Properties of linkage disequilibrium (LD) maps
Properties of linkage disequilibrium (LD) maps
A linkage disequilibrium map is expressed in linkage disequilibrium (LD) units (LDU) discriminating blocks of conserved LD that have additive distances and locations monotonic with physical (kb) and genetic (cM) maps. There is remarkable agreement between LDU steps and sites of meiotic recombination in the one body of data informative for crossing over, and good agreement with another method that defines blocks without assigning an LD location to each marker. The map may be constructed from haplotypes or diplotypes, and efficiency estimated from the empirical variance of LD is substantially greater for the metric based on evolutionary theory than for the absolute correlation r, and for the LD map compared with its physical counterpart. The empirical variance is nearly three times as great for the worst alternative (r and kb map) as for the most efficient approach (and LD map). According to the empirical variances, blocks are best defined by zero distance between included markers. Because block size is algorithm-dependent and highly variable, the number of markers required for positional cloning is minimized by uniform spacing on the LD map, which is estimated to have 1 LDU per locus, but with much variation among regions. No alternative representation of linkage disequilibrium (some of which are loosely called maps) has these properties, suggesting that LD maps are optimal for positional cloning of genes determining disease susceptibility.
abbreviations, ld, linkage disequilibrium, ldu, ld unit, snp, single-nucleotide polymorphism, cm, centimorgan, chromosome mapping, research support, recombination, genetic predisposition to disease, genes, haplotypes, genetic, humans, non-u.s.gov't, disease susceptibility, time, human, disease, genetics
17004-17007
Zhang, Weilhua
6c98ce28-7bb3-45e5-9a10-52765bb8e5ff
Collins, Andrew
7daa83eb-0b21-43b2-af1a-e38fb36e2a64
Maniatis, Nikolas
369fb005-aae0-4243-807b-b42af088debd
Tapper, William
9d5ddc92-a8dd-4c78-ac67-c5867b62724c
Morton, Newton E.
c668e2be-074a-4a0a-a2ca-e8f51830ebb7
24 December 2002
Zhang, Weilhua
6c98ce28-7bb3-45e5-9a10-52765bb8e5ff
Collins, Andrew
7daa83eb-0b21-43b2-af1a-e38fb36e2a64
Maniatis, Nikolas
369fb005-aae0-4243-807b-b42af088debd
Tapper, William
9d5ddc92-a8dd-4c78-ac67-c5867b62724c
Morton, Newton E.
c668e2be-074a-4a0a-a2ca-e8f51830ebb7
Zhang, Weilhua, Collins, Andrew, Maniatis, Nikolas, Tapper, William and Morton, Newton E.
(2002)
Properties of linkage disequilibrium (LD) maps.
Proceedings of the National Academy of Sciences of the United States of America, 99 (26), .
(doi:10.1073/pnas.012672899).
Abstract
A linkage disequilibrium map is expressed in linkage disequilibrium (LD) units (LDU) discriminating blocks of conserved LD that have additive distances and locations monotonic with physical (kb) and genetic (cM) maps. There is remarkable agreement between LDU steps and sites of meiotic recombination in the one body of data informative for crossing over, and good agreement with another method that defines blocks without assigning an LD location to each marker. The map may be constructed from haplotypes or diplotypes, and efficiency estimated from the empirical variance of LD is substantially greater for the metric based on evolutionary theory than for the absolute correlation r, and for the LD map compared with its physical counterpart. The empirical variance is nearly three times as great for the worst alternative (r and kb map) as for the most efficient approach (and LD map). According to the empirical variances, blocks are best defined by zero distance between included markers. Because block size is algorithm-dependent and highly variable, the number of markers required for positional cloning is minimized by uniform spacing on the LD map, which is estimated to have 1 LDU per locus, but with much variation among regions. No alternative representation of linkage disequilibrium (some of which are loosely called maps) has these properties, suggesting that LD maps are optimal for positional cloning of genes determining disease susceptibility.
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Published date: 24 December 2002
Additional Information:
Published online before print December 16, 2002
Keywords:
abbreviations, ld, linkage disequilibrium, ldu, ld unit, snp, single-nucleotide polymorphism, cm, centimorgan, chromosome mapping, research support, recombination, genetic predisposition to disease, genes, haplotypes, genetic, humans, non-u.s.gov't, disease susceptibility, time, human, disease, genetics
Organisations:
Human Genetics
Identifiers
Local EPrints ID: 25066
URI: http://eprints.soton.ac.uk/id/eprint/25066
ISSN: 0027-8424
PURE UUID: e5e816dc-e288-40ff-8edb-76363c814dfc
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Date deposited: 06 Apr 2006
Last modified: 16 Mar 2024 03:07
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Contributors
Author:
Weilhua Zhang
Author:
Nikolas Maniatis
Author:
Newton E. Morton
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