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Effect of Active Gluten Supplementation on the Processing and Quality of Rice Bagel  

Lee, Young-Tack (Department of Food Science and Biotechnology, Kyungwon University)
Park, Young-Seo (Department of Food Science and Biotechnology, Kyungwon University)
Publication Information
Food Engineering Progress / v.13, no.1, 2009 , pp. 50-55 More about this Journal
Abstract
The effect of active gluten supplementation on the quality properties of rice bagel was investigated. Water hydration capacity of rice flour increased as the amount of gluten increased, whereas alkaline water retention capacity decreased. Pelshenke value and sedimentation value were incerased as the amount of gluten increased, but these values are lower than those of strong wheat flour. Peak viscosity, setback, peak height, and peak width decreased as the amount of gluten increased. When the active gluten of 23% was added to the rice flour, the specific loaf volume of bagel increased more that two times compared with the active gluten of 11%. Hardness, gumminess, and chewiness were decreased as the amount of gluten increased. Specific loaf volume of bagel showed highly positive correlation in water hydration capacity, Pelshenke value, and sedimentation value of which values were r=0.962, r =0.964, and r =0.966, respectively.
Keywords
active gluten; rice bagel; quality; specific loaf volume;
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Times Cited By KSCI : 2  (Citation Analysis)
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1 Miyauchi KS, Watanabe T. 1978. Modified soybean protein with high water-holding capacity. Cereal Chem. 55: 157-159
2 Lee YT, Chang HG. 2003. Effects of waxy and normal hull-less barleys flours on bread-making properties. Korean J. Food Sci. Technol. 35: 918-923   과학기술학회마을   ScienceOn
3 Lee YT, Park YS, Chang HG. 2006. Effect of soy protein concentrate on the properties of white layer cake making. Food Eng. Prog. 10: 107-119
4 Lent PJ, Grant LA. 2001. Effects of additives and storage temperature on staling properties of bagels. Cereal Chem. c: 619-629   DOI   ScienceOn
5 Quinn JR, Patton D. 1979. A practical measurement of water hydration capacity of protein materials. Cereal Chem. 56: 38-40
6 Yamazaki WT. 1953. An alkaline water retention capacity test for the evaluation of cookie baking potentialities of soft winter wheat flour. Cereal Chem. 30: 242-249
7 You SH, Chang HG, Park YS. 2006. Baking properties of bagel supplemented with rye flour. Food Eng. Prog. 10: 233-241
8 Nishita KD, Robert RL, Bean MM, Kennedy BM. 1976. Development of a yeast-leavened rice-bread formula. Cereal Chem. 53: 626-635
9 Lee YT. 1994. Formula optimization for rice bread with soy flour substitution. Food Biotechnol. 3: 226-232
10 Finney KF, Shorgren MD. 1972. A ten-gram mixograph for determining and functional properties of wheat flour. Bakers Dig. 46: 32-36
11 Nishita KD, Bean MM. 1979. Physicochemical properties of ricein relation to rice bread. Cereal Chem. 56: 185-189
12 AACC. 2000. Approved Methods of the AACC. 10th ed. American Association of Cereal Chemistry, Inc., St. Paul, MN, USA
13 Bason ML, Ronalds JA, Weigley CW. 1993. Hubbard LJ.Testing for sprout damage in malting barley using the Rapid Visco- Analyser. Cereal Chem. 70: 269-272   ScienceOn
14 Collins JL, Post AR. 1981. Peanut hull flour as a potential source of dietary fiber. J. Food Sci. 46: 445-448   DOI
15 Kum JS. 1998. Effects of amylose content on guality of rice bread. Korean J. Food Sci. Technol. 30: 590-595   과학기술학회마을   ScienceOn
16 McConnell AA, Eastwood MA, Mitchel WD. 1974. Physical characteristics of vegetable foodstuffs that could influence bowel function. J. Sci. Food Agric. 25: 1457-1460   DOI   PUBMED
17 Lin MJY, Humbert ES, Sosulski FW. 1974. Certain functional properties of sunflower meal products. J. Food Sci. 39: 368-372   DOI
18 Chang HG, Shin HS, Kim SS. 1984. Relation of physicochemical properties and cookie baking potentialities of Korean wheat flours. Korean J. Food Sci. Technol. 16: 149-152   ScienceOn
19 Kang MY, Choi YH, Choi HC. 1997. Effects of gums, fats and glutens adding on processing and quality of milled rice bread. Korean J. Food Sci. Technol. 29: 700-704   ScienceOn
20 Lee MH. 2009. Effects of food gums, emulsifiers, and enzymes on the quality characteristics of rice breads. Kyungwon University MS thesis
21 Kohlwey DE, Kendall JH, Mohindra RB. 1995. Using the physical properties of rice as a guide to formulation. Cereal Food World 40: 728-732   ScienceOn
22 Ross AS, Walker CE, Booth RI, Orth RA, Wrigley CW. 1987. The Rapid Visco-Analyzer: A new technique for the estimation of sprout damage. Cereal Food World 32: 827-829