Biochemical Changes throughout Grape Berry Development and Fruit and Wine Quality

Wine is made up of more than one thousand compounds, the majority of which, such as vitamins and minerals, come from the grapes, while others, like ethanol and glycerol, are products of the winemaking process. Although sugars are either partially or completely transformed, sugar import and accumulation into the ripening berry is a major parameter of wine quality. Sugar status is directly related to the final alcoholic content of wine, and regulates several genes responsible for the development of its aromatic and organoleptic properties. Physiological ripeness is reached when the grapes achieve sufficiently high sugar levels without loosing too much acidity; however, aromatic and phenolic compound content must also be taken into account. Softening and water content are other essential characteristics of a ripe berry. From a winemaker point of view, optimal grape maturity is essential for wine quality, but is difficult to assess because it is under multifactorial control, involving grapevine cultivar variety and environmental parameters such as soil, temperature, exposure to sun, and hormonal regulation. Continued study of the key control points in grape ripening is crucial if we ultimately hope to improve grape and wine quality.

[1]  M. O'Mahony,et al.  Dependence of wine sensory attributes on vine water status , 1990 .

[2]  Kazumi Saito,et al.  Conversion of L-Ascorbic Acid to L-Idonic Acid, L-Idono-γ-lactone ane 2-Keto-L-idonic Acid in Slices of Immature Grapes , 1982 .

[3]  P. Boss,et al.  Molecular Biology of Sugar and Anthocyanin Accumulation in Grape Berries , 2001 .

[4]  Robert E. Davis,et al.  Climate Influences on Grapevine Phenology, Grape Composition, and Wine Production and Quality for Bordeaux, France , 2000, American Journal of Enology and Viticulture.

[5]  T. H. Lee,et al.  Occurrence and Growth of Lactic Acid Bacteria in Wine: A Review , 1985, American Journal of Enology and Viticulture.

[6]  N. Ollat,et al.  INVESTIGATION OF ASSIMILATE IMPORT MECHANISMS IN BERRIES OF VITIS VINIFERA VAR. âCABERNET SAUVIGNONâ , 1996 .

[7]  C. Leão,et al.  Effects of ethanol and other alkanols on passive proton influx in the yeast Saccharomyces cerevisiae. , 1984, Biochimica et biophysica acta.

[8]  N. Holbrook,et al.  A potential role for xylem-phloem interactions in the hydraulic architecture of trees: effects of phloem girdling on xylem hydraulic conductance. , 2004, Tree physiology.

[9]  M. Matthews,et al.  Relative proportions of seed, skin and flesh, in ripe berries from Cabernet Sauvignon grapevines grown in a vineyard either well irrigated or under water deficit , 2008 .

[10]  T. Heresztyn Metabolism of volatile phenolic compounds from hydroxycinnamic acids byBrettanomyces yeast , 1986, Archives of Microbiology.

[11]  M. C. Vidal-Carou,et al.  Histamine and tyramine in spanish wines: Relationships with total sulfur dioxide level, volatile acidity and malo-lactic fermentation intensity☆ , 1990 .

[12]  M. Matthews,et al.  Growth and Water Transport in Fleshy Fruit , 2005 .

[13]  C. Dallas,et al.  Effects of pH, sulphur dioxide, alcohol content, temperature and storage time on colour composition of a young Portuguese red table wine , 1994 .

[14]  G. Rottinghaus,et al.  Resveratrol protects against global cerebral ischemic injury in gerbils , 2002, Brain Research.

[15]  W. Kliewer,et al.  Sugars and Organic Acids of Vitis vinifera. , 1966, Plant physiology.

[16]  S. Verma,et al.  Antiatherogenic potential of red wine: clinician update. , 2005, American journal of physiology. Heart and circulatory physiology.

[17]  M. Thomas,et al.  A review of potassium nutrition in grapevines with special emphasis on berry accumulation , 2003 .

[18]  C. Romieu,et al.  Grape (Vitis viniferaL.) Malate Dehydrogenase. I. Intracellular Compartmentation of the Isoforms , 1995, American Journal of Enology and Viticulture.

[19]  Sheldon Cohen,et al.  Smoking, alcohol consumption, and susceptibility to the common cold. , 1993, American journal of public health.

