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http://dx.doi.org/10.9799/ksfan.2021.34.5.516

Quality Characteristics and Functionality of Vin Chaud Prepared from Campbell Early Wine  

Park, Hyejin (Wine Research Institute, Chungcheongbukdo Agricultural Research and Extension Services)
Park, Eunha (Wine Research Institute, Chungcheongbukdo Agricultural Research and Extension Services)
Park, Eui Kwang (Wine Research Institute, Chungcheongbukdo Agricultural Research and Extension Services)
Choi, Sungyeol (Wine Research Institute, Chungcheongbukdo Agricultural Research and Extension Services)
Shin, Hyerim (Wine Research Institute, Chungcheongbukdo Agricultural Research and Extension Services)
Kim, Min-Ja (Wine Research Institute, Chungcheongbukdo Agricultural Research and Extension Services)
Publication Information
The Korean Journal of Food And Nutrition / v.34, no.5, 2021 , pp. 516-525 More about this Journal
Abstract
In this study, vin chaud were manufactured with eight types of vin chaud-bomb containing different amounts of ingredients, and Campbell Early wine. Samples were analyzed for pH, total acidity, volatile acidity, ethanol content, total polyphenol, and anthocyanins, and radical scavenging activities for antioxidant effect. Based on the results of this study the pH of the samples ranged from 3.34 to 3.41 and the total acidity of wines ranged from 0.55 to 1.00%. The alcohol contents of the vin chaud samples ranged from 3.8~5.8% to and the color intensity of the vin chaud samples was higher than that of the wine. Total polyphenol content was 145.90~262.98 mg% and the tannin content of the C-1 (236.90 mg%) was the highest among the samples. The ABTS and DPPH radical scavenging activity of the samples were 57.39~75.10% and 63.71~80.00% respectively. α-Glucosidase inhibitory activity ranged from 21.54 to 33.49%, on the other hand, wine was not detected and tyrosinase inhibitory activity had the highest values (39.26%) in the C-1 sample. The findings of the present study provide insightful scientific information on vin chaud, and forms a basis for further innovations in the food and wine industry.
Keywords
wine; vin chaud; quality characteristics; functional compounds; physiological activities;
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1 Amerine MA, Ough CS. 1980. Methods for Analysis of Musts and Wine. pp.176-180. John Wiley & Sons
2 Benzie IFF, Strain JJ. 1996. The ferric reducing ability of plasma (FRAP) as a measure of "antioxiant power": The FRAP assay. Anal Biochem 239:70-76   DOI
3 Blois MS. 1958. Antioxidant determinations by the use of a stable free radical. Nature 181:1199-1200   DOI
4 Bub A, Watzl B, Blockhaus M, Briviba K, Liegibel U, Muller H, Pool-Zobel BL, Rechkemmer G. 2003. Fruit juice consumption modulates antioxidative status, immune status and DNA damage. J Nutr Biochem 14:90-98   DOI
5 Burin VM, Falcao LD, Gonzaga LV, Fett R, Rosier JP, Bordignon-Luiz MT. 2010. Colour, phenolic content and antioxidant activity of grape juice. Food Sci Technol 30:1027-1032   DOI
6 Chang EH, Jeong ST, Roh JH, Jeong SM, Lee HC, Choi JU. 2010. Wine quality properties with reference to the temperature of grape-must prior to fermentation. Korean J Food Preserv 17:608-615
7 Choi SY, Cho HS, Kim HJ, Ryu CH, Lee JO, Sung NJ. 2006. Physicochemical analysis and antioxidative effects of wild grape (Vitis coignetiea) juice and its wine. Korean J Food Nutr 19:311-317
8 Duval B, Shetty K. 2001. The stimulation of phenolics and antioxidant activity in pea (Pisum sativum) elicited by genetically transformed anise root extract. J Food Biochem 25:361-377   DOI
9 Flurkey WH. 1991. Identification of tyrosinase in mushrooms by isoelectric focusing. J Food Sci 56:93-95   DOI
10 Giusti MM, Wrolstad RE. 2001. Characterization and measurement of anthocyanins by UV-visible spectroscopy. In Handbook of Current Protocols in Food Analytical Chemistry. John Wiley & Sons. pp.19-31.
