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在鞭毛组装过程中,二聚体新型热休克蛋白40(HSP40)被整合到辐条复合体中。

Dimeric novel HSP40 is incorporated into the radial spoke complex during the assembly process in flagella.

作者信息

Yang Chun, Compton Mark M, Yang Pinfen

机构信息

Department of Biological Sciences, Marquette University, Milwaukee, WI 53233, USA.

出版信息

Mol Biol Cell. 2005 Feb;16(2):637-48. doi: 10.1091/mbc.e04-09-0787. Epub 2004 Nov 24.

DOI:10.1091/mbc.e04-09-0787
PMID:15563613
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC545900/
Abstract

The radial spoke is a stable structural complex in the 9 + 2 axoneme for the control of flagellar motility. However, the spokes in Chlamydomonas mutant pf24 are heterogeneous and unstable, whereas several spoke proteins are reduced differentially. To elucidate the defective mechanism, we clone RSP16, a prominent spoke protein diminished in pf24 axonemes. Unexpectedly, RSP16 is a novel HSP40 member of the DnaJ superfamily that assists chaperones in various protein-folding-related processes. Importantly, RSP16 is uniquely excluded from the 12S spoke precursor complex that is packaged in the cell body and transported toward the flagellar tip to be converted into mature 20S axonemal spokes. Rather, RSP16, transported separately, joins the precursor complex in flagella. Furthermore, RSP16 molecules in vitro and in flagella form homodimers, a characteristic required for the cochaperone activity of HSP40. We postulate that the spoke HSP40 operates as a cochaperone to assist chaperone machinery at the flagellar tip to actively convert the smaller spoke precursor and itself into the mature stable complex; failure of the interaction between the spoke HSP40 and its target polypeptide results in heterogeneous unstable radial spokes in pf24.

摘要

辐条是9+2轴丝中用于控制鞭毛运动的稳定结构复合体。然而,衣藻突变体pf24中的辐条是异质性且不稳定的,同时几种辐条蛋白也有不同程度的减少。为阐明缺陷机制,我们克隆了RSP16,一种在pf24轴丝中显著减少的主要辐条蛋白。出乎意料的是,RSP16是DnaJ超家族的一个新型HSP40成员,它在各种与蛋白质折叠相关的过程中协助伴侣蛋白。重要的是,RSP16被独特地排除在12S辐条前体复合体之外,该复合体在细胞体内组装并向鞭毛尖端运输,以转化为成熟的20S轴丝辐条。相反,单独运输的RSP16在鞭毛中加入前体复合体。此外,RSP16分子在体外和鞭毛中形成同二聚体,这是HSP40的共伴侣活性所必需的特征。我们推测,辐条HSP40作为共伴侣发挥作用,协助鞭毛尖端的伴侣蛋白机制将较小的辐条前体及其自身主动转化为成熟的稳定复合体;辐条HSP40与其靶多肽之间相互作用的失败导致pf24中出现异质性不稳定的辐条。

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