Genomics, Proteomics & Bioinformatics (Oct 2019)

VPOT: A Customizable Variant Prioritization Ordering Tool for Annotated Variants

  • Eddie Ip,
  • Gavin Chapman,
  • David Winlaw,
  • Sally L. Dunwoodie,
  • Eleni Giannoulatou

Journal volume & issue
Vol. 17, no. 5
pp. 540 – 545

Abstract

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Next-generation sequencing (NGS) technologies generate thousands to millions of genetic variants per sample. Identification of potential disease-causal variants is labor intensive as it relies on filtering using various annotation metrics and consideration of multiple pathogenicity prediction scores. We have developed VPOT (variant prioritization ordering tool), a python-based command line tool that allows researchers to create a single fully customizable pathogenicity ranking score from any number of annotation values, each with a user-defined weighting. The use of VPOT can be informative when analyzing entire cohorts, as variants in a cohort can be prioritized. VPOT also provides additional functions to allow variant filtering based on a candidate gene list or by affected status in a family pedigree. VPOT outperforms similar tools in terms of efficacy, flexibility, scalability, and computational performance. VPOT is freely available for public use at GitHub (https://github.com/VCCRI/VPOT/). Documentation for installation along with a user tutorial, a default parameter file, and test data are provided. Keywords: Next-generation sequencing, Pathogenicity predictions, Variant prioritization, Customizable ranking, Genomic annotation