Literature DB >> 19420381

SNP detection for massively parallel whole-genome resequencing.

Ruiqiang Li1, Yingrui Li, Xiaodong Fang, Huanming Yang, Jian Wang, Karsten Kristiansen, Jun Wang.   

Abstract

Next-generation massively parallel sequencing technologies provide ultrahigh throughput at two orders of magnitude lower unit cost than capillary Sanger sequencing technology. One of the key applications of next-generation sequencing is studying genetic variation between individuals using whole-genome or target region resequencing. Here, we have developed a consensus-calling and SNP-detection method for sequencing-by-synthesis Illumina Genome Analyzer technology. We designed this method by carefully considering the data quality, alignment, and experimental errors common to this technology. All of this information was integrated into a single quality score for each base under Bayesian theory to measure the accuracy of consensus calling. We tested this methodology using a large-scale human resequencing data set of 36x coverage and assembled a high-quality nonrepetitive consensus sequence for 92.25% of the diploid autosomes and 88.07% of the haploid X chromosome. Comparison of the consensus sequence with Illumina human 1M BeadChip genotyped alleles from the same DNA sample showed that 98.6% of the 37,933 genotyped alleles on the X chromosome and 98% of 999,981 genotyped alleles on autosomes were covered at 99.97% and 99.84% consistency, respectively. At a low sequencing depth, we used prior probability of dbSNP alleles and were able to improve coverage of the dbSNP sites significantly as compared to that obtained using a nonimputation model. Our analyses demonstrate that our method has a very low false call rate at any sequencing depth and excellent genome coverage at a high sequencing depth.

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Mesh:

Year:  2009        PMID: 19420381      PMCID: PMC2694485          DOI: 10.1101/gr.088013.108

Source DB:  PubMed          Journal:  Genome Res        ISSN: 1088-9051            Impact factor:   9.043


  32 in total

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Journal:  Genome Res       Date:  2001-01       Impact factor: 9.043

3.  dbSNP: the NCBI database of genetic variation.

Authors:  S T Sherry; M H Ward; M Kholodov; J Baker; L Phan; E M Smigielski; K Sirotkin
Journal:  Nucleic Acids Res       Date:  2001-01-01       Impact factor: 16.971

4.  Initial sequencing and analysis of the human genome.

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Journal:  Nature       Date:  2001-02-15       Impact factor: 49.962

5.  An SNP map of the human genome generated by reduced representation shotgun sequencing.

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Journal:  Nature       Date:  2000-09-28       Impact factor: 49.962

6.  Quality scores and SNP detection in sequencing-by-synthesis systems.

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Journal:  Genome Res       Date:  2008-01-22       Impact factor: 9.043

7.  Mapping short DNA sequencing reads and calling variants using mapping quality scores.

Authors:  Heng Li; Jue Ruan; Richard Durbin
Journal:  Genome Res       Date:  2008-08-19       Impact factor: 9.043

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Authors:  G Jimenez-Sanchez; B Childs; D Valle
Journal:  Nature       Date:  2001-02-15       Impact factor: 49.962

9.  The diploid genome sequence of an Asian individual.

Authors:  Jun Wang; Wei Wang; Ruiqiang Li; Yingrui Li; Geng Tian; Laurie Goodman; Wei Fan; Junqing Zhang; Jun Li; Juanbin Zhang; Yiran Guo; Binxiao Feng; Heng Li; Yao Lu; Xiaodong Fang; Huiqing Liang; Zhenglin Du; Dong Li; Yiqing Zhao; Yujie Hu; Zhenzhen Yang; Hancheng Zheng; Ines Hellmann; Michael Inouye; John Pool; Xin Yi; Jing Zhao; Jinjie Duan; Yan Zhou; Junjie Qin; Lijia Ma; Guoqing Li; Zhentao Yang; Guojie Zhang; Bin Yang; Chang Yu; Fang Liang; Wenjie Li; Shaochuan Li; Dawei Li; Peixiang Ni; Jue Ruan; Qibin Li; Hongmei Zhu; Dongyuan Liu; Zhike Lu; Ning Li; Guangwu Guo; Jianguo Zhang; Jia Ye; Lin Fang; Qin Hao; Quan Chen; Yu Liang; Yeyang Su; A San; Cuo Ping; Shuang Yang; Fang Chen; Li Li; Ke Zhou; Hongkun Zheng; Yuanyuan Ren; Ling Yang; Yang Gao; Guohua Yang; Zhuo Li; Xiaoli Feng; Karsten Kristiansen; Gane Ka-Shu Wong; Rasmus Nielsen; Richard Durbin; Lars Bolund; Xiuqing Zhang; Songgang Li; Huanming Yang; Jian Wang
Journal:  Nature       Date:  2008-11-06       Impact factor: 49.962

