Phosphocode-dependent functional dichotomy of a common co-receptor in plant signalling

Artemis Perraki, Thomas A. DeFalco, Paul Derbyshire, Julian Avila, David Séré, Jan Sklenar, Xingyun Qi, Lena Stransfeld, Benjamin Schwessinger, Yasuhiro Kadota, Alberto P. Macho, Shushu Jiang, Daniel Couto, Keiko U. Torii, Frank L.H. Menke, Cyril Zipfel*

*Corresponding author for this work

    Research output: Contribution to journalArticlepeer-review

    90 Citations (Scopus)


    Multicellular organisms use cell-surface receptor kinases to sense and process extracellular signals. Many plant receptor kinases are activated by the formation of ligand-induced complexes with shape-complementary co-receptors1. The best-characterized co-receptor is BRASSINOSTEROID INSENSITIVE 1-ASSOCIATED KINASE 1 (BAK1), which associates with numerous leucine-rich repeat receptor kinases (LRR-RKs) to control immunity, growth and development2. Here we report key regulatory events that control the function of BAK1 and, more generally, LRR-RKs. Through a combination of phosphoproteomics and targeted mutagenesis, we identified conserved phosphosites that are required for the immune function of BAK1 in Arabidopsis thaliana. Notably, these phosphosites are not required for BAK1-dependent brassinosteroid-regulated growth. In addition to revealing a critical role for the phosphorylation of the BAK1 C-terminal tail, we identified a conserved tyrosine phosphosite that may be required for the function of the majority of Arabidopsis LRR-RKs, and which separates them into two distinct functional classes based on the presence or absence of this tyrosine. Our results suggest a phosphocode-based dichotomy of BAK1 function in plant signalling, and provide insights into receptor kinase activation that have broad implications for our understanding of how plants respond to their changing environment.

    Original languageEnglish
    Pages (from-to)248-252
    Number of pages5
    Issue number7722
    Publication statusPublished - 13 Sept 2018


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