• Korean Journal of Food Science and Technology
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• v.25 no.4
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• pp.391-394
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• 1993

For the automation of Tackjoo fermentation, a sensor measurable gas production during brewing and a controller were built. The performance tests were carried out at 10 litter Tackjoo fermentor, The sensor was consisted of a transparent acryl cell for bubble formation and photo-interrupter for the detection of bubbles of 0.018ml size. The fermentation controller was fabricated with a single chip microcomputer (MC68705R3) and provided with both the monitoring module of temperature measurement and the valve controling device for the cooling water circulation in coil type heat exchanger. The operation programs were developed and systemized in ROM. With this computer system, the gas production amount and rate were acquired during the Tackjoo fermentation. The fermentation curve based on the gas production rate showed a good agreement with that of alcohol concentration. The maximum rate of gas production was found after 24 hr at $30^{\circ}C$. The correlation equation between the gas production and alcohol concentration was established and used as the control algorithm of the fermentation.

• Food Science and Preservation
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• v.13 no.4
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• pp.457-464
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• 2006

To improve the functional properties of Gochujang, different amount of skipjack cooking broth (l%, 3%, 5%) were added and their physicochemical properties were examined during storage. During fermentation of Gochujang, pH value decreased and titratable acidity increased, regardless of the amount of skipjack cooking broth. Content of amino-nitrogen increased rapidly at 30 day of fermentation from 171.59 mg% for the control to 191.10 mg% for 5% skipjack cooking broth, and then slightly decreased. It increased with the increase of the amount of skipjack cooking broth. Content of reducing sugar had the highest value at 30 day of fermentation, and then slightly decreased During fermentation, $\beta-amylase$ activity showed the highest value at 30 day of fermentation, and then slightly decreased. Free amino acid content increased with the increase of skipjack cooking broth amount Hunter L a, and b values gradually decreased during fermentation of Gochujang. Based on sensory evaluation of Gochujang after 90 days, Gochujang with the addition of skipjack cooking broth was better than the control in terms of taste, color, flavor, and overall.

• Nutrition Research and Practice
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• v.13 no.2
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• pp.87-94
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• 2019

BACKGROUND/OBJECTIVES: Oxidative stress is a major effector of various diseases; accordingly, antioxidants are frequently ingested in order to prevent or alleviate disease symptoms. Kimchi contains various natural antioxidants, and it is known that the functional activity varies depending on the ingredients and fermentation state. Black raspberries (BR) contain various bioactive compounds with antioxidant effects. This study investigated the antioxidant and liver-protection effects of kimchi supplemented with black raspberry juice powder (BJP). MATERIALS/METHODS: BJP-added kimchi (BAK; at 0.5%, 1%, and 2% concentrations of BJP) and control (without BJP) were prepared and fermented at $4^{\circ}C$ for 4 weeks. Changes in the antioxidant effects of BAK during fermentation were investigated. In addition, the protective activity of BAK against oxidative stress was investigated in a liver cirrhosis-induced animal model in vivo. RESULTS: BAK groups showed the acidity and pH of optimally ripened (OR) kimchi at 2 weeks of fermentation along with the highest lactic acid bacterial counts. Additionally, BAK groups displayed a higher content of phenolic compounds and elevated antioxidant activities relative to the control, with the highest antioxidant effect observed at 2 weeks of fermentation of OR 1% BAK. After feeding the OR 1% BAK to thioacetamide-induced liver cirrhosis rats, we observed decreased glutamate oxaloacetate transaminase and glutamate pyruvate transaminase activities and elevated superoxide dismutase activity. CONCLUSIONS: These findings showed that the antioxidant effects of OR BAK and feeding of OR 1% BAK resulted in liver-protective effects against oxidative stress.

• Asian-Australasian Journal of Animal Sciences
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• v.32 no.6
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• pp.783-791
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• 2019

Objective: This study was to evaluate the fermentation dynamics, structural and nonstructural carbohydrate composition and in vitro gas production of rice straw ensiled with lactic acid bacteria and molasses. Methods: Fresh rice straw was ensiled in 1-L laboratory silos with no additive control (C), Lactobacillus plantarum (L), molasses (M) and molasses+Lactobacillus plantarum (ML) for 6, 15, 30, and 60 days. After storage, the silages were subjected to microbial and chemical analyses as well as the further in vitro fermentation trial. Results: All additives increased lactic acid concentration, and reduced pH, dry matter (DM) loss and structural carbohydrate content relative to the control (p<0.05). The highest organic acid and residual sugar contents and lignocellulose reduction were observed in ML silage. L silage had the highest V-score with 88.10 followed by ML silage. L and ML silage improved in vitro DM digestibility as compared with other treatments, while in vitro neutral detergent fibre degradability (IVNDFD) was increased in M and ML silage (p<0.05). M silage significantly (p<0.05) increased propionic acid (PA) content and decreased butyric acid content and acetic acid/PA as well as 72-h cumulative gas production. Conclusion: The application of ML was effective for improving both the fermentation quality and in vitro digestibility of rice straw silage. Inclusion with molasses to rice straw could reduce in vitro ruminal gas production.

