Modulation of an evolutionarily conserved epigenetic regulon controlling abscisic acid catabolism enhances drought tolerance in wheat

脱落酸 脱甲基酶 生物 耐旱性 内含子 拟南芥 组蛋白 细胞生物学 突变体 基因 遗传学 植物
作者
Yunzhen Li,Liujie Jin,Wanying Li,Ke Wang,Handong Su,Hailiang Mao,Wei Chen,Caixia Lan,Qiang Li,Kerstin Kaufmann,Wenhao Yan
出处
期刊:New Phytologist [Wiley]
卷期号:247 (4): 1777-1789 被引量:2
标识
DOI:10.1111/nph.70302
摘要

Summary Drought stress significantly reduces crop yield by triggering abscisic acid (ABA) accumulation in plants. It involves the suppression of CYP707A genes, which encode enzymes that catalyze ABA. However, little is known about epigenetic control in the CYP707A gene‐mediated drought stress response in wheat. In this study, we reported that TaCYP707A‐6A/6B/6D but not TaCYP707A‐5A/5B/5D participates in drought response in common wheat. Disruption of TaCYP707A‐6B showed enhanced drought tolerance but also decreased fertility. Expression of TaCYP707A‐6B is negatively associated with H3K27me3 level. An evolutionarily conserved CTCTGYTY motif cluster (binding site for a Jumonji H3K27me3 demethylase) was found in the intron of TaCYP707A‐6B as well as the intron of CYP707A homologs in other plant species. Blocking the CTCTGYTY motif by dead Cas9 (dCas9) maintained a high level of H3K27me3 on the CYP707A gene, while decreasing its expression level leading to enhanced drought tolerance in both wheat and Arabidopsis . In particular, the mutant in which the intron bound by H3K27me3 demethylase was cut out without change of splicing pattern showed enhanced drought tolerance. Therefore, our study provides a novel approach to improve plant drought tolerance by manipulating an evolutionarily conserved cis ‐element bound by histone demethylases in the intron of CYP707A genes.
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