A pair of soybean malectin-like domain-containing receptor-like kinases jointly regulate pattern-triggered immunity by forming hetero-oligomers

Abstract

AbstractPlant cells perceive pathogen invasion by recognizing microbial patterns using plasma-membrane-localized pattern-recognition receptors (PRRs) to initiate pattern-triggered immunity (PTI), which confers a moderate immunity to most microbes. For instance, the PRR FLS2 (FLAGELLIN SENSING 2) recognizes bacterial flagellin in the presence of the co-receptor BAK1 and activates a series of PTI responses, such as reactive oxygen species (ROS) burst and mitogen-activated protein kinase (MAPK) activation. We previously showed that soybean malectin/malectin-like domain-containing receptor-like kinase (MRLK) protein GmLMM1 negatively regulates PTI by suppressing FLS2-BAK1 interaction. GmLMM1 replicates in tandem with five other GmMRLKs on chromosome 13. Here, we show that GmMRLK32, the closest homolog to GmLMM1 among the tandem genes of GmLMM1, negatively regulates PTI and disease resistance against bacterial and oomycete pathogens. The Gmmrlk32 mutant showed enhanced flg22-induced ROS burst and MAPK activation. We revealed that GmMRLK32 interacts with GmFLS2 and GmBAK1, and suppresses flg22-induced GmFLS2-GmBAK1 dimerization in a manner similar to that of GmLMM1. We further showed that GmMRLK32 specifically interacts with GmLMM1 to regulate PTI. In Nicotiana benthamiana plants, co-expression of GmMRLK32 and GmLMM1 showed a stronger PTI inhibitory effect on PTI activation than expression of GmMRLK32 or GmLMM1 alone. We uncovered a novel mechanism by which GmMRLK32 and GmLMM1 coordinately regulate PTI by forming hetero-oligomer.