Microcalorimetry Of Macromolecules The Physical Basis Of Biological Structures Peter L Privalovauth by Peter L. Privalov(auth.) 9781118104514, 9781118337509, 111810451X, 1118337506 instant download after payment.

Examining the physical basis of the structure of macromolecules?proteins, nucleic acids, and their complexes?using calorimetric techniques

Many scientists working in biology are unfamiliar with the basics of thermodynamics and its role in determining molecular structures. Yet measuring the heat of structural change a molecule undergoes under various conditions yields information on the energies involved and, thus, on the physical bases of the considered structures. Microcalorimetry of Macromolecules offers protein scientists unique access to this important information.

Divided into thirteen chapters, the book introduces readers to the basics of thermodynamics as it applies to calorimetry, the evolution of the calorimetric technique, as well as how calorimetric techniques are used in the thermodynamic studies of macromolecules, detailing instruments for measuring the heat effects of various processes. Also provided is general information on the structure of biological macromolecules, proteins, and nucleic acids, focusing on the key thermodynamic problems relating to their structure. The book covers:

• The use of supersensitive calorimetric instruments, including micro and nano-calorimeters for measuring the heat of isothermal reactions (Isothermal Titration Nano-Calorimeter), the heat capacities over a broad temperature range (Scanning Nano-Calorimeter), and pressure effects (Pressure Perturbation Nano-Calorimeter)
• Two of the simplest but key structural elements: the ? and polyproline helices and their complexes, the ?-helical coiled-coil, and the pyroline coiled-coils
• Complicated macromolecular formations, including small globular proteins, multidomain proteins and their complexes, and nucleic acids
• Numerous examples of measuring the ground state of protein energetics, as well as changes seen when proteins interact

The book also reveals how intertwined structure and thermodynamics are in terms of a macromolecule's organization, mechanism of formation, the stabilization of its three-dimensional structure, and ultimately, its function. The first book to describe microcalorimetric technique in detail, enough for graduate students and research scientists to successfully plumb the structural mysteries of proteins and the double helix, Microcalorimetry of Macromolecules is an essential introduction to using a microcalorimeter in biological studies.

Content:
Chapter 1 Introduction (pages 1–3):
Chapter 2 Methodology (pages 5–32):
Chapter 3 Calorimetry (pages 33–67):
Chapter 4 Macromolecules (pages 69–94):
Chapter 5 The ??Helix and ??Helical Coiled?Coil (pages 95–125):
Chapter 6 Polyproline?II Coiled?Coils (pages 127–152):
Chapter 7 Globular Proteins (pages 153–191):
Chapter 8 Energetic Basis of Protein Structure (pages 193–224):
Chapter 9 Protein Folding (pages 225–247):
Chapter 10 Multidomain Proteins (pages 249–272):
Chapter 11 Macromolecular Complexes (pages 273–296):
Chapter 12 Protein–DNA Interaction (pages 297–351):
Chapter 13 Nucleic Acids (pages 353–385):