Czech J. Food Sci., 2004, 22(6):215-221 | DOI: 10.17221/3426-CJFS

The contents of total polyphenolic compounds and trans-resveratrol in white Riesling originated in the Czech Republic

K. Faitová, A. Hejtmánková, J. Lachman, V. Pivec, J. Dudjak
Department of Chemistry, Faculty of Agronomy, Czech University of Agriculture in Prague, Prague, Czech Republic

Wine is a significant source of antioxidants in human nutrition. Every glass of wine contains approximately 200 different phenolic compounds, several of which have been noted as antioxidants because they have been shown to slow down the potentially damaging cell oxidation process. In white Riesling from different wine-growing sub-regions, kinds of wine, years of harvest and vintners, the content of total polyphenols (TP) was determined using spectrophotometric method, and that of trans-resveratrol (R) by HPLC method. The TP content was presented as gallic acid equivalent per litre of wine, and the content of R as trans-resveratrol per litre of wine. TP values in the wine-growing region of Bohemia ranged from 223.0 to 532.7 mg/l (average content 330.3 mg/l), in the wine-growing region of Moravia from 175.0 to 465.0 mg/l (average content 271.7 mg/l), while R values in the wine-growing region of Bohemia ranged from < 0.033 to 0.421 mg/l (average content 0.117 mg/l), in the wine-growing region of Moravia from < 0.033 to 0.875 mg/l (average content 0.123 mg/l). The highest average TP content (370.1 mg/l) and R content (0.262 mg/l) were found in the sub-region Roudnická (the wine-growing region of Bohemia). The harvest year of 1994 was evaluated as that providing the highest average levels of TP (386.5 mg/l) and R (0.201 mg/l). The kind of wine with the highest average TP was the kind of "selected grapes" (327.2 mg/l), while the highest average R content was found in the late harvest wine (0.141 mg/l). The R and TP contents were not significantly affected by vintage, wine-growing sub-region or the kind of wine. The statistically significant correlation between TP and R content was not demonstrated (5.73%).

Keywords: wine; white Riesling; total polyphenol content; trans-resveratrol

Published: December 31, 2004  Show citation

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Faitová K, Hejtmánková A, Lachman J, Pivec V, Dudjak J. The contents of total polyphenolic compounds and trans-resveratrol in white Riesling originated in the Czech Republic. Czech J. Food Sci. 2004;22(6):215-221. doi: 10.17221/3426-CJFS.
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    References

    1. B J., G P.T., O'N J., C S., M I., M P D.B., L C., M D., M M.R., L M.E.J., D G.G., C A. (2000): Relationship among antioxidant activity, vasodilatation capacity and phenolic content of red wines. J. Agric. Food Chem., 48: 220-230. Go to original source... Go to PubMed...
    2. C E., G -V C., D P -T S., T -B A.F. (2000): Effect of postharvest ultraviolet irradiation on resveratrol and other phenolics of cv. Napoleon table grapes. J. Agric. Food Chem., 48: 4606-4612. Go to original source... Go to PubMed...
    3. F K., H A., P V., L J., D J. (2004): Changes of resveratrol content in White Ruländer during one year storage at different conditions. In: Nutrition and Foodstuff for the Third Millenium "Public Catering", 13.-14. 10. 2004 FAFR SUA Nitra: 125-128; ISBN 80-8069-421-4.
    4. F B., W -T P., H F., B L., D A., M J.M. (1997): Comparative study of radical scavenger and antioxidant properties of phenolic compounds from Vitis vinifera cell cultures using in vitro test. Life Sci., 21: 2103-2110. Go to original source... Go to PubMed...
    5. F J. (1980): Technologie a biochemie vína. SNTL, Praha.
    6. F N.E., W L.A., P L.T. (1995): Principal phenolic phytochemicals in selected California wines and their antioxidant activity in inhibiting oxidation of human low-density lipoproteins. J. Agric. Food Chem., 43: 890-894. Go to original source...
    7. G D.M., N E., K A., D E.P., S G.J. (1996): Resveratrol glucosides are important components of commercial wines. Am. J. Enol. Vitic., 47: 415-420. Go to original source...
    8. J P., B R., S M., M P., T P. (1995): Resveratrol content of wines of different ages: Relationship with fungal disease pressure in the vineyard. Am. J. Enol. Viticult., 46: 1-4. Go to original source...
    9. L J., H V., P V., O M. (1998): Polyphenols in cereals and their positive and negative role in human and animal nutrition. In: Proc. Conf. Cereals for Human Health and Preventive Nutrition. Brno, 7.-11. 7. 1998: 118-125.
    10. L A.M., F B., M A., D G., B A A., P D., A M. (1994): Effect of dietary supplementation of red or white wine on human blood; chemistry, haematology and coagulation: Favourable effect of red wine on plasma high-density lipoprotein. Ann. Nutr. Metab., 38: 287-294. Go to original source... Go to PubMed...
    11. M Š., G I. (2000): Polyfenoly v potravě jako protektivní látky v aterosklerotickém procesu. Remedia, 10: 272-281.
    12. M N.M., M J. (1994): Statistické zpracování experimentálních dat. Edice Plus, Praha.
    13. M K., F V., B D., H I., Š J. (2000): Resveratrol - occurrence in wine originating from Czech vineyard regions and effect on human health. Czech J. Food Sci., 18: 35-40.
    14. P J., H J. (2001): Je víno zdravé? Resveratrol ano. Vesmír, 80: 372-373.
    15. R J., H V., T L. (2001): Víno jako antioxidant. Česká a slovenská gastroenterologie a hepatologie, 10: 110-118.
    16. R -P I.A., L -R M.R., W L.A., D L T -B C.M. (1996): Level of cis- and trans- resveratrol and their glucosides in white and rosé Vitis vinifera wines from Spain. J. Agric. Food Chem., 44: 2124-2128. Go to original source...
    17. S G.J., T G., D P.E., G M.D. (1997a): Relative contributions of polyphenolic constituents to the antioxidant status of wines: development of a predictive model. J. Agric. Food Chem., 45: 3995-4003. Go to original source...
    18. S G.J., D P.E., G M.D. (1997b): Resveratrol: A molecule whose time has come? and gone? Clinic. Biochem., 30: 91-113. Go to original source... Go to PubMed...
    19. Š J., F V., M K., H I., B D., K B. (2001): Resveratrol. Chem. Listy, 95: 602-609.

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