根际
生物
胡椒粉
微生物群
代谢组学
代谢物
次生代谢物
激发子
生物技术
植物
作物
抗性(生态学)
细菌
代谢途径
转基因作物
植物抗病性
细菌性疫病
水杨酸
植物对草食的防御
香豆素
可持续农业
基因
作者
Tianbing Zhou,Yuxin Xu,Yingtong Chen,Zhengbin Tang,Erxin Wang,Mengmeng Li,Mingrui Dou,Zhijia Zhang,Tao Zhang,Shujun Huang,S. Gu,Shuai Wang,Ranfeng Sun,Dong Li
标识
DOI:10.1021/acs.jafc.5c08807
摘要
Phytophthora capsici causes devastating losses in global pepper production. This study deciphers a sophisticated plant-microbe-metabolite collaboration initiated by rhizosphere-colonizing Streptomyces . We demonstrate that Streptomyces specifically primes pepper root biosynthesis of 6-nitrocoumarin, a nitrated coumarin derivative exhibiting potent broad-spectrum antioomycete activity (EC 50: P. capsici 44.39 mg/L, Phytophthora palmivora 47.06 mg/L, Peronophythora litchii 34.92 mg/L). Crucially, this Streptomyces -recruited metabolite functions as a keystone rhizosphere signal, selectively enriching beneficial bacterial consortia while directly disrupting the ABC transporters of pathogens. The restructured microbiome synergistically amplifies plant systemic resistance through upregulating defense genes and enhancing root immunity. Our work establishes 6-nitrocoumarin as a dual-functional inoculant, a direct actinomycete compound and microbiome modulator, revealing a novel plant-microbe codefense paradigm driven by Streptomyces -induced metabolic rewiring for sustainable crop protection.
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