• Animal Bioscience
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• v.34 no.1
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• pp.56-65
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• 2021

Objective: This study was conducted to investigate the effects of molasses and Lactobacillus plantarum on the ensiling quality and in vitro rumen fermentation of sudangrass silage prepared with or without wilting. Methods: The ensiling experiment, measured with 3 replicates, was carried out according to a 2×4 (wilted stages×additives) factorial treatment structure. Dry matter of the fresh (210 g/kg fresh matter) or wilted (305 g/kg fresh matter) sudangrass were ensiled (packed into 5.0-L plastic jars) without additive (control) or with molasses (M), Lactobacillus plantarum (LP), or molasses + Lactobacillus plantarum (M+LP). After 60 days of ensiling, the silages were analyzed for the chemical, fermentation, and in vitro characteristics. Results: After 60 days of ensiling, the fermentation parameters were affected by wilted, the additives and the interactions of wilted with the additives (p<0.05). The M+LP treatment at wilted had higher lactic acid levels and V-score (p<0.05) but lower pH values and butyric acid concentrations than the other treatments. In comparison with sudangrass before ensiling, after ensiling had lower dry matter and higher non-fibrous carbohydrate. The in vitro gas production, in vitro dry matter digestibility, in vitro crude protein digestibility, and in vitro acid fiber detergent digestibility changed under the effects of the additives. Significant interactions were observed between wilted and the additives in terms of in vitro gas production at 48 h, asymptotic gas production, gas production rate, half time, and the average gas production rate. The total volatile fatty acid levels in the additive treatments were higher than those in the control. Conclusion: Wilting and supplementation with molasses and Lactobacillus plantarum had the ability to improve the ensiling quality and in vitro nutrient digestibility of sudangrass silage. The M+LP treatment at wilted exhibited the strongest positive effects on silage quality and in vitro ruminal fermentation characteristics.

• Journal of the East Asian Society of Dietary Life
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• v.18 no.2
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• pp.226-233
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• 2008

This study investigated the effects of mashed maesil and maesil extract on Kimchi during fermentation. The mashed maesil and maesil extract were added at 5% of the weight of salted cabbages to the Kimchi sauce, and then physiochemical and sensory characteristics were examined over 28 days of fermentation at 4$^{\circ}C$. During the entire fermentation process, the mashed maesil Kimchi had a consistent pH of 4.4 to 4.2, and the mashed maesil controlled fermentation better than the maesil extract. The mashed maesil Kimchi had the lowest acidity ($0.43{\pm}0.01{\sim}0.42{\pm}0.01$), despite showing a similar pH level to the maesil extract Kimchi. The mashed maesil Kimchi presented the highest hardness level. And in the early stage of fermentation the control Kimchi had the lowest hardness; however, at the end of storage, hardness increased in every Kimchi and no differences were shown. In terms of color value changes, the L-values of every Kimchi increased as the fermentation period increased; but on the $28^{th}$ and final day of fermentation L-values had decreased in all groups. The group with mashed maesil had the highest a-value, but there were no significant differences in b-values among the groups. In evaluating sensory characteristics and acceptability of flavor, the maesil extract Kimchi was higher in intensity with regard to sourness, umami taste, sweetuess, maesil taste, carbonated taste, and fresh taste; it also had higher overall acceptability. Therefore, a fixed amount of maesil extract(5%) can be added to Kimchi with good affects on quality, by controlling fermentation and increasing flavor.

