Alchemical free-energy methods based on molecular dynamics (MD) simulations have become important tools to identify modifications of small organic molecules that improve their protein binding affinity during lead optimization. The routine application of pairwise free-energy methods to rank potential binders from best to worst is impacted by the combinatorial increase of calculations to perform when the number of molecules to assess grows. To address this fundamental limitation, our group has developed replica-exchange enveloping distribution sampling (RE-EDS), a pathway-independent multistate method, enabling the calculation of alchemical free-energy differences between multiple ligands (N > 2) from a single MD simulation. In this work, we ...
Computational capabilities are rapidly increasing, primarily because of the availability of GPU-base...
Alchemical free energy methods have gained much importance recently from several reports of improved...
ABSTRACT:Reliable predictions of relative binding free energies are essential in drug discovery, whe...
Free energy calculations based on molecular dynamics simulations show considerable promise for appli...
Alchemical free energy methods are playing a growing role in molecular design, both for computer-aid...
Abstract Relative binding free energy calculations have become an integral computational tool for le...
The binding free energy between a ligand and its target protein is an essential quantity to know at ...
Free-energy calculations based on molecular dynamics (MD) simulations are playing an increasingly im...
Alchemical free energy methods use the computer to make unphysical changes to select atoms of a syst...
In the context of computational drug design, we examine the effectiveness of the enhanced sampling t...
Free energy perturbation methods serve an important role in drug discovery by providing accurate pre...
Free energy calculations are used to study how strongly potential drug molecules interact with their...
International audienceThe past decades have witnessed significant progress in the field of molecular...
The accurate prediction of the binding affinity changes of drugs caused by protein mutations is a ma...
Alchemical protein–ligand binding free energy calculations are currently a topic in computational ch...
Computational capabilities are rapidly increasing, primarily because of the availability of GPU-base...
Alchemical free energy methods have gained much importance recently from several reports of improved...
ABSTRACT:Reliable predictions of relative binding free energies are essential in drug discovery, whe...
Free energy calculations based on molecular dynamics simulations show considerable promise for appli...
Alchemical free energy methods are playing a growing role in molecular design, both for computer-aid...
Abstract Relative binding free energy calculations have become an integral computational tool for le...
The binding free energy between a ligand and its target protein is an essential quantity to know at ...
Free-energy calculations based on molecular dynamics (MD) simulations are playing an increasingly im...
Alchemical free energy methods use the computer to make unphysical changes to select atoms of a syst...
In the context of computational drug design, we examine the effectiveness of the enhanced sampling t...
Free energy perturbation methods serve an important role in drug discovery by providing accurate pre...
Free energy calculations are used to study how strongly potential drug molecules interact with their...
International audienceThe past decades have witnessed significant progress in the field of molecular...
The accurate prediction of the binding affinity changes of drugs caused by protein mutations is a ma...
Alchemical protein–ligand binding free energy calculations are currently a topic in computational ch...
Computational capabilities are rapidly increasing, primarily because of the availability of GPU-base...
Alchemical free energy methods have gained much importance recently from several reports of improved...
ABSTRACT:Reliable predictions of relative binding free energies are essential in drug discovery, whe...