled with mass spectrometry and mutational analysis. Association of Ssz with Zuotin strongly decreased the conformational dynamics mainly in the C-terminal domain of Ssz, whereas Zuotin acquired strong conformational stabilization in its N-terminal segment. Deletion of the highly flexible N terminus of Zuotin abolished stable association with Ssz in vitro and caused a phenotype resembling the loss of Ssz function in vivo. Thus, the C-terminal domain of Ssz, the N-terminal extension of Zuotin, and their mutual stabilization are the major structural determinants for RAC assembly. We furthermore found dynamic changes in the J-domain of Zuotin upon complex formation that might be crucial for RAC co-chaperone function. Taken together, we present a novel mechanism for converting Zuotin and Ssz chaperones into a functionally active dimer.

摘要

酵母 Zuotin 和 Ssz 分别是保守的 Hsp40 和 Hsp70 伴侣蛋白家族的成员,但与典型的同源物相比,它们异常地形成了一种称为核糖体相关复合物 (RAC) 的稳定异源二聚体。RAC 作为另一种 Hsp70 的共伴侣,协助新生蛋白质折叠。在这项研究中,我们使用酰胺氢交换 (HX) 结合质谱和突变分析,确定了这种不寻常的 Hsp70/Hsp40 配对的分子基础。Ssz 与 Zuotin 的结合强烈降低了 Ssz 的 C 末端结构域的构象动力学,而 Zuotin 在其 N 末端获得了强烈的构象稳定性。Zuotin 高度灵活的 N 末端缺失在体外消除了与 Ssz 的稳定结合,并导致类似于体内 Ssz 功能丧失的表型。因此,Ssz 的 C 末端结构域、Zuotin 的 N 末端延伸及其相互稳定是 RAC 组装的主要结构决定因素。我们还发现,在形成复合物时,Zuotin 的 J 结构域发生了动态变化,这对于 RAC 共伴侣功能可能至关重要。总之,我们提出了一种将 Zuotin 和 Ssz 伴侣蛋白转化为功能活性二聚体的新机制。

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