Accurate detection of mosaic variants in sequencing data without matched controls

Citation:

Dou Y, Kwon M, Rodin RE, Cortés-Ciriano I, Doan R, J. Luquette L, Galor A, Bohrson C, Walsh CA, Park PJ. Accurate detection of mosaic variants in sequencing data without matched controls [Internet]. Nature Biotechnology 2020;38(3):314-319. Copy at http://www.tinyurl.com/yfcg3xcj

Abstract:

Detection of mosaic mutations that arise in normal development is challenging, as such mutations are typically present in only a minute fraction of cells and there is no clear matched control for removing germline variants and systematic artifacts. We present MosaicForecast, a machine-learning method that leverages read-based phasing and read-level features to accurately detect mosaic single-nucleotide variants and indels, achieving a multifold increase in specificity compared with existing algorithms. Using single-cell sequencing and targeted sequencing, we validated 80–90{\%} of the mosaic single-nucleotide variants and 60–80{\%} of indels detected in human brain whole-genome sequencing data. Our method should help elucidate the contribution of mosaic somatic mutations to the origin and development of disease.

Publisher's Version

Last updated on 02/06/2021