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PhD-SNPg: updating a webserver and lightweight tool for scoring nucleotide variants

Emidio Capriotti, Piero Fariselli

2023Nucleic Acids Research27 citationsDOIOpen Access PDF

Abstract

One of the primary challenges in human genetics is determining the functional impact of single nucleotide variants (SNVs) and insertion and deletions (InDels), whether coding or noncoding. In the past, methods have been created to detect disease-related single amino acid changes, but only some can assess the influence of noncoding variations. CADD is the most commonly used and advanced algorithm for predicting the diverse effects of genome variations. It employs a combination of sequence conservation and functional features derived from the ENCODE project data. To use CADD, a large set of pre-calculated information must be downloaded during the installation process. To streamline the variant annotation process, we developed PhD-SNPg, a machine-learning tool that is easy to install and lightweight, relying solely on sequence-based features. Here we present an updated version, trained on a larger dataset, that can also predict the impact of the InDel variations. Despite its simplicity, PhD-SNPg performs similarly to CADD, making it ideal for rapid genome interpretation and as a benchmark for tool development.

Topics & Concepts

IndelBiologyENCODEAnnotationComputational biologyBenchmark (surveying)Human genomeGenomeGenome projectCoding (social sciences)GeneticsComputer scienceSingle-nucleotide polymorphismGeneGeodesyMathematicsGenotypeGeographyStatisticsGenomics and Phylogenetic StudiesGenomics and Rare DiseasesRNA and protein synthesis mechanisms
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