通过对油菜代表文库进行深度测序和 bulk segregant 分析发现抗荚破碎相关 SNP。

Discovery of pod shatter-resistant associated SNPs by deep sequencing of a representative library followed by bulk segregant analysis in rapeseed.

机构信息

Key Laboratory of Biology and Genetic Improvement of Oil Crops, Ministry of Agriculture, Oil Crops Research Institute of the Chinese Academy of Agricultural Sciences, Wuhan, Hubei, People's Republic of China.

出版信息

PLoS One. 2012;7(4):e34253. doi: 10.1371/journal.pone.0034253. Epub 2012 Apr 17.

DOI:10.1371/journal.pone.0034253

PMID:22529909

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3328475/

Abstract

BACKGROUND

Single nucleotide polymorphisms (SNPs) are an important class of genetic marker for target gene mapping. As of yet, there is no rapid and effective method to identify SNPs linked with agronomic traits in rapeseed and other crop species.

METHODOLOGY/PRINCIPAL FINDINGS: We demonstrate a novel method for identifying SNP markers in rapeseed by deep sequencing a representative library and performing bulk segregant analysis. With this method, SNPs associated with rapeseed pod shatter-resistance were discovered. Firstly, a reduced representation of the rapeseed genome was used. Genomic fragments ranging from 450-550 bp were prepared from the susceptible bulk (ten F2 plants with the silique shattering resistance index, SSRI <0.10) and the resistance bulk (ten F2 plants with SSRI >0.90), and also Solexa sequencing-produced 90 bp reads. Approximately 50 million of these sequence reads were assembled into contigs to a depth of 20-fold coverage. Secondly, 60,396 'simple SNPs' were identified, and the statistical significance was evaluated using Fisher's exact test. There were 70 associated SNPs whose -log(10)p value over 16 were selected to be further analyzed. The distribution of these SNPs appeared a tight cluster, which consisted of 14 associated SNPs within a 396 kb region on chromosome A09. Our evidence indicates that this region contains a major quantitative trait locus (QTL). Finally, two associated SNPs from this region were mapped on a major QTL region.

CONCLUSIONS/SIGNIFICANCE: 70 associated SNPs were discovered and a major QTL for rapeseed pod shatter-resistance was found on chromosome A09 using our novel method. The associated SNP markers were used for mapping of the QTL, and may be useful for improving pod shatter-resistance in rapeseed through marker-assisted selection and map-based cloning. This approach will accelerate the discovery of major QTLs and the cloning of functional genes for important agronomic traits in rapeseed and other crop species.

摘要

背景

单核苷酸多态性（SNP）是目标基因定位的重要遗传标记类。到目前为止，还没有一种快速有效的方法来鉴定油菜籽和其他作物物种中与农艺性状相关的 SNP。

方法/主要发现：我们通过深度测序代表性文库并进行大量分离分析，展示了一种鉴定油菜籽 SNP 标记的新方法。利用该方法，发现了与油菜籽荚抗裂性相关的 SNP 标记。首先，使用油菜籽基因组的简化代表。从易感性群体（10 株 F2 植物的裂荚指数 SSRI<0.10）和抗性群体（10 株 F2 植物的 SSRI>0.90）中制备基因组片段，范围为 450-550bp，还进行了 Solexa 测序产生 90bp 读长。大约 5000 万条这些序列读长被组装成连续体，深度为 20 倍覆盖。其次，鉴定了 60396 个“简单 SNP”，并使用 Fisher 精确检验评估了其统计显著性。选择了 70 个与 SNP 相关的 SNP，其-log（10）p 值超过 16，进一步进行分析。这些 SNP 的分布呈现出紧密的聚类，在 A09 染色体上的 396kb 区域内包含 14 个相关 SNP。我们的证据表明，该区域包含一个主要的数量性状位点（QTL）。最后，将该区域的两个相关 SNP 映射到主要 QTL 区域。

结论/意义：使用我们的新方法，在油菜籽 A09 染色体上发现了 70 个与 SNP 相关的 SNP，并找到了一个主要的抗裂荚 QTL。使用与 SNP 相关的标记对 QTL 进行了作图，这可能有助于通过标记辅助选择和基于图谱的克隆来提高油菜籽的抗裂荚性。这种方法将加速油菜籽和其他作物物种重要农艺性状的主要 QTL 和功能基因的发现。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9922/3328475/bb2f66f3321a/pone.0034253.g001.jpg

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通过对油菜代表文库进行深度测序和 bulk segregant 分析发现抗荚破碎相关 SNP。

Discovery of pod shatter-resistant associated SNPs by deep sequencing of a representative library followed by bulk segregant analysis in rapeseed.

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