Litcius/Paper detail

TADA—a machine learning tool for functional annotation-based prioritisation of pathogenic CNVs

Jakob Hertzberg, Stefan Mundlos, Martin Vingron, Giuseppe Gallone

2022Genome biology19 citationsDOIOpen Access PDF

Abstract

Few methods have been developed to investigate copy number variants (CNVs) based on their predicted pathogenicity. We introduce TADA, a method to prioritise pathogenic CNVs through assisted manual filtering and automated classification, based on an extensive catalogue of functional annotation supported by rigourous enrichment analysis. We demonstrate that our classifiers are able to accurately predict pathogenic CNVs, outperforming current alternative methods, and produce a well-calibrated pathogenicity score. Our results suggest that functional annotation-based prioritisation of pathogenic CNVs is a promising approach to support clinical diagnostics and to further the understanding of mechanisms controlling the disease impact of larger genomic alterations.

Topics & Concepts

PathogenicityAnnotationBiologyCopy-number variationHuman geneticsComputational biologyGenomicsGenomeGeneticsGeneMicrobiologyGenomic variations and chromosomal abnormalitiesGenomics and Rare DiseasesCancer Genomics and Diagnostics