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<scp>CsIREH1</scp> phosphorylation regulates <scp>DELLA</scp> protein affecting plant height in cucumber (<i>Cucumis sativus</i>)

Hongjiao Zhao, Piaoyun Sun, Can Tong, Xiangbao Li, Tongwen Yang, Yanxin Jiang, Bosi Zhao, Junyang Dong, Biao Jiang, Junjun Shen, Zheng Li

2024New Phytologist11 citationsDOI

Abstract

Plant height is a critical agronomic trait that affects crop yield, plant architecture, and environmental adaptability. Gibberellins (GAs) regulate plant height, with DELLA proteins acting as key repressors in the GA signaling pathway by inhibiting GA-induced growth. While DELLA phosphorylation is essential for regulating plant height, the precise mechanisms underlying this process remain incompletely understood. In this study, we identified a cucumber mutant with delayed growth, which exhibited reduced sensitivity to GA treatment. Through bulked segregant analysis (BSA-seq) combined with molecular marker linkage analysis, we successfully identified and cloned the gene responsible for the dwarf phenotype, CsIREH1 (INCOMPLETE ROOT HAIR ELONGATION 1), which encodes an AGC protein kinase. Further research revealed that CsIREH1 interacts with and phosphorylates DELLA proteins, specifically targeting CsGAIP and CsGAI2. We propose that IREH1-dependent phosphorylation of DELLA proteins prevents their excessive accumulation, thereby maintaining normal plant growth. Therefore, investigating the role of IREH1-mediated DELLA phosphorylation provides valuable insights and theoretical foundations for understanding how plants regulate growth mechanisms.

Topics & Concepts

CucumisPhosphorylationBiologyMutantGibberellinRepressorCell biologyGenePhenotypeBotanyBiochemistryGene expressionPlant responses to water stressPlant Molecular Biology ResearchLipid metabolism and biosynthesis