Gene editing to improve drought tolerance

CABI Reviews Pub Date : 2022-11-16 DOI:10.1079/cabireviews202217048

L. Núñez-Muñoz, Berenice Calderón-Pérez, R. Ruiz-Medrano, B. Xoconostle‐Cazares

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Abstract

Drought is by far one of the main agricultural problems affecting crop production worldwide, generating even more economic losses than all biotic factors combined. Humankind has pursued the improvement of crops to enhance plant productivity under water-limiting conditions since the dawn of agriculture, initially through conventional breeding and more recently, using tools such as transgenesis and gene editing. Among gene editing techniques, the clustered regularly interspaced short palindromic repeats (CRISPR)/CRISPR-associated (Cas) system has seen a boom in plant breeding, thus, contributing to improve tolerance to biotic and abiotic stresses. This review provides a broad view of drought tolerance mechanisms. The molecular factors mediating this complex quantitative trait and biochemical mechanisms related to drought-tolerant phenotypes are described. Likewise, gene editing tools to confer drought tolerance, limitations, and further direction of gene editing technique with CRISPR/Cas are discussed. Considerations about epigenetics of drought tolerance are mentioned as a new emerging mechanism to understand memory to stress and its possible application to obtain stress-tolerant crops via genome editing.

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基因编辑提高耐旱性

干旱是迄今为止影响全球作物生产的主要农业问题之一，造成的经济损失甚至超过所有生物因素的总和。自农业出现以来，人类一直在追求作物的改良，以提高植物在缺水条件下的生产力，最初是通过传统育种，最近则使用转基因和基因编辑等工具。在基因编辑技术中，聚集规律间隔短回文重复序列(CRISPR)/CRISPR相关(Cas)系统在植物育种中蓬勃发展，从而有助于提高对生物和非生物胁迫的耐受性。这篇综述提供了耐旱机制的广泛观点。本文描述了介导这一复杂数量性状的分子因子和与耐旱表型相关的生化机制。同样，基因编辑工具赋予耐旱性，限制和基因编辑技术与CRISPR/Cas进一步的方向进行了讨论。对耐旱性表观遗传学的考虑是一种新的理解胁迫记忆的机制，并可能应用于通过基因组编辑获得耐旱性作物。

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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CABI Reviews

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