细菌（膜内感应）组氨酸激酶：信号传递而非刺激感应。

Bacterial (intramembrane-sensing) histidine kinases: signal transfer rather than stimulus perception.

机构信息

Ludwig-Maximilians-Universität München, Department of Biology I, Microbiology, Grosshaderner Strasse 2-4, 82152 Planegg-Martinsried, Germany.

出版信息

Trends Microbiol. 2014 Oct;22(10):559-65. doi: 10.1016/j.tim.2014.05.006. Epub 2014 Jun 16.

DOI:10.1016/j.tim.2014.05.006

PMID:24947190

Abstract

Most membrane-anchored histidine kinases (HKs) of bacterial two-component systems (2CSs) contain an extracellular input domain that is thought to be responsible for sensing an environmental cue. By contrast, intramembrane-sensing HKs (IM-HKs) lack a sensory domain and cannot perceive their stimuli directly. Instead, an N-terminal signal transfer region, consisting solely of two transmembrane helices, presumably connects the IM-HKs with accessory membrane proteins that function as the true sensors. This intermolecular signal transfer, in combination with intramolecular signal conversion, provides HKs with versatile signaling relays to connect, integrate, and amplify external signals from different sensory inputs ultimately to modulate the activity of the corresponding kinase domain.

摘要

大多数细菌双组分系统（2CS）的膜锚定组氨酸激酶（HKs）都包含一个胞外输入结构域，该结构域被认为负责感应环境信号。相比之下，跨膜感应 HKs（IM-HKs）缺乏感应结构域，不能直接感知其刺激。相反，一个由两个跨膜螺旋组成的 N 端信号转导区，可能将 IM-HKs 与作为真正传感器的辅助膜蛋白连接起来。这种分子间信号传递，结合分子内信号转换，为 HKs 提供了多功能信号中继，将来自不同传感输入的外部信号连接、整合和放大，最终调节相应激酶结构域的活性。

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细菌（膜内感应）组氨酸激酶：信号传递而非刺激感应。

Bacterial (intramembrane-sensing) histidine kinases: signal transfer rather than stimulus perception.

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