• KSBB Journal
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• v.4 no.2
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• pp.128-133
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• 1989

Carbon sources and nitrogen sources are known to be very important in protease production by microorganisms. The effects of carbon source and nitrogen source on protease biosynthesis by Bacillus licheniformis were investigated using batch cultures. As initial carbon and nitrogen concentrations of culture medium increased, the specific growth rate of Bacillus licheniformis was increased, while the specific protease production rate was decreased. From the results of batch cultures, a mathematical model which considers the effects of carbon source and cnitrogen source was proposed and the methods to increase the productivity of protease were discussed.

• The Korean Journal of Mycology
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• v.23 no.3 s.74
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• pp.209-225
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• 1995

Ganoderan, antitumor ${\beta}-glucan$ from Ganoderma lucidum was extracted from the mycelium of G.lucidum IY009 which was cultured in various carbon sources. The mycelium was shown to be capable of utilizing various carbon sources, e.g., soluble starch, fructose and glucose, and differs in morphology on carbon sources. In radioisotope assay, about $5.2{\sim}16%$ of glucose was to be incorporated in ganoderan of the mycelium. The monosugars of these ganoderan were mainly consisted of glucose, mannose, galactose. The galactose was not good carbon source for growing the mycelium but the best carbon source for producing the potentialized-ganoderan on the antitumor and anticomplementary activity. The tumor inhibition ratio of ganoderan-GAL, obtained from galactose medium, was 83.6% at the dose of 20 mg/kg/day. This crude polysaccaride was composed of five monosaccharide and the protein contained 16 amino acids. Also, ganoderan-GAL increased the anticomplementary activity than that obtained from any other media. This fact suggests that the structural differences of ganoderan influence the antitumor and anticomplementary activity.

• Proceedings of the Korean Environmental Sciences Society Conference
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• 2006.05a
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• pp.363-369
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• 2006

본 연구의 목적은 하수슬러지로부터 외부탄소원을 회수하여 하수의 질소 및 인 처리를 위한 최적의 pH선정과 감마선 조사의 적용가능성을 조사하는 것이었다. 연구 결과, 외부탄소원의 회수 가능성을 평가할 수 있는 index인 SCOD의 값은 비조사된 하수슬러지에서는 pH13에서 SCOD 간이 6590mg/L이고, 가용화율 SCOD/TCOD값은 57.8%로 최대의 탄소원을 회수할 수 있음을 확인하였고, 동일 pH에서는 경우에는 조사선량이 증가할수록 SCOD/TCOD값이 증가하였다. 알칼리 가수분해가 산처리 보다는 슬러지 탄소원을 회수할 수 있는 더 적정한 처리방법이고, 알칼리의 전처리에 감마선 조사한 하수슬러지의 탄소원 회수율은 pH 13, 조사선량 20kGy에서 SCOB/TCOD 최대의 값인 59% 분석되었다.

• Journal of Korean Society of Environmental Engineers
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• v.27 no.5
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• pp.491-498
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• 2005

J sewage treatment plant (WWTP) in Busan has used methanol as an external carbon source for the biological denitrification process. Methanol is widely used. but rather expensive and very dangerous in handling. Therefore, it has been required that the economic alternative carbon source must be developed. By-product from a fine chemical industry can be Purified by removing high molecular weight substances using the ultrafilter membrane separation process and RBDCOD fraction becomes $98{\sim}99%$ of COD substances in the purified by-product. The purified by-product containing three types of alcohols, methanol, prophylenglycol and methoxypropanol; showed similar chemical characteristics to the methanol, a main external carbon source, in biodegradation pathway. Shown above, the compatibility between main and alternative carbon sources has been achieved. Also very short or no adaptation period is necessary in the case of exchanging these carbon sources. The compatibility between external carbon sources is an essential element for stabilizing WWTP operations. During the full-scale application test of the by-product, the alternative carbon source line got on par with the treatment efficiency of the methanol line. With the test result, J-WWTP changed methanol to a fine chemical by-product, in two out of three J-WWTP lines. Moreover, it is expected that 55.4% of the external carbon source cost reduction can be achieved in the alternative carbon source applied lines.

• KSBB Journal
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• v.11 no.3
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• pp.380-387
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• 1996

The growth of recombinant E. coli and formation of the by-products were investigated. Glucose was consumed in approximately 8hours of cultivation when initial glucose concentration was 5g/1. When higher initial glucose concentrations were employed, it took approximately 16 to 20hours for the glucose to be consumed. When maltose or glucose was used as a carbon source, lactic acid and acetic acid were main by-products, while propionic acid and methanol production was not significant. Much by- products were formed at the higher initial carbon source concentrations. Higher concentration of lactic acid was observed when glucose was used, while higher concentration of acetic acid was observed when maltose was used. Lactic acid production affected the cell yield while acetic acid production affected the growth rate.

• Microbiology and Biotechnology Letters
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• v.31 no.2
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• pp.171-176
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• 2003

Productivity of biosurfactant (rhamnolipid) by Pseudomonas aeuginosa F722 was investigated in the several culture conditions and culture composition. Biosurfactant production by P. aeuginosa F722 was amounted to 0.78 g/l as the result of the nitrogen sources and carbon sources without investing of optimum conditions. As for that one was investigated, biosurfactant production by P. aeruginosa F722 was amounted to 1.66 g/l. Biosurfactant production increased twofold because the composition of a modified C-medium was investigated efficiently. $NE_4$Cl or $NaNO_2$ inorganic nitrogens and yeast extract or trypton organic nitrogens were effective, but others inorganic nitrogens and organic nitrogens tested were not efficient far biosurfactant production by P. aeruginosa F722