Add to ORKGMany thermodynamic quantities can be extracted from computer simulations that generate an ensemble of microstates according to the principles of statistical mechanics. Among these quantities is the free energy of binding of a small molecule to a macromolecule, such as a protein. Here, we present an introductory overview of a protocol that allows for the estimation of ligand binding free energies via molecular dynamics simulations. While we focus on the binding of organic molecules to proteins, the approach is in principle transferable to any pair of molecules
Recent advances in improved force fields and sampling methods have made it possible for the accurate...
Recent advances in improved force fields and sampling methods have made it possible for the accurate...
Recent advances in improved force fields and sampling methods have made it possible for the accurate...
Many thermodynamic quantities can be extracted from computer simulations that generate an ensemble o...
Molecular dynamics simulations enable access to free energy differences governing the driving force ...
Alchemical free energy methods use the computer to make unphysical changes to select atoms of a syst...
Recent advances in improved force fields and sampling methods have made it possible for the accurate...
Molecular dynamics-based approaches to calculate absolute protein-ligand binding free energy often r...
Abstract Spontaneous changes in protein systems, such as the binding of a ligand to an enzyme or rec...
Molecular dynamics-based approaches to calculate absolute protein-ligand binding free energy often r...
In this work, the fundamental elements of statistical mechanics underlying the simulation of the pro...
Free energy calculations based on molecular dynamics simulations show considerable promise for appli...
Molecular dynamics simulations enable access to free energy differences governing the driving force ...
Protein-ligand binding is among the most fundamental phenomena underlying all molecular biology, and...
In this work, the fundamental elements of statistical mechanics underlying the simulation of the pro...
Recent advances in improved force fields and sampling methods have made it possible for the accurate...
Recent advances in improved force fields and sampling methods have made it possible for the accurate...
Recent advances in improved force fields and sampling methods have made it possible for the accurate...
Many thermodynamic quantities can be extracted from computer simulations that generate an ensemble o...
Molecular dynamics simulations enable access to free energy differences governing the driving force ...
Alchemical free energy methods use the computer to make unphysical changes to select atoms of a syst...
Recent advances in improved force fields and sampling methods have made it possible for the accurate...
Molecular dynamics-based approaches to calculate absolute protein-ligand binding free energy often r...
Abstract Spontaneous changes in protein systems, such as the binding of a ligand to an enzyme or rec...
Molecular dynamics-based approaches to calculate absolute protein-ligand binding free energy often r...
In this work, the fundamental elements of statistical mechanics underlying the simulation of the pro...
Free energy calculations based on molecular dynamics simulations show considerable promise for appli...
Molecular dynamics simulations enable access to free energy differences governing the driving force ...
Protein-ligand binding is among the most fundamental phenomena underlying all molecular biology, and...
In this work, the fundamental elements of statistical mechanics underlying the simulation of the pro...
Recent advances in improved force fields and sampling methods have made it possible for the accurate...
Recent advances in improved force fields and sampling methods have made it possible for the accurate...
Recent advances in improved force fields and sampling methods have made it possible for the accurate...