Potential of Genome Editing to Capture Diversity From Australian Wild Rice Relatives

IF 4.9 Q1 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Muhammad Abdullah, P. Okemo, A. Furtado, R. Henry
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引用次数: 1

Abstract

Rice, a staple food worldwide and a model crop, could benefit from the introduction of novel genetics from wild relatives. Wild rice in the AA genome group closely related to domesticated rice is found across the tropical world. Due to their locality outside the range of domesticated rice, Australian wild rice populations are a potential source of unique traits for rice breeding. These rice species provide a diverse gene pool for improvement that could be utilized for desirable traits such as stress resistance, disease tolerance, and nutritional qualities. However, they remain poorly characterized. The CRISPR/Cas system has revolutionized gene editing and has improved our understanding of gene functions. Coupled with the increasing availability of genomic information on the species, genes in Australian wild rice could be modified through genome editing technologies to produce new domesticates. Alternatively, beneficial alleles from these rice species could be incorporated into cultivated rice to improve critical traits. Here, we summarize the beneficial traits in Australian wild rice, the available genomic information and the potential of gene editing to discover and understand the functions of novel alleles. Moreover, we discuss the potential domestication of these wild rice species for health and economic benefits to rice production globally.
基因组编辑获取澳大利亚野生稻近缘品种多样性的潜力
水稻是世界范围内的主食,也是一种模范作物,它可能受益于从野生亲缘种引入的新基因。与驯化稻密切相关的AA基因组群野生稻遍布热带世界。由于澳大利亚野生稻种群在驯化稻的范围之外,因此它们是水稻育种独特性状的潜在来源。这些水稻品种为改良提供了多样化的基因库,可用于获得诸如抗逆性、抗病性和营养品质等理想性状。然而,它们的特征仍然很差。CRISPR/Cas系统彻底改变了基因编辑,提高了我们对基因功能的理解。再加上该物种的基因组信息越来越多,澳大利亚野生稻的基因可以通过基因组编辑技术进行修改,以产生新的驯化品种。或者,可以将这些水稻物种的有益等位基因纳入栽培水稻中,以改善关键性状。在此,我们总结了澳大利亚野生稻的有益性状,现有的基因组信息以及基因编辑在发现和理解新等位基因功能方面的潜力。此外,我们还讨论了这些野生水稻品种的潜在驯化对全球水稻生产的健康和经济效益。
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
CiteScore
7.00
自引率
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审稿时长
13 weeks
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