[20]  J. Ebel PHYTOALEXIN SYNTHESIS: THE BIOCHEMICAL ANALYSIS OF THE INDUCTION PROCESS , 1986 .

[21]  H. Gerós,et al.  Studies on the Wine Spoilage Capacity of Brettanomyces/Dekkera spp , 2004, American Journal of Enology and Viticulture.

[22]  J. Oliveira,et al.  C6-alcohols as varietal markers for assessment of wine origin , 2006 .

[23]  Seth Debolt,et al.  L-tartaric acid synthesis from vitamin C in higher plants. , 2006, Proceedings of the National Academy of Sciences of the United States of America.

[24]  Hanne Tønnesen,et al.  Population based cohort study of the association between alcohol intake and cancer of the upper digestive tract , 1998, BMJ.

[25]  H. Ruffner,et al.  The physiological role of malic enzyme in grape ripening , 1984, Planta.

[26]  M. Sousa,et al.  Mechanisms underlying the transport and intracellular metabolism of acetic acid in the presence of glucose in the yeast Zygosaccharomyces bailii. , 1998, Microbiology.

[27]  Peter B. Høj,et al.  Wine bottle closures: physical characteristics and effect on composition and sensory properties of a Semillon wine 1. Performance up to 20 months post‐bottling , 2001 .

[28]  T. Somers,et al.  Direct Determination of Wine Proteins , 1973, American Journal of Enology and Viticulture.

[29]  K. Fugelsang,et al.  Brettanomyces and Dekkera. Implications in Wine Making. , 1993 .

[30]  Thomas J. Sweet,et al.  Effect of resveratrol on herpes simplex virus vaginal infection in the mouse. , 2005, Antiviral research.

[31]  A. Mas,et al.  Eight cDNA encoding putative aquaporins in Vitis hybrid Richter-110 and their differential expression. , 2001, Journal of experimental botany.

[32]  S. Delrot,et al.  Water Transport and Aquaporins in Grapevine , 2001 .

[33]  M. Matthews,et al.  Functional xylem in the post-veraison grape berry. , 2005, Journal of experimental botany.

[34]  Daniel J. Cosgrove,et al.  Loosening of plant cell walls by expansins , 2000, Nature.

[35]  I. S. Pretorius,et al.  Tailoring wine yeast for the new millennium: novel approaches to the ancient art of winemaking , 2000, Yeast.

[36]  P. Ribereau-gayon,et al.  Handbook of Enology: The Chemistry of Wine Stabilization and Treatments , 2006 .

[37]  S. Renaud,et al.  Wine, alcohol, platelets, and the French paradox for coronary heart disease , 1992, The Lancet.

[38]  Jason P. Smith,et al.  Ripening grape berries remain hydraulically connected to the shoot. , 2006, Journal of experimental botany.

[39]  A. Maujean,et al.  Characterization of Foaming Proteins in a Champagne Base Wine , 1993, American Journal of Enology and Viticulture.

[40]  E. García,et al.  Changes in Volatile Compounds during Ripening in Grapes of Airén, Macabeo and Chardonnay White Varieties Grown in La Mancha Region (Spain) , 2003 .

[41]  D. Dubourdieu,et al.  Comparative Study of the Characteristics of American White Oak (Quercus alba) and European Oak (Quercus petraea and Q. robur) for Production of Barrels Used in Barrel Aging of Wines , 1998, American Journal of Enology and Viticulture.

[42]  S. Tanenbaum,et al.  Production and Characterization of Laccase from Botrytis cinerea 61-34 , 1995, Applied and environmental microbiology.

[43]  J. Raynal,et al.  Exogenous ethylene stimulates the long-term expression of genes related to anthocyanin biosynthesis in grape berries , 2003 .

[44]  F. Speizer,et al.  Beverage Use and Risk for Kidney Stones in Women , 1998, Annals of Internal Medicine.

[45]  R. Baumes,et al.  Identification of a Precursor of β-Methyl-γ-octalactone in the Wood of Sessile Oak (Quercus petraea (Matt.) Liebl.) , 2000 .

[46]  E. Boles,et al.  Kinetic characterization of individual hexose transporters of Saccharomyces cerevisiae and their relation to the triggering mechanisms of glucose repression. , 1997, European journal of biochemistry.

