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Solid-phase synthesis of carbohydrates presents unique challenges to synthetic chemists and currently represents one of the hottest areas of research in bioorganic chemistry. Solid Support Oligosaccharide Synthesis and Combinatorial Carbohydrate Libraries addresses the exciting expectation that solid-phase assembly of oligosaccharides will have a fundamental impact on the field of glycobiology. This publication details the methodologies currently investigated for the attachment of carbohydrates to beads, synthesis including coupling strategies, and removal of the product from beads. With chapters written by eminent contributing authors, the material explores different synthetic strategies, glycosylation protocols, the use of solid supports versus soluble polymeric supports, and "on-resin" analytical methods. Tremendous progress in the field has set the stage for Solid Support Oligosaccharide Synthesis and Combinatorial Carbohydrate Libraries to provide a wealth of information on such topics as: Specific oligosaccharide structures used in signal transduction processes Preparation and screening of glycopeptide libraries Solid-phase carbohydrate synthesis
Traditionally, the search for new compounds from natural products has been a time- and resource-intensive process. The recent application of combinatorial methods and high-throughput synthesis has allowed scientists to generate a range of new molecular structures from natural products and observe how they interact with biological targets. Combinato
Intrigued as much by its complex nature as by its outsider status in traditional organic chemistry, the editors of The Organic Chemistry of Sugars compile a groundbreaking resource in carbohydrate chemistry that illustrates the ease at which sugars can be manipulated in a variety of organic reactions. Each chapter contains numerous examples demonst
Green chemistry is a new way of looking at organic synthesis and the design of drug molecules, offering important environmental and economic advantages over traditional synthetic processes. Pharmaceutical companies are increasingly turning to the principles of green chemistry in an effort to reduce waste, reduce costs and develop environmentally benign processes. Green Techniques for Organic Synthesis and Medicinal Chemistry presents an overview of the established and emerging techniques in green organic chemistry, highlighting their applications in medicinal chemistry. The book is divided into four parts: Introduction: Introduces the reader to the toxicology of organic chemicals,their environmental impact, and the concept of green chemistry. Green Catalysis: Covers a variety of green catalytic techniques including organocatalysis, supported catalysis, biocatalysis, fluorous catalysis, and catalytic direct C-H bond activation reactions. Green Synthetic Techniques: Presents a series of new techniques, assessing the green chemistry aspects and limitations (i.e. cost, equipment, expertise). Techniques include reactions in alternative solvents, atom economic multicomponent reactions, microwave and ultrasonic reactions, solid-supported synthesis, fluorous and ionic liquid-based recycling techniques, and flow reactors. Green Techniques in Pharmaceutical Industry: Covers applications of green chemistry concepts and special techniques for medicinal chemistry, including synthesis, analysis, separation, formulation, , and drug delivery. Process and business case studies are included to illustrate the applications in the pharmaceutical industry. Green Techniques for Organic Synthesis and Medicinal Chemistry is an essential resource on green chemistry technologies for academic researchers, R&D professionals and students working in organic chemistry and medicinal chemistry.
