Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/wiley/characterisation-and-evolution-of-grape-polyphenol-profiles-of-vitis-Y4Byb7GDtm
References (61)
-
R. Ristić, K. Bindon, L. Francis, M. Herderich, P. Iland (2010)
Flavonoids and C13-norisoprenoids in Vitis vinifera L. cv. Shiraz: relationships between grape and wine composition, wine colour and wine sensory properties.Australian Journal of Grape and Wine Research, 16
-
Y. Glories (1984)
La couleur des vins rouges. 2e partie : mesure, origine et interprétationOENO One, 18
-
R. Tian, G. Li, S. Wan, Q. Pan, J. Zhan, Jingming Li, Q. Zhang, W. Huang (2009)
Comparative study of 11 phenolic acids and five flavan-3-ols in cv. Vidal: impact of natural icewine making versus concentration technologyAustralian Journal of Grape and Wine Research, 15
-
Peña-Neira (2004)
Effects of ripenning stages and of plant vegetative rigor on the phenolic composition of grapes (Vitis vinifera L.) cv. Cabernet Savignon in the Maipo Valley (Chile)Vitis, 43
-
M. Downey, J. Harvey, S. Robinson (2003)
Analysis of tannins in seeds and skins of Shiraz grapes throughout berry developmentAustralian Journal of Grape and Wine Research, 9
-
Teresa Escribano-Bailón, Y. Gutierrez-Fernandez, J. Rivas-Gonzalo, C. Santos-Buelga (1992)
Characterization of procyanidins of Vitis vinifera variety Tinta del Pais grape seedsJournal of Agricultural and Food Chemistry, 40
-
E. Boido, C. Alcalde-Eon, F. Carrau, E. Dellacassa, J. Rivas-Gonzalo (2006)
Aging effect on the pigment composition and color of Vitis vinifera L. Cv. Tannat wines. Contribution of the main pigment families to wine color.Journal of agricultural and food chemistry, 54 18
-
N. Castillo-Muñoz, P. Winterhalter, Fabian Weber, M. Gómez, S. Gómez-Alonso, E. García-Romero, I. Hermosín-Gutiérrez (2010)
Structure elucidation of peonidin 3,7-o-β-diglucoside isolated from Garnacha Tintorera (Vitis vinifera L.) grapes.Journal of agricultural and food chemistry, 58 20
-
M. Fanzone, Á. Peña-Neira, V. Jofré, M. Assof, F. Zamora (2010)
Phenolic characterization of malbec wines from mendoza province (Argentina).Journal of agricultural and food chemistry, 58 4
-
S. González-Manzano, C. Santos-Buelga, Joaquín Pérez-Alonso, J. Rivas-Gonzalo, M. Escribano-Bailón (2006)
Characterization of the mean degree of polymerization of proanthocyanidins in red wines using liquid chromatography-mass spectrometry (LC-MS).Journal of agricultural and food chemistry, 54 12
-
Y. Glories (2001)
Caractérisation du potentiel phénolique: adaptation de la vinification, 118
-
S. Castellarin, A. Pfeiffer, P. Sivilotti, M. Degan, E. Peterlunger, G. Gaspero (2007)
Transcriptional regulation of anthocyanin biosynthesis in ripening fruits of grapevine under seasonal water deficit.Plant, cell & environment, 30 11
-
P. Ribereau-gayon, Y. Glories, A. Maujean, D. Dubourdieu (2006)
Handbook of Enology: The Chemistry of Wine Stabilization and Treatments -
T. Holton, E. Cornish (1995)
Genetics and Biochemistry of Anthocyanin Biosynthesis.The Plant cell, 7
-
F. Cosme, J. Ricardo-da-Silva, O. Laureano (2009)
Tannin profiles of Vitis vinifera L. cv. red grapes growing in Lisbon and from their monovarietal winesFood Chemistry, 112
-
S. González-Manzano, J. Rivas-Gonzalo, C. Santos-Buelga (2004)
Extraction of flavan-3-ols from grape seed and skin into wine using simulated macerationAnalytica Chimica Acta, 513
-
G. González-Neves, Laura Barreiro, G. Gil, J. Franco, M. Ferrer, M. Moutounet, A. Carbonneau (2004)
