• Journal of Microbiology and Biotechnology
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• 제4권4호
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• pp.333-337
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• 1994

In order to develop the whey beverage, we examined the optimum conditions for alcohol fermentation by Kluyveromyces tragilis ATCC 46537. The optimum conditions for alcohol production by K. fragilis ATCC 46537 were as follows; pH 4.5, $30^{\cir}C$, with a supplement of 50 g/l of lactose. To develop a continuous production of alcohol from whey, we compared batch fermentation with continuous iermentation in conjunction with UF system. Batch fermentation produced 11.0 g/l of alcohol, whereas pseudocontinuous and continuous fermentation with UF system produced 8.5 g/l of alcohol. To increase the alcohol production, we added 50 g/l of lactose to both fermentations. Batch fermentation with lactose supplement produced 15.7 g/l of alcohol and continuous fermentation with lactose supplement in conjunction with UF system produced 15.0 g/l of alcohol. These results clearly demonstrate that the UF system can be used to increase the alcohol production from whey, supplemented with exogenous lactose.

• Journal of Dairy Science and Biotechnology
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• 제39권1호
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• pp.20-26
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• 2021

Lactase (β-galactosidase) is abundant in the small intestine during early childhood and gradually decreases with age. Lactic acid bacteria (LAB) present in yogurt could survive in the stomach, and lactase produced by these LAB can aid in lactose breakdown in the small intestine, thereby reducing lactose intolerance. This study aims to provide preliminary data for development of lactose-free yogurts for the elderly, and investigate the effect of lactose-hydrolyzed milk on the growth of starter cultures. The pH during yogurt fermentation using lactose-free milk was slightly higher at 2 and 4 h of incubation, but reached 4.5 at the end of incubation, similar to that of the yogurt prepared from regular milk. The number of viable cells of Streptococcus thermophilus reached 108 CFU/mL after 2 h of incubation and increased to 109 CFU/mL after 4 h of incubation. During yogurt fermentation, the viable cells of Lactobacillus species and Bifidobacterium longum did not affect lactose hydrolysis. Although lactose-hydrolyzed milk did not promote the growth of starter cultures, manufacturing yogurt with lactose-free milk could be beneficial for the intestinal health of lactose-sensitive elderly.

• Journal of Microbiology and Biotechnology
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• 제1권3호
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• pp.151-156
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• 1991

In order to construct a yeast strain having high ethanol tolerance together with good lactose fermentation ability, the protoplast fusion using Saccharomyces cerevisiae STV 89 and Kluyveromyces fragilis CBS 397 was carried out. Auxotrophic mutants of K. fragilis were obtained as a selection marker by treatment of ethylmethane sulfonate. The best mutant for protoplast fusion was selected based on the capabilities of ${\beta}-galactosidase$ production and lactose fermentation. The protoplast fusion using polyethylene glycol and calcium chloride solution led to the fusion frequence of $3{\times}10^{-6}$ and a number of fusants were obtained. Among these fusants, a fusant F-3-19 showed the best results in terms of ethanol tolerance, ${\beta}-galactosidase$ activity and lactose fermentation. The performance of lactose fermentation and ethanol tolerance by this fusant were better than those of K. fragilis. Study on the ethanol tolerance having relation to fatty acid composition and intracellular ethanol concentration revealed that the fusant F-3-19 had a higher unsaturated fatty acids content and accumulated less amount of intracellular ethanol compared with a parent of K. fragilis.

• Journal of Microbiology and Biotechnology
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• 제2권2호
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• pp.108-114
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• 1992

The fermentative characteristics in ethanol production from lactose, with increased ethanol tolerance, of a fusant yeast strain constructed by protoplast fusion of Saccharomyces cerevisiae and Kluyveromyces fragilis were studied. The ethanol tolerance of this strain was increased to 8.0%, compared with the parent K. fragilis. During batch ethanol fermentation the optimal cultivation conditions for this fusant yeast were an initial pH of 4.5, a culture temperature $30^\circ{C}$. stirring at 100 rpm without aeration in 10% lactose medium (supplied with 1.0% yeast extract). Using this fusant strain in whey fermentation to ethanol, maximum ethanol production reached 3.41% (w/v) (theoretical yield; 66.7%) after a 48 hour cultivation period.

