Molecular database visualizer

The JME Editor is a Java program which allows one to draw, edit, and display molecules and reactions directly within a web page and may also be used as an application in a stand-alone mode. The editor was originally developed for use in an in-house web-based chemoinformatics system but because of many requests it was released to the public. The JME currently is probably the most popular molecule entry system written in Java. Internet sites that use the JME applet include several structure databases, property prediction services, various chemoinformatics tools (such as for generation of 3D structures or molecular orbital visualization), and interactive sites focused on chemistry education [209]. 

Molecular databases and the associated data banks require the development of a conceptual structure for the information stored about the molecules, descriptive language representing the data, and methods for analysis enabling molecular modeling, similarity searches, classification, visualization, or other uses of the database.320 Currendy, the Protein Data Bank (PDB http 7www.rcsb.org/pdb/) is one of the best known examples of a molecular database. The PDB is a worldwide archive of three-dimensional structural data of biological macromolecules.321 The PDB is a common accentor to many structural databases.322 The success of... 

Molecular graphics visualization software performs an elaborate connect-the-dots process to make the wonderful pictures of protein structure we see in textbooks of biomolecular structure, like the structure for insulin (SINS Isaccs and Agarwa, 1978) shown in Figure 5.1. The connections used are, of course, the chemical bonds between all the atoms. In current use, three-dimensional molecular structure database records employ two different minimalist approaches regarding the storage of bond data. 

Algorithms Infrared Data Correlations with Chemical Structure Infrared Spectra Interpretation by the Characteristic Frequency Approach Machine Learning Techniques in Chemistry Molecular Models Visualization Neural Networks in Chemistry NMR Data Correlation with Chemical Structure Partial Least Squares Projections to Latent Structures (PLS) in Chemistry Shape Analysis Spectroscopic Databases Spectroscopy Computational Methods Structure Determination by Computer-based Spectrum Interpretation Zeolites Applications of Computational Methods. 

Chemical Abstracts Service Information System Computer Graphics and Molecular Modeling Electronic Publishing of Scientific Manuscripts Factual Information Databases Internet-based Computational Chemistry Tools Molecular Models Visualization Nucleic Acids Qualitative Modeling Online Databases in Chemistry Protein Data Bank (PDB) A Database of 3D Structural Information of Biological Macromolecules Reaction Databases Spectroscopic Databases Structure Databases. 

Visualization software allows the user to display molecular structures imported from databases or other software programs. Chime, RasMol, and Protein Explorer programs are available at the websites listed below for Windows operating PCs and Macintosh PowerPC computers. 

Key Words Biological activity chemical features chemical space cluster analysis compound databases dimension reduction molecular descriptors molecule classification partitioning algorithms partitioning in low-dimensional spaces principal component analysis visualization. 

While the n = 160 database provided the best statistical model, visually there was little difference between n = 199 and n = 160 dock databases. This is not of major significance as both models contain a large number of molecular examples and, therefore, might be expected to offer similar visual clues after deletion of a relatively small percentage of the data. However, the quality of predictions of these visually comparable models is not the same. 

Retrieve a structure hie of a protein-DNA complex from Molecular Modeling Database at NCBI and visualize its 3D structure with Cn3D. Identify the interaction between the protein and DNA molecules. 

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