Advances in genome editing and future prospects for Sorghum improvement: A review

IF 2.2 Q3 GENETICS & HEREDITY

Plant Gene Pub Date : 2024-07-16 DOI:10.1016/j.plgene.2024.100464

Micheale Yifter Weldemichael , Hailay Mehari Gebremedhn , Teklehaimanot Hailesslasie Teklu

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引用次数: 0

Abstract

Recent developments in targeted genome editing accelerated genetic research and opened new potentials to improve crops for better yields and quality. Given the significance of cereal crops as a primary source of food for the global population, the utilization of contemporary genome editing techniques like CRISPR/Cas9 is timely and crucial. CRISPR/Cas technology has enabled targeted genomic modifications, revolutionizing genetic research and exploration. Application of gene editing through CRISPR/Cas9 in enhancing sorghum is particularly vital given the current ecological, environmental, and agricultural challenges exacerbated by climate change. As sorghum is one of the main staple foods of our region and known to be a resilient crop with high potential to overcome the above challenges, application of genome editing technology will enhance investigation of gene functionality. CRISPR/Cas9 enables the improvement of desirable sorghum traits, including nutritional value, yield, resistance to pests and diseases, and tolerance to various abiotic stresses. Furthermore, CRISPR/Cas9 has the potential to perform intricate editing and reshape the existing elite sorghum varieties, and introduce new genetic variations. However, current research primarily focuses on improving the efficacy of CRISPR/Cas9 system in successfully editing endogenous sorghum genes, making it a feasible and successful undertaking in sorghum improvement. Recent advancements and developments in CRISPR/Cas9 techniques have further empowered researchers to modify additional genes in sorghum with greater efficiency. Successful application and advancement of CRISPR techniques in sorghum will not only aid in gene discovery, the creation of novel traits that regulate gene expression, and functional genomics, but also in facilitating site-specific integration events. The purpose of this review is, therefore, to elucidate the current advances in sorghum genome editing and highlight its potential in addressing food security issues. It also assesses the efficiency of CRISPR-mediated improvement and its long-term effects on crop improvement and host resistance against parasites, including tissue-specific activity and the ability to induce resistance. This review ends by emphasizing the challenges and opportunities of CRISPR technology in combating parasitic plants, and proposing directions for future research to safeguard global agricultural productivity.

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基因组编辑的进展和高粱改良的未来前景：综述

定向基因组编辑技术的最新发展加速了遗传研究，为提高作物产量和质量开辟了新的潜力。鉴于谷类作物作为全球人口主要食物来源的重要性，利用 CRISPR/Cas9 等当代基因组编辑技术非常及时和重要。CRISPR/Cas 技术实现了有针对性的基因组修改，为基因研究和探索带来了革命性的变化。鉴于气候变化加剧了当前的生态、环境和农业挑战，通过 CRISPR/Cas9 技术应用基因编辑技术改良高粱尤为重要。众所周知，高粱是本地区的主要主粮之一，也是一种生命力顽强的作物，具有克服上述挑战的巨大潜力，因此基因组编辑技术的应用将加强对基因功能的研究。CRISPR/Cas9 能够改良高粱的理想性状，包括营养价值、产量、对病虫害的抗性以及对各种非生物胁迫的耐受性。此外，CRISPR/Cas9 还有可能对现有的高粱优良品种进行复杂的编辑和重塑，并引入新的基因变异。然而，目前的研究主要集中在提高 CRISPR/Cas9 系统成功编辑高粱内源基因的效率，使其成为改良高粱的一项可行且成功的工作。CRISPR/Cas9 技术的最新进展和发展进一步增强了研究人员的能力，使他们能够以更高的效率修改高粱中的其他基因。CRISPR 技术在高粱中的成功应用和发展不仅有助于基因发现、创造调控基因表达的新性状和功能基因组学，还有助于促进特定位点整合事件的发生。因此，本综述旨在阐明当前高粱基因组编辑的进展，并强调其在解决粮食安全问题方面的潜力。本综述还评估了 CRISPR 介导的改良效率及其对作物改良和宿主抗寄生虫能力的长期影响，包括组织特异性活性和诱导抗性的能力。本综述最后强调了 CRISPR 技术在防治寄生植物方面的挑战和机遇，并提出了未来研究的方向，以保障全球农业生产力。

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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来源期刊

Plant Gene Agricultural and Biological Sciences-Plant Science

CiteScore

4.50

自引率

0.00%

发文量

审稿时长

51 days

期刊介绍： Plant Gene publishes papers that focus on the regulation, expression, function and evolution of genes in plants, algae and other photosynthesizing organisms (e.g., cyanobacteria), and plant-associated microorganisms. Plant Gene strives to be a diverse plant journal and topics in multiple fields will be considered for publication. Although not limited to the following, some general topics include: Gene discovery and characterization, Gene regulation in response to environmental stress (e.g., salinity, drought, etc.), Genetic effects of transposable elements, Genetic control of secondary metabolic pathways and metabolic enzymes. Herbal Medicine - regulation and medicinal properties of plant products, Plant hormonal signaling, Plant evolutionary genetics, molecular evolution, population genetics, and phylogenetics, Profiling of plant gene expression and genetic variation, Plant-microbe interactions (e.g., influence of endophytes on gene expression; horizontal gene transfer studies; etc.), Agricultural genetics - biotechnology and crop improvement.