RT Journal Article SR Electronic T1 Efficient storage and regression computation for population-scale genome sequencing studies JF bioRxiv FD Cold Spring Harbor Laboratory SP 2024.04.11.589062 DO 10.1101/2024.04.11.589062 A1 Rivas, Manuel A. A1 Chang, Christopher YR 2024 UL http://biorxiv.org/content/early/2024/10/02/2024.04.11.589062.abstract AB In the era of big data in human genetics, large-scale biobanks aggregating genetic data from diverse populations have emerged as important for advancing our understanding of human health and disease. However, the computational and storage demands of whole genome sequencing (WGS) studies pose significant challenges, especially for researchers from underfunded institutions or developing countries, creating a disparity in research capabilities. We introduce new approaches that significantly enhance computational efficiency and reduce data storage requirements for WGS studies. By developing algorithms for compressed storage of genetic data, focusing particularly on optimizing the representation of rare variants, and designing regression methods tailored for the scale and complexity of WGS data, we significantly lower computational and storage costs. We integrate our approach into PLINK 2.0. The implementation demonstrates considerable reductions in storage space and computational time without compromising analytical accuracy, as evidenced by the application to the AllofUs project data. We optimized the runtime of an exome-wide association analysis involving 19.4 million variants and the body mass index phenotype of 125,077 individuals, reducing it from 695.35 minutes (approximately 11.5 hours) on a single machine to just 1.57 minutes using 30 GB of memory and 50 threads (or 8.67 minutes with 4 threads). Additionally, we extended this approach to support multi-phenotype analyses. We anticipate that our approach will enable researchers across the globe to unlock the potential of population biobanks, accelerating the pace of discoveries that can improve our understanding of human health and disease.Competing Interest StatementManuel A. Rivas is a Co-Founder of Broadwing Bio. Chris Chang is an employee of Grail Inc.