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Physical Principles and Techniques of Protein Chemistry, Part B deals with the theories and application of selected physical methods in protein chemistry evaluation. This book is divided into seven chapters that cover the ultracentrifugal analysis, light scattering, infrared (IR) methods, nuclear magnetic resonance (NMR) spectroscopy, and differential thermal analysis of protein properties. This text first describes the fundamental ideas and methodology of sedimentation analysis of ideal noninteracting solutes and the problems of nonideality and solute-solute interaction. This book then deals with the problems involved in the interpretation of viscometric data for evaluation of intrinsic viscosity of proteins. The following chapters examine the principles, measurement and analysis of spectra, and experimental techniques of light scattering, IR, and NMR spectroscopic methods. Discussions on coordination phenomena, identification of binding sites, and ion binding in the crystalline state and in protein solutions are included. The concluding chapter presents some examples of protein analysis using differential thermal analysis technique. This book is of great value to chemists, biologists, and researchers who have great appreciation of protein chemistry.
Physical Principles and Techniques of Protein Chemistry, Part A deals with the principles and application of selected physical methods in protein chemistry evaluation. This book is organized into nine chapters that cover microscopic, crystallographic, and electrophoretic techniques for protein conformational perturbations evaluation. This text first presents a general account of electron microscopy, its specimen preparation, optimum conditions for high resolution, measurement of electron micrographs, and illustrative examples of protein study. This book then examines the different types of maps from X-ray methods and the diffraction data from fibrous proteins. The subsequent chapters cover discussions on UV spectroscopy of proteins; luminescence properties of proteins and related compounds; and perturbation and flow methods for evaluation of proteins' dynamic properties and rate constants. Other chapters deal with the evaluation of proteins' dielectric properties using dielectric relaxation, electric birefringence, and dichroism techniques. The concluding chapters outline the theoretical and experimental advances of the electrophoretic and gel filtration methods for the study of protein structure and molecular weight. This book is of great value to chemists, biologists, and researchers who have great appreciation of protein chemistry.
Physical Principles and Techniques of Protein Chemistry, Part C focuses on the effects of intermolecular interactions that are transmitted between ligands and proteins and from protein to protein. This book discusses the density and volume change measurements; direct volume change; osmotic pressure; and small-angle X-ray scattering. The theory of particulate scattering; pulsed nuclear magnetic resonance; absorption of water by diamagnetic molecules; and use of least squares in data analysis are also elaborated. This text likewise covers the iteration process; optical rotatory dispersion and the main chain conformation of proteins; and basic relations for optically active molecules. Other topics include the circular dichroism, secondary structure of proteins, visible rotatory dispersion, and peptide cotton effects. This publication is intended for protein chemists, but is also useful to biologists, medical practitioners, and students researching on protein chemistry.
Advances in Protein Chemistry
Three-part series remains the definitive text on the physical properties of biological macromolecules and the physical techniques used to study them. It is appropriate for a broad spectrum of advanced undergraduate and graduate courses and serves as a comprehensive reference for researchers. Part I: The Conformation of Biological Macromolecules 1980, paper, 365 pages, 158 illustrations 0-7167-1188-5 Part II: Techniques for the Study of Biological Structure and Function 1980, paper, 365 pages, 158 illustrations 0-7167-1190-7 Part III: The Behavior of Biological Macromolecules 1980, paper, 597 pages, 243 illustrations 0-7167-1192-3
Presents the methods used for characterization of polymers. In addition to theory and basic principles, the instrumentation and apparatus necessary for methods used to study the kinetic and thermodynamic interactions of a polymer with its environment are covered in detail. Some of the methods examined include polymer separations and characterization by size exclusion and high performance chromatography, inverse gas chromatography, osmometry, viscometry, ultracentrifugation, light scattering and spectroscopy.
In this work we present the basic principles of metabolic control which we hope will serve as a foundation for the vast array of factual matter which the biochemist and the physician engaged in metabolic research must accumulate. Accordingly, we attempt to set forth these principles, along with sufficient explanation, so that the reader may apply them to the ever-expanding literature of biochemistry. If we are successful, this will provide a theoretical approach which can be applied to any given set of metabolic reactions. It is impossible to enumerate each and every biochemical reaction and pathway since such a work would be too unwieldy for efficient use. Rather, we hope our presentation of the principles of metabolic control will be sufficiently basic to be of lasting usefulness no matter how detailed biochemistry may become. We would like to be able to con dense biochemistry into a theoretical biology that will not only allow for the general treatment of any given reaction but will enable predic tions to be made as to the existence of necessary pathways and the con sequences of altered control. Such is not possible today, but this may be accomplished in the future. We believe it is now possible to institute the beginnings of such a theoretical biology.
With advances in techniques and technology coupled with the growing need to deal withthe problems associated with quality assurance, product development, and food safety,the science of food analysis has developed rapidly in recent years. Food Analysis: Principlesand Techniques provides an unparalleled source of information for all aspects of thisfield, filling your needs for up-to-date, detailed treatment of the methods of food analysis.Volume 2 of this important 8-volume treatise focuses on essential physicochemical techniques,ranging from the measurement of physical parameters, such as temperature, solubility,and viscosity, to the determination of food components at the supramolecular andatomic levels. Incorporating the latest developments in instrumentation that facilitate rapid,quantitative analysis, Physicochemical Techniques assures you comprehensive, accuratecoverage that you can turn to time and time again.Consolidating the expertise of renowned international authorities, Food Analysis: Principlesand Techniques serves as the complete, state-of-the-art reference and the basis forcontinuing development. For all food analysts in industry, government, and academiaincludingfood scientists, chemists, biochemists, nutritionists, environmental chemists,and microbiologists-this major resource will be the standard by which other works arecompared . Also, graduate students in food science and nutrition will find each volume ofthis work indispensable in their studies.