Table of Contents

• Related titles
• List of contributors
• Woodhead Publishing Series in Food Science, Technology and Nutrition
• Part One. Fermented foods and health
  • 1. Probiotic fermented foods and health promotion
    • 1.1. Introduction
    • 1.2. Probiotic fermented foods and health promotion
    • 1.3. Health benefits deriving from the consumption of probiotics
    • 1.4. Gastrointestinal health
    • 1.5. Immune health
    • 1.6. Metabolic health
    • 1.7. Summary
    • 1.8. Future trends
    • 1.9. Sources of further information and advice
  • 2. Exopolysaccharides from fermented dairy products and health promotion
    • 2.1. Introduction
    • 2.2. Exopolysaccharides (EPSs) from fermented dairy products
    • 2.3. Interaction with the human intestinal microbiome
    • 2.4. Interaction with the immune system
    • 2.5. Interaction with enteric pathogens and toxins
    • 2.6. Diverse interactions and potential health benefits
    • 2.7. Conclusions
  • 3. Bioactive peptides from fermented foods and health promotion
    • 3.1. Introduction
    • 3.2. Release of bioactive peptides during microbial fermentation
    • 3.3. Bioactive peptides in fermented dairy and soy products
    • 3.4. Bioactive peptides in health promotion
    • 3.5. Conclusions and future trends
  • 4. Conjugated linoleic acid production in fermented foods
    • 4.1. Introduction
    • 4.2. Basic knowledge of conjugated linoleic acid (CLA)
    • 4.3. CLA content of unprocessed food ingredients
    • 4.4. Factors influencing the CLA content of raw materials, and the effect of animal diet on CLA content of milk and meat
    • 4.5. CLA content of fermented food products
    • 4.6. Health effects of CLA
    • 4.7. Future trends
  • 5. Effect of fermentation on the phytochemical contents and antioxidant properties of plant foods
    • 5.1. Introduction
    • 5.2. Effect of fermentation on phytochemical profiles of plant foods and the bioavailability of nutrients
    • 5.3. Effect of fermentation on antioxidant properties of plant foods
    • 5.4. Health-promoting effects of fermented plant foods: a case of phytochemical and antioxidant property changes
    • 5.5. Conclusions
  • 6. Traditional cereal fermented foods as sources of functional microorganisms
    • 6.1. Introduction
    • 6.2. Food fermentation processes
    • 6.3. Antimicrobial proteins isolated from boza-related lactic acid bacteria
    • 6.4. Fermented cereal-based food from Africa and Latin America
    • 6.5. Starter cultures and cereal-based fermented food
    • 6.6. Cereal-based probiotic foods
• Part Two. Fermentation microbiology
  • 7. Advanced methods for the identification, enumeration, and characterization of microorganisms in fermented foods
    • 7.1. The fermented food microbial ecosystem
    • 7.2. Culture-dependent methods
    • 7.3. Culture-independent methods: diversity in microbial communities
    • 7.4. Culture-independent methods: metabolic activity in microbial communities
    • 7.5. Recent insights: pyrosequencing
    • 7.6. Conclusions
  • 8. Systems biology and metabolic engineering of lactic acid bacteria for improved fermented foods
    • 8.1. Introduction
    • 8.2. Metabolic engineering in industrial lactic acid bacteria (LAB)
    • 8.3. Systems biology and metabolic engineering in LAB
    • 8.4. Conclusions
    • 8.5. Sources of further information and advice
  • 9. Designing wine yeast for the future
    • 9.1. Introduction
    • 9.2. Accidental beginnings and ancient wisdom
    • 9.3. Turning hindsight into foresight
    • 9.4. The ancient art of winemaking meets frontier yeast science
    • 9.5. Engineering yeast to make better wine
    • 9.6. Future trends
  • 10. Modern approaches for isolation, selection, and improvement of bacterial strains for fermentation applications
    • 10.1. Introduction
    • 10.2. Screening of strain collections
    • 10.3. Classical strain improvement
    • 10.4. Future trends
    • 10.5. Sources of further information and advice
  • 11. Advances in starter culture technology: focus on drying processes
    • 11.1. Introduction
    • 11.2. Protective agents
    • 11.3. Starter culture fermentation process
    • 11.4. Freeze drying for the production of dried starter cultures
    • 11.5. Spray drying for the production of dried starter cultures
    • 11.6. Vacuum drying for the production of dried starter cultures
    • 11.7. Product characteristics and storage stability
    • 11.8. Conclusion
