• The Korean Journal of Food And Nutrition
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• v.22 no.3
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• pp.449-455
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• 2009

The principal objective of this study was to determine the quality and potential of DHEA formation after the addition of diosgenin of yam(Dioscorea spp.) during the fermentation of soybean paste. All samples were divided into three groups based on the variety of yam. In sample A, the soy source was not separated from soybean paste and in sample B, the soybean source was separated from soybean paste. The range in salt concentration in the samples was as follows : sample A: 10.5~11.8%, samples B: 7.9~8.8%. However, no substantial differences between the two samples, in terms of salt content, were observed. The crude protein and crude lipid content were found to decrease with the fermentation time of soybean paste(passage of 30 days: 26.4~32.3% and 4.45~5.90%, passage of 60 days: 24.5~28.5% and 3.95~4.90%, respectively). As the fermentation time of soybean paste increased, the nitrogen from amino compounds increased(passage of 30 days: 531.9~687.7 mg%, passage of 60 days: 551.3~706.8 mg%). In regards to color and preference, sample B, where the soy source was separated from soybean paste, was better than sample A, where the two components were not separated. After a soybean paste fermentation time of 60 days, the diosgenin of yam, which was added to the soybean paste, was not detected in tested samples, and the contents of DHEA formation in soybean paste were as follows: sample A: $488.0\pm42.5{\sim}719.3\pm44.8{\mu}g/g$, sample B: $287.3\pm20.6{\sim}482.7{\pm}36.5{\mu}g/g$.

• Journal of Microbiology and Biotechnology
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• v.17 no.11
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• pp.1904-1907
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• 2007

The aim of this study was to develop a new fermentation method in order to improve the digestion of soybean protein, and to promote normal fermentation of soybean. A proximate composition, such as moisture, pH, and reducing sugar, of fermented soybeans by the new fermentation was similar to those of controls. Neutral protease activity, the most important factor for fermented soybean products, was the highest, having about 636 Dig at 54 h fermentation. The content of total free amino acid was almost 3-18 times higher than controls. The three-step fermented soybeans can be used as a functional food ingredient for human consumption, with higher protein digestibility.

• Journal of the East Asian Society of Dietary Life
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• v.19 no.5
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• pp.776-782
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• 2009

This study was conducted to develop functional soybean paste with krill (Euphausiacea) as compared to a conventional soybean paste (S1). Soybean containing 10%, 20% and 30% (w/w) krill (S2~S4, respectively) was prepared and quality characteristics (moisture, crude fat, crude protein, ash, reducing sugar, pH, titratable acidity, total acidity and buffering power) were assessed during fermentation for 150 days. As well, antioxidative activities of krill soybean paste were compared to those of control soybean paste based on total phenolic compound content and free radical scavenging activity, including the 1,1-diphenyl-2-picryl-hydrazil (DPPH) scavenging activity and the thiobarbituric acid value (TBA value). The moisture content of all samples decreased to 41.91~53.47% during fermentation, while the crude fat increased to 1.98~5.21% with increasing addition of krill. Additionally, crude protein increased slightly to 8.24~14.08% with increasing addition of krill after 120 days of fermentation. Ash content was 15.96~18.92%. The reducing sugar content of S2, S3 and S4 was higher than those of S1 with increasing length of fermentation. S2, S3, and S4 displayed progressive decreases in pH and progressive increases in titratable acidity compared to S1. The total acidity of all samples was increased, while the buffering power was decreased with increasing fermentation. Especially, the buffering power of S1 was lower than that of S2, S3 and S4. DPPH radical scavenging activity of lipophilic extracts from S2, S3 and S4 was slightly higher than those of S1. However, the radical scavenging activity of hydrophilic extracts from all samples had similar tendencies, regardless of the krill content or fermentation period. Total phenolics increased with increasing fermentation time and TBA value increased with increasing fermentation time and krill content.

