Abstract
FLAGELLIN-SENSING 2 (FLS2) is a leucine-rich repeat/transmembrane domain/protein kinase (LRR-RLK) that is the plant receptor for bacterial flagellin or the flagellin-derived flg22 peptide. Previous work has shown that after flg22 binding, FLS2 releases BIK1 kinase and homologs and associates with BAK1 kinase, and that FLS2 kinase activity is critical for FLS2 function. However, the detailed mechanisms for activation of FLS2 signaling remain unclear. The present study initially identified multiple FLS2 in vitro phosphorylation sites and found that Serine-938 is important for FLS2 function in vivo. FLS2-mediated immune responses are abolished in transgenic plants expressing FLS2S938A, while the acidic phosphomimic mutants FLS2S938D and FLS2S938E conferred responses similar to wild-type FLS2. FLS2-BAK1 association and FLS2-BIK1 disassociation after flg22 exposure still occur with FLS2S938A, demonstrating that flg22-induced BIK1 release and BAK1 binding are not sufficient for FLS2 activity, and that Ser-938 controls other aspects of FLS2 activity. Purified BIK1 still phosphorylated purified FLS2S938A and FLS2S938D mutant kinase domains in vitro. Phosphorylation of BIK1 and homologs after flg22 exposure was disrupted in transgenic Arabidopsis thaliana plants expressing FLS2S938A or FLS2D997A (a kinase catalytic site mutant), but was normally induced in FLS2S938D plants. BIK1 association with FLS2 required a kinase-active FLS2, but FLS2-BAK1 association did not. Hence FLS2-BIK1 dissociation and FLS2-BAK1 association are not sufficient for FLS2-mediated defense activation, but the proposed FLS2 phosphorylation site Ser-938 and FLS2 kinase activity are needed both for overall defense activation and for appropriate flg22-stimulated phosphorylation of BIK1 and homologs.
Highlights
Pattern-Recognition Receptors (PRRs) can initiate innate immunity by perception of conserved Pathogen- Associated Molecular Patterns (PAMPs or MAMPs) [1,2]
As a Pattern-Recognition Receptor (PRR) that detects conserved microbial molecules, FLAGELLIN-SENSING 2 (FLS2) mediates the plant innate immunity responses triggered by bacterial flagellin or the flagellin epitope flg22
Immune responses are blocked when Ser-938 is mutated to alanine but remain normal when mutated to the phosphorylation-mimic residues aspartate or glutamate, suggesting that phosphorylation of Ser-938 is critical for defense activation after flagellin is detected
Summary
Pattern-Recognition Receptors (PRRs) can initiate innate immunity by perception of conserved Pathogen- (or Microbe-) Associated Molecular Patterns (PAMPs or MAMPs) [1,2]. This process, which has been termed PAMP-triggered immunity (PTI), serves as an initial defense response against pathogens. Arabidopsis thaliana FLAGELLIN-SENSING 2 (FLS2) [3,4,5] and EF-Tu RECEPTOR (EFR) [6], which detect bacterial flagellin and elongation factor-Tu, respectively, are well-studied examples of plant PRRs along with rice Xa21, which recognizes a sulfated peptide made by some Xanthomonas pathogens [7,8]. FLS2, EFR, and Xa21, as well as other plant PRRs and many animal Toll-like receptors (TLR), belong to the non-RD receptor-like kinase (RLK) family [9]. The phosphorylation of these PRR non-RD kinases is of particular interest for further study
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