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Analysis of Grapevine’s Somatic Embryogenesis Receptor Kinase (SERK) Gene Family: <i>VqSERK3/BAK1</i> Overexpression Enhances Disease Resistance

Yajuan Li, Chen Jiao, Zhenjiang Wei, Shengyue Chai, Hui Jia, Min Gao, Jessica Allison, Zhi Li, Chang-bing Song, Xiping Wang

2021Phytopathology10 citationsDOI

Abstract

The somatic embryogenesis receptor kinase (SERK) gene family has been intensively studied in several plant species. Here we confirmed the existence of five SERK genes in grapevine (Chinese wild grapevine Vitis quinquangularis) and named them VqSERK1, VqSERK2, VqSERK3, VqSERK4, and VqSERK5. Analysis of the predicted structures of these SERK proteins revealed they include a signal peptide domain, a leucine zipper domain, a Ser-Pro-Pro domain, a single transmembrane domain, different leucine-rich repeats, and an intracellular kinase activity domain. The SERK genes of grapevine showed different gene expression patterns when treated with powdery mildew (Erysiphe necator) and hormones (salicylic acid, jasmonic acid, abscisic acid, and ethylene). Subcellular localization assays confirmed that VqSERK family proteins localized to the cell membrane. Moreover, we cloned the SERK3/BAK1 gene from the Chinese wild grapevine V. quinquangularis clone ‘Shang-24’. Heterologous VqSERK3/BAK1 expression in the Arabidopsis bak1-4 mutant lines restored control of cell death, increased resistance to powdery mildew, and strengthened stomatal immunity. Our work may provide the foundation for further studies of SERK genes for pathogen resistance and hormone treatment in grapevine.

Topics & Concepts

BiologyGeneJasmonic acidSomatic embryogenesisAbscisic acidGeneticsHeterologous expressionCell biologyMutantProtein kinase AGene expressionPowdery mildewGene familyPlant disease resistanceKinaseMolecular biologyR geneSomatic cellclone (Java method)ArabidopsisEctopic expressionTransmembrane proteinMAP3K7Cyclin-dependent kinase 2Leucine zipperMycetozoaLeucine-rich repeatPlant Molecular Biology ResearchPlant tissue culture and regenerationPlant-Microbe Interactions and Immunity