Browse > Article

Effects of Sugars and Pectin on the Quality Characteristics of Low Sugar Wild Vine (Vitis coignetiea) Jam  

Kim, Moon-Jung (Inha University)
Yoon, Suk-Hoo (Korea Food Research Institute)
Jung, Mun-Yhung (Woosuk University)
Choe, Eun-Ok (Inha University)
Publication Information
Korean journal of food and cookery science / v.24, no.2, 2008 , pp. 206-211 More about this Journal
Abstract
This study investigated the feasibility of manufacturing a low-sugar wild vine jam by examining viscosity, water content, and pH, as affected by sugar and pectin content. The jams were prepared by adding various amounts of sucrose, glucose, or fructose (1.89 M, 2.34 M, 2.63 M, or 2.92 M) and/ or pectin (0%, 0.3%, 0.5%, 0.8%, or 1%) to wild vine juice and heating at $90^{\circ}C$ for 3 hrs. A higher viscosity was shown for the jam manufactured with sucrose as compared to those made with glucose or fructose, and the greater the sucrose level the higher the viscosity of the jam. The jam with 50% reduced sugar content showed a similar viscosity to the control jam, which contained only 2.92 M sucrose, when the sugar was co-added with pectin at 0.5% for the low sucrose jam, and at 0.8% for the low glucose or low fructose jams, respectively. The water content of the low sucrose jam was lower than that of the low glucose or low fructose jams, and adding pectin had no significant effect on the water content of the low sugar jam. The pH levels of the jams were not significantly different, regardless of the type and concentration of sugar, temperature, or pectin addition, and ranged between 3.6 and 3.8. Overall, the results clearly show that wild vine jam with 50% reduced sugar content and having the same viscosity as control jam, can be manufactured when pectin and sugar are added together.
Keywords
low sugar wild vine jam; pectin; viscosity; pH; water content;
Citations & Related Records
Times Cited By KSCI : 3  (Citation Analysis)
연도 인용수 순위
1 Kim IJ. 머루 고소득 작물개발 연구. Available from: http://www.ares.gangwon.kr/module/board/FileDownload.asp?Mcode=10301&tbname=ex_report&seq=586&order=O. Accessed on January 9, 2008
2 Kim MY, Chun SS. 2000. The effects of fructo-oligosaccharide on the quality characteristics of strawberry jam. Korean J Soc Food Sci 16(6):530-537
3 McKee LH, Whitehead CG, Remmenga M. 2002. Quality characteristics of red raspberry fruit spread made with four sweeteners. Plant Foods Hum Nutr 57(3):343-352   DOI
4 Raphaelides SN, Ambatzidou A, Petridis D. 1996. Sugar composition effects on textural parameters of peach jam. J Food Sci 61(5):942-946   DOI   ScienceOn
5 Hyvonen L, Torma R. 1983a. Examination of sugars, sugar alcohols, and artificial sweeteners as substitutes for sucrose in strawberry jam. Product development. J Food Sci 48(1):183-185   DOI
6 Kim SY, Kim SK. 1997. Winemaking from new wild grape. Korean J Food Nutr 10(2):254-262
7 Choi SY, Cho HS, Kim HJ, Ryu JH, Lee JO, Sung NJ. 2006. Physicochemical analysis and antioxidative effects of wild grape (Vitis coignetiea) juice and its wine. Korean J Food Nutr 19(3):311-317   과학기술학회마을
8 Kim NY, Choi JH, Kim YK, Jang MY, Moon JH, Park GH, Oh DH. 2006. Isolation and identification of an antioxidant substance from ethanol extract of wild grape (Vitis coignetiea) seed. Korean J Food Sci Technol 38(1):109-113   과학기술학회마을
9 Rees DA. 1969. Structure, conformation and mechanism in the formation of polysaccharide gels and networks. vol. 24, pp.267-332. In: Advances in carbohydrate chemistry and biochemistry. Wolfrom ML, Tipson RS, Horton D (ed). Academic Press. New York, NY. U.S.A
10 Ragab M. 1987. Characteristics of apricot jam sweetened with saccharin and xylitol. Food Chem 23(1):55-64   DOI   ScienceOn
11 Hyvonen L, Torma R. 1983b. Examination of sugars, sugar alcohols, and artificial sweeteners as substitutes for sucrose in strawberry jam. Keeping quality tests. J Food Sci 48(1): 186-192   DOI
12 Byun MW, Yook HS, Ahn HJ, Lee KH, Lee HJ. 2000. Quality evaluation of strawberry jams prepared with refined dietary fiber from ascidian (Halocynthia roretzi) tunic. Korean J Food Sci Technol 32(5):1068-1072
13 Kim SK. 1996. Deacidification of new wild grape wine. Korean J Food Nutr 9(3):265-270
14 Oakenfull D, Scott A. 1984. Hydrophobic interaction in the gelation of high methoxyl pectins. J Food Sci 49(4):1093-1098   DOI
15 Chen TS, Joslyn MA. 1967a. The effect of sugars on viscosity of pectin solutions. I. Comparison of corn syrup with sucrose solutions. J Collid Interface Sci 23(3):399-406   DOI   ScienceOn
16 Kim M, Yoon SH, Jung M, and Choe E. 2007. Stability of anthocyanin in wild vines (Vitis coignetiea) in the presence of light and riboflavin. Presented at the 74th meeting of the Korean Soc of Food Sci and Technol. Busan, Korea, pp 275
17 Park MK. 2007. Quality characteristics of strawberry jam containing sugar alcohols. Korean J Food Sci Technol 39(1): 44-49   과학기술학회마을
18 SAS Institute, Inc. 2001. SAS/STAT User's Guide, Version 8.20th ed. Statistical Analysis System Institute, Cary, NC. U.S.A
19 Chen TS, Joslyn MA. 1967b. The effect of sugars on viscosity of pectin solutions. II. Comparison of dextrose, maltose, and dextrins. J Collid Interface Sci 25(3):346-352   DOI   ScienceOn
20 Food Journal. 2007. 식품유통연감. pp 425-431. (주) 식품저널
21 Rao MA, Buren JP, Cooley HJ. 1993. Rheological changes during gelation of high-methoxyl pectin/fructose dispersions: Effect of temperature and aging. J Food Sci 58(1):173-176   DOI   ScienceOn
22 Hwang IK, Ahn SY. 1975. Studies on the anthocyanin in wild vines (Vitis amurensis Ruprecht) (part 1). J Korean Agric Chern Soc 18(4):183-187
23 Kar F, Arslan N. 1999. Effect of temperature and concentration on viscosity of orange peel pectin solutions and intrinsic viscosity-molecular weight relationship. Carbohyd Polym 40(4):277-284   DOI   ScienceOn