• Food Science and Biotechnology
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• v.16 no.5
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• pp.812-816
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• 2007

To overcome the problem of ginseng's earthy smell in the manufacture of ginseng wine, we used dried ginseng powder that was extrusion-cooked at $125-168^{\circ}C$ in the wine making process. By using a ginseng powder that was extrusion-cooked at higher temperatures, fermentation by Maillard reaction products (MRPs) was delayed, and the acidic pH that results from extrusion cooking was improved. At $15^{\circ}C$ with glucose instead of sucrose, an addition of 0.5%(w/v) diammonium phosphate (DAP) to the $125^{\circ}C$ extrusion-cooked ginseng powder reduced the primary fermentation time to 11 days versus 33 days without DAP. In the absence of DAP, by increasing the fermentation temperature from 15 to $30^{\circ}C$, increasing the starter yeast inoculate from 0.02 to 1 %, and by increasing the amount of ginseng extrudate from 1 to 2%, fermentation time was effectively reduced more than 10-fold. The results of this study may provide information for the alcohol fermentation of materials containing MRPs as well as for poor nitrogen sources.

• Journal of the Korean Society of Food Science and Nutrition
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• v.26 no.5
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• pp.807-813
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• 1997

Various additives(glucono-$\delta$-lactone, glycine, chitosan, Chinese pepper extract+msutard oil, cinnamon oil+ginger oil+mustard oil, Chinese pepper extract), used in the Korean patents singularly or in combination, were tested for extension of shelf-life of kimchi. Addition of glucono-$\delta$-lactone or chitosan was somewhat effective in delaying the fermentation rate, however no such effect was seen by other additives. Chitosan at the concentrations of 0.5, 1.0, and 1.5% was similarily effective in delaying the fermen-tation rate. Mustard oil or cinnamon oil tend to delay the fermentation rate by singular addition at the concern tration of 0.5% or 1%. Soaking of the salted and washed Chinese cabbage in 0.5% chitosan solution resulted in delay of the fermentation rate of kimchi.

• Journal of the East Asian Society of Dietary Life
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• v.5 no.3
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• pp.287-298
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• 1995

This study was undertaken to examine the effect of salting in 10% salt solution added 2% calcium chloride on the kimchi fermentation. The addition of calcium chloride extended edible periods of the Kimchi to 4~5 days and increased relatively the hardness of Chinese Cabbage. In the addition of calcium chloride, the activities of amylase and $\beta$ -galactosidase were not high during all periods fermentation. Polygalacturonase and protease activities were low 2~21%, 2~26% all periods fermentation, respectively. There were significant correlations between the delay of ripeness and decreasing enzyme activation. The amount of free amino acid by the treatment with calcium chloride was decreased of 10~16% at the late of fermentation than that of control. the treatment with calcium chloride of the Kimchi was increased hardness, but decreased cohesiveness and gumminess was during all periods fermentation. the adhesiveness was increased at the early of fermentation but decreased at the late of fermentation.

• Korean Journal of Food Science and Technology
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• v.20 no.6
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• pp.883-889
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• 1988

The salted small shrimps(Acetes japonicus) were fermented for 3 months at room temperature. During the period of fermentation, the changes of shrimp protein properties were determined. The extractability of soluble protein was slightly decreased in 1 month fermentation, but thereafter increased. The contents of 10% TCA soluble fraction were gradually increased during 3 month fermentation, and the rate of 10% TCA soluble fraction/total soluble protein was also greatly increased during the period of fermentation. Sephadex G-100 gel filtration pattern was changed after 1 month fermentation, showing the disappearance of low molecular weight protein peaks, the decomposition and the delay of elution time of main shrimp protein peaks. Polyacrylamide gel disc electrophoresis patterns showed the degradation of main protein bands into lots of smaller bands after 1 month fermentation. The contents of total free amino acids were slightly decreased in 1 month fermentation and then gradually increased during the Period of fermentation. The rate of free amino acids/soluble protein was steadily increased during the period of fermentation, but the rate of free amino acids/10% TCA soluble fraction was decreased continually during the period of fermentation. The contents of most free amino acids were increased during the period of fermentation, but those of histidine and arginine were greatly decreased in 1 month fermentation. Ammonia was increased after 1 month fermentation. The pH value of salted shrimp was slowly changed during 3 months of fermentation, showing increase from 7.8 to 8.2.

• Journal of the East Asian Society of Dietary Life
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• v.21 no.2
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• pp.257-262
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• 2011

The objective of this study was to investigate the changes in the microbial properties of taurine supplemented Kimchi during fermentation at $6^{\circ}C$ for 46 days. Chinese cabbage was brined in 10% salt solution for the control Kimchi and in 10% salt solution containing 1, 2 or 4% taurine (w/w, based on cabbage) for taurine supplemented Kimchi (Taurine I, II, and III groups, respectively). The pH values of all the groups dramatically decreased after 1-day of fermentation. Total numbers of viable cells were highest at 5-days of fermentation for the control, at 9-days of fermentation for Taurine I, and at 23-days of fermentation for Taurine II and III. The highest numbers of lactic acid bacteria were found at 9-days of fermentation for the control and Taurine I, and at 18-days of fermentation for Taurine II, and at 13-days of fermentation for Taurine III. The fermentation periods required to reach the highest numbers of Leuconostoc bacteria for Taurine I, II and III were longer than that for the control, suggesting that taurine might inhibit the growth of Leuconostoc bacteria during Kimchi fermentation. Based on the results obtained from the present study, it is concluded that adding taurine to the production of Kimchi could delay the ripening period of Kimchi.

