Lysobacter enzymogenes: a fully armed biocontrol warrior1

Lysobacter enzymogenes is less-studied, but emerging as a powerful biocontrol bacterium producing multiple antimicrobial weapons including lytic enzymes, toxins, secondary metabolites and protein secretion systems. The loss of surface-attached flagellum, production of heat-stable antifungal factor (...

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Veröffentlicht in:	Journal of Integrative Agriculture 2024-02
Hauptverfasser:	Lin, Long, Shao, Xiaolong, Yang, Yicheng, Murero, Aprodisia Kavutu, Wang, Limin, Xu, Gaoge, Zhao, Yangyang, Han, Sen, Su, Zhenhe, Xu, Kangwen, Yang, Mingming, Liao, Jinxing, Li, Kaihuai, Liu, Fengquan, Qian, Guoliang
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Sprache:	eng
Schlagworte:	agriculture antibiotics Antimicrobial metabolites bacteria biological control biosynthesis flagellum heat stability Loss of flagella Lysobacter enzymogenes microbiome protein secretion Pseudomonas rhizosphere secondary metabolites species Type IV secretion system type VI secretion system
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container_title	Journal of Integrative Agriculture
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creator	Lin, Long Shao, Xiaolong Yang, Yicheng Murero, Aprodisia Kavutu Wang, Limin Xu, Gaoge Zhao, Yangyang Han, Sen Su, Zhenhe Xu, Kangwen Yang, Mingming Liao, Jinxing Li, Kaihuai Liu, Fengquan Qian, Guoliang
description	Lysobacter enzymogenes is less-studied, but emerging as a powerful biocontrol bacterium producing multiple antimicrobial weapons including lytic enzymes, toxins, secondary metabolites and protein secretion systems. The loss of surface-attached flagellum, production of heat-stable antifungal factor (HSAF, also named as Ningrongmycin) as a novel antifungal antibiotic, and the use of the type IV secretion system (T4SS) rather than the common type VI secretion system (T6SS) to kill competitors make this species unique. These distinct features set L. enzymogenes apart from well-studied plant beneficial biocontrol agents, such as Bacillus and Pseudomonas. This review describes what takes L. enzymogenes to be a unique biocontrol warrior by focusing to illustrate how the lack of flagellum governs morphological and functional co-adaptability, what adapted signaling transduction pathways are adopted to coordinate the biosynthesis of HSAF, and how to ecologically adapt plant rhizosphere by cell-to-cell interacting microbiome members via the bacterial-killing T4SS.
doi_str_mv	10.1016/j.jia.2024.02.021
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subjects	agriculture antibiotics Antimicrobial metabolites bacteria biological control biosynthesis flagellum heat stability Loss of flagella Lysobacter enzymogenes microbiome protein secretion Pseudomonas rhizosphere secondary metabolites species Type IV secretion system type VI secretion system
title	Lysobacter enzymogenes: a fully armed biocontrol warrior1
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