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必需细菌细胞周期磷酸转移蛋白的分支信号布线。

Branched signal wiring of an essential bacterial cell-cycle phosphotransfer protein.

机构信息

Department of Developmental Biology, Stanford University School of Medicine, Stanford, CA 94305, USA.

出版信息

Structure. 2013 Sep 3;21(9):1590-601. doi: 10.1016/j.str.2013.06.024. Epub 2013 Aug 8.

DOI:10.1016/j.str.2013.06.024
PMID:23932593
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3787845/
Abstract

Vital to bacterial survival is the faithful propagation of cellular signals, and in Caulobacter crescentus, ChpT is an essential mediator within the cell-cycle circuit. ChpT functions as a histidine-containing phosphotransfer protein (HPt) that shuttles a phosphoryl group from the receiver domain of CckA, the upstream hybrid histidine kinase (HK), to one of two downstream response regulators (CtrA or CpdR) that controls cell-cycle progression. To understand how ChpT interacts with multiple signaling partners, we solved the crystal structure of ChpT at 2.3 Å resolution. ChpT adopts a pseudo-HK architecture but does not bind ATP. We identified two point mutation classes affecting phosphotransfer and cell morphology: one that globally impairs ChpT phosphotransfer, and a second that mediates partner selection. Importantly, a small set of conserved ChpT residues promotes signaling crosstalk and contributes to the branched signaling that activates the master regulator CtrA while inactivating the CtrA degradation signal, CpdR.

摘要

对于细菌的生存而言,细胞信号的准确传递至关重要。在新月柄杆菌中,ChpT 是细胞周期回路中的一个必需介质。ChpT 作为一种组氨酸残基磷酸转移蛋白(HPt),可以将磷酸基团从上游杂合组氨酸激酶(HK)的 CckA 受体结构域转移到两个下游反应调节子(CtrA 或 CpdR)之一,从而控制细胞周期进程。为了了解 ChpT 如何与多个信号伴侣相互作用,我们解析了 ChpT 的晶体结构,分辨率为 2.3Å。ChpT 采用假 HK 架构,但不结合 ATP。我们确定了两个影响磷酸转移和细胞形态的点突变类别:一类全局破坏 ChpT 磷酸转移,另一类介导伴侣选择。重要的是,一小部分保守的 ChpT 残基促进信号串扰,并有助于激活主调控因子 CtrA 同时抑制 CtrA 降解信号 CpdR 的分支信号。

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