柠檬黄单胞菌
柑橘溃疡病
生物
效应器
黄单胞菌
抗菌
柑橘天堂
微生物学
激活剂(遗传学)
细胞生物学
次生代谢物
植物抗病性
病菌
防御机制
异位表达
抗性(生态学)
系统获得性抵抗
代谢物
植物
溃疡
R基因
植物对草食的防御
谷氨酸棒杆菌
西格玛因子
干燥
基因
作者
Chenxing Hao,Yan Jin,Hanying Su,Jianming Luo,Xuzhao Luo,Mingzhu Yao,Yuting Song,Jian Han,Xiu-Bin Liu,Yu Xu,Yajie Zheng,Zhengmin Yang,D. Li,Xuncheng Liu,Shunyuan Xiao,Xingyao Xiong,Ziniu Deng,Yunlin Cao,Xianfeng Ma
出处
期刊:The Plant Cell
[Oxford University Press]
日期:2025-10-01
卷期号:37 (10)
被引量:4
标识
DOI:10.1093/plcell/koaf225
摘要
Iron is an essential nutrient for all organisms. Feruloyl-COA 6-hydroxylase 1 (F6'H1) plays a pivotal role in iron uptake in plant roots by catalyzing the biosynthesis of iron-mobilizing scopoletin, a secondary metabolite also possessing antimicrobial activity. However, it remains unclear whether F6'H1-mediated iron uptake affects plant resistance to foliar pathogens and how such a process might be regulated. Here, we show that enhanced expression of 2-oxoglutarate-dependent dioxygenases 2 (CmOGD2), a homolog of F6'H1 in Citron C-05 (Citrus medica L.), confers resistance to citrus canker caused by Xanthomonas citri subsp. citri (Xcc). CmOGD2-mediated pathogen resistance is achieved by promoting iron uptake and the accumulation of reactive oxygen species (ROS), which likely results in ferroptosis. Furthermore, CmOGD2 interacts with the enolase CmENO2 to destabilize CmZAT10.1, a transcriptional activator of CmOGD2, thereby forming a negative feedback loop that limits CmOGD2 expression. Notably, the Xcc effector pthA4 interferes with the CmOGD2-CmENO2 interaction, likely via a decoy mechanism, leading to CmZAT10.1 accumulation. These findings reveal complex regulatory mechanisms underlying the critical role of CmOGD2 in mediating Xcc resistance through iron- and ROS-dependent ferroptosis.
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