Increased mistranslation protects E. coli from protein misfolding stress due to activation of a RpoS-dependent heat shock response

Evans Christopher R.; Fan Yongqiang; Ling Jiqiang

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Increased mistranslation protects E. coli from protein misfolding stress due to activation of a RpoS-dependent heat shock response

机译：由于激活RPOS依赖性热休克反应，增加的误差保护来自蛋白质错误折叠应力的大肠杆菌。

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The misincorporation of an incorrect amino acid into a polypeptide during protein synthesis is considered a detrimental phenomenon. A mistranslated protein is often misfolded and degraded or nonfunctional and results in an increased cost to quality control machinery. Despite these costs, errors during protein synthesis are common in bacteria. Here, we report that mistranslation in Escherichia coli increase the protein level of the heat shock sigma factor RpoH and protect cells against heat stress. Surprisingly, this increase in RpoH due to mistranslation is dependent on the presence of the general stress response sigma factor RpoS. This report provides evidence for a protective function of mistranslation and suggests a novel regulatory role of RpoS in the heat shock response.

机译：在蛋白质合成期间将不正确氨基酸的MISCLIND掺入多肽被认为是一种有害现象。误差蛋白通常被误折叠和降解或不起作力，并导致质量控制机械的成本增加。尽管这些成本，但蛋白质合成期间的误差是常见的细菌。在这里，我们报告说，大肠杆菌中的误传增加了热冲击σ因子RPOH的蛋白质水平并保护细胞免受热应激。令人惊讶的是，由于误传导致的RPOH的这种增加取决于一般应激响应Sigma因子RPO的存在。本报告提供了误导性保护功能的证据，并表明RPO在热休克反应中的新调节作用。

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来源
《FEBS letters.》 |2019年第22期|共8页
作者
Evans Christopher R.; Fan Yongqiang; Ling Jiqiang;
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作者单位

Univ Texas Hlth Sci Ctr Houston McGovern Med Sch Dept Microbiol &

Mol Genet Houston TX 77030 USA;

Univ Texas Hlth Sci Ctr Houston McGovern Med Sch Dept Microbiol &

Mol Genet Houston TX 77030 USA;

Univ Texas Hlth Sci Ctr Houston McGovern Med Sch Dept Microbiol &

Mol Genet Houston TX 77030 USA;

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原文格式 PDF
正文语种 eng
中图分类生物化学;
关键词
heat shock response; mistranslation; RpoH; RpoS;

机译：热休克反应;误导;RPOH;RPOS;

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专利

1. Increased mistranslation protects E. coli from protein misfolding stress due to activation of a RpoS-dependent heat shock response [J] . Evans Christopher R., Fan Yongqiang, Ling Jiqiang FEBS letters. . 2019,第22期

机译：由于激活RPOS依赖性热休克反应，增加的误差保护来自蛋白质错误折叠应力的大肠杆菌。
2. Induction of the heat shock regulon in response to increased mistranslation requires oxidative modification of the malformed proteins [J] . Fredriksson A, Ballesteros M, Dukan S, Molecular Microbiology . 2006,第1期

机译：响应于错误翻译增加而诱导热激调节子需要对畸形蛋白进行氧化修饰
3. Regulon and promoter analysis of the E. coli heat-shock factor, sigma32, reveals a multifaceted cellular response to heat stress. [J] . Nonaka G, Blankschien M, Herman C, Genes and Development: a Journal Devoted to the Molecular Analysis of Gene Expression in Eukaryotes, Prokaryotes, and Viruses . 2006,第13期

机译：大肠杆菌热休克因子sigma32的调节子和启动子分析揭示了细胞对热应激的多方面反应。
4. Growth Additives Induce Heat Shock Suite and Improve Heterologous Protein Solubility in E. Coli [C] . Ted Davis, Preethi Sarvabhowman, Juliane Liberto PEGS . 2015

机译：生长添加剂诱导热减震套件并改善大肠杆菌中的异源蛋白质溶解度
5. Examination of E. coli O157 and Salmonella presence and indicator organism levels within an organic farming environment and evaluation of environmental E. coli O157:H7 stress response to starvation and heat. [D] . Adhikari, Achyut. 2012

机译：在有机耕作环境中检查大肠杆菌O157和沙门氏菌的存在以及指示生物水平，并评估环境大肠杆菌O157：H7对饥饿和热的应激反应。
6. Regulon and promoter analysis of the E. coli heat-shock factor σ32 reveals a multifaceted cellular response to heat stress [O] . Gen Nonaka, Matthew Blankschien, Christophe Herman, 2006

机译：大肠杆菌热休克因子σ32的调节子和启动子分析揭示了细胞对热应激的多方面反应
7. Increased Mistranslation ProtectsE. colifrom Protein Misfolding Stress due to Activation of a RpoS-dependent Heat Shock Response [O] . Christopher R. Evans, Yongqiang Fan, Jiqiang Ling 2019

机译：增加误解保护。由于激活RPO依赖性热休克反应，ColiFrom蛋白质被误用应力

Increased mistranslation protects E. coli from protein misfolding stress due to activation of a RpoS-dependent heat shock response

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