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Advances in Carbohydrate Chemistry and Biochemistry
Sialic Acids, Volume 76, the most recent release in the Advances in Carbohydrate Chemistry and Biochemistry series, is the second volume of a two-volume set devoted to the sialic acids. Vol. 76, devoted to the biological and biomedical aspects of sialic acids, includes chapters on "Sialic Acids in Neurology," "Sialic Acids in Nonenveloped Virus Infections," and "The Biology of Gangliosides," all written by leading experts in their fields. - 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
The fields of glycochemistry and glycoscience are rich and varied and where much can be learned from Nature. As Nature is not always able to produce carbohydrates in quantities useful for not only in research but also as therapeutic agents, new ways need to be found to optimize the yield. This book presents an overview of the latest developments in the field of carbohydrates, ranging from de-novo approaches via cyclodextrin chemistry to the synthesis of such highly complex glycoconjugates as glycosphingolipids and GPI anchors. The main emphasis remains on the synthetic aspects making the book an excellent source of information for those already involved in carbohydrate chemistry, as well as for those organic chemists who are beginners in this field. Equally of interest to synthetic chemists, as well as medicinal chemists and biochemists.
Since carbohydrate oligomers are still a challenge in synthetic chemistry, this book on recent developments fulfils a great need. Covering the chemistry necessary to synthesize exact copies of these structures, top authors from all around the world comprehensively deal with synthesis from anomeric halides, from miscellaneous glycosyl donors, and by indirect and special methods, as well as 1-oxygen-and 1-sulfur-substituted derivatives. They demonstrate the best approach for the stereoselective formation of the intermonomeric bond, making this essential reading for every biochemist working in biosynthesis, the exploration of biopathways and vaccines.
Carbohydrate Chemistry is an invaluable volume demonstrating the interdisciplinary nature of modern carbohydrate research and containing analysed, evaluated and distilled information on the latest research in the area.
Carbohydrate chemistry provides access to carbohydrate-based natural products and synthetic molecules as useful biologically active structures relevant to many health care and disease-related biological processes. Recent Trends in Carbohydrate Chemistry: Synthesis, Structure, and Function of Carbohydrates covers green and sustainable reactions, organometallic carbohydrate chemistry, synthesis of glycomimetics, multicomponent reactions, and chemical transformations leading to molecular diversity based on carbohydrates. These include inhibitors of glycogen phosphorylase, which are relevant in controlling type 2 diabetes and sugar sulfates. Polysaccharides, which are commonly modified chemically, are also examined with contributions covering polysaccharide synthesis and modification of polysaccharides to obtain new structures and properties. Recent Trends in Carbohydrate Chemistry: Synthesis, Structure, and Function of Carbohydrates is ideal for researchers working as synthetic organic chemists, and for those interested in biomolecular chemistry, green chemistry, organometallic chemistry, and material chemistry in academia as well as in industry
A unique overview of the most important protecting group strategies in carbohydrate chemistry Protecting Groups: Strategies and Applications in Carbohydrate Chemistry provides a detailed account of key strategies and methodologies for the protection of carbohydrates. Divided into two parts, the first focuses on groups that are used best to protect a specific position on a carbohydrate. In the second part, specific carbohydrate residues or compounds are discussed in the context of a specific protecting group strategy used to reach the desired regioisomer. This important book: -Features chapters on protecting groups at the primary and secondary positions of carbohydrates -Describes protecting group strategies towards sialic acid derivatives, glycofuranoses, sulfated glycosaminoglycans, and cyclodextrins -Provides information on automated glycan assembly -Includes a chapter on the industrial scale synthesis of heparin analogs Written by a team of leaders in the field, Protecting Groups: Strategies and Applications in Carbohydrate Chemistry is an indispensable guide for academics and industrial researchers interested in carbohydrate and natural product synthesis, pharmaceutical chemistry, and biochemistry.
Advances in Triazole Chemistry reviews the ever-widening scope of triazole chemistry. Triazole is an exceptional structural motif with a range of applications across scientific disciplines, including materials science, organocatalysis, agrochemicals, and medicinal chemistry. These many applications of different classes of triazoles have promoted the development of a range of synthetic strategies over the past few years, which are presented here along with recent and ecofriendly methods for the synthesis of all types of triazoles. The book also reviews the recent notable applications in chemical ligation, peptidomimetics, carbohydrate chemistry, nanotechnology, and polymer and materials science. This comprehensive resource is ideal for researchers using triazoles in various disciplines, as well as chemists working in the pharmaceutical, polymer, and agrochemical industries. - Includes coverage of the role triazoles play in DNA synthesis - Features comprehensive information on 1,2,3-triazoles and 1,2,4-triazoles and their subclasses, synthesis, and applications - Serves as an ideal reference for researchers and chemists interested in using triazole chemistry for functionalization, modification, and development of target products
In many fields, most notably medicine and molecular biology, the understanding of the structure and function of carbohydrates and glycoconjugates remains vital. This new volume contains critical reviews covering the latest findings in both chemical and biological sciences, and demonstrates the interdisciplinary nature of modern carbohydrate research. This book addresses diverse applications that continue to be major challenges for carbohydrate chemists. The book starts with a review of Gérard Descotes contribution to the field as a pioneer of French modern carbohydrate chemistry. Green nanocatalytic oxidation of free sugars, photosensitive glycomacrocycles, the application of disaccharides in supramolecular chemistry, recent advances in the radiation chemistry of polysaccharides, and the cell wall pectic rhamnogalacturonan II, an enigma in plant glycobiology are just some of the diverse topics presented in Volume 45. This set of reports will certainly benefit any researcher who wishes to learn about the latest developments in the carbohydrate field.
The Carbohydrates: Chemistry and Biochemistry, Second Edition, Volume IA deals with the chemical and biochemical aspects of carbohydrates such as monosaccharides, sugars, esters, halogen derivatives, phosphates, glycosides, glycosans, alditols, and cyclitols. Topics range from carbohydrate chemistry and stereochemistry to the synthesis of naturally occurring monosaccharides, mutarotations and actions of acids and bases, conformations of sugars, and reactivity of saccharide hydroxyl groups toward esterification. This book consists of 15 chapters that explore the effects of ionizing radiations and autoxidation reactions, physical methods and methods of separation, nucleosides and antibiotics, and the biosynthesis of sugars and complex saccharides. The rapidly growing fields of glycolipids and glycoproteins are also discussed. In addition, the reader is introduced to halogen derivatives such as glycosyl halides and nonanomeric halides, along with the hydrolysis and synthesis of phosphates and other inorganic esters, determination of the structure of glycosides, and the physical and chemical properties of acyclic derivatives. The two final chapters cover the official nomenclature rules for carbohydrates and for enzymes having carbohydrates as substrates. This book will be of interest to chemists and biochemists.