Faba Bean: Chemistry, Properties and Functionality


Book Description

Faba bean is a species of flowering plant in the Fabaceae family and the fourth most widely grown winter season legume after pea, chickpea, and lentil. The nutritional profile of faba beans is excellent as they contain an adequate quantity of proteins, carbohydrates, vitamins, minerals and various polyphenols. Faba bean seeds are a rich source of carbohydrates and starch. Because of higher amylose content than cereal starches, legume starches provide distinctive properties such as high gelation temperature, fast retro-gradation, high resistant starch and gel elasticity to food systems. Faba bean has been a beneficial source of protein in food products worldwide for centuries and continues to be highly produced and consumed to this day. Faba bean Chemistry, Properties and Functionality studies the global status and production of faba bean food products plus their agronomy, nutritional value and potential medicinal applications. The agrarian conditions are studied in full, as are postharvest practices. The chemical makeup of faba bean is a major focus, especially in relation to nutrient composition and quality. Chapters in this text focus on anti-nutritional attributes, antioxidants and bioactive compounds plus the effects of processing, storage and cooking on their nutritional value. Starch and its modification, structure, properties and industrial applications are covered, as is protein, genetic improvement and functional product formulation. The text also looks at the future perspectives of this valuable plant and food source. To date, no reference works have exclusively covered faba bean. This book provides a much-needed single source reference point for researchers looking to gain knowledge on this important plant and its use in high protein, health-beneficial food products.




Seed Proteins


Book Description

Seeds provide more than half of the world's intake of dietary protein and energy and thus are of immense economic, cultural and nutritional importance. Proteins can account for up to 40% of the dry weight of various types of seeds, thereby making a large contribution to the nutritional quality and processing properties of seeds. It is, therefore, not surprising that seed proteins were among the first plant components to be systematically studied, some 250 years ago, and have been a major focus of research over the past 100 years. The properties and behaviour of seed proteins pervade modem life in numerous ways. For example, legume and cereal proteins are used'in the production of a wide range of meat-free foods; the process of bread-making is dep~ndent on the physical chemical properties of wheat seed proteins; and in developed, as well as developing, countries, nutritional deficiencies among vegetarian diets are avoided through balancing legume and cereal seeds as sources of dietary proteins. Understanding seed proteins, in order to improve their composition and properties and to increase their concentrations, will thus continue to be an important research objective for the future. The present volume represents the culmination of a long-discussed plan of the editors, to bring together the best international authorities in order to compile a definitive monograph on biological, biochemical, molecular and genetic aspects of seed proteins.




Dry Beans and Pulses


Book Description

The common beans and pulses are diverse food resources of high nutritional value (protein, energy, fiber and vitamins and minerals) with broad social acceptance. These legume crops demonstrate global adaptability, genotypic and phenotypic diversity, and multiple means of preparation and dietary use. Beans and pulses are produced in regions as diverse as Latin America, Africa, Asia, and North America, and on a scale similar to some other crops, such as wheat, corn, rice and soybeans. Numerous factors influence utilization, including bean type and cultivar selection, cropping environment and systems, storage conditions and handling infrastructure, processing and final product preparation. Nutrient content and bio-availability are dramatically influenced by these conditions. In recent years, beans and pulses have been cited for imparting specific positive health potentiating responses, such as hypocholesteremic response, mitigation of diabetes and colonic cancer, and weight control. Enhanced dry bean utilization focused on improved dietary health is an opportunity within both subsistent and developed populations. This book provides a contemporary source of information that brings together current knowledge and practices in the value chain of beans/pulses production, processing, and nutrition. It provides in-depth coverage of a wide variety of pertinent topics including: breeding, postharvest technologies, composition, processing technologies, food safety, quality, nutrition, and significance in human health. An experienced team of over 25 contributors from North America, Asia, and Africa has written 15 chapters, divided into three sections: Overview, production and postharvest technologies of beans and pulses Composition, value-added processing and quality Culinology, nutrition, and significance in human health Contributors come from a field of diverse disciplines, including crop sciences, food science and technology, food biochemistry, food engineering, nutritional sciences, and culinology. Dry Beans and Pulses Production, Processing and Nutrition is an essential resource for scientists, processors and nutritionists, whatever the work setting.




Flour and Breads and their Fortification in Health and Disease Prevention


Book Description

Bread and flour-based foods are an important part of the diet for millions of people worldwide. Their complex nature provides energy, protein, minerals and many other macro- and micronutrients. However, consideration must be taken of three major aspects related to flour and bread. The first is that not all cultures consume bread made from wheat flour. There are literally dozens of flour types, each with their distinctive heritage, cultural roles and nutritive contents. Second, not all flours are used to make leavened bread in the traditional (i.e., Western) loaf form. There are many different ways that flours are used in the production of staple foods. Third, flour and breads provide a suitable means for fortification: either to add components that are removed in the milling and purification process or to add components that will increase palatability or promote health and reduce disease per se. Flour and Breads and their Fortification in Health and Disease Prevention provides a single-volume reference to the healthful benefits of a variety of flours and flour products, and guides the reader in identifying options and opportunities for improving health through flour and fortified flour products. - Examines those flour and bread related agents that affect metabolism and other health-related conditions - Explores the impact of compositional differences between flours, including differences based on country of origin and processing technique - Includes methods for analysis of flours and bread-related compounds in other foods




Grain and Seed Proteins Functionality


Book Description

Climate resilience and growing population are the two main global challenges that encourage the development of an affordable and sustainable source of vegetable protein to ensure future food security. Advanced scientific programs and agro-food developments should be proprietarily on-demand to face different stresses in order to maintain yield and quality of seed production. In this regard, legume crops are key sustainable alternatives for healthier diets while contributing to appropriate natural resource management. Taken together, the 11 chapters in this book represent a generous addition to the progress in our understanding of climate-resilient legumes, hoping to contribute to the improvement of global food security in the future.




