肠沙门氏菌反应调节蛋白 SsrB 通过置换以聚合模式结合的 H-NS 来解除 H-NS 的沉默抑制作用,并直接激活转录。
Salmonella enterica response regulator SsrB relieves H-NS silencing by displacing H-NS bound in polymerization mode and directly activates transcription.
机构信息
Department of Microbiology and Immunology, University of Illinois, Chicago, Illinois 60612, USA.
出版信息
J Biol Chem. 2011 Jan 21;286(3):1895-902. doi: 10.1074/jbc.M110.164962. Epub 2010 Nov 8.
Abstract
The response regulator SsrB activates expression of genes encoded within and outside of a pathogenicity island (SPI-2), which is required for systemic infection of Salmonella. SsrB binds upstream of the sifA, sifB, and sseJ effector genes and directly regulates transcription. SsrB also relieves gene silencing by the nucleoid protein H-NS. Single molecule experiments with magnetic tweezers demonstrated that SsrB displaces H-NS from DNA only when it is bound in a polymerization (stiffening) mode and not when H-NS is bound to DNA in the bridging mode. Thus, in contrast to previous views, the polymerization binding mode of H-NS is the relevant form for counter-silencing by SsrB. Our results reveal that response regulators can directly activate transcription and also relieve H-NS silencing. This study adds to the repertoire of mechanisms by which NarL/FixJ subfamily members regulate transcription. Because SsrB-dependent promoters are diversely organized, additional mechanisms of transcriptional activation at other loci are likely.
摘要
响应调节蛋白 SsrB 激活病原性岛(SPI-2)内和外编码基因的表达,这是沙门氏菌全身感染所必需的。SsrB 结合在效应基因 sifA、sifB 和 sseJ 的上游,并直接调控转录。SsrB 还通过核蛋白 H-NS 解除基因沉默。磁镊的单分子实验表明,只有当 SsrB 结合在聚合(变硬)模式而不是 H-NS 结合在桥接模式时,SsrB 才会从 DNA 上置换 H-NS。因此,与先前的观点相反,H-NS 的聚合结合模式是 SsrB 反沉默的相关形式。我们的结果表明,响应调节蛋白可以直接激活转录,并解除 H-NS 的沉默。这项研究增加了 NarL/FixJ 亚家族成员调控转录的机制。由于 SsrB 依赖的启动子具有多样化的组织形式,其他基因座的转录激活可能存在其他机制。
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