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Proteomics in Food Science: From Farm to Fork is a solid reference providing concepts and practical applications of proteomics for those in various disciplines of food science. The book covers a range of methods for elucidating the identity or composition of specific proteins in foods or cells related to food science, from spoilage organisms, to edible components. A variety of analytical platforms are described, ranging from the usage of simple electrophoresis, to more sophisticated mass spectrometry and bio-informatic platforms. The book is designed for food scientists, technologists, food industry workers, microbiologists, and public health workers, and can also be a valuable reference book for students.
Food proteomics is one of the most dynamic and fast-developing areas in food science. The goal of this book is to be a reference guide on the principles and the current and future potential applications of proteomics in food science and technology. More specifically, the book will discuss recent developments and the expected trends of the near future in food proteomics. The book will be divided into two parts. The first part (7 chapters) will focus on the basic principles for proteomics, e.g., sample preparation, such as extraction and separation techniques, analytical instrumentation currently in use, and available databases for peptide and protein identification. The second part of the book (26 chapters) will focus on applications in foods. It will deal with quality issues related to post-mortem processes in animal foods and quality traits for all foods in general, as well as the identification of bioactive peptides and proteins, which are very important from the nutritional point of view. Furthermore, consumers are now extremely susceptible to food safety issues, and proteomics can provide reassurance with different safety aspects, such as food authenticity, detection of animal species in the food, and identification of food allergens. All of these issues will be covered in this book. It is also worth noting that both editors are internationally recognized experts in the field of food science, and both have edited numerous food science books and handbooks.
In the last decades, proteomics has rapidly advanced with novel developments and cutting-edge approaches, resulting in reliable platforms widely used for several purposes. Among others, food science represents one of the most dynamic and growing research areas in which proteomics is extensively applied. Food proteomics is commonly used to characterize raw materials, determine the food composition and evaluate the relationship between the food protein content and the nutritional properties. Moreover, quality control during food production can be monitored with proteomics, along with food traceability, quality and safety, in particular by detecting the presence of allergens or contaminants. Considering the complexity of food matrices and the elevated variability of food-associated proteins and peptides, it is hard to choose a single proteomic strategy. Often, a combination of multiple techniques achieves the better results, with proteomic approaches well adapted to each problem. This book covers several aspects of proteomics in food science, highlighting a range of methods and applications for analyzing the food composition, the presence of specific allergens or microorganisms, and for evaluating food identity and quality. To this aim, the book is organized into three Sections. In Section 1 are reviewed technical aspects at the basis of proteomics, focusing on concepts and challenges of proteomic analyses, sample preparation and techniques commonly used such as one- and two-dimensional electrophoresis, chromatography and mass spectrometry. In Section 2 are reported proteomic applications in food science, emphasizing on food authentication, for example producing a fingerprint typical of each food or food component. Moreover, this Section contains some interesting applications such as the identification of milk components in ancient food and the use of proteomics to evaluate ex vivo protein modifications and their effects on foods.Finally, the Section 3 focuses on proteomics and food allergies, a particularly dynamic field also called food allergenomics. Here are reported some particular proteomic applications to assess the physicochemical properties of food allergens.
Presents the most updated information on the main methodologies and technological platforms involved in foodomics.
