生物
茉莉酸
茉莉酸
茉莉酸甲酯
花序
细胞生物学
基因
酶
生物合成
生物化学
信号转导
突变体
代谢途径
植物激素
转基因水稻
基因表达调控
基因表达
拟南芥
水稻
植物
遗传学
转化(遗传学)
赤霉素
植物对草食的防御
氨基酸
作者
Lei‐Lei Li,Yujie Xiao,Yiqi Lin,Yumeng Chen,Xinzhang Song,Zheng Yuan,Yonggen Lou,Ran Li
标识
DOI:10.1093/plcell/koag191
摘要
The phytohormone jasmonic acid (JA) regulates diverse aspects of plant growth, development, and defense, yet how a single hormone coordinates such varied outputs remains poorly understood. Central to jasmonate signaling is the biosynthesis and perception of bioactive JA-amino acid conjugates, such as JA-Ile, which are synthesized by JASMONATE RESISTANT (JAR) enzymes. Three OsJAR genes are present in the monocot crop rice. Here, we systematically dissect their functions using a complete set of CRISPR-Cas9-derived mutants. OsJAR1 and OsJAR2 redundantly maintain basal JA-Ile levels required for normal vegetative growth, whereas OsJAR3 is functionally attenuated due to low expression and weak enzymatic activity. Notably, OsJAR1 specifically mediates herbivore-induced JA-Ile biosynthesis and confers resistance to the major rice pest, the brown planthopper, under both laboratory and field conditions, whereas OsJAR2 is dispensable for defense. The expression of OsJAR1 is directly controlled by the MYC2-bHLH6 transcriptional cascade, forming a positive feedback loop that sustains JA signaling during herbivory. By contrast, OsJAR2, but not OsJAR1, is expressed during early inflorescence differentiation and contributes to JA-Ile accumulation at this stage, ensuring normal spikelet development. These findings reveal that functional specialization of OsJAR enzymes enables rice to precisely tailor JA responses to distinct developmental and environmental cues.
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