Combinatorial chemistry has taken the pharmaceutical industry by storm over the past ten to fifteen years. There has been a massive investment in automation by pharmaceutical companies and a demand for graduates/PhDs with experience and knowledge of combinatorial chemistry. These days the academic education of chemists and biologists is gradually converging, so those entering the pharmaceutical industry need to be not only chemistry graduates but also biologists applying their biological knowledge to chemistry. Many chemists, however, still require experience in biological methods and similarly biologists have not yet realized the power of chemical methods. This book will therefore help ease the transition from biology into chemistry and vice versa, for those working in the combinatorial chemistry field. Because combinatorial chemistry evolved from the requirements of the biology field, the authors have written this book with both biologists and chemists in mind. Combinatorial chemistry is a new and highly influential area of modern synthetic chemistry based on efficient, parallel synthesis of molecules, as opposed to the use of several synthetic steps, to produce many sets of compounds for biological evaluation. The techniques used in this area are key to the discovery of new drug compounds in the pharmaceutical and agrochemical industries. Combinatorial Methods in Chemistry and Biology describes the origins, basics and techniques used both in combinatorial chemistry and molecular biology. Key features: * First book to cover combinatorial methods in both chemistry and biology - ideal for those with either a chemical or biological background. * Introductory text - ideal for newcomers to the field. * Covers a wide swathe of techniques and topics - providing beginners with a complete overview of the field. * Contains chapters on supporting material and linkers, two important areas in the field. * Up-to-date and topical. This volume will be of key interest to technicians/scientists working in the pharmaceutical industry with backgrounds in either biology or chemistry. It will also be invaluable to students - postgraduates studying chemistry and molecular biology or those chemistry/molecular biology undergraduates at universities where combinatorial chemistry is taught as a module.
Advances in Carbohydrate Chemistry and Biochemistry has provided, since its inception in 1945, critical and informative articles written by research specialists that integrate the industrial, analytical, and technological aspects of biochemistry, organic chemistry, and instrumentation methodology to the study of carbohydrates. Its articles present a definitive interpretation of the current status and future trends in carbohydrate chemistry and biochemistry. - Features contributions from leading authorities and industry experts who specialize in carbohydrate chemistry, biochemistry, and research - Integrates the industrial, analytical, and technological aspects of biochemistry, organic chemistry, and instrumentation methodology in the study of carbohydrates - Informs and updates on all the latest developments in the field
Written for advanced undergraduate and graduate students, this textbook makes the main concepts of combinatorial chemistry accessible to the non-specialist.
"This excellent work fills the need for an upper-level graduate course resource that examines the latest biochemical, biophysical, and molecular biological methods for analyzing the structures and physical properties of biomolecules... This reviewer showed [the book] to several of his senior graduate students, and they unanimously gave the book rave reviews. Summing Up: Highly recommended..." CHOICE Chemical biology is a rapidly developing branch of chemistry, which sets out to understand the way biology works at the molecular level. Fundamental to chemical biology is a detailed understanding of the syntheses, structures and behaviours of biological macromolecules and macromolecular lipid assemblies that together represent the primary constituents of all cells and all organisms. The subject area of chemical biology bridges many different disciplines and is fast becoming an integral part of academic and commercial research. This textbook is designed specifically as a key teaching resource for chemical biology that is intended to build on foundations lain down by introductory physical and organic chemistry courses. This book is an invaluable text for advanced undergraduates taking biological, bioorganic, organic and structural chemistry courses. It is also of interest to biochemists and molecular biologists, as well as professionals within the medical and pharmaceutical industry. Key Features: A comprehensive introduction to this dynamic area of chemistry, which will equip chemists for the task of understanding and studying the underlying principles behind the functioning of biological macro molecules, macromolecular lipid assemblies and cells. Covers many basic concepts and ideas associated with the study of the interface between chemistry and biology. Includes pedagogical features such as: key examples, glossary of equations, further reading and links to websites. Clearly written and richly illustrated in full colour.
Advances in Organic Synthesis is a book series devoted to the latest advances in synthetic approaches towards challenging structures. It presents comprehensive articles written by eminent authorities on different synthetic approaches to selected target molecules and new methods developed to achieve specific synthetic transformations. Contributions are written by eminent scientists and each volume is edited by an authority in the field. Advances in Organic Synthesis is essential for all organic chemists in the academia and industry who wish to keep abreast of rapid and important developments in the field.
Integrated Drug Discovery Technologies provides a global overview of emerging drug development technologies by presenting and integrating new techniques from the disciplines of chemistry, biology, and computational sciences. It combines integration of contemporary mechanization with strategies in drug delivery. Topics include: functional genomics, microfabrication techniqes, integrated proteomics technologies, high throughput screening, and fluorescence correlation spectroscopy methods.