PROTEORIZER: A holistic approach to untangle functional consequences of variants of unknown significance

Abstract

AbstractMostin silicotools only use data closely related to the gene-of-interest or initial research question. This gene-focused research is prone to ignoring low-count and rare variants in the same or similar genes, even if available informational could be sufficient to deduce functional consequences by combining knowledge from many similar genes.Proteorizer is a web tool that aims to bridge the gap between protein-centric knowledge and the functional context this knowledge creates. We use curated and reviewed data from UniProt to collect available residue information for the queried protein as well as orthologs. By defining functional clusters based on intramolecular distances of residues with available functional information it is possible to use these to extrapolate the effect of a VUS solely based on known functions of nearby residues, hence contextualizing the variant with pre-existing knowledge. We show that pathogenic variants are more likely to be a part of functional hotspots and present several case studies (ALPP p.Ser244Gly, CANT1 p.Ile171Phe, ARL3 p.Tyr90Cys, IL6R p.His280Pro and RAF1 p.Ser259Ala) to highlight the applicability and usefulness of this approach.Graphical AbstractProteorizeris an explorative tool that takes variants from laboratory or clinical settings and contextualizes the variants based on prior information from the protein of interest and similar proteins according to where these functional positions are located in the 3D structure of the protein of interest.