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Scop3P: A Comprehensive Resource of Human Phosphosites within Their Full Context

Pathmanaban Ramasamy, Demet Turan, Natalia Tichshenko, Niels Hulstaert, Elien Vandermarliere, Wim Vranken, Lennart Martens

2020Journal of Proteome Research45 citationsDOIOpen Access PDF

Abstract

Protein phosphorylation is a key post-translational modification in many biological processes and is associated to human diseases such as cancer and metabolic disorders. The accurate identification, annotation, and functional analysis of phosphosites are therefore crucial to understand their various roles. Phosphosites are mainly analyzed through phosphoproteomics, which has led to increasing amounts of publicly available phosphoproteomics data. Several resources have been built around the resulting phosphosite information, but these are usually restricted to the protein sequence and basic site metadata. What is often missing from these resources, however, is context, including protein structure mapping, experimental provenance information, and biophysical predictions. We therefore developed Scop3P: a comprehensive database of human phosphosites within their full context. Scop3P integrates sequences (UniProtKB/Swiss-Prot), structures (PDB), and uniformly reprocessed phosphoproteomics data (PRIDE) to annotate all known human phosphosites. Furthermore, these sites are put into biophysical context by annotating each phosphoprotein with per-residue structural propensity, solvent accessibility, disordered probability, and early folding information. Scop3P, available at https://iomics.ugent.be/scop3p, presents a unique resource for visualization and analysis of phosphosites and for understanding of phosphosite structure-function relationships.

Topics & Concepts

Context (archaeology)Computational biologyResource (disambiguation)Computer scienceBiologyPaleontologyComputer networkProtein Kinase Regulation and GTPase SignalingBiochemical and Molecular ResearchMetabolism, Diabetes, and Cancer
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