• YAKHAK HOEJI
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• v.4 no.1
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• pp.14-16
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• 1959

In order to confirm the biochemical process of the fermentation from soybean to maiju and of the fermentation from maiju to kanjang and dainjang, the introgen distributions of soybean, maiju, kanjang, and dainjang are studied on protein nitrogen, peptide nitrogen, amino nitrogen and volatile nitrogen. And the contents of amino nitrogen, peptide nitrogen, and true protein nitrogen to the total nitroge of soybean, maiju, kanjang, and dainjang are shown in table 1 and the ratios are shown in table 2 and the figure. According to the results indicated in the tables and figure, the following conclusions are summerized. 1. The main biochemical process at the fermentation from soybean to maiju would be the degradation from protein in soybean to peptide compounds in maiju. 2. The main biochemical process at the fermentation from maiju to kanjang and dainjand would be the degradation from peptide compounds in maiju to amino nitrogen compounds in kanjang and dainjang. 3. However bacause the protein nitrogen indicated as the ratio of protein nitrogen to total nitrogen is contained still higher content in dainjang. It is assumed that there might be two kinds of proteins in soybean one is the protein which could be converted to peptides at the maiju fermentation and to amino nitrogen compounds lastly at the kanjang fermentation. The other is the protein which would not be effected at these fermentation at all remaining as the protein nitrogen in dainjang. One of the finished products. 4. It can be indicated that the process from maiju to kanjang and dainjang would be due to the fermentation as indicated by HAW and CHOI.

• The Korean Journal of Food And Nutrition
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• v.26 no.2
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• pp.266-272
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• 2013

This study investigated the quality characteristics of black soybean paste(Daemacjang) with black soybean content and salt concentration. The total acidity increased as the pH decreased during fermentation period. The amino-type nitrogen content of all samples increased significantly during fermentation time. Total cell counts was not significantly different during fermentation, and mold counts decreased at 3 log cycles. The cell counts of lactic acid bacteria decreased approximately 2 to 3 log cycles in 10% salt concentration (treat B and C), and were not detected in treat A and D. Total polyphenol contents of treat A, B, and C were 42.77%, 52.99% and 52.95% during fermentation up to 70days, respectively, which was higher than D (39.86%). In a sensory evaluation, treat B showed the highest scores for overall acceptability.

• Asian-Australasian Journal of Animal Sciences
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• v.8 no.2
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• pp.135-138
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• 1995

Soybean meal was fermented by Aspergillus usami in order to reduce phytate content. Aflatoxin B1 was not detected in the fermented soybean meal. The contents of crude protein, crude fiber, ether extract and crude ash were slightly increased following fermentation with a concomitant reduction in nitrogen free extract. Though the fermentation partly degraded proteins in the soybean meal, there was small difference in amino acid composition between the soybean meal and the fermented soybean meal. The results showed that the fermentation did not affect nutritional value of protein in soybean meal. Approximately 55% of phosphorus extracted by trichloroacetic acid was inositol hexaphosphate (phytate) in the soybean meal. The content of inositol tetra to hexaphosphates was not detected in the fermented soybean meal. These results indicated that the fermentation almost completely eliminated phytate in soybean meal. Phytase activity was not detected in the unfermented soybean meal. However, the enzyme activity in the fermented soybean meal was 167.7 U/g. When the fermented soybean meal in supplemented in formula feeds, phytase in the fermented soybean meal might partly degrade the phytate in other ingredients in the digestive tract. The fermented soybean meal is possibly used as a phytate-free protein source of feed, which contains high available phosphorus.

• Food Science and Biotechnology
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• v.15 no.5
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• pp.814-816
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• 2006

Monacolin K (MK) was produced on soybean using Monascus ruber GM011 by a two-stage-fermentation process. The optimal temperature was identified as $28^{\circ}C$. Higher yield was obtained by multiple-level-temperature cultivation than by single-level-temperature cultivation. The highest yield of total MK, 4.810 mg/g dry soybean product, was attained after 30 days of solid-state fermentation. No citrinin could be detected in the fermented soybean.