Anthocyanic composition of Tannat grapes from the south region of UruguayAnalytica Chimica Acta, 513
-
P. Ribereau-gayon, E. Stonestreet (1965)
[Determination of anthocyanins in red wine].Bulletin de la Societe chimique de France, 9
-
(2009)
Récuil des méthodes internationales d’analyse des vins et des moûts (Office International de la Vigne et du Vin: Paris) -
E. Boido, E. Dellacassa, F. Carrau, P. Moyna (1999)
An improved means of monitoring malolactic fermentation in wines by TLC-densitometryJpc-journal of Planar Chromatography-modern Tlc, 12
-
F. Mattivi, R. Guzzon, U. Vrhovsek, M. Stefanini, R. Velasco (2006)
Metabolite profiling of grape: Flavonols and anthocyanins.Journal of agricultural and food chemistry, 54 20
-
R. Jelinek, Tania Sheynis (2010)
Revised : ? ? ? ? ? ? ? ? ? ? ? ? ? ? Accepted : ? ? ? ? ? ? ? ? ? ? ? ? ? ? -
Matilde García-Marino, J. Hernández-Hierro, J. Rivas-Gonzalo, M. Escribano-Bailón (2010)
Colour and pigment composition of red wines obtained from co-maceration of Tempranillo and Graciano varieties.Analytica chimica acta, 660 1-2
-
B. Labarbe, V. Cheynier, F. Brossaud, J. Souquet, M. Moutounet (1999)
Quantitative fractionation of grape proanthocyanidins according to their degree of polymerization.Journal of agricultural and food chemistry, 47 7
-
P. Ribereau-gayon (2001)
Handbook of Enology -
Filip Rosana, A. Ladio, G. Giberti, F. Carrau, E. Boido, C. Gaggero, K. Medina, L. Fariña, E. Disegna, E. Dellacassa, Cagnasso Elisa, López Beatriz, Valencia Eva, M. Nazareno, L. Chaillou, E. González, M. Galmarini, C. Baren, M. Zamora, J. Chirife, A. Calviño, M. Zamora, M. Guirao, Ross Romina, Gauffin Paola, Gusils Carlos, Medina Roxana, Van Carina, González Nelina, G. Zárate, J. Babot, E. Martínez, M. Pisarello, A. Chaia, D. Bueno, M. Soria, H. González, D. Sampietro, Francisco Federico, J. Silva, P. Ferrer, C. Greco, M. Binaghi (2011)
Multidisciplinary Approaches on Food Science and Nutrition for the XXI Century -
V. Freitas, Y. Glories, A. Monique (2000)
Developmental Changes of Procyanidins in Grapes of Red Vitis vinifera Varieties and Their Composition in Respective WinesAmerican Journal of Enology and Viticulture
-
F. Mattivi, U. Vrhovsek, D. Masuero, D. Trainotti (2009)
Differences in the amount and structure of extractable skin and seed tannins amongst red grape varietiesAustralian Journal of Grape and Wine Research, 15
-
M. Monagas, C. Gómez-Cordovés, B. Bartolomé, O. Laureano, Jorge Silva (2003)
Monomeric, oligomeric, and polymeric flavan-3-ol composition of wines and grapes from Vitis vinifera L. Cv. Graciano, Tempranillo, and Cabernet Sauvignon.Journal of agricultural and food chemistry, 51 22
-
J. Kennedy, G. Troup, J. Pilbrow, D. Hutton, D. Hewitt, C. Hunter, R. Ristić, P. Iland, G. Jones (2000)
Development of seed polyphenols in berries from Vitis vinifera L. cv. Shiraz.Australian Journal of Grape and Wine Research, 6
-
R. Guerrero, A. Liazid, M. Palma, B. Puertas, R. González-Barrio, Á. Gil-Izquierdo, C. García-Barroso, E. Cantos-Villar (2009)
Phenolic characterisation of red grapes autochthonous to AndalusiaFood Chemistry, 112
-
E. Obreque-Slier, Á. Peña-Neira, R. López-Solís, Fernando Zamora-Marín, Jorge Silva, O. Laureano (2010)
Comparative study of the phenolic composition of seeds and skins from Carménère and Cabernet Sauvignon grape varieties (Vitis vinifera L.) during ripening.Journal of agricultural and food chemistry, 58 6
