两个相互作用的传感激酶之间的信号传导促进了一种细菌共生体的生物膜形成和定殖。

Signaling between two interacting sensor kinases promotes biofilms and colonization by a bacterial symbiont.

作者信息

Norsworthy Allison N, Visick Karen L

机构信息

Department of Microbiology and Immunology, Loyola University Medical Center, 2160 S. First Ave., Maywood, IL, 60153, USA.

出版信息

Mol Microbiol. 2015 Apr;96(2):233-48. doi: 10.1111/mmi.12932. Epub 2015 Feb 11.

DOI:10.1111/mmi.12932

PMID:25586643

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4465548/

Abstract

Cells acclimate to fluctuating environments by utilizing sensory circuits. One common sensory pathway used by bacteria is two-component signaling (TCS), composed of an environmental sensor [the sensor kinase (SK)] and a cognate, intracellular effector [the response regulator (RR)]. The squid symbiont Vibrio fischeri uses an elaborate TCS phosphorelay containing a hybrid SK, RscS, and two RRs, SypE and SypG, to control biofilm formation and host colonization. Here, we found that another hybrid SK, SypF, was essential for biofilms by functioning downstream of RscS to directly control SypE and SypG. Surprisingly, although wild-type SypF functioned as an SK in vitro, this activity was dispensable for colonization. In fact, only a single non-enzymatic domain within SypF, the HPt domain, was critical in vivo. Remarkably, this domain within SypF interacted with RscS to permit a bypass of RscS's own HPt domain and SypF's enzymatic function. This represents the first in vivo example of a functional SK that exploits the enzymatic activity of another SK, an adaptation that demonstrates the elegant plasticity in the arrangement of TCS regulators.

摘要

细胞通过利用传感回路来适应波动的环境。细菌使用的一种常见传感途径是双组分信号传导（TCS），它由一个环境传感器[传感器激酶（SK）]和一个同源的细胞内效应器[反应调节因子（RR）]组成。鱿鱼共生菌费氏弧菌利用一个复杂的TCS磷酸化信号传递系统，该系统包含一个杂合SK、RscS以及两个RR，即SypE和SypG，来控制生物膜形成和宿主定殖。在这里，我们发现另一个杂合SK，即SypF，对于生物膜至关重要，它通过在RscS下游发挥作用来直接控制SypE和SypG。令人惊讶的是，尽管野生型SypF在体外发挥SK的功能，但这种活性对于定殖来说是可有可无的。事实上，在体内，SypF中只有一个非酶结构域，即组氨酸磷酸转移（HPt）结构域是至关重要的。值得注意的是，SypF中的这个结构域与RscS相互作用，从而绕过RscS自身的HPt结构域以及SypF的酶活性功能。这代表了第一个功能性SK在体内利用另一个SK的酶活性的例子，这种适应性展示了TCS调节因子排列中精妙的可塑性。

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