Abstract
We used comparative molecular surface analysis to design molecules for the synthesis as part of the search for new HIV-1 integrase inhibitors. We analyzed the virtual combinatorial library (VCL) constituted from various moieties of styrylquinoline and styrylquinazoline inhibitors. Since imines can be applied in a strategy of dynamic combinatorial chemistry (DCC), we also tested similar compounds in which the -C=N- or -N=C- linker connected the heteroaromatic and aromatic moieties. We then used principal component analysis (PCA) or self-organizing maps (SOM), namely, the Kohonen neural networks to obtain a clustering plot analyzing the diversity of the VCL formed. Previously synthesized compounds of known activity, used as molecular probes, were projected onto this plot, which provided a set of promising virtual drugs. Moreover, we further modified the above mentioned VCL to include the single bond linker -C-N- or -N-C-. This allowed increasing compound stability but expanded also the diversity between the available molecular probes and virtual targets. The application of the CoMSA with SOM indicated important differences between such compounds and active molecular probes. We synthesized such compounds to verify the computational predictions.
Keywords: integrase (IN), Self-Organizing Neural Networks, docking, molecular electrostatic potential (MEP), Microwave-Assisted Condensation
Combinatorial Chemistry & High Throughput Screening
Title: Comparative Molecular Surface Analysis (CoMSA) for Virtual Combinatorial Library Screening of Styrylquinoline HIV-1 Blocking Agents
Volume: 9 Issue: 10
Author(s): Halina Niedbala, Jaroslaw Polanski, Rafal Gieleciak, Robert Musiol, Dominik Tabak, Barbara Podeszwa, Andrzej Bak, Anna Palka, Jean-Francois Mouscadet, Johann Gasteiger and Marc Le Bret
Affiliation:
Keywords: integrase (IN), Self-Organizing Neural Networks, docking, molecular electrostatic potential (MEP), Microwave-Assisted Condensation
Abstract: We used comparative molecular surface analysis to design molecules for the synthesis as part of the search for new HIV-1 integrase inhibitors. We analyzed the virtual combinatorial library (VCL) constituted from various moieties of styrylquinoline and styrylquinazoline inhibitors. Since imines can be applied in a strategy of dynamic combinatorial chemistry (DCC), we also tested similar compounds in which the -C=N- or -N=C- linker connected the heteroaromatic and aromatic moieties. We then used principal component analysis (PCA) or self-organizing maps (SOM), namely, the Kohonen neural networks to obtain a clustering plot analyzing the diversity of the VCL formed. Previously synthesized compounds of known activity, used as molecular probes, were projected onto this plot, which provided a set of promising virtual drugs. Moreover, we further modified the above mentioned VCL to include the single bond linker -C-N- or -N-C-. This allowed increasing compound stability but expanded also the diversity between the available molecular probes and virtual targets. The application of the CoMSA with SOM indicated important differences between such compounds and active molecular probes. We synthesized such compounds to verify the computational predictions.
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Niedbala Halina, Polanski Jaroslaw, Gieleciak Rafal, Musiol Robert, Tabak Dominik, Podeszwa Barbara, Bak Andrzej, Palka Anna, Mouscadet Jean-Francois, Gasteiger Johann and Marc Le Bret , Comparative Molecular Surface Analysis (CoMSA) for Virtual Combinatorial Library Screening of Styrylquinoline HIV-1 Blocking Agents, Combinatorial Chemistry & High Throughput Screening 2006; 9 (10) . https://dx.doi.org/10.2174/138620706779026042
DOI https://dx.doi.org/10.2174/138620706779026042 |
Print ISSN 1386-2073 |
Publisher Name Bentham Science Publisher |
Online ISSN 1875-5402 |
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