Integrating Functional Data to Prioritize Causal Variants in Statistical Fine-Mapping Studies
University of California, Los Angeles · Harvard University
Abstract
Standard statistical approaches for prioritization of variants for functional testing in fine-mapping studies either use marginal association statistics or estimate posterior probabilities for variants to be causal under simplifying assumptions. Here, we present a probabilistic framework that integrates association strength with functional genomic annotation data to improve accuracy in selecting plausible causal variants for functional validation. A key feature of our approach is that it empirically estimates the contribution of each functional annotation to the trait of interest directly from summary association statistics while allowing for multiple causal variants at any risk locus. We devise efficient…
Citation impact
- FWCI
- 30.70
- Percentile
- 100%
- References
- 48
Authors
8Topics & keywords
- Biology
- Computational biology
- Genome-wide association study
- Statistical model
- Quantitative trait locus
- Probabilistic logic
- Locus (genetics)
- Statistical power