RegSNPs-intron: a computational framework for predicting pathogenic impact of intronic single nucleotide variants

Single nucleotide variants (SNVs) in intronic regions have yet to be systematically investigated for their disease-causing potential. Using known pathogenic and neutral intronic SNVs (iSNVs) as training data, we develop the RegSNPs-intron algorithm based on a random forest classifier that integrates RNA splicing, protein structure, and evolutionary conservation features. RegSNPs-intron showed excellent performance in evaluating the pathogenic impacts of iSNVs. Using a high-throughput functional reporter assay called ASSET-seq (ASsay for Splicing using ExonTrap and sequencing), we evaluate the impact of RegSNPs-intron predictions on splicing outcome. Together, RegSNPs-intron and ASSET-seq enable effective prioritization of iSNVs for disease pathogenesis.

Keywords

Intron, Single nucleotide polymorphism, RNA splicing, Computational biology, Bioinformatics, Disease pathogenesis, Random forest, Prediction model, High-throughput screening assay

Cite As

Lin, H., Hargreaves, K. A., Li, R., Reiter, J. L., Wang, Y., Mort, M., ... & Dolan, M. E. (2019). RegSNPs-intron: a computational framework for predicting pathogenic impact of intronic single nucleotide variants. Genome biology, 20(1), 1-16. 10.1186/s13059-019-1847-4

ISSN

1474-760X

Journal

Genome Biology

Rights

Attribution 4.0 International

Source

PMC

Type

Article

Permanent Link

https://hdl.handle.net/1805/22364

DOI

https://doi.org/10.1186/s13059-019-1847-4

Collections

Open Access Policy Articles
Department of Medical and Molecular Genetics Works
Todd Skaar

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