-
Glories (1984)
La coleur des vins rouges. 2eme partier. Mesure, origine et interpretationConnaissance de la Vigne et du Vin, 18
-
James Kennedy, Mark Matthews, Andrew Waterhouse (2000)
Changes in grape seed polyphenols during fruit ripening.Phytochemistry, 55 1
-
P. Tamborra, M. Esti (2010)
Authenticity markers in Aglianico, Uva di Troia, Negroamaro and Primitivo grapes.Analytica chimica acta, 660 1-2
-
V. Núñez, C. Gómez-Cordovés, B. Bartolomé, Yun‐Jeong Hong, A. Mitchell (2006)
Non-galloylated and galloylated proanthocyanidin oligomers in grape seeds from Vitus vinifera L. cv. Graciano, Tempranillo and Cabernet SauvignonJournal of the Science of Food and Agriculture, 86
-
García-Marino (2009)
Las prácticas enológicas en la evolución del contenido fenólico de vinos tintosSemana Vitivinícola, 3248
-
J. Kennedy, Y. Hayasaka, S. Vidal, E. Waters, G. Jones (2001)
Composition of grape skin proanthocyanidins at different stages of berry development.Journal of agricultural and food chemistry, 49 11
-
M. Marino, C. Buelga, J. Gonzalo, M. Bailón (2008)
Influencia de las prácticas enológicas en la evolución del contenido fenólico de vinos tintos -
J. Bogs, A. Ebadi, D. McDavid, S. Robinson (2005)
Identification of the Flavonoid Hydroxylases from Grapevine and Their Regulation during Fruit Development1Plant Physiology, 140
-
H. Kelebek, A. Canbaş, M. Jourdes, P. Teissèdre (2010)
Characterization of colored and colorless phenolic compounds in Öküzgözü wines from Denizli and Elazig regions using HPLC-DAD–MSIndustrial Crops and Products, 31
-
Polyphenolic profiles -
G. Torre, M. Saitta, F. Vilasi, T. Pellicanò, G. Dugo (2006)
Direct determination of phenolic compounds in Sicilian wines by liquid chromatography with PDA and MS detectionFood Chemistry, 94
-
C. Alcalde-Eon, E. Boido, F. Carrau, E. Dellacassa, J. Rivas-Gonzalo (2006)
Pigment Profiles in Monovarietal Wines Produced in UruguayAmerican Journal of Enology and Viticulture
-
C. Alcalde-Eon, M. Escribano-Bailón, C. Santos-Buelga, J. Rivas-Gonzalo (2006)
Changes in the detailed pigment composition of red wine during maturity and ageing: A comprehensive studyAnalytica Chimica Acta, 563
-
K. Medina, E. Boido, E. Dellacassa, F. Carrau (2005)
Yeast Interactions with Anthocyanins during Red Wine FermentationAmerican Journal of Enology and Viticulture
-
J. Silva, J. Rigaud, V. Cheynier, A. Cheminat, M. Moutounet (1991)
Procyanidin dimers and trimers from grape seedsPhytochemistry, 30
-
R. Corder, W. Mullen, N. Khan, S. Marks, E. Wood, M. Carrier, A. Crozier (2006)
Oenology: Red wine procyanidins and vascular healthNature, 444
-
R. Montealegre, R. Peces, J. Vozmediano, J. Gascueña, E. Romero (2006)
Phenolic compounds in skins and seeds of ten grape Vitis vinifera varieties grown in a warm climateJournal of Food Composition and Analysis, 19
-
M. Monagas, B. Bartolomé, C. Gómez-Cordovés (2005)
Evolution of polyphenols in red wines from Vitis vinifera L. during aging in the bottleEuropean Food Research and Technology, 220
-
J. Souquet, V. Cheynier, F. Brossaud, M. Moutounet (1996)
Polymeric proanthocyanidins from grape skinsPhytochemistry, 43
-
(2004)
Effects of ripenning stages and of plant vegetative rigor on the phenolic composition of grapes (Vitis vinifera L.) cv -
Matilde García-Marino, J. Rivas-Gonzalo, E. Ibáñez, C. García-Moreno (2006)
Recovery of catechins and proanthocyanidins from winery by-products using subcritical water extractionAnalytica Chimica Acta, 563
