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Efficient and enhanced sampling of drug‐like chemical space for virtual screening and molecular design using modern machine learning methods

Manan Goel, Rishal Aggarwal, Bhuvanesh Sridharan, Pradeep Kumar Pal, U. Deva Priyakumar

2022Wiley Interdisciplinary Reviews Computational Molecular Science24 citationsDOI

Abstract

Abstract Drug design involves the process of identifying and designing novel molecules that have desirable properties and bind well to a given target receptor. Typically, such molecules are identified by screening large chemical libraries for desirable physicochemical properties and binding strength with the target protein. This traditional approach, however, has severe limitations as exhaustively screening every molecule in known chemical libraries is computationally infeasible. Furthermore, currently available molecular libraries are only a minuscule part of the entire set of possible drug‐like molecular structures (drug‐like chemical space). In this review, we discuss how the former limitation is addressed by modeling virtual screening as a search space problem and how these endeavors utilize machine learning to reduce the number of required computational experiments to identify top candidates. We follow that up by discussing generative methods that attempt to approximate the entire drug‐like chemical space providing us a path to explore beyond the known drug‐like chemical space. We place special emphasis on generative models that learn the marginal distributions conditioned on specific properties or receptor structures for efficient sampling of molecules. Through this review, we aim to highlight modern machine learning based methods that try to efficiently enhance our sampling capability beyond conventional screening methods which, in turn, would benefit drug design significantly. Therefore, we also encourage further methods of development that work on such important aspects of drug design. This article is categorized under: Data Science > Chemoinformatics Data Science > Artificial Intelligence/Machine Learning Data Science > Computer Algorithms and Programming

Topics & Concepts

Chemical spaceCheminformaticsVirtual screeningComputer scienceMachine learningArtificial intelligenceDrug discoverySpace (punctuation)Set (abstract data type)Process (computing)Sampling (signal processing)Chemical databaseData scienceBioinformaticsChemistryProgramming languageComputational chemistryFilter (signal processing)Computer visionOperating systemBiologyComputational Drug Discovery MethodsMachine Learning in Materials ScienceProtein Structure and Dynamics
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