• Journal of the Korean Society of Food Science and Nutrition
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• v.30 no.6
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• pp.1068-1075
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• 2001

Effect of soybean-curd whey on the dongchimi fermentation was investigated by measuring physicochemical and sensory characteristics during fermentation at 1$0^{\circ}C$. Dongchimi was prepared with various levels (0, 2, 5, and 10%) of soybean-curd whey. During fermentation, whereas salt concentrations of dongchimi liquid (1.1 ~ 2.0%) were similar among treatments, greater decrease in pH, but greater increase of total acidity, reducing sugar content, number of lactic acid bacteria and turbidity were observed in dongchimi with soybean-curd whey than those of control from the 2nd to the 9th day of fermentation. But at the 16th day of fermentation, acidity, turbidity and number of lactic acid bacteria of dongchimi with soybean-curd whey were similar to those of control. Reducing sugar content of soybean-curd whey addition groups maintained higher than that of control. The Hunter color L value decreased gradually and that of dongchimi with soybean-curd whey was lower than that of control. b value of control increased, but soybean-curd whey addition groups decreased during fermentation. Hardness and fracturability, determined by texture analyser, were higher in soybean-curd whey addition groups than control. Sensory evaluation showed that the scores of turbidity, sweet taste, savory taste, hardness and over-all preference were significantly higher in soybean-curd whey addition groups than control (p<0.05) ; the highest with 5% soybean-curd whey addition followed by 2% addition. dongchimi with 5% soybean-curd whey addition was the most preferable one with the score of 6.5.

• Journal of the East Asian Society of Dietary Life
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• v.8 no.2
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• pp.162-173
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• 1998

The effect of soybean addition to the preparation of Jeung-Pyun(Korean fermented rice cake) and the fermentational characteristics of Jeung-Pyun dough were determined. Jeung-Pyun dough composed of rice 100g, soybean 20g, water 40g, salt 0.8g, sugar 15g and Tak-ju 30g was fermented for up to 20hours. the numbers of total microbes, yeasts and lactic acid bacteria in the dough during fermen-tation increased rapidly during 5 hours of fermentation, but Leuconostoc mesenteroides during 7 hours of fermentation, Generally, there were many more microbes in the Jeung-Pyun dough with soybeans than in the Jeung-Pyun dough with rice. The volume of 7 hour fermented Jeung-Pyun was most massive, especially in the soybean added Jeung-Pyun. 1% dextran-added rice Jeung-Pyun, the volume of steamed cake was increased more than that of rice Jeung-Pyun, but is was not as bulky as in the soybean-added cake. In the sensory evaluation of the test cake products, the 7 hour fermented cake was preferred by nost. As for instrumental characteristics, the 7 hour feremented Jeung-Pyun showed the lowest values for hardness and elasticity, brittleness and chewiness. The rice Jeung-Pyun showed were stored at 2$0^{\circ}C$ the hardness, brittleness and cohesiveness of rice Jeung-Pyun were respectively increased rapidly after 5 days of storage. The cohesiveness, elasticity, brittleness, chewiness, gumminess of both rice Jeung-Pyun and soybean-added Jeung-Pyun were decreased with storage time.

• Korean Journal of Food Science and Technology
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• v.30 no.2
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• pp.356-362
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• 1998

The study is to predict fermentation time of Korean style soybean paste by portable electronic nose that has six metal oxide sensors. Korean style soybean paste using Aspergillus oryzae was fermented at $15^{\circ}C,\;20^{\circ}C\;and\;25^{\circ}C$. The changes of sensitivity by electronic nose, amino nitrogen and reducing sugar were observed during fermentation. Sensitivities of six metal oxide sensor were decreased with increase of fermentation time while amino nitrogen was increased. Sensor #3 and #4 showed good correlation between sensitivities of the sensors and fermentation time $(r^2=0.71{\sim}0.95)$. And the good correlation between sensitivity by electronic nose and the produced amino nitrogen was shown until soybean paste was fermented. Portable electronic nose using metal oxide sensor (#3 and #4) could predict fermentation time of Korean style soybean paste.