Targeted capture and massively parallel sequencing of 12 human exomes

被引:0
|
作者
Sarah B. Ng
Emily H. Turner
Peggy D. Robertson
Steven D. Flygare
Abigail W. Bigham
Choli Lee
Tristan Shaffer
Michelle Wong
Arindam Bhattacharjee
Evan E. Eichler
Michael Bamshad
Deborah A. Nickerson
Jay Shendure
机构
[1] Department of Genome Sciences,Department of Pediatrics
[2] ,undefined
[3] University of Washington,undefined
[4] Howard Hughes Medical Institute,undefined
[5] Seattle,undefined
[6] Washington 98195,undefined
[7] USA ,undefined
[8] Agilent Technologies,undefined
[9] Santa Clara,undefined
[10] California 95051,undefined
[11] USA ,undefined
来源
Nature | 2009年 / 461卷
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摘要
DNA sequencing costs have fallen dramatically in recent years, but they are still too high for whole-genome sequencing to be used routinely to identify rare and novel variants in large cohorts. Here Ng et al. demonstrate that targeted capture and massively parallel sequencing could be a cost-effective, reproducible, and robust strategy for the sensitive and specific identification of variants causing protein-coding changes in individual human genomes. Using this 'second generation' approach to sequencing they determine 307 megabases across the exomes (the protein-coding regions of the genome) of 12 individuals. Freeman–Sheldon syndrome is used as a proof-of-concept to show that candidate genes for monogenic disorders can be identified by exome sequencing of a small number of unrelated, affected individuals.
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页码:272 / 276
页数:4
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