A Scan for Linkage Disequilibrium Across the Human Genome

A Scan for Linkage Disequilibrium Across the Human Genome

Gavin A. Huttley^a, Michael W. Smith^b, Mary Carrington^b, and Stephen J. O'Brien^a
^a Laboratory of Genomic Diversity, National Cancer Institute, Frederick, Maryland 21702
^b Intramural Research Support Program, SAIC Frederick, Frederick, Maryland 21702

Corresponding author: Gavin A. Huttley, Human Genetics Group, John Curtin School of Medical Research, The Australian National University, Canberra ACT, 0200, Australia., gavin.huttley{at}anu.edu.au (E-mail)

Communicating editor: A. G. CLARK

Linkage disequilibrium (LD), the tendency for alleles of linkedloci to co-occur nonrandomly on chromosomal haplotypes, is anincreasingly useful phenomenon for (1) revealing historic perturbationof populations including founder effects, admixture, or incompleteselective sweeps; (2) estimating elapsed time since such eventsbased on time-dependent decay of LD; and (3) disease and phenotypemapping, particularly for traits not amenable to traditionalpedigree analysis. Because few descriptions of LD for most regionsof the human genome exist, we searched the human genome forthe amount and extent of LD among 5048 autosomal short tandemrepeat polymorphism (STRP) loci ascertained as specific haplotypesin the European CEPH mapping families. Evidence is presentedindicating that ~4% of STRP loci separated by <4.0 cM arein LD. The fraction of locus pairs within these intervals thatdisplay small Fisher's exact test (FET) probabilities is directlyproportional to the inverse of recombination distance betweenthem (1/cM). The distribution of LD is nonuniform on a chromosomalscale and in a marker density-independent fashion, with chromosomes2, 15, and 18 being significantly different from the genomeaverage. Furthermore, a stepwise (locus-by-locus) 5-cM sliding-windowanalysis across 22 autosomes revealed nine genomic regions (2.2–6.4cM), where the frequency of small FET probabilities among lociwas greater than or equal to that presented by the HLA on chromosome6, a region known to have extensive LD. Although the spatialheterogeneity of LD we detect in Europeans is consistent withthe operation of natural selection, absence of a formal testfor such genomic scale data prevents eliminating neutral processesas the evolutionary origin of the LD.

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				X. Ke, S. Hunt, W. Tapper, R. Lawrence, G. Stavrides, J. Ghori, P. Whittaker, A. Collins, A. P. Morris, D. Bentley, et al. The impact of SNP density on fine-scale patterns of linkage disequilibrium Hum. Mol. Genet., March 15, 2004; 13(6): 577 - 588. [Abstract] [Full Text] [PDF]

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