Proteomics in Food Science: From Farm to Fork is a solid reference providing concepts and practical applications of proteomics for those in various disciplines of food science. The book covers a range of methods for elucidating the identity or composition of specific proteins in foods or cells related to food science, from spoilage organisms, to edible components. A variety of analytical platforms are described, ranging from the usage of simple electrophoresis, to more sophisticated mass spectrometry and bio-informatic platforms. The book is designed for food scientists, technologists, food industry workers, microbiologists, and public health workers, and can also be a valuable reference book for students. Includes a variety of analytical platforms, ranging from simple electrophoresis to more sophisticated mass spectrometry and bio-informatic platforms Presents analytical techniques for each food domain, including beverages, meats, dairy and eggs, fruit, fish/seafood, cereals, nuts, and grains that range from sample collection, proportion, and storage analysis Provides applications of proteomics in hot topics area of food safety, including food spoilage, pathogenic organisms, and allergens Covers major pathogens of concern e.g., Salmonella and applications to animal husbandry
Food Proteomics: Technological Advances, Current Applications and Future Perspectives addresses many of the food proteomic issues in the industry today. Food proteomics continues to be an emerging field, becoming increasingly important in product innovation, food safety, food quality and health. The book is divided into sections describing the role of proteomics in the field of food science, conceptual background methodological aspects, and bioinformatic tools employed in the field. The book describes proteomic studies collected from the most relevant animal and vegetables species in food production and discusses important food challenges from a proteomic point-of-view. This is an essential and practical reference that provides analytical tools to help introduce technical innovations in the food industry with the latest scientific information useful and accessible to new researchers in the field as well as advanced. Includes precise proteomic information on a specific category Provides proteomic studies of the most common vegetable and animal species Presents proteomic methodologies, including bioinformatics for effective analysis in food science Discusses food challenges such as allergens, authentication and food safety
This volume illustrates advanced methods on proteomic procedures in food science and nutrition. Chapters offer a comprehensive view of food proteomics applications, detailing modern instruments and methods of proteomics, impact of protein composition on our current understanding of availability of and micronutrients, and principles and practices of hurdle and green food proteomios. Written in the format of the Methods and Protocols in Food Science (MeFS) series, the chapters include an introduction to the respective topic, list necessary materials and reagents, detail well-established and validated methods for readily reproducible laboratory protocols, and contain notes on how to avoid or solve typical problems. Authoritative and cutting-edge, Proteomics Applied to Foods aims to provide enables students and researchers in food science and nutrition the latest tools to advance their research and open up new areas of food and nutrition investigation.
Consumers have the right to know what is in the food they are eating, and accordingly, a number of global food regulations require that the provenance of the food can be guaranteed from farm to fork. Many different instrumental techniques have been proposed for food authentication. Although traditional methods are still being used, new approaches such as genomics, proteomics, and metabolomics are helping to complement existing methodologies for verifying the claims made about certain food products. During the last decade, proteomics (the largescale analysis of proteins in a particular biological system at a particular time) has been applied to different research areas within food technology. Since proteins can be used as markers for many properties of a food, even indicating processes to which the food has been subjected, they can provide further evidence of the foods labeling claim. Proteomics for Food Authentication, a volume in the Food Analysis and Properties Series, is a comprehensive and updated overview of the applications, drawbacks, advantages, and challenges of proteomics for food authentication. Features: Provides a comprehensive and critical overview of the application of proteomics in food Helps food scientists determine the authenticity of several food products Provides applied techniques for both laboratory and industrial environments Describes workflows, technologies, and tools that are being assessed in proteomics-related studies Workflows, technologies, and tools that are being assessed in proteomics-related studies are described, followed by a review of the specific applications regarding food authenticity and, now and then, food quality. The book will provide a comprehensive and critical overview of the application of proteomics approaches to determine the authenticity of several food products updating the performances and current limitations of the applied techniques in both laboratory and industrial environments. As such it is well suited to food scientist, chemical engineers, food engineers, research labs, universities, governments, related food industries. Also available in the Food Analysis and Properties Series: Food Aroma Evolution: During Food Processing, Cooking, and Aging, edited by Matteo Bordiga and Leo M.L. Nollet (ISBN: 9781138338241) Ambient Mass Spectroscopy Techniques in Food and the Environment, edited by Leo M.L. Nollet and Basil K. Munjanja (ISBN: 9781138505568) Hyperspectral Imaging Analysis and Applications for Food Quality, edited by N.C. Basantia, Leo M.L. Nollet, and Mohammed Kamruzzaman (ISBN: 9781138630796) For a complete list of books in this series, please visit our website at: www.crcpress.com/Food-Analysis--Properties/book-series/CRCFOODANPRO
This book will cover several topics to elaborate how proteomics may enhance agricultural productivity. These include crop and food proteomics, farm animal proteomics, aquaculture, microorganisms and insect proteomics. It will also cover several technical advances, which may address the current need for comprehensive proteome analysis.An emerging field of the proteomics aim is to integrate knowledge from basic sciences and to translate it into agricultural applications to solve issues related to economic values of farm animals, crops, food security, health, and energy sustainability. Given the wealth of information generated and to some extent applied in agriculture, there is the need for more efficient and broader channels to freely disseminate the information to the scientific community.
