한국식품영양학회지 (The Korean Journal of Food And Nutrition)

  • 제23권3호
  • /
  • Pages.324-331
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  • 2010
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  • 1225-4339(pISSN)
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  • 2287-4992(eISSN)
한국식품영양학회 (The Korean Society of Food and Nutrition)
권호 표지

적포도(Muscat Bailey A)주 발효 중 효소 처리에 의한 Phenol류 추출 및 색도 변화에 관한 연구

Studies on the Changes in the Extraction of Phenolics and Color Characteristics by the Enzyme Treatment of Red Grape(Muscat Bailey A) Wine during Fermentation

  • 이정윤 (을지대학교 보건산업대학 식품과학부) ;
  • 채수규 (을지대학교 보건산업대학 식품과학부)
  • Lee, Jeung-Yun (School of Natural Food Science, College of Health Industry, Eulji University) ;
  • Chae, Soo-Kyu (School of Natural Food Science, College of Health Industry, Eulji University)
  • 투고 : 2010.06.12
  • 심사 : 2010.06.30
  • 발행 : 2010.09.30
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초록

국내산 MBA(Muscat Bailey A) 포도의 효소 처리에 의한 발효 과정 중 총 페놀 추출량을 비롯하여 Hunter's L, a, b값, hue 및 color intensity 등의 색도 변화를 측정하여 비교 분석하였다. MBA 포도의 발효 10일째에 총 페놀 함량은 $1,352.8{\pm}37.8\;mg/{\ell}$이었으며, Pectinex와 Viscozyme의 효소 처리로 각각 14.5%(p<0.05) 및 3.8% 증가하여 Pectinex 처리가 Viscozyme 처리보다 페놀류 추출 효과가 있는 것으로 나타났다. MBA 포도의 발효 10일째 L, a, b값은 각각 7.4, 9.2, -1.2였으며, Pectinex 효소 처리의 경우는 7.0, 10.6, -0.8로 약간의 차이를 나타내었으나(p<0.05), Viscozyme 효소 처리의 경우는 7.2, 9.8, -1.1로 효소 처리에 따른 차이가 없었다. MBA 포도의 발효 10일째 hue 값과 color intensity는 각각 0.492와 0.785를 나타내었으며, Pectinex 효소 처리의 경우는 0.460과 0.881로 hue값은 다소 감소하였고 color intensity는 약간 증가하였으나(p<0.05), Viscozyme 효소 처리의 경우는 0.482와 0.805로 효소 처리에 따른 차이가 없었다.

This study was designed to test the effects of enzyme treatments on the extraction of total phenolic compounds and on color characteristics in wines from domestic MBA(Muscat Bailey A) grapes. The total phenolic compound content of the MBA grape wine was $1,352.8{\pm}37.8\;mg/{\ell}$ at 10 days of fermentation. Furthermore, MBA wines treated with 2%(v/v) of Pectinex and Viscozyme had 14.5%(p<0.05) and 3.8% increase, respectively, in total phenolic compound content by 10 days of fermentation. Pectinex treatment was more effective for phenolic levels than Viscozyme treatment. The L, a and b values of the MBA grape wine were 7.4, 9.2 and -1.2, respectively, by 10 days of fermentation. The values in case of Pectinex enzyme treatment were 7.0, 10.6 and -0.8, respectively, and these values were significantly different according to Pectinex treatment(p<0.05). But the values in case of Viscozyme enzyme treatment were 7.2, 9.8 and -1.1, respectively, and these values were not different according to Viscozyme treatment. The hue and color intensity values of the MBA grape wine were 0.492 and 0.785, respectively, by 10 days of fermentation. The values in case of Pectinex enzyme treatment were 0.460 and 0.881, respectively. And as a result of the Pectinex treatment, the hue value of wine was decreased and color intensity was increased slightly(p<0.05). But the values in case of Viscozyme enzyme treatment were 0.482 and 0.805, respectively, and these values were not different according to the Viscozyme treatment.

