Regulatory mechanisms and breeding strategies for crop drought resistance

Zhenghua He , Pei Zhang , Haitao Jia , Shilong Zhang , Elsayed Nishawy , Xiaopeng Sun , Mingqiu Dai
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Abstract

Drought is a primary abiotic stress affecting crops, leading to plant stomatal closure, reduced photosynthetic capacity, and reduced yields or even harvest failure. Severe drought can adversely impact agricultural production, ecosystems, and socio-economic capacities. Recently, researchers have studied the regulatory mechanisms of crop drought resistance and cloned hundreds of genes via genetic and molecular approaches. However, a limited number of the cloned genes have been successfully employed in drought resistance breeding, suggesting that drought resistance regulation is too complex. More work must be done to fully understand the regulatory networks of drought responses to breed drought-resistant and high-yield crop varieties. This review outlines the current achievements in investigating crop drought responses, particularly regulation by phytohormones and regulation of genes at transcriptional, post-translational, and epigenetic levels in crop drought responses. Finally, we examine the problems and potential solutions in breeding crop drought resistance and propose strategies for crop drought resistance improvement.

作物抗旱性的调控机制和育种策略
干旱是影响农作物的主要非生物胁迫,会导致植物气孔关闭、光合能力降低、产量减少甚至歉收。严重干旱会对农业生产、生态系统和社会经济能力造成不利影响。最近,研究人员对作物抗旱性的调控机制进行了研究,并通过基因和分子方法克隆了数百个基因。然而,成功用于抗旱育种的克隆基因数量有限,这表明抗旱调控过于复杂。要全面了解干旱反应的调控网络,培育出抗旱高产的作物品种,还需要做更多的工作。本综述概述了目前在研究作物干旱响应方面取得的成就,特别是植物激素的调控和作物干旱响应中基因在转录、翻译后和表观遗传水平上的调控。最后,我们探讨了作物抗旱育种中存在的问题和潜在的解决方案,并提出了作物抗旱改良策略。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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