Chapter One The Interplay Between Molecular Modeling and Chemoinformatics to Characterize Protein–Ligand and Protein–Protein Interactions Landscapes for Drug Discovery

Publication date: 2014 Source:Advances in Protein Chemistry and Structural Biology, Volume 96 Author(s): José L. Medina-Franco , Oscar Méndez-Lucio , Karina Martinez-Mayorga Protein–ligand and protein–protein interactions play a fundamental role in drug discovery. A number of computational approaches have been developed to characterize and use the knowledge of such interactions that can lead to drug candidates and eventually compounds in the clinic. With the increasing structural information of protein–ligand and protein–protein complexes, the combination of molecular modeling and chemoinformatics approaches are often required for the efficient analysis of a large number of such complexes. In this chapter, we review the progress on the developments of in silico approaches that are at the interface between molecular modeling and chemoinformatics. Although the list of methods and applications is not exhaustive, we aim to cover representative cases with a special emphasis on interaction fingerprints and their applications to identify “hot spots.” We also elaborate on proteochemometric modeling and the emerging concept of activity landscape, structure-based interpretation of activity cliffs and structure–protein–ligand interaction relationships. Target–ligand relationships are discussed in the context of chemogenomics data sets.
Source: Advances in Protein Chemistry and Structural Biology - Category: Biochemistry Source Type: research