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Techniques in Protein Chemistry III compiles papers presented at the Fifth Protein Society Symposium in Baltimore on June 22-26, 1991. This book discusses the protein and peptide recovery from PVDF membranes; high-sensitivity peptide mapping utilizing reversed-phase microbore and microcolumn liquid chromatography; and capillary electrophoresis for preparation of peptides and direct determination of amino acids. The TFMSA/TFA cleavage in t-Boc peptide synthesis; applications of automatic PTC amino acid analysis; and identification of O-glycosylation sites with a gas phase sequencer are also elaborated. This text likewise covers the conformational stability of the molten globule of cytochrome c and role of aqueous solvation in protein folding. This publication is useful to students and researchers interested in methods and research approaches on protein chemistry.
Current Research in Protein Chemistry: Techniques, Structure, and Function reviews new techniques and methods for determining the structure and function of proteins. Topics covered include protein folding and stability, chimeric proteins, amino acid and peptide analysis, mass spectrometric methods, and protein sequencing techniques. This book is divided into six sections comprised of 55 chapters. The discussion begins with a description of microwave irradiation that uses Teflon-Pyrex tubes for protein hydrolysis, followed by the application of high performance capillary electrophoresis to the analysis of amino acids. The sections that follow explore mass spectrometry, protein sequencing, and capillary electrophoresis as well as protein stability, chimeric proteins and enzyme modifications, and protein structure prediction. Chapters focus on the crystal structure of human interleukin-1a, the acid-denatured states of proteins, solubility of recombinant proteins expressed in Escherichia coli, and catalysis by chimeric proteins. This book will be of value to students and researchers interested in protein chemistry.
This book presents a survey of recent developments in protein biochemistry. Top researchers in the field of protein biochemistry describe modern methods to address the challenges of protein purification by three-phase partitioning, and their folding and degradation by the functions of chaperones. The significance of peptide purity for fibril formation is addressed as well as the use of target oriented peptide arrays in palliative approaches in mucoviszidose. The design and application of protein epitope mimetics just as the structural resolving of the misfolding of various mutant proteins in serpinopathies enlarge our tools in resolving pathophysiological imbalances.
The book is structured in nine sections, each containing several chapters. The volume starts with an overview of analytical techniques and progresses through purification of proteins; protein modification and inactivation; protein size, shape, and structure; enzyme kinetics; protein-ligand interactions; industrial enzymology; and laboratory quality control. The book is targeted at all scientists interested in protein research.
In recent years, interest in proteins has surged. This resurgence has been driven by the expansion of the post-genomic era when structural genomics and proteomics require new techniques in protein chemistry and new applications of older techniques. Protein chemistry methods are used by nearly every discipline of biomedical research. Many techniques
The second edition of Structure in Protein Chemistry showcases the latest developments and innovations in the field of protein structure analysis and prediction. The book begins by explaining how proteins are purified and describes methods for elucidating their sequences of amino acids and defining their posttranslational modifications. Comprehensive explanations of crystallography and of noncovalent forces-ionic interactions, hydrogen bonding, and the hydrophobic effect-act as a prelude to an exhaustive description of the atomic details of the structures of proteins. The resulting understanding of protein molecular structure forms the basis for discussions of the evolution of proteins, the symmetry of the oligomeric associations that produce them, and the chemical, mathematical, and physical basis of the techniques used to study their structures. The latter include image reconstruction, nuclear magnetic resonance spectroscopy, proton exchange, optical spectroscopy, electrophoresis, covalent cross-linking, chemical modification, immunochemistry, hydrodynamics, and the scattering of light, X-radiation, and neutrons. These procedures are applied to study the folding of polypeptides and the assembly of oligomers. Biological membranes and their proteins are also discussed. Structure in Protein Chemistry, Second Edition, bridges the gap between introductory biophysical chemistry courses and research literature. It serves as a comprehensive textbook for advanced undergraduates and graduate students in biochemistry, biophysics, and structural and molecular biology. Professionals engaged in chemical, biochemical, and molecular biological research will find it a useful reference.
This class-tested textbook gives an overview of the structure and functions of proteins and explains how amino acids form a defined structural entity with specific properties. The authors also introduce modern methods for purification and separation of proteins as well as different techniques for analyzing their structural and functional properties. A separate part of the book is devoted to enzymes and kinetics of enzymatic reactions.
The authors are commonly the techniques" originators, and each has demonstrated a hands-on mastery of the methods described, always fine-tuning them here for optimal productivity.
New textbooks at alllevels of chemistry appear with great regularity. Some fields like basic biochemistry, organic reaction mechanisms, and chemical thermodynamics are weil represented by many excellent texts, and new or revised editions are published sufficiently often to keep up with progress in research. However, some areas of chemistry, especially many of those taught at the graduate level, suffer from a reallack ofup-to-date textbooks. The most serious needs occur in fields that are rapidly changing. Textbooks in these subjects usually have to be written by scientists actually involved in the research which is advancing the field. lt is not often easy to persuade such individuals to settime aside to help spread the knowledge they have accumu lated. Our goal, in this series, is to pinpoint areas of chemistry where recent progress has outpaced what is covered in any available textbooks, and then seek out and persuade experts in these fields to produce relatively concise but instructive introductions to their fields. These should serve the needs of one semester or one quarter graduate courses in chemistry and biochemistry. In some cases the availability of texts in active research areas should help stimulate the creation of new courses. NewYork CHARLES R. CANTOR Preface to the Second Edition The original plan for the first edition of this book was to title it Enzyme Purification: Princip/es and Practice.
Ein praxisorientierter Leitfaden für Studenten im Hauptstudium. Vermittelt werden aktuelle Techniken der Molekularbiologie und Biochemie als fester Bestandteil eines Forschungsprojektes. Auf diese Weise kann der Lernende die Auswirkung der Gentechnik anhand der praktischen Anwendung von nassanalytischen biochemischen Verfahren erkennen. Mit Computer-Tutorials für Sequenzierung, Genomik und Molekülmodellierung. Mit Tipps und Hinweisen zur Sichtung der Primärliteratur, zu mündlichen Berichten, zur Protokollierung des Labortagebuchs und zum Verfassen von Berichten. Mit einer Liste von amerikanischen und europäischen kommerziellen Anbietern von Reagenzien. Verständlich und anschaulich geschrieben. Ein unverzichtbares Lehrbuch für fortgeschrittene Studenten und Doktoranden. "Methods in Molecular Biology" ist jedoch NICHT geeignet für aktive Forscher auf der Suche nach den neuesten hochdifferenzierten Verfahren.