Epigenome guided crop improvement: current progress and future opportunities.

IF 3.4 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY
Yan Zhang, Haylie Andrews, Judith Eglitis-Sexton, Ian Godwin, Miloš Tanurdžić, Peter A Crisp
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引用次数: 4

Abstract

Epigenomics encompasses a broad field of study, including the investigation of chromatin states, chromatin modifications and their impact on gene regulation; as well as the phenomena of epigenetic inheritance. The epigenome is a multi-modal layer of information superimposed on DNA sequences, instructing their usage in gene expression. As such, it is an emerging focus of efforts to improve crop performance. Broadly, this might be divided into avenues that leverage chromatin information to better annotate and decode plant genomes, and into complementary strategies that aim to identify and select for heritable epialleles that control crop traits independent of underlying genotype. In this review, we focus on the first approach, which we term 'epigenome guided' improvement. This encompasses the use of chromatin profiles to enhance our understanding of the composition and structure of complex crop genomes. We discuss the current progress and future prospects towards integrating this epigenomic information into crop improvement strategies; in particular for CRISPR/Cas9 gene editing and precision genome engineering. We also highlight some specific opportunities and challenges for grain and horticultural crops.

Abstract Image

Abstract Image

表观基因组指导作物改良:当前进展和未来机遇。
表观基因组学涵盖了广泛的研究领域,包括染色质状态的研究,染色质修饰及其对基因调控的影响;以及表观遗传现象。表观基因组是叠加在DNA序列上的多模态信息层,指导它们在基因表达中的使用。因此,它是一个新兴的重点努力提高作物性能。从广义上讲,这可能分为利用染色质信息来更好地注释和解码植物基因组的途径,以及旨在识别和选择独立于潜在基因型控制作物性状的可遗传表观等位基因的互补策略。在这篇综述中,我们着重于第一种方法,我们称之为“表观基因组指导”的改进。这包括使用染色质谱来增强我们对复杂作物基因组组成和结构的理解。我们讨论了将这些表观基因组信息整合到作物改良策略中的目前进展和未来展望;特别是在CRISPR/Cas9基因编辑和精确基因组工程方面。我们还强调了粮食和园艺作物面临的一些具体机遇和挑战。
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
7.70
自引率
0.00%
发文量
94
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