1. Genetically indistinguishable SNPs and their influence on inferring the location of disease-associated variants
- Author
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Lon R. Cardon, Jiannis Ragoussis, Sarah E. Hunt, Robert Lawrence, Marta Paolucci, David M. Evans, Andrew P. Morris, Xiayi Ke, Panos Deloukas, and David Bentley
- Subjects
Linkage disequilibrium ,Genotype ,Population ,Chromosomes, Human, Pair 20 ,Single-nucleotide polymorphism ,Locus (genetics) ,Biology ,Polymorphism, Single Nucleotide ,Linkage Disequilibrium ,White People ,Evolution, Molecular ,Asian People ,Genetics ,Humans ,Computer Simulation ,Genetic Testing ,Letters ,International HapMap Project ,Allele ,education ,Association mapping ,Genetics (clinical) ,education.field_of_study ,Haplotype ,Chromosome Mapping ,Genomics ,United Kingdom ,Black or African American ,Gene Components ,Sample Size - Abstract
As part of a recent high-density linkage disequilibrium (LD) study of chromosome 20, we obtained genotypes for ∼30,000 SNPs at a density of 1 SNP/2 kb on four different population samples (47 CEPH founders; 91 UK unrelateds [unrelated white individuals of western European ancestry]; 97 African Americans; 42 East Asians). We observed that ∼50% of SNPs had at least one genetically indistinguishable partner; i.e., for every individual considered, their genotype at the first locus was identical to their genotype at the second locus, or in LD terms, the SNPs were in “perfect” LD (r2 = 1.0). These “genetically indistinguishable SNPs” (giSNPs) formed into clusters of varying size. The larger the cluster, the greater the tendency to be located within genes and to overlap with giSNP clusters in other population samples. As might be expected for this map density, many giSNPs were located close to one another, thus reflecting local regions of undetected recombination or haplotype blocks. However, ∼1/3 of giSNP clusters had intermingled, non-indistinguishable SNPs with incomplete LD (D′ and r2
- Published
- 2005
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