[47]  W. Frommer,et al.  Macromolecular Trafficking Indicated by Localization and Turnover of Sucrose Transporters in Enucleate Sieve Elements , 1997, Science.

[48]  M. Hayatsu,et al.  Chalcone synthase from Camellia sinensis: isolation of the cDNAs and the organ-specific and sugar-responsive expression of the genes. , 1994, Plant & cell physiology.

[49]  J. Mérillon,et al.  Regulation of polyphenol production in Vitis vinifera cell suspension cultures by sugars , 1998, Plant Cell Reports.

[50]  C. A. Swanson,et al.  Translocation of Sugars in the Concord Grape. , 1958, Plant physiology.

[51]  E. Rimm,et al.  Prospective study of moderate alcohol consumption and risk of hypertension in young women. , 2002, Archives of internal medicine.

[52]  A. Lonvaud-Funel Biogenic amines in wines: role of lactic acid bacteria. , 2001, FEMS microbiology letters.

[53]  M. H. Silla Santos Biogenic amines: their importance in foods. , 1996, International journal of food microbiology.

[54]  L. Bisson,et al.  Ethyl Carbamate Formation in Wine: Use of Radioactively Labeled Precursors to Demonstrate the Involvement of Urea , 1989, American Journal of Enology and Viticulture.

[55]  E. Rimm,et al.  Prospective study of cigarette smoking, alcohol use, and the risk of diabetes in men , 1995, BMJ.

[56]  P. Martín,et al.  Changes in the phenolic composition of grape berries during ripening in relation to vineyard nitrogen and potassium fertilisation rates , 2004 .

[57]  Mondher Bouzayen,et al.  Ethylene and fruit ripening , 1997 .

[58]  S. Delrot,et al.  Isogene specific oligo arrays reveal multifaceted changes in gene expression during grape berry (Vitis vinifera L.) development , 2004, Planta.

[59]  James A. Kennedy,et al.  Grape and Wine Phenolics: History and Perspective , 2006, American Journal of Enology and Viticulture.

[60]  T. Kubo,et al.  ABA and sugar effects on anthocyanin formation in grape berry cultured in vitro , 2001 .

[61]  Joseph A. Baur,et al.  Therapeutic potential of resveratrol: the in vivo evidence , 2006, Nature Reviews Drug Discovery.

[62]  J. Sapis,et al.  Browning capacity of grapes. 3. Changes and importance of hydroxycinnamic acid-tartaric acid esters during development and maturation of the fruit , 1983 .

[63]  D. Joyce,et al.  ABA effects on ethylene production, PAL activity, anthocyanin and phenolic contents of strawberry fruit , 2004, Plant Growth Regulation.

[64]  M. R. Thorpe,et al.  Xylem, Phloem and Transpiration Flows in a Grape: Application of a Technique for Measuring the Volume of Attached Fruits to High Resolution Using Archimedes' Principle , 1989 .

[65]  L. Barenghi,et al.  Cardiovascular protective effects of resveratrol. , 2006, Cardiovascular drug reviews.

[66]  D. Dubourdieu,et al.  The Influence ofBrettanomyces/Dekkerasp. Yeasts and Lactic Acid Bacteria on the Ethylphenol Content of Red Wines , 1995, American Journal of Enology and Viticulture.

[67]  S. Dequin,et al.  Engineering a Saccharomyces cerevisiae Wine Yeast That Exhibits Reduced Ethanol Production during Fermentation under Controlled Microoxygenation Conditions , 2006, Applied and Environmental Microbiology.

[68]  S. Robinson,et al.  Sugar Accumulation in Grape Berries (Cloning of Two Putative Vacuolar Invertase cDNAs and Their Expression in Grapevine Tissues) , 1996, Plant physiology.

[69]  A. Bertrand,et al.  Correlation Between the Content of Biogenic Amines and Other Wine Compounds , 1998, American Journal of Enology and Viticulture.

[70]  V. L. Singleton,et al.  Caftaric and coutaric acids in fruit of Vitis , 1986 .

[71]  P. Chatelet,et al.  Involvement of ethylene signalling in a non-climacteric fruit: new elements regarding the regulation of ADH expression in grapevine. , 2004, Journal of experimental botany.

