Litcius/Paper detail

MISATO: machine learning dataset of protein–ligand complexes for structure-based drug discovery

Till Siebenmorgen, Filipe Menezes, Sabrina Benassou, Erinç Merdivan, Kieran Didi, André Mourão, Radosław Kitel, Píetro Lió, Stefan Kesselheim, Marie Piraud, Fabian J. Theis, Michael Sattler, Grzegorz M. Popowicz

2024Nature Computational Science68 citationsDOIOpen Access PDF

Abstract

Large language models have greatly enhanced our ability to understand biology and chemistry, yet robust methods for structure-based drug discovery, quantum chemistry and structural biology are still sparse. Precise biomolecule-ligand interaction datasets are urgently needed for large language models. To address this, we present MISATO, a dataset that combines quantum mechanical properties of small molecules and associated molecular dynamics simulations of ~20,000 experimental protein-ligand complexes with extensive validation of experimental data. Starting from the existing experimental structures, semi-empirical quantum mechanics was used to systematically refine these structures. A large collection of molecular dynamics traces of protein-ligand complexes in explicit water is included, accumulating over 170 μs. We give examples of machine learning (ML) baseline models proving an improvement of accuracy by employing our data. An easy entry point for ML experts is provided to enable the next generation of drug discovery artificial intelligence models.

Topics & Concepts

Drug discoveryComputer scienceBiomoleculeLigand (biochemistry)Artificial intelligenceComputational biologyMachine learningChemistryData scienceBioinformaticsNanotechnologyBiologyMaterials scienceBiochemistryReceptorComputational Drug Discovery MethodsMachine Learning in Materials ScienceProtein Structure and Dynamics