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Statistical framework for calling allelic imbalance in high-throughput sequencing data

Andrey Buyan, G. A. Meshcheryakov, В В Сафронов, Sergey Abramov, Alexandr Boytsov, Vladimir Nozdrin, Eugene F. Baulin, Semyon Kolmykov, Jeff Vierstra, Fedor Kolpakov, Vsevolod J. Makeev, Ivan V. Kulakovskiy

2025Nature Communications10 citationsDOIOpen Access PDF

Abstract

High-throughput sequencing facilitates large-scale studies of gene regulation and allows tracing the associations of individual genomic variants with changes in gene regulation and expression. Compared to classic association studies, the assessment of an allelic imbalance at heterozygous variants captures functional variant effects with smaller sample sizes, higher sensitivity, and better resolution. Yet, identification of allele-specific variants from allelic read counts remains challenging due to data-dependent biases and overdispersion arising from technical and biological variability. We present MIXALIME, a novel computational framework for calling allele-specific variants in diverse omics data with a repertoire of statistical models accounting for read mapping bias and copy number variation. We benchmark MIXALIME with DNase-Seq, ATAC-Seq, and CAGE-Seq data, and we demonstrate that the allelic imbalance highlights causal variants in GWAS results. Finally, as a showcase of the large-scale practical application of MIXALIME, we present an atlas of variants exhibiting allele-specific chromatin accessibility, built from thousands of available datasets obtained from diverse cell types. The authors present a statistical and computational framework to identify allele-specific variants, i.e., single nucleotide variants exhibiting allele-specificity (allelic imbalance) in any type of omics assay. Application of this framework to thousands of datasets yields an atlas of chromatin altering variants in diverse cell types.

Topics & Concepts

ThroughputComputer scienceAlleleDNA sequencingComputational biologyBiologyGeneticsGeneTelecommunicationsWirelessGenetic Associations and EpidemiologyCancer Genomics and DiagnosticsGenomics and Rare Diseases
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