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核糖体相关复合物在酵母中多肽通道出口处与靠近核糖体蛋白L31的核糖体结合。

Ribosome-associated complex binds to ribosomes in close proximity of Rpl31 at the exit of the polypeptide tunnel in yeast.

作者信息

Peisker Kristin, Braun Daniel, Wölfle Tina, Hentschel Jendrik, Fünfschilling Ursula, Fischer Gunter, Sickmann Albert, Rospert Sabine

机构信息

Institute of Biochemistry and Molecular Biology, ZBMZ, University of Freiburg, D-79104 Freiburg, Germany.

出版信息

Mol Biol Cell. 2008 Dec;19(12):5279-88. doi: 10.1091/mbc.e08-06-0661. Epub 2008 Oct 1.

DOI:10.1091/mbc.e08-06-0661

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2592665/

Abstract

Ribosome-associated complex (RAC) consists of the Hsp40 homolog Zuo1 and the Hsp70 homolog Ssz1. The chaperone participates in the biogenesis of newly synthesized polypeptides. Here we have identified yeast Rpl31, a component of the large ribosomal subunit, as a contact point of RAC at the polypeptide tunnel exit. Rpl31 is encoded by RPL31a and RPL31b, two closely related genes. Delta rpl31a Delta rpl31b displayed slow growth and sensitivity to low as well as high temperatures. In addition, Delta rpl31a Delta rpl31b was highly sensitive toward aminoglycoside antibiotics and suffered from defects in translational fidelity. With the exception of sensitivity at elevated temperature, the phenotype resembled yeast strains lacking one of the RAC subunits or Rpl39, another protein localized at the tunnel exit. Defects of Delta rpl31a Delta rpl31b Delta zuo1 did not exceed that of Delta rpl31a Delta rpl31b or Delta zuo1. However, the combined deletion of RPL31a, RPL31b, and RPL39 was lethal. Moreover, RPL39 was a multicopy suppressor, whereas overexpression of RAC failed to rescue growth defects of Delta rpl31a Delta rpl31b. The findings are consistent with a model in that Rpl31 and Rpl39 independently affect a common ribosome function, whereas Rpl31 and RAC are functionally interdependent. Rpl31, while not essential for binding of RAC to the ribosome, might be involved in proper function of the chaperone complex.

摘要

核糖体相关复合物（RAC）由热休克蛋白40（Hsp40）同源物Zuo1和热休克蛋白70（Hsp70）同源物Ssz1组成。该分子伴侣参与新合成多肽的生物合成。在此，我们鉴定出酵母大亚基核糖体的组成成分Rpl31是RAC在多肽通道出口处的一个接触点。Rpl31由两个密切相关的基因RPL31a和RPL31b编码。缺失Rpl31a和Rpl31b的酵母菌株生长缓慢，对低温和高温敏感。此外，缺失Rpl31a和Rpl31b的酵母菌株对氨基糖苷类抗生素高度敏感，并且存在翻译保真度缺陷。除了高温敏感性外，该表型类似于缺乏RAC亚基之一或Rpl39（另一种位于通道出口的蛋白质）的酵母菌株。缺失Rpl31a、Rpl31b和Zuo1的酵母菌株的缺陷不超过缺失Rpl31a、Rpl31b或Zuo1的酵母菌株。然而，同时缺失RPL31a、RPL31b和RPL39是致死的。此外，RPL39是一种多拷贝抑制子，而RAC的过表达未能挽救缺失Rpl31a和Rpl31b的酵母菌株的生长缺陷。这些发现与一个模型一致，即Rpl31和Rpl39独立影响共同的核糖体功能，而Rpl31和RAC在功能上相互依赖。Rpl31虽然不是RAC与核糖体结合所必需的，但可能参与分子伴侣复合物的正常功能。