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Suppression of a leucine‐rich repeat receptor‐like kinase enhances host plant resistance to a specialist herbivore

Meng Ye, Peng Kuai, Lingfei Hu, Miaofen Ye, Hao Sun, Matthias Erb, Yonggen Lou

2020Plant Cell & Environment26 citationsDOI

Abstract

Abstract The mechanisms by which herbivores induce plant defenses are well studied. However, how specialized herbivores suppress plant resistance is still poorly understood. Here, we discovered a rice ( Oryza sativa ) leucine‐rich repeat receptor‐like kinase, OsLRR‐RLK2 , which is induced upon attack by gravid females of a specialist piercing‐sucking herbivore, the brown planthopper (BPH, Nilaparvata lugens ). Silencing OsLRR‐RLK2 decreases the constitutive activity of mitogen‐activated protein kinase (OsMPK6) and alters BPH‐induced transcript levels of several defense‐related WRKY transcription factors. Moreover, silencing OsLRR‐RLK2 reduces BPH‐induction of jasmonic acid and ethylene but promotes the biosynthesis of both elicited salicylic acid and H 2 O 2 ; silencing also enhances the production of volatiles emitted from rice plants infested with gravid BPH females. These changes decrease BPH preference and performance in the glasshouse and the field. These findings suggest that OsLRR‐RLK2, by regulating the plant's defense‐related signaling profile, increases the susceptibility of rice to BPH, and that BPH infestation influences the expression of OsLRR‐RLK2, suppressing the resistance of rice to BPH.

Topics & Concepts

Brown planthopperJasmonic acidSalicylic acidWRKY protein domainOryza sativaGene silencingBiologyLeucine-rich repeatProtein kinase AHerbivoreCell biologyKinasePlant defense against herbivoryBotanyBiochemistryGeneArabidopsisMutantInsect-Plant Interactions and ControlPlant Parasitism and ResistancePlant Virus Research Studies