• Journal of Microbiology and Biotechnology
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• 제18권11호
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• pp.1792-1796
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• 2008

Succinic acid-producing Anaerobinspirillum succiniciproducens was anaerobically grown on galactose, galactose/glucose, or galactose/lactose in order to study its galactose fermentation. Unlike a previous report, A. succiniciproducens was found to efficiently metabolize galactose as the sole carbon source at a rate of 2.4 g/g-DCW/h and produced succinic acid with as high a yield of 87% as with using glucose. When glucose and galactose were present, A. succiniciproducens metabolized both sugars simultaneously. Furthermore, when lactose and galactose coexisted, lactose did not inhibit the galactose fermentation of A. succiniciproducens. Therefore, co-utilization of galactose and other sugars can improve the productivity and economy of bio-based succinic acid processes.

• 대한소아치과학회지
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• 제31권2호
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• pp.202-211
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• 2004

자일리톨은 탄소 5개가 있는 탄수화물로 치아우식증을 억제할 목적으로 사용되는 자당 대체물이다. 본 논문은 구강 중요 세균인 Streptococcus mutans, Streptococcus oralis, Streptococcus Salivarius에서 유당분해에 대한 자일리톨의 작용을 관찰하고자 하였다. 세균에 대한 유당과 자일리톨의 병합효과를 보기 위하여 분광광도계를 이용한 흡광도를 측정하였고 생균수 검사를 실시하였다. Streptococcus mutans 또는 ${\beta}-galactosidase$에 의한 유당분해에 대한 자일리톨 효과를 보기 위하여 thin layer chromatography와 lactose-PTS activity test를 실시하여 다음과 같은 결과를 얻었다. 1. 유당과 자일리톨을 병합 첨가한 배지에 Streptococcus mutans를 배양하면 배양액 흡광도가 배양 8시간에 증가하지 않다가 배양 24시간에 증가하였다. 배양 8시간에서의 생균수도 유당 단독보다 유당과 자일리톨 병합 첨가 시 적게 나타났다. 2. 유당과 자일리톨을 병합 첨가한 배지에 Streptococcus oralis와 Streptococcus salivarius를 배양하면 배양액 흡광도가 배양 8시간에 증가하지 않다가 배양 24시간에 증가하였다. 3. 배지에 유당 단독으로 첨가할 때보다도 유당과 자일리톨을 병합 첨가한 배지에 Streptococcus mutars를 8시간 배양하면 thin-layer chromatography상 남아있는 유당이 많았으나, 배양 24시간에는 모든 유당이 분해되었다. 4. 배지에 유당 단독으로 첨가할 때보다도 유당과 자일리톨을 병합 첨가한 배지에서 Streptococcus mutars의 lactose-PTS 활성도가 낮았다. 5. 배지에 유당 단독으로 첨가할 때보다도 유당과 자일리톨을 병합 첨가한 배지에 ${\beta}-galactosidase$ 작용시 thin-layer chromatography상 유당이 많았다. 이상의 결과는 자일리톨이 Streptococcus의 유당 이용을 억제함을 시사하였다.

• 한국미생물·생명공학회지
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• 제27권1호
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• pp.62-69
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• 1999

