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Isoprenylation modification is required for HIPP1‐mediated powdery mildew resistance in wheat

Zongkuan Wang, Heng Zhang, Yingbo Li, Yiming Chen, Xiong Tang, Jia Zhao, Feifei Yu, Haiyan Wang, Jin Xiao, Jia Liu, Xu Zhang, Li Sun, Qi Xie, Xiue Wang

2022Plant Cell & Environment17 citationsDOI

Abstract

Abstract Powdery mildew (Pm), caused by Blumeria graminis f.sp. tritici (Bgt) , is one of the most important wheat diseases. Heavy‐metal‐associated isoprenylated plant protein (HIPP1) has been proved playing important roles in response to biotic and a biotic stress. In present study, we proved HIPP1‐V from Haynalidia villosa is a positive regulator in Pm resistance. HIPP1‐V was rapidly induced by Bgt . Transiently or stably heterologous overexpressing HIPP1‐V in wheat suppressed the haustorium formation and enhanced Pm resistance. HIPP1‐V isoprenylation was critical for plasma membrane (PM) localization, interaction with E3‐ligase CMPG1‐V and function in Pm resistance. Bgt infection recruited the isoprenylated HIPP1‐V and CMPG1s on PM; blocking the HIPP1 isoprenylation reduced such recruitment and compromised the resistance of OE‐CMPG1‐V and OE‐HIPP1‐V. Overexpressing HIPP1‐VC 148G could not enhance Pm resistance. These indicated the Pm resistance was dependent on HIPP1‐V's isoprenylation. DGEs related to the ROS and SA pathways were remarkably enriched in OE‐HIPP1‐V, revealing their involvement in Pm resistance. Our results provide evidence on the important role of protein isoprenylation in plant defense.

Topics & Concepts

Blumeria graminisPowdery mildewPrenylationBiologyCell biologyChemistryBotanyPlant disease resistanceBiochemistryGeneEnzymePlant-Microbe Interactions and ImmunityPlant Pathogens and Fungal DiseasesPlant Disease Resistance and Genetics