It is the first edition of SCIENCE AND EDUCATION DEVELOPMENT INSTITUTE for food world. It gives me great pleasure in bringing out book entitled “ADVANCES IN FOOD SCIENCE AND NUTRITION” for the student of Food Technology, Food Nutrition and all those aspirants who desire to brighten their career in the field of food technology. Our goal is to provide readers with introductory foundation to budding food professionals. I was also well aware that the book is widely used as a basic reference outside the academic environment. I have attempted to take utmost care to cover the particular topic with latest research updates. In this concern I had compiled all the newer areas of food science and nutrition with the older existing knowledge. I also hope to provide insight into the scope of food science for people considering food science as a career. The book chapters introduces and complex interrelationship among food functional properties, processing, distribution and storage. Every chapter has been extensively appropriate and justified with suitable diagrams and tables. Multicolor picture have been also added to enhance the content value and to give the students an idea of what he will be dealing in reality, and to bridge the gap between theory and practice. I am indebted to Mr. Abulude, F.O. President/CEO, Science and Education Development Institute (SEDInst), AKURE, ONDO STATE, NIGERIA for giving an opportunity for this book project, also Mr. Adeyemi Adewale for editing the book. Relevant information on food sector has also been given. Moreover at the end of text Appendices have been given through which the readers can be benefitted. We are confident that this edition will again receive your overwhelming response. Chapter 1 It contains an introduction to general aspects which covers the chemical properties for food, nutritional properties of proteins and functional properties of foods. It covers some factors that affect the functionality of protein. The paper discusses the importance of these functions when preparing food formulations. Chapter 2 This chapter is mainly focused on pasting properties of starch. It includes determining its applications in food processing and other industries. Details of the RVA as tool for obtaining information related to apparent viscosity. Pasting properties have been used to predict the end use quality of various products. Chapter 3 Chapter includes the details of various types of phenolic compounds, extraction, significance and antioxidative action of phenolic compounds. This topic based on natural phenolic compounds with antioxidant activity such as grape seed extract, rosemary extract, tea, catechin and tannins etc. The main purpose of using an antioxidant as a food additive is to maintain the quality of that food and to extend its shelf life rather than improving the quality of the food. Chapter 4 The chapter includes basic information on edible film-coating formulation, Specific requirements, properties, methods of application to food surfaces. Topic will also give information about the advantages and disadvantages of edible film. Chapter 5 The chapter has more focus on carrot production, cultivation, harvesting and post harvest management. It gives information about nutritional significance and changes occur during storage. Chapter 6 The chapter gives more information about the application of integrated nutrigenomics approach in nutritional sciences. It also emphasized for accelerated implementation of mechanistic knowledge in food design. It gives an application and modification approaches of proteomic to analyze the complexity of food protein modification in the area of general food science and quality assurance. Chapter 7 The topic includes the details of coping difficult conditions in the Sahel by mobile pastoralist communities in the Lake Chad area. It gives the basic recommendations for Food Insecurity in Africa and particularly in Sahel area. Chapter 8 The topic concludes spirulina share his remarkable qualities, ease of culture and safety can be an effective and lasting solution to the problems of malnutrition. It gives the details of the pilot project for the development of industry of “Dihe”. Chapter 9 The chapter includes raw materials, process, packaging, PFA specification, types, and health benefits of Pickles. It gives an idea to overcome protein based malnutrition by providing nutrient security by means of pickle. Dr. YASHI SRIVASTAVA Editor- In- Chief Queen’s College of Food Technology & Research Foundation Aurangabad, India-431001