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沙门氏菌生物膜的发育依赖于 RcsB 的磷酸化状态。

Salmonella biofilm development depends on the phosphorylation status of RcsB.

机构信息

Instituto de Agrobiotecnología, Idab, Universidad Pública de Navarra-CSIC-Gobierno de Navarra, Pamplona, Navarra, Spain.

出版信息

J Bacteriol. 2012 Jul;194(14):3708-22. doi: 10.1128/JB.00361-12. Epub 2012 May 11.

DOI:10.1128/JB.00361-12
PMID:22582278
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3393492/
Abstract

The Rcs phosphorelay pathway is a complex signaling pathway involved in the regulation of many cell surface structures in enteric bacteria. In response to environmental stimuli, the sensor histidine kinase (RcsC) autophosphorylates and then transfers the phosphate through intermediary steps to the response regulator (RcsB), which, once phosphorylated, regulates gene expression. Here, we show that Salmonella biofilm development depends on the phosphorylation status of RcsB. Thus, unphosphorylated RcsB, hitherto assumed to be inactive, is essential to activate the expression of the biofilm matrix compounds. The prevention of RcsB phosphorylation either by the disruption of the phosphorelay at the RcsC or RcsD level or by the production of a nonphosphorylatable RcsB allele induces biofilm development. On the contrary, the phosphorylation of RcsB by the constitutive activation of the Rcs pathway inhibits biofilm development, an effect that can be counteracted by the introduction of a nonphosphorylatable RcsB allele. The inhibition of biofilm development by phosphorylated RcsB is due to the repression of CsgD expression, through a mechanism dependent on the accumulation of the small noncoding RNA RprA. Our results indicate that unphosphorylated RcsB plays an active role for integrating environmental signals and, more broadly, that RcsB phosphorylation acts as a key switch between planktonic and sessile life-styles in Salmonella enterica serovar Typhimurium.

摘要

Rcs 磷酸传递途径是一种复杂的信号转导途径,参与调节肠道细菌的许多细胞表面结构。在响应环境刺激时,传感器组氨酸激酶(RcsC)自身磷酸化,然后通过中间步骤将磷酸传递给反应调节蛋白(RcsB),一旦磷酸化,就会调节基因表达。在这里,我们表明沙门氏菌生物膜的发育依赖于 RcsB 的磷酸化状态。因此,迄今为止被认为无活性的未磷酸化 RcsB 对于激活生物膜基质化合物的表达是必不可少的。通过破坏 RcsC 或 RcsD 水平的磷酸传递途径或产生不可磷酸化的 RcsB 等位基因来阻止 RcsB 磷酸化会诱导生物膜的发育。相反,通过 Rcs 途径的组成型激活使 RcsB 磷酸化会抑制生物膜的发育,这种效应可以通过引入不可磷酸化的 RcsB 等位基因来抵消。磷酸化的 RcsB 抑制生物膜的发育是由于 CsgD 表达的抑制,这是通过依赖于小非编码 RNA RprA 积累的机制来实现的。我们的结果表明,未磷酸化的 RcsB 对于整合环境信号起着积极的作用,更广泛地说,RcsB 磷酸化在沙门氏菌血清型鼠伤寒沙门氏菌的浮游和固着生活方式之间起着关键的转换作用。

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