应激体激活过程中复合物内信号传递的分子机制研究

Molecular insights into intra-complex signal transmission during stressosome activation.

机构信息

Department of Biophysics II / Structural Biology, University of Regensburg, Regensburg, 93053, Germany.

VU LSC-EMBL Partnership for Genome Editing Technologies, Life Sciences Center, Vilnius University, Vilnius, Lithuania.

出版信息

Commun Biol. 2022 Jun 27;5(1):621. doi: 10.1038/s42003-022-03549-9.

DOI:10.1038/s42003-022-03549-9

PMID:35760945

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9237128/

Abstract

The stressosome is a pseudo-icosahedral megadalton bacterial stress-sensing protein complex consisting of several copies of two STAS-domain proteins, RsbR and RsbS, and the kinase RsbT. Upon perception of environmental stress multiple copies of RsbT are released from the surface of the stressosome. Free RsbT activates downstream proteins to elicit a global cellular response, such as the activation of the general stress response in Gram-positive bacteria. The molecular events triggering RsbT release from the stressosome surface remain poorly understood. Here we present the map of Listeria innocua RsbR1/RsbS complex at resolutions of 3.45 Å for the STAS domain core in icosahedral symmetry and of 3.87 Å for the STAS domain and N-terminal sensors in D2 symmetry, respectively. The structure reveals a conformational change in the STAS domain linked to phosphorylation in RsbR. Docking studies indicate that allosteric RsbT binding to the conformationally flexible N-terminal sensor domain of RsbR affects the affinity of RsbS towards RsbT. Our results bring to focus the molecular events within the stressosome complex and further our understanding of this ubiquitous signaling hub.

摘要

应激体是一种拟二十面体的细菌应激感应蛋白复合物，由两个 STAS 结构域蛋白（RsbR 和 RsbS）和激酶 RsbT 的几个拷贝组成。在感知环境应激时，应激体表面的多个 RsbT 拷贝被释放。游离的 RsbT 激活下游蛋白，引发全局性的细胞反应，如革兰氏阳性菌的一般应激反应的激活。应激体表面的 RsbT 释放的分子事件仍知之甚少。本文以分辨率分别为 3.45Å（二十面体对称性下的 STAS 结构域核心）和 3.87Å（D2 对称性下的 STAS 结构域和 N 端传感器）解析了无害李斯特菌 RsbR1/RsbS 复合物的结构。结构揭示了 RsbR 中 STAS 结构域与磷酸化相关的构象变化。对接研究表明，RsbT 对 RsbR 构象柔性的 N 端传感器域的变构结合影响 RsbS 与 RsbT 的亲和力。我们的结果聚焦于应激体复合物内的分子事件，并进一步加深了对这一普遍存在的信号枢纽的理解。

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应激体激活过程中复合物内信号传递的分子机制研究

Molecular insights into intra-complex signal transmission during stressosome activation.

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