文献类型: 外文期刊
第一作者: Liu, Xiaoyu
作者: Liu, Xiaoyu;Matsumoto, Haruna;Lv, Tianxing;Zhan, Chengfang;Fang, Hongda;Pan, Qianqian;Xu, Haorong;Fan, Xiaoyan;Chu, Tianyi;Qiao, Kun;Wang, Qiangwei;Wang, Mengcen;Liu, Xiaoyu;Matsumoto, Haruna;Lv, Tianxing;Zhan, Chengfang;Fang, Hongda;Pan, Qianqian;Xu, Haorong;Fan, Xiaoyan;Chu, Tianyi;Qiao, Kun;Wang, Qiangwei;Wang, Mengcen;Liu, Xiaoyu;Matsumoto, Haruna;Lv, Tianxing;Zhan, Chengfang;Fang, Hongda;Pan, Qianqian;Xu, Haorong;Fan, Xiaoyan;Chu, Tianyi;Qiao, Kun;Wang, Qiangwei;Wang, Mengcen;Liu, Xiaoyu;Fan, Xiaoyan;Chen, Sunlu;Ma, Youning;Sun, Li;Wang, Mengcen
作者机构:
期刊名称:NATURE MICROBIOLOGY ( 影响因子:28.3; 五年影响因子:22.9 )
ISSN: 2058-5276
年卷期: 2023 年 8 卷 8 期
页码:
收录情况: SCI
摘要: Mutualistic interactions between host plants and their microbiota have the potential to provide disease resistance. Most research has focused on the rhizosphere, but it is unclear how the microbiome associated with the aerial surface of plants protects against infection. Here we identify a metabolic defence underlying the mutualistic interaction between the panicle and the resident microbiota in rice to defend against a globally prevalent phytopathogen, Ustilaginoidea virens, which causes false-smut disease. Analysis of the 16S ribosomal RNA gene and internal transcribed spacer sequencing data identified keystone microbial taxa enriched in the disease-suppressive panicle, in particular Lactobacillus spp. and Aspergillus spp. Integration of these data with primary metabolism profiling, host genome editing and microbial isolate transplantation experiments revealed that plants with these taxa could resist U. virens infection in a host branched-chain amino acid (BCAA)-dependent manner. Leucine, a predominant BCAA, suppressed U. virens pathogenicity by inducing apoptosis-like cell death through H2O2 overproduction. Additionally, preliminary field experiments showed that leucine could be used in combination with chemical fungicides with a 50% reduction in dose but similar efficacy to higher fungicide concentrations. These findings may facilitate protection of crops from panicle diseases prevalent at a global scale. The microbiota associated with the rice plant panicle can protect against fungal disease via modulating host leucine production and induction of apoptosis-like cell death in the pathogen.
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