Computational docking of ligands to protein structures is a key step in structure-based drug design. Currently, the time required for each docking run is high and thus limits the use of docking in a high-throughput manner, warranting parallelization of docking algorithms. AutoDock, a widely used tool, has been chosen for parallelization. Near-linear increases in speed were observed with 96 processors, reducing the time required for docking ligands to HIV-protease from 81 min, as an example, on a single IBM Power-5 processor ( 1.65 GHz), to about 1 min on an IBM cluster, with 96 such processors. This implementation would make it feasible to perform virtual ligand screening using AutoDock
Few methods use molecular dynamics simulations based on atomically detailed force fields to study th...
This IBM ® Redpaper publication presents a virtual screening study of the DOCK Version 6.0 molecular...
International audienceMolecular docking is widely used in computed drug discovery and biological tar...
Computational docking of ligands to protein structures is a key step in structure-based drug design....
Molecular Docking (MD) is a key tool in computer-aided drug design that aims to predict the binding ...
Traditional drug discovery methodology uses a multitude of software packages to design and evaluate ...
It is well known that computer-aided docking of large ligands, with many rotatable bonds, is extreme...
It is well known that computer-aided docking of large ligands, with many rotatable bonds, is extreme...
Background: Molecular-docking-based virtual screening is an important tool in drug discovery that is...
The generation of molecular conformations and the evaluation of interaction potentials are common ta...
Background: Using the popular program AutoDock, computer-aided docking of small ligands with 6 or fe...
AutoDock is a widely used automated protein docking program in structure-based drug-design. Differen...
Large-scale computing technologies have enabled high-throughput virtual screening involving thousand...
Molecular Docking is a methodology used extensively in modern drug design. It aims to predict the bi...
Abstract Background Small-molecule docking is an important tool in studying receptor-ligand interact...
Few methods use molecular dynamics simulations based on atomically detailed force fields to study th...
This IBM ® Redpaper publication presents a virtual screening study of the DOCK Version 6.0 molecular...
International audienceMolecular docking is widely used in computed drug discovery and biological tar...
Computational docking of ligands to protein structures is a key step in structure-based drug design....
Molecular Docking (MD) is a key tool in computer-aided drug design that aims to predict the binding ...
Traditional drug discovery methodology uses a multitude of software packages to design and evaluate ...
It is well known that computer-aided docking of large ligands, with many rotatable bonds, is extreme...
It is well known that computer-aided docking of large ligands, with many rotatable bonds, is extreme...
Background: Molecular-docking-based virtual screening is an important tool in drug discovery that is...
The generation of molecular conformations and the evaluation of interaction potentials are common ta...
Background: Using the popular program AutoDock, computer-aided docking of small ligands with 6 or fe...
AutoDock is a widely used automated protein docking program in structure-based drug-design. Differen...
Large-scale computing technologies have enabled high-throughput virtual screening involving thousand...
Molecular Docking is a methodology used extensively in modern drug design. It aims to predict the bi...
Abstract Background Small-molecule docking is an important tool in studying receptor-ligand interact...
Few methods use molecular dynamics simulations based on atomically detailed force fields to study th...
This IBM ® Redpaper publication presents a virtual screening study of the DOCK Version 6.0 molecular...
International audienceMolecular docking is widely used in computed drug discovery and biological tar...