• Food Science and Biotechnology
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• v.15 no.6
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• pp.884-888
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• 2006

In this study, we have attempted to characterize the effects of encapsulated mustard oil with regard to the extension of the shelf life of kimchi. The quantity of mustard oil or encapsulated mustard oil added to the brined cabbage in this study was 0.05%(w/w). Overall, the fermentation processes in the encapsulated mustard oil-added kimchi (EMO) and mustard oil-added kimchi (MO) occurred at a slower rate than in the controls. The periods during which the MO and EMO kimchi samples were edible were prolonged for more than two weeks, according to measurements of pH, total acidity, and microbial changes. The overall acceptability of EMO was superior to MO throughout the entirety of the fermentation period. Sensory evaluation verified that EMO yielded a more favorable product than the MO and control varieties. Encapsulated mustard oil can be employed as a natural food additive to prolong the shelf life of kimchi, via an induced delay of the fermentation process.

• Korean journal of food and cookery science
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• v.30 no.4
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• pp.385-393
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• 2014

This study investigated both the chemical and antioxidative characteristics of wheat flour added with 10, 20 and 30% immature chalssalbori flour; further, the quality characteristics of bread dough during yeast fermentation were assessed. As the addition rate of chalssalbori flour into wheat flour increased, the DPPH radical scavenging capacity, water absorption index, water solubility index and viscosity were all increased. Moreover, the bread dough with an increased addition rate of chalssalbori flour demonstrated an increased pH, reduced fermentative expansion power and a darker yellowish color. The bread dough added with chalssalbori flour after mixing showed higher hardness, gumminess and adhesiveness, but lower cohesiveness and springiness compared to the control; however, these texture characteristics were changed during fermentation. In the present study, the mixed flour with 10% immature chalssalbori flour conveyed similar pasting characteristics to those of wheat flour; moreover, its bread dough showed higher springiness and fermentative expansion power. Furthermore, a delay effect of starch retrogradation can be expected compared to the control.

• The Korean Journal of Community Living Science
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• v.15 no.4
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• pp.3-10
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• 2004

The physicochemical and microbiological studies were conducted to examine the effect of Prunus mume extract on the Dongchimi fermentation. Dongchimi with the addition of various levels (0, 0.05, 01, 0.2 or 0.3%) of Prunus mume extract was fermented at $10^{\circ}C$ for 30 days. The pH of the product decreased in the course of fermentation and it was between 3.8~4.2 at 6~8 days fermentation. Total acidity was decreased by the addition of Prunus mume extract. A more rapid decrease in pH and an increase in total acidity were observed in the control Dongchimi than in that with added Prunus mume extract. The content of vitamin C increased for up to 10 days of fermentation and then gradually decreased. Reducing sugar content increased for up to 10 days, and the highest of sugar content was shown in the Dongchimi with 0.3% of added Prunus mume extract. As Prunus mume extract levels increased, the total viable cell number and the Lactobacillus cell number decreased. Dongchitni in which Prunus mume extract was added gained it,j optimum taste after 10 days of fermentation. The results of this study indicate that Prunus mume extract causes a delay in the fermentation of Dongchimi by slowing down pH drop and inhibiting the Lactobacillus cell growth.

• Korean Journal of Plant Resources
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• v.20 no.4
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• pp.342-347
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• 2007

The present study was conducted to examine the effect of prunus mume extract on the Kimchi fermentation. The physicochemical and microbiological properties of Kimchi with the addition of various levels(0, 0.1, 0.3 or 0.5%)of prunus mume extract was measured up to 30 days at $4^{\circ}C$. pH was decreased sharply in control after 2 days . A typical decreasing pattern in pH values was noted in all treatments during the initial 18 days of fermentation followed by a gradual decrease afterwards. Total acidity was decreased by the addition of prunus mume extract. Reducing sugar content was reduced to approximately 70% by day 10-12 in prunus mume extract treatments. Total vitamin C content was reached to maximum on 6 days of fermentation and then decreased in all treatments. Reducing sugar and total vitamin C contents were slightly increased by the addition of prunus mume. Total viable cell number increased to reach peak on day 8 and then slowly decreased during the fermentation. Lactobacillus cell number in control treatment continued to increase to reach peak on day 12, while the numbers in prunus mume treatments reached peak on day 8-12 and then gradually decreased throughout the fermentation. The results of this study indicate that prunus mume extract causes to delay the Kimchi fermentation by slowing down pH drop and inhibiting the Lactobacillus cell growth.

• Asian-Australasian Journal of Animal Sciences
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• v.33 no.7
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• pp.1103-1112
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• 2020

Objective: To measure whether a microbial additive could effectively improve the fermentation quality of delayed-sealing (DS) silage, we studied the effects of inoculants of lactic acid bacteria (LAB) and cellulase enzyme on microbial populations, ensiling characteristics, and spoilage loss of DS silage of Napier grass in Africa. Methods: Quick-sealing (QS) and DS silages were prepared with and without LAB (Lactobacillus plantarum) inoculant, cellulase enzymes, and their combination. The QS material was directly chopped and packed into a bunker silo. The DS material was packed into the silo with a delay of 24 h from harvest. Results: In the QS silage, LAB was dominant in the microbial population and produced large amounts of lactic acid. When the silage was treated with LAB and cellulase, the fermentation quality was improved. In the DS silage, aerobic bacteria and yeasts were the dominant microbes and all the silages were of poor quality. The yeast and mold counts in the DS silage were high, and they increased rapidly during aerobic exposure. As a result, the DS silages spoiled faster than the QS silages upon aerobic exposure. Conclusion: DS results in poor silage fermentation and aerobic deterioration. The microbial additive improved QS silage fermentation but was not effective for DS silage.