Produktbild: Recent Advances in Polyphenol Research, Volume 6

Recent Advances in Polyphenol Research, Volume 6 Volume 6

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Beschreibung

Produktdetails

Einband

Gebundene Ausgabe

Erscheinungsdatum

08.04.2019

Herausgeber

Heidi Halbwirth + weitere

Verlag

John Wiley & Sons

Seitenzahl

432

Maße (L/B/H)

25,7/17/2,8 cm

Gewicht

1043 g

Auflage

1. Auflage

Sprache

Englisch

ISBN

978-1-119-42793-3

Beschreibung

Produktdetails

Einband

Gebundene Ausgabe

Erscheinungsdatum

08.04.2019

Herausgeber

Verlag

John Wiley & Sons

Seitenzahl

432

Maße (L/B/H)

25,7/17/2,8 cm

Gewicht

1043 g

Auflage

1. Auflage

Sprache

Englisch

ISBN

978-1-119-42793-3

Herstelleradresse

Libri GmbH
Europaallee 1
36244 Bad Hersfeld
DE

Email: gpsr@libri.de

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  • Produktbild: Recent Advances in Polyphenol Research, Volume 6
  • Contributors xiii

    Preface xvii

    Acknowledgements xxi

    1 The Lignans: A Family of Biologically Active Polyphenolic Secondary Metabolites 1
    Anna K.F. Albertson and Jean¿Philip Lumb

    1.1 Introduction 1

    1.2 Biosynthesis of Lignans 3

    1.3 Synthetic Approaches to Lignans and Derivatives 7

    1.4 Conclusion 60

    References 65

    2 Anthocyanin Accumulation is Controlled by Layers of Repression 71
    Andrew C. Allan, Kathy E. Schwinn, and Richard V. Espley

    2.1 Introduction 71

    2.2 MYBs and bHLHs Directly Activate Anthocyanin Production 72

    2.3 Exciting Phenotypes in Horticulture are often caused by Variations in the Expression of Key MYBs 73

    2.4 Is There a Cost to the Plant of over accumulation of Anthocyanins? 74

    2.5 Controlling Anthocyanin Levels 75

    2.6 The MYB Activator is Degraded at Night 76

    2.7 MYB Activator Competes with MYB Repressors 77

    2.8 miRNA¿ Targeted Degradation of MYB Transcript 78

    2.9 Turnover of Anthocyanin Vacuolar Content by Peroxidases 78

    2.10 Summary 79

    References 79

    3 The Subtleties of Subcellular Distribution: Pointing the Way to Underexplored Functions for Flavonoid Enzymes and End Products 89
    Brenda S.J. Winkel

    3.1 Multienzyme Complexes and Metabolic Networks 89

    3.2 New Insights from Global Surveys of Protein Interactions 90

    3.3 The Flavonoid Metabolon 91

    3.4 Subcellular Distribution of Flavonoid Enzymes and Evidence for Alternative Metabolons 94

    3.5 Posttranslational Modifications - An Underexplored Area of Flavonoid Metabolism 98

    3.6 Why Do We Need to Know? 99

    3.7 Future Prospects 99

    References 100

    4 Transcriptional and Metabolite Profiling Analyses Uncover Novel Genes Essential for Polyphenol Accumulation 109
    Wilfried Schwab, Ludwig Ring, and Chuankui Song

    4.1 Introduction 109

    4.2 Transcriptional and Metabolite Profiling Analyses in Strawberry Fruit 110

    4.3 Characterization of Peroxidase 27 113

    4.4 Competition of the Lignin and Flavonoid/Anthocyanin Pathways as Demonstrated by the Activity of Peroxidase 27 115

    4.5 Candidate Genes Putatively Correlated with Phenolics Accumulation in Strawberry Fruit 115

    4.6 Acylphloroglucinol Biosynthesis in Strawberry Fruit 118

    4.7 Glucosylation of Acylphloroglucinols 120

    4.8 Conclusion

    References 124

    5 Dietary (Poly)Phenols and Vascular Health 127
    Christine Morand, Nicolas Barber¿Chamoux, Laurent¿Emmanuel Monfoulet, and Dragan Milenkovic

    5.1 Introduction 127

    5.2 Vascular Health: A Prerequisite to Prevent Cardiometabolic Diseases and Cognitive Decline 128

    5.3 Diet and Vascular Health 130

    5.4 (Poly)Phenols: A Major Family of Dietary Plant Bioactive Compounds 131

    5.5 Fate of (Poly)Phenols in the Body and Biological Activities 133

    5.6 Nutritional Effects of Flavonoids in Protecting Cardiovascular Health 135

    5.7 Limitation of Knowledge and Strategy for Research 138

    5.8 Findings from Translational Research on Citrus Flavanones and Vascular Health 139

    5.9 Conclusion 142

    References 142

    6 Cellular¿Specific Detection of Polyphenolic Compounds by NMR¿and MS¿Based Techniques: Application to the Representative Polycyclic Aromatics of Members of the Hypericaceae, the Musaceae and the Haemodoraceae 149
    Dirk Hölscher,

