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http://dx.doi.org/10.3746/jkfn.2016.45.10.1453

Characteristics of Sponge Cake Prepared with Yacon Concentrates as Sugar Substitute  

Kim, Kee-Hyuk (Department of Food Science & Biotechnology, Woosong University)
Lee, Gyu-Hee (Culinary Science Research Center, Woosong University)
Publication Information
Journal of the Korean Society of Food Science and Nutrition / v.45, no.10, 2016 , pp. 1453-1459 More about this Journal
Abstract
Yacon syrup, which contains fructooligosaccharides (FOS), was used as a substitute for sugar to make functional healthy sponge cake. Regarding characteristics of sponge cake with various yacon syrup concentrations, height and volume decreased while moisture content increased with increasing yacon syrup concentration. Sponge cake with increasing yacon syrup content showed a greater green-yellowish color. Springiness, cohesiveness, hardness, and brittleness decreased with increasing yacon syrup concentration. Hardness values of cakes made with 100% sugar (YS 0) and yacon syrup substitute for 10% sugar (YS 10) were not significantly different. Overall acceptance of sponge cake decreased with increasing yacon syrup content, whereas those of YS 0 and YS 10 were not significantly different. For storage period, moisture content of sponge cake with increasing yacon syrup concentration decreased during storage, whereas the decreasing moisture content was less than that of YS 0. The color of sponge cake with various yacon syrup concentrations did not change significantly during storage. Springiness and cohesiveness decreased during storage. Hardness increased with storage period, whereas that of sponge cake made with yacon syrup was lower than that of YS 0. In conclusion, sponge cake made with YS 10 is the best to make sponge cake with high consumer acceptance, reduced sugar content, and FOS.
Keywords
sugar; substitute; yacon; syrup; fructooligosaccharides;
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Times Cited By KSCI : 9  (Citation Analysis)
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1 Sanz T, Salvador A, Baixauli R, Fiszman SM. 2009. Evaluation of four types of resistant starch in muffins. II. Effects in texture, colour and consumer response. Eur Food Res Technol 229: 197-204.   DOI
2 Onyango C, Mutungi C, Unbehend G, Lindhauer MG. 2010. Rheological and baking characteristics of batter and bread prepared from pregelatinised cassava starch and sorghum and modified using microbial tansglutamiase. J Food Eng 97: 465-470.   DOI
3 Lee JY, Lee KA, Kwak EJ. 2009. Fermentation characteristics of bread added with Pleurotus eryngii powder. J Korean Soc Food Sci Nutr 38: 757-765.   DOI
4 Kim WM, Kim MK, Byun MW, Lee GH. 2012. Physical and sensory characteristics of bread prepared by substituting sugar with Yacon concentrate. J Korean Soc Food Sci Nutr 41: 1288-1293.   DOI
5 Yun Y, Kim YH, Kim YS, Choi SH, Eun JB. 2006. Effects of milk protein-gum conjugates on the characteristics of the dough and staling of bread made of frozen dough during freeze-thaw cycles. Korean J Food Preserv 13: 30-36.
6 Park JH, Lim CS, Kim IH, Kim MY. 2011. Effects of branched dextrin on the quality characteristics of frozen soft roll dough and its bread during storage. Korean J Food Cook Sci 27: 507-522.   DOI
7 Paraskevopoulou A, Donsouzi S, Nikiforidis CV, Kiosseoglou V. 2015. Quality characteristics of egg-reduced pound cakes following WPI and emulsifier incorporation. Food Res Int 69: 72-79.   DOI
8 Angioloni A, Collar C. 2011. Physicochemical and nutritional properties of reduced-caloric density high-fibre breads. LWT-Food Sci Technol 44: 747-758.   DOI
9 Min KJ, Cheon JU, Cha CG. 2008. Anti-oxidative and anticancer activities of extracting of Yacon. J Fd Hyg Safety 23: 163-168.
