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Structural basis of Escherichia coli single-stranded DNA-binding protein stimulation of exonuclease I.大肠杆菌单链DNA结合蛋白对核酸外切酶I的刺激作用的结构基础
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Molecular interactions of Escherichia coli ExoIX and identification of its associated 3'-5' exonuclease activity.大肠杆菌ExoIX的分子相互作用及其相关3'-5'核酸外切酶活性的鉴定。
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Escherichia coli competence gene homologs are essential for competitive fitness and the use of DNA as a nutrient.大肠杆菌感受态基因同源物对于竞争适应性以及将DNA用作营养物质至关重要。
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DNA mismatch repair system. Classical and fresh roles.DNA错配修复系统。经典作用与新作用
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RecJ exonuclease: substrates, products and interaction with SSB.RecJ核酸外切酶:底物、产物及其与单链结合蛋白的相互作用。
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The growth advantage in stationary-phase phenotype conferred by rpoS mutations is dependent on the pH and nutrient environment.rpoS突变赋予的稳定期表型生长优势取决于pH值和营养环境。
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THE DEOXYRIBONUCLEASES OF ESCHERICHIA COLI. V. ON THE SPECIFICITY OF EXONUCLEASE I (PHOSPHODIESTERASE).大肠杆菌的脱氧核糖核酸酶。V. 关于核酸外切酶I(磷酸二酯酶)的特异性
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单链核酸外切酶在将DNA用作营养物质过程中的作用。

A role for single-stranded exonucleases in the use of DNA as a nutrient.

作者信息

Palchevskiy Vyacheslav, Finkel Steven E

机构信息

Molecular and Computational Biology Program, Department of Biological Sciences, University of Southern California, Los Angeles, CA 90089-2910, USA.

出版信息

J Bacteriol. 2009 Jun;191(11):3712-6. doi: 10.1128/JB.01678-08. Epub 2009 Mar 27.

DOI:10.1128/JB.01678-08
PMID:19329645
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2681894/
Abstract

Nutritional competence is the ability of bacterial cells to utilize exogenous double-stranded DNA molecules as a nutrient source. We previously identified several genes in Escherichia coli that are important for this process and proposed a model, based on models of natural competence and transformation in bacteria, where it is assumed that single-stranded DNA (ssDNA) is degraded following entry into the cytoplasm. Since E. coli has several exonucleases, we determined whether they play a role in the long-term survival and the catabolism of DNA as a nutrient. We show here that mutants lacking either ExoI, ExoVII, ExoX, or RecJ are viable during all phases of the bacterial life cycle yet cannot compete with wild-type cells during long-term stationary-phase incubation. We also show that nuclease mutants, alone or in combination, are defective in DNA catabolism, with the exception of the ExoX(-) single mutant. The ExoX(-) mutant consumes double-stranded DNA better than wild-type cells, possibly implying the presence of two pathways in E. coli for the processing of ssDNA as it enters the cytoplasm.

摘要

营养能力是指细菌细胞利用外源双链DNA分子作为营养源的能力。我们之前在大肠杆菌中鉴定出了几个对这一过程很重要的基因,并基于细菌自然感受态和转化模型提出了一个模型,该模型假定单链DNA(ssDNA)进入细胞质后会被降解。由于大肠杆菌有几种核酸外切酶,我们确定了它们是否在DNA作为营养物质的长期存活和分解代谢中发挥作用。我们在此表明,缺乏ExoI、ExoVII、ExoX或RecJ的突变体在细菌生命周期的所有阶段都能存活,但在长期稳定期培养过程中无法与野生型细胞竞争。我们还表明,核酸酶突变体单独或组合存在时,在DNA分解代谢方面存在缺陷,但ExoX(-)单突变体除外。ExoX(-)突变体比野生型细胞能更好地消耗双链DNA,这可能意味着大肠杆菌在ssDNA进入细胞质时存在两条处理途径。