Databases combinatorial library screening

The concepts of molecular similarity (1-3) and molecular diversity (4,5) play important roles in modern approaches to computer-aided molecular design. Molecular similarity provides the simplest, and most widely used, method for virtual screening and underlies the use of clustering methods on chemical databases. Molecular diversity analysis provides a range of tools for exploring the extent to which a set of molecules spans structural space, and underlies many approaches to compound selection and to the design of combinatorial libraries. Many different similarity and diversity methods have been described in the literature, and new methods continue to appear. This raises the question of how one can compare different methods, so as to identify the most appropriate method(s) for some particular application this chapter provides an overview of the ways in which this can be carried out, illustrating such comparisons by,... 

Figure 5.7. Comparisons of the 3D four-point pharmacophore fingerprints exhibited by several sets [MDDR database of 62,000 biologically active compounds, a corporate registry database of 100,000 compormds used for screening, 100,000 compounds from combinatorial libraries (from a four-com-poilent Ugi condensation reaction), and 14,000 compound random subsets (MDDR, corporate) or indlividual libraries]. The four-point potential pharmacophores were calculated using 10 distance range bins and the standard six pharmacophore features.

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