Kaihuai Li, Chaoyun Ma, Xue Zhou, Chunlan Xiong, Bo Wang, Yong Wang, Fengquan Liu
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引用次数: 0
Abstract
Numerous bacterial species employ diffusible signal factor (DSF)-based quorum sensing (QS) as a widely conserved cell-cell signaling communication system to collectively regulate various behaviors crucial for responding to environmental changes. cis-11-Methyl-dodecenoic acid, known as DSF, was first identified as a signaling molecule in Xanthomonas campestris pv. campestris. Subsequently, many structurally related molecules have been identified in different bacterial species. This review aims to provide an overview of current understanding regarding the biosynthesis and regulatory role of DSF signals in both pathogenic bacteria and a biocontrol bacterium. Recent studies have revealed that the DSF-based QS system regulates antimicrobial factor production in a cyclic dimeric GMP-independent manner in the biocontrol bacterium Lysobacter enzymogenes. Additionally, the DSF family signals have been found to be involved in suppressing plant innate immunity. The discovery of these diverse signaling mechanisms holds significant promise for developing novel strategies to combat stubborn plant pathogens. [Formula: see text] Copyright © 2024 The Author(s). This is an open access article distributed under the CC BY-NC-ND 4.0 International license.
不同DSF家族群体感应信号在植物相关细菌中的调节作用。
许多细菌物种采用基于扩散信号因子(DSF)的群体感应(QS)作为一种广泛保守的细胞-细胞信号通信系统,共同调节对应对环境变化至关重要的各种行为。顺式-11-甲基-癸烯酸,被称为DSF,首次被鉴定为黄单胞菌pv的信号分子。campestris。随后,在不同的细菌物种中鉴定出了许多结构相关的分子。这篇综述旨在概述目前对DSF信号在病原菌和生防菌中的生物合成和调节作用的理解。最近的研究表明,基于DSF的QS系统以不依赖于环状di-GMP的方式调节生防菌赖杆菌酶基因中抗微生物因子的产生。此外,已经发现DSF家族信号与抑制植物先天免疫有关。这些不同信号机制的发现为开发对抗顽固植物病原体的新策略提供了重要的前景。
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