Introme accurately predicts the impact of coding and noncoding variants on gene splicing, with clinical applications

Patricia J. Sullivan (Contributor)
Velimir Gayevskiy (Contributor)
Ryan L. Davis (Contributor)
Marie Wong (Contributor)
Chelsea Mayoh (Contributor)
Amali Mallawaarachchi (Contributor)
Yvonne Hort (Contributor)
Mark J. McCabe (Contributor)
Sarah Beecroft (Contributor)
Matilda R. Jackson (Contributor)
Peer Arts (Contributor)
Andrew Dubowsky (Contributor)
Nigel Laing (Contributor)
Marcel E. Dinger (Contributor)
Hamish S. Scott (Contributor)
Emily C. Oates (Contributor)
Mark Pinese (Contributor)
Mark J Cowley (Contributor)

Dataset

Description

Abstract Predicting the impact of coding and noncoding variants on splicing is challenging, particularly in non-canonical splice sites, leading to missed diagnoses in patients. Existing splice prediction tools are complementary but knowing which to use for each splicing context remains difficult. Here, we describe Introme, which uses machine learning to integrate predictions from several splice detection tools, additional splicing rules, and gene architecture features to comprehensively evaluate the likelihood of a variant impacting splicing. Through extensive benchmarking across 21,000 splice-altering variants, Introme outperformed all tools (auPRC: 0.98) for the detection of clinically significant splice variants. Introme is available at https://github.com/CCICB/introme .

Date made available	18 May 2023
Publisher	Figshare

DOI
10.6084/m9.figshare.c.6652181

Introme accurately predicts the impact of coding and noncoding variants on gene splicing, with clinical applications
Sullivan, P. J., Gayevskiy, V., Davis, R. L., Wong, M., Mayoh, C., Mallawaarachchi, A., Hort, Y., McCabe, M. J., Beecroft, S., Jackson, M. R., Arts, P., Dubowsky, A., Laing, N., Dinger, M. E., Scott, H. S., Oates, E., Pinese, M. & Cowley, M. J., Dec 2023, In: Genome Biology. 24, 1, 118.
Research output: Contribution to journal › Article › peer-review

Open Access
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Sullivan, P. J. (Contributor), Gayevskiy, V. (Contributor), Davis, R. L. (Contributor), Wong, M. (Contributor), Mayoh, C. (Contributor), Mallawaarachchi, A. (Contributor), Hort, Y. (Contributor), McCabe, M. J. (Contributor), Beecroft, S. (Contributor), Jackson, M. R. (Contributor), Arts, P. (Contributor), Dubowsky, A. (Contributor), Laing, N. (Contributor), Dinger, M. E. (Contributor), Scott, H. S. (Contributor), Oates, E. (Contributor), Pinese, M. (Contributor), Cowley, M. J. (Contributor) (18 May 2023). Introme accurately predicts the impact of coding and noncoding variants on gene splicing, with clinical applications. Figshare. 10.6084/m9.figshare.c.6652181

Introme accurately predicts the impact of coding and noncoding variants on gene splicing, with clinical applications

Description

DOI

Research output

Introme accurately predicts the impact of coding and noncoding variants on gene splicing, with clinical applications

Cite this