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In the past decade, since the first edition was published, the study of cereal protein chemistry has grown and changed. New separation techniques have been introduced while the application of achievements of molecular biology and genetic engineering of proteins has progressed dramatically. This new edition includes these advances and updates the chemistry of cereal proteins for all specialists working in theory and practice of cereal grain production and processing.
In the past decade, since the first edition was published, the study of cereal protein chemistry has grown & changed. New separation techniques have been introduced while the application of achievements of molecular biology & genetic engineering of proteins has progressed dramatically. This new edition includes these advances & updates the chemistry of cereal proteins for all specialists working in theory & practice of cereal grain production & processing.
Wheat science has undergone countless new developments since the previous edition was published. Wheat: Chemistry and Technology, Fourth Edition ushers in a new era in our knowledge of this mainstay grain. This new edition is completely revised, providing the latest information on wheat grain development, structure, and composition including vital peer-reviewed information not readily available online. It contains a wealth of new information on the structure and functional properties of gluten (Ch. 6), micronutrients and phytochemicals in wheat grain (Ch. 7), and transgenic manipulation of wheat quality (Ch. 12). With the new developments in molecular biology, genomics, and other emerging technologies, this fully updated book is a treasure trove of the latest information for grain science professionals and food technologists alike. Chapters on the composition of wheat—proteins (Ch. 8), carbohydrates (Ch. 9) lipids (Ch. 10), and enzymes (Ch. 11.), have been completely revised and present new insight into the important building blocks of our knowledge of wheat chemistry and technology. The agronomical importance of the wheat crop and its affect on food industry commerce provide an enhanced understanding of one of the world’s largest food crop. Most chapters are entirely rewritten by new authors to focus on modern developments. This 480-page monograph includes a new large 8.5 x 11 two-column format with color throughout and an easy to read style. Wheat: Chemistry and Technology, Fourth Edition provides a comprehensive background on wheat science and makes the latest information available to grain science professionals at universities, institutes, and industry including milling and baking companies, and anywhere wheat ingredients are used. This book will also be a useful supplementary text for classes teaching cereal technology, cereal science, cereal chemistry, food science, food chemistry, milling, and nutritional properties of cereals. Cereal and food science graduate students will find Chapter 1 – “Wheat: A Unique Grain for the World particularly helpful because it provides a succinct summary of wheat chemistry.
A groundbreaking text that highlights the various sources, applications and advancements concerning proteins from novel and traditional sources Novel Proteins for Food, Pharmaceuticals and Agriculture offers a guide to the various sources, applications, and advancements that exist and are currently being researched concerning proteins from novel and traditional sources. The contributors—noted experts in the field—discuss sustainable protein resources and include illustrative examples of bioactive compounds isolated from several resources that have or could obtain high market value in specific markets. The text also explores a wide range of topics such as functional food formulations and pharmaceutical applications, and how they alter biological activity to provide therapeutic benefits, nutritional values and health protection. The authors also examine the techno-functional applications of proteins and looks at the screening process for identification of bioactive molecules derived from protein sources. In addition, the text provides insight into the market opportunities that exist for novel proteins such as insect, by-product derived, macroalgal and others. The authors also discuss the identification and commercialization of new proteins for various markets. This vital text: Puts the focus on the various sources, applications and advancements concerning proteins from novel and traditional sources Contains a discussion on how processing technologies currently applied to dairy could be applied to novel protein sources such as insect and macroalgal Reviews the sustainability of protein sources and restrictions that exist concerning development Offers ideas for creating an innovative and enterprising economy that is built on recent developments Details the potential to exploit key market opportunities in sports, infant and elderly nutrition and techno-functional protein applications Written for industrial researchers as well as PhD and Post-doctoral researchers, and undergraduate students studying biochemistry, food engineering and biological sciences and those interested in market developments, Novel Proteins for Food, Pharmaceuticals and Agriculture offers an essential guide to the sources, applications and most recent developments of the proteins from both innovative and traditional sources.
This is a completely revised and updated edition of the comprehensive and widely used survey of cereal technology. The first section describes the botany, classification, structure, composition, nutritional importantance and uses of wheat, corn, oats, rye, sorghum, rice and barley, as well as six other grains. The book also details the latest methods of producing, cleaning, and storing these grains. The second section of the book offers current information on the technological and engineering principles of feed milling, flour milling, baking, malting, brewing, manufacturing breakfast cereals, snack food production, wet milling (starch and oil production from grains), rice processing, and other upgrading procedures applied to cereal grains. This section also explains the value and utilization of by-products and examines many rarely discussed processing methods. In addition, the book provides reviews of current knowledge on the dietary importance of cereal proteins, lipids, fibre, vitamins, minerals, and anti-nutrient factors, as well as the effects of processing methods on these materials.
Food proteins are of great interest, not only because of their nutritional importance and their functionality in foods, but also for their detrimental effects. Although proteins from milk, meats (including fish and poultry), eggs, cereals, legumes, and oilseeds have been the traditional sources of protein in the human diet, potentially any proteins from a biological source could serve as a food protein. The primary role of protein in the diet is to provide the building materials for the synthesis of muscle and other tissues, and they play a critical role in many biological processes. They are also responsible for food texture, color, and flavor. Today, food proteins are extracted, modified, and incorporated into processed foods to impart specific functional properties. They can also have adverse effects in the diet: proteins, such as walnuts, pecans, almonds, and cashews, soybean, wheat, milk, egg, crustacean, and fish proteins can be powerful allergens for some people. Applied Food Protein Chemistry is an applied reference which reviews the properties of food proteins and provides in-depth information on important plant and animal proteins consumed around the world. The book is grouped into three sections: (1) overview of food proteins, (2) plant proteins, and (3) animal proteins. Each chapter discusses world production, distribution, utilization, physicochemical properties, and the functional properties of each protein, as well as its food applications. The authors for each of the chapters are carefully selected experts in the field. This book will be a valuable reference tool for those who work on food proteins. It will also be an important text on applied food protein chemistry for upper-level students and graduate students of food science programs.