• Part Three. Quality and safety of fermented foods
  • 12. Controlling the formation of biogenic amines in fermented foods
    • 12.1. Introduction
    • 12.2. Molecular determinants of biogenic amine formation
    • 12.3. Environmental factors involved in the production of biogenic amines
    • 12.4. Techniques for the detection of biogenic amine-producing bacteria
    • 12.5. Techniques for the detection of biogenic amines
    • 12.6. Future trends
    • 12.7. Legislation concerning biogenic amine content in food
    • 12.8. Sources of further information and advice
  • 13. Biopreservation effects in fermented foods
    • 13.1. Preservation and biopreservation
    • 13.2. Biopreservative effect of lactic and acetic acids
    • 13.3. Biopreservative effect of phenyllactic acid
    • 13.4. Biopreservative effect of diacetyl
    • 13.5. Biopreservative effect of cyclic dipeptides (2,5-diketopiperazines)
    • 13.6. Biopreservative effect of bacteriocins
    • 13.7. Biopreservative effect of other compounds
    • 13.8. Conclusions
  • 14. Lactic acid bacteria as antifungal agents
    • 14.1. Introduction
    • 14.2. Natural antifungal compounds produced by lactic acid bacteria
    • 14.3. Factors affecting production of antifungal compounds by lactic acid bacteria
    • 14.4. Potential applications of lactic acid bacteria as antifungal compounds
    • 14.5. Lactic acid bacteria and mycotoxins
• Part Four. Particular products, and approaches towards quality improvement and fermentation control
  • 15. Quality improvement and fermentation control in meat products
    • 15.1. Introduction
    • 15.2. Types of fermented meats
    • 15.3. Principles of manufacture of fermented meats
    • 15.4. Microbiological and chemical changes during meat fermentation
    • 15.5. Starter cultures
    • 15.6. Microbiological safety
    • 15.7. Recent and future trends
    • 15.8. Sources of further information and advice
  • 16. Quality improvement and fermentation control in fish products
    • 16.1. Introduction
    • 16.2. Salted and fermented fish products
    • 16.3. Narezushi
    • 16.4. Functionality of lactic-acid fermented fish foods
  • 17. Quality improvement and fermentation control in dough fermentations
    • 17.1. Introduction
    • 17.2. Advances in understanding of microbiota and physiology
    • 17.3. Physiology and its impact on bread quality
    • 17.4. Developments in use of starter cultures
    • 17.5. Quality and safety issues
    • 17.6. Health benefits
    • 17.7. Future trends
  • 18. Quality, safety, biofunctionality and fermentation control in soya
    • 18.1. Introduction
    • 18.2. Fermented soya products
    • 18.3. Quality and food safety aspects
    • 18.4. Biofunctionality and health aspects
    • 18.5. Future trends and research needs
    • 18.6. Sources of further information and advice
  • 19. The microbial dynamics of wine fermentation
    • 19.1. Introduction
    • 19.2. Overview of the winemaking process: from vineyard to bottle
    • 19.3. Pre-fermentation microbiota
    • 19.4. Fermentation microbiota
    • 19.5. Post-fermentation microbiota
    • 19.6. Methods of diversity assessment
    • 19.7. Factors impacting the presence and persistence of microbes
    • 19.8. Dynamics of yeast during the primary fermentation phase
    • 19.9. Advances in understanding yeast fermentation physiology
    • 19.10. Future trends
    • 19.11. Sources of further information and advice
  • 20. Quality improvement and fermentation control in beer
    • 20.1. Introduction
    • 20.2. Genetic improvement of brewer’s yeast
    • 20.3. Anaerobic beer contaminants
    • 20.4. New trends in fermentation
    • 20.5. New products: finding profitable niches
    • 20.6. Beer in relation to nutrition and health
    • 20.7. Future trends
  • 21. Coffee: fermentation and microbiota
    • 21.1. Introduction
    • 21.2. Coffee processing
    • 21.3. The microbiology of coffee fermentation
    • 21.4. Towards the use of starter cultures to optimize fermentation
    • 21.5. Mycotoxin production
    • 21.6. Conclusion
  • 22. Quality improvement and fermentation control in vegetables
    • 22.1. Introduction
    • 22.2. History and present product range
    • 22.3. Food fermentations: complex networks
    • 22.4. Technological factors
    • 22.5. Ingredients and additives
    • 22.6. Microbiology of fermentation
    • 22.7. Faulty products and spoilage
    • 22.8. Kimchi
    • 22.9. Future trends
• Index