[72]  A. Dalcero,et al.  Diversity of Saccharomyces strains on grapes and winery surfaces: analysis of their contribution to fermentative flora of Malbec wine from Mendoza (Argentina) during two consecutive years. , 2007, Food microbiology.

[73]  F. Loewus Biosynthesis and metabolism of ascorbic acid in plants and of analogs of ascorbic acid in fungi , 1999 .

[74]  W. Frommer,et al.  The Dual Function of Sugar Carriers: Transport and Sugar Sensing , 1999, Plant Cell.

[75]  H. Alexandre,et al.  Relationship between ethanol tolerance, lipid composition and plasma membrane fluidity in Saccharomyces cerevisiae and Kloeckera apiculata. , 1994, FEMS microbiology letters.

[76]  J. Zou,et al.  Low dose of resveratrol enhanced immune response of mice. , 2002, Acta pharmacologica Sinica.

[77]  A. Moing,et al.  Grape berry development: a review , 2002 .

[78]  M. Maia,et al.  Characterization and differentiation of five “vinhos verdes” grape varieties on the basis of monoterpenic compounds , 2004 .

[79]  Patrik R. Jones,et al.  Exposure of red wine to oxygen post-fermentation – if you can‘t avoid it, why not control it? , 2004 .

[80]  S. Naito,et al.  Sugar-Dependent Expression of the CHS-A Gene for Chalcone Synthase from Petunia in Transgenic Arabidopsis. , 1991, Plant physiology.

[81]  Eveline J. Bartowsky,et al.  Yeast and bacterial modulation of wine aroma and flavour , 2005 .

[82]  C. Leão,et al.  Sequential inactivation of ammonium and glucose transport in Saccharomyces cerevisiae during fermentation , 1992 .

[83]  M. G. Mullins,et al.  Changes in anthocyanin and phenolics content of grapevine leaf and fruit tissues treated with sucrose, nitrate, and abscisic Acid. , 1976, Plant physiology.

[84]  P. White,et al.  Functional Characterization of Two Ripening-related Sucrose Transporters from Grape Berries , 2001 .

[85]  C. Chervin,et al.  Influence of ethylene on sucrose accumulation in grape berry , 2006 .

[86]  C. Leão,et al.  Sequential inactivation of ammonium and glucose transport in Saccharomyces cerevisiae during fermentation. , 1992, FEMS Microbiology Letters.

[87]  K. Hashizume,et al.  Grape Maturity and Light Exposure Affect Berry Methoxypyrazine Concentration , 1999, American Journal of Enology and Viticulture.

[88]  F. Loewus,et al.  Observations on the Incorporation of C14 into Tartaric Acid and the Labeling Pattern of D-Glucose from an Excised Grape Leaf Administered L-Ascorbic Acid-6-C14. , 1958 .

[89]  G. Hrazdina,et al.  Vacuolar contents of fruit subepidermal cells from vitis species. , 1981, Plant physiology.

[90]  H. Buser,et al.  Identification of 2,4,6-trichloroanisole as a potent compound causing cork taint in wine , 1982 .

[91]  J. Hawker Changes in the activities of malic enzyme, malate dehydrogenase, phosphopyruvate carboxylase and pyruvate decarboxylase during the development of a non-climacteric fruit (the grape) , 1969 .

[92]  F. Maathuis,et al.  Mechanisms of potassium absorption by higher plant roots , 1996 .

[93]  B. Coombe,et al.  Research on Development and Ripening of the Grape Berry , 1992, American Journal of Enology and Viticulture.

[94]  W. Kliewer,et al.  The influence of temperature on malic Acid metabolism in grape berries: I. Enzyme responses. , 1975, Plant physiology.

[95]  A. Simon Wines of the World , 1951 .

[96]  S. Dequin,et al.  Re‐assessment of the influence of yeast strain and environmental factors on glycerol production in wine , 2000, Journal of applied microbiology.

[97]  C. Ough,et al.  Amino Acid Profiles of Commercial Grape Juices and Wines , 1991, American Journal of Enology and Viticulture.

[98]  A Hofman,et al.  Risk factors for increased bone loss in an elderly population: the Rotterdam Study. , 1998, American journal of epidemiology.