키워드

참고문헌

  1. Auw JM, Blanco V, Okeefe FO, Sims CA. 1996. Effect of processing on the phenolics and color of cabernet sauvignon, chambourcin, and noble wines and juices. Am J Enol Vitic 47:279-286
  2. Ayala F, Echavarri JF, Negueruela AI. 1999. A new simplified methods for measuring the color of wines. III. All wines Brandies. Am J Eno. Vitic 50:359-363
  3. Boulton R. 1996. A method for the assessment of copigmentation in red wines. in ASEV 47th Annual Meeting. Reno, Nevada
  4. Brossaud F, Cheynier V, Noble AC. 2001. Bitterness and astringency of grape and wine polyphenols. Austr J Grape Wine Res 7:33-39 https://doi.org/10.1111/j.1755-0238.2001.tb00191.x
  5. Canal-Llauberes RM. 1993. Enzymes in winemaking. In: Fleet, G.H. (ed) Wine Microbiology and Biotechnology, pp.477- 506, Harwood Academic Publishers, Philadelphia
  6. Chae SK. 2001. Antioxidative activity of phenolic compounds in wine. J Korean Soc Ind Food Technol 5:49-56
  7. Chae SK. 2004. The amount of phenolic compounds in the grape and wine. J Korean Soc Ind Food Technol 8:9-20
  8. Chae SK. 2005. Organoleptic properties of the phenolic compounds in red wine. J Korean Soc Ind Food Technol 9:33-42
  9. Chae SK, Kim JC. 2001. Wine & Health. pp.115-162. Yulim Publishing Co.
  10. Cheynier V, Hidalgo Arellano I, Souquet JM, Moutounet M. 1997. Estimation of the oxidative changes in phenolic compounds of carignane during winemaking. Am J Enol Vitic 48:225-228
  11. Choi JW, Park HD, Jung HS, Lee HC, Seo MY. 2005. The production, distribution system development and practical of high-quality fruit wine using domestic grape and wild grape. Research reports. Korean Department of Agricurture & Forestry
  12. Choi SY, Cho HS, Kim HJ, Ryu CH, Lee JO, Sung NJ. 2006. Physicochemical analysis and antioxidative effects of wildgrape( Vitis coignetiea) juice and its wine. Korean J Food & Nutr 19:311-317
  13. Gawel R. 1998. Red wine astringency, a review. Austr J Grape Wine Res 4:74-95 https://doi.org/10.1111/j.1755-0238.1998.tb00137.x
  14. Gawel R, Iland PG, Francis IL. 2001. Characterizing the astringency of red wine: A case study. Food Quality and Preference 12:83-94 https://doi.org/10.1016/S0950-3293(00)00033-1
  15. Glories Y. 1984. The color of red wines, Connaiss. Vigne Vin 18:253
  16. Haight KG, Gump BH. 1994. The use of macerating enzymes in grape juice processing. Am J Enol Vitic 45:113-116
  17. Haslam E. 1980. In vino veritas: Oligomeric procyanidins and the ageing of red wines. Phytochem 19:2577-2582 https://doi.org/10.1016/S0031-9422(00)83922-9
  18. Heo YH. 1997. Fermentation Technology Laboratory Experiments. pp.59-64, Jigu Publishing Co.
  19. Hertog MGL, Feskens EJM, Hollman PCH, Katan MB. Kromhout D. 1993. Dietary antioxidant flavonoids and risk of coronary heart disease. The Lancet 342:1007-1011 https://doi.org/10.1016/0140-6736(93)92876-U
  20. Kang BT, Yoon OH, Lee JW, Kim SH. 2009. Qualitative properties of wild grape wine having different aging periods. Korean J Food & Nutr 22:548-553
  21. Kennedy JA, Troup GJ, Pilbrow JR, Hutton DR, Hewitt D, Hunter CR, Ristic R, Iland PG, Jones GP. 2000. Development of seed polyphenols in berries from Vitis vinifera L. cv. Shiraz. Australian Journal of Grape and Wine Research 6:244-254 https://doi.org/10.1111/j.1755-0238.2000.tb00185.x
  22. Kim JC. 2002. Wine an Introduction. pp.68-88. Baek-san Publishing Co.
  23. Kim JC, Lee SH, Min HL, Lee DS, Kim JK. 2009. Oenology Enology. pp.111-276. Baek-san Publishing Co.
