Common deletion polymorphisms in the human genome

Steven A. McCarroll; Tracy N. Hadnott; George H. Perry; Pardis C. Sabeti; Michael C. Zody; Jeffrey C. Barrett; Stephanie Dallaire; Stacey B. Gabriel; Charles Lee; Mark J. Daly; David M. Altshuler

doi:10.1038/ng1696

Common deletion polymorphisms in the human genome

Steven A. McCarroll, Tracy N. Hadnott, George H. Perry, Pardis C. Sabeti, Michael C. Zody, Jeffrey C. Barrett, Stephanie Dallaire, Stacey B. Gabriel, Charles Lee, Mark J. Daly, David M. Altshuler

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604 Scopus citations

Abstract

The locations and properties of common deletion variants in the human genome are largely unknown. We describe a systematic method for using dense SNP genotype data to discover deletions and its application to data from the International HapMap Consortium to characterize and catalogue segregating deletion variants across the human genome. We identified 541 deletion variants (94% novel) ranging from 1 kb to 745 kb in size; 278 of these variants were observed in multiple, unrelated individuals, 120 in the homozygous state. The coding exons of ten expressed genes were found to be commonly deleted, including multiple genes with roles in sex steroid metabolism, olfaction and drug response. These common deletion polymorphisms typically represent ancestral mutations that are in linkage disequilibrium with nearby SNPs, meaning that their association to disease can often be evaluated in the course of SNP-based whole-genome association studies.

Original language	English (US)
Pages (from-to)	86-92
Number of pages	7
Journal	Nature Genetics
Volume	38
Issue number	1
DOIs	https://doi.org/10.1038/ng1696
State	Published - Jan 2006

All Science Journal Classification (ASJC) codes

Genetics

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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abstract = "The locations and properties of common deletion variants in the human genome are largely unknown. We describe a systematic method for using dense SNP genotype data to discover deletions and its application to data from the International HapMap Consortium to characterize and catalogue segregating deletion variants across the human genome. We identified 541 deletion variants (94% novel) ranging from 1 kb to 745 kb in size; 278 of these variants were observed in multiple, unrelated individuals, 120 in the homozygous state. The coding exons of ten expressed genes were found to be commonly deleted, including multiple genes with roles in sex steroid metabolism, olfaction and drug response. These common deletion polymorphisms typically represent ancestral mutations that are in linkage disequilibrium with nearby SNPs, meaning that their association to disease can often be evaluated in the course of SNP-based whole-genome association studies.",

author = "McCarroll, {Steven A.} and Hadnott, {Tracy N.} and Perry, {George H.} and Sabeti, {Pardis C.} and Zody, {Michael C.} and Barrett, {Jeffrey C.} and Stephanie Dallaire and Gabriel, {Stacey B.} and Charles Lee and Daly, {Mark J.} and Altshuler, {David M.}",

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AU - McCarroll, Steven A.

AU - Hadnott, Tracy N.

AU - Perry, George H.

AU - Sabeti, Pardis C.

AU - Zody, Michael C.

AU - Barrett, Jeffrey C.

AU - Dallaire, Stephanie

AU - Gabriel, Stacey B.

AU - Lee, Charles

AU - Daly, Mark J.

AU - Altshuler, David M.

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AB - The locations and properties of common deletion variants in the human genome are largely unknown. We describe a systematic method for using dense SNP genotype data to discover deletions and its application to data from the International HapMap Consortium to characterize and catalogue segregating deletion variants across the human genome. We identified 541 deletion variants (94% novel) ranging from 1 kb to 745 kb in size; 278 of these variants were observed in multiple, unrelated individuals, 120 in the homozygous state. The coding exons of ten expressed genes were found to be commonly deleted, including multiple genes with roles in sex steroid metabolism, olfaction and drug response. These common deletion polymorphisms typically represent ancestral mutations that are in linkage disequilibrium with nearby SNPs, meaning that their association to disease can often be evaluated in the course of SNP-based whole-genome association studies.

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Common deletion polymorphisms in the human genome

Abstract

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