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Optical Activity of Proteins and Other Macromolecules

The application of circular dichroism (CD) to various problems involving con­ formation of proteins and other biopolymers is emphasized in this revised and enlarged second edition. The usefulness of CD and ORD in helping to solve structural prob­ lems is demonstrated by many examples, and the most e...

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Bibliographic Details
Main Author: Jirgensons, Bruno
Format: eBook
Language:English
Published: Berlin, Heidelberg Springer Berlin Heidelberg 1973, 1973
Edition:2nd ed. 1973
Series:Molecular Biology, Biochemistry and Biophysics Molekularbiologie, Biochemie und Biophysik
Subjects:
Biochemistry
Online Access:
Collection: Springer Book Archives -2004 - Collection details see MPG.ReNa
Table of Contents:
  • I The Realm of Proteins. Structural Features. The Phenomenon of Optical Activity. Historical Highlights
  • II The Phenomena of Optical Activity. Terms and Definitions. Theoretical Considerations. The Drude and Moffitt Equations
  • 1. Refraction of Monochromatic Polarized Light
  • 2. Optical Rotation
  • 3. Specific Rotation
  • 4. Corrected Mean Residual Specific Rotation
  • 5. Optical Activity and Absorption of Light
  • 6. Optical Rotatory Dispersion. The Drude Equation
  • 7. The Moffitt Equation for the Rotatory Dispersion of Helical Structures
  • 8. Configuration and Conformation
  • 9. The Far Ultraviolet Absorption Maxima and Cotton Effects
  • 10. Absorption and Refraction
  • 11. Circular Dichroism
  • 12. Magnetic Circular Dichroism
  • III Polarimeters and Spectropolarimeters. The Measurement of Optical Activity
  • 1. Visual Polarimetry
  • 2. Photoelectric Spectropolarimetry
  • 4. Amino Acid Composition and Conformation of Proteins
  • VI The Far Ultraviolet Cotton Effects of Synthetic Polyamino Acids
  • 1. The ?-Helical and Random Conformations of Poly-?-l-glutamic Acid and Poly-?-l-lysine
  • 2. ORD of Other Structural Orders
  • 3. Circular Dichroism of Polyamino Acids of Various Conformations
  • VII The Cotton Effects and Conformation of Proteins
  • 1. Attempts to Classify Proteins According to Their Conformation
  • 2. Comments on Nomenclature
  • 3. Cotton Effects of Proteins with a High ?-Helix Content
  • 4. Rotatory Dispersion, Circular Dichroism, X-Ray Diffraction, and Conformation of Myoglobin, Lysozyme, and Other Proteins
  • 5. Conformational Transitions and Cotton Effects in the Near Ultraviolet and Visible Spectrum
  • 6. The Fine Structure of the Near Ultraviolet CD Bands and Conformational Features of the Aromatic Chromophores
  • VIII Cotton Effects and Conformation of Nonhelical Proteins
  • 1. Globular Proteins of Known and Unknown Conformation
  • 3. Optical Rotatory Dispersion Measurement. General Principles of Operation. Sources of Errors. Accuracy and Reproducibility
  • 4. Cells and Solutions
  • 5. Circularly Polarized Light
  • 6. Circular Dichroism Measurement
  • 7. Resolution of Circular Dichroism Curves
  • 8. Circular Dichroism Measurement in the Vacuum Ultraviolet Region
  • IV Optical Activity of Amino Acids, Peptides, and Proteins
  • 1. Optical Rotation and Configuration of ?-Amino Acids
  • 2. Optical Rotatory Dispersion of ?-Amino Acids
  • 3. Rotatory Contribution of Amino Acid Residues in Peptides
  • 4. Optical Rotation of Proteins at Various pH
  • 5. Circular Dichroism of Amino Acids
  • V The Optical Rotatory Dispersion of Polyamino Acids and Proteins. Measurements in the Visible and Near Ultraviolet Spectral Zones
  • 1. Rotatory Dispersion of Polyamino Acids as Protein Models
  • 2. Rotatory Dispersion of Proteins
  • 3. Limitations of the Drude and MoffittMethods in the Elucidation of Protein Conformation
  • XI Optical Activity of Glycoproteins and Lipoproteins
  • 1. Glycoproteins and Polysaccharides
  • 2. Lipoproteins
  • 3. Membranes and Other Particulate Suspensions
  • XII Concluding Remarks
  • References
  • 2. Globular Proteins having a High Content of ? Conformation
  • 3. Cotton Effects and Conformation of Bovine Pancreatic Ribonuclease
  • 4. Other Rigid Nonhelical Proteins
  • 5. Cotton Effects and Conformation of Flexible Nonhelical Proteins
  • 6. Cotton Effects and Conformation of Immunoglobulins
  • 7. Effect of Detergents on the Conformation of Nonhelical Proteins
  • 8. Circular Dichroism of Small Polypeptide Hormones
  • IX Optical Activity of Structural Proteins
  • 1. Natural Variety of Structural Proteins and Difficulties Involved in Their Study
  • 2. Structural Proteins with a High ?-Helix Content
  • 3. Optical Activity of Structural Proteins with ? Conformation
  • 4. Optical Activity and Conformation of Collagen
  • X Optical Activity of Nucleoproteinsand Histones
  • 1. Conformation of Histones
  • 2. Optical Activity of Nucleic Acids and Nucleoproteins
  • 3. Conformation of Proteins and Nucleic Acids in Ribosomes, Viruses, and Phages

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