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下一代测序在分子植物育种中快速标记开发的应用:以窄叶羽扇豆对炭疽病抗性为例

Application of next-generation sequencing for rapid marker development in molecular plant breeding: a case study on anthracnose disease resistance in Lupinus angustifolius L.

机构信息

Department of Agriculture and Food Western Australia, 3 Baron-Hay Court, South Perth, 6151, Australia.

出版信息

BMC Genomics. 2012 Jul 17;13:318. doi: 10.1186/1471-2164-13-318.

DOI:10.1186/1471-2164-13-318
PMID:22805587
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3430595/
Abstract

BACKGROUND

In the last 30 years, a number of DNA fingerprinting methods such as RFLP, RAPD, AFLP, SSR, DArT, have been extensively used in marker development for molecular plant breeding. However, it remains a daunting task to identify highly polymorphic and closely linked molecular markers for a target trait for molecular marker-assisted selection. The next-generation sequencing (NGS) technology is far more powerful than any existing generic DNA fingerprinting methods in generating DNA markers. In this study, we employed a grain legume crop Lupinus angustifolius (lupin) as a test case, and examined the utility of an NGS-based method of RAD (restriction-site associated DNA) sequencing as DNA fingerprinting for rapid, cost-effective marker development tagging a disease resistance gene for molecular breeding.

RESULTS

Twenty informative plants from a cross of RxS (disease resistant x susceptible) in lupin were subjected to RAD single-end sequencing by multiplex identifiers. The entire RAD sequencing products were resolved in two lanes of the 16-lanes per run sequencing platform Solexa HiSeq2000. A total of 185 million raw reads, approximately 17 Gb of sequencing data, were collected. Sequence comparison among the 20 test plants discovered 8207 SNP markers. Filtration of DNA sequencing data with marker identification parameters resulted in the discovery of 38 molecular markers linked to the disease resistance gene Lanr1. Five randomly selected markers were converted into cost-effective, simple PCR-based markers. Linkage analysis using marker genotyping data and disease resistance phenotyping data on a F8 population consisting of 186 individual plants confirmed that all these five markers were linked to the R gene. Two of these newly developed sequence-specific PCR markers, AnSeq3 and AnSeq4, flanked the target R gene at a genetic distance of 0.9 centiMorgan (cM), and are now replacing the markers previously developed by a traditional DNA fingerprinting method for marker-assisted selection in the Australian national lupin breeding program.

CONCLUSIONS

We demonstrated that more than 30 molecular markers linked to a target gene of agronomic trait of interest can be identified from a small portion (1/8) of one sequencing run on HiSeq2000 by applying NGS based RAD sequencing in marker development. The markers developed by the strategy described in this study are all co-dominant SNP markers, which can readily be converted into high throughput multiplex format or low-cost, simple PCR-based markers desirable for large scale marker implementation in plant breeding programs. The high density and closely linked molecular markers associated with a target trait help to overcome a major bottleneck for implementation of molecular markers on a wide range of germplasm in breeding programs. We conclude that application of NGS based RAD sequencing as DNA fingerprinting is a very rapid and cost-effective strategy for marker development in molecular plant breeding. The strategy does not require any prior genome knowledge or molecular information for the species under investigation, and it is applicable to other plant species.

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/bf10/3430595/77d31b803dfa/1471-2164-13-318-3.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/bf10/3430595/df7994fbbbec/1471-2164-13-318-1.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/bf10/3430595/a9fc7b800a68/1471-2164-13-318-2.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/bf10/3430595/77d31b803dfa/1471-2164-13-318-3.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/bf10/3430595/df7994fbbbec/1471-2164-13-318-1.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/bf10/3430595/a9fc7b800a68/1471-2164-13-318-2.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/bf10/3430595/77d31b803dfa/1471-2164-13-318-3.jpg
摘要

背景

在过去的 30 年中,已经广泛使用了许多 DNA 指纹图谱方法,如 RFLP、RAPD、AFLP、SSR、DArT,用于分子植物育种中的标记开发。然而,对于分子标记辅助选择的目标性状,识别高度多态性和紧密连锁的分子标记仍然是一项艰巨的任务。下一代测序(NGS)技术在生成 DNA 标记方面比任何现有的通用 DNA 指纹图谱方法都强大得多。在这项研究中,我们以豆科作物 Lupinus angustifolius(羽扇豆)为试验案例,研究了基于 RAD(与限制性位点相关的 DNA)测序的 NGS 方法作为 DNA 指纹图谱用于快速、经济高效的标记开发的实用性,标记了一个用于分子育种的抗病基因。

结果

对羽扇豆 RxS(抗病 x 感病)杂交的 20 株有信息的植物进行了 RAD 单端测序,通过多重标识符进行了 multiplex identifiers。RAD 测序的整个产物在运行 Solexa HiSeq2000 测序平台的两条 16 个 lane 中进行了解析。共收集了 1.85 亿个原始读数,约 170GB 的测序数据。对 20 株测试植物的序列比较发现了 8207 个 SNP 标记。通过标记识别参数对 DNA 测序数据进行过滤,发现了 38 个与抗病基因 Lanr1 相关的分子标记。随机选择了 5 个标记,转化为成本效益高、简单的基于 PCR 的标记。使用包含 186 个个体植物的 F8 群体的标记基因型数据和抗病表型数据进行连锁分析,证实这 5 个标记都与 R 基因连锁。这五个新开发的序列特异性 PCR 标记中的两个,AnSeq3 和 AnSeq4,在遗传距离为 0.9 厘摩(cM)处围绕目标 R 基因,现在正在取代澳大利亚国家羽扇豆育种计划中以前通过传统 DNA 指纹图谱方法开发的标记,用于标记辅助选择。

结论

我们证明,通过在 HiSeq2000 上应用基于 NGS 的 RAD 测序,从一个测序运行的一小部分(1/8)中可以鉴定出 30 多个与感兴趣的农艺性状目标基因相关的分子标记。通过本研究中描述的策略开发的标记都是共显性 SNP 标记,可方便地转化为高通量多重格式或低成本、简单的基于 PCR 的标记,这对于在植物育种计划中大规模实施标记是理想的。与目标性状相关的高密度和紧密连锁的分子标记有助于克服在广泛的种质中实施分子标记的主要瓶颈。我们得出结论,应用基于 NGS 的 RAD 测序作为 DNA 指纹图谱是分子植物育种中标记开发的一种非常快速和经济有效的策略。该策略不需要对研究物种有任何先验的基因组知识或分子信息,并且适用于其他植物物种。

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