| Introduction of Professor David G. Roux, Recipient of the 2nd North American Tannin Conference Award | p. 3 |
| Reflections on the Chemistry and Affinities of the Major Commercial Condensed Tannins in the Context of their Industrial Use | p. 7 |
| Biogenesis and Synthesis | |
| Enzymes in the Biosynthesis of Hydrolyzable Tannins | p. 43 |
| Biosynthesis of Flavonoids | p. 61 |
| Stereoselectivity in Polyphenol Biosynthesis | p. 73 |
| Cellular Changes that Promote Tannin Formation in Slash Pine | p. 97 |
| Transgenic Lotus corniculatus: a Model System for Modification and Genetic Manipulation of Condensed Tannin Biosynthesis | p. 111 |
| Stereoselective Oxygenation of Flavan-3-ols, 4-Arylflavan-3-ols, and Profisetinidin Biflavanoids at C-4 | p. 133 |
| Enantioselective Synthesis of Flavonoids | p. 143 |
| Chemical Properties | |
| Gallic Acid and its Metabolites | p. 169 |
| Oligomeric Hydrolyzable Tannins from Liquidambar formosa and Spectral Analysis of the Orientation of Valoneoyl Groups in their Molecules | p. 195 |
| Chinquapinic Acid: a Novel Hydrolyzable Tannin Isolated from Castanopsis sempervirens | p. 209 |
| Study on the Composition and Structure of Commercial Chestnut Tanning Agent | p. 221 |
| Structure and Chemical Properties of the Condensed Tannins | p. 245 |
| Quantitative Methods for the Estimation of Tannins in Plant Tissues | p. 259 |
| Structure of Procyanidin Oligomers Isolated from Grape Seeds the Relation to Some of their Chemical Properties | p. 281 |
| [superscript 1]H NMR Spectral Studies of Procyanidin Derivatives: Diagnostic [superscript 1]H NMR Parameters Applicable to the Structural Elucidation of Oligomeric Procyanidins | p. 295 |
| C-H Hetcor NMR Studies of Proanthocyanidins and their Derivatives | p. 321 |
| Solid State [superscript 13]C NMR Studies on Condensed Tannins | p. 339 |
| Oxidation and Rearrangement Reactions of Condensed Tannins | p. 349 |
| The Nature of Non-Proanthocyanidin Units in 'Condensed Tannins' from Conifer Wood and Bark | p. 385 |
| Phlobaphene Precursors in Douglas-fir Outer Bark | p. 411 |
| Complexation of Condensed Tannins with Metal Ions | p. 421 |
| Complexation between Polyphenols and Aluminum Salts | p. 437 |
| Fluorescence of Oligomers that Contain Catechin or Epicatechin | p. 447 |
| MNDO and AM1 Molecular Orbital and Molecular Mechanics Analyses of ([positive])-Catechin, ([negative])-Epicatechin, and their 3-O-Acetyl Derivatives | p. 459 |
| Conformational Analysis of Profisetinidin Dimers | p. 479 |
| Conformational Analysis of 4-Arylflavan-3-ols as Models for C-Ring Isomerized Condensed Tannins | p. 487 |
| Conformations of Proanthocyanidins | p. 501 |
| Biological Significance | |
| Plant Phenolics as Expressions of Biological Diversity | p. 523 |
| Pharmacologically Active Tannins Isolated from Medicinal Plants | p. 539 |
| Chemistry, Biological Significance, and Genetic Control of Proanthocyanidins in Cotton (Gossypium Spp.) | p. 571 |
| Sequential Extraction of Condensed Tannins from Pine Litter at Different Stages of Decomposition | p. 597 |
| Activity of Phenolics in Insects: The Role of Oxidation | p. 609 |
| Antimicrobial Activity of Polyphenols Mediates Plant-Herbivore Interactions | p. 621 |
| Condensed Tannins in Plant Defense: A Perspective on Classical Theories | p. 639 |
| Polyphenols and the Distribution of Arboreal Folivorous Marsupials in Eucalyptus Forests of Australia | p. 653 |
| Resistance to Soilborne Pathogens in Tannin-Free Faba Beans | p. 665 |
| Toxicity of Tannic Compounds to Microorganisms | p. 673 |
| Antinutritional Effects of Condensed and Hydrolyzable Tannins | p. 693 |
| Prosopis cineraria Leaf Tannins: Their Inhibitory Effect On Ruminal Cellulase and the Recovery of Inhibition by Polyethylene Glycol - 4000 | p. 699 |
| Plant Polyphenolic Complex Inhibits the Reproduction of Influenza and Herpes Simplex Viruses | p. 705 |
| Polyphenols from Bulgarian Medicinal Plants with Anti-Infectious Activity | p. 717 |
| Proanthocyanidins and Biogenetically Related Dihydrofavonols from Cistus incanus L. | p. 729 |
| Widespread Tannin Intake via Stimulants and Masticatories, Especially Guarana', Kola Nut, Betel Vine, and Accessories | p. 739 |
| Plants of the Olympic Coastal Forests: Ancient Knowledge of Materials and Medicines and Future Heritage | p. 767 |
| Antitumor-Promoting Activities of Tannic Acid, Ellagic Acid, and Several Gallic Acid Derivatives in Mouse Skin | p. 783 |
| Cotton Condensed Tannin: A Potent Modulator of Alveolar Macrophage Host-Defense Function | p. 803 |
| Commercial Significance | |
| Flavor, Color, and Stability in Fruit Products: The Effect of Polyphenols | p. 827 |
| Proanthocyanidins, the Brewing Process, and the Quality of Beer | p. 849 |
| Tannins and the Qualities of Wines | p. 859 |
| Utilization of Tannins in Indonesia | p. 881 |
| Phenolic Constituents of Rapeseed | p. 895 |
| Proanthocyanidin Content of Broad Bean Seeds: Relationship of Seed Coat Color | p. 911 |
| Condensed Tannins in Some Forage Legumes: Their Role in the Prevention of Ruminant Pasture Bloat | p. 915 |
| Tannins in Woods and their Contribution to Microbial Decay Prevention | p. 935 |
| Preparation and Performance of Tannin-Based Flocculants | p. 953 |
| Spruce Tannins in Specialty Applications | p. 967 |
| Chemistry of Pecan Tannins and Analysis of Cure of Pecan Tannin-Based, Cold-Setting Adhesives with a DMA 'Micro-Beam' Test | p. 979 |
| Tannin Structure and the Formulation of Tannin-Based Wood Adhesives | p. 991 |
| Use of Tannin in Adhesive Applications: Industrial Problems and Potentials | p. 1005 |
| Use of Tannin from Chestnut (Castanea vesca) | p. 1013 |
| Leather Manufacture with Wattle Tannins | p. 1021 |
| Concluding Remarks | p. 1035 |
| Species Index | p. 1039 |
| Compound Index | p. 1045 |
| Table of Contents provided by Blackwell. All Rights Reserved. |
