Improving and Tailoring Enzymes for Food Quality and Functionality
Published on 27. July 2015
Book
Hardback
266 pages
978-1-78242-285-3 (ISBN)
Description
Improving and Tailoring Enzymes for Food Quality and Functionality provides readers with the latest information on enzymes, a biological processing tool that offers the food industry a unique means to control and tailor specific food properties.
The book explores new techniques in the production, engineering, and application of enzymes, covering sourcing, isolation, and production of enzymes for food applications. In addition, chapters include detailed discussions of enzyme processing, analytical and diagnostic applications of enzymes in the food industry, and enzyme applications in specific food commodities.
The book explores new techniques in the production, engineering, and application of enzymes, covering sourcing, isolation, and production of enzymes for food applications. In addition, chapters include detailed discussions of enzyme processing, analytical and diagnostic applications of enzymes in the food industry, and enzyme applications in specific food commodities.
More details
Series
Language
English
Place of publication
Cambridge
United Kingdom
Publishing group
Elsevier Science & Technology
Target group
Professional and scholarly
Product notice
Laminated cover
Dimensions
Height: 229 mm
Width: 152 mm
Thickness: 16 mm
Weight
527 gr
ISBN-13
978-1-78242-285-3 (9781782422853)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Classification
Other editions
New editions
Rickey Y. Yada | Derek R. Dee
Improving and Tailoring Enzymes for Food Quality and Functionality
Book
03/2024
2nd Edition
Woodhead Publishing
€253.50
Shipment within 15-20 days
Additional editions
E-Book
07/2015
Woodhead Publishing
€215.00
Available for download
Person
Professor Rickey Yada is Dean of The University of British Columbia, Canada, and specializes in the structure-function relationships of food and non-food related enzymes using molecular biology and various physico-chemical techniques, carbohydrate metabolism as it related to process quality as well as various applications of food-related nanoscale science and technology. Prior to his appointment at UBC, he was a Professor in the Department of Food Science, Chair of the Department of Food Science, Assistant Vice President Research, a Canada Research Chair in Food Protein Structure, the Scientific Director of the Food Institute at the University of Guelph and the Vice Chair of the Canadian Institutes of Health Research, Institute of Nutrition, Metabolism and Diabetes. Prof. Yada is the EiC for Trends in Food Science and Technology (Elsevier Food Science journal), and is on the editorial boards for several journals. He is the author of over 200 refereed journal publications and several book chapters.
Content
List of contributors
1: Introduction
1.1 Introduction
2: Factors affecting enzyme activity
Abstract
2.1 Fundamentals of thermodynamics
2.2 Formation of an enzyme-substrate complex
2.3 General principles of chemical kinetics
2.4 Enzymatic catalysis
2.5 Enzyme kinetics
2.6 Inhibition
2.7 Environmental considerations
2.8 An alternative view of enzyme catalysis
Part One: Separation, Preparation and Biosynthesis of Enzyme Sources
3: Traditional enzyme separation and preparation
Abstract
3.1 A brief history of enzymes
3.2 The sources
3.3 Enzyme preparation techniques: crude sample preparation
3.4 Enzyme preparation techniques: purification from crude preparations
3.5 Last words
4: Microbial biosynthesis of enzymes for food applications
Abstract
4.1 Introduction
4.2 Production of microbial enzymes for food applications
4.3 Intrinsic and extrinsic factors influencing the microbial biosynthesis of enzymes
4.4 Applications of microbial enzymes
4.5 Final remarks
Part Two: Enzyme Processing, Packaging, Analysis, and Valorization
5: Current and future uses of enzymes in food processing
Abstract
5.1 Introduction
5.2 Methods of producing enzymes
5.3 Biotechnological methods
5.4 Enzymes in food processing
5.5 Artificial enzymes
5.6 Concluding remarks
6: Enzymes for food waste remediation and valorisation
Abstract
6.1 Introduction
6.2 Food waste: sources and values
6.3 Bioremediation of wastewater
