Cosmopolitan linkage disequilibrium maps
Cosmopolitan linkage disequilibrium maps
Linkage maps have been invaluable for the positional cloning of many genes involved in severe human diseases. Standard genetic linkage maps have been constructed for this purpose from the Centre d'Etude du Polymorphisme Humain and other panels, and have been widely used. Now that attention has shifted towards identifying genes predisposing to common disorders using linkage disequilibrium (LD) and maps of single nucleotide polymorphisms (SNPs), it is of interest to consider a standard LD map which is somewhat analogous to the corresponding map for linkage. We have constructed and evaluated a cosmopolitan LD map by combining samples from a small number of populations using published data from a 10-megabase region on chromosome 20. In support of a pilot study, which examined a number of small genomic regions with a lower density of markers, we have found that a cosmopolitan map, which serves all populations when appropriately scaled, recovers 91 to 95 per cent of the information within population-specific maps. Recombination hot spots appear to have a dominant role in shaping patterns of LD. The success of the cosmopolitan map might be attributed to the co-localisation of hot spots in all populations. Although there must be finer scale differences between populations due to other processes (mutation, drift, selection), the results suggest that a whole-genome standard LD map would indeed be a useful resource for disease gene mapping.
Chromosome Mapping, Gene Frequency, Genetic Markers, Humans, Linkage Disequilibrium, Polymorphism, Single Nucleotide, Population Density
20-27
Gibson, Jane
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Tapper, William
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Zhang, Weihua
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Morton, Newton
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Collins, Andrew
dfaf2088-2c1c-44b3-a347-c18b66a2082d
March 2005
Gibson, Jane
62ecc833-c348-44a1-be5c-3010d15eccf1
Tapper, William
9d5ddc92-a8dd-4c78-ac67-c5867b62724c
Zhang, Weihua
1a759991-f2d4-4324-b8e2-c5b4c2b527d6
Morton, Newton
c668e2be-074a-4a0a-a2ca-e8f51830ebb7
Collins, Andrew
dfaf2088-2c1c-44b3-a347-c18b66a2082d
Gibson, Jane, Tapper, William, Zhang, Weihua, Morton, Newton and Collins, Andrew
(2005)
Cosmopolitan linkage disequilibrium maps.
Human Genomics, 2 (1), .
(doi:10.1186/1479-7364-2-1-20).
Abstract
Linkage maps have been invaluable for the positional cloning of many genes involved in severe human diseases. Standard genetic linkage maps have been constructed for this purpose from the Centre d'Etude du Polymorphisme Humain and other panels, and have been widely used. Now that attention has shifted towards identifying genes predisposing to common disorders using linkage disequilibrium (LD) and maps of single nucleotide polymorphisms (SNPs), it is of interest to consider a standard LD map which is somewhat analogous to the corresponding map for linkage. We have constructed and evaluated a cosmopolitan LD map by combining samples from a small number of populations using published data from a 10-megabase region on chromosome 20. In support of a pilot study, which examined a number of small genomic regions with a lower density of markers, we have found that a cosmopolitan map, which serves all populations when appropriately scaled, recovers 91 to 95 per cent of the information within population-specific maps. Recombination hot spots appear to have a dominant role in shaping patterns of LD. The success of the cosmopolitan map might be attributed to the co-localisation of hot spots in all populations. Although there must be finer scale differences between populations due to other processes (mutation, drift, selection), the results suggest that a whole-genome standard LD map would indeed be a useful resource for disease gene mapping.
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More information
Published date: March 2005
Keywords:
Chromosome Mapping, Gene Frequency, Genetic Markers, Humans, Linkage Disequilibrium, Polymorphism, Single Nucleotide, Population Density
Identifiers
Local EPrints ID: 24708
URI: http://eprints.soton.ac.uk/id/eprint/24708
ISSN: 1479-7364
PURE UUID: 08f83ee8-c8e4-4072-a442-60149367f295
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Date deposited: 03 Apr 2006
Last modified: 16 Mar 2024 03:07
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Contributors
Author:
Jane Gibson
Author:
Weihua Zhang
Author:
Newton Morton
Author:
Andrew Collins
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