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Sucrose: A Prospering and Sustainable Organic Raw Material,By S. Peters, T. Rose, and M. Moser; Sucrose-Utilizing Transglucosidases for Biocatalysis, By I. André, G. Potocki-Véronèse, S. Morel, P. Monsan, and M. Remaud-Siméon; Difructose Dianhydrides DFAs) and DFA-Enriched Products as Functional Foods, By C. Ortiz Mellet and J. M. García Fernández; Development of Agriculture Left-Overs: Fine Organic Chemicals from Wheat Hemicellulose-Derived Pentoses, By F. Martel, B. Estrine, R. Plantier-Royon, N. Hoffmann, and C. Portella; Cellulose and Derivatives from Wood and Fibers as Renewable Sources of Raw-Materials, By J.A. Figueiredo, M.I. Ismael, C.M.S. Anjo, and A.P. Duarte; Olive Pomace, a Source for Valuable Arabinan-Rich Pectic Polysaccharides,By M. A. Coimbra, S. M. Cardoso, and J. A. Lopes-da-Silva; Oligomannuronates from Seaweeds as Renewable Sources for the Development of Green Surfactants,By T. Benvegnu and J.-F. Sassi; From Natural Polysaccharides to Materials for Catalysis, Adsorption, and Remediation, By F. Quignard, F. Di Renzo, and E. Guibal
Sucrose: A Prospering and Sustainable Organic Raw Material,By S. Peters, T. Rose, and M. Moser; Sucrose-Utilizing Transglucosidases for Biocatalysis, By I. André, G. Potocki-Véronèse, S. Morel, P. Monsan, and M. Remaud-Siméon; Difructose Dianhydrides DFAs) and DFA-Enriched Products as Functional Foods, By C. Ortiz Mellet and J. M. García Fernández; Development of Agriculture Left-Overs: Fine Organic Chemicals from Wheat Hemicellulose-Derived Pentoses, By F. Martel, B. Estrine, R. Plantier-Royon, N. Hoffmann, and C. Portella; Cellulose and Derivatives from Wood and Fibers as Renewable Sources of Raw-Materials, By J.A. Figueiredo, M.I. Ismael, C.M.S. Anjo, and A.P. Duarte; Olive Pomace, a Source for Valuable Arabinan-Rich Pectic Polysaccharides,By M. A. Coimbra, S. M. Cardoso, and J. A. Lopes-da-Silva; Oligomannuronates from Seaweeds as Renewable Sources for the Development of Green Surfactants,By T. Benvegnu and J.-F. Sassi; From Natural Polysaccharides to Materials for Catalysis, Adsorption, and Remediation, By F. Quignard, F. Di Renzo, and E. Guibal
This series presents critical reviews of the state of modern chemical research, as well as discussion of future trends, in concise reports on chemistry, each contributed by a world renowned expert.
Volume 40 of Carbohydrate Chemistry: Chemical and Biological Approaches demonstrates the importance of the glycosciences for innovation and societal progress. Carbohydrates are molecules with essential roles in biology and also serve as renewable resources for the generation of new chemicals and materials. Honouring Professor André Lubineau’s memory, this volume resembles a special collection of contributions in the fields of green and low-carbon chemistry, innovative synthetic methodology and design of carbohydrate architectures for medicinal and biological chemistry. Green methodology is illustrated by accounts on the industrial development of water-promoted reactions (C-glycosylation, cycloadditions) and the design of green processes and synthons towards sugar-based surfactants and materials. The especially challenging transformations at the anomeric center are presented in several contributions on glycosylation methodologies using iron or gold catalysis, electrochemical or enzymatic (thio)glycosylation, exo-glycal chemistry and bioengineering of carbohydrate synthases. Then, synthesis and structure of multivalent and supramolecular oligosaccharide architectures are discussed and related to their physical properties and application potential, e.g. for deepening our understanding of biological processes, such as enzymatic pathways or bacterial adhesion, and design of antibacterial, antifungal and innovative anticancer vaccines or drugs.
