SLAF-seq: An Efficient Method of Large-Scale De Novo SNP Discovery and Genotyping Using High-Throughput Sequencing

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Abstract

Large-scale genotyping plays an important role in genetic association studies. It has provided new opportunities for gene discovery, especially when combined with high-throughput sequencing technologies. Here, we report an efficient solution for large-scale genotyping. We call it specific-locus amplified fragment sequencing (SLAF-seq). SLAF-seq technology has several distinguishing characteristics: i) deep sequencing to ensure genotyping accuracy; ii) reduced representation strategy to reduce sequencing costs; iii) pre-designed reduced representation scheme to optimize marker efficiency; and iv) double barcode system for large populations. In this study, we tested the efficiency of SLAF-seq on rice and soybean data. Both sets of results showed strong consistency between predicted and practical SLAFs and considerable genotyping accuracy. We also report the highest density genetic map yet created for any organism without a reference genome sequence, common carp in this case, using SLAF-seq data. We detected 50,530 high-quality SLAFs with 13,291 SNPs genotyped in 211 individual carp. The genetic map contained 5,885 markers with 0.68 cM intervals on average. A comparative genomics study between common carp genetic map and zebrafish genome sequence map showed high-quality SLAF-seq genotyping results. SLAF-seq provides a high-resolution strategy for large-scale genotyping and can be generally applicable to various species and populations.

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Most cited references 31

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BLAT---The BLAST-Like Alignment Tool

W. J. Kent (2002)

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Genome sequence of the palaeopolyploid soybean.

Jeremy Schmutz, Steven Cannon, Jessica Schlueter … (2010)

Soybean (Glycine max) is one of the most important crop plants for seed protein and oil content, and for its capacity to fix atmospheric nitrogen through symbioses with soil-borne microorganisms. We sequenced the 1.1-gigabase genome by a whole-genome shotgun approach and integrated it with physical and high-density genetic maps to create a chromosome-scale draft sequence assembly. We predict 46,430 protein-coding genes, 70% more than Arabidopsis and similar to the poplar genome which, like soybean, is an ancient polyploid (palaeopolyploid). About 78% of the predicted genes occur in chromosome ends, which comprise less than one-half of the genome but account for nearly all of the genetic recombination. Genome duplications occurred at approximately 59 and 13 million years ago, resulting in a highly duplicated genome with nearly 75% of the genes present in multiple copies. The two duplication events were followed by gene diversification and loss, and numerous chromosome rearrangements. An accurate soybean genome sequence will facilitate the identification of the genetic basis of many soybean traits, and accelerate the creation of improved soybean varieties.

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Initial sequencing and comparative analysis of the mouse genome.

Robert Waterston, Kerstin Lindblad-Toh, Ewan Birney … (2003)

The sequence of the mouse genome is a key informational tool for understanding the contents of the human genome and a key experimental tool for biomedical research. Here, we report the results of an international collaboration to produce a high-quality draft sequence of the mouse genome. We also present an initial comparative analysis of the mouse and human genomes, describing some of the insights that can be gleaned from the two sequences. We discuss topics including the analysis of the evolutionary forces shaping the size, structure and sequence of the genomes; the conservation of large-scale synteny across most of the genomes; the much lower extent of sequence orthology covering less than half of the genomes; the proportions of the genomes under selection; the number of protein-coding genes; the expansion of gene families related to reproduction and immunity; the evolution of proteins; and the identification of intraspecies polymorphism.

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Author and article information

Contributors

Jan Aerts: Role: Editor

Journal

Journal ID (nlm-ta): PLoS One

Journal ID (iso-abbrev): PLoS ONE

Journal ID (publisher-id): plos

Journal ID (pmc): plosone

Title: PLoS ONE

Publisher: Public Library of Science (San Francisco, USA )

ISSN (Electronic): 1932-6203

Publication date Collection: 2013

Publication date (Electronic): 19 March 2013

Volume: 8

Issue: 3

Electronic Location Identifier: e58700

Affiliations

[1 ]Heilongjiang River Fisheries Research Institute, Chinese Academy of Fishery Sciences, Harbin, China

[2 ]Biomarker Technologies Corporation, Beijing, China

[3 ]Key Laboratory of Soybean Biology in Chinese Ministry of Education, Northeast Agricultural University, Harbin, China

[4 ]Institute of Vegetables and Flowers, Chinese Academy of Agricultural Sciences, Beijing, China

Leuven University, Belgium

Author notes

* E-mail: sunxw2002@ 123456163.com (XS); zhenghk@ 123456biomarker.com.cn (HZ)

Competing Interests: The fifteen authors are current employees of the Biomarker Technologies Corporation in Beijing. There are no patents, products in development or marketed products to declare. This does not alter the authors' adherence to all the PLOS ONE policies on sharing data and materials.

Conceived and designed the experiments: XS H. Zheng. Performed the experiments: X. Zhang WL HL NG X. Zheng XW. Analyzed the data: CJ CM H. Zeng LH RW CL. Contributed reagents/materials/analysis tools: CX J. Song CW J. Shi. Wrote the paper: DL WH H. Zheng.

Article

Publisher ID: PONE-D-12-30506

DOI: 10.1371/journal.pone.0058700

PMC ID: 3602454

PubMed ID: 23527008

SO-VID: ade12745-134f-4e28-a24c-c9567c23c142

License:

This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

History

Date received : 8 October 2012

Date accepted : 5 February 2013

Page count

Pages: 9

Funding

This work was supported by Key Project of Chinese National Programs for Fundamental Research and Development (No. 2010CB126305) and the National High Technology Research and Development Program of China (2011AA100402). The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.

SLAF-seq: An Efficient Method of Large-Scale De Novo SNP Discovery and Genotyping Using High-Throughput Sequencing

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Most cited references 31

BLAT---The BLAST-Like Alignment Tool

Genome sequence of the palaeopolyploid soybean.

Initial sequencing and comparative analysis of the mouse genome.

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