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Systematic Analysis and Prediction of the Target Space of Bioactive Food Compounds: Filling the Chemobiological Gaps

Andrés Sánchez-Ruiz, Gonzalo Colmenarejo

2022Journal of Chemical Information and Modeling19 citationsDOI

Abstract

Food compounds and their molecular interactions are crucial for health and provide new chemotypes and targets for drug and nutraceutic design. Here, we retrieve and analyze the complete set of published interactions of food compounds with human proteins using the FooDB as a compound set and ChEMBL as a source of interactions. The data are analyzed in terms of 19 target classes and 19 compound classes, showing a small fraction of target assignment for the compounds (1.6%) and unraveling multiple gaps in the chemobiological space for these molecules. By using well-established cheminformatic approaches [similarity ensemble approach (SEA) combined with the maximum Tanimoto coefficient to the nearest bioactive, "SEA + TC"], we achieve a much enhanced target assignment (64.2%), filling many of the gaps with target hypothesis for fast focused testing. By publishing these data sets and analyses, we expect to provide a set of resources to speed up the full clarification of the chemobiological space of food compounds, opening new opportunities for drug and nutraceutic design.

Topics & Concepts

chEMBLChemical spaceSet (abstract data type)Computer scienceSimilarity (geometry)ChemotypeDrug targetVirtual screeningSpace (punctuation)Data miningDrug discoveryComputational biologyChemistryBioinformaticsBiologyArtificial intelligenceFood scienceBiochemistryOperating systemProgramming languageImage (mathematics)Essential oilComputational Drug Discovery MethodsBioinformatics and Genomic NetworksPlant biochemistry and biosynthesis
Systematic Analysis and Prediction of the Target Space of Bioactive Food Compounds: Filling the Chemobiological Gaps | Litcius