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​This text presents the technological and physiological properties of pectin in an educational approach that encompasses all of the essential information a researcher needs to fully understand their function and use in foods. Utilizing basic information on pectin as well as recent technological advances, this book is designed to be the primary resource for individuals seeking out an up to date reference work covering all the necessary informational and functional aspects of pectin. Pectin: technological and physiological properties is the first book to fully focus on the introductory concepts on pectin. Individual chapters cover localization and function, the structural aspects of pectin, pectinases, isolation and characterization and recovery from agricultural wastes. Important current advances such as emulsions, films, digestion, metabolism and bioactive properties are also focused on. With its combination of vital basic information and technological advances, this book presents full and up to date coverage on this pectin and its many forms and uses in foods.
A fundamental understanding of polymers has evolved in recent years concurrent with advances in analytical instrumentation. The theories and methodologies developed for the galacturonan biopolymers (collectively called pectins) have seldom been discoursed comprehensively in the context of the new knowledge. This text explains the scientific and technical basis of many of the practices followed in processing and preparing foods fabricated with or containing pectin. The material is presented in a very readable fashion for those with limited technical training. - Structural analysis - Commercial extractions methods - Pectin formulations and tropical fruit analysis - Molecular mechanisms of gelatin - Enzymology - Polymer comformation techniques - Analytical methods of polymer analysis
Pectins are biopolymers with multiple applications because of their structural diversity and complexity. Although pectins from different sources have some common structural characteristics, many aspects of the common structure change according to the species and the physiological stage of the plant. Moreover, the application of pectin is determined by its chemical features, including galacturonic acid content, methoxyl content, degree of esterification and acetyl value. The most traditional raw materials used for the extraction of pectins are either apple pomace or citrus peels that are supplied as by-products of juice production. Both materials contain significant amounts of pectic substances, but with different chemical characteristics that make them suitable for specific applications. Considering that pectin is widely used as a functional ingredient, many researchers have been testing the use of other materials and alternative methods of extraction for industrial exploitation. This book discusses the chemical properties of pectin. It addition, it includes the uses and health benefits that pectin may have.
Food biopolymers: Structural, functional and nutraceutical properties provides valuable coverage of all major food biopolymers from plant, animal and marine sources. The text focuses on the structural characteristics of biopolymers including starch, non-starch polysaccharides, proteins and fats. A full section is dedicated to the nutraceutical potential and applications of these polymers. Further sections provide comprehensive overviews of the development of functional food products and important data on biopolymer behavior and nutraceutical potential during processing. Researchers hoping to gain a basic understanding of the techno-functional, nutraceutical potential and applications of food biopolymers will find a singular source with this text. The first section of this work focuses on the the structure, functions, bioactivity and applications of starches. The next chapters cover non-starch polysaccharides. Further sections are dedicated to proteins, lipids and oils. A detailed overview is provided for each, followed by application procedures, specifics on individual types, proteins and enzymes, and nutraceutical properties. This work can be used as a singular source for all relevant information on food biopolymers and their structural and functional properties, including their potential to increase food quality, improve shelf life, and reduce pollution and waste in the food industry.
The second edition of this successful book highlights thewidespread use of enzymes in food processing improvement andinnovation, explaining how they bring advantages. The properties ofdifferent enzymes are linked to the physical and biochemical eventsthat they influence in food materials and products, while these inturn are related to the key organoleptic, sensory and shelf lifequalities of foods. Fully updated to reflect advances made in the field over recentyears, new chapters in the second edition look at the use ofenzymes in the reduction of acrylamide, in fish processing and innon-bread cereal applications such as flour confectionery. Geneticmodification of source organisms (GMO) has been used to improveyields of purer enzymes for some time now but the newer technologyof protein engineering (PE) of enzymes has the potential to producepurer, more targeted products without unwanted side activities, anda chapter is also included on this important new topic. Authorshave been selected not only for their practical working knowledgeof enzymes but also for their infectious enthusiasm for thesubject. The book is aimed at food scientists and technologists,ingredients suppliers, geneticists, analytical chemists and qualityassurance personnel.
Plant cell walls have been relevant for human survival throughout evolution, from cell walls recognised as an essential ingredient in human and livestock nutrition, to their use in energy generation, construction, tool making, paper and clothing. This plant-generated material is at the centre of a myriad of human activities, and it represents the world's most abundant natural resource for fuel, fibre, food and fodder. Plant Cell Walls: Research Milestones and Conceptual Insights provides an overview of the key discoveries of hundreds of years of plant cell wall research. With chapter contributions from prominent scientists in the cell wall field, this book provides a comprehensive treatment of plant cell wall research, accompanied by a historical overview to illustrate how concepts have evolved, and how progress has been enabled by emerging technological advances. Plant Cell Walls: Research Milestones and Conceptual Insights elaborates on the translation of research to application in biotechnology and agriculture, and highlights its relevance for climate change mitigation and adaptation. It will be a key resource for plant cell biologists, biochemists and geneticists.
Sweet Potato Processing Technology systematically introduces processing technologies of sweet potato starch and its series products including sweet potato protein, dietary fibers, pectin, granules, anthocyanins and chlorogenic acids. The book provides a detailed and comprehensive account of physicochemical and functional properties of sweet potato products, the nutritional components extracted from sweet potato, as well as their utilization in food, medicine and cosmetic fields. This book can provide the scientific basis and technical support for virtuous circle promotion and structure upgrade of sweet potato processing industry. This book will be a valuable reference for undergraduate and graduate students, as well as specialists and enterprise research staff in the field of food technology. - Introduces processing technologies for sweet potato starch and related products - Covers utilization of nutritional components extracted from sweet potato in various products - Provides the scientific basis and technical support for virtuous circle promotion and structure upgrade of the sweet potato processing industry
With higher food quality in increasing demand by consumers, there is continuous pressure on food engineers to meet market needs. One of the critical challenges is to use modern technology and knowledge to develop new processes for improving food quality. Given the global food marketplace, there is also a greater need for a means of objectively classifying and differentiating foods. Physical properties, determined by measurable physical parameters, profoundly affect food quality and can be used for these determinations. Physical Properties of Foods: Novel Measurement Techniques and Applications presents a wide range of these practical, low-cost techniques to characterize physical properties without destroying the food. The book presents principles and measurement techniques, highlighting the latest methods and their ability to replace the traditional costly, time-consuming ones. It also covers the application of the measurements to classify and differentiate various foods, including fruits, vegetables, cereals, and dairy and meat products. The text gathers up-to-date procedures for determining the most important physical parameters that characterize food quality, many of which have not previously been sufficiently described in the literature, and delivers them in one useful volume. It includes methods based on a variety of technologies such as electronics, spectroscopy, mechanics, and acoustic response—which can be applied to a wide range of foods. With a focus on practical application of novel techniques, chapters specify method details, the type of food to which it has been applied, the accuracy, its ability to replace traditional techniques, as well as whether it can be installed on line. Written by internationally renowned engineers and scientists, this reference offers crucial information in an easily accessible format for engineers, researchers, and those in the food industry—all who will benefit from the cutting-edge practices described for measuring parameters that affect food quality and food characterization. The text is also an excellent resource for students and university researchers.
This book covers various method of extending the postharvest life of fruits and vegetables viz, storage, packaging, canning, chemical & low temperatures preservation, irradiation, fermentation & waste management.