TY - JOUR T1 - Latent epistatic interaction model identifies loci associated with human working memory JF - bioRxiv DO - 10.1101/016576 SP - 016576 AU - János Z Kelemen AU - Christian Vogler AU - Angela Heck AU - Dominique de Quervain AU - Andreas Papassotiropoulos AU - Niko Beerenwinkel Y1 - 2015/01/01 UR - http://biorxiv.org/content/early/2015/03/17/016576.abstract N2 - Background Epistatic interactions among genomic loci are expected to explain a large fraction of the heritability of complex diseases and phenotypic traits of living organisms.Although epistasis detection methods are continually being developed, the current state of the art is exhaustive search methods, which become infeasible when the number of analyzed loci is large.Results We develop a novel latent interaction-based selection method for polymorphic loci as the first stage of a two-stage epistasis detection approach. Given a continuous phenotype and a single-nucleotide polymorphism (SNP), we rank the SNPs according to their interaction potential. When tested on simulated datasets and compared to standard marginal association and exhaustive search methods, our procedure significantly outperforms main-effect heuristics, especially in the presence of linkage disequilibrium (LD), which is explicitly accounted for in our model. Applied to real human genotype data, we prioritized several SNP pairs as candidates for epistatic interactions that influence human working memory performance, some of which are known to be connected to this phenotype.Conclusions The proposed method improves two-stage epistasis detection. Its linear runtime and increased statistical power contribute to reducing the computational complexity and to addressing some of the statistical challenges associated with the genome-wide search for epistatic loci. ER -