%0 Journal Article %A Ryan Poplin %A Valentin Ruano-Rubio %A Mark A. DePristo %A Tim J. Fennell %A Mauricio O. Carneiro %A Geraldine A. Van der Auwera %A David E. Kling %A Laura D. Gauthier %A Ami Levy-Moonshine %A David Roazen %A Khalid Shakir %A Joel Thibault %A Sheila Chandran %A Chris Whelan %A Monkol Lek %A Stacey Gabriel %A Mark J. Daly %A Ben Neale %A Daniel G. MacArthur %A Eric Banks %T Scaling accurate genetic variant discovery to tens of thousands of samples %D 2017 %R 10.1101/201178 %J bioRxiv %P 201178 %X Comprehensive disease gene discovery in both common and rare diseases will require the efficient and accurate detection of all classes of genetic variation across tens to hundreds of thousands of human samples. We describe here a novel assembly-based approach to variant calling, the GATK HaplotypeCaller (HC) and Reference Confidence Model (RCM), that determines genotype likelihoods independently per-sample but performs joint calling across all samples within a project simultaneously. We show by calling over 90,000 samples from the Exome Aggregation Consortium (ExAC) that, in contrast to other algorithms, the HC-RCM scales efficiently to very large sample sizes without loss in accuracy; and that the accuracy of indel variant calling is superior in comparison to other algorithms. More importantly, the HC-RCM produces a fully squared-off matrix of genotypes across all samples at every genomic position being investigated. The HCRCM is a novel, scalable, assembly-based algorithm with abundant applications for population genetics and clinical studies. %U https://www.biorxiv.org/content/biorxiv/early/2017/11/14/201178.1.full.pdf