Genome editing for improving nutritional quality, post-harvest shelf life and stress tolerance of fruits, vegetables, and ornamentals.

IF 4.9 Q1 BIOTECHNOLOGY & APPLIED MICROBIOLOGY Frontiers in genome editing Pub Date : 2023-02-24 eCollection Date: 2023-01-01 DOI:10.3389/fgeed.2023.1094965
Punam Sharma, Anuradha Pandey, Rinku Malviya, Sharmistha Dey, Subhasis Karmakar, Dipak Gayen
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Abstract

Agricultural production relies on horticultural crops, including vegetables, fruits, and ornamental plants, which sustain human life. With an alarming increase in human population and the consequential need for more food, it has become necessary for increased production to maintain food security. Conventional breeding has subsidized the development of improved verities but to enhance crop production, new breeding techniques need to be acquired. CRISPR-Cas9 system is a unique and powerful genome manipulation tool that can change the DNA in a precise way. Based on the bacterial adaptive immune system, this technique uses an endonuclease that creates double-stranded breaks (DSBs) at the target loci under the guidance of a single guide RNA. These DSBs can be repaired by a cellular repair mechanism that installs small insertion and deletion (indels) at the cut sites. When equated to alternate editing tools like ZFN, TALENs, and meganucleases, CRISPR- The cas-based editing tool has quickly gained fast-forward for its simplicity, ease to use, and low off-target effect. In numerous horticultural and industrial crops, the CRISPR technology has been successfully used to enhance stress tolerance, self-life, nutritional improvements, flavor, and metabolites. The CRISPR-based tool is the most appropriate one with the prospective goal of generating non-transgenic yields and avoiding the regulatory hurdles to release the modified crops into the market. Although several challenges for editing horticultural, industrial, and ornamental crops remain, this new novel nuclease, with its crop-specific application, makes it a dynamic tool for crop improvement.

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通过基因组编辑提高水果、蔬菜和观赏植物的营养质量、采后货架期和抗逆性。
农业生产依赖于园艺作物,包括蔬菜、水果和观赏植物,它们维持着人类的生活。随着人类人口的急剧增长,对粮食的需求也随之增加,因此有必要提高产量以维持粮食安全。传统育种为改良品种的开发提供了补贴,但要提高作物产量,还需要获得新的育种技术。CRISPR-Cas9 系统是一种独特而强大的基因组操作工具,可以精确地改变 DNA。该技术以细菌的适应性免疫系统为基础,使用一种内切酶,在单个向导 RNA 的引导下,在目标基因座上产生双链断裂(DSB)。这些 DSB 可由细胞修复机制修复,该机制会在切割位点安装小的插入和缺失(indels)。与 ZFN、TALENs 和巨核酸酶等其他编辑工具相比,CRISPR--基于 cas 的编辑工具因其简单、易用和低脱靶效应而迅速蹿红。在许多园艺作物和工业作物中,CRISPR 技术已被成功用于增强抗逆性、提高自身寿命、改善营养状况、改善风味和代谢产物。基于 CRISPR 的工具是最合适的工具,其预期目标是产生非转基因产量,并避免将改良作物投放市场的监管障碍。尽管编辑园艺、工业和观赏作物仍面临一些挑战,但这种新型核酸酶的作物特异性应用使其成为作物改良的有力工具。
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CiteScore
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审稿时长
13 weeks
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