证据表明，大肠杆菌的调节蛋白 MarA 通过空间位阻抑制 rob。

Evidence that regulatory protein MarA of Escherichia coli represses rob by steric hindrance.

机构信息

Center for Adaptation Genetics and Drug Resistance and Department of Molecular Biology and Microbiology, Tufts University School of Medicine, Boston, Massachusetts 02111, USA.

出版信息

J Bacteriol. 2010 Aug;192(15):3977-82. doi: 10.1128/JB.00103-10. Epub 2010 May 7.

DOI:10.1128/JB.00103-10

PMID:20453091

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2916391/

Abstract

The MarA protein of Escherichia coli can both activate and repress the initiation of transcription, depending on the position and orientation of its degenerate 20-bp binding site ("marbox") at the promoter. For all three known repressed genes, the marbox overlaps the promoter. It has been reported that MarA represses the rob promoter via an RNA polymerase (RNAP)-DNA-MarA ternary complex. Under similar conditions, we found a ternary complex for the repressed purA promoter also. These findings, together with the backwards orientation of repressed marboxes, suggested a unique interaction of MarA with RNAP in repression. However, no repression-specific residues of MarA could be found among 38 single-alanine replacement mutations previously shown to retain activation function or among mutants from random mutagenesis. Mutations Thr12Ala, Arg36Ala, Thr95Ile, and Pro106Ala were more damaging for activation than for repression, some up to 10-fold, so these residues may play a specific role in activation. We found that nonspecific binding of RNAP to promoterless regions of DNA was presumably responsible for the ternary complexes seen previously. When RNAP binding was promoter specific, MarA reduced RNAP access to the rob promoter; there was little or no ternary complex. These findings strongly implicate steric hindrance as the mechanism of repression of rob by MarA.

摘要

大肠杆菌的 MarA 蛋白可以根据启动子上其退化的 20 个碱基结合位点（“marbox”）的位置和方向，激活或抑制转录的起始。对于所有三个已知的受抑制基因，marbox 重叠启动子。据报道，MarA 通过 RNA 聚合酶（RNAP）-DNA-MarA 三元复合物来抑制 rob 启动子。在类似的条件下，我们还发现了受抑制的 purA 启动子的三元复合物。这些发现，以及受抑制 marbox 的反向取向，表明 MarA 与 RNAP 在抑制中存在独特的相互作用。然而，在先前显示保留激活功能的 38 个单丙氨酸替换突变体或随机诱变的突变体中，没有发现 MarA 的抑制特异性残基。突变体 Thr12Ala、Arg36Ala、Thr95Ile 和 Pro106Ala 对激活的破坏作用大于对抑制的破坏作用，有些高达 10 倍，因此这些残基可能在激活中发挥特定作用。我们发现，RNAP 对无启动子区域的 DNA 的非特异性结合可能是先前观察到三元复合物的原因。当 RNAP 结合具有启动子特异性时，MarA 会降低 RNAP 对 rob 启动子的访问；几乎没有或没有三元复合物。这些发现强烈表明空间位阻是 MarA 抑制 rob 的机制。

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