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Köp båda 2 för 1680 kr"Lundblad (pathology, U. of North Carolina at Chapel Hill) provides coverage of the range of technology used for the conformational analysis of biopharmaceutical polymers, intending to provide sufficient information and extensive references to establish the basis for the selection of a specific experimental approach that would be most cost-effective in the study of biopolymer conformation. Technologies addressed include native electrophoresis, affinity chromatography, size-exclusion chromatography, analytical ultracentrifugation, differential scanning calorimetry, light scattering, luminescence, near-infrared spectroscopy, mid-infrared and Fourier transform infrared spectroscopy, Raman spectroscopy, UV-VIS spectroscopy, optical rotatory dispersion and circular dichroism, nuclear magnetic resonance, chemical probes, hydrogen exchange, chemical modification,. immunology, and limited proteolysis" 2010 Book News Inc., Portland, Oregon "Without any hesitation, I recommend this book to any researcher involved in the analysis of conformation and stability of biotechnology products (not necessarily limited to biopharmaceuticals)." Igor A Kaltashov. Future Science
After postdoctoral work at Rockefeller University, New York, Dr. Roger L. Lundblad joined the faculty of the University of North Carolina at Chapel Hill in 1968. He joined the Hyland division of Baxter Healthcare in 1990. Currently, he is an independent consultant and biotechnology writer based in Chapel Hill, North Carolina. He is an adjunct professor of pathology at the University of North Carolina at Chapel Hill and an editor in chief of the Internet Journal of Genomics and Proteomics.
Introduction to Biopharmaceutical Conformational Analysis: Issues and Methods. Comparability of Biotechnological/Biological Products and Biological Generics. Application of Native Electrophoresis for the Study of Protein Conformation. Affinity Chromatography Including Hydrophobic Interaction Chromatography in the Study of Biopolymer Conformation. Size-Exclusion Chromatography and Biomolecular Conformation. Use of Analytical Ultracentrifugation to Study Biomolecular Conformation. Use of Differential Scanning Calorimetry to Measure Conformational Change in Proteins and Other Biomacromolecules. Light Scattering and Biomacromolecular Conformation. Use of Luminescence to Measure Conformational Change in Biopharmaceuticals with Emphasis on Protein and Protein Drug Products. Near-Infrared Spectroscopy and Macromolecular Conformation. The Use of Mid-Infrared and Fourier Transform Infrared Spectroscopy to Study Conformation of Biomacromolecules. Use of Raman Spectroscopy to Evaluate Biopharmaceutical Conformation. Use of UV-VIS Spectrophotometry for the Characterization of Biopharmaceutical Products. Use of Optical Rotatory Dispersion and Circular Dichroism to Study Therapeutic Biomacromolecule Conformation. Use of Nuclear Magnetic Resonance for the Characterization of Biotherapeutic Products. Use of Chemical Probes for the Study of Protein Conformation. Use of Hydrogen Exchange in the Study of Biopharmaceutical Conformation. Use of Chemical Modifi cation for the Conformational Analysis of Biopharmaceuticals. Use of Immunology to Characterize Biopharmaceutical Conformation. Use of Limited Proteolysis to Study the Conformation of Proteins of Biotechnology Interest. Other Technologies for the Characterization of Conformational Change in Biopharmaceuticals. Development of an Experimental Approach for the Study of the Conformation of a Biological Therapeutic Product.