ChemSpaceShuttle: A tool for data mining in drug discovery by classification, projection, and 3D visualization

The ChemSpaceShuttle toolbox provides a graphical interface allowing for ligand‐based design of focused compound libraries by means of linear and non‐linear projection techniques and clustering algorithms. The software implements a non‐linear encoder network and non‐linear partial least squares for...

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Veröffentlicht in:	QSAR & combinatorial science 2003-07, Vol.22 (5), p.549-559
Hauptverfasser:	Givehchi, Alireza, Dietrich, Axel, Wrede, Paul, Schneider, Gisbert
Format:	Artikel
Sprache:	eng
Schlagworte:	Drug discovery / Library design / Neural network / Self-organizing map / Principal component
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creator	Givehchi, Alireza Dietrich, Axel Wrede, Paul Schneider, Gisbert
description	The ChemSpaceShuttle toolbox provides a graphical interface allowing for ligand‐based design of focused compound libraries by means of linear and non‐linear projection techniques and clustering algorithms. The software implements a non‐linear encoder network and non‐linear partial least squares for the projection of high‐dimensional descriptor vectors into a three dimensional space for visualisation. Compound clustering by a self‐organising map (SOM) is incorporated. Visualization can facilitate the selection of compounds with desired properties from large compound libraries. Two sample applications are presented: similarity‐based compound selection for focused library design, and classification of drugs and nondrugs. A version of ChemSpaceShuttle is freely available at URL: http://gecco.org.chemie.uni‐frankfurt.de/gecco.html.
doi_str_mv	10.1002/qsar.200310007
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subjects	Drug discovery / Library design / Neural network / Self-organizing map / Principal component
title	ChemSpaceShuttle: A tool for data mining in drug discovery by classification, projection, and 3D visualization
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