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利用 RAD(限制位点相关 DNA)方法对向日葵基因组进行从头测序以发现 SNP。

De novo sequencing of sunflower genome for SNP discovery using RAD (Restriction site Associated DNA) approach.

机构信息

BioDiagnostics, Inc, 507 Highland Drive, River Falls, WI 54022, USA.

出版信息

BMC Genomics. 2013 Aug 15;14:556. doi: 10.1186/1471-2164-14-556.

DOI:10.1186/1471-2164-14-556
PMID:23947483
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3765701/
Abstract

BACKGROUND

Application of Single Nucleotide Polymorphism (SNP) marker technology as a tool in sunflower breeding programs offers enormous potential to improve sunflower genetics, and facilitate faster release of sunflower hybrids to the market place. Through a National Sunflower Association (NSA) funded initiative, we report on the process of SNP discovery through reductive genome sequencing and local assembly of six diverse sunflower inbred lines that represent oil as well as confection types.

RESULTS

A combination of Restriction site Associated DNA Sequencing (RAD-Seq) protocols and Illumina paired-end sequencing chemistry generated high quality 89.4 M paired end reads from the six lines which represent 5.3 GB of the sequencing data. Raw reads from the sunflower line, RHA 464 were assembled de novo to serve as a framework reference genome. About 15.2 Mb of sunflower genome distributed over 42,267 contigs were obtained upon assembly of RHA 464 sequencing data, the contig lengths ranged from 200 to 950 bp with an N50 length of 393 bp. SNP calling was performed by aligning sequencing data from the six sunflower lines to the assembled reference RHA 464. On average, 1 SNP was located every 143 bp of the sunflower genome sequence. Based on several filtering criteria, a final set of 16,467 putative sequence variants with characteristics favorable for Illumina Infinium Genotyping Technology (IGT) were mined from the sequence data generated across six diverse sunflower lines.

CONCLUSION

Here we report the molecular and computational methodology involved in SNP development for a complex genome like sunflower lacking reference assembly, offering an attractive tool for molecular breeding purposes in sunflower.

摘要

背景

应用单核苷酸多态性(SNP)标记技术作为向日葵育种计划中的工具,为改善向日葵遗传学提供了巨大的潜力,并加速了向日葵杂交种推向市场的速度。通过国家向日葵协会(NSA)资助的一项计划,我们报告了通过简化基因组测序和代表油用和食用类型的六个不同向日葵自交系的局部组装发现 SNP 的过程。

结果

结合限制性位点相关 DNA 测序(RAD-Seq)方案和 Illumina 配对末端测序化学方法,从这六个代表 5.3GB 测序数据的品系中生成了高质量的 89.4M 对端读取。来自向日葵品系 RHA 464 的原始读取从头组装,用作框架参考基因组。在组装 RHA 464 测序数据后,获得了分布在 42,267 个重叠群上的约 15.2Mb 的向日葵基因组,重叠群长度从 200 到 950bp 不等,N50 长度为 393bp。通过将来自六个向日葵品系的测序数据与组装的参考 RHA 464 对齐,进行 SNP 调用。平均而言,向日葵基因组序列的每 143bp 就有一个 SNP。基于几个过滤标准,从六个不同的向日葵品系生成的序列数据中挖掘出了最终的 16,467 个具有 Illumina Infinium 基因分型技术(IGT)特征的假定序列变体。

结论

在这里,我们报告了在缺乏参考组装的复杂基因组(如向日葵)中开发 SNP 所涉及的分子和计算方法,为向日葵的分子育种提供了一种有吸引力的工具。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/bd9f/3765701/0325f0fd0e7f/1471-2164-14-556-4.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/bd9f/3765701/2408445a424e/1471-2164-14-556-1.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/bd9f/3765701/1430a0a25d6c/1471-2164-14-556-2.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/bd9f/3765701/0ba51478e0d7/1471-2164-14-556-3.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/bd9f/3765701/0325f0fd0e7f/1471-2164-14-556-4.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/bd9f/3765701/2408445a424e/1471-2164-14-556-1.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/bd9f/3765701/1430a0a25d6c/1471-2164-14-556-2.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/bd9f/3765701/0ba51478e0d7/1471-2164-14-556-3.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/bd9f/3765701/0325f0fd0e7f/1471-2164-14-556-4.jpg

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