  24. Kim JS, Kim SH, Han JS, Yoon BT, Yook C. 1999. Effect of sugar and yeast addition on red wine fermentation using Campbell Early. Korean J Food Sci Technol 31:516-521
  25. Kim JS, Sim JY, Yook C. 2001. Development of red wine using domestic grapes, Campbell Early, part(I) Characteristics of red wine fermentation using Campbell Early and different sugars. Korean J Food Sci Technol 33:319-326
  26. Koh KH, Lee JH, Yoon KR, Choi SY, Seo KL. 1998. Phenolic compounds of Korean red wine and their superoxide radical scavenging activity. Food Sci Biotechnol 7:131-135
  27. Lee CH, Chae SK, Lee JK, Koh KH, Son HS. 2004. Food Evaluation & Quality Control. pp.267-276. Yulim Publishing Co.
  28. Lee JE, Shin YS, Sim JK, Kim SS, Koh KH. 2002a. Study on the color characteristics of Korean red wine. Korean J Food Sci Technol 34:164-169
  29. Lee JE, Won YD, Kim SS, Koh KH. 2002b. The chemical characteristics of Korean red wine with different grape varieties. Korean J Food Sci Technol 34:151-156
  30. Lee KY, Koh KC, Lee JC, Yoo YS, Kim SK. 1986. Viticulture in the Future. pp.50-51. Daehan Textbook Co. Ltd.
  31. Matthews S, Mila I, Scalbert A, Donnelly DMX. 1997. Extractable and non-extractable proanthocyanidins in barks. Phytochem 45:405-410 https://doi.org/10.1016/S0031-9422(96)00873-4
  32. Of Stefano R, Cravero MC. 1989. The phenolic compounds and the nature of the color of red wines. L. Enotecnico 25:81-87
  33. Ough CS, Amerine MA. 1988. Methods for Analysis of Musts and Wines. Second Edition. J. Wiley & Sons, New York
  34. Ough CS, Berg HW. 1974. The effect of two commercial pectic enzymes on grape musts and wines. Am J Enol Vitic 25: 208-211
  35. Ough CS, Noble AC, Temple D. 1975. Pectic enzyme effects on red grapes. Am J Enol Vitic 26:195-200
  36. Park SH, Cho JS, Kim SS. 2005. Hangeul SPSS, SPSS Academy Press
  37. Park YH. 1975. Studies on the grape variety and selection of yeast strain for wine making in Korea. J Korean Agr Chem Soc 18:219-227
  38. Peynaud E. 1984. Knowing and Making Wine. pp.172-196J. Wiley & Sons, New York
  39. Renaud S, de Lorgeril M. 1992. Wine, alcohol, platelets, and the French paradox for coronary heart disease. The Lancet 339:1523-1526 https://doi.org/10.1016/0140-6736(92)91277-F
  40. Ribereau-Gayon P, Glories Y, Maujean A, Dubourdieu D. 2006. Handbook of Enology, The Chemistry of Wine: Stabilization and Treatments (Volume 2). pp. 129-185J. Wiley & Sons, New York
  41. Ritchey JG, Waterhouse AL. 1999. A standard red wine: Monomeric phenolic analysis of commercial cabernet sauvignon wines. Am J Enol Vitic 50:91-100
  42. Schneider T, Gerbi V, Redoglia M. 1987. To rapid HPLC method for separation and determination of major organic acids in grape musts and wines. Am J Enol Vitic 38:151-155
  43. Singleton VL, Esau P. 1969. Phenolic Substance in Grapes and Wine, and Their Significance, pp.7-60. New York, Academic Press
  44. Somers TC. 1966. Wine tannins - isolation of condensed flavonoid pigments by gel-filtration. Nature 209:368-370 https://doi.org/10.1038/209368a0
  45. Sudraud P. 1958. Interpretation DES courbes d.absorbtion DES vins rouges. Ann Technol Agric 7:203-208
  46. Taines CH. 1984. Application of pectinases, Practical Winery Vineyard May/June:30-33
  47. Yoo JY, Seog HM, Shin DH, Min BY. 1984. Enological characteristics of Korean grapes and quality evaluation of their wine. Korean J Appl Microbial Bioeng 12:185-190
  48. Zoeklein BW, Fugelsang KC, Gump BH, Nury FS. 1990. Production Wine Analysis. pp.129-168. Van Nostrand Reinhold, New York, USA