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碳水化合物和 PepO 通过调控变异链球菌的双模态感应控制其感受态发育。

Carbohydrate and PepO control bimodality in competence development by Streptococcus mutans.

机构信息

Department of Physics, University of Florida, 2001 Museum Road, Gainesville, FL, 32611, USA.

Department of Oral Biology, University of Florida, 1395 Center Drive, Gainesville, FL, 32610, USA.

出版信息

Mol Microbiol. 2019 Nov;112(5):1388-1402. doi: 10.1111/mmi.14367. Epub 2019 Aug 29.

DOI:10.1111/mmi.14367
PMID:31403729
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6842401/
Abstract

In Streptococcus mutans, the alternative sigma factor ComX controls entry into genetic competence. Competence stimulating peptide (CSP) induces bimodal expression of comX, with only a fraction of the population becoming transformable. Curiously, the bimodality of comX is affected by peptides in the growth medium and by carbohydrate source. CSP elicits bimodal expression of comX in media rich in small peptides, but CSP elicits no response in defined media lacking small peptides. In addition, growth on certain sugars increases the proportion of the population that activates comX in response to CSP. By investigating the connection between media and comX bimodality, we find evidence for two mechanisms that modulate transcriptional positive feedback in the ComRS system, where comX bimodality originates. We find that the endopeptidase PepO suppresses the ComRS feedback loop, most likely by degrading the XIP/ComS feedback signal. Deletion of pepO eliminates comX bimodality, leading to a unimodal comX response to CSP in both defined and complex media. We also find that CSP stimulates the ComRS feedback system by upregulating comR in a carbohydrate source-dependent fashion. Our data provide mechanistic insight into how S. mutans regulates bimodality and explain the puzzle of growth medium effects on competence induction by CSP.

摘要

在变异链球菌中,替代σ因子 ComX 控制着进入遗传感受态的过程。感受态刺激肽(CSP)诱导 comX 的双峰表达,只有一部分群体具有转化能力。奇怪的是,comX 的双峰性受到生长培养基中的肽和碳源的影响。CSP 在富含小肽的培养基中诱导 comX 的双峰表达,但在缺乏小肽的限定培养基中 CSP 没有反应。此外,在某些糖上的生长增加了对 CSP 响应而激活 comX 的群体比例。通过研究培养基和 comX 双峰性之间的联系,我们发现了两种调节 ComRS 系统转录正反馈的机制的证据,其中 comX 双峰性起源于此。我们发现内肽酶 PepO 抑制了 ComRS 反馈回路,很可能是通过降解 XIP/ComS 反馈信号。pepO 的缺失消除了 comX 的双峰性,导致 CSP 在限定和复杂培养基中对 comX 的反应呈单峰。我们还发现,CSP 通过以依赖于碳源的方式上调 comR 来刺激 ComRS 反馈系统。我们的数据为变异链球菌如何调节双峰性以及解释 CSP 对感受态诱导的生长培养基效应的难题提供了机制上的见解。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3dfb/6842401/50ba794a5276/nihms-1045979-f0009.jpg
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