Journal ArticleDOI
Latest developments in molecular docking: 2010-2011 in review.
TLDR
The main developments in docking in this period, covered in this review, are receptor flexibility, solvation, fragment docking, postprocessing, docking into homology models, and docking comparisons.Abstract:
The aim of docking is to accurately predict the structure of a ligand within the constraints of a receptor binding site and to correctly estimate the strength of binding. We discuss, in detail, methodological developments that occurred in the docking field in 2010 and 2011, with a particular focus on the more difficult, and sometimes controversial, aspects of this promising computational discipline. The main developments in docking in this period, covered in this review, are receptor flexibility, solvation, fragment docking, postprocessing, docking into homology models, and docking comparisons. Several new, or at least newly invigorated, advances occurred in areas such as nonlinear scoring functions, using machine-learning approaches. This review is strongly focused on docking advances in the context of drug design, specifically in virtual screening and fragment-based drug design. Where appropriate, we refer readers to exemplar case studies.read more
Citations
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Journal ArticleDOI
PLIP: fully automated protein–ligand interaction profiler
TL;DR: The protein-ligand interaction profiler (PLIP) is presented, a novel web service for fully automated detection and visualization of relevant non-covalent protein–ligand contacts in 3D structures, freely available at projects.tu-dresden.de/plip-web.
Journal ArticleDOI
Comprehensive evaluation of ten docking programs on a diverse set of protein-ligand complexes: the prediction accuracy of sampling power and scoring power.
TL;DR: Overall, the ligand binding poses could be identified in most cases by the evaluated docking programs but the ranks of the binding affinities for the entire dataset could not be well predicted by most docking programs.
Journal ArticleDOI
DOCK 6: Impact of new features and current docking performance
William J. Allen,Trent E. Balius,Sudipto Mukherjee,Scott R. Brozell,Demetri T. Moustakas,P. Therese Lang,David A. Case,Irwin D. Kuntz,Robert C. Rizzo +8 more
TL;DR: This manuscript presents the latest algorithmic and methodological developments to the structure‐based design program DOCK 6.7 focused on an updated internal energy function, new anchor selection control, enhanced minimization options, a footprint similarity scoring function, a symmetry‐corrected root‐mean‐square deviation algorithm, a database filter, and docking forensic tools.
Journal ArticleDOI
Receptor–ligand molecular docking
TL;DR: The main topics and recent computational and methodological advances in protein–ligand docking are summarised, including protein flexibility, multiple ligand binding modes and the free-energy landscape profile for binding affinity prediction.
Journal ArticleDOI
Oncogenic protein interfaces: small molecules, big challenges
TL;DR: Some of the latest techniques to discover modulators of protein–protein interactions are described and how current drug discovery approaches have been adapted to successfully target these interfaces are described.
References
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Journal ArticleDOI
Virtual screening using molecular simulations
Tianyi Yang,Johnny Wu,Chunli Yan,Yuanfeng Wang,Ray Luo,Michael B. Gonzales,Kevin N. Dalby,Pengyu Ren +7 more
TL;DR: The preliminary study suggests that implicit‐solvent based alchemical perturbation, which offers explicit sampling of configuration entropy, can be a viable approach to significantly improve the prediction of binding free energy.
Journal ArticleDOI
Recipes for the selection of experimental protein conformations for virtual screening.
TL;DR: It is found that the conformers cocrystallized with the largest ligands displayed high selectivity for binders, and when combined in ensembles they consistently provided better results than randomly chosen protein conformations.
Journal ArticleDOI
A new Lamarckian genetic algorithm for flexible ligand‐receptor docking
TL;DR: A Lamarckian genetic algorithm (LGA) variant for flexible ligand‐receptor docking which allows to handle a large number of degrees of freedom and may be used to dock ligands with many rotatable bonds with high efficiency.
Journal ArticleDOI
Docking Validation Resources: Protein Family and Ligand Flexibility Experiments
TL;DR: A database consisting of 780 ligand-receptor complexes, termed SB2010, has been derived from the Protein Databank to evaluate the accuracy of docking protocols for regenerating bound ligand conformations, revealing family-based success appears largely independent of ligand flexibility, suggesting a strong dependence on the binding site environment.
Journal ArticleDOI
DynaDock: A new molecular dynamics-based algorithm for protein-peptide docking including receptor flexibility.
TL;DR: A new approach is presented for docking peptides into flexible receptors, using a new molecular dynamics‐based method, optimized potential molecular dynamics (OPMD), which uses soft‐core potentials for the protein–peptide interactions and applies a new optimization scheme to the soft‐ core potential.
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