10 Ojansivu I, Ferreira CL, Salminen S. 2011. Yacon, a new source of prebiotic oligosaccharides with a history of safe use. Trends Food Sci Technol 22: 40-46.   DOI
11 Genta S, Cabrera W, Habib N, Pons J, Carillo IM, Grau A, Sanchez S. 2009. Yacon syrup: Beneficial effects on obesity and insulin resistance in humans. Clin Nutr 28: 182-187.   DOI
12 Kim AR, Lee JJ, Jung HO, Lee MY. 2010. Physicochemical composition and antioxidative effects of Yacon (Polymnia Sonchifolia). J Life Sci 20: 40-48.   DOI
13 Habib NC, Honoe SM, Genta SB, Sanchez SS. 2011. Hypolipidemic effect of Smallanthus sonchifolius (yacon) roots on diabetic rats: Biochemical approach. Chem Biol Interact 194: 31-39.   DOI
14 Lobo AR, Cocato ML, Borelli P, Gaievski EHS, Crisma AR, Nakajima K, Nakano EY, Colli C. 2011. Iron bioavailability from ferric pyrophosphate in rats fed with fructan-containing yacon (Smallanthus sonchifolius) flour. Food Chem 126: 885-891.   DOI
15 Park JS, Yang JS, Hwang BY, Yoo BK, Han K. 2009. Hypoglycemic effect of Yacon tuber extract and its constituent, chlorogenic acid, in streptozotocin-induced diabetic rats. Biomol Ther 17: 256-262.   DOI
16 Kim CS. 1994. The role of ingredients and thermal setting in high-ratio layer cake systems. J Korean Soc Food Nutr 23: 520-529.
17 Freeman TM. 1989. Sweetening cakes and cake mixes with alitame. Cereal Foods World 34: 1013-1015.
18 Choi YJ, Kim KO. 1990. Replacement of sucrose with other sweetener in sponge cakes. Korean J Soc Food Sci 6: 59-65.
19 Lee KA, Lee YJ, Ly SY. 1999. Effects of oligosaccharides on physical, sensory and textural characteristics of sponge cake. J Korean Soc Food Sci Nutr 28: 547-553.
20 Coleman PE, Harbers CAZ. 1983. High fructose corn syrup: Replacement for sucrose in angel cake. J Food Sci 48: 452-456.   DOI
21 Kim CS, Lee YS. 1997. Characteristics of sponge cakes with replacement of sucrose with oligosaccharides and sugar alcohols. Korean J Soc Food Sci 13: 204-212.
22 An HK, Hong GJ, Lee EJ. 2010. Properties of sponge cake with added saltwort (Salicorniaherbacea L.). Korean J Food Cult 25: 47-53.
23 Choi HS. 2007. Effects of the addition of polymannuronate on the textural characteristics of sponge cakes. Korean J Food Nutr 20: 47-52.
24 Stone H, Sidel JL. 1993. Sensory evaluation. 2nd ed. Academic Press, San Diego, CA, USA. p 202-242.
25 Celik I, Yilmaz Y, Isik F, Ustun O. 2007. Effect of soapwort extract on physical and sensory properties of sponge cakes and rheological properties of sponge cake batters. Food Chem 101: 907-911.   DOI
26 Zhu H, Damodaran S. 1994. Protease peptones and physical factors affect foaming properties of whey protein isolate. J Food Sci 59: 554-560.   DOI
27 Arunepanlop B, Morr CV, Karleskind D, Laye I. 1996. Partial replacement of egg white proteins with whey proteins in angel food cakes. J Food Sci 61: 1085-1093.   DOI
28 Yang HY, Cho YJ, Oh SS, Park KH. 2003. Effects of ratio and temperature of soybean oil or butter on the quality of sponge cake. Korean J Food Sci Technol 35: 856-864.
29 Fehaili S, Courel M, Rega B, Giampaoli P. 2010. An instrumented oven for the monitoring of thermal reactions during the baking of sponge cake. J Food Eng 101: 253-263.   DOI