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由大肠杆菌的ArcA双组分应答调节蛋白介导的转录调控:靶启动子处DNA结合的特征

Transcriptional control mediated by the ArcA two-component response regulator protein of Escherichia coli: characterization of DNA binding at target promoters.

作者信息

Lynch A S, Lin E C

机构信息

Department of Microbiology and Molecular Genetics, Harvard Medical School, Boston, Massachusetts 02115, USA.

出版信息

J Bacteriol. 1996 Nov;178(21):6238-49. doi: 10.1128/jb.178.21.6238-6249.1996.

DOI:10.1128/jb.178.21.6238-6249.1996
PMID:8892825
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC178496/
Abstract

ArcA protein bearing an amino-terminal, oligohistidine extension has been purified, and its DNA binding activity has been characterized with or without prior incubation with carbamoyl phosphate. Electrophoretic mobility shift assays and DNase I protection assays indicate that where the phosphorylated form of the ArcA protein (ArcA-P) is expected to act as a transcriptional repressor (e.g., of lctPRD and gltA-sdhCDAB), the effect is likely to be mediated by sequestration of cis-controlling transcriptional regulatory elements. In contrast, in the case of cydAB, for which ArcA-P is expected to function as a transcriptional activator, two discrete binding sites have been identified upstream of a known promoter, and activation from these sites is likely to be mediated by a mechanism typical of the type I class of prokaryotic transcriptional activators. An additional ArcA-P binding site has also been located downstream of the known promoter, and a distinct role for this site in the regulation of the cydAB operon during anoxic growth transitions is suggested. These results are discussed within the framework of an overall model of signaling by the Arc two-component signal transduction system in response to changes in aerobiosis.

摘要

携带氨基末端寡组氨酸延伸的ArcA蛋白已被纯化,并且其DNA结合活性已在与氨甲酰磷酸预孵育或未预孵育的情况下进行了表征。电泳迁移率变动分析和DNase I保护分析表明,在预期ArcA蛋白的磷酸化形式(ArcA-P)作为转录阻遏物起作用的情况下(例如,对lctPRD和gltA-sdhCDAB而言),这种效应可能是通过隔离顺式控制转录调节元件来介导的。相反,对于cydAB,预期ArcA-P作为转录激活剂起作用,在已知启动子上游已鉴定出两个离散的结合位点,并且从这些位点的激活可能是由原核转录激活剂I类典型的机制介导的。另一个ArcA-P结合位点也位于已知启动子的下游,这表明该位点在缺氧生长转变期间对cydAB操纵子的调节中具有独特作用。这些结果在Arc双组分信号转导系统响应需氧状态变化的整体信号模型框架内进行了讨论。

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