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Assessing and improving the performance of consensus docking strategies using the DockBox package.

Jordane PretoFrancesco Gentile
Published in: Journal of computer-aided molecular design (2019)
Molecular docking is a well-established computational technique that aims to predict how a ligand binds to a specific protein target, as well as to assess the strength of the binding. Although docking programs are used worldwide for drug discovery, it is not always simple to identify which program or combination of programs provides the best results for a target of interest. Here we present DockBox, a computational package designed to facilitate the use of multiple docking and scoring programs allowing to combine them using different consensus strategies. As part of the DockBox package, a new consensus docking method called score-based consensus docking (SBCD) is introduced. SBCD was found to significantly improve the pose prediction success rates of single docking programs. When applied to virtual screening, SBCD enhanced enrichment factors while producing higher hit rates than standard consensus docking (CD). SBCD can be run with almost no additional computational cost and time compared to CD, if the same docking programs are used for pose generation. Furthermore, SBCD allows the use of many scoring functions to assess consensus without significant overhead, making it a promising new approach for the screening of large chemical libraries. DockBox is an open-source package publicly available at https://pypi.org/project/dockbox .
Keyphrases
  • molecular dynamics simulations
  • protein protein
  • molecular dynamics
  • molecular docking
  • small molecule
  • public health
  • clinical practice
  • drug discovery
  • quality improvement