• Food Science of Animal Resources
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• v.33 no.3
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• pp.325-330
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• 2013

Kefir is traditional fermented milk produced by various lactic acid bacteria (LAB) and yeast, which produce lactic acid, ethanol, carbon dioxide, and other flavor compounds. The purpose of this study was to evaluate the effects of different commercial oligosaccharides, such as maltotriose, fructooligosaccharide (FOS), galactooligosaccharide (GOS), and isomaltooligosaccharide (IMO), on the fermentation properties of kefir. First, we determined the acidification kinetic parameters, such as $V_{max}$, $t_{max}$(h), $t_{pH5.0}$(h), and $t_f$(h) of fermented milk supplemented with 4% (w/w) of different oligosaccharides. The probiotic survival and chemical composition (pH, organic acids profile, and ethanol content) of kefir during fermentation were also measured. Compared to control fermentation, all oligosaccharides increased acidification rate and reduced the time to complete fermentation (pH 4.7). The addition of FOS, in particular, resulted in the lowest $t_f$(h) and the highest populations of LAB and yeast during fermentation. All oligosaccharides increased ethanol production during fermentation. Further, significant differences were observed in the formation rates of six organic acids during fermentation. This study provided comparative data on the properties of commercial oligosaccharides for kefir manufacturing. Consequently, FOS especially had the potential for adequate and effective oligosaccharides in commercial kefir for the improvement of cost- and time-effectiveness.

• KOREAN JOURNAL OF CROP SCIENCE
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• v.59 no.1
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• pp.66-72
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• 2014

Quality characteristics of yogurt with added colored barely flour was investigated during fermentation by lactic acid bacteria. Chemical properties such as moisture, crude protein, starch, ash and ${\beta}$-glucan contents was measured. pH, acidity, brix, Hunter color value and growth of lactic acid bacteria in yogurt was investigated during fermentation by L. acidophilus, L. bulgaricus, and S. thermophilus mixed culture. Crude protein contents of Daeanchal and Boseokchal was 16.16 and 12.17%, respectively. Starch contents of daeanchal were shown lower score. The pH of yogurt by addition of barley flour (Daeanchal) addition 0 and 20% were 6.66 and 6.40, respectively. The pH of yogurt supplemented with barley flour tended to be lower than before control which was not added barely flours and oligosaccharide in yogurt. Titratable acidity of yogurt added barley flour was higher compared with that of control. Brix of yogurt was decreased during fermentation by lactic acid bacteria. Lightness of yogurt added barley flour (Daeanchal) addition 0 and 20% were 83.25 and 69.83, respectively. The original microbial population of the yogurt during 0, 5, 8, and 15 hr fermentation were 7.48, 7.79, 8.15, and 8.71 Log CFU/g, respectively. Moreover, the addition of colored barley flour was to promote the proliferation of lactic acid bacteria in yogurt. In our research, addition of colored barley flours added into the yogurt may also have contributed to growth of lactic acid bacteria.

• Journal of the Korean Society of Food Science and Nutrition
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• v.26 no.3
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• pp.456-461
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• 1997

Sodium lactateand sodium citrate, traditional food preservatives, were added to extend the shelf-life of the loow-salted Myungran-jeot, and various chemical and microbiological analyses were carried out with Muungran-jeot, and various chemical and microbiological analyses were carried out with Myungran-jeot femented at 1$0^{\circ}C$. pH was decreased in the beginning stage of fermentation and then increased, whereas the content of lactic acid was increased during fermentation. But, lactic acid production of the low-salted Myungran-jeot with preservative were lower than control. The NH$_2$-N content of the low-salted Myungran-jot with sodium citrate was increased in the beginning of fermentation and then decreased. Sodium citrate inhibited the productions of VBN and TMA during the fermentation of Myungran-jeot, whereas sodium lactate inhibited the productions of VBN and TBA. Sodium lactate inhibited the growths of proteolytic bacteris and fungi. The estimated shelf-lives of the Myungran-jeot with control, sodium lactate, and sodium citrate were about 11, 13, and 13 days, respectively.

• Journal of Korea Technical Association of The Pulp and Paper Industry
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• v.44 no.3
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• pp.9-14
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• 2012

Formed fermentation inhibitors during acid saccharification leads to poor alcohol production based on lignocellulosic bio-alcohol production process. In this work, it is focused on the formation of fermentation inhibitors from xylan, which is influenced by reaction tempearature and time of acidic sacharifiaction of xylose and glucuronic acid. In second step of concentrated acid hydrolysis, part of xylose and glucuronic acid was converted to furfuraldehyde and formic acid by dehydration and rearrangement reactions. Furfural was form from xylose, which was highly sensitive to reaction temperature. Formic acid was come from both xylose and glucuronic acid, which supposed to main inhibitor in biobutanol fermentation. Reaction temperature of second hydrolysis was main variables to control the furfural and formic acid generation. Careful control of acid saccharification can reduce generation of harmful inhibitors, especially second step of concentrated sulfuric acid hydrolysis process.