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Molecular complexity and its impact on the probability of finding leads for drug discovery.

Molecular complexity and its impact on the probability of finding leads for drug discovery. Using a simple model of ligand-receptor interactions, the interactions between ligands and receptors of varying complexities are studied and the probabilities of binding calculated. It is observed that as the systems become more complex the chance of observing a useful interaction for a randomly chosen ligand falls dramatically. The implications of this for the design of combinatorial libraries is explored. A large set of drug leads and optimized compounds is profiled using several different properties relevant to molecular recognition. The changes observed for these properties during the drug optimization phase support the hypothesis that less complex molecules are more common starting points for the discovery of drugs. An extreme example of the use of simple molecules for directed screening against thrombin is provided. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Journal of Chemical Information and Computer Sciences Pubmed

Molecular complexity and its impact on the probability of finding leads for drug discovery.

Hann, M M; Leach, A R; Harper, G
Journal of Chemical Information and Computer Sciences , Volume 41 (3): 9 – Jul 26, 2001
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Molecular complexity and its impact on the probability of finding leads for drug discovery.


Abstract

Using a simple model of ligand-receptor interactions, the interactions between ligands and receptors of varying complexities are studied and the probabilities of binding calculated. It is observed that as the systems become more complex the chance of observing a useful interaction for a randomly chosen ligand falls dramatically. The implications of this for the design of combinatorial libraries is explored. A large set of drug leads and optimized compounds is profiled using several different properties relevant to molecular recognition. The changes observed for these properties during the drug optimization phase support the hypothesis that less complex molecules are more common starting points for the discovery of drugs. An extreme example of the use of simple molecules for directed screening against thrombin is provided.

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ISSN
0095-2338
DOI
10.1021/ci000403i
pmid
11410068

Abstract

Using a simple model of ligand-receptor interactions, the interactions between ligands and receptors of varying complexities are studied and the probabilities of binding calculated. It is observed that as the systems become more complex the chance of observing a useful interaction for a randomly chosen ligand falls dramatically. The implications of this for the design of combinatorial libraries is explored. A large set of drug leads and optimized compounds is profiled using several different properties relevant to molecular recognition. The changes observed for these properties during the drug optimization phase support the hypothesis that less complex molecules are more common starting points for the discovery of drugs. An extreme example of the use of simple molecules for directed screening against thrombin is provided.

Journal

Journal of Chemical Information and Computer SciencesPubmed

Published: Jul 26, 2001

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