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Fundamentals of food biotechnology / Byong H. Lee.

By: Material type: TextTextPublisher: Chichester, West Sussex, UK : Wiley Blackwell, 2015Edition: Second editionDescription: 1 online resourceContent type:
  • text
Media type:
  • computer
Carrier type:
  • online resource
ISBN:
  • 9781118384916
  • 1118384911
  • 9781118384930
  • 1118384938
  • 9781118384947
  • 1118384946
Subject(s): Genre/Form: Additional physical formats: Print version:: Fundamentals of food biotechnology.DDC classification:
  • 664 23
LOC classification:
  • TP248.65.F66
Online resources:
Contents:
Cover; Title Page; Copyright; Contents; Preface; What Is Biotechnology?; What Is Food Biotechnology?; Part I New Trends and Tools of Food Biotechnology; Chapter 1 Fundamentals and New Aspects; 1.1 Biotechnological applications of animals, plants, and microbes; 1.2 Cellular organization and membrane structure; 1.3 Bacterial growth and fermentation tools; 1.3.1 Classification and reproduction of biotechnologically important bacterial system; 1.3.2 Bacterial growth; 1.3.3 Environmental factors affecting bacterial growth; 1.4 Fungal growth and fermentation tools.
1.5 Classical strain improvement and tools1.5.1 Natural selection and mutation; 1.5.2 Recombination; Summary; 1.6 Systems/synthetic biology and metabolic engineering; Summary; 1.7 Bioengineering and scale-up process; 1.7.1 Microbial and process engineering factors affecting performance and economics; 1.7.2 Fermentor and bioreactor systems; 1.7.3 Mass transfer concept; 1.7.4 Heat transfer concept; 1.7.5 Mass and heat transfer practice; 1.7.6 Scale-up and scale-down of fermentations; 1.7.7 Scale-up challenges; Summary; 1.8 Molecular thermodynamics for biotechnology.
1.8.1 Protein folding and stabilitySummary; 1.8.2 Downstream processes on crystallization and chromatography; Summary; 1.9 Protein and enzyme engineering; Summary; 1.10 Genomics, proteomics, and bioinformatics; Summary; 1.11 Biosensors and nanobiotechnology; 1.11.1 Biosensor; 1.11.2 Nanobiotechnology and nanobiosensor; Summary; 1.12 Quorum sensing and quenching; Summary; 1.13 Micro- and nano-encapsulations; 1.13.1 Microencapsulation; 1.13.2 Nanoencapsulation; Summary; Bibliography; Chapter 2 Concepts and Tools for Recombinant DNA Technology.
2.1 Concepts of macromolecules: function and synthesis2.1.1 DNA replication; 2.1.2 Roles of RNA; 2.1.3 Detailed aspects of protein synthesis; 2.2 Concepts of recombinant DNA technology; 2.2.1 Restriction endonucleases; 2.2.2 Plasmid vectors; 2.2.3 Purpose of gene cloning; 2.3 DNA sequencing; 2.4 Polymerase chain reaction (PCR); 2.5 Manipulation techniques of DNA; 2.5.1 Isolation and purification of nucleic acids; 2.5.2 Agarose gel electrophoresis; 2.5.3 Blotting and hybridization; 2.6 Gene cloning and production of recombinant proteins.
Summary: Food biotechnology is the application of modern biotechnological techniques to the manufacture and processing of food, for example through fermentation of food (which is the oldest biotechnological process) and food additives, as well as plant and animal cell cultures. New developments in fermentation and enzyme technological processes, molecular thermodynamics, genetic engineering, protein engineering, metabolic engineering, bioengineering, and processes involving monoclonal antibodies, nanobiotechnology and quorum sensing have introduced exciting new dimensions to food biotechnology, a burg.
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Includes bibliographical references and index.

Print version record and CIP data provided by publisher.

880-01 Cover; Title Page; Copyright; Contents; Preface; What Is Biotechnology?; What Is Food Biotechnology?; Part I New Trends and Tools of Food Biotechnology; Chapter 1 Fundamentals and New Aspects; 1.1 Biotechnological applications of animals, plants, and microbes; 1.2 Cellular organization and membrane structure; 1.3 Bacterial growth and fermentation tools; 1.3.1 Classification and reproduction of biotechnologically important bacterial system; 1.3.2 Bacterial growth; 1.3.3 Environmental factors affecting bacterial growth; 1.4 Fungal growth and fermentation tools.

1.5 Classical strain improvement and tools1.5.1 Natural selection and mutation; 1.5.2 Recombination; Summary; 1.6 Systems/synthetic biology and metabolic engineering; Summary; 1.7 Bioengineering and scale-up process; 1.7.1 Microbial and process engineering factors affecting performance and economics; 1.7.2 Fermentor and bioreactor systems; 1.7.3 Mass transfer concept; 1.7.4 Heat transfer concept; 1.7.5 Mass and heat transfer practice; 1.7.6 Scale-up and scale-down of fermentations; 1.7.7 Scale-up challenges; Summary; 1.8 Molecular thermodynamics for biotechnology.

1.8.1 Protein folding and stabilitySummary; 1.8.2 Downstream processes on crystallization and chromatography; Summary; 1.9 Protein and enzyme engineering; Summary; 1.10 Genomics, proteomics, and bioinformatics; Summary; 1.11 Biosensors and nanobiotechnology; 1.11.1 Biosensor; 1.11.2 Nanobiotechnology and nanobiosensor; Summary; 1.12 Quorum sensing and quenching; Summary; 1.13 Micro- and nano-encapsulations; 1.13.1 Microencapsulation; 1.13.2 Nanoencapsulation; Summary; Bibliography; Chapter 2 Concepts and Tools for Recombinant DNA Technology.

2.1 Concepts of macromolecules: function and synthesis2.1.1 DNA replication; 2.1.2 Roles of RNA; 2.1.3 Detailed aspects of protein synthesis; 2.2 Concepts of recombinant DNA technology; 2.2.1 Restriction endonucleases; 2.2.2 Plasmid vectors; 2.2.3 Purpose of gene cloning; 2.3 DNA sequencing; 2.4 Polymerase chain reaction (PCR); 2.5 Manipulation techniques of DNA; 2.5.1 Isolation and purification of nucleic acids; 2.5.2 Agarose gel electrophoresis; 2.5.3 Blotting and hybridization; 2.6 Gene cloning and production of recombinant proteins.

Food biotechnology is the application of modern biotechnological techniques to the manufacture and processing of food, for example through fermentation of food (which is the oldest biotechnological process) and food additives, as well as plant and animal cell cultures. New developments in fermentation and enzyme technological processes, molecular thermodynamics, genetic engineering, protein engineering, metabolic engineering, bioengineering, and processes involving monoclonal antibodies, nanobiotechnology and quorum sensing have introduced exciting new dimensions to food biotechnology, a burg.

Biotechnology & Bioinformatics