    6.1 Introduction 149

    6.2 The Plant Genus Hypericum 150

    6.3 Phenylphenalenones: Plant Secondary Metabolites of the Haemodoraceae 151

    6.4 Phenalenone¿ Type Phytoalexins 157

    6.5 Laser Microdissection and Cryogenic NMR as a Combined Tool for Cell Type¿Specific Metabolite Profiling 160

    6.6 Matrix¿ free UV Laser Desorption/Ionization (LDI) at the Single¿Cell Level: Distribution of Secondary Metabolites of Hypericum Species 163

    6.7 LDI¿ MSI¿Based Detection of Phenalenone¿Type Phytoalexins in a Banana- Nematode Interaction 166

    6.8 LDI¿ FT¿ICR¿MSI Reveals the Occurrence of Phenylphenalenones in Red Paracytic Stomata 169

    6.9 Conclusion 171

    6.10 Acknowledgements 171

    References 171

    7 Metabolomics Strategies for the De replication of Polyphenols and Other Metabolites in Complex Natural Extracts 183
    Jean¿Luc Wolfender, Pierre¿Marie Allard, Miwa Kubo, and Emerson Ferreira Queiroz

    7.1 Introduction 183

    7.2 Metabolite Profiling and Metabolomics 184

    7.3 Metabolite Annotation and Dereplication 188

    7.4 Targeted Isolation of Original Polyphenols 198

    7.5 Conclusion 201

    References 201

    8 Polyphenols from Plant Roots: An Expanding Biological Frontier 207
    Ryosuke Munakata, Romain Larbat, Léonor Duriot, Alexandre Olry, Carole Gavira, Benoit Mignard, Alain Hehn, and Frédéric Bourgaud

    8.1 Introduction 207

    8.2 Polyphenols in Roots versus Shoots: Not More, Not Less, But Often Different 207

    8.3 Allelochemical Functions of Root Polyphenols 213

    8.4 Physiological Functions of Root Polyphenols in Plants 217

    8.5 Biotechnologies to Produce Root Polyphenols 220

    8.6 Conclusion 227

    References 227

    9 Biosynthesis of Polyphenols in Recombinant Micröorganisms: A Path to Sustainability 237
    Kanika Sharma, Jian Zha, Sonam Chouhan, Sanjay Guleria, and Mattheos A.G. Koffas

    9.1 Introduction 237

    9.2 Flavonoids 239

    9.3 Stilbenes 247

    9.4 Coumarins 251

    9.5 Conclusion 253

    References 254

    10 Revisiting Wine Polyphenols Chemistry in Relation to Their Sensory Characteristics 263
    Victor de Freitas

    10.1 Introduction 263

    10.2 Astringency of Polyphenols 265

    10.3 Bitter Taste of Polyphenols 269

    10.4 Red Wine Colour 271

    10.5 Conclusion 276

    References 278

    11 Advances in Biöbased Thermosetting Polymers 285
    Hélène Fulcrand, Laurent Rouméas, Guillaume Billerach, Chahinez Aouf, and Eric Dubreucq

    11.1 Introduction 285

    11.2 Industrial Sources of Polyphenols 289

    11.3 Principles of Thermoset Production 290

    11.4 Relationships between Structure and Reactivity of Polyphenols 292

    11.5 Thermosets from Industrial Lignins and Tannins 295

    11.6 Depolymerization of Lignins and Tannins to Produce Phenolic Building Blocks and their Glycidylether Derivatives 306

    11.7 Development of Dimethyloxirane Monophenols and Bisphenols as Thermosetting Building Blocks 310

    11.8 Conclusion 322

    References 323

    12 Understanding the Misunderstood: Products and Mechanisms of the Degradation of Curcumin 335
    Claus Schneider

    12.1 Introduction 335

    12.2 Degradation of Curcumin - A Historical and Personal Perspective 336

    12.3 The Degradation is an Autoxidation 341

    12.4 Novel Products of the Degradation/Autoxidation of Curcumin 344

    12.5 Transformation of Curcumin to Bicyclopentadione 348

    12.6 A Proposed Mechanism for the Autoxidation of Curcumin 350

    12.7 Microbial Degradation of Curcumin 354

    12.8 Conclusion 357

    References 357

    13 How to Model a Metabolon: Theoretical Strategies 363
    Julien Diharce and Serge Antonczak

    13.1 Introduction 363

    13.2 Localization 364

    13.3 Existing Structures 365

    13.4 Three¿ Dimensional Structures of Enzymes: Homology Modelling 367

    13.5 Modes of Access to Active Sites: Randomly Accelerated Molecular Dynamics 370

    13.6 Protein- Protein Association: Protein-Protein Docking 372

    13.7 Substrate Channelling and Molecular Dynamics 374

    13.8 Metabolon 378

    13.9 Conclusion 379

    References 381

    Index 387