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Extension Properties of Frozen Hard Wheat Flour Doughs Mixed with Ascorbic Acid and Gluten Hydrolysate  

Koh, Bong-Kyung (Department of Food and Nutrition, Keimyung University)
Publication Information
Food Science and Biotechnology / v.16, no.4, 2007 , pp. 590-593 More about this Journal
Abstract
The textural properties of doughs mixed with L-ascorbic acid (AA), trypsin hydrolyzed gluten peptide (THGP), and a mixture of AA-THGP were investigated using texture analyzer under the fermentation of the full formula and the freezing process. The full formula dough (FFD) required a shorter mixing time than the flour and water formula dough (FWD). The maximum resistance (Rmax) values of both the unfrozen and frozen doughs were lower for the FFD. The effects of AA and THGP additions were not significant (p<0.01) in FFD, however, they were significant in FWD. The freezing effect was significant (p<0.0001) for FFD, indicating that yeast fermented dough was much more sensitive to damage from freezing, which subsequently affected dough strength. Additions of AA (p=0.0026) and THGP (p=0.0097) had a significant effect on the extensibility (E-value) of unfrozen FWD, where THGP increased and AA decreased the E-value. However, freezing did not significantly effect the extensibilities of FWD (p=0.64) or FFD (p=0.21). The area of FFD was lower than the area of FWD for both the unfrozen and frozen doughs. However, the frozen dough mixed with THGP alone had the largest area overall. The addition of additives did not result in significantly different (p<0.01) areas under the curve, except in the frozen FFD. Freezing caused a statistically significant difference in the area of FWD (p=0.0045).
Keywords
wheat flour dough; dough extension; frozen dough; gluten peptide; ascorbic acid;
Citations & Related Records
Times Cited By KSCI : 2  (Citation Analysis)
Times Cited By Web Of Science : 0  (Related Records In Web of Science)
Times Cited By SCOPUS : 0
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1 Bloksma AH. Rheology of the bread making process. Cereal Food World 35: 228-236 (1990)
2 Preston KR, Kilborn RH. Sponge-and-dough bread: Effects of fermentation, bromate, and sponge salt upon the baking and physical dough properties of a Candian red spring wheat. J. Food Sci. 47: 1143-1148 (1982)   DOI
3 Sharadanant R, Khan K. Effect of hydrophilic gums on frozen dough. I. Dough quality. Cereal Chem. 80: 764-772 (2003)   DOI
4 Song KA, Koh BK. Effect of enzymatically hydrolyzed vital wheat gluten on dough mixing and the baking properties of wheat flour frozen dough. Food Sci. Biotechnol. 15: 173-176 (2006)   과학기술학회마을
5 Kim DH, Koh BK. Freezing and fermentation curves of the dough frozen at the different freezing condition. Food Sci. Biotechnol. 11: 99-104 (2002)
6 Kuninori T, Matsumoto H. L-Ascorbic acid oxidizing system in dough and dough improvement. Cereal Chem. 40: 647-657 (1963)
7 Kieffer R, Wieser H, Henderson MH, Graveland A. Correlations of the breadmaking performance of wheat flour with rheological measurements on a micro-scale. J. Cereal Sci. 27: 53-60 (1998)   DOI   ScienceOn
8 Shiba K, Negishi Y, Okada K, Nagao S. Chemical changes during sponge-dough fermentation. Cereal Chem. 67: 350-353 (1990)
9 Inoue Y, Bushuk W. Studies on frozen dough. II. Flour quality requirements for bread production from frozen dough. Cereal Chem. 69: 423-428 (1992)
10 El-Hady EA, El-Samahy SK, Seibel W, Brummer JM. Changes in gas production and retention in non-prefermented frozen wheat dough. Cereal Chem. 73: 472-477 (1996)
11 Inoue Y, Bushuk W. Studies on frozen dough. I. Effects of frozen storage and freeze-thaw cycles on baking and rheological properties. Cereal Chem. 68: 627-631 (1991)
12 Suchy J, Lukow OM, Ingelin ME. Dough microextensibility method using a 2-g mixograph and a texture analyzer. Cereal Chem. 77: 39-43 (2000)   DOI
13 Kilborn RH, Preston KR. A modified extensigraph procedure for measuring the stretching properties of fermented dough. Cereal Chem. 59: 381-384 (1982)
14 Varriano-Marston E, Hsu KH, Mahdi J. Rheological and structural change in frozen dough. Baker's Dig. 54: 32-34 (1980)
15 Casutt V, Preston KR, Kilborn RH. Effects of fermentation time, inherent flour strength, and salt level on extensigraph properties of full-formula remix-to-peak processed doughs. Cereal Chem. 61: 454-459 (1984)
16 Koh BK, Lee GC, Lim ST. Effect of amino acids and peptides on mixing and frozen dough properties of wheat flour. J. Food Sci. 70: S359-364 (2005)   DOI
17 Preston KR, Hoseney RC. Applications of the extensigraph. pp.13- 19. In: The Extensigraph Handbook. Rasper F, Preston KR (eds). The American Association of Cereal Chemists, Inc., St. Paul, MN, USA (1991)
18 SAS Institute, Inc. SAS User's Guide. Statistical Analysis System Institute, Cary, NC, USA (1990)
19 AACC International. Approved Methods of the AACC. 10th ed. Method 10-10B, Optimized straight-dough bread-making method; Method 54-40A, Mixograph method. The American Association of Cereal Chemists, Inc., St. Paul, MN, USA (2000)
20 Basman A, Koksel H, Ng PKW. Utilization of transglutaminase to increase the level of barley and soy flour incorporation in wheat flour breads. J. Food Sci. 68: 2453-2460 (2003)   DOI   ScienceOn