11 Gua J, Jin YS, Han W, Shim TH, Sa JH, Wang MH. 2006. Studies for component analysis, antioxidative activity and α-glucosidase inhibitory activity from Equisetum arvense. J Korean Soc Appl Biol Chem 49:77-81
12 Gutfinger T. 1981. Polyphenols in olive oils. J Am Oil Chem Soc 58:966-968   DOI
13 Hong WS. 2018. The development plan of HMR according to the change of consumption trend. p.13, Proc Fall Meet Korean Soc Food Eng Suwon, Korea
14 Hong YA, Park HD. 2013. Role of non-Saccharomyces yeasts in Korean wines produced from Campbell Early grapes: Potential use of Hanseniaspora uvarum as a starter culture. Food Microbiol 34:207-214   DOI
15 Lee HH, Moon YS, Yun HK, Park PJ, Kwak EJ. 2014. Contents of bioactive constituents and antioxidant activities of cultivated and wild raspberries. Korean J Hort Sci Technol 32:115-122
16 Hwang CR, Oh SH, Kim HY, Lee SH, Hwang IG, Shin YS, Lee JS, Jeong HS. 2011. Chemical composition and antioxidant activity of Deoduk (Codonopsis lanceolata) and Doragi (Platycodon grandiflorum) according to temperature. J Korean Soc Food Sci Nutr 40:798-803   DOI
17 Jung SJ, Lee JH, Song HN, Seong NS, Lee SE, Baek NI. 2004. Screening for antioxidant activity of plant medicinal extracts. J Korean Soc Appl Biol Chem 47:135-140
18 Kang JH, Kim KA, Han JS. 2004. Korean diet and obesity. J Korean Soc Study Obes 13:34-41
19 Kim MS, Yeo SH, Park HD. 2013. Fermentation characteristics of Campbell Early wine by indigenous Saccharomyces cerevisiae yeasts with resistance to potassium metabisulfite and a high sugar concentration. Korean J Food Preserv 20:744-750   DOI
20 Kim SK. 1996. Deacidification of new wild grape wine. Korean J Food Nutr 9:265-270
21 Lee JH, Lee SR. 1994. Some physiological activity of phenolic substances in plant foods. Korean J Food Sci Technol 26:317-323
22 Lee JE, Shin YS, Sim JK, Kim SS, Koh KH. 2002. Study on the color characteristics of Korean red. Korean J Food Sci Technol 34:164-169
23 Robichaud JL, Noble AC. 1990. Astringency and bitterness of selected phenolics in wine. J Sci Food Agric 53:343-353   DOI
24 Richard PV. 1981. Commercial Wine Making. pp. 105-106. AVI Publishing
25 Riedel H, Saw NMMT, Akumo DN, Kutuk O, Smetanska I. 2012. Scientific, Health & Social Aspects of the Food Industry. INTECH Open Press
26 Stoclet JC, Kleschyov A, Andriambeloson E, Diebolt M, Andriantsitohaina R. 1999. Endothelial no release caused by red wine polyphenols. J Physiol Pharmacol 50:535-540
27 Tibbot BK, Skadsen RW. 1996. Molecular cloning and characterization of a gibberellin-inducible, putative α-glucosidase gene from barley. Plant Mol Biol 30:229-241   DOI
28 Urquiaga I, Leighton F. 2000. Plant polyphenol antioxidants and oxidative stress. Biol Res 33:55-64
29 Kim HY, Woo KS, Hwang IG, Lee YR, Jeong HS. 2008. Effects of heat treatments on the antioxidant activities of fruits and vegetables. Korean J Food Sci Technol 40:166-170
30 Yair M. 1997. Concepts in Wine Chemistry. pp.20-27. Wine Appreciation Guild
31 Roh HI, Chang EH, Joeng ST, Jahng KY. 2008. Characteristics of fermentation and wine quality. Korean J Food Preserv 15:317-324
32 Oh HI, Choi EK, Jeon EY, Cho MS, Oh JE. 2019. An exploratory research for reduction of sodium of Korean HMR product -analysis on labeling of Guk, Tang, Jjigae HMR products in Korea. J Korean Contents Assoc 19:510-519
33 Lee SJ, Lee JE, Kim SS. 2004. Development of Korean red wines using various grape varieties and preference measurement. Korean J Food Sci Technol 36:911-918
34 Lee SY, Park JD. 2004. Effects of heating temperatures and times on anthocyanin pigments in grape juice. Korean J Food Preserv 11:336-341
35 National Tax Service Technological Service Institute [NTSTSI]. 1999. Alcoholic Liquors Analytical Rule: National Tax Service Technical Service Instructions. pp.37-38. National Tax Service Technical Service Institute
36 Park JM, Park H, Jeong C, Choi W, Kim S, Yoon HS. 2017. Quality characteristics of Korean domestic commercial rose wines. Korean J Food Nutr 30:889-899   DOI
37 Yang JH, S H Baek, Park DW, Jun DH, Kim GJ, Jang MJ. 2014. In vitro activities of grape pruning stems for application of cosmetic ingredients. J Life Sci 24:648-654   DOI
38 Lee JY, Chae SK. 2010. 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. Korean J Food Nutr 23:324-331
39 Park MY, Park KO, Hwang SR, Song EJ, Park PS. 2011. Research on factors for the development and preference of grape foods in Seoul and Gyeonggi province. Korean J Community Living Sci 22:417-427   DOI
40 Nam SH, Kang MY. 2000. Screening of antioxidative activity of hot-water extracts from medicinal plants. J Korean Soc Agric Chem Biotechnol 43:141-147
41 Yeo ES, You HS, Kim HK, Kim SH. 2012. Schemes for putting wine to good use for skin care (influence of wine usages on skin care). Korean Soc Cosmet Cosmetol 2:1-7
42 Yoon HS, Park H, Park J, Jeon J, Jeong C, Choi W, Kim S, Park JM. 2017. Quality characteristics and volatile flavor components of aronia wine. Korean J Food Nutr 30:599-608   DOI
43 Yoon HS, Park JM, Park H, Jeong C, Choi W, Park J, Kim S. 2016. Quality characteristics of Korean domestic commercial white wines. Korean J Food Nutr 29:538-546   DOI
44 Park WM, Park HG, Rhee SJ, Lee CH, Yoon KE. 2002. Suitability of domestic grape, cultivar Campbell's Early, for production of red wine. Korean J Food Sci Technol 34:590-596
45 Monagas M, Gomez-Cordoves C, Bartolome B. 2006. Evolution of the phenolic content of red wines from Vitis vinifera L. during ageing in bottle. Food Chem 95:405-412   DOI
46 Jeong SH, Chang EH, Hur YY, Jeong SM, Nam JC, Koh SW, Choi IM. 2015. Phenolic compounds of must and wine supplemented with Muscat Bailey A grape fruit stem. Korean J Food Preserv 22:91-99   DOI