Computational Drug Discovery and Design

DockingSebastian Schneider, Adrien Saladin, Chantal Prevost, and Martin Zacharias 16. Prediction of Interacting Protein Residues using Sequence and Structure DataVedran Franke, Mile Sikic, and Kristian VlahovicekPart IV: Rescoring Docking Predictions17. MM-GB/SA Rescoring of Docking PosesCristiano R.W. Guimarães 18. A Case Study of Scoring and Rescoring in Peptide DockingZunnan Huang and Chung Wong19. The Solvated Interaction Energy (SIE) Method for Scoring Binding Affinities Traian Sulea and Enrico Purisima 20. Linear Interaction Energy (LIE): Method and Applications in Drug Design Hugo Guitiérrez-de-Terán and Johan ÅqvistPart V: Crucial Neglected Effects: Entropy, Solvent, and Protonation21. Estimation of Conformational Entropy in Protein-Ligand Interactions: A Computational PrespectiveAnton Polyansky, Ruben Zubac, and Bojan Zagrovic 22. Explicit Treatment of Water Molecules in Data-driven Protein-protein Docking: The Solvated HADDOCKing ApproachPanagotis L. Kastritis, Aalt D.J. van Dijk, and Alexandre M.J.J. Bonvin 23. Protein¿water Interactions in MD Simulations: POPS/POPSCOMP Solvent Accessibility Analysis, Solvation Forces and Hydration SitesArianna Fornili, Flavia Autore, Nesrine Chakroun, Pierre Martinez, and Franca Fraternali 24. Computing the Thermodynamic Contributions of Interfacial WaterZheng Li and Themis Lazaridis 25. Assignment of Protonation States in Proteins and Ligands: Combining pKa Prediction with Hydrogen Bonding Network OptimizationElmar Krieger, Rob Hooft, Roland Dunbrack, and Barbara KriegerPart VI: Toward the Use of Robust Free Energy Methods in Drug Design 26. Best Practices in Free Energy Calculations for Drug DesignMichael Shirts 27. Independent-Trajectory Thermodynamic Integration:A Practical Guide to Protein-Drug Binding FreeEnergy Calculations Using Distributed ComputingMorgan Lawrenz, Riccardo Baron, Yi Wang, and J. Andrew McCammon 28. Free Energy Calculations from One-step PerturbationsChris Oostenbrink 29. Using Metadynamics and Path Collective Variables to Study Ligand Binding and Induced Conformational TransitionsNeva Beker and Francesco L. Gervasio 30. Accelerated Molecular Dynamics In Computational Drug DesignJeff Wereszczynski and J. Andrew McCammonPart VII: Biomedical Applications31. Molecular Dynamics Applied in Drug Discovery: the Case of HIV-1 ProteaseYi Shang and Carlos Simmerling 32. Decomposing the Energetic Impact of Drug-Resistant Mutations: The Example of HIV-1 Protease-DRV BindingYufeng Cai and Celia Schiffer 33. Virtual Screening Helps Experiment Design: Application to the Akt Phosphatase PHLPPBill Sinko, Emma Sierecki, Cesar A.F. de Oliveira, and J. Andrew McCammon 34. Molecular-Level Simulation of Pandemic Influenza GlycoproteinsRommie Amaro and Wilfred W. Li 35. Homology Modeling of Cannabinoid Receptor: Discovery of Cannabinoid Analogues for Therapeutic UseChia-en Chang, Rizi Ai, Michael Gutierrez, and Michael J. Marsella 36. High-throughput Virtual Screening Lead to Discovery of Non-peptidic Inhibitors of West Nile Virus NS3 ProteaseDanzhi Huang