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配体诱导的组氨酸传感器激酶复合物不对称性调节群体感应。

Ligand-induced asymmetry in histidine sensor kinase complex regulates quorum sensing.

作者信息

Neiditch Matthew B, Federle Michael J, Pompeani Audra J, Kelly Robert C, Swem Danielle L, Jeffrey Philip D, Bassler Bonnie L, Hughson Frederick M

机构信息

Department of Molecular Biology, Princeton University, Princeton, NJ 08544, USA.

出版信息

Cell. 2006 Sep 22;126(6):1095-108. doi: 10.1016/j.cell.2006.07.032.

DOI:10.1016/j.cell.2006.07.032
PMID:16990134
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3468944/
Abstract

Bacteria sense their environment using receptors of the histidine sensor kinase family, but how kinase activity is regulated by ligand binding is not well understood. Autoinducer-2 (AI-2), a secreted signaling molecule originally identified in studies of the marine bacterium Vibrio harveyi, regulates quorum-sensing responses and allows communication between different bacterial species. AI-2 signal transduction in V. harveyi requires the integral membrane receptor LuxPQ, comprised of periplasmic binding protein (LuxP) and histidine sensor kinase (LuxQ) subunits. Combined X-ray crystallographic and functional studies show that AI-2 binding causes a major conformational change within LuxP, which in turn stabilizes a quaternary arrangement in which two LuxPQ monomers are asymmetrically associated. We propose that formation of this asymmetric quaternary structure is responsible for repressing the kinase activity of both LuxQ subunits and triggering the transition of V. harveyi into quorum-sensing mode.

摘要

细菌利用组氨酸传感器激酶家族的受体感知其环境,但激酶活性如何通过配体结合进行调节尚不清楚。自诱导物-2(AI-2)是一种最初在海洋细菌哈氏弧菌的研究中发现的分泌型信号分子,它调节群体感应反应,并允许不同细菌物种之间进行通讯。哈氏弧菌中的AI-2信号转导需要由周质结合蛋白(LuxP)和组氨酸传感器激酶(LuxQ)亚基组成的整合膜受体LuxPQ。结合X射线晶体学和功能研究表明,AI-2结合会导致LuxP内发生重大构象变化,进而稳定一种四级排列,其中两个LuxPQ单体不对称结合。我们提出,这种不对称四级结构的形成负责抑制两个LuxQ亚基的激酶活性,并触发哈氏弧菌向群体感应模式的转变。

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