Molecular docking is a powerful tool used in drug discovery and structural biology for predicting the structures of ligand–receptor complexes. However, the accuracy of docking calculations can be limited by factors such as the neglect of protein reorganization in the scoring function; as a result, ligand screening can produce a high rate of false positive hits. Although absolute binding free energy methods still have difficulty in accurately rank-ordering binders, we believe that they can be fruitfully employed to distinguish binders from nonbinders and reduce the false positive rate. Here we study a set of ligands that dock favorably to a newly discovered, potentially allosteric site on the flap of HIV-1 protease. Fragment binding to this ...
The early stages of drug design rely on hit discovery programs, where initial possible inhibitors’ b...
Docking algorithms for computer-aided drug discovery and design often ignore or restrain the flexibi...
Binding affinity plays an important role in drug design. Accurate and fast prediction of binding fre...
Molecular docking is a powerful tool used in drug discovery and structural biology for predicting th...
AbstractStructure-based drug design requires the development of efficient computer programs for expl...
There are a plethora of computational tools available in the field of structure-based drug design th...
The human immunodeficiency virus type 1 Aspartic protease (HIV-1 PR) is an important enzyme due to i...
AbstractBackground: An important prerequisite for computational structure-based drug design is predi...
Predicting new ligands and their binding poses for a protein target relies on an understanding of th...
Drugs with desired kinetic properties have better efficacy. Non-covalent small molecule drugs can bi...
We report the results of a binding free energy-based virtual screening campaign of a library of 77 α...
The computational modeling of peptide inhibitors to target protein-protein binding interfaces is gro...
To accelerate conformation sampling of slow dynamics from receptor or ligand, we introduced flatteni...
Structure-based virtual screening is usually challenged by numerous false positives in the candidate...
The use of molecular simulation to estimate the strength of macromolecular binding free energies is ...
The early stages of drug design rely on hit discovery programs, where initial possible inhibitors’ b...
Docking algorithms for computer-aided drug discovery and design often ignore or restrain the flexibi...
Binding affinity plays an important role in drug design. Accurate and fast prediction of binding fre...
Molecular docking is a powerful tool used in drug discovery and structural biology for predicting th...
AbstractStructure-based drug design requires the development of efficient computer programs for expl...
There are a plethora of computational tools available in the field of structure-based drug design th...
The human immunodeficiency virus type 1 Aspartic protease (HIV-1 PR) is an important enzyme due to i...
AbstractBackground: An important prerequisite for computational structure-based drug design is predi...
Predicting new ligands and their binding poses for a protein target relies on an understanding of th...
Drugs with desired kinetic properties have better efficacy. Non-covalent small molecule drugs can bi...
We report the results of a binding free energy-based virtual screening campaign of a library of 77 α...
The computational modeling of peptide inhibitors to target protein-protein binding interfaces is gro...
To accelerate conformation sampling of slow dynamics from receptor or ligand, we introduced flatteni...
Structure-based virtual screening is usually challenged by numerous false positives in the candidate...
The use of molecular simulation to estimate the strength of macromolecular binding free energies is ...
The early stages of drug design rely on hit discovery programs, where initial possible inhibitors’ b...
Docking algorithms for computer-aided drug discovery and design often ignore or restrain the flexibi...
Binding affinity plays an important role in drug design. Accurate and fast prediction of binding fre...