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基本説明
Covers everything from the use of proteomics databases to the application of proteomics to specific biological systems. Features chapters by leading scientists, including Paul R. Graves, David M. Schieltz, David Pinica-Worms an Timothy D. Veenstra.
Full Description
A compendium of thirty-four powerful techniques for identifying and analyzing the diversity of proteins expressed in cells. Thee readily reproducible proteomic methods range from general to specific techniques, and include methods for data analysis, posttranslational modification, and its variants and isoforms. Additional methods demonstrate the application of proteomics to the discovery of serological tumor markers, to identifying the determinants of sensitivity to antitumor drugs, and to specialized fields, such as endocrinology, plant biology, nephrology, and urology.
Contents
General Techniques.- Proteomics and the Molecular Biologist.- Protein Identification from 2-D Gels Using In Vitro Transcription Translation Products.- Selective Chemical Cleavage Methods in Proteomics, Including C-Terminal Successive Degradation.- Means of Hydrolyzing Proteins Isolated upon ProteinChip® Array Surfaces.- A Combined Radiolabeling and Silver Staining Technique for Improved Visualization and Localization of Proteins on Two-Dimensional Gels.- Qualitative and Quantitative Proteomic Analyses via Multidimensional Protein Identification Technology.- Di- and Tri-Chromatic Fluorescence Detection on Western Blots.- Multiplexed Proteomics.- A Strategy for Characterizing Antibody/Antigen Interactions Using ProteinChip® Arrays.- Stable Isotope Labeling with Amino Acids as an Aid to Protein Identification in Peptide Mass Fingerprinting.- The Use of 18O Labeling as a Tool for Proteomic Applications.- Automated Nanoflow Liquid Chromatography/Tandem Mass Spectrometric Identification of Liver Mitochondrial Proteins.- In Silico Proteomics.- Post-Translational Modifications, Variants, and Isoforms.- Predicting Glycan Composition from Experimental Mass Using GlycoMod.- Querying GlycoSuiteDB.- New Tools for Quantitative Phosphoproteome Analysis.- Computer-Aided Strategies for Characterizing Protein Isoforms.- Protein Variant Separations Using Cation Exchange Chromatography on Grafted, Polymeric Stationary Phases.- Specific Systems.- Noninvasive Imaging of Protein-Protein Interactions in Living Animals.- Strategies in Clinical Proteomics.- Proteomic Profiling of the Cancer Microenvironment.- Identification of Determinants of Sensitivity to Antitumor Drugs.- Application of Proteomics to the Discovery of Serological Tumor Markers.- Infectomic Analysis of Microbial InfectionsUsing Proteomics.- Toward a Complete Proteome of Bacillus subtilis.- Renal and Urinary Proteomics.- Proteomics in Endocrinology.- Proteomics in Plant Biology.- Data Analysis.- Bioinformatics in Proteomics.- Quantitative Characterization of Proteomics Maps by Matrix Invariants.- Complexity of Protein-Protein Interaction Networks, Complexes, and Pathways.- Patchwork Peptide Sequencing.- Estimation of Bias in Proteome Research.- Scoring Functions for Mass Spectrometric Protein Identification.
