PEREZ PALMA, EDUARDO ESTEBANEDUARDO ESTEBANPEREZ PALMA2023-10-272023-10-272022https://github.com/LalResearchGroup/Channel_Distanceshttps://investigadores.udd.cl/handle/123456789/7780Clinically identified genetic variants in ion channels can be benign or cause disease by increasing or decreasing the protein function. Consequently, therapeutic decision-making is challenging without molecular testing of each variant. Our biophysical knowledge of ion channel structures and function is just emerging, and it is currently not well understood which amino acid residues cause disease when mutated. We sought to systematically identify biological properties associated with variant pathogenicity across all major voltage and ligand-gated ion channel families. We collected and curated 3,049 pathogenic variants from hundreds of neurodevelopmental and other disorders and 12,546 population variants for 30 ion channel or channel subunits for which a high-quality protein structure was available. Using a wide range of bioinformatics approaches, we computed 163 structural features and tested them for pathogenic variant enrichment. We developed a novel 3D spatial distance scoring approach that enables comparisons of pathogenic and population variant distribution across protein structures.Dataset - Conserved patterns across ion channels correlate with variant pathogenicity and clinical phenotypesDataset