Litcius/Paper detail

SUMO enables substrate selectivity by mitogen-activated protein kinases to regulate immunity in plants

Vivek Verma, Anjil Kumar Srivastava, Catherine Gough, Alberto Campanaro, Moumita Srivastava, Rebecca Morrell, Joshua Joyce, Mark Bailey, Cunjin Zhang, Patrick J. Krysan, Ari Sadanandom

2021Proceedings of the National Academy of Sciences58 citationsDOIOpen Access PDF

Abstract

infection and flg22 elicitor treatment. SUMOylation mediates WRKY33 phosphorylation by MPKs and consequent transcription factor activity. Disruption of either WRKY33 SUMO or MPK3/6 SIM sites attenuates their interaction and inactivates WRKY33-mediated defense. However, MPK3/6 SIM mutants show normal interaction with a non-SUMOylated form of another transcription factor, SPEECHLESS, unraveling a role for SUMOylation in differential substrate selectivity by MPKs. We reveal that the SUMO proteases, SUMO PROTEASE RELATED TO FERTILITY1 (SPF1) and SPF2 control WRKY33 SUMOylation and demonstrate a role for these SUMO proteases in defense. Our data reveal a mechanism by which MPK3/6 prioritize molecular pathways by differentially selecting substrates using the SUMO-SIM module during defense responses.

Topics & Concepts

KinaseMitogen-activated protein kinaseCell biologyImmunitySubstrate (aquarium)SelectivityProtein kinase AChemistryBiologyBiochemistryImmune systemImmunologyEcologyCatalysisPlant-Microbe Interactions and ImmunityPlant Virus Research StudiesPlant tissue culture and regeneration