High pressure effects in molecular biophysics and enzymology

High pressure effects in molecular biophysics and enzymology / edited by John L. Markley, Dexter B. Northrop and Catherine A. Royer.

Exploring the use of high pressure in connection with spectroscopy as a research tool in biophysics and biochemistry, this book covers subjects such as pressure tunning spectroscopy for investigating molecular interactions; high-pressure FT-IR studies of the secondary structure of proteins; structur...

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Bibliographic Details
Other Authors: Markley, John L. (Editor), Northrop, Dexter B. (Editor), Royer, Catherine A. (Editor)
Format: eBook
Language:English
Published: New York : Oxford University Press, 2020.
Subjects:
High pressure physics.
High pressure biochemistry.
High pressure biochemistry
High pressure physics
Online Access:Click for online access
Table of Contents:
  • Contributors; 1. Resolution of the Ambiguity of van't Hoff Plots by the Effect of Pressure on the Equilibrium; 2. Pressure-Tuning Spectroscopy: A Tool for Investigating Molecular Interactions; 3. Use of Partial Molar Volumes of Model Compounds in the Interpretation of High-Pressure Effects, on Proteins; 4. Pressure-Tuning Spectroscopy of Proteins: Fourier Transform Infrared Studies in the Diamond Anvil Cell; 5. Temperature- and Pressure-Induced Unfolding of a Mutant of Staphylococcal Nuclease A
  • 6. Pressure-Jump Relaxation Kinetics of Unfolding and Refolding Transitions of Staphylococcal Nuclease and Proline Isomerization Mutants7. High-Pressure FTIR Studies of the Secondary Structure of Proteins; 8. High-Pressure NMR Studies of the Dissociation of Arc Repressor and the Cold Denaturation of Ribonuclease A; 9. Exploring Structural, Functional, and Kinetic Aspects of Nucleic Acid-Protein Complexes with Pressure: Nucleosomes and RNA Polymerase; 10. Pressure and Cold Denaturation of Proteins, Protein-DNA Complexes, and Viruses
  • 11. Sequence, Salt, Charge, and the Stability of DNA at High Pressure12. Application of Pressure Relaxation to the Study of Substrate Binding to Cytochrome P-450[sub(CAM)] versus Temperature, Pressure, and Viscosity; 13. Pressure Effects on the Ligand-Binding Kinetics for Hemoproteins and Their Site-Directed Mutants; 14. Transient Enzyme Kinetics at High Pressure; 15. Steady-State Enzyme Kinetics at High Pressure; 16. Effects of High Pressure on the Allosteric Properties of Phosphofructokinase from Escherichia coli
  • 17. Correlation Field Splitting of Chain Vibrations: Structure and Dynamics in Lipid Bilayers and Biomembranes18. High-Pressure Effects on the Structure and Phase Behavior of Model Membrane Systems; 19. Membrane-Free Volume Variation with Bulky Lipid Concentration by Regular Distribution: A Functionally Important Membrane Property Explored by Pressure Studies of Phosphatidylcholine Bilayers; 20. NMR Studies of the Order and Dynamics of Dipalmitoylphosphatidylcholine Bilayers as a Function of Pressure; 21. Effects of Increased Viscosity on the Function of Integral Membrane Proteins
  • 22. Pressure- and Temperature-Induced Inactivation of Microorganisms23. Osmotic and Hydrostatic Pressure as Tools to Study Molecular Recognition; Index

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