膜结合DNA结合蛋白的直接刺激感知与转录激活

Direct stimulus perception and transcription activation by a membrane-bound DNA binding protein.

作者信息

Gebhard Susanne, Gaballa Ahmed, Helmann John D, Cook Gregory M

机构信息

Department of Microbiology and Immunology, University of Otago, PO Box 56, Dunedin, New Zealand.

出版信息

Mol Microbiol. 2009 Aug;73(3):482-91. doi: 10.1111/j.1365-2958.2009.06787.x. Epub 2009 Jul 7.

DOI:10.1111/j.1365-2958.2009.06787.x

PMID:19602149

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2752741/

Abstract

Few membrane proteins with a role in transcriptional regulation have been studied, and none are able to perceive their respective stimuli and activate transcription of their regulons without the aid of auxiliary proteins. The bacitracin resistance regulator, BcrR, of Enterococcus faecalis is a membrane-bound DNA binding protein and is required for bacitracin-dependent expression of the bacitracin resistance genes, bcrABD. Here, we show that BcrR interacts directly with Zn2+ bacitracin (Kd = 2-5 micropM), but not metal-free bacitracin. A solution-based DNA binding assay demonstrated that the affinity of BcrR for its target DNA is much higher (Kd = 40 nM) than previously found for transmembrane regulators and is comparable to that of soluble DNA binding proteins. A construct of BcrR that lacked the transmembrane domain was unable to bind to DNA, indicating that membrane localization was important for DNA binding. Bacitracin did not cause a change in the DNaseI footprint of BcrR on the bcrA promoter, but in vitro transcription assays with BcrR proteoliposomes showed bacitracin-dependent activation of transcription. These findings demonstrate that BcrR is a bona fide one-component transmembrane signal transduction system, which perceives an extracellular stimulus (presence of bacitracin) and relays it to an intracellular transcriptional response independent of any auxiliary proteins.

摘要

很少有在转录调控中起作用的膜蛋白得到研究，而且在没有辅助蛋白帮助的情况下，没有一种膜蛋白能够感知其各自的刺激并激活其调控子的转录。粪肠球菌的杆菌肽抗性调节因子BcrR是一种膜结合DNA结合蛋白，是杆菌肽抗性基因bcrABD的杆菌肽依赖性表达所必需的。在这里，我们表明BcrR直接与Zn2+杆菌肽（Kd = 2 - 5微摩尔）相互作用，但不与无金属的杆菌肽相互作用。基于溶液的DNA结合试验表明，BcrR对其靶DNA的亲和力（Kd = 40 nM）比先前发现的跨膜调节因子高得多，并且与可溶性DNA结合蛋白相当。缺乏跨膜结构域的BcrR构建体无法与DNA结合，这表明膜定位对DNA结合很重要。杆菌肽不会导致BcrR在bcrA启动子上的DNaseI足迹发生变化，但用BcrR蛋白脂质体进行的体外转录试验表明，杆菌肽依赖性转录激活。这些发现表明，BcrR是一个真正的单组分跨膜信号转导系统，它感知细胞外刺激（杆菌肽的存在）并将其传递给细胞内转录反应，而不依赖于任何辅助蛋白。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d54f/2752741/cefa87c8ce90/nihms134991f1.jpg

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