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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.
Methods in Carbohydrate Chemistry, Volume VIII: General Methods describes the principles and mode of operation of general methods for the analysis and structural characterization of carbohydrates. This book is organized into two sections encompassing 50 chapters. The first section highlights the methods on automated chromatographic techniques; enzymic and other methods for structural analysis of polysaccharides. This section also explores the application of 13C NMR spectroscopy to carbohydrate chemistry. The second section describes the synthesis of deoxy and branched-chain sugars, 1,2-transglycosides, de-N- and de-O-sulfation, and de-N-acetylation of polysaccharides. This book is an invaluable source for organic and analytical chemists, as well as for carbohydrate scientists and researchers.
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 for new compounds, and inflated yields reported in many chemical communications—trends that have recently become a serious problem. Volume One of Carbohydrate Chemistry: Proven Synthetic Methods includes more detailed versions of protocols previously published for the synthesis of oligosaccharides, C-glycosyl compounds, sugar nucleotides, click chemistry, thioglycosides, and thioimidates, among others. The compilation of protocols covers both common and less frequently used synthetic methods as well as examples of syntheses of selected carbohydrate intermediates with general utility. The major focus of this book is devoted to the proper practice of state-of-the-art preparative procedures, including: References to the starting materials used, reaction setup, work-up and isolation of products, followed by identification and proof of purity of the final material General information regarding convenience of operation and comments on safety issues Versatile and practically useful methods that have not received deserved, long-lasting recognition or that are difficult to access from their primary sources Copies of 1D NMR spectra of compounds prepared, showing purity of materials readers can expect Exploring carbohydrate chemistry from the academic points of view, the Carbohydrate Chemistry: Proven Synthetic Methods Series provides a compendium of preparatively useful procedures checked by chemists from independent research groups.
A growing awareness of the relationship between diet and health has led to an increasing demand for food products that support health beyond simply providing basic nutrition. Digestive health is the largest segment of the burgeoning functional food market worldwide. Incorporation of bioactive oligosaccharides into foods can yield health benefits in the gastrointestinal tract and other parts of the body that are linked via the immune system. Because oligosaccharides can be added to a wide variety of foodstuffs, there is much interest within the food industry in incorporating these functional ingredients into healthy food products. Moreover, other areas such as pharmaceuticals, bioenergy and environmental science can exploit the physicochemical and physiological properties of bioactive oligosaccharides too. There is therefore a considerable demand for a concentrated source of information on the development and characterization of new oligosaccharides with novel and/or improved bioactivities. Food Oligosaccharides: Production, Analysis and Bioactivityis a comprehensive reference on the naturally occurring and synthesised oligosaccharides, which will enable food professionals to select and use these components in their products. It is divided into three sections: (i) Production and bioactivity of oligosaccharides, (ii) Analysis and (iii) Prebiotics in Food Formulation. The book addresses classical and advanced techniques to structurally characterize and quantitatively analyse food bioactive oligosaccharides. It also looks at practical issues faced by food industry professionals seeking to incorporate prebiotic oligosaccharides into food products, including the effects of processing on prebiotic bioavailability. This book is essential reading for food researchers and professionals, nutritionists and product developers working in the food industry, and students of Food Science with an interest in functional foods.
Methods for Analysis of Carbohydrate Metabolism in Photosynthetic Organisms: Plants, Green Algae and Cyanobacteria examines both general and detailed aspects of carbohydrate metabolism in photosynthetic organisms, along with the four main oligosaccharides and each enzymatic reaction that gives birth to them. Chapters include information on how biological active protein is extracted for different cells, determination of enzymatic activity, separation of proteins by different available methods, and descriptions of analytical methods for the determination of various types of carbohydrates in photosynthetic organisms. The book contains useful protocols for researchers working on the determination of carbohydrate metabolism. The book provides foundational content as well as step-by-step guidance on how to design and conduct an experiment, including what other methodologies could be used if advanced instruments are not readily available. - Includes a variety of analytical methods and how to apply the methods using examples from specific case studies - Discusses technical information on how to characterize plant carbohydrates and sugar nucleosides - Contains easy-to-follow protocols with detailed explanations for self-guidance - Provides foundational content as well as step-by-step guidance on how to design and conduct an experiment
Carbohydrate Chemistry for Food Scientists, Third Edition, is a complete update of the critically acclaimed authoritative carbohydrate reference for food scientists. The new edition is fully revised, expanded and redesigned as an easy-to-read resource for students and professionals who need to understand this specialized area. The new edition provides practical information on the specific uses of carbohydrates, the functionalities delivered by specific carbohydrates, and the process for choosing carbohydrate ingredients for specific product applications. Readers will learn basic and specific applications of food carbohydrate organic and physical chemistry through clearly explained presentations of mono-, oligo-, and polysaccharides and their chemistry.This new edition includes expanded sections on Maillard browning reaction, dietary fiber, fat mimetics, and polyols, in addition to discussions of physical properties, imparted functionalities, and actual applications. Carbohydrate Chemistry for Food Scientists serves as an invaluable resource on the chemistry of food carbohydrates for advanced undergraduate and graduate students, and a concise, user-friendly, applied reference book for food science professionals. - Identifies structures and chemistry of all food carbohydrates – monosaccharides, oligosaccharides and polysaccharides - Covers the behavior and functionality of carbohydrates within foods - Extensive coverage of the structures, modifications, and properties of starches and individual hydrocolloids
Unique in its broad range of coverage, Food Carbohydrates: Chemistry, Physical Properties and Applications is a comprehensive, single-source reference on the science of food carbohydrates. This text goes beyond explaining the basics of food carbohydrates by emphasizing principles and techniques and their practical application in quality control, pr
Not since "Sugar Chemistry" by Shallenberger and Birch (1975) has a text clearly presented and applied basic carbohydrate chemistry to the quality attributes and functional properties of foods. Now in Food Carbohydrate Chemistry, author Wrolstad emphasizes the application of carbohydrate chemistry to understanding the chemistry, physical and functional properties of food carbohydrates. Structure and nomenclature of sugars and sugar derivatives are covered, focusing on those derivatives that exist naturally in foods or are used as food additives. Chemical reactions emphasize those that have an impact on food quality and occur under processing and storage conditions. Coverage includes: how chemical and physical properties of sugars and polysaccharides affect the functional properties of foods; taste properties and non-enzymic browning reactions; the nutritional roles of carbohydrates from a food chemist's perspective; basic principles, advantages, and limitations of selected carbohydrate analytical methods. An appendix includes descriptions of proven laboratory exercises and demonstrations. Applications are emphasized, and anecdotal examples and case studies are presented. Laboratory units, homework exercises, and lecture demonstrations are included in the appendix. In addition to a complete list of cited references, a listing of key references is included with brief annotations describing their important features. Students and professionals alike will benefit from this latest addition to the IFT Press book series. In Food Carbohydrate Chemistry, upper undergraduate and graduate students will find a clear explanation of how basic principles of carbohydrate chemistry can account for and predict functional properties such as sweetness, browning potential, and solubility properties. Professionals working in product development and technical sales will value Food Carbohydrate Chemistry as a needed resource to help them understand the functionality of carbohydrate ingredients. And persons in research and quality assurance will rely upon Food Carbohydrate Chemistry for understanding the principles of carbohydrate analytical methods and the physical and chemical properties of sugars and polysaccharides.