The physics of proteins : an introduction to biological physics and molecular biophysics

Provides an introduction to the structure and function of biomolecules --- especially proteins --- and the physical tools used to investigate them The discussion concentrates on physical tools and properties, emphasizing techniques that are contributing to new developments and avoiding those that are already well established and whose results have already been exploited fully New tools appear regularly - synchrotron radiation, proton radiology, holography, optical tweezers, and muon radiography, for example, have all been used to open new areas of understanding

Biomolecules.- The Hierarchy of Living Things.- Information and Function.- Biomolecules, Spin Glasses, Glasses, and Solids (R. H. Austin1).- Proteins.- Nucleic Acids.- The Genetic Code.- Lipids and Membranes.- Spatial structure of proteins: measure-.- The Secondary Structure.- Tertiary Structure of Proteins.- Myoglobin and Hemoglobin.- The energy landscape and dynamics of.- Conformational Substates.- The Organization of the Energy Landscape.- Reaction Theory.- Supercooled Liquids and Glasses.- Function and dynamics.- Protein Dynamics.- Protein Quantum Dynamics? (R. H. Austin1).- Creative Homework: Dynamics and Function.- Appendices: tools and concepts for the.- Chemical Forces.- Acids and Bases for Physicists.- Thermodynamics for Physicists.- Quantum Chemistry for Physicists.- Energy Levels from Nuclei to Proteins.- Interaction of Radiation with Molecules.- Water (R. H. Austin1).- Scattering of Photons: X-Ray Diffraction.- Electronic Excitations.- Vibrations.- The Nucleus as a Probe (C. E. Schulz1).- Nuclear Magnetic Resonance and Molecular Structure Dynamics (R. H. Austin1).- Neutron Diffraction.