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 - Demonstrates the importance of carbohydrate chemistry as green and sustainable chemistry - Details monosaccharide syntheses and transformations toward biologically active small molecular entities - Provides the most recent findings on polysaccharide synthesis and bioapplications
This book focuses on the latest research and new techniques in the field of functional carbohydrate-related enzymes. Carbohydrates are a key form of energy for most organisms. The “good” carbohydrates generally refer to functional carbohydrates. In addition to the low or moderate energy-supplying function, they have more nutritious value than traditional carbohydrates and some of them also have health-promoting effects especially prebiotic actions. Several enzymatic methods for the synthesis of such carbohydrates have been discovered and developed in the recent decades, providing a new range of application areas for these novel enzymes. This book addresses the classification of functional carbohydrate-related enzymes and the overall development in food enzyme in Chapter 1. Chapters 2-5 describe the isomerases or epimerases involved in the production of rare sugars, such as D-allulose, D-mannose, D-tagatose, and D-allose. While the studies of the enzymes related to fructo-oligosaccharides (FOS) and galacto-oligosaccharides (GOS) dominate the scientific literature in the field of enzymatic production of health-functional oligosaccharides, some enzymes also show promise for the emerging oligosaccharide production, which are introduced in Chapters 6-8. Chapters 9-12 summarize the new enzymatic technologies and applications in fructan- and glycan-related industries. The last Chapter gives an overall prospective on the trends of enzymatic functional carbohydrate production. This book is a valuable resource for researchers and graduate students in the fields of biotechnology, enzyme engineering, and carbohydrate production, as well as the health industry.
The “greening” of industry processes, i.e. making them more sustainable, is a popular and often lucrative trend which has emerged over recent years. The 4th volume of Green Chemical Processing considers sustainable chemistry in the context of education and explores didactic approached. The American Chemical Society’s 12 Principles of Green Chemistry are woven throughout this text as well as the series to which this book belongs.
Computational approaches offer researchers unique insights into the structure, characteristics, and properties of macromolecules. However, with applications across a broad range of areas, various methods have been developed for exploring macromolecules in in silico; therefore, it can be difficult for researchers to select the most appropriate method for their specific needs. Covering both biopolymers and synthetic polymers, In-Silico Approaches to Macromolecular Chemistry familiarizes readers with the theoretical tools and software appropriate for such studies. In addition to providing essential background knowledge on both computational tools and macromolecules, the book presents in-depth studies of in silico macromolecule chemistry, discusses and compares these with experimental studies, and highlights the future potential for such approaches. Written by specialists in their respective fields, this book helps students, researchers, and industry professionals gain a clear overview of the field, and furnishes them with the knowledge needed to understand and select the most appropriate tools for conducting and analyzing computational studies. - Highlights in silico studies of both bio and synthetic macromolecules in one book - Supports both learners and experts though a combination of detailed guidance and perspectives on the future potential for in silico approaches to macromolecules - Familiarizes readers with theoretical tools and software helping them select the best approach for their specific needs
Nanomaterials from Renewable Resources for Emerging Applications details developments in nanomaterials produced from renewable materials and their usage in food and packaging, energy conservation, and environmental applications. • Introduces fundamentals of nanomaterials from renewable resources, including processing and characterization. • Covers nanomaterials for applications in food and packaging, including nanocellulose, lignin- and chitosan-based nanomaterials, and nanostarch. • Discusses applications in energy conservation, such as supercapacitors, electrolyte membranes, energy storage devices, and insulation. • Describes environmental uses such as water remediation and purification and oil spill clean-ups. • Highlights advantages and challenges in commercialization of green nanoparticle-based materials. Equally beneficial to researchers and professionals, this book is aimed at readers across materials science and engineering, chemical engineering, chemistry, and related fields interested in sustainable engineering.
Dipolar Recoupling, by Niels Chr. Nielsen, Lasse A. Strassø and Anders B. Nielsen.- Solid-State NMR Techniques for the Structural Determination of Amyloid Fibrils, by Jerry C. C. Chan.- Solid-State 19F-NMR of Peptides in Native Membranes, by Katja Koch, Sergii Afonin, Marco Ieronimo, Marina Berditsch and Anne S. Ulrich.- Probing Quadrupolar Nuclei by Solid-State NMR Spectroscopy: Recent Advances, by Christian Fernandez and Marek Pruski.- Solid State NMR of Porous Materials Zeolites and Related Materials, by Hubert Koller and Mark Weiß.- Solid-State NMR of Inorganic Semiconductors, by James P. Yesinowski.-