Hee-Eun Choi scite author profile

The aim of this study was to determine the changes in fatty acid composition and sensory characteristics of cheonggukjang containing walnuts at 0, 10, 20, or 30%. Amino nitrogen content was decreased with increasing content of walnuts. However, cheonggukjang containing 30% of walnuts met the standard of food sanitation act. Volatile basic nitrogen contents of cheonggukjang containing walnuts was lower than that of cheonggukjang containing no walnut. There was no significant difference in total amino acid content for cheonggukjang containing 0%, 10%, or 20% of walnuts. However, total amino acid content in cheonggukjang containing 30% of walnuts was significantly lower than that in cheonggukjang containing 0%, 10%, or 20% of walnuts. The content of essential amino acid in cheonggukjang containing 30% of walnuts was also significantly lower than that in cheonggukjang containing 0%, 10%, or 20% of walnuts. Saturated fatty acid content was decreased significantly from 16.7% to 3.6% when the content of was increased from 0% to 30%. Total unsaturated fatty acid contents was increased with increasing amounts of walnut added to cheonggukjang. Result of sensory evaluation revealed that the taste and overall quality of cheonggukjang made with 10~20% walnuts were significantly higher compared to those of ordinary cheonggukjang. These results suggest that cheonggukjang made with 10~20% walnuts could be developed as a novel fermented food.

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Effect on the Rheology of Noodle Dough by the Addition of Konjac Powder

Park¹,

Choi²,

Lee³

et al. 2016

The Korean Journal of Food And Nutrition

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This study was conducted with the purpose of investigating the rheological characteristics of noodle flour dough supplementary konjac powder comprising 0%, 0.5%, 1.0%, 1.5% or 2.0% of the total mixture. In farinograph analysis, water absorption increased with the increased content of konjac powder. Both the arrival times and the development times of the dough with added konjac powder were longer than original wheat flour dough. Dough stability was found to be increased as compared to the control, but decreased as konjac powder content was increased. As konjac powder content increased, the resistance of the dough as shown by farinograph data was highest in the original wheat flour dough as 130 BU. Starting temperature, maximum viscosity temperature and maximum viscosity were decreased as shown in amylograph analysis. In extensograph analysis, the dough's extensibility and resistance to extension of the dough decreased as the amount of konjac powder was increased. The ratio of resistance to extensibility (R/E) decreased with the an increase in the amount of konjac powder included in the dough. The dough's tensile strength after cooking was increased in proportion to the additional amount of konjac powder used.

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Hee-Eun Choi

Radical-scavenging activities of citrus essential oils and their components: Detection using 1, 1-diphenyl-2-picrylhydrazyl

Evaluation of standard enrichment broths for recovery of healthy and chlorine-injured Escherichia coli O157:H7 cells in kimchi

Changes in Fatty Acid Composition and Sensory Characteristics of Cheonggukjang by Addition of Walnut

Effect on the Rheology of Noodle Dough by the Addition of Konjac Powder

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