A new measure of population structure using multiple single nucleotide polymorphisms and its relationship with FST

<p>Abstract</p> <p>Background</p> <p>Large-scale genome-wide association studies are promising for unraveling the genetic basis of complex diseases. Population structure is a potential problem, the effects of which on genetic association studies are controversial. The first step to systematically quantify the effects of population structure is to choose an appropriate measure of population structure for human data. The commonly used measure is <it>Wright's </it>F_ST. For a set of subpopulations it is generally assumed to be one value of F_ST. However, the estimates could be different for distinct loci. Since population structure is a concept at the population level, a measure of population structure that utilized the information across loci would be desirable.</p> <p>Findings</p> <p>In this study we propose an <it>adjusted C parameter </it>according to the sample size from each sub-population. The new measure C is based on the <it>c parameter </it>proposed for SNP data, which was assumed to be subpopulation-specific and common for all loci. In this study, we performed extensive simulations of samples with varying levels of population structure to investigate the properties and relationships of both measures. It is found that the two measures generally agree well.</p> <p>Conclusion</p> <p>The new measure simultaneously uses the marker information across the genome. It has the advantage of easy interpretation as one measure of population structure and yet can also assess population differentiation.</p