Free-energy calculations based on molecular dynamics (MD) simulations are playing an increasingly important role for computer-aided drug design and material discovery in recent years. Free-energy differences between pairs of end-states can be estimated using well-established methods such as thermodynamic integration (TI) or Bennett’s acceptance ratio (BAR). An attractive alternative is the recently developed replica-exchange enveloping distribution sampling (RE-EDS) method, which enables estimating relative free-energy differences between multiple molecules from a single simulation. Here, we provide an introduction to the principles underlying RE-EDS and give an overview of the RE-EDS pipeline. In addition, we provide a description of the t...
In the context of advanced hit-to-lead drug design based on atomistic Molecular Dynamics simulations...
The performance and accuracy of different simulation schemes for estimating the entropy inferred fro...
In the context of computational drug design, we examine the effectiveness of the enhanced sampling t...
Molecular dynamics (MD) simulations have become an important tool to investigate biological systems....
Free-energy differences between pairs of end-states can be estimated based on molecular dynamics (MD...
Free-energy differences between pairs of end-states can be estimated based on molecular dynamics (MD...
Replica-exchange enveloping distribution sampling (RE-EDS) is a pathway-independent multistate free-...
The calculation of relative free energies that involve large reorganizations of the environment is o...
Alchemical free-energy methods based on molecular dynamics (MD) simulations have become important to...
Methods to compute free energy differences between different states of a molecular system are review...
Molecular dynamics (MD) simulations offer nowadays a valuable tool for studying phenomena in chemist...
Alchemical free energy calculations are an increasingly important modern simulation technique to cal...
The relative binding free energy between two ligands to a specific protein can be obtained using var...
Temperature-based replica-exchange molecular dynamics (REMD), in which multiple simultaneous simulat...
Free energy calculations based on molecular dynamics simulations show considerable promise for appli...
In the context of advanced hit-to-lead drug design based on atomistic Molecular Dynamics simulations...
The performance and accuracy of different simulation schemes for estimating the entropy inferred fro...
In the context of computational drug design, we examine the effectiveness of the enhanced sampling t...
Molecular dynamics (MD) simulations have become an important tool to investigate biological systems....
Free-energy differences between pairs of end-states can be estimated based on molecular dynamics (MD...
Free-energy differences between pairs of end-states can be estimated based on molecular dynamics (MD...
Replica-exchange enveloping distribution sampling (RE-EDS) is a pathway-independent multistate free-...
The calculation of relative free energies that involve large reorganizations of the environment is o...
Alchemical free-energy methods based on molecular dynamics (MD) simulations have become important to...
Methods to compute free energy differences between different states of a molecular system are review...
Molecular dynamics (MD) simulations offer nowadays a valuable tool for studying phenomena in chemist...
Alchemical free energy calculations are an increasingly important modern simulation technique to cal...
The relative binding free energy between two ligands to a specific protein can be obtained using var...
Temperature-based replica-exchange molecular dynamics (REMD), in which multiple simultaneous simulat...
Free energy calculations based on molecular dynamics simulations show considerable promise for appli...
In the context of advanced hit-to-lead drug design based on atomistic Molecular Dynamics simulations...
The performance and accuracy of different simulation schemes for estimating the entropy inferred fro...
In the context of computational drug design, we examine the effectiveness of the enhanced sampling t...