标题: Small RNAs contribute to citrus Huanglongbing tolerance by manipulating methyl salicylate signaling and exogenous methyl salicylate primes citrus groves from emerging infection

作者:Cheng, Baoping, Xu, Le,Bilal, Muhammad Saqib,Huang, Qing,Niu, Dongdong,Ma, Hongyu,Zhou, Shaoxia,Peng, Aitian,Wei, Guo,Chen, Feng,Zeng,

摘要: Citrus production is severely threatened by the devastating Huanglongbing (HLB) disease globally. By studying and analyzing the defensive behaviors of an HLB-tolerant citrus cultivar Shatangju, we discovered that citrus can sense Candidatus Liberibacter asiaticus (CLas) infection and induce immune responses against HLB, which can be further strengthened by both endogenously produced and exogenously applied methyl salicylate (MeSA). This immune circuit is turned on by an miR2977-SAMT (encoding a citrus Salicylate [SA] O-methyltransferase) cascade, by which CLas infection leads to more in planta MeSA production and aerial emission. We provided both transgenic and multi-Year trail evidences that MeSA is an effective community immune signal. Ambient MeSA accumulation and foliage application can effectively induce defense gene expression and significantly boost citrus performance. We also found that miRNAs are battle fields between citrus and CLas, and about 30% of the differential gene expression upon CLas infection are regulated by miRNAs. Furthermore, CLas hijacks host key processes by manipulating key citrus miRNAs, and citrus employs miRNAs that coordinately regulate defense-related genes. Based on our results, we proposed that miRNAs and associated components are key targets for engineering or breeding resistant citrus varieties. We anticipate that MeSA-based management, either induced expression or external application, would be a promising tool for HLB control.

文献注录:Cheng, Baoping, Xu, Le,Bilal, Muhammad Saqib,Huang, Qing,Niu, Dongdong,Ma, Hongyu,Zhou, Shaoxia,Peng, Aitian,Wei, Guo,Chen, Feng,Zeng, . Small RNAs contribute to citrus Huanglongbing tolerance by manipulating methyl salicylate signaling and exogenous methyl salicylate primes citrus groves from emerging infection [J]. . 2023.

报/刊名:》,发表于2023

文献类型: [J]

页码: 页 / 共

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