Development and Validation of AMANDA, a New Algorithm for Selecting Highly Relevant Regions in Molecular Interaction Fields

Descriptors based on Molecular Interaction Fields (MIF) are highly suitable for drug discovery, but their size (thousands of variables) often limits their application in practice. Here we describe a simple and fast computational method that extracts from a MIF a handful of highly informative points...

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Veröffentlicht in:	Journal of Chemical Information and Modeling 2008-09, Vol.48 (9), p.1813-1823
Hauptverfasser:	Durán, Ángel, Martínez, Guillermo C, Pastor, Manuel
Format:	Artikel
Sprache:	eng
Schlagworte:	Algorithms Binding Sites Chemical compounds Chemical reactions Computer Simulation Disseny Drug Design Imaging, Three-Dimensional Ligands Medicaments Models, Chemical Models, Molecular Molecular Structure Molècules Pharmaceutical Modeling Pharmaceutical Preparations - chemistry Quantitative Structure-Activity Relationship R&D Research & development Simulació per ordinador
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container_title	Journal of Chemical Information and Modeling
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creator	Durán, Ángel Martínez, Guillermo C Pastor, Manuel
description	Descriptors based on Molecular Interaction Fields (MIF) are highly suitable for drug discovery, but their size (thousands of variables) often limits their application in practice. Here we describe a simple and fast computational method that extracts from a MIF a handful of highly informative points (hot spots) which summarize the most relevant information. The method was specifically developed for drug discovery, is fast, and does not require human supervision, being suitable for its application on very large series of compounds. The quality of the results has been tested by running the method on the ligand structure of a large number of ligand−receptor complexes and then comparing the position of the selected hot spots with actual atoms of the receptor. As an additional test, the hot spots obtained with the novel method were used to obtain GRIND-like molecular descriptors which were compared with the original GRIND. In both cases the results show that the novel method is highly suitable for describing ligand−receptor interactions and compares favorably with other state-of-the-art methods.
doi_str_mv	10.1021/ci800037t
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Chem. Inf. Model</addtitle><description>Descriptors based on Molecular Interaction Fields (MIF) are highly suitable for drug discovery, but their size (thousands of variables) often limits their application in practice. Here we describe a simple and fast computational method that extracts from a MIF a handful of highly informative points (hot spots) which summarize the most relevant information. The method was specifically developed for drug discovery, is fast, and does not require human supervision, being suitable for its application on very large series of compounds. The quality of the results has been tested by running the method on the ligand structure of a large number of ligand−receptor complexes and then comparing the position of the selected hot spots with actual atoms of the receptor. As an additional test, the hot spots obtained with the novel method were used to obtain GRIND-like molecular descriptors which were compared with the original GRIND. 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subjects	Algorithms Binding Sites Chemical compounds Chemical reactions Computer Simulation Disseny Drug Design Imaging, Three-Dimensional Ligands Medicaments Models, Chemical Models, Molecular Molecular Structure Molècules Pharmaceutical Modeling Pharmaceutical Preparations - chemistry Quantitative Structure-Activity Relationship R&D Research & development Simulació per ordinador
title	Development and Validation of AMANDA, a New Algorithm for Selecting Highly Relevant Regions in Molecular Interaction Fields
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