Association Mapping in Structured Populations

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Association Mapping in Structured Populations Jonathan K. Pritchard, Matthew Stephens, Noah A. Rosenberg, Peter Donnelly The American Journal of Human Genetics Volume 67, Issue 1, Pages 170-181 (July 2000) DOI: 10.1086/302959 Copyright © 2000 The American Society of Human Genetics Terms and Conditions

Figure 1 Summary of estimates of the ancestry of individuals in data set A (discrete populations). The dashed and solid lines show histograms of estimated values of q(i)1 (the proportion of ancestry of individual i in subpopulation 1) for individuals from subpopulations 1 and 2, respectively. Using this data set, the classification of individuals to subpopulations is essentially perfect. The American Journal of Human Genetics 2000 67, 170-181DOI: (10.1086/302959) Copyright © 2000 The American Society of Human Genetics Terms and Conditions

Figure 2 Summary of estimates of the ancestry of individuals in the population with recent admixture (data set B). The peaks, from left to right, represent histograms of estimated values of q(i)1 (the proportion of ancestry of individual i in subpopulation 1) for individuals with 0, 1, 2, 3, and 4 grandparents, respectively, in subpopulation 1. The solid lines show the results for the entire sample, while the dotted lines show the results for those individuals who are affected. These data were simulated under a model in which an individual’s risk of disease increases with their amount of ancestry in subpopulation 1, with the result that affected individuals tend to have a greater proportion of ancestry in subpopulation 1 than do controls. This effect can be seen here, as the proportion of affected individuals in each peak increases from left to right. Our test for association uses the estimated q(i) to control for the presence of biased sampling. The American Journal of Human Genetics 2000 67, 170-181DOI: (10.1086/302959) Copyright © 2000 The American Society of Human Genetics Terms and Conditions

Figure 3 Plot of estimated q against actual ancestry for one realization of data set C. This data set is intended to be a rough model of an African American population, with an average of 20% European admixture. Controls are marked by a plus sign (+) and cases by an unblackened circle (○). It is assumed that the disease of interest is more common among individuals with substantial European ancestry, and, hence, the distribution of cases is shifted toward the right, relative to controls. The American Journal of Human Genetics 2000 67, 170-181DOI: (10.1086/302959) Copyright © 2000 The American Society of Human Genetics Terms and Conditions

Figure 4 Cumulative plot of estimated P values across the 120 loci for three realizations of data set C. The three solid lines show the distribution of P values obtained using a X2 test which ignores population structure. These indicate an excess of small P values. The three dashed lines show the distributions of P values obtained using STRAT. These fall close to the diagonal (which is the ideal distribution) or (in one case) appear slightly conservative. The American Journal of Human Genetics 2000 67, 170-181DOI: (10.1086/302959) Copyright © 2000 The American Society of Human Genetics Terms and Conditions