Normal Mode Analysis
eBook - ePub

Normal Mode Analysis

Theory and Applications to Biological and Chemical Systems

  1. English
  2. ePUB (mobile friendly)
  3. Available on iOS & Android
eBook - ePub

Normal Mode Analysis

Theory and Applications to Biological and Chemical Systems

About this book

Rapid developments in experimental techniques continue to push back the limits in the resolution, size, and complexity of the chemical and biological systems that can be investigated. This challenges the theoretical community to develop innovative methods for better interpreting experimental results. Normal Mode Analysis (NMA) is one such technique

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Yes, you can access Normal Mode Analysis by Qiang Cui,Ivet Bahar in PDF and/or ePUB format, as well as other popular books in Mathematics & Applied Mathematics. We have over one million books available in our catalogue for you to explore.

Information

Publisher
Chapman and Hall/CRC
Year
2005
eBook ISBN
9781040207963
Topic
Mathematics
Subtopic
Applied Mathematics
Index
Mathematics

Table of contents

  1. Cover
  2. Half Title
  3. Chapman & Hall/CRC: Mathematical and Computational Biology Series
  4. Title Page
  5. Copyright Page
  6. Foreword
  7. Preface
  8. Acknowledgments
  9. Editors
  10. Contributors
  11. Table of Contents
  12. 1: Normal Mode Theory and Harmonic Potential Approximations
  13. 2: All-Atom Normal Mode Calcu lations of Large Molecular Systems Using Iterative Methods
  14. 3: The Gaussian Network Model: Theory and Applications
  15. 4: Normal Mode Analysis of Macromolecules: From Enzyme Active Sites to Molecular Machines
  16. 5: Functional Information from Slow Mode Shapes
  17. 6: Unveiling Molecular Mechanisms of Biological Functions in Large Macromolecular Assemblies Using Elastic Network Normal Mode Analysis
  18. 7: Applications of Normal Mode Analysis in Structural Refinement of Supramolecular Complexes
  19. 8: Normal Mode Analysis in Studying Protein Motions with X-Ray Crystallography
  20. 9: Optimizing the Parameters of the Gaussian Network Model for ATP-Binding Proteins
  21. 10: Effects of Sequence, Cyclization, and Superhelical Stress on the Internal Motions of DNA
  22. 11: Symmetry in Normal Mode Analysis of Icosahedral Viruses
  23. 12: Extension of the Normal Mode Concept: Principal Component Analysis, Jumping-Among-Minima Model, and Their Applications to Experimental Data Analysis
  24. 13: Imaginary-Frequency, Unstable Instantaneous Normal Modes, the Potential Energy Landscape, and Diffusion in Liquids
  25. 14: Driven Molecular Dynamics for Normal Modes of Biomolecules without the Hessian, and Beyond
  26. 15: Probing Vibrational Energy Relaxation in Proteins Using Normal Modes
  27. 16: Anharmonic Decay of Vibrational States in Proteins
  28. 17: Collective Coordinate Approaches to Extended Conformational Sampling
  29. 18: Using Collective Coordinates to Guide Conformational Sampling in Atomic Simulations
  30. Index