[99]  N. Cook,et al.  Relationship of alcohol intake with blood pressure in young adults. , 1995, Hypertension.

[100]  P. Boss,et al.  Analysis of the Expression of Anthocyanin Pathway Genes in Developing Vitis vinifera L. cv Shiraz Grape Berries and the Implications for Pathway Regulation , 1996, Plant physiology.

[101]  P. Hasegawa,et al.  Coordinate accumulation of antifungal proteins and hexoses constitutes a developmentally controlled defense response during fruit ripening in grape. , 1998, Plant physiology.

[102]  P. B. Lombard,et al.  Environmental and Management Practices Affecting Grape Composition and Wine Quality - A Review , 1993, American Journal of Enology and Viticulture.

[103]  E. Diamandis,et al.  DIRECT INJECTION GAS CHROMATOGRAPHIC MASS SPECTROMETRIC ASSAY FOR TRANS-RESVERATROL , 1994 .

[104]  M. Schroll,et al.  Alcohol intake, beverage preference, and risk of hip fracture in men and women. Copenhagen Centre for Prospective Population Studies. , 1999, American journal of epidemiology.

[105]  F. Clementi,et al.  Contribution of winery-resident Saccharomyces cerevisiae strains to spontaneous grape must fermentation , 2004, Antonie van Leeuwenhoek.

[106]  H. Gerós,et al.  Utilization and transport of acetic acid in Dekkera anomala and their implications on the survival of the yeast in acidic environments. , 2000, Journal of food protection.

[107]  C. Enzell Biodegradation of carotenoids - an important route to aroma compounds , 1985 .

[108]  P. Boss,et al.  Treatment of Grape Berries, a Nonclimacteric Fruit with a Synthetic Auxin, Retards Ripening and Alters the Expression of Developmentally Regulated Genes , 1997, Plant physiology.

[109]  S. Robinson,et al.  Three putative sucrose transporters are differentially expressed in grapevine tissues , 1999 .

[110]  A. Waterhouse,et al.  Changes in grape seed polyphenols during fruit ripening. , 2000, Phytochemistry.

[111]  Thomas J. Sweet,et al.  Resveratrol inhibition of varicella-zoster virus replication in vitro. , 2006, Antiviral research.

[112]  B. Blondin,et al.  Analysis of Saccharomyces cerevisiae hexose carrier expression during wine fermentation: both low- and high-affinity Hxt transporters are expressed. , 2005, FEMS yeast research.

[113]  M. Olmo,et al.  Analysis of the expression of some stress induced genes in several commercial wine yeast strains at the beginning of vinification , 2005, Journal of applied microbiology.

[114]  J. W. Patrick,et al.  PHLOEM UNLOADING: Sieve Element Unloading and Post-Sieve Element Transport. , 1997, Annual review of plant physiology and plant molecular biology.

[115]  L. Williams,et al.  Sugar transporters in higher plants--a diversity of roles and complex regulation. , 2000, Trends in plant science.

[116]  Norman R. Farnsworth,et al.  Cancer Chemopreventive Activity of Resveratrol, a Natural Product Derived from Grapes , 1997, Science.

[117]  J. Roustan,et al.  Ethylene seems required for the berry development and ripening in grape, a non-climacteric fruit , 2004 .

[118]  S. Kiechl,et al.  Alcohol consumption and atherosclerosis: what is the relation? Prospective results from the Bruneck Study. , 1998, Stroke.

[119]  B. G. Coombe Ripening berries: a critical issue , 2001 .

[120]  Mark A. Matthews,et al.  Berry size and vine water deficits as factors in winegrape composition: Anthocyanins and tannins , 2004 .

[121]  A. Maujean,et al.  Isolation, Identification, and Organoleptic Characterization of Low-Molecular-Weight Peptides from White Wine , 2001, American Journal of Enology and Viticulture.

[122]  A. Schneider,et al.  Solute Accumulation by Grape Pericarp Cells V. RELATIONSHIP TO BERRY SIZE AND THE EFFECTS OF DEFOLIATION , 1987 .

[123]  J. Giovannoni Genetic Regulation of Fruit Development and Ripening , 2004, The Plant Cell Online.