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Journal:  Science       Date:  2001-02-16       Impact factor: 47.728
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  442 in total

1.  Maize HapMap2 identifies extant variation from a genome in flux.

Authors:  Jer-Ming Chia; Chi Song; Peter J Bradbury; Denise Costich; Natalia de Leon; John Doebley; Robert J Elshire; Brandon Gaut; Laura Geller; Jeffrey C Glaubitz; Michael Gore; Kate E Guill; Jim Holland; Matthew B Hufford; Jinsheng Lai; Meng Li; Xin Liu; Yanli Lu; Richard McCombie; Rebecca Nelson; Jesse Poland; Boddupalli M Prasanna; Tanja Pyhäjärvi; Tingzhao Rong; Rajandeep S Sekhon; Qi Sun; Maud I Tenaillon; Feng Tian; Jun Wang; Xun Xu; Zhiwu Zhang; Shawn M Kaeppler; Jeffrey Ross-Ibarra; Michael D McMullen; Edward S Buckler; Gengyun Zhang; Yunbi Xu; Doreen Ware
Journal:  Nat Genet       Date:  2012-06-03       Impact factor: 38.330

2.  SNP calling using genotype model selection on high-throughput sequencing data.

Authors:  Na You; Gabriel Murillo; Xiaoquan Su; Xiaowei Zeng; Jian Xu; Kang Ning; Shoudong Zhang; Jiankang Zhu; Xinping Cui
Journal:  Bioinformatics       Date:  2012-01-16       Impact factor: 6.937

3.  Genotype calling from next-generation sequencing data using haplotype information of reads.

Authors:  Degui Zhi; Jihua Wu; Nianjun Liu; Kui Zhang
Journal:  Bioinformatics       Date:  2012-01-27       Impact factor: 6.937

4.  Next-generation sequencing for cancer diagnostics: a practical perspective.

Authors:  Cliff Meldrum; Maria A Doyle; Richard W Tothill
Journal:  Clin Biochem Rev       Date:  2011-11

5.  Accurate identification of A-to-I RNA editing in human by transcriptome sequencing.

Authors:  Jae Hoon Bahn; Jae-Hyung Lee; Gang Li; Christopher Greer; Guangdun Peng; Xinshu Xiao
Journal:  Genome Res       Date:  2011-09-29       Impact factor: 9.043

6.  2b-RAD: a simple and flexible method for genome-wide genotyping.

Authors:  Shi Wang; Eli Meyer; John K McKay; Mikhail V Matz
Journal:  Nat Methods       Date:  2012-05-20       Impact factor: 28.547

7.  Multi-sample pooling and illumina genome analyzer sequencing methods to determine gene sequence variation for database development.

Authors:  Rebecca L Margraf; Jacob D Durtschi; Shale Dames; David C Pattison; Jack E Stephens; Rong Mao; Karl V Voelkerding
Journal:  J Biomol Tech       Date:  2010-09

Review 8.  Next generation sequencing for clinical diagnostics-principles and application to targeted resequencing for hypertrophic cardiomyopathy: a paper from the 2009 William Beaumont Hospital Symposium on Molecular Pathology.

Authors:  Karl V Voelkerding; Shale Dames; Jacob D Durtschi
Journal:  J Mol Diagn       Date:  2010-09       Impact factor: 5.568

9.  Transcriptome profiling of the cancer and normal tissues from gastric cancer patients by deep sequencing.

Authors:  Fei-Gong Zhang; Zhi-Ying He; Qiang Wang
Journal:  Tumour Biol       Date:  2014-04-30

10.  Performance of common analysis methods for detecting low-frequency single nucleotide variants in targeted next-generation sequence data.

Authors:  David H Spencer; Manoj Tyagi; Francesco Vallania; Andrew J Bredemeyer; John D Pfeifer; Rob D Mitra; Eric J Duncavage
Journal:  J Mol Diagn       Date:  2013-11-05       Impact factor: 5.568
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