Effects of Waxy Wheat Flour and Water on Frozen Dough and Bread Properties |
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| Authors: | Jinhee Yi William L Kerr Jerry W Johnson |
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| Affiliation: | Author Yi is with Dept. of Biological Sciences, Northern Arizona Univ., Flagstaff, AZ, 86011, U.S.A. Author Kerr is with Dept. of Food Science &Technology, Univ. of Georgia, Athens, GA, 30602, U.S.A. Author Johnson is with Dept. of Crop and Soil Science, Univ. of Georgia, Griffin, GA 30223, U.S.A. Direct inquiries to author Kerr (E-mail: ). |
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| Abstract: | ABSTRACT: The quality of bread made from frozen dough is diminished by changes that occur during freezing. New cultivars of waxy wheat flour (WWF), containing less than 2% amylose, offer unique properties for the production of baked products. In this study, dough properties and bread quality were investigated at various levels of WWF (0% to 45% flour weight) and water (55% to 65%). Dough stickiness increased with higher levels of WWF and water. During frozen storage, dough with greater WWF and lower water had less change in stickiness. Maximum resistance to extension (MRE) decreased with higher WWF and water. Dough with greater WWF and less water had less change in extensibility after frozen storage. Dough with greater WWF and water was more extensible. Nuclear magnetic resonance (NMR) studies showed that frozen dough with higher WWF content had lower transverse relaxation ( T 2) time of 9 to 11ms. After frozen storage, dough with higher WWF still showed lower T 2. Dough with 15% WWF had higher yeast activity. Bread made from 15% and 30% WWF had higher volume in bread made from unfrozen and frozen dough. Bread firmness decreased with higher amounts of WWF and water. This research demonstrated that specific combinations of WWF and water produced a better quality of frozen dough and bread. |
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| Keywords: | extensibility frozen bread dough stickiness waxy wheat flour yeast activity |
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