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Plant secondary metabolites have been a fertile area of chemical investigation for many years, driving the development of both analytical chemistry and of new synthetic reactions and methodologies. The subject is multi-disciplinary with chemists, biochemists and plant scientists all contributing to our current understanding. In recent years there has been an upsurge in interest from other disciplines, related to the realisation that secondary metabolites are dietary components that may have a considerable impact on human health, and to the development of gene technology that permits modulation of the contents of desirable and undesirable components.
Plant Secondary Metabolites: Occurrence, Structure and Role in the Human Diet addresses this wider interest by covering the main groups of natural products from a chemical and biosynthetic perspective with illustrations of how genetic engineering can be applied to manipulate levels of secondary metabolites of economic value as well as those of potential importance in diet and health. These descriptive chapters are augmented by chapters showing where these products are found in the diet, how they are metabolised and reviewing the evidence for their beneficial bioactivity.
Auteur
Alan Crozier is Professor of Plant Biochemistry and Human
Nutrition in the Institute of Biomedical and Life Sciences at the
University of Glasgow, UK, Mike Clifford is Professor of Food
Safety in the School of Biomedical and Molecular Sciences at the
University of Surrey, UK, and Hiroshi Ashihara is Professor of
Plant Biochemistry in the Department of Biology at Ochanomizu
University, Tokyo, Japan.
Contributors to the book:
Dr Michael H Beale
Dr Kirsten Brandt
Dr Lars P Christensen
Dr Jennifer L Donovan
Professor Peter J Facchini
Dr Richard M Faulks
Professor Glenn R Gibson
Dr Andrew J Humphrey
Dr Indu B Jaganath
Dr Paul A Kroon
Dr David K Liscombe
Dr Claudine Manach
Dr Serena Marks
Professor Richard Mithen
Dr Michael Saltmarsh
Dr Kieran M Tuohy
Dr Takao Yokota
Dr Katherine G Zulak
Contenu
Contributors.
1 Phenols, Polyphenols and Tannins: An Overview (AlanCrozier, Indu B. Jaganath and Michael N. Clifford).
1.1 Introduction.
1.2 Classification of phenolic compounds.
1.3 Biosynthesis.
1.4 Genetic engineering of the flavonoid biosyntheticpathway.
1.5 Databases.
2 Sulphur-Containing Compounds (RichardMithen).
2.1 Introduction.
2.2 The glucosinolates-myrosinase system.
2.3 Chemical diversity of glucosinolates in dietarycrucifers.
2.4 Biosynthesis.
2.5 Genetic factors affecting glucosinolate content.
2.6 Environmental factors affecting glucosinolate content.
2.7 Myrosinases and glucosinolate hydrolysis.
2.8 Hydrolytic products.
2.9 Metabolism and detoxification of isothiocyanates.
2.10 The Alliin-alliinase system.
2.11 Biological activity of sulphur-containing compounds.
2.12 Anti-nutritional effects in livestock and humans.
2.13 Beneficial effects of sulphur-containing compounds in thehuman diet.
3 Terpenes (Andrew J. Humphrey and Michael H.Beale).
3.1 Introduction.
3.2 The biosynthesis of IPP and DMAPP.
3.3 Enzymes of terpene biosynthesis.
3.4 Isoprenoid biosynthesis in the plastids.
3.5 Isoprenoid biosynthesis in the cytosol.
3.6 Terpenes in the environment and human health: futureprospects.
4 Alkaloids (Katherine G. Zulak, David K. Liscombe,Hiroshi Ashihara and Peter J. Facchini).
4.1 Introduction.
4.2 Benzylisoquinoline alkaloids.
4.3 Tropane alkaloids.
4.4 Nicotine.
4.5 Terpenoid indole alkaloids.
4.6 Purine alkaloids.
4.7 Pyrrolizidine alkaloids.
4.8 Other alkaloids.
4.9 Metabolic engineering.
5 Acetylenes and Psoralens (Lars P. Christensen andKirsten Brandt).
5.1 Introduction.
5.2 Acetylenes in common food plants.
5.3 Psoralens in common food plants.
5.4 Perspectives in relation to food safety.
6.1 Introduction.
6.2 Composition of the gut microflora.
6.3 Successional development and the gut microflora in oldage.
6.4 Modulation of the gut microflora through dietary means.
6.5 In vitro and in vivo measurement of microbialactivities.
6.6 Molecular methodologies for assessing microflorachanges.
6.7 Assessing the impact of dietary modulation of the gutmicroflora-does it improve health, what are the likelihoods forsuccess and what are the biomarkers of efficacy?
6.8 Justification for the use of probiotics and prebiotics tomodulate the gut flora composition.
7 Secondary Metabolites in Fruits, Vegetables, Beverages andOther Plant-Based Dietary Components (Alan Crozier, TakaoYokota, Indu B. Jaganath, Serena Marks, Michael Saltmarsh andMichael N. Clifford).
7.1 Introduction.
7.2 Dietary phytochemicals.
7.3 Vegetables.
7.4 Fruits.
7.5 Herbs and spices.
7.6 Cereals.
7.7 Nuts.
7.8 Algae.
7.9 Beverages.
7.10 Databases.
8 Absorption and Metabolism of Dietary Plant SecondaryMetabolites (Jennifer L. Donovan, Claudine Manach, RichardM. Faulks and Paul A. Kroon).
8.1 Introduction.
8.2 Flavonoids.
8.3 Hydroxycinnamic acids.
8.4 Gallic acid and ellagic acid.
8.5 Dihydrochalcones.
8.6 Betalains.
8.7 Glucosinolates.
8.8 Carotenoids.
8.9 Conclusions.
Index.