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A review of mathematical representations of biomolecular data

Duc Duy Nguyen, Zixuan Cang, Guo‐Wei Wei

2020Physical Chemistry Chemical Physics99 citationsDOIOpen Access PDF

Abstract

Recently, machine learning (ML) has established itself in various worldwide benchmarking competitions in computational biology, including Critical Assessment of Structure Prediction (CASP) and Drug Design Data Resource (D3R) Grand Challenges. However, the intricate structural complexity and high ML dimensionality of biomolecular datasets obstruct the efficient application of ML algorithms in the field. In addition to data and algorithm, an efficient ML machinery for biomolecular predictions must include structural representation as an indispensable component. Mathematical representations that simplify the biomolecular structural complexity and reduce ML dimensionality have emerged as a prime winner in D3R Grand Challenges. This review is devoted to the recent advances in developing low-dimensional and scalable mathematical representations of biomolecules in our laboratory. We discuss three classes of mathematical approaches, including algebraic topology, differential geometry, and graph theory. We elucidate how the physical and biological challenges have guided the evolution and development of these mathematical apparatuses for massive and diverse biomolecular data. We focus the performance analysis on protein-ligand binding predictions in this review although these methods have had tremendous success in many other applications, such as protein classification, virtual screening, and the predictions of solubility, solvation free energies, toxicity, partition coefficients, protein folding stability changes upon mutation, etc.

Topics & Concepts

BenchmarkingCASPData scienceComputer scienceResource (disambiguation)Management scienceArtificial intelligenceProtein structure predictionChemistryEngineeringProtein structureComputer networkMarketingBusinessBiochemistryComputational Drug Discovery MethodsProtein Structure and DynamicsBioinformatics and Genomic Networks
A review of mathematical representations of biomolecular data | Litcius