TY - JOUR T1 - Robust Classification of Protein Variation Using Structural Modeling and Large-Scale Data Integration JF - bioRxiv DO - 10.1101/029041 SP - 029041 AU - Evan H. Baugh AU - Riley Simmons-Edler AU - Christian L. Müller AU - Rebecca F. Alford AU - Natalia Volfovsky AU - Alex E. Lash AU - Richard Bonneau Y1 - 2015/01/01 UR - http://biorxiv.org/content/early/2015/10/16/029041.abstract N2 - Existing methods for interpreting protein variation focus on annotating mutation pathogenicity rather than detailed interpretation of variant deleteriousness and frequently use only sequence-based or structure-based information. We present VIPUR, a computational framework that seamlessly integrates sequence analysis and structural modeling (using the Rosetta protein modeling suite) to identify and interpret deleterious protein variants. To train VIPUR, we collected 9,477 protein variants with known effects on protein function from multiple organisms and curated structural models for each variant from crystal structures and homology models. VIPUR can be applied to mutations in any organism’s proteome with improved generalized accuracy (AUROC .83) and interpretability (AUPR .87) compared to other methods. We demonstrate that VIPUR‘s predictions of deleteriousness match the biological phenotypes in ClinVar and provide a clear ranking of prediction confidence. We use VIPUR to interpret known mutations associated with inflammation and diabetes, demonstrating the structural diversity of disrupted functional sites and improved interpretation of mutations associated with human diseases. Lastly we demonstrate VIPUR‘s ability to highlight candidate genes associated with human diseases by applying VIPUR to de novo variants associated with autism spectrum disorders. ER -