6.4 Waste valorisation
6.5 Perspectives and conclusions
7: Detection of pesticides in foods by enzymatic biosensors
Abstract
7.1 Introduction
7.2 Enzymatic biosensors for signal generation
7.3 Transducers for signal conversion
7.4 Parameters affecting biosensor performance
7.5 Conclusion
8: Enzymes for food-packaging applications
Abstract
8.1 Overview: basic concepts of packaging and shelf life
8.2 Active and intelligent packaging: key concepts
8.3 Carrier systems for enzymes
8.4 Enzyme-enabled active packaging
8.5 Enzyme-enabled intelligent packaging
8.6 Conclusion
Part Three: Applications of Enzymes in Foods
9: Enzymes in breadmaking
Abstract
9.1 Introduction
9.2 Plant-derived enzyme systems
9.3 Microbial and fungal enzymes
9.4 Future trends
9.5 Further information
10: Enzymes in meat and fish
Abstract
10.1 Introduction
10.2 Major classes of endogenous enzymes in muscle foods
10.3 Major enzymatic postmortem changes in muscle foods
10.4 Main roles of enzymes in the quality and safety of meat and fish
10.5 Enzymes involved in restructured meat and fish
10.6 Effects of processing on enzyme activity
11: Enzyme engineering (immobilization) for food applications
Abstract
11.1 Introduction
11.2 Immobilization technologies
11.3 Reactive groups and immobilization carriers
11.4 Applications and scope of enzyme immobilization
11.5 Recent advances and emerging trends in enzyme immobilization
11.6 Conclusions
Index
1: Introduction
1.1 Introduction
2: Factors affecting enzyme activity
Abstract
2.1 Fundamentals of thermodynamics
2.2 Formation of an enzyme-substrate complex
2.3 General principles of chemical kinetics
2.4 Enzymatic catalysis
2.5 Enzyme kinetics
2.6 Inhibition
2.7 Environmental considerations
2.8 An alternative view of enzyme catalysis
Part One: Separation, Preparation and Biosynthesis of Enzyme Sources
3: Traditional enzyme separation and preparation
Abstract
3.1 A brief history of enzymes
3.2 The sources
3.3 Enzyme preparation techniques: crude sample preparation
3.4 Enzyme preparation techniques: purification from crude preparations
3.5 Last words
4: Microbial biosynthesis of enzymes for food applications
Abstract
4.1 Introduction
4.2 Production of microbial enzymes for food applications
4.3 Intrinsic and extrinsic factors influencing the microbial biosynthesis of enzymes
4.4 Applications of microbial enzymes
4.5 Final remarks
Part Two: Enzyme Processing, Packaging, Analysis, and Valorization
5: Current and future uses of enzymes in food processing
Abstract
5.1 Introduction
5.2 Methods of producing enzymes
5.3 Biotechnological methods
5.4 Enzymes in food processing
5.5 Artificial enzymes
5.6 Concluding remarks
6: Enzymes for food waste remediation and valorisation
Abstract
6.1 Introduction
6.2 Food waste: sources and values
6.3 Bioremediation of wastewater
6.4 Waste valorisation
6.5 Perspectives and conclusions
7: Detection of pesticides in foods by enzymatic biosensors
Abstract
7.1 Introduction
7.2 Enzymatic biosensors for signal generation
7.3 Transducers for signal conversion
7.4 Parameters affecting biosensor performance
7.5 Conclusion
8: Enzymes for food-packaging applications
Abstract
8.1 Overview: basic concepts of packaging and shelf life
8.2 Active and intelligent packaging: key concepts
8.3 Carrier systems for enzymes
8.4 Enzyme-enabled active packaging
8.5 Enzyme-enabled intelligent packaging
8.6 Conclusion
Part Three: Applications of Enzymes in Foods
9: Enzymes in breadmaking
Abstract
9.1 Introduction
9.2 Plant-derived enzyme systems
9.3 Microbial and fungal enzymes
9.4 Future trends
9.5 Further information
10: Enzymes in meat and fish
Abstract
10.1 Introduction
10.2 Major classes of endogenous enzymes in muscle foods
10.3 Major enzymatic postmortem changes in muscle foods
10.4 Main roles of enzymes in the quality and safety of meat and fish
10.5 Enzymes involved in restructured meat and fish
10.6 Effects of processing on enzyme activity
11: Enzyme engineering (immobilization) for food applications
Abstract
11.1 Introduction
11.2 Immobilization technologies
11.3 Reactive groups and immobilization carriers
11.4 Applications and scope of enzyme immobilization
11.5 Recent advances and emerging trends in enzyme immobilization
11.6 Conclusions
Index