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P. Chau, P. Dean (1987)
Molecular recognition: 3d surface structure comparison by gnomonicJournal of Molecular Graphics, 5
R. Osgood, T. Deutsch (1985)
Laser-Induced Chemistry for MicroelectronicsScience, 227
X. Li, J. Gasteiger, J. Zupan (1993)
On the topology distortion in self-organizing feature mapsBiological Cybernetics, 70
S. Ludvigsen, M. Roy, H. Thøgersen, N. Kaarsholm (1994)
High-resolution structure of an engineered biologically potent insulin monomer, B16 Tyr-->His, as determined by nuclear magnetic resonance spectroscopy.Biochemistry, 33 26
M. Connolly (1983)
Solvent-accessible surfaces of proteins and nucleic acids.Science, 221 4612
K Lipkowitz, D. B. Boyd (1990)
Reviews in Computational Chemistry
J. Gasteiger, Xinzhi Li, C. Rudolph, J. Sadowski, J. Zupan (1994)
REPRESENTATION OF MOLECULAR ELECTROSTATIC POTENTIALS BY TOPOLOGICAL FEATURE MAPSJournal of the American Chemical Society, 116
T. Kohonen (2004)
Self-organized formation of topologically correct feature mapsBiological Cybernetics, 43
M Johnson, G. M. Maggiora (1990)
Concepts and Application of Molecular Similarity
The Kohonen self‐organizing map was introduced to map the protein molecular surface features. The protein or polypeptide properties, such as shape and molecular electrostatic potential, can be visualized by self‐organizing map, which was trained by the 3D surface coordinates. Such maps allow the visual comparison of molecular properties between proteins having common topological or chemical features.
Chinese Journal of Chemistry – Wiley
Published: Dec 1, 2001
Keywords: ; ;
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