[124]  D. O. Adams Phenolics and Ripening in Grape Berries , 2006, American Journal of Enology and Viticulture.

[125]  Da-Peng Zhang,et al.  A Shift of Phloem Unloading from Symplasmic to Apoplasmic Pathway Is Involved in Developmental Onset of Ripening in Grape Berry1 , 2006, Plant Physiology.

[126]  R. Rodrigo,et al.  Oxidative stress and protective effects of polyphenols: comparative studies in human and rodent kidney. A review. , 2006, Comparative biochemistry and physiology. Toxicology & pharmacology : CBP.

[127]  E. Waters,et al.  Composition of grape skin proanthocyanidins at different stages of berry development. , 2001, Journal of agricultural and food chemistry.

[128]  M. Allen,et al.  Methoxypyrazines in Sauvignon blanc Grapes and Wines , 1991, American Journal of Enology and Viticulture.

[129]  S. Delrot,et al.  Pathways of Glucose Regulation of Monosaccharide Transport in Grape Cells1 , 2006, Plant Physiology.

[130]  M. Jiménez,et al.  Monoterpenes in grape juice and wines. , 2000, Journal of chromatography. A.

[131]  Andrew L. Waterhouse,et al.  Oxidation of Wine Phenolics: A Critical Evaluation and Hypotheses , 2006, American Journal of Enology and Viticulture.

[132]  R. Kunkee Relationship between nitrogen content of must and sluggish fermentation , 1991 .

[133]  Juan Cacho,et al.  Quantitative determination of the odorants of young red wines from different grape varieties , 2000 .

[134]  J. Guillamón,et al.  Effect of organic acids and nitrogen source on alcoholic fermentation: study of their buffering capacity. , 2003, Journal of agricultural and food chemistry.

[135]  Stéphane Octave,et al.  Modifications of plant cell activities by polypeptides secreted by Eutypa lata, a vineyard fungal pathogen , 2006 .

[136]  C. Demuyter,et al.  Evolution of the population of Saccharomyces cerevisiae from grape to wine in a spontaneous fermentation. , 2006, Food microbiology.

[137]  M. Sousa,et al.  Transport of acetic acid in Zygosaccharomyces bailii: effects of ethanol and their implications on the resistance of the yeast to acidic environments , 1996, Applied and environmental microbiology.

[138]  H. Ruffner,et al.  Isolation and biochemical characterization of grape malic enzyme , 1981, Planta.

[139]  H. Gerós,et al.  The non-host pathogen Botrytis cinerea enhances glucose transport in Pinus pinaster suspension-cultured cells. , 2006, Plant & cell physiology.

[140]  Andrew L. Waterhouse,et al.  The present and future of the international wine industry , 2002, Nature.

[141]  T. Cataldi,et al.  Determination of free proline and monosaccharides in wine samples by high-performance anion-exchange chromatography with pulsed amperometric detection (HPAEC-PAD). , 2003, Journal of agricultural and food chemistry.

[142]  G. Fleet,et al.  Acetic Acid Bacteria in Winemaking: A Review , 1988, American Journal of Enology and Viticulture.

[143]  B. Sumpio,et al.  The cardiovascular protective effect of red wine. , 2005, Journal of the American College of Surgeons.

[144]  S. Delrot,et al.  Cloning and expression of a hexose transporter gene expressed during the ripening of grape berry. , 1999, Plant physiology.

[145]  F. Mattivi,et al.  Wine, Biodiversity, Technology, and Antioxidants , 2002, Annals of the New York Academy of Sciences.

[146]  R. Ferreira,et al.  The wine proteins , 2001 .

[147]  Terry D. Spittler,et al.  Temperature and light effects on ethyl carbamate formation in wine during storage , 1990 .

[148]  M. Thomas,et al.  Transporters expressed during grape berry (Vitis vinifera L.) development are associated with an increase in berry size and berry potassium accumulation. , 2006, Journal of experimental botany.

[149]  S. Delrot,et al.  Identification and functional expression in yeast of a grape berry sucrose carrier , 2000 .

[150]  R. Weaver,et al.  Effect of Ethephon on Coloration and Maturation of Wine Grapes , 1974, American Journal of Enology and Viticulture.

