S -nitrosylation of a receptor-like cytoplasmic kinase regulates plant immunity.
Beimi CuiQiao-Na PanWenqiang CuiYiqin WangVerity I P LoakeShuguang YuanFengquan LiuGary J LoakePublished in: Science advances (2024)
Perception of pathogen/microbial-associated molecular patterns (P/MAMPs) by plant cell surface receptors leads to a sustained burst of reactive oxygen species (ROS), a key feature of P/MAMP-triggered immunity (PTI). Here we report that P/MAMP recognition leads to a rapid nitrosative burst, initiating the accumulation of nitric oxide (NO), subsequently leading to S -nitrosylation of the receptor-like cytoplasmic kinase (RLCK), botrytis-induced kinase 1 (BIK1), at Cys 80 . This redox-based, posttranslational modification, promotes the phosphorylation of BIK1, subsequently resulting in BIK1 activation and stabilization. Further, BIK1 S -nitrosylation increases its physical interaction with RBOHD, the source of the apoplastic oxidative burst, promoting ROS formation. Our data identify mechanistic links between rapid NO accumulation and the expression of PTI, providing insights into plant immunity.
Keyphrases
- reactive oxygen species
- protein kinase
- nitric oxide
- cell surface
- high frequency
- tyrosine kinase
- dna damage
- poor prognosis
- binding protein
- physical activity
- mental health
- high glucose
- machine learning
- microbial community
- electronic health record
- diabetic rats
- hydrogen peroxide
- drug induced
- big data
- deep learning
- artificial intelligence
- nitric oxide synthase