芽孢杆菌分泌胁迫响应型 CssRS 双组分系统感知信号。

Signal perception by the secretion stress-responsive CssRS two-component system in Bacillus subtilis.

机构信息

Smurfit Institute of Genetics, Trinity College Dublin, Dublin, Ireland.

出版信息

J Bacteriol. 2012 Apr;194(7):1800-14. doi: 10.1128/JB.05767-11. Epub 2012 Feb 3.

DOI:10.1128/JB.05767-11

PMID:22307758

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3302470/

Abstract

The CssRS two-component system responds to heat and secretion stresses in Bacillus subtilis by controlling expression of HtrA and HtrB chaperone-type proteases and positively autoregulating its own expression. Here we report on the features of the CssS extracellular loop domain that are involved in signal perception and on CssS subcellular localization. Individual regions of the CssS extracellular loop domain contribute differently to signal perception and activation. The conserved hydrophilic 26-amino-acid segment juxtaposed to transmembrane helix 1 is involved in the switch between the deactivated and activated states, while the conserved 19-amino-acid hydrophobic segment juxtaposed to transmembrane 2 is required for signal perception and/or transduction. Perturbing the size of the extracellular loop domain increases CssS kinase activity and makes it unresponsive to secretion stress. CssS is localized primarily at the septum but is also found in a punctate pattern with lower intensity throughout the cell cylinder. Moreover, the CssRS-controlled HtrA and HtrB proteases are randomly distributed in foci throughout the cell surface, with more HtrB than HtrA foci in unstressed cells.

摘要

CssRS 双组分系统通过控制 HtrA 和 HtrB 伴侣蛋白酶的表达以及自身的正调控来响应枯草芽孢杆菌中的热和分泌应激。在这里，我们报告了参与信号感知的 CssS 细胞外环结构域的特征以及 CssS 的亚细胞定位。CssS 细胞外环结构域的各个区域对信号感知和激活的贡献不同。紧邻跨膜螺旋 1 的保守亲水 26 个氨基酸段参与失活和激活状态之间的转换，而紧邻跨膜 2 的保守 19 个氨基酸疏水段则需要用于信号感知和/或转导。改变细胞外环结构域的大小会增加 CssS 激酶的活性，并使其对分泌应激无反应。CssS 主要定位于隔膜，但也以点状图案存在，强度较低，遍布整个细胞圆柱。此外，CssRS 控制的 HtrA 和 HtrB 蛋白酶随机分布在整个细胞表面的焦点中，在未受应激的细胞中，HtrB 焦点比 HtrA 焦点多。

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