Functionality of Plant Proteins


Book Description

Functionality of Food Proteins: Mechanisms, Modifications, Methods of Assessment and Applications provides researchers and users of plant-based proteins with the latest developments on their functionality at the molecular and ingredient level, and in food applications. The book discusses the biological, chemical and physical principles behind the techno-functional and nutritional properties of proteins, existing methods of functionality assessment, and protein modification for functional enhancement. With market demand for protein ingredients, several lesser known sources are being utilized to develop new protein ingredients and products, with some intended to replace, partially or wholly, traditional proteins such as egg, milk, meat, soy and vital gluten. Depending on the source and processing into ingredients, the ability of these proteins to satisfy techno-functional and nutritional requirements in the final food product may differ. Science-based knowledge is needed in the area of protein functionality for making decisions along the value chain, from production on the land to processing and formulation. - Provides fundamentals of the properties that contribute to functionality (nutritional and techno-functional properties) of proteins in food systems and their relationship to protein molecular structure - Describes fundamentals of the assessment of functional properties of protein with existing definitions and food systems - Explores fundamentals of modification strategies employed to alter nutritional and techno-functional properties to enhance value of proteins in food - Includes examples of plant protein-based products (in food systems) in which the role of nutritional and techno-functional properties is described




Pulses


Book Description

World health authorities recommend people maximize their protein intake through vegetable sources (such as pulses), and reduce protein intake from animal sources. Increasing vegetable protein intake has been shown to be positively associated with the reduction of both cardiovascular-disease-related mortality and all-cause mortality. Pulse consumption has been shown to improve satiety and metabolism of glucose and lipids, due to their high protein and fiber content, which makes their consumption ideal for preventing and managing obesity. In recent years, there has been increasing demand for pulses and pulse-based products in developed countries. Several large-scale collaborative research projects on pulse products have been initiated by government agencies. Similarly, established multinational food companies have developed pulse product units. Pulses: Processing and Product Development fulfills the need for a comprehensive book on processing and products of pulses. The book addresses a specific pulse with each chapter to meet a wide range of audiences from undergraduate students to consumers.




Non-Conventional Starch Sources


Book Description

Non-Conventional Starch Sources: Properties, Functionality, and Applications presents the use of non-conventional, unutilized, and underutilized sources to isolate, characterize and functionalize starches. Specific attention is paid to the sources' application in foods as well as their incorporation into packaging through films and coatings. Broken into seven sections, this book addresses sources from fruit seeds, cereals and millets, pseudo-cereals, seeds, roots and tubers, rhizome and legumes. Food scientists, technologists and students and researchers studying related fields will benefit from this important reference. - Presents chapters with a set of specific sections, including an introduction, chemical derivatization of natural products, current applications, pharmacological activities of semisynthetic derivatives, and references - Covers fruit seeds such as avocado, litchi, mango, jackfruit, loquat, longan and tamarind - Addresses adlay starch, sorghum starch, finger millet starch, pros-millet starch, fox millet starch, and kodo millet starch as well as that from amaranth, quinoa and buckwheat - Explores starches from annatto, lotus and bamboo seeds as well as starches from roots and tubers, including yams and kudzu - Considers starch from ginger and turmeric as well as that from legumes, including faba and kidney beans, common beans, chickpeas and peas







Novel Plant Protein Processing


Book Description

Proteins serve as an important nutritional as well as structural component of foods. Not only do they provide an array of amino acids necessary for maintaining human health but also act as thickening, stabilizing, emulsifying, foaming, gelling, and binding agents. The ability of a protein to possess and demonstrate such unique functional properties depends largely on its inherent structure, configuration, and how they interact with other food constituents, like, polysaccharides, lipids, and polyphenolic compounds. Proteins from animal sources have superior functionality, higher digestibility, and lower anti-nutrient components than plant proteins. However, consumer preferences are evolving worldwide for ethically and sustainably sourced, clean, cruelty-free, vegan or vegetarian plant-based food products. Unlike proteins from animal sources, plant proteins are more versatile, religiously, and culturally acceptable among vegetarian and vegan consumers and associated with lower food processing waste, water, and soil requirement. Thus, the processing and utilization of plant proteins have gained worldwide attention and as such numerous scientific studies are focusing on enhancing the utilization of plant proteins in food and pharmaceutical products through various processing and modification techniques to improve their techno-functional properties, bioactivity, bioavailability, and digestibility. Novel Plant Protein Processing: Developing the Foods of the Future presents a roadmap for plant protein science, and technology which will focus on plant protein ingredient development, plant protein modification, and the creation of plant protein-based novel foods. Key Features: · Includes complete information about novel plant protein processing for use as future foods · Presents a roadmap to upscale the meat analog technological processes · Discusses marketing limitations of plant based proteins and future opportunities This book highlights the important scientific, technological advancements that are being deployed in the future foods using plant proteins, concerns, opportunities, and challenges, and, as an alternative to maintaining a healthy and sustainable modern food supply. It covers the most recent research related to the plant protein-based future foods which include their extraction, isolation, modification, characterization, development, and final applications. It also covers the formulation and challenges: emphasis on the modification for a specific use, legal aspects, business perspective, and future challenges. This book is useful for researchers, readers, scientists, and industrial people to find information easily.




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