种质资源学与基因组学相结合-破解基因发掘与育种利用的难题
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作者单位:

中国农业科学院作物科学研究所,北京 100081

作者简介:

研究方向为小麦种质资源与基因组学,E-mail:zhangxueyong@caas.cn

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基金项目:

国家重点研发计划(2016YFD0100302);中国农科院基本科研业务费(Y2017PTC9)


Integration of Germplasmics and Genomics: Bridging up Crop Gene Discovery and Breeding
Author:
Affiliation:

Institute of Crop Sciences, Chinese Academy of Agricultural Sciences, Beijing 100081

Fund Project:

Foundation projects: The Key Research and Development Program of China (2016YFD0100302); The Central Public-interest Scientific Institution Basal Research Fund (Y2017PTC9)

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    摘要:

    2010年前后,随着各大作物模式品种基因组测序的完成,拟南芥、水稻、玉米等的重测序研究,突破了分子标记数量的限制,带动作物科学研究全面进入基因组时代,大量代表性品种、种质资源完成了重测序工作,数以百万甚至千万计的SNP标记,全基因组关联分析(GWAS,genome-wide association study)广泛应用于遗传资源研究,使近10年成为种质资源研究的黄金期,通过GWAS解析一些复杂重要农艺性状的遗传基础,成为Cell、Nature和Science及其子刊这一时期的主要内容,推动种质资源学迈入一个崭新时代。20世纪,遗传育种学的发展和完善推动了种质资源学科的萌芽和初步形成,而21世纪基因组学的发展和广泛应用,逐步形成了种质资源学推动育种学发展的新局面, 一些长期困扰育种家的问题,通过GWAS分析得到了重要启示或答案(如番茄的驯化、育种史,品质与产量矛盾问题,小麦骨干亲本等)。而泛基因组研究的迅速发展,突破了单一参考基因组的局限性,使我们认识到品种间基因组结构变异的普遍性,为深度解析重大品种、骨干亲本的形成及突破性资源的创制提供了更加宽广的视野。巢式关联作图群体(NAM,nested association mapping)、多亲本互交群体(MAGIC,multi-parent advanced generation inter-cross)及以此为基础衍生的构建多亲本遗传群体的思路和实践,使研究群体的遗传背景水平达到同期育种要求,不仅加快了基因的精细定位,并为组装育种提供了平台,推动着种质资源学、基因组学和育种学的融合与互动,开启了以基因组信息为支撑的基因资源和分子设计育种新时代,也预示着大学科融合与调整时代的到来。

    Abstract:

    Since 1990s, scientists have mapped many quantitative trait loci through bi-parental populations such as NILs, DH, and IBD in plants through co-segregation between traits and markers. A set of important genes have been isolated by fine mapping, which are relating to biotic and abiotic stress resistance, environment adaptation, quality, and yield. These bring a lot of new biological knowledge. However, most of these genes were selected successfully in domestication and breeding.By 2010, with the establishment of reference genome sequences for most crops, genome re-sequencing has broken the limitation of the number of molecular markers, driving crop genetic research fully entering the genome era. Millions of SNP markers have made genome-wide association study (GWAS) widely used in genetic resources research, making it the most important part of germplasm resources research in the past 10 years. In this golden period, dissecting genetic basis of important agronomic traits through GWAS has become the main content of CellNature and Science and their sub-publishers.In the last century, the establishment and development of crop breeding science promoted establishment of germplasm resource discipline. The development and wide application of genomics in this century has gradually formed a new situation in which research of germplasm resources promotes the development of breeding. Many problems that plague breeders have received important enlightenment or answers through GWAS analysis (such as tomato domestication, breeding history, contradiction between quality and yield, founder genotype, etc.). Further, the pan-genome research breaks through the limitations of a single reference genome, makes researchers realize the universality of genomic structural variations within a species, and provides a broader perspective for analyzing the formation of landmark cultivars, founder genotypes and the creation new super-cultivars. NAM, MAGIC, and the ideas and practice of constructing new multi-parents genetic mapping populations based on these can make the background level of the mapping population basically reaching the level of the breeding population at the same time, speeding up the fine mapping of agronomically important genes and pre-breeding. This has driven integration and interaction of germplasmics, genomics and breeding. Furthermore, in assistance of speed breeding and gene editing technology, the integration and interaction will surely promote the three disciplines to enter a new time.

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引用本文

张学勇,郝晨阳,焦成智,等.种质资源学与基因组学相结合-破解基因发掘与育种利用的难题[J].植物遗传资源学报,2023,24(1):11-21.

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  • 收稿日期:2023-01-04
  • 最后修改日期:2023-01-05
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  • 在线发布日期: 2023-01-12
  • 出版日期: 2023-01-12
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