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A metric linkage disequilibrium map of a human chromosome

A metric linkage disequilibrium map of a human chromosome
A metric linkage disequilibrium map of a human chromosome
We used LDMAP (Maniatis et al. 2002) to analyse SNP data spanning chromosome 22 (Dawson et al. 2002), to obtain a whole-chromosome metric LD map. The LD map, with map distances analogous to the centiMorgan scale of linkage maps, identifies regions of high LD as plateaus ('blocks') and characterises steps which define the relationship between these regions. From this map we estimate that block regions comprise between 32% and 55% of the euchromatic portion of chromosome 22 and that increasing marker density within steps may increase block coverage. Steps are regions of low LD which correspond to areas of variable recombination intensity. The intensity of recombination is related to the height of the step and thus intense recombination hot-spots can be distinguished from more randomly distributed historical events. The LD maps are more closely related to the high-resolution linkage map (Kong et al. 2002) than average measures of ? with recombination accounting for between 34% and 52% of the variance in patterns of LD (r = 0.58 – 0.71, p = 0.0001). Step regions are closely correlated with a range of sequence motifs including GT/CA repeats. The LD map identifies holes in which greater marker density is required and defines the optimal SNP spacing for positional cloning, which suggests that some multiple of around 50,000 SNPs will be required to efficiently screen Caucasian genomes. Further analyses which investigate selection of informative SNPs and the effect of SNP allele frequency and marker density will refine this estimate.
single nucleotide, human, pair 22, linkage disequilibrium, recombination, chromosome mapping, models, genome, haplotypes, humans, genetic regression analysis, genetics, height, chromosomes, european continental ancestry group, polymorphism, euchromatin, comparative study
0003-4800
487 -494
Tapper, W.J.
9d5ddc92-a8dd-4c78-ac67-c5867b62724c
Maniatis, N.
af642fc2-cf37-422e-921a-1990a8d4bcfd
Morton, N.E.
c668e2be-074a-4a0a-a2ca-e8f51830ebb7
Collins, A.
7daa83eb-0b21-43b2-af1a-e38fb36e2a64
Tapper, W.J.
9d5ddc92-a8dd-4c78-ac67-c5867b62724c
Maniatis, N.
af642fc2-cf37-422e-921a-1990a8d4bcfd
Morton, N.E.
c668e2be-074a-4a0a-a2ca-e8f51830ebb7
Collins, A.
7daa83eb-0b21-43b2-af1a-e38fb36e2a64

Tapper, W.J., Maniatis, N., Morton, N.E. and Collins, A. (2003) A metric linkage disequilibrium map of a human chromosome. Annals of Human Genetics, 67 (6), 487 -494. (doi:10.1046/j.1469-1809.2003.00050.x).

Record type: Article

Abstract

We used LDMAP (Maniatis et al. 2002) to analyse SNP data spanning chromosome 22 (Dawson et al. 2002), to obtain a whole-chromosome metric LD map. The LD map, with map distances analogous to the centiMorgan scale of linkage maps, identifies regions of high LD as plateaus ('blocks') and characterises steps which define the relationship between these regions. From this map we estimate that block regions comprise between 32% and 55% of the euchromatic portion of chromosome 22 and that increasing marker density within steps may increase block coverage. Steps are regions of low LD which correspond to areas of variable recombination intensity. The intensity of recombination is related to the height of the step and thus intense recombination hot-spots can be distinguished from more randomly distributed historical events. The LD maps are more closely related to the high-resolution linkage map (Kong et al. 2002) than average measures of ? with recombination accounting for between 34% and 52% of the variance in patterns of LD (r = 0.58 – 0.71, p = 0.0001). Step regions are closely correlated with a range of sequence motifs including GT/CA repeats. The LD map identifies holes in which greater marker density is required and defines the optimal SNP spacing for positional cloning, which suggests that some multiple of around 50,000 SNPs will be required to efficiently screen Caucasian genomes. Further analyses which investigate selection of informative SNPs and the effect of SNP allele frequency and marker density will refine this estimate.

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More information

Published date: November 2003
Keywords: single nucleotide, human, pair 22, linkage disequilibrium, recombination, chromosome mapping, models, genome, haplotypes, humans, genetic regression analysis, genetics, height, chromosomes, european continental ancestry group, polymorphism, euchromatin, comparative study

Identifiers

Local EPrints ID: 24979
URI: http://eprints.soton.ac.uk/id/eprint/24979
ISSN: 0003-4800
PURE UUID: 87f42988-5619-4bba-a5a0-9963ed3b6986
ORCID for W.J. Tapper: ORCID iD orcid.org/0000-0002-5896-1889
ORCID for A. Collins: ORCID iD orcid.org/0000-0001-7108-0771

Catalogue record

Date deposited: 04 Apr 2006
Last modified: 16 Mar 2024 03:07

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Contributors

Author: W.J. Tapper ORCID iD
Author: N. Maniatis
Author: N.E. Morton
Author: A. Collins ORCID iD

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