Discovery and characterization of the PpqI/R quorum sensing system activated by GacS/A and Hfq in Pseudomonas protegens H78

IF 6.1 1区 生物学 Q1 MICROBIOLOGY
Chenxi Nie , Xianqing Huang , Tao Xiang, Zheng Wang, Xuehong Zhang
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引用次数: 0

Abstract

Pseudomonas protegens can generally produce multiple antibiotics including pyoluteorin (Plt), 2,4-diacetylphloroglucinol (DAPG), and pyrrolnitrin (Prn). In this study, we discovered and characterized a quorum sensing (QS) system, PpqI/R, in P. protegens H78. PpqI/R, encoded by two open reading frames (ORFs) (H78_01960/01961) in P. protegens H78 genome, is a LuxI/R-type QS system. Four long-chain acyl homoserine lactone (AHL) signaling molecules, 3-OH-C10-HSL, 3-OH-C12-HSL, C12-HSL, and 3-OH-C14-HSL, are produced by H78. Biosynthesis of these AHLs is catalyzed by PpqI synthase and activated by the PpqR regulator in H78 and in Escherichia coli when heterologously expressed. PpqR activates ppqI expression by targeting the lux box upstream of the ppqI promoter in cooperation with corresponding AHLs. The four aforementioned AHLs exhibited different capabilities to induce ppqI promoter expression, with 3-OH-C12-HSL showing the highest induction activity. In H78 cells, ppqI/R expression is activated by the two-component system GacS/A and the RNA chaperone Hfq. Differential regulation of the PpqI/R system in secondary metabolism has a negative effect on DAPG biosynthesis and ped operon (involved in volatile organic compound biosynthesis) expression. In contrast, Plt biosynthesis and prn operon expression were positively regulated by PpqI/R. In summary, PpqI/R, the first characterized QS system in P. protegens, is activated by GacS/A and Hfq and controls the expression of secondary metabolites, including antibiotics.

蛋白假单胞菌 H78 中由 GacS/A 和 Hfq 激活的 PpqI/R 法定量传感系统的发现与特征描述。
蛋白假单胞菌通常能产生多种抗生素,包括焦土霉素(Plt)、2,4-二乙酰氯葡萄糖醇(DAPG)和吡咯烷酮(Prn)。在这项研究中,我们发现并鉴定了 P. protegens H78 中的法定量感应(QS)系统 PpqI/R。PpqI/R 由蛋白虫 H78 基因组中的两个开放阅读框(ORF)(H78_01960/01961)编码,是一种 LuxI/R 型 QS 系统。H78 产生四种长链酰基高丝氨酸内酯(AHL)信号分子,即 3-OH-C10-HSL、3-OH-C12-HSL、C12-HSL 和 3-OH-C14-HSL。这些 AHL 的生物合成由 PpqI 合成酶催化,在 H78 和异源表达的大肠杆菌中由 PpqR 调节器激活。PpqR 通过靶向 ppqI 启动子上游的 lux 框与相应的 AHL 合作激活 ppqI 的表达。上述四种 AHL 诱导 ppqI 启动子表达的能力各不相同,其中 3-OH-C12-HSL 的诱导活性最高。在H78细胞中,ppqI/R的表达是由双组分系统GacS/A和RNA伴侣Hfq激活的。次生代谢中 PpqI/R 系统的差异调控对 DAPG 的生物合成和 ped 操作子(参与挥发性有机化合物的生物合成)的表达有负面影响。相反,Plt 的生物合成和 prn 操作子的表达则受到 PpqI/R 的正向调节。总之,PpqI/R 是蛋白胨中第一个具有特征的 QS 系统,它由 GacS/A 和 Hfq 激活,控制次生代谢产物(包括抗生素)的表达。
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来源期刊
Microbiological research
Microbiological research 生物-微生物学
CiteScore
10.90
自引率
6.00%
发文量
249
审稿时长
29 days
期刊介绍: Microbiological Research is devoted to publishing reports on prokaryotic and eukaryotic microorganisms such as yeasts, fungi, bacteria, archaea, and protozoa. Research on interactions between pathogenic microorganisms and their environment or hosts are also covered.
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