[151]  S. Delrot,et al.  Regulation of sugar, amino acid and peptide plant membrane transporters. , 2000, Biochimica et biophysica acta.

[152]  J. Giovannoni,et al.  MOLECULAR BIOLOGY OF FRUIT MATURATION AND RIPENING. , 2001, Annual review of plant physiology and plant molecular biology.

[153]  M. Keller Irrigation Strategies for White and Red Grapes , 2004 .

[154]  E. Rimm,et al.  A Prospective Study of Alcohol, Smoking, Caffeine, and the Risk of Duodenal Ulcer in Men , 1997, Epidemiology.

[155]  S. Delrot,et al.  Cloning and expression of two plasma membrane aquaporins expressed during the ripening of grape berry. , 2003, Functional plant biology : FPB.

[156]  Michael A. McCarthy,et al.  Dynamics of grape berry growth and physiology of ripening. , 2000 .

[157]  A. Nevill,et al.  Modelling the associations of BMI physical activity and diet with arterial blood pressure: some results from the Allied Dunbar National Fitness Survey. , 1997, Annals of human biology.

[158]  Gregory M Symons,et al.  Grapes on Steroids. Brassinosteroids Are Involved in Grape Berry Ripening1 , 2005, Plant Physiology.

[159]  H. Gerós,et al.  Biochemical studies on the production of acetic acid by the yeast Dekkera anomala. , 2000 .

[160]  C. Romieu,et al.  Grape (Vitis viniferaL.) Malate Dehydrogenase. II. Characterization of the Major Mitochondrial and Cytosolic Isoforms and their Role in Ripening , 1995, American Journal of Enology and Viticulture.

[161]  G. Ribéreau-Gayon Etude des mecanismes de synthese et de transformation de l'acide malique, de l'acide tartrique et de l'acide citrique chez vitis vinifera L. , 1968 .

[162]  S. Delrot,et al.  VvHT1 encodes a monosaccharide transporter expressed in the conducting complex of the grape berry phloem. , 2005, Journal of experimental botany.

[163]  E. Rühl Effect of rootstocks and K* supply on pH and acidity of grape juice , 2000 .

[164]  J. Mérillon,et al.  Sugar sensing and Ca2+-calmodulin requirement in Vitis vinifera cells producing anthocyanins. , 2000, Phytochemistry.

[165]  V. L. Singleton,et al.  Identification of three flavan-3-ols from grapes , 1969 .

[166]  P. Langridge,et al.  Regulation of hydrogen sulfide liberation in wine-producing Saccharomyces cerevisiae strains by assimilable nitrogen , 1995, Applied and environmental microbiology.

[167]  G. Troup,et al.  Development of seed polyphenols in berries from Vitis vinifera L. cv. Shiraz. , 2000 .

[168]  G. Bleve,et al.  Characterization of Saccharomyces cerevisiae strains isolated from must of grape grown in experimental vineyard , 2004, Journal of applied microbiology.

[169]  A. Razungles,et al.  Effect of sun exposure on carotenoids and C13-norisoprenoid glycosides in Syrah berries (Vitis vinifera L.) , 1998 .

[170]  H. Heymann,et al.  Analysis of methoxypyrazines in wines. 1. Development of a quantitative procedure , 1986 .

[171]  Y. Gupta,et al.  Protective effect of resveratrol against oxidative stress in middle cerebral artery occlusion model of stroke in rats. , 2002, Life sciences.

[172]  W. Bors,et al.  Chemistry of the Antioxidant Effect of Polyphenols , 2002, Annals of the New York Academy of Sciences.

[173]  C. R. Hale,et al.  The hormone content of ripening grape berries and the effects of growth substance treatments. , 1973, Plant physiology.

[174]  J. Manson,et al.  A prospective study of moderate alcohol drinking and risk of diabetes in women. , 1988, American journal of epidemiology.

[175]  M.H.Silla Santos,et al.  Biogenic amines: their importance in foods. , 1996, International journal of food microbiology.

[176]  T. Obisesan,et al.  Moderate Wine Consumption Is Associated with Decreased Odds of Developing Age‐Related Macular Degeneration in NHANES‐1 , 1998, Journal of the American Geriatrics Society.