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Exogenous Inhibitors Enhance Plant Resistance to Rice Planthoppers Through Boosting Phenylpropanoid Pathway Under Elevated CO 2

苯丙素 肉桂酸 生物 生物化学 水稻 水稻 水杨酸 有害生物分析 植物 化学 生物技术 苯丙氨酸解氨酶 过氧化氢酶 代谢途径 儿茶酚氧化酶
作者
Ruichuan Duan,Xinru Xiao,Fajun Chen
出处
期刊:Plant Cell and Environment [Wiley]
卷期号:49 (2): 1138-1150
标识
DOI:10.1111/pce.70288
摘要

The damage caused by the Nilaparvata lugens to rice plants will become aggravated under elevated CO2 (eCO2), emphasizing the urgent necessity to enhance rice defences against N. lugens under eCO2 conditions. The phenylpropanoid pathway is composed of several branches and is known to enhance plant resistance. Inhibiting key enzymes in certain branches can compensatorily activate other branches, thereby strengthening plant defence. In this study, rice plants were treated with the cinnamic acid-4-hydroxylase (C4H) inhibitor piperonylic acid (PA) and the 4-coumarate:CoA ligase (4CL) inhibitor 3,4-(methylenedioxy) cinnamic acid (MDCA), and their effects on N. lugens and rice plants were investigated under ambient CO₂ (aCO2) and eCO2. The results demonstrated that PA and MDCA treatments reduced N. lugens feeding and survival, especially under eCO2. Additionally, PA and MDCA treatments activated the ROS system and phenylpropanoid pathway in rice plants, and increased hydroxybenzoic acid derivatives contents under eCO2, with only minor changes observed under aCO₂. Further analysis illustrated that these compounds suppressed N. lugens feeding and survival, and could bind to and induce the activities of detoxification enzymes in N. lugens. These findings demonstrate that PA and MDCA enhance rice resistance under eCO₂, providing a potential strategy to mitigate pest damage exacerbated by climate change.
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