Clostridium butyricum NCIB 9576 evolved hydrogen gas and produced various organic acids from glucose, lactose, starch, and glycerol. Total amount of hydrogen gas produced from 1 and 2% glucose were 630 and 950ml $H_2$/l-broth, respectively, for the first 24 hrs of incubation and the maximum hydrogen production rates were 42 and 94ml $H_2$/hr/1-broth, respectively. Teh initial pH 6.8 decreased to 4.2~4.5 during the first 12~16 hrs of fermentation when the pH was not controlled, resulting in ceasing the cell growth and hydrogen evolution and in degradation of 82 and 40% glucose after 24hrs of incubation from 1 and 2% glucose, respectively. When pH was controlled to 5.5, glucose was consumed completely and resulted in increasing hydrogen production approximately 38~50% compared to the experiments without the pH control. C. butyricum NCIB 9576 produced hydrogen gas approximately 644, 1,700 and 3,080 ml $H_2$/l-broth with 0.5, 1 and 2% lactose, respectively and the maximum hydrogen production rates were 41, 141 and 179ml $H_2$/hr/l-broth, respectively. All of the lactose added was degraded completely during fermentation even though pH was not controlled. C. butyricum NCIB 9576 produced 183 and 709ml $H_2$/l-broth with 0.1 and 0.5% starch for 48 hrs, respectively, when pH was not controlled. The maximum rates of hydrogen gas production were 43 and 186ml $H_2$/l-broth, respectively and 80~100% of starch added was fermented. Approximately 107ml $H_2$/l-broth was produced using 1% glycerol by C. butyricum NCIB 9576 and the pH was maintained higher than 6.1 during fermentation without pH control. The degradation of glucose, lactose, starch and glycerol by C. butyricum NCIB 9576 were affected by the pH of fermentation broth and the organic acids released during fermentation. The pH of feremtntation broth dropped to 4.2~4.6 after 12~14 hrs incubation when glucose was used as a substrate while pHs were maintained above pH 5 under the same experimental conditions when lactose, starch and glycerol were used. The organic solvents and acids produced during glucose fermentation were mainly ethanol, butyrate, acetate and a little of propionate, while butyrate was the main organic acids during the lactose, starch, and glycerol fermentation by C. butyricum NCIB 9576.

• 한국작물학회:학술대회논문집
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• 한국작물학회 2022년도 추계학술대회
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• pp.301-301
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• 2022

Dairy products are important diet source for human because of their balanced essential nutrients along with various vitamins and minerals. However, lactose in milk can result in diarrhea to some consumers with lactose intolerance. Soy milk has no lactose and is suitable as a substitute for diary milk in accordance with recent trend of replacing animal food with vegetable food. However, polysaccharides in soy milks are difficult for humans to digest, leading to flatulence. These polysaccharides can be decomposed into monosaccharides by lactic acid bacteria, and fermentation can improve food quality. Because mungbean has higher carbohydrate content than soybean, mung milk can be easily fermented than soy milk, resulting in vege yogurt with higher contents of lactic acid. In this study, fermentation characteristics of vege yogurt were analyzed with different ratio of soy milk and mung milk (0%, 25%, 50%, 75%, 100% and 0%+sucrose) and different fermentation time (0, 8, and 16 hours). In general, pH decreased as fermentation time increased. Overall, pH significantly decreased when the mung milk content in yogurt increased. All samples showed higher titratable acidity after fermentation and soy yogurt (mungbean 0%, 16 hours) with sucrose showed the highest value (6.825%). As fermentation time increase, viscosity increased. In 8 and 16 hours, mung milk yogurt (mungbean 100%) showed the lowest viscosity while soy milk yogurt (soybean 100%) with no sucrose showed the highest viscosity after 16 hours of fermentation. The contents of crude protein, crude fat and ash were measured for nutritional analysis. Soy milk (mungbean 0%, 0 hours) had the values of crude protein 2.9g, crude fat 1.8g, and ash 0.3g, and mung milk (mungbean 100%, 0 hours), showed the values of crude protein 1.7g, crude fat 0g, and ash 0.3g. To analyze the effect of the differences in the contents of nutrition between soy milk and mung milk on fermentation, the changes in sugar contents, and antioxidant capacity will be conducted depending on fermentation time. Our results will provide the information in researching plant beverages.

