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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.
A comprehensive summary of novel approaches to the stereoselective construction of glycosidic linkages, covering modern glycosylation methods and their use and application in natural product synthesis and drug discovery. Clearly divided into five sections, the first describes recent advances in classical methodologies in carbohydrate chemistry, while the second goes on to deal with newer chemistries developed to control selectivity in glycosylation reactions. Section three is devoted to selective glycosylation reactions that rely on the use of catalytic promoters. Section four describes modern approaches for controlling regioselectivity in carbohydrate synthesis. The final section focuses on new developments in the construction of "unusual" sugars and is rounded off by a presentation of modern procedures for the construction of glycosylated natural products. By providing the latest advances in glycosylation as well as information on mechanistic aspects of the reaction, this is an invaluable reference for both specialists and beginners in this booming interdisciplinary field that includes carbohydrate chemistry, organic synthesis, catalysis, and biochemistry.
The understanding of the structure and function of carbohydrates and glycoconjugates remains vital in many fields, notably in medicine and molecular biology. This new volume of Carbohydrate Chemistry 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 oxidative deamination reactions and synthesis of N-acetylneuraminic acid derivatives, ketoheptoses, lipid A and analogs, the fascinating world of complex glycans in the interplay with Siglecs, carbohydrates and regenerative medicine, chemistry for the stereocontrol of glycosylation, and the impact of gold chemistry in carbohydrate research are some of the topics presented in this volume 44, which will certainly benefit any researcher who wishes to learn about the latest developments in the carbohydrate field.
To exploit the full potential of this diverse compound class for the development of novel active substances, this handbook presents the latest knowledge on carbohydrate chemistry and biochemistry. While it is unique in covering the entire field, particular emphasis is placed on carbohydrates with pharmaceutical potential. Topics include the following: > Chemical Synthesis of Carbohydrates > Carbohydrate Biosynthesis and Metabolism > Carbohydrate Analysis > Cellular Functions of Carbohydrates > Development of Carbohydrate-based Drugs A premier resource for carbohydrate chemists and drug developers, this comprehensive two-volume work contains contributions by more than 50 of the world's leading carbohydrate chemists.
The second volume in the series Carbohydrate Chemistry: Proven Synthetic Methods, Volume 2 offers a collection of synthetic procedures valuable to the practice of synthetic carbohydrate chemistry. The series takes an important and unique approach in that all described procedures have been independently verified as reliable and reproducible. With ed
The concept of a circular economy relies on waste reduction, valorization, and recycling. Global trends for “green” synthesis of chemicals have positioned the field of enzyme technology and biocatalysis (multi-enzymes and whole-cells) as an alternative for the synthesis of more social- and environmentally-responsible bio-based chemicals. Recent advances in synthetic biology, computational tools, and metabolic engineering have supported the discovery of new enzymes and the rational design of whole-cell biocatalysts. In this book, we highlight these current advances in the field of biocatalysis, with special emphasis on novel enzymes and whole-cell biocatalysts for applications in several industrial biotechnological applications.
Carbohydrates are the most abound macromolecules on earth, and they serve different functions within the cell. The purpose of the book is to provide a glimpse into various aspects of carbohydrates by presenting the research of some of the scientists who are engaged in the development of new tools and ideas used to reveal carbohydrate metabolism in health and diseases and as material to mimic the carbohydrate surfaces that take part in molecular recognition, often from very different perspectives. This book covers broad topics in carbohydrate including quality carbohydrates on the prevention and therapy of noncommunicable diseases, lactate, and glycolysis, as biomass in biofuel production, targets for cancer treatment and as biomaterial.
The long awaited Handbook for all synthetic chemists working on coupling reactions, compiling all major catalyst components in use in the area. Consists of a compilation of articles taken from the EROS database, with the inclusion of about 20 newly commissioned catalysts/pre-catalysts/ligands that have made an impact in this area of synthetic organic chemistry. Includes catalyst systems used in Heck, Kumada-Tamao-Corriu, Suzuki-Miyaura, Hiyama-Hatanaka, Negishi, Migita-Kosugi-Stille, Buchwald-Hartwig, and Tsuji-Trost coupling reactions.
Long gone are the days when synthetic publications included parallel preparative experiments to document reproducibility of the experimental protocols and when journals required such documentation. The new Proven Synthetic Methods Series addresses concerns to chemists regarding irreproducibility of synthetic protocols, lack of characterization data
Armed–Disarmed Effects in Carbohydrate Chemistry: History, Synthetic and Mechanistic Studies, by Bert Fraser-Reid and J. Cristóbal López * A Survey of Ley’s Reactivity Tuning in Oligosaccharide Synthesis, by Ana M. Gómez * “Active–Latent” Thioglycosyl Donors and Acceptors in Oligosaccharide Syntheses, by Tze Chieh Shiao and René Roy * Effect of Electron-Withdrawing Protecting Groups at Remote Positions of Donors on Glycosylation Stereochemistry, by Kwan Soo Kim and Dae-Hwan Suk * Influence of Protecting Groups on the Reactivity and Selectivity of Glycosylation: Chemistry of the 4,6-O-Benzylidene Protected Mannopyranosyl Donors and Related Species, by Sylvain Aubry, Kaname Sasaki, Indrajeet Sharma and David Crich * Superarmed and Superdisarmed Building Blocks in Expeditious Oligosaccharide Synthesis, by Hemali D. Premathilake and Alexei V. Demchenko * Programmable One-Pot Glycosylation, by Chung -Yi Wu and Chi -Huey Wong * Uronic Acids in Oligosaccharide and Glycoconjugate Synthesis, by Jeroen D. C. Codée, Alphert E. Christina, Marthe T. C. Walvoort, Herman S. Overkleeft and Gijsbert A. van der Marel