Litcius/Paper detail

Combining machine learning and quantum mechanics yields more <scp>chemically aware</scp> molecular descriptors for medicinal chemistry applications

Sara Tortorella, Emanuele Carosati, Giulia Sorbi, Giovanni Bocci, Simon Cross, Gabriele Cruciani, Loriano Storchi

2021Journal of Computational Chemistry21 citationsDOIOpen Access PDF

Abstract

Molecular interaction fields (MIFs), describing molecules in terms of their ability to interact with any chemical entity, are one of the most established and versatile concepts in drug discovery. Improvement of this molecular description is highly desirable for in silico drug discovery and medicinal chemistry applications. In this work, we revised a well-established molecular mechanics' force field and applied a hybrid quantum mechanics and machine learning approach to parametrize the hydrogen-bonding (HB) potentials of small molecules, improving this aspect of the molecular description. Approximately 66,000 molecules were chosen from available drug databases and subjected to density functional theory calculations (DFT). For each atom, the molecular electrostatic potential (EP) was extracted and used to derive new HB energy contributions; this was subsequently combined with a fingerprint-based description of the structural environment via partial least squares modeling, enabling the new potentials to be used for molecules outside of the training set. We demonstrate that parameter prediction for molecules outside of the training set correlates with their DFT-derived EP, and that there is correlation of the new potentials with hydrogen-bond acidity and basicity scales. We show the newly derived MIFs vary in strength for various ring substitution in accordance with chemical intuition. Finally, we report that this derived parameter, when extended to non-HB atoms, can also be used to estimate sites of reaction.

Topics & Concepts

MoleculeForce field (fiction)ChemistryDrug discoveryDensity functional theoryMolecular mechanicsComputational chemistryHydrogen bondIn silicoIntuitionQuantum chemistryMolecular descriptorMolecular dynamicsStatistical physicsChemical physicsQuantum mechanicsQuantitative structure–activity relationshipPhysicsStereochemistryOrganic chemistryGenePhilosophySupramolecular chemistryBiochemistryEpistemologyComputational Drug Discovery MethodsCrystallography and molecular interactionsMachine Learning in Materials Science
Combining machine learning and quantum mechanics yields more <scp>chemically aware</scp> molecular descriptors for medicinal chemistry applications | Litcius