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Reversible ubiquitination conferred by domain shuffling controls paired NLR immune receptor complex homeostasis in plant immunity

Nature Communications. 2025-02; 
Zhiyi Chen, Jianhua Huang, Jianyu Li, Frank L. H. Menke, Jonathan D. G. Jones & Hailong Guo China Agricultural University
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Protein and Antibody Isolation Immunoprecipitations were performed using filtered extract incubated with Anti-DYKDDDDK G1 Affinity Resin (GenScript, L00432) or Anti-HA IP Resin (GenScript, L00777) at 4 °C for 2 h with gentle shaking. Get A Quote

Abstract

Plant intracellular NLR immune receptors can function individually or in pairs to detect pathogen effectors and activate immune responses. NLR homeostasis has to be tightly regulated to ensure proper defense without triggering autoimmunity. However, in contrast to singleton NLRs, the mechanisms controlling the paired NLRs complex homeostasis are less understood. The paired Arabidopsis RRS1/RPS4 immune receptor complex confers disease resistance through effector recognition mediated by the integrated WRKY domain of RRS1. Here, through proximity labeling, we reveal a ubiquitination-deubiquitination cycle that controls the homeostasis of the RRS1/RPS4 complex. E3 ligase RARE directly binds and ubiquitinates RRS1... More

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