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Although glycoproteins and proteoglycans have been a subject of re search for many years, it is only during the last five or so years that they have aroused the interest of a very broad cross section of investigators in the biological sciences. The reason for this expanded interest in these molecules is simple: not only are glycoproteins and proteoglycans ubiq uitous, but many are molecules with well-defined and important biological functions. The list of molecules that fall into this category grows daily; interferon, immunoglobulins, certain hormones, many cell surface recep tors, and viral coat proteins are but a few examples. Thus, investigators with interests as diverse as viral replication. cell-cell interactions. poly isoprenoid synthesis, secretory processes, hormone responses, embryonic development, and immunology have become concerned with glycopro teins and proteoglycans. The objective of this book is to summarize the current state of knowledge on the biochemistry of these molecules. Coverage is by no means encyclopedic; rather the thrust is to emphasize the recent ad vances. The first chapter deals primarily with structural work on the oligosaccharide chains of glycoproteins, but it will be apparent in it and in the succeeding two chapters on biosynthesis that not only do structural studies aid biosynthetic investigations, but that studies on biosynthesis often playa major role in elucidation of structure.
This book contains contributions from interdisciplinary scientists to collectively address the issue of targeting carbohydrate recognition for the development of novel therapeutic and diagnostic agents. The book covers (1) biological problems involving carbohydrate recognition, (2) structural factors mediating carbohydrate recognition, (3) design and synthesis of lectin mimics that recognize carbohydrate ligands with high specificity and affinity, and (4) modulation of biological and pathological processes through carbohydrate recognition.
Sugar chains (glycans) are often attached to proteins and lipids and have multiple roles in the organization and function of all organisms. "Essentials of Glycobiology" describes their biogenesis and function and offers a useful gateway to the understanding of glycans.
Contributors to this volume explore the role of carbohydrates in communication between cells of multicellular organisms. Topics covered include the thermodynamics and spatial restrictions of oligosaccharide-protein interactions, the role of carbohydrates in recognition and as components of cell adhesion molecules, and abnormal glycosylation in several disease states.
As a reflection of the quantum leap that has been made in the study of glycostructures, the first edition of this book has been completely revised and updated. The editors give up-to-date information on glycostructures, their chemistry and chemical biology in the form of a completely comprehensive survey. Glycostructures play highly diverse and crucial roles in a myriad of organisms and important systems in biology, physiology, medicine, bioengineering and technology. Only in recent years have the tools been developed to partly understand the highly complex functions and the chemistry behind them. While many facts remain undiscovered, this MRW has been contributed to by a large number of the world’s leading researchers in the field.
Recognition of carbohydrates in biological systems has been gaining more and more attention in recent years. Although methodology for studying recognition has been developing, there is no volume that covers the wide area of methodology of carbohydrate recognition. This volume, Recognition of Carbohydrates in Biological Systems, Part A: General Procedures, and its companion, Volume 363, present state-of-the-art methodologies, as well as the most recent biological observations in this area. Covers the isolation/synthesis of substances used in studying interactions involving carbohydrates Discussed the methodology for measuring such interactions Biological roles for such interactions are also covered
In the last decade there has been a great expansion in our knowledge of the existence, nature and functions of mammalian carbohydrate binding proteins. This book covers the structures and postulated functions for the major classes of mammalian carbohydrate binding proteins. These include intracellular lectins involved in diverse functions such as protein synthesis quality control, targetting of lysosomal enzymes and in the secretory pathway. In addition, several chapters are devoted to other major families of lectins that are found at the cell surface or in extracellular fluids which are involved in various recognition functions such as cell-cell interactions in inflammation and recognition of pathogen carbohydrates in host defence.
