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This volume completes the account of physical methods used in biochemistry that was covered in Volume 11A, which was published in 1985. It deals with fast reaction methods, high performance liquid chromatography of peptides and proteins, fluorescence spectroscopy, neutron and X-ray scattering techniques, and also Raman and resonance spectroscopy which have in recent years been used to an increasing extent in biochemistry. This addition to the invaluable series New Comprehensive Biochemistry will be of interest to all those working in the fields of biochemistry and biophysics.
Modern Physical Methods in Biochemistry, Part A
Computational biology is a rapidly expanding field, and the number and variety of computational methods used for DNA and protein sequence analysis is growing every day. These algorithms are extremely valuable to biotechnology companies and to researchers and teachers in universities. This book explains the latest computer technology for analyzing DNA, RNA, and protein sequences. Clear and easy to follow, designed specifically for the non-computer scientist, it will help biologists make better choices on which algorithm to use. New techniques and demonstrations are elucidated, as are state-of-the-art problems, and more advanced material on the latest algorithms. The primary audience for this volume are molecular biologists working either in biotechnology companies or academic research environments, individual researchers and the institutions they work for, and students. Any biologist who relies on computers should want this book. A secondary audience will be computer scientists developing techniques with applications in biology. An excellent reference for leading techniques, it will also help introduce computer scientists to the biology problems. This is an outstanding work which will be ideal for the increasing number of scientists moving into computational biology.
This book provides up-to-date coverage at an advanced level of a range of topics in the biochemistry and molecular biology of plant hormones, with particular emphasis on biosynthesis, metabolism and mechanisms of action. Each contribution is written by acknowledged experts in the field, providing definitive coverage of the field. No other modern book covers this subject matter at such an advanced level so comprehensively. It will be invaluable to university libraries and scientists in the plant biotechnology industries.
Part I covers modern advances in the determination ofglycoprotein structure and in the biosynthesis of mammalian,bacterial, yeast, plant and insect glycoproteins. There are alsotwo chapters on functional aspects (glycoprotein hormones andcollagens).The content of the volume is very comprehensive in that, mostcontributors have focussed on discussing, in depth, the wealthof most recent advances in their field, and referring to previousreviews of older work for background information. This method caneffectively produce a very wide subject coverage in a smallernumber of chapters/volumes.The volume is an importantinformation source for all glycobiologist researchers (seniorinvestigators, post-doctoral fellows and graduate students), andas a good, comprehensive, reference text for scientists working inthe life sciences.
Analytical ultracentrifugation has become an increasingly important technique for monitoring the size and shape of biological macromolecules. Analytical Ultracentrifugation: Techniques and Methods contains contributions from experts in the field, bringing together the multitude of developments that have taken place in instrumentation and analysis over the past decade into a single volume. This book covers the latest methods in analysis along with an extensive introduction for the novice user. Analysis methods in both sedimentation velocity and sedimentation equilibrium are discussed at length. Protein, protein/DNA, membrane proteins and polymer systems are also explored, along with software developments and non-ideality.
The first edition of this book was published in 1985. The content of the 4th edition reflects the enormous advances that have occurred since that time in the field of lipid biochemistry. This publication is unique in that it represents a bridge between the superficial coverage of the lipid field found in basic biochemistry text books and the highly specialized material contained in scientific review articles and monographs. The book is not a collection of exhaustive reviews, but a current and readable summary of diverse aspects of lipids. It is intended as an advanced and up-to-date textbook for teachers and students who are familiar with the basic concepts of lipid biochemistry and will also serve as a general reference book for scientists studying lipids, lipoproteins and membranes.
Non-Animal Techniques in Biomedical and Behavioral Research and Testing features the contributions of noted experts describing the application of non-animal methods in a wide variety of research and testing situations, including computer modeling/graphics, protein sequence analysis, behavioral analysis, drug design/testing, cosmetic and household products testing, toxicological testing, clinical testing, chemical identification and analysis, and disease investigations. Many of the alternatives covered have applications in behavioral as well as biomedical research and testing. Topics examined include in vitro techniques, molecular genetics, structure-activity relationships, physicochemical methods, computer-assisted drug designs, nutrition, epidemiology, autopsies, neural networks, ethology, image scanning devices, and medical microbiology. Future applications for non-animal methods are also explored. The book will appeal to toxicologists, pharmacologists, cosmetic and household product researchers, epidemiologists, medical microbiologists, biopsychiatrists, biomedical and psychological educators, biochemists, molecular geneticists, and other scientists interested in alternative testing methods.
The concept of network as a mathematical description of a set of states, or events, linked according to a certain topology has been developed recently and has led to a novel approach of real world. This approach is no doubt important in the field of biology. In fact biological systems can be considered networks. Thus, for instance, an enzyme-catalysed reaction is a network that links, according to a certain topology, the various states of the protein and of its complexes with the substrates and products of the chemical reaction. Connections between neurons, social relations in animal and human populations are also examples of networks. Hence there is little doubt that the concept of network transgresses the boundaries between traditional scientific disciplines. This book is aimed at discussing in physical terms these exciting new topics on simple protein model lattices, supramolecular protein edifices, multienzyme and gene networks. *Physical and mathematical approach of biological phenomena.*Offers biochemists and biologists the mathematical background required to understand the text.*Associates in the same general formulation, the ideas of communication of a message and organization of a system.*Provides a clear-cut definition and mathematical expression of the concepts of reduction, integration, emergence and complexity that were so far time-honoured and vague
The aim of this book is to show how supramolecular complexity of cell organization can dramatically alter the functions of individual macromolecules within a cell. The emergence of new functions which appear as a consequence of supramolecular complexity, is explained in terms of physical chemistry. The book is interdisciplinary, at the border between cell biochemistry, physics and physical chemistry. This interdisciplinarity does not result in the use of physical techniques but from the use of physical concepts to study biological problems. In the domain of complexity studies, most works are purely theoretical or based on computer simulation. The present book is partly theoretical, partly experimental and theory is always based on experimental results. Moreover, the book encompasses in a unified manner the dynamic aspects of many different biological fields ranging from dynamics to pattern emergence in a young embryo. The volume puts emphasis on dynamic physical studies of biological events. It also develops, in a unified perspective, this new interdisciplinary approach of various important problems of cell biology and chemistry, ranging from enzyme dynamics to pattern formation during embryo development, thus paving the way to what may become a central issue of future biology.