Sorghum and Millets: Chemistry, Technology and Nutritional Attributes, Second Edition, is a new, fully revised edition of this widely read book published by AACC International. With an internationally recognized editorial team, this new edition covers, in detail, the history, breeding, production, grain chemistry, nutritional quality and handling of sorghum and millets. Chapters focus on biotechnology, grain structure and chemistry, nutritional properties, traditional and modern usage in foods and beverages, and industrial and non-food applications. The book will be of interest to academics researching all aspects of sorghum and millets, from breeding to usage. In addition, it is essential reading for those in the food industry who are tasked with the development of new products using the grains. - Updated version of the go-to title in sorghum and millets with coverage of developments from the last two decades of research - Brings together leading experts from across the field via a world leading editorial team - Published in partnership with the AACCI - advancing the science and technology of cereals and grains
Cereal uses range from human food and beverages to animal feeds and industrial products. It is human food and beverages which are the predominant uses covered in this book, since the nutritional quality of cereals for animal feed is described in other publications on animal nutrition, and industrial products are a relatively minor use of cereals. Cereals are the main components of human diets and are crucial to human survival. Three species, wheat, rice and maize, account for the bulk of human food. Barley is the major raw material for beer production and ranks fourth in world production. Other species such as sorghum are regionally important. This book covers all the major cereal species: wheat, rice, maize, barley, sorghum, millet, oats, rye and triticale. Specific chapters have been devoted to a description of the major end-uses of each of the species and to definition of the qualities required for each of their end uses. The functional and nutritional quality of cereals determines their suitability for specific purposes and may limit the quality of the end product, influencing greatly the commercial value of grain. An under standing of the factors that determine grain quality is thus important in the maintenance of efficient and sustainable agricultural and food production. The biochemical constituents of the grain that determine quality have been described in chapters on proteins, carbohydrates and other components. An understanding of the relationships between grain composition and quality is important in selecting grain for specific uses.
Bread and leavened bakery products have been essential to human nourishment for millennia. Traditionally, bread production has relied on the use of sourdough as a leavening agent and to impart a characteristic quality to baked goods. In recent years, improved understanding of the biodiversity and microbial ecology of sourdough microbiota, the discovery of new species, the improved management and monitoring of its meta-community and the commercialization of innovative products have vastly expanded the potential of sourdough fermentation for making baked goods. For example, raw materials such as cereals, pseudo-cereals, ancient grains, and gluten-free substrates, as well as a large number of baked good varieties (e.g., typical and industrial breads, sweet baked goods, gluten-free products) may benefit from advances in sourdough fermentation. In addition, biotechnological tools and culture properties have been discovered to improve both the shelf life and the sensory and textural qualities of baked goods, as well as their nutritional and health-promoting properties. Now in its second edition, the Handbook on Sourdough Biotechnology remains the only book dedicated completely to sourdough biotechnology with the contribution of the most experienced researchers from the field. It reviews the history of sourdough and the potential of sourdough fermentation in the production of bread and baked goods. A thorough discussion of the various processing steps includes the chemical properties of the raw matter, the taxonomy, diversity, and metabolic properties of starter yeasts and lactic acid bacteria, and the effects of sourdough fermentation on the shelf life and the sensory, textural, nutritional, and health-promoting properties of baked goods.
For the first major update of this topic in 21 years, editors Webster and Wood have gathered an elite group of internationally recognized experts. This new edition addresses all aspects of oat chemistry, processing, nutrition, and plant genetics. It reflects the considerable changes in the science and food uses of oats that have occurred during the last two decades. Each chapter presents an in-depth review of a specific research area complete with an extensive bibliography. The book provides an important summary of oat nutritional research and associated health claims that have been granted in recognition of the nutritional benefits associated with oat consumption. The individual chapters on component chemistry and functionality provide an excellent resource for product developers in their quest to design new, healthy, oat-based food products. The chapters on oat molecular biology and oat breeding coupled with the extensive works on oat nutrition provide direction to researchers interested in developing oats with enhanced nutrition. Oats: Chemistry and Technology, Second Edition, is the only up-to-date review of oat chemistry and technology and will be a valuable resource for food science professionals including nutritionists, cereal chemists, plant biochemists, plant breeders, molecular biologists, grain millers, and product development and research scientists. Improve Your Knowledge About This Super Grain Covers all areas of oat technology - Single source provides in-depth review of all aspects of oat technology.Provides an excellent source of oat nutritional information - Includes details of oat nutritional studies and potential health claims with a special emphasis on ß-glucans.Offers authoritative descriptions of oat composition and functional properties - Provides researchers and food scientists with key chemical and application information.Highlights oat improvement opportunities - Breeding and molecular information provides researchers direction on oat improvement opportunities.Updates our knowledge of oat-processing technology - Provides in-depth discussion of oat milling and oat fractionation.Demystifies oat phenolics - Provides a peer-reviewed, in-depth discussion of oat phenolic chemistry and functional attributes.