Plant lectins are extensively used as tools and as bioactiveproteins in different areas of biomedical and biological research.The Handbook of Plant Lectins provides a comprehensive yet conciseoverview of the biochemical properties, carbohydrate-bindingspecificity, biological activities and applications of most of thecurrently known plant lectins. This handbook consists of two majorsections: an introductory guide and a quick reference dictionary.Part I acquaints the newcomer to the lectin field with theessential information on lectins and their importance tobiomedicine: * what are lectins? * their carbohydrate-binding specificity * effects on nutrition and immunology * use in histochemistry * application as therapeutic agents Part II lists approximately 200 lectin entries in alphabeticalorder. Each entry deals with the lectin(s) of a particular plantand provides, (where known), details of: * isolation and characterisation; * sugar binding specificity; * biological activities; * applications; * commercial availability; and, * a bibliography. Useful summary tables list lectins according to their specificity,thereby allowing the user to choose the best lectin for theirapplication. A list of suppliers is also provided. Handbook ofPlant Lectins will be of interest to biologists and biomedicalresearchers studying cell biology, cancer research, nutrition,immunology, pathology and physiology.
This book is unique in providing pertinent information on the various established roles carbohydrate play in the immune system and how the innate and adaptive immune systems respond to this type of microbial antigens. The editors selected only topics that have established basic and clinical relevance to this field. The topics from basic research are organised like a textbook, in order to guide the readers through complex sets of events that lead to clearance of or to immune responses toward carbohydrate antigens. The book is clear, concise and contains fully annotated summaries of the key basic and practical information on carbohydrate immunology from current literature. These topics are written by investigators from various disciplines (chemistry, medicine, biochemistry, glycobiology and immunology), creating a fine balance in the point of views presented in the book. It explores the challenges and rewards of understanding the importance of carbohydrates and glycoconjugates in health and disease, applying new knowledge from carbohydrate immunology in improving or developing novel sugar-based therapeutics, and vaccines and medicines. This book is most suitable for glycobiologists and immunologists, but many researchers whose interests, background and expertise are in any of the fifteen topics presented in this book will also find it appealing. It is also a valuable resource for postgraduate students, clinicians or anyone else who is curious about the role of carbohydrates in immunology, and would like to see the topics combined under one cover and in relation to each other.
Die Suche nach Medikamenten mit neuen oder verbesserten Eigenschaften hat das Interesse am pharmazeutischen Potenzial von Kohlenhydraten enorm verstärkt. Dies gilt insbesondere für die Entwicklung von Antibiotika, Impfstoffen und Anti-Krebs-Mitteln. Carbohydrate-based Drug Discovery stellt mit mehr als 50 Beiträgen der weltweit führenden Experten die neuesten Entwicklungen in der Kohlenhydrat- und Biochemie vor. Dabei liegt der Schwerpunkt der Darstellung auf der pharmazeutischen Anwendung. In jüngster Zeit sind wirksame, auf Kohlenhydraten basierende Medikamente gegen HIV, Grippe, Epilepsie, Diabetes und Krebs auf den Markt gekommen bzw. werden in Studien klinisch erprobt. Doch das gesamte Potenzial dieser Substanzklasse kann man bislang wohl nur erahnen. Die pharmazeutische Industrie investiert bereits große Summen in die Forschung und Entwicklung. So kommt dieses Handbuch genau zur richtigen Zeit. Umfassend und kompetent behandelt es den gesamten Bereich der Kohlenhydratchemie. Es führt ein in die chemische Synthese, in Biosynthese und Metabolismus und informiert über die Analyse und die zellulären Funktionen von Kohlenhydraten. Einen weiteren Schwerpunkt bildet die Entwicklung von Medikamenten auf Kohlenhydrat-Basis, wie z.B. synthetischer Impfstoffe oder Thrombosemittel auf Basis synthetischer Oligosaccharide. Erschlossen wird das mit einem umfangreichen bibliographischen Anhang versehene Werk durch einen thematischen Index. Sein Herausgeber, Chi-Huey Wong, hat bereits mehrere internationale Preise für sein wissenschaftliches Werk erhalten, darunter den "Presidential Award" und den "Presidential Young Investigator Award".