High-throughput screening, where thousands of molecules rapidly can be assessed for activity against a protein, has been the dominating approach in drug discovery for many years. However, these methods are costly and require much time and effort. In order to suggest an improvement to this situation, in this study, we apply an iterative screening process, where an initial set of compounds are selected for screening based on molecular docking. The outcome of the initial screen is then used to classify the remaining compounds through a conformal predictor. The approach was retrospectively validated using 41 targets from the Directory of Useful Decoys, Enhanced (DUD-E), ensuring scaffold diversity among the active compounds. The results show th...
ABSTRACT: The DOCK program explores possible orientations of a molecule within a macromolecular acti...
To develop more effective therapies to treat human diseases, a better method of finding the biologic...
In recent years, the potential benefits of high-throughput virtual screening to the drug discovery c...
Iterative screening has emerged as a promising approach to increase the efficiency of screening camp...
Copied selected text to selection primary: The development of new pharmaceuticals is a long and ardo...
In drug discovery, where a model of the protein structure is known, molecular docking is a well-esta...
Abstract—we have developed a high-throughput docking (HTD)-based virtual screening scheme, termed Hi...
Background: Molecular docking is probably the most popular and profitable approach in computer-aided...
BACKGROUND: Docking and scoring large libraries of ligands against target proteins forms the basis o...
Abstract Background Docking and scoring large libraries of ligands against target proteins forms the...
Large-scale virtual screening has become a valuable tool for early-phase drug discovery. Recent expa...
The use of multiple target conformers has been applied successfully in virtual screening campaigns; ...
Molecular docking has always been and will be on the forefront of developments in the eminent field ...
Receptor flexibility is a critical issue in structure-based virtual screening methods. Although a mu...
Drug discovery is a rigorous process that can cost up to 3 billion dollars and takes more than 10 ye...
ABSTRACT: The DOCK program explores possible orientations of a molecule within a macromolecular acti...
To develop more effective therapies to treat human diseases, a better method of finding the biologic...
In recent years, the potential benefits of high-throughput virtual screening to the drug discovery c...
Iterative screening has emerged as a promising approach to increase the efficiency of screening camp...
Copied selected text to selection primary: The development of new pharmaceuticals is a long and ardo...
In drug discovery, where a model of the protein structure is known, molecular docking is a well-esta...
Abstract—we have developed a high-throughput docking (HTD)-based virtual screening scheme, termed Hi...
Background: Molecular docking is probably the most popular and profitable approach in computer-aided...
BACKGROUND: Docking and scoring large libraries of ligands against target proteins forms the basis o...
Abstract Background Docking and scoring large libraries of ligands against target proteins forms the...
Large-scale virtual screening has become a valuable tool for early-phase drug discovery. Recent expa...
The use of multiple target conformers has been applied successfully in virtual screening campaigns; ...
Molecular docking has always been and will be on the forefront of developments in the eminent field ...
Receptor flexibility is a critical issue in structure-based virtual screening methods. Although a mu...
Drug discovery is a rigorous process that can cost up to 3 billion dollars and takes more than 10 ye...
ABSTRACT: The DOCK program explores possible orientations of a molecule within a macromolecular acti...
To develop more effective therapies to treat human diseases, a better method of finding the biologic...
In recent years, the potential benefits of high-throughput virtual screening to the drug discovery c...