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Sedimentation Velocity Analytical Ultracentrifugation

Interacting Systems

Peter Schuck Huaying Zhao

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CRC Press
12 December 2019
Analytical ultracentrifugation is one of the most powerful solution techniques for the study of macromolecular interactions, to define the number and stoichiometry of complexes formed, and to measure affinities ranging from very strong to very weak and repulsive.

Building on the data analysis tools described in the volume Sedimentation Velocity Analytical Ultracentrifugation: Discrete Species and Size-Distributions of Macromolecules and Particles, and the experimental and instrumental aspects in the first volume Basic Principles of Analytical Ultracentrifugation, the present volume Sedimentation Velocity Analytical Ultracentrifugation: Interacting Systems is devoted to the theory and practical data analysis of dynamically coupled sedimentation processes.

This volume is designed to fill a gap in biophysical methodology to provide a framework that builds on the fundamentals of the highly developed traditional methods of analytical ultracentrifugation, updated with current methodology and from a viewpoint of modern applications. It will be an invaluable resource for researchers and graduate students interested in the application of analytical ultracentrifugation in the study of interacting systems, such as biological macromolecules, multi-protein complexes, polymers, or nanoparticles.
By:   Peter Schuck, Huaying Zhao
Imprint:   CRC Press
Country of Publication:   United Kingdom
Dimensions:   Height: 254mm,  Width: 178mm, 
Weight:   553g
ISBN:   9780367886691
ISBN 10:   0367886693
Pages:   271
Publication Date:   12 December 2019
Audience:   College/higher education ,  Primary
Format:   Paperback
Publisher's Status:   Active
Exact Description of Ideally Sedimenting Associating Systems. Phenomenology of Sedimentation of Interacting Systems. Approximate Solutions for the Coupled Lamm Equations of Reacting Systems. Sedimentation Coefficient Distributions. Nonideal Sedimentation Velocity. Practical Analysis of Interacting Systems. Numerical Solution of Coupled Systems of Lamm Equations for Interacting Systems. Effective Particle Theory for Multi-Component Systems.

Dr. Schuck obtained his Ph.D. from the Goethe-University Frankfurt am Main, Germany, where he worked on interactions of integral proteins of the erythrocyte membrane using analytical ultracentrifugation. He received his post-doctoral research training in physical biochemistry with Dr. Allen Minton at NIDDK, and joined the Bioengineering and Physical Science Program of NCRR as a Research Fellow in 1997. He is currently a Earl Stadtman Tenure-Track Investigator and Chief of the Dynamics of Macromoleular Assembly Section, Laboratory of Cellular Imaging and Macromolecular Biophysics at the National Institute of Biomedical Imaging and Bioengineering, National Institutes of Health. Dr. Zhao received her Ph.D. in Chemistry, with a specialization in protein biochemistry, before spending two years on her post-doctoral research at the University of Maryland, where she worked on the study of protein-DNA and protein-protein interactions. Dr. Zhao joined the NIBIB as a Research Fellow in 2008. She has been working in the intramural research's Laboratory of Cellular Imaging and Macromolecular Biophysics, Dynamics of Macromolecular Assembly Section on development of biophysical methodology for characterizing a variety of macromolecules, including proteins, nucleic acids, polymers and nanoparticles. Her current work has focused on applications of advanced techniques of biophysics and physical biochemistry, including sedimentation velocity and sedimentation equilibrium analytical ultracentrifugation, isothermal titration calorimetry, fluorescence spectroscopy and surface plasmon resonance biosensing.

Reviews for Sedimentation Velocity Analytical Ultracentrifugation: Interacting Systems

Sedimentation Velocity Analytical Ultracentrifugation: Interacting Systems should be considered essential reading for those interested in the quantitative analysis of macromolecular interactions. The book lays out the fundamental theory of sedimentation for interacting systems, along with numerous examples that allow a visual and conceptual connection to the underlying math. This is followed with a discussion of approximate solutions of the Lamm equation for reacting systems, and analysis of the resultant sedimentation coefficient distributions. Of particular note is the chapter on practical considerations for experimental design and data interpretation, which should prove useful to experts and non-experts alike. In light of the importance of interacting systems in both academic and industry settings, this book represents a timely and useful reference. -David L Bain, Professor, University of Colorado Anschutz Medical Campus After laying down the fundamentals of analytical centrifugation in his first book, and the basis of sedimentation analysis of multicomponent systems in the second one, the third book in the series deals with the most crucial aspects, present in every practical case, arising from physical and chemical interactions between the different species in the sample. Dr. Schuck presents a detailed description of the nature of the interactions, their influence in the sedimentation patterns, and the ways to account for them in the analysis of experimental data. The author considers, on the one hand, physical intramolecular interactions, showing how they must be properly considered when one looks for structural information of the individual species. And, on the other hand, the book dwells amply in the most significant case of chemically reacting systems. The homo- or hetero-association of biomacromolecules is an aspect of extraordinary importance in many topics in life sciences, from signalling processes in s


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