Plants deploy intracellular nucleotide-binding leucine-rich repeats (NLRs) to detect pathogen effectors and initiate immune responses. Although the activation mechanism of some plant NLRs forming resistosomes has been elucidated, whether NLR resistosome assembly is regulated to fine-tune immunity remains enigmatic. Here we used an antiviral coiled coil-nucleotide-binding site-leucine rich repeat, Barley Stripe Resistance 1 (BSR1), as a model and demonstrate that BSR1 is phosphorylated. Using a proximity labelling approach, we identified a wall-associated kinase-like protein 20 (WAKL20) which negatively regulates BSR1-mediated immune responses by directly phosphorylating the Ser470 residue in the NB-ARC domain of BSR1. Mechanistically, Ser470 phosphorylation results in a steric clash of intramolecular domains of BSR1, thereby compromising BSR1 oligomerization. The phosphorylation site is conserved among multiple plant NLRs and our results show that WAKL20 participates in other NLR-mediated immune responses besides BSR1. Together, our data reveal phosphorylation as a mechanism for modulating plant resistosome assembly, and provide new insight into NLR-mediated plant immunity.
© 2025. The Author(s), under exclusive licence to Springer Nature Limited.