Litcius/Paper detail

Optimizing Multisite λ-Dynamics Throughput with Charge Renormalization

Jonah Z. Vilseck, Luis F. Cervantes, Ryan L. Hayes, Charles L. Brooks

2022Journal of Chemical Information and Modeling16 citationsDOIOpen Access PDF

Abstract

With the ability to sample combinations of alchemical perturbations at multiple sites off a small molecule core, multisite λ-dynamics (MSλD) has become an attractive alternative to conventional alchemical free energy methods for exploring large combinatorial chemical spaces. However, current software implementations dictate that combinatorial sampling with MSλD must be performed with a multiple topology model (MTM), which is nontrivial to create by hand, especially for a series of ligand analogues which may have diverse functional groups attached. This work introduces an automated workflow, referred to as msld_py_prep, to assist in the creation of a MTM for use with MSλD. One approach for partitioning partial atomic charges between ligands to create a MTM, called charge renormalization, is also presented and rigorously evaluated. We find that msld_py_prep greatly accelerates the preparation of MSλD ready-to-use files and that charge renormalization can provide a successful approach for MTM generation, as long as bookending calculations are applied to correct small differences introduced by charge renormalization. Charge renormalization also facilitates the use of many different force field parameters with MSλD, broadening the applicability of MSλD for computer-aided drug design.

Topics & Concepts

RenormalizationCharge (physics)WorkflowComputer sciencePhysicsFixed chargeStatistical physicsField (mathematics)Chemical physicsMathematicsQuantum mechanicsPure mathematicsDatabaseProtein Structure and DynamicsComputational Drug Discovery MethodsChemical Synthesis and Analysis