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Positional cloning by linkage disequilibrium

Positional cloning by linkage disequilibrium
Positional cloning by linkage disequilibrium
Recently, metric linkage disequilibrium (LD) maps that assign an LD unit (LDU) location for each marker have been developed (Maniatis et al. 2002). Here we present a multiple pairwise method for positional cloning by LD within a composite likelihood framework and investigate the operating characteristics of maps in physical units (kb) and LDU for two bodies of data (Daly et al. 2001; Jeffreys et al. 2001) on which current ideas of blocks are based. False-negative indications of a disease locus (type II error) were examined by selecting one single-nucleotide polymorphism (SNP) at a time as causal and taking its allelic count (0, 1, or 2, for the three genotypes) as a pseudophenotype, Y. By use of regression and correlation, association between every pseudophenotype and the allelic count of each SNP locus (X) was based on an adaptation of the Malecot model, which includes a parameter for location of the putative gene. By expressing locations in kb or LDU, greater power for localization was observed when the LDU map was fitted. The efficiency of the kb map, relative to the LDU map, to describe LD varied from a maximum of 0.87 to a minimum of 0.36, with a mean of 0.62. False-positive indications of a disease locus (type I error) were examined by simulating an unlinked causal SNP and the allele count was used as a pseudophenotype. The type I error was in good agreement with Wald's likelihood theorem for both metrics and all models that were tested. Unlike tests that select only the most significant marker, haplotype, or haploset, these methods are robust to large numbers of markers in a candidate region. Contrary to predictions from tagging SNPs that retain haplotype diversity, the sample with smaller size but greater SNP density gave less error. The locations of causal SNPs were estimated with the same precision in blocks and steps, suggesting that block definition may be less useful than anticipated for mapping a causal SNP. These results provide a guide to efficient positional cloning by SNPs and a benchmark against which the power of positional cloning by haplotype-based alternatives may be measured.
linkage-disequilibrium, time, england, linkage disequilibrium, human, research support, likelihood functions, alleles, chromosomes, methods, chromosome mapping, non-us government, polymorphism, molecular, single nucleotide, pair 6, disease, genotype, humans, genetics, pair 5, gene frequency, cloning, haplotypes
0002-9297
846-855
Maniatis, Nikolas
369fb005-aae0-4243-807b-b42af088debd
Collins, Andrew
7daa83eb-0b21-43b2-af1a-e38fb36e2a64
Gibson, Jane
855033a6-38f3-4853-8f60-d7d4561226ae
Zhang, Weihua
1a759991-f2d4-4324-b8e2-c5b4c2b527d6
Tapper, William
9d5ddc92-a8dd-4c78-ac67-c5867b62724c
Morton, Newton E.
c668e2be-074a-4a0a-a2ca-e8f51830ebb7
Maniatis, Nikolas
369fb005-aae0-4243-807b-b42af088debd
Collins, Andrew
7daa83eb-0b21-43b2-af1a-e38fb36e2a64
Gibson, Jane
855033a6-38f3-4853-8f60-d7d4561226ae
Zhang, Weihua
1a759991-f2d4-4324-b8e2-c5b4c2b527d6
Tapper, William
9d5ddc92-a8dd-4c78-ac67-c5867b62724c
Morton, Newton E.
c668e2be-074a-4a0a-a2ca-e8f51830ebb7

Maniatis, Nikolas, Collins, Andrew, Gibson, Jane, Zhang, Weihua, Tapper, William and Morton, Newton E. (2003) Positional cloning by linkage disequilibrium. American Journal of Human Genetics, 73 (5), 846-855. (doi:10.1086/383589).

Record type: Article

Abstract

Recently, metric linkage disequilibrium (LD) maps that assign an LD unit (LDU) location for each marker have been developed (Maniatis et al. 2002). Here we present a multiple pairwise method for positional cloning by LD within a composite likelihood framework and investigate the operating characteristics of maps in physical units (kb) and LDU for two bodies of data (Daly et al. 2001; Jeffreys et al. 2001) on which current ideas of blocks are based. False-negative indications of a disease locus (type II error) were examined by selecting one single-nucleotide polymorphism (SNP) at a time as causal and taking its allelic count (0, 1, or 2, for the three genotypes) as a pseudophenotype, Y. By use of regression and correlation, association between every pseudophenotype and the allelic count of each SNP locus (X) was based on an adaptation of the Malecot model, which includes a parameter for location of the putative gene. By expressing locations in kb or LDU, greater power for localization was observed when the LDU map was fitted. The efficiency of the kb map, relative to the LDU map, to describe LD varied from a maximum of 0.87 to a minimum of 0.36, with a mean of 0.62. False-positive indications of a disease locus (type I error) were examined by simulating an unlinked causal SNP and the allele count was used as a pseudophenotype. The type I error was in good agreement with Wald's likelihood theorem for both metrics and all models that were tested. Unlike tests that select only the most significant marker, haplotype, or haploset, these methods are robust to large numbers of markers in a candidate region. Contrary to predictions from tagging SNPs that retain haplotype diversity, the sample with smaller size but greater SNP density gave less error. The locations of causal SNPs were estimated with the same precision in blocks and steps, suggesting that block definition may be less useful than anticipated for mapping a causal SNP. These results provide a guide to efficient positional cloning by SNPs and a benchmark against which the power of positional cloning by haplotype-based alternatives may be measured.

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Published date: 1 May 2003
Related URLs:
Keywords: linkage-disequilibrium, time, england, linkage disequilibrium, human, research support, likelihood functions, alleles, chromosomes, methods, chromosome mapping, non-us government, polymorphism, molecular, single nucleotide, pair 6, disease, genotype, humans, genetics, pair 5, gene frequency, cloning, haplotypes
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Identifiers

Local EPrints ID: 60017
URI: http://eprints.soton.ac.uk/id/eprint/60017
DOI: doi:10.1086/383589
ISSN: 0002-9297
PURE UUID: e1764504-2abe-4314-a85c-02a42234b913
ORCID for Andrew Collins: ORCID iD orcid.org/0000-0001-7108-0771
ORCID for Jane Gibson: ORCID iD orcid.org/0000-0002-0973-8285
ORCID for William Tapper: ORCID iD orcid.org/0000-0002-5896-1889

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Date deposited: 04 Sep 2008
Last modified: 16 Mar 2024 03:33

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Contributors

Author: Nikolas Maniatis
Author: Andrew Collins ORCID iD
Author: Jane Gibson ORCID iD
Author: Weihua Zhang
Author: William Tapper ORCID iD
Author: Newton E. Morton

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