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环二鸟苷酸(cyclic di-GMP)在 中响应氧化应激时,协同激活双组分转录调控因子 DevR。

Cyclic di-GMP co-activates the two-component transcriptional regulator DevR in in response to oxidative stress.

机构信息

From the National Key Laboratory of Agricultural Microbiology, College of Life Science and Technology, Huazhong Agricultural University, Wuhan 430070, China.

State Key Laboratory for Conservation and Utilization of Subtropical Agro-bioresources, College of Life Science and Technology, Guangxi University, Nanning 530004, China

出版信息

J Biol Chem. 2019 Aug 23;294(34):12729-12742. doi: 10.1074/jbc.RA119.008252. Epub 2019 Jul 3.

DOI:10.1074/jbc.RA119.008252
PMID:31270210
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6709620/
Abstract

Cyclic di-GMP (c-di-GMP) is an important second messenger in bacteria, and its regulatory network has been extensively studied. However, information regarding the activation mechanisms of its receptors remains limited. In this study, we characterized the two-component regulator DevR as a new c-di-GMP receptor and further uncovered a novel co-activation mechanism for effective regulation of DevR in mycobacteria. We show that high c-di-GMP levels induce the expression of the operon in and increase mycobacterial survival under oxidative stress. The deletion of either DevR or its two-component kinase DevS significantly weakened the stimulating effect of c-di-GMP on oxidative-stress tolerance of mycobacteria. We also found that DevR senses the c-di-GMP signal through its C-terminal structure and that c-di-GMP alone does not directly affect the DNA-binding activity of DevR. Strikingly, c-di-GMP stimulated DevR phosphorylation by the kinase DevS, thereby activating DevR's DNA-binding affinity. In summary, our results indicated that c-di-GMP triggers a phosphorylation-dependent mechanism that co-activates DevR's transcriptional activity. Our findings suggest a novel paradigm for the cross-talk between c-di-GMP signaling and two-component regulatory systems that activates transcription of stress-response genes in bacteria.

摘要

环二鸟苷酸 (c-di-GMP) 是细菌中一种重要的第二信使,其调控网络已得到广泛研究。然而,其受体的激活机制的信息仍然有限。在本研究中,我们将双组分调控因子 DevR 鉴定为一种新的 c-di-GMP 受体,并进一步揭示了一种新的协同激活机制,可有效调控分枝杆菌中的 DevR。我们发现,高水平的 c-di-GMP 诱导 操纵子在 中的表达,并增加分枝杆菌在氧化应激下的存活。DevR 或其双组分激酶 DevS 的缺失显著削弱了 c-di-GMP 对分枝杆菌氧化应激耐受性的刺激作用。我们还发现,DevR 通过其 C 端结构感知 c-di-GMP 信号,并且 c-di-GMP 本身不会直接影响 DevR 的 DNA 结合活性。引人注目的是,c-di-GMP 通过激酶 DevS 刺激 DevR 的磷酸化,从而激活 DevR 的 DNA 结合亲和力。总之,我们的结果表明,c-di-GMP 触发了一种依赖于磷酸化的机制,该机制协同激活了 DevR 的转录活性。我们的发现为 c-di-GMP 信号与双组分调控系统之间的相互作用提出了一个新的范例,该范例激活了细菌中应激反应基因的转录。

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2
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Nucleic Acids Res. 2018 Apr 20;46(7):3595-3611. doi: 10.1093/nar/gky146.
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Brucella abortus Senses the Intracellular Environment through the BvrR/BvrS Two-Component System, Which Allows B. abortus To Adapt to Its Replicative Niche.布鲁氏菌通过 BvrR/BvrS 双组分系统感知细胞内环境,使 B. abortus 能够适应其复制生态位。
Infect Immun. 2018 Mar 22;86(4). doi: 10.1128/IAI.00713-17. Print 2018 Apr.
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The Oxidative Stress Agent Hypochlorite Stimulates c-di-GMP Synthesis and Biofilm Formation in .氧化应激因子次氯酸盐刺激……中的环二鸟苷酸合成和生物膜形成。
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