Generalized Born (GB) implicit solvent models are widely used in molecular dynamics simulations to evaluate the interactions of biomolecular complexes. The continuum treatment of the solvent results in significant computational savings in comparison to an explicit solvent representation. It is, however, not clear how accurately the GB approach reproduces the absolute free energies of biomolecular binding. On the basis of induced dissociation by means of umbrella sampling simulations, the absolute binding free energies of small proline-rich peptide ligands and a protein receptor were calculated. Comparative simulations according to the same protocol were performed by employing an explicit solvent model and various GB-type implicit solvent mo...
Abstract: We have developed an implicit solvent effective potential (AGBNP) that is suitable for mol...
International audienceImplicit solvent models are important for many biomolecular simulations. The p...
Accurate yet efficient computational models of solvent environment are central for most calculations...
The need for accurate yet efficient representation of the aqueous environment in biomolecular modeli...
The generalized Born (GB) model is one of the fastest implicit solvent models, and it has become wid...
Binding free energy determines binding affinity and therefore is central to the design of ligands to...
Molecular mechanics with generalised Born and surface area solvation (MM/GBSA) is a popular method t...
1 Molecular mechanics with generalised Born and surface area solvation (MM/GBSA) is a popular method...
The Generalized Born (GB) implicit solvent model has undergone significant improvements in accuracy ...
Evaluation of solvation (binding) free energies with implicit solvent models in different dielectric...
Here we report a set of new parameters for the generalized Born (GB) model consistent with the RESP ...
Here we report a set of new parameters for the generalized Born (GB) model consistent with the RESP ...
In this study several commonly used implicit solvent models are compared with respect to their accur...
The generalized Born (GB) formalism can be used to model water as a dielectric continuum. Among the ...
We have compared the predictions of ligand-binding affinities from several methods based on end-poin...
Abstract: We have developed an implicit solvent effective potential (AGBNP) that is suitable for mol...
International audienceImplicit solvent models are important for many biomolecular simulations. The p...
Accurate yet efficient computational models of solvent environment are central for most calculations...
The need for accurate yet efficient representation of the aqueous environment in biomolecular modeli...
The generalized Born (GB) model is one of the fastest implicit solvent models, and it has become wid...
Binding free energy determines binding affinity and therefore is central to the design of ligands to...
Molecular mechanics with generalised Born and surface area solvation (MM/GBSA) is a popular method t...
1 Molecular mechanics with generalised Born and surface area solvation (MM/GBSA) is a popular method...
The Generalized Born (GB) implicit solvent model has undergone significant improvements in accuracy ...
Evaluation of solvation (binding) free energies with implicit solvent models in different dielectric...
Here we report a set of new parameters for the generalized Born (GB) model consistent with the RESP ...
Here we report a set of new parameters for the generalized Born (GB) model consistent with the RESP ...
In this study several commonly used implicit solvent models are compared with respect to their accur...
The generalized Born (GB) formalism can be used to model water as a dielectric continuum. Among the ...
We have compared the predictions of ligand-binding affinities from several methods based on end-poin...
Abstract: We have developed an implicit solvent effective potential (AGBNP) that is suitable for mol...
International audienceImplicit solvent models are important for many biomolecular simulations. The p...
Accurate yet efficient computational models of solvent environment are central for most calculations...