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" Physicochemical Methods in the Study of Biomembranes "
edited by Herwig J. Hilderson, Gregory B. Ralston.
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BL
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726914
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b546646
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| Main Entry
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edited by Herwig J. Hilderson, Gregory B. Ralston.
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| Title & Author
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Physicochemical Methods in the Study of Biomembranes\ edited by Herwig J. Hilderson, Gregory B. Ralston.
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| Publication Statement
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Boston, MA: Springer US : Imprint : Springer, 1994
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| Series Statement
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Sub-cellular biochemistry, 23.
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| ISBN
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1461357578
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: 1461518636
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: 9781461357575
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: 9781461518631
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| Contents
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1 Intracellular Lipid Distribution, Transport, and Sorting: A Cell Biologist's Need for Physicochemical Information --;1. Introduction --;2. Intracellular Lipid Topology: Some Problems --;3. How Do Lipids Get Where They Are? --;4. Final Remarks --;5. References --;2 Biophysical Characterization of Membrane and Cytoskeletal Proteins by Sedimentation Analysis --;1. Introduction --;2. Basic Concepts --;3. Sample Preparation --;4. Instrumentation --;5. Sedimentation Velocity --;6. Diffusion --;7. Sedimentation Equilibrium --;8. References --;3 Monomolecular Layers in the Study of Biomembranes --;1. Introduction --;2. Experimental Techniques for the Study of Monomolecular Films --;3. Examples of the Use of Monomolecular Layers --;4. Perspective --;5. References --;4 Differential Scanning and Dynamic Calorimetric Studies of Cooperative Phase Transitions in Phospholipid Bilayer Membranes --;1. Introduction --;2. The Gel-Liquid-Crystalline Transition in Biological Membranes --;3. Equilibrium Properties of Membrane Phase Transitions --;4. Dynamic Properties of Membrane Phase Transition --;5. Calorimetric Studies of Lipid-Protein Interactions --;6. Concluding Remarks --;7. References --;5 Ektacytometry of Red Cells --;1. History --;2. Instrumentation --;3. Factors Determining Erythrocyte Deformability --;4. Membrane Properties --;5. Ektacytometric Assays --;6. Use of the Ektacytometer for Detection and Analysis of Membrane Defects --;7. Transport Studies --;8. Experimental Alteration of Membrane Mechanical Properties --;9. Stability and Rigidity --;10. Relationship to Other Techniques --;11. Relationship to Blood Physiology --;12. Molecular Basis for Membrane Mechanical Properties --;13. References --;6 Spin-Label ESR Study of Molecular Dynamics of Lipid/Protein Association in Membranes --;1. Introduction --;2. Thermodynamic Model of Lipid/Protein Association --;3. Electrostatic Origin of Lipid Selectivity --;4. Line Shape Effects of Solvation-to-Fluid Exchange --;5. Slowly Exchanging Solvation Lipids --;6. Novel Evidence for the Two-Site Exchange Model --;7. Conclusions --;8. References --;7 NMR Methods for Measuring Membrane Transport --;1. Introduction --;2. General Concepts of NMR Relevant to Transport Analysis --;3. Causes of Transmembrane Chemical Shift Differences --;4. NMR Studies of Slow Membrane Transport Processes --;5. NMR Studies of Fast Membrane Transport Processes --;6. Compartmental Discrimination Using Diffusion Rates --;7. Concluding Remarks --;8. References --;8 Determination of Soluble and Membrane Protein Structure by Fourier Transform Infrared Spectroscopy: I. Assignments and Model Compounds --;1. Introduction --;2. Band Assignments --;3. Secondary Structures of Peptide Model Compounds --;4. Dipole Orientation --;5. Extinction Coefficients --;6. References --;9 Determination of Soluble and Membrane Protein Structure by Fourier Transform Infrared Spectroscopy: II. Experimental Aspects, Side Chain Structure, and H/D Exchange --;1. Introduction --;2. Experimental Aspects --;3. Amino Acid Side Chain Structure --;4. Hydrogen/Deuterium Exchange --;5. Lipid/Protein Ratios --;6. References --;10 Determination of Soluble and Membrane Protein Structure by Fourier Transform Infrared Spectroscopy: III. Secondary Structures --;1. Introduction --;2. Determination of Protein Secondary Structures by Fourier Self-Deconvolution Techniques --;3. Determination of Protein Secondary Structures by Pattern Recognition Methods --;4. Derivative Spectroscopy --;5. Isotopic Labeling of Proteins --;6. References --;11 X-Ray Diffraction on Biomembranes with Emphasis on Lipid Moiety --;1. Introduction --;2. Crystal Structure of Membrane Lipids --;3. Diffraction from Partly Ordered or Disordered Lipid Systems --;4. X-Ray Diffraction with Synchrotron Radiation --;5. Diffraction from Thin Lipid Films: Monolayers and Langmuir-Blodgett Films --;6. Radiation Damage --;7. References.
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| Abstract
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In mammalian cells many physiological processes rely on the dynamics of the organization of lipids and proteins in biological membranes.
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| Subject
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Biochemistry.
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Botany.
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Life sciences.
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| LC Classification
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QH345.E358 1994
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| Added Entry
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Gregory B Ralston
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Herwig J Hilderson
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