Klon A.E. (Ed.) Fragment-Based Methods in Drug Discovery

Humana Press, 2015. — 230 p. — (Methods in Molecular Biology 1289). — ISBN: 978-1-4939-2486-8 (eBook), 978-1-4939-2485-1 (Hardcover).This volume covers the techniques necessary for a successful fragment-based drug design project, beginning from defining the problem in terms of preparing the protein model, identifying potential binding sites, and the consideration of various candidate fragments for simulation. The second part discusses the technical aspects that various methods have used to simulate fragment binding to a target protein by using Monte Carlo, molecular dynamics, and docking algorithms. After simulations, fragments are assembled into molecules using a variety of approaches, which are explored next. A discussion of design strategies and consideration of drug-like properties is included as part of the design process at this stage. Finally, several examples of successful fragment-based drug design projects are presented. Written for the Methods in Molecular Biology series, this work contains the kind of detailed description and implementation advice to encourage success in the lab.
Practical and cutting-edge, Fragment-Based Methodsin Drug Discovery takes into account the great accomplishments in the field to provide an ideal guide for researchers continuing to investigate this exciting area of pharmacological study.Solvation Methods for Protein–Ligand Docking.
Binding Site Druggability Assessment in Fragment-Based Drug Design.
Generating “Fragment-Based Virtual Library” Using Pocket Similarity Search of Ligand–Receptor Complexes.
Virtual Fragment Preparation for Computational Fragment-Based Drug Design.
Fragment Library Design: Using Cheminformatics and Expert Chemists to Fill Gaps in Existing Fragment Libraries.
Protocol for Fragment Hopping.
Site Identification by Ligand Competitive Saturation (SILCS) Simulations for Fragment-Based Drug Design.
A Computational Fragment-Based De Novo Design Protocol Guided by Ligand Efficiency Indices (LEI).
Scoring Functions for Fragment-Based Drug Discovery.
Computational Methods for Fragment-Based Ligand Design: Growing and Linking.
Design Strategies for Computational Fragment-Based Drug Design.
Protein Binding Site Analysis for Drug Discovery Using a Computational Fragment-Based Method.
Fragment-Based Design of Kinase Inhibitors: A Practical Guide.
Designing a Small Molecule Erythropoietin Mimetic.
Designing an Orally Available Nontoxic p38 Inhibitor with a Fragment-Based Strategy.