• Culinary science and hospitality research
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• v.12 no.4 s.31
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• pp.236-246
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• 2006

The different rheological properties of wheat flour and waxy black rice flour dough were investigated in dough with 10, 20, 30 and 40% of waxy black rice flour(WBRF). Water absorption and weakness of dough was increased, but stability of dough, high initial pasting temperature, viscosity at peak point and the volume were decreased after 2nd fermentation as the addition of WBRF was increased. In the 10% addition of WBRF, the dough showed similar rheological properties with those of control group.

• Journal of the Korean Society of Food Science and Nutrition
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• v.28 no.5
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• pp.1034-1043
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• 1999

Rheological properties of dough made from waxy barley(Iri28) flour wheat flour mixtures with additives were investigated for the preparation of waxy barley bread using farinograph, extensograph and amy lograph. The water absorption, development time and dough weakness increased as the waxy barley flour level increased in all blends; however, dough stability decreased. Farinogram properties of 10% waxy barley flour added mixture were similar to those of 100% wheat flour. The addition of A.A(ascorbic acid), gluten, HPMC(hydroxy propyl methyl cellulose) improved rheological properties of dough with 30% waxy barley flour added mixture. In particular, stability and weakness of the dough showed greater dough improving effect by addition of A.A. For the extensograph data, strength, resistance and extensibility of dough decreased with increasing level of waxy barley flour. With the addition of additives, extensogram properties were variable for 30% waxy barley flour mixture. Of these additives, gluten had highest value in strength of dough. Addition of A.A and HPMC to 30% waxy barley flour added mixture resulted in an increase in the resistance and a decrease in the extensibility. Waxy barley flour added mixtures showed little higher gelatinization temperature on amylograph data than control. Maximum viscosity reduced as the waxy barley flour level increased. Also 30% waxy barley flour added mixture containing A.A and HPMC showed a decrease in maximum viscosity. But addition of gluten to 30% waxy barley flour mixture resulted an increase in the maximum viscosity. All of 30% waxy barley flour added mixture with additives had lower gelatinization temperature than those without additives. In the SEM images, starch granules were dispersed in a protein matrix. A non continuous, loose protein starch matrix was observed in all waxy barley flour mixture by SEM. Addition of additives gave the dough a more continuous structure with interactions between the starch granule and protein component.

• Journal of the Korean Society of Food Science and Nutrition
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• v.38 no.6
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• pp.795-800
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• 2009

This study was carried out to investigate the rheological properties of bread dough containing whey ferment cultured by L. acidophilus KCCM 32820 and P. freudenreichii KCCM 31227. Instrumental analysis such as farinograph, amylograph, extensograph, fermentation power, total titratable acidity (TTA) of dough and pH of dough were tested. On farinograph, difference of water absorption between doughs with and without whey ferment was 0.4% and dough containing whey ferment showed long development time of 3.2 min compared to dough without whey ferment, but showed shorter stability of 16.2 min. On amylograph, there was no significant difference on gelatinization and maximum viscosity temperature; however, maximum viscosity of flour with whey ferment revealed low amylograph unit. On extensograph, value of resistance and R/E ratio of dough containing whey ferment were higher than those of dough without whey ferment. On analysis of dough fermentation power by yeast, dough without whey ferment showed higher volume than dough with whey ferment during fermentation of 240 min. However, TTA of dough was higher in dough with whey ferment than that of the control without whey ferment, even though pH value was low.

• Food Science and Biotechnology
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• v.15 no.2
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• pp.173-176
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• 2006

The effect of enzymatically hydrolyzed vital wheat gluten (EHG) on dough mixing and the baking quality of wheat flour frozen dough was examined. Three different proteases, pepsin, trypsin, and chymotrypsin, were tested individually, sequentially paired, or in combination of all three enzymes. Addition of 1% EHG produced no observable effect on the mixing properties of wheat flour dough. However, addition of 2.5% pepsin-hydrolyzed gluten decreased the mixing tolerance of the wheat flour, and 1% trypsin-hydrolyzed gluten increased the loaf volume of both frozen and non-frozen dough. This finding suggests that trypsin-hydrolyzed vital wheat gluten may serve as a baking additive in replacement for $KBrO_3$ to improve frozen dough quality.

• Journal of the Korean Society of Food Science and Nutrition
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• v.27 no.6
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• pp.1125-1131
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• 1998

The rheological properties of wheat flour dough were investigated in the dough added with 0, 10, 15, 20, 25 and 30% of wheat bran. The ratios of ash contents in wheat flour and wheat bran were 0.43% and 5.28%, respectively. The ratios of fiber contents in wheat flour and wheat bran were 0.18% and 11.86%, respectively. The farinograph water absorption was increased as the amount of wheat bran was increased. Both arrival time and development time of the dough added with wheat bran were longer than those of wheat flour. As the amount of wheat bran was increased, the weakness was increased. The extensograph showed that extensibility and resistance to extension of dough were decreased, while the ratio of resistance to extensibility(R/E) was increased with increasing the amo unt of wheat bran. The maximum viscosity by amylograph was decreased gradually with the adding amount of wheat bran, while the gelatinization temperature was slightly increased with wheat bran.

