JAZ2 Negatively Regulates Drought Tolerance in Barley by Modulating PLT2 Expression
Document Type
Article
Subject Area(s)
Hordeum (genetics, physiology, metabolism); Plant Proteins (genetics, metabolism); Gene Expression Regulation, Plant; Droughts; Plant Roots (genetics, physiology, metabolism, growth & development); Phylogeny; Stress, Physiological (genetics); Drought Resistance
Abstract
Drought is an important abiotic factor constricting crop production globally. Although the roles of JAZ proteins in regulating jasmonic acid signalling and plant responses to environmental stress are well documented, their specific functions and underlying mechanisms remain little known. In this study, JAZ proteins in barley were thoroughly analyzed, revealing a total of 11 members classified into three phylogenetic subgroups. HvJAZ2, based on its distinct expression patterns, is considered a key candidate gene for regulating drought tolerance in barley. Using the HvJAZ2 knockout mutants, we revealed that the gene negatively regulates drought tolerance by inhibiting barley root growth. Notably, the jaz2 mutants upregulated the expression of root development genes, including SHR1, PLT1, PLT2 and PLT6. plt2 and plt1/plt2 mutants exhibited suppressed root development and reduced drought tolerance. Analysis of interactions between HvJAZ2 and other proteins showed that HvJAZ2 does not directly interact with HvPLT1/2/6, but interacts with some other proteins. BIFC and LCA assays further confirmed the nuclear interaction between HvJAZ2 and HvMYC2. Y1H and Dual-Luciferase experiments demonstrated that HvMYC2 can bind to and activate the HvPLT2 promoter. In summary, HvJAZ2 negatively regulates root development and drought tolerance in barley by suppressing HvPLT2 expression through interacting with HvMYC2.
Digital Object Identifier (DOI)
Publication Info
Published in Plant, Cell & Environment, Volume 48, Issue 1, 2025, pages 699-710.
APA Citation
Xiong, J., Huang, B., Peng, D., Shen, Q., Wu, D., & Zhang, G. (2024). JAZ2 Negatively Regulates Drought Tolerance in Barley by Modulating PLT2 Expression. Plant Cell & Environment, 48(1).https://doi.org/10.1111/pce.15149
Rights
© 2024 John Wiley & Sons Ltd.