AI Article Synopsis
- Large-scale sequencing has opened up new ways to study rare genetic variations and their impact on human traits across diverse populations.
- Researchers analyzed data from three major biobanks, including the All of Us program, to perform gene-based testing for 601 diseases in nearly 750,000 individuals, revealing 363 significant genetic associations linked to various diseases.
- The findings emphasized the importance of including diverse ancestries in genetic research, showcasing how certain genes like UBR3 and YLPM1 are associated with cardiovascular and psychiatric conditions, and suggested that effects of rare variants are consistent across different ancestry groups.
Article Abstract
Large-scale sequencing has enabled unparalleled opportunities to investigate the role of rare coding variation in human phenotypic variability. Here, we present a pan-ancestry analysis of sequencing data from three large biobanks, including the All of Us research program. Using mixed-effects models, we performed gene-based rare variant testing for 601 diseases across 748,879 individuals, including 155,236 with ancestry dissimilar to European. We identified 363 significant associations, which highlighted core genes for the human disease phenome and identified potential novel associations, including UBR3 for cardiometabolic disease and YLPM1 for psychiatric disease. Pan-ancestry burden testing represented an inclusive and useful approach for discovery in diverse datasets, although we also highlight the importance of ancestry-specific sensitivity analyses in this setting. Finally, we found that effect sizes for rare protein-disrupting variants were concordant between samples similar to European ancestry and other genetic ancestries (β = 0.7-1.0). Our results have implications for multi-ancestry and cross-biobank approaches in sequencing association studies for human disease.
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| http://dx.doi.org/10.1038/s41588-024-01894-5 | DOI Listing |
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