-
J. Souquet, V. Cheynier, M. Moutounet (2000)
The proanthocyanidines of grape., 73
-
J. Lücker, S. Martens, Steven Lund (2010)
Characterization of a Vitis vinifera cv. Cabernet Sauvignon 3',5'-O-methyltransferase showing strong preference for anthocyanins and glycosylated flavonols.Phytochemistry, 71 13
-
E. Garcı́a-Beneytez, E. Revilla, F. Cabello (2002)
Anthocyanin pattern of several red grape cultivars and wines made from themEuropean Food Research and Technology, 215
-
C. Prieur, J. Rigaud, V. Cheynier, M. Moutounet (1994)
Oligomeric and polymeric procyanidins from grape seeds.Phytochemistry, 36
-
E. Puértolas, G. Saldaña, S. Condón, I. Álvarez, J. Raso (2010)
Evolution of polyphenolic compounds in red wine from Cabernet Sauvignon grapes processed by pulsed electric fields during aging in bottleFood Chemistry, 119
-
C. Maury, P. Sarni-Manchado, S. Lefebvre, V. Cheynier, M. Moutounet (2001)
Influence of Fining with Different Molecular Weight Gelatins on Proanthocyanidin Composition and Perception of WinesAmerican Journal of Enology and Viticulture
-
G. González-Neves, J. Franco, Laura Barreiro, G. Gil, M. Moutounet, A. Carbonneau (2007)
Varietal differentiation of Tannat, Cabernet-Sauvignon and Merlot grapes and wines according to their anthocyanic compositionEuropean Food Research and Technology, 225
-
S. Castellarin, G. Gaspero (2007)
Transcriptional control of anthocyanin biosynthetic genes in extreme phenotypes for berry pigmentation of naturally occurring grapevinesBMC Plant Biology, 7
- Publisher
- Wiley
- Copyright
- © 2011 Australian Society of Viticulture and Oenology Inc.
- ISSN
- 1322-7130
- eISSN
- 1755-0238
- DOI
- 10.1111/j.1755-0238.2011.00164.x
- Publisher site
- See Article on Publisher Site
Abstract
Background and Aims: Changes in different polyphenol families during grape ripening and vinification were determined in Tannat grapes. This was done to establish a polyphenol profile for Tannat grapes during ripening and for young wines. Methods and Results: We demonstrated, by high‐performance liquid chromatography with diode array detection and mass spectrometry (HPLC‐DAD‐MS) analysis, that the content of flavan‐3‐ols in Tannat seeds was higher than that reported for a large number of other grape varieties analysed. Forty per cent of the total flavan‐3‐ols in seeds were galloylated compounds, whereas the flavan‐3‐ol profile in skins was characterised by the absence of galloylated forms. Prodelphinidins in skins ranged between 30 and 35% with very low values for epigallocatechin. Epicatechin gallate was not detected in Tannat wine and galloylated forms represented a low percentage of total flavan‐3‐ols. Tannat grapes had very high concentrations of anthocyanins in skins with levels increasing during ripening. Eleven phenolic acids were identified in Tannat grape skins and wines, but only gallic and protocatechuic acids were found in the seeds. Conclusions: Tannat wines were shown to have one of the highest levels of phenolic compounds reported for vinifera grape varieties. The profiles for different polyphenol families present in Tannat grapes (skins and seeds) and wines were determined. Significance of the Study: The results presented will help to better understand the phenolic winemaking potential of this variety and its functional properties within food chemistry.
Journal
Australian Journal of Grape and Wine Research – Wiley
Published: Oct 1, 2011