• Korean journal of food and cookery science
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• v.27 no.2
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• pp.9-17
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• 2011

In this study, the physicochemical properties of polished rice flour, brown rice flour, and Jeung-pyun dough were studied. The protein, lipid, dietary fiber, pH of brown rice flour were higher than those of polished rice flour. The total polyphenol contents and electron donating ability (EDA) of brown rice flour (83.60 mg%, 2.44%, respectively) were higher than those of polished rice flour (56.91 mg%, 1.43%, respectively). The temperature gelatinization of brown rice flour higher than that of polished rice flour. The counts in Jeung-pyun dough were not significantly decreased brown-rice flour. The addition of brown rice flour decreased the amount of carbon dioxide gas evoluted from Jeung-pyun dough. The pH values of brown rice Jeung-pyun dough generally decreased fermentation time.

• Food Science and Preservation
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• v.15 no.2
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• pp.197-202
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• 2008

The effects of flour dough by addition of Poria Cocos Wolf powder were investigated in dough added with $0{\sim}5%$ powder by evaluation of dough. Rheological properties of dough by mixograph, farinograph, alveograph and extensograph, and scanning electron microscope. The water absorption rate and resistance were increased by Increase of Poria Cocos Wolf powder. Mixograph for dough stability and v/v point dough were increased in dough added $1{\sim}2$ percent of Poria Cocos Wolf powder. In water absorption, stability and valorimeter value of the dough increased in weakness of the dough, as revealed through farinogram, extensiblity, resistance to extension, and energy increased in R/E ratio, as revealed through extensogram. Scanning electron microscope of bread wasn't changed by Poria Cocos Wolf powder.

• Culinary science and hospitality research
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• v.15 no.1
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• pp.149-156
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• 2009

This study was carried out to evaluate the effect of whey brew cultured by the mixed Lactobacillus helveticus ATCC 55163 and Propionibacterium acidipropionici 5020 on the rheological properties of flour dough. 10 and 15% of whey brews were added to the dough based on flour. Farinograph, alveograph, Rapid Visco Analyzer, and fermenting power of dough were analyzed. In the farinograph analysis, as the amount of whey brews increased on dough samples, water absorption, dough development time, stability, and breakdown increased. In the alveograph analysis, as the amount of whey brews increased on dough samples, P and W value increased while L and G value decreased. In the Rapid Visco Analyzer analysis, as the amount of whey brews increased on dough samples, initial pasting temperature and peak viscosity increased while final viscosity and setback decreased. Decrease of setback showed the delay of starch retrogradation. As the amount of whey brews increased on dough samples, fermenting power of dough got reduced.

• Journal of Plant Biotechnology
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• v.1 no.1
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• pp.13-19
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• 1999

The visco-elastic properties of gluten are major determinants of the processing properties of doughs. These visco-elastic properties are strongly influenced by the ratio of monomeric and polymeric proteins and the size distribution of the polymeric proteins, which make up the gluten fraction of the dough. Recent studies have revealed that other features, such as the number of the cysteine residues of the HMW-GS, also play an important role in determining the functional characteristics. To modify the processing properties at molecular level, the relationship between the structure of molecules and dough properties has to be understood. In order to explore the relationships between individual proteins and dough properties, we have developed procedures for incorporating bacterially expressed proteins into doughs, and measuring their functional properties in small-scale equipment. A major problem in investigating the structure/function relationships of individual seed storage proteins is to obtain sufficient amounts of pure polypeptides from the complex families of proteins expressed in the endosperm. Therefore, we have established a simplified model system in which we produce specific protein genes through bacterial expression and test their functional properties in smallscale apparatus after incorporation into base flour. An S poor protein gene has been chosen as a template gene. This template gene has been modified using standard recombinant DNA techniques in order to test the effects of varying the number and position of cysteine residues, and the size of the protein. Doughs have been mixed in small scale apparatus and characterized with respect to their polymeric composition and their functional properties, including dough mixing, extensibility and small scale bating. We conclude that dough characteristics can be manipulated in a predictable manner by altering the cysteine residues and the size of high molecular weight glutenins.

• Journal of the East Asian Society of Dietary Life
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• v.11 no.6
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• pp.485-497
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• 2001

For a period of 5 days, the quality of breads with Paecilomyces japonica powder were investigated using chemical, sensory, and mechanical evaluations at $25^{\circ}C$. The result of analysis of chemical properties revealed that the pH value of dough was increased as the amount of Paecilomyces japonica powder increased, but volume of dough and baking loss rate were decreased. Breads with 1% and 2% Paecilomyces japonica powder showed a good overall preference in sensory evaluation. As storing time passed. moisture content, lightness, and redness were decreased in all breads, but yellowness increased. Hardness and gumminess of texture analysis were increased as storing time passed, but springiness decreased. Springiness of the mechanical properties was negatively correlated with pH value of dough and volume of bread, while was positively correlated with volume of dough and baking loss rate. In the analysis of correlation between sensory and mechanical properties showed that hardness of mechanical properties had negative correlation with softness, moistness, and springiness. Cohesiveness of mechanical properties had positive correlation with acceptability.