TY - JOUR T1 - Scaling probabilistic models of genetic variation to millions of humans JF - bioRxiv DO - 10.1101/013227 SP - 013227 AU - Prem Gopalan AU - Wei Hao AU - David M. Blei AU - John D. Storey Y1 - 2015/01/01 UR - http://biorxiv.org/content/early/2015/05/28/013227.abstract N2 - One of the major goals of population genetics is to quantitatively understand variation of genetic polymorphisms among individuals. To this end, researchers have developed sophisticated statistical methods to capture the complex population structure that underlies observed genotypes in humans, and such methods have been effective for analyzing modestly sized genomic data sets. However, the number of genotyped humans has grown significantly in recent years, and it is accelerating. In aggregate about 1M individuals have been genotyped to date. Analyzing these data will bring us closer to a nearly complete picture of human genetic variation; but existing methods for population genetics analysis do not scale to data of this size. To solve this problem we developed TeraStructure. TeraStructure is a new algorithm to fit Bayesian models of genetic variation in human populations on tera-sample-sized data sets (1012 observed genotypes, e.g., 1M individuals at 1M SNPs). It is a principled approach to Bayesian inference that iterates between subsampling locations of the genome and updating an estimate of the latent population structure of the individuals. On data sets of up to 2K individuals, TeraStructure matches the existing state of the art in terms of both speed and accuracy. On simulated data sets of up to 10K individuals, TeraStructure is twice as fast as existing methods and has higher accuracy in recovering the latent population structure. On genomic data simulated at the tera-sample-size scales, TeraStructure continues to be accurate and is the only method that can complete its analysis.Software TeraStructure is available for download at https://github.com/premgopalan/terastructure.Funding This research was supported in part by NIH grant R01 HG006448 and ONR grant N00014-12-1-0764. ER -