TY - JOUR T1 - Genotyping of Inversions and Tandem Duplications JF - bioRxiv DO - 10.1101/056432 SP - 056432 AU - Jana Ebler AU - Alexander Schönhuth AU - Tobias Marschall Y1 - 2016/01/01 UR - http://biorxiv.org/content/early/2016/06/01/056432.abstract N2 - Motivation Next Generation Sequencing (NGS) has enabled studying structural genomic variants (SVs) such as duplications and inversions in large cohorts. SVs have been shown to play important roles in multiple diseases, including cancer. As costs for NGS continue to decline and variant databases become ever more complete, the relevance of genotyping also SVs from NGS data increases steadily, which is in stark contrast to the lack of tools to do so.Results We introduce a novel statistical approach, called DIGTYPER (Duplication and Inversion GenoTYPER), which computes genotype likelihoods for a given inversion or duplication and reports the maximum likelihood genotype. In contrast to purely coverage-based approaches, DIGTYPER uses breakpoint-spanning read pairs as well as split alignments for genotyping, enabling typing also of small events. We tested our approach on simulated and on real data and compared the genotype predictions to those made by DELLY, which discovers SVs and computes genotypes. DIGTYPER compares favorable especially for duplications (of all lengths) and for shorter inversions (up to 300 bp). In contrast to DELLY, our approach can genotype SVs from data bases without having to rediscover them.Availability https://bitbucket.org/jana_ebler/digtyper.git ER -