• 한국식품과학회지
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• 제29권3호
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• pp.533-538
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• 1997

대두요구르트의 발효 중 젖산균에 의한 산생성을 증가시키고 관능적 특성을 향상시키기 위해 장엽콩 및 진품콩으로 만든 두유에 lactose를 첨가한 후 L. bulgaricus로 단독배양 및 L. bulgaricus와 K. lactis를 혼합배양하여 pH, 산생성, 젖산균과 효모의 생육특성, 그리고 관능적 특성에 관하여 연구하였다. 대두요구르트는 lactose의 첨가에 의해 pH 감소와 산생성이 더 효과적이었으며, 단독배양이 혼합배양보다 pH 감소와 산생성 효과가 더 컸는데 단독배양시에는 24시간, 혼합배양시에는 36시간까지 발효시켰을 경우 시판요구르트의 pH와 비슷하였다. 젖산균수는 lactose를 첨가 하지 않은 경우에는 혼합배양한 시료군의 젖산균수가 단독배양한 시료군보다 많았으나 lactose를 첨가한 시료군에 있어서는, 단독배양한 시료군의 젖산균수가 혼합배양한 시료군보다 약간 더 많았다. 콩비린내는 장엽과 진품 모두 두유보다 대두요구르트로 제조되었을 때 콩비린내가 감소하였으며, 콩품종 간에는 진품 시료군이 장엽시료군보다 콩비린내가 더 적게 났다. 신맛은 lactose 4%를 첨가하여 36시간 혼합배양한 시료들이 신맛이 강하여 적당하지 않다고 평가되었고, lactose 2%를 첨가한 시료군이 lactose 4%를 첨가한 시료군보다 더 적당하다고 평가되었으며, 특히 lactose 2%를 첨가한 진품시료군과 우유요구르트와는 유의차가 없었다. 전반적인 기호도는 단독배양한 모든 시료군과 lactose 2%를 첨가하여 36시간 혼합배양한 장엽 및 진품시료들이 우유요구르트와 유의차가 없었다. 이상의 결과를 종합하여 볼 때, 두유에 lactose를 첨가하여 대두요구르트를 만드는 것은 첨가된 lactose의 분해로 인해 생성된 glucose와 galactose가 젖산균의 작용을 활발하게 하여 산생성이 증가되고, 신맛이 증가되며, 젖산균수가 증가되었다고 생각된다. 단독배양의 경우는 lactose 2% 또는 4%를 첨가한 모든 시료군들이 관능검사 결과 전반적으로 좋다고 평가된 반면, 혼합배양의 경우는 lactose 2%를 첨가한 시료군들이 전반적으로 좋다고 평가되었다. 그러나 입자상태와 입안촉감은 우유요구르트와 시료군간에 유의차가 있으므로 앞으로의 연구가 더 필요하다고 생각된다.

• Journal of Microbiology and Biotechnology
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• 제17권11호
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• pp.1758-1764
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• 2007

Synthesis of oligosaccharides during milk fermentation was attempted by inoculating Leuconostoc citreum with Lactobacillus casei, Lb. delbrueckii subsp. bulgaricus, and Streptococcus thermophilus as starters. Dextransucrase of Ln. citreum worked as a catalyst for the transglycosylation reaction of sugars; sucrose was added as the glucose donor, and lactose or maltose acted as the acceptor compound for the reaction. When 4% sucrose was added in milk, glucosyl-lactose was synthesized (about 1%, w/v) after 1-2 days of fermentation at 15 or $25^{\circ}C$. Alternatively, when sucrose and maltose (2% each, w/v) were added, panose (about 1 %, w/v) and other isomaltooligosaccharides were made in a day at $15-35^{\circ}C$. Growth patterns of lactobacilli and streptococci starters were not affected by the coculture of leuconostoc starter, but the rate of acid synthesis was slightly slowed at every temperature. Addition of sugars in milk did not give any adverse effect on the lactate fermentation. Accordingly, the use of leuconostoc starter and addition of sugars in milk allowed the production of oligosaccharides-containing fermented milk, and application of this method will facilitate the extensive development of synbiotic lactate foods.