A fungal effector suppresses plant immunity by manipulating DAHPS‐mediated metabolic flux in chloroplasts

效应器 生物 植物对草食的防御 次生代谢 次生代谢物 毒力 植物免疫 生物化学 叶绿体 植物抗病性 细胞生物学 巢状曲霉 基因 拟南芥 突变体 生物合成
作者
Shengping Shang,Xiaofei Liang,Guangli Liu,Du You-Wei,Song Zhang,Yanan Meng,Junming Zhu,Jeffrey A. Rollins,Rong Zhang,Guangyu Sun
出处
期刊:New Phytologist [Wiley]
被引量:5
标识
DOI:10.1111/nph.20117
摘要

Summary Plant secondary metabolism represents an important and ancient form of defense against pathogens. Phytopathogens secrete effectors to suppress plant defenses and promote infection. However, it is largely unknown, how fungal effectors directly manipulate plant secondary metabolism. Here, we characterized a fungal defense‐suppressing effector CfEC28 from Colletotrichum fructicola . Gene deletion assays showed that ∆ CfEC28 ‐mutants differentiated appressoria normally on plant surface but were almost nonpathogenic due to increased number of plant papilla accumulation at attempted penetration sites. CfEC28 interacted with a family of chloroplast‐localized 3‐deoxy‐ d ‐arabinose‐heptulonic acid‐7‐phosphate synthases (DAHPSs) in apple. CfEC28 inhibited the enzymatic activity of an apple DAHPS (MdDAHPS1) and suppressed DAHPS‐mediated secondary metabolite accumulation through blocking the manganese ion binding region of DAHPS. Dramatically, transgene analysis revealed that overexpression of MdDAHPS1 provided apple with a complete resistance to C. fructicola . We showed that a novel effector CfEC28 can be delivered into plant chloroplasts and contributes to the full virulence of C. fructicola by targeting the DAHPS to disrupt the pathway linking the metabolism of primary carbohydrates with the biosynthesis of aromatic defense compounds. Our study provides important insights for understanding plant–microbe interactions and a valuable gene for improving plant disease resistance.
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