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本文引用的文献

1
Discovery of a Unique Clp Component, ClpF, in Chloroplasts: A Proposed Binary ClpF-ClpS1 Adaptor Complex Functions in Substrate Recognition and Delivery.叶绿体中独特的Clp组分ClpF的发现:一种拟议的二元ClpF-ClpS1衔接子复合物在底物识别和传递中发挥作用。
Plant Cell. 2015 Oct;27(10):2677-91. doi: 10.1105/tpc.15.00574. Epub 2015 Sep 29.
2
Adaptor-mediated Lon proteolysis restricts Bacillus subtilis hyperflagellation.衔接蛋白介导的Lon蛋白酶解作用限制枯草芽孢杆菌的过度鞭毛形成。
Proc Natl Acad Sci U S A. 2015 Jan 6;112(1):250-5. doi: 10.1073/pnas.1417419112. Epub 2014 Dec 23.
3
Proteotoxic stress induces a cell-cycle arrest by stimulating Lon to degrade the replication initiator DnaA.蛋白毒性应激通过刺激 Lon 降解复制起始因子 DnaA 诱导细胞周期停滞。
Cell. 2013 Aug 1;154(3):623-36. doi: 10.1016/j.cell.2013.06.034.
4
ClpS1 is a conserved substrate selector for the chloroplast Clp protease system in Arabidopsis.ClpS1 是拟南芥叶绿体 Clp 蛋白酶系统的一种保守的底物选择因子。
Plant Cell. 2013 Jun;25(6):2276-301. doi: 10.1105/tpc.113.112557. Epub 2013 Jun 28.
5
Engineering fluorescent protein substrates for the AAA+ Lon protease.工程化荧光蛋白底物用于 AAA+ Lon 蛋白酶。
Protein Eng Des Sel. 2013 Apr;26(4):299-305. doi: 10.1093/protein/gzs105. Epub 2013 Jan 28.
6
Co-evolution of multipartite interactions between an extended tmRNA tag and a robust Lon protease in Mycoplasma.Mycoplasma 中 tmRNA 标签与强大的 Lon 蛋白酶之间的多组分相互作用的共同进化。
Mol Microbiol. 2009 Dec;74(5):1083-99. doi: 10.1111/j.1365-2958.2009.06923.x. Epub 2009 Nov 13.
7
Degrons in protein substrates program the speed and operating efficiency of the AAA+ Lon proteolytic machine.蛋白质底物中的降解结构域决定了AAA+ Lon蛋白酶解机器的速度和运作效率。
Proc Natl Acad Sci U S A. 2009 Nov 3;106(44):18503-8. doi: 10.1073/pnas.0910392106. Epub 2009 Oct 19.
8
Evolution of the ssrA degradation tag in Mycoplasma: specificity switch to a different protease.支原体中ssrA降解标签的演变:特异性转换至不同蛋白酶。
Proc Natl Acad Sci U S A. 2008 Oct 21;105(42):16113-8. doi: 10.1073/pnas.0808802105. Epub 2008 Oct 13.
9
Direct and adaptor-mediated substrate recognition by an essential AAA+ protease.一种必需的AAA+蛋白酶对底物的直接识别和衔接蛋白介导的底物识别
Proc Natl Acad Sci U S A. 2007 Apr 17;104(16):6590-5. doi: 10.1073/pnas.0701776104. Epub 2007 Apr 9.
10
Biological roles of the Lon ATP-dependent protease.Lon ATP 依赖性蛋白酶的生物学作用。
Res Microbiol. 2006 Oct;157(8):701-13. doi: 10.1016/j.resmic.2006.05.004. Epub 2006 Jun 30.

热休克蛋白Q作为AAA+ Lon蛋白酶独特的特异性增强因子发挥作用。

HspQ Functions as a Unique Specificity-Enhancing Factor for the AAA+ Lon Protease.

作者信息

Puri Neha, Karzai A Wali

机构信息

Department of Biochemistry and Cell Biology, Center for Infectious Diseases, Graduate Program in Molecular and Cellular Biology, Stony Brook University, Stony Brook, NY 11794, USA.

Department of Biochemistry and Cell Biology, Center for Infectious Diseases, Graduate Program in Molecular and Cellular Biology, Stony Brook University, Stony Brook, NY 11794, USA.

出版信息

Mol Cell. 2017 Jun 1;66(5):672-683.e4. doi: 10.1016/j.molcel.2017.05.016.

DOI:10.1016/j.molcel.2017.05.016
PMID:28575662
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8054221/
Abstract

The AAA+ Lon protease is conserved from bacteria to humans, performs crucial roles in protein homeostasis, and is implicated in bacterial pathogenesis and human disease. We investigated how Lon selectively degrades specific substrates among a diverse array of potential targets. We report the discovery of HspQ as a new Lon substrate, unique specificity-enhancing factor, and potent allosteric activator. Lon recognizes HspQ via a C-terminal degron, whose precise presentation, in synergy with multipartite contacts with the native core of HspQ, is required for allosteric Lon activation. Productive HspQ-Lon engagement enhances degradation of multiple new and known Lon substrates. Our studies reveal the existence and simultaneous utilization of two distinct substrate recognition sites on Lon, an HspQ binding site and an HspQ-modulated allosteric site. Our investigations unveil an unprecedented regulatory use of an evolutionarily conserved heat shock protein and present a distinctive mechanism for how Lon protease achieves temporally enhanced substrate selectivity.

摘要

AAA+ Lon蛋白酶从细菌到人类都高度保守,在蛋白质稳态中发挥关键作用,并与细菌致病性和人类疾病有关。我们研究了Lon如何在众多潜在靶标中选择性降解特定底物。我们报告发现HspQ是一种新的Lon底物、独特的特异性增强因子和强效变构激活剂。Lon通过C端降解子识别HspQ,其精确呈现与与HspQ天然核心的多部分接触协同作用,是Lon变构激活所必需的。有效的HspQ-Lon相互作用增强了多种新的和已知的Lon底物的降解。我们的研究揭示了Lon上两个不同底物识别位点的存在和同时利用,一个是HspQ结合位点,另一个是HspQ调节的变构位点。我们的研究揭示了一种进化保守的热休克蛋白前所未有的调节用途,并提出了Lon蛋白酶如何实现时间上增强的底物选择性的独特机制。