Litcius/Paper detail

Increased throughput in methods for simulating protein ligand binding and unbinding

Syeda Rehana Zia, Adriana Coricello, Giovanni Bottegoni

2024Current Opinion in Structural Biology12 citationsDOIOpen Access PDF

Abstract

By incorporating full flexibility and enabling the quantification of crucial parameters such as binding free energies and residence times, methods for investigating protein-ligand binding and unbinding via molecular dynamics provide details on the involved mechanisms at the molecular level. While these advancements hold promise for impacting drug discovery, a notable drawback persists: their relatively time-consuming nature limits throughput. Herein, we survey recent implementations which, employing a blend of enhanced sampling techniques, a clever choice of collective variables, and often machine learning, strive to enhance the efficiency of new and previously reported methods without compromising accuracy. Particularly noteworthy is the validation of these methods that was often performed on systems mirroring real-world drug discovery scenarios.

Topics & Concepts

Flexibility (engineering)Drug discoveryMirroringThroughputComputer scienceComputational biologySampling (signal processing)Virtual screeningBioinformaticsBiologyCommunicationFilter (signal processing)TelecommunicationsStatisticsComputer visionMathematicsWirelessSociologyProtein Structure and DynamicsComputational Drug Discovery MethodsGene Regulatory Network Analysis