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本文引用的文献

1
A Multicopper oxidase (Cj1516) and a CopA homologue (Cj1161) are major components of the copper homeostasis system of Campylobacter jejuni.多铜氧化酶(Cj1516)和CopA同源物(Cj1161)是空肠弯曲菌铜稳态系统的主要组成部分。
J Bacteriol. 2008 Dec;190(24):8075-85. doi: 10.1128/JB.00821-08. Epub 2008 Oct 17.
2
Adaptation of aerobically growing Pseudomonas aeruginosa to copper starvation.需氧生长的铜绿假单胞菌对铜饥饿的适应性
J Bacteriol. 2008 Oct;190(20):6706-17. doi: 10.1128/JB.00450-08. Epub 2008 Aug 15.
3
Mechanism of Cu+-transporting ATPases: soluble Cu+ chaperones directly transfer Cu+ to transmembrane transport sites.铜离子转运ATP酶的机制:可溶性铜离子伴侣蛋白直接将铜离子转移至跨膜转运位点。
Proc Natl Acad Sci U S A. 2008 Apr 22;105(16):5992-7. doi: 10.1073/pnas.0711446105. Epub 2008 Apr 15.
4
The copper resistance operon copAB from Xanthomonas axonopodis pathovar citri: gene inactivation results in copper sensitivity.来自柑橘溃疡病菌的铜抗性操纵子copAB:基因失活导致对铜敏感。
Microbiology (Reading). 2008 Feb;154(Pt 2):402-412. doi: 10.1099/mic.0.2007/013821-0.
5
Molecular characterization of the copper transport system in Staphylococcus aureus.金黄色葡萄球菌中铜转运系统的分子特征
Microbiology (Reading). 2007 Dec;153(Pt 12):4274-4283. doi: 10.1099/mic.0.2007/009860-0.
6
Multiple superoxide dismutases in Agrobacterium tumefaciens: functional analysis, gene regulation, and influence on tumorigenesis.根癌土壤杆菌中的多种超氧化物歧化酶:功能分析、基因调控及其对肿瘤发生的影响。
J Bacteriol. 2007 Dec;189(24):8807-17. doi: 10.1128/JB.00960-07. Epub 2007 Oct 5.
7
Intracellular copper does not catalyze the formation of oxidative DNA damage in Escherichia coli.细胞内的铜不会催化大肠杆菌中氧化性DNA损伤的形成。
J Bacteriol. 2007 Mar;189(5):1616-26. doi: 10.1128/JB.01357-06. Epub 2006 Dec 22.
8
Agrobacterium tumefaciens soxR is involved in superoxide stress protection and also directly regulates superoxide-inducible expression of itself and a target gene.根癌农杆菌soxR参与超氧化物应激保护,并且还直接调控其自身以及一个靶基因的超氧化物诱导表达。
J Bacteriol. 2006 Dec;188(24):8669-73. doi: 10.1128/JB.00856-06. Epub 2006 Oct 13.
9
Comparative genomics of regulation of heavy metal resistance in Eubacteria.真细菌中重金属抗性调控的比较基因组学。
BMC Microbiol. 2006 Jun 5;6:49. doi: 10.1186/1471-2180-6-49.
10
ohrR and ohr are the primary sensor/regulator and protective genes against organic hydroperoxide stress in Agrobacterium tumefaciens.ohrR和ohr是根癌土壤杆菌中针对有机氢过氧化物胁迫的主要传感/调节基因和保护基因。
J Bacteriol. 2006 Feb;188(3):842-51. doi: 10.1128/JB.188.3.842-851.2006.

根癌土壤杆菌中铜抗性所需的cop操纵子的功能与表达分析。

Functional and expression analyses of the cop operon, required for copper resistance in Agrobacterium tumefaciens.

作者信息

Nawapan Sirikan, Charoenlap Nisanart, Charoenwuttitam Anchalee, Saenkham Panatda, Mongkolsuk Skorn, Vattanaviboon Paiboon

机构信息

Chulabhorn Graduate Institute, Bangkok 10210, Thailand.

出版信息

J Bacteriol. 2009 Aug;191(16):5159-68. doi: 10.1128/JB.00384-09. Epub 2009 Jun 5.

DOI:10.1128/JB.00384-09
PMID:19502402
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2725580/
Abstract

The copper resistance determinant copARZ, which encodes a CPx-type copper ATPase efflux protein, a transcriptional regulator, and a putative intracellular copper chaperone, was functionally characterized for the phytopathogenic bacterium Agrobacterium tumefaciens. These genes are transcribed as an operon, and their expression is induced in response to increasing copper and silver ion concentrations in a copR-dependent fashion. Analysis of the copARZ promoter revealed a putative CopR binding box located within the spacer of the -35 and -10 promoter motifs. In vitro, purified CopR could specifically bind to the box. The inactivation of the copARZ operon or copZ reduces the level of resistance to copper but not to other metal ions. Also, the copARZ operon mutant shows increased sensitivity to the superoxide generators menadione and plumbagin. In addition, the loss of functional copZ does not affect the ability of copper ions to induce the copARZ promoter, indicating that CopZ is not involved in the copper-sensing mechanism of CopR. Altogether, the results demonstrate a crucial role for the copARZ operon as a component of the copper resistance machinery in A. tumefaciens.

摘要

编码一种CPx型铜ATP酶外排蛋白、一种转录调节因子和一种假定的细胞内铜伴侣的铜抗性决定簇copARZ,已针对植物致病细菌根癌土壤杆菌进行了功能表征。这些基因作为一个操纵子进行转录,并且它们的表达以copR依赖的方式响应于铜和银离子浓度的增加而被诱导。对copARZ启动子的分析揭示了一个假定的CopR结合框,其位于-35和-10启动子基序的间隔区内。在体外,纯化的CopR能够特异性地结合到该框上。copARZ操纵子或copZ的失活会降低对铜的抗性水平,但不会降低对其他金属离子的抗性。此外,copARZ操纵子突变体对超氧化物生成剂甲萘醌和白花丹素表现出更高的敏感性。另外,功能性copZ的缺失并不影响铜离子诱导copARZ启动子的能力,这表明CopZ不参与CopR的铜感应机制。总之,这些结果证明了copARZ操纵子作为根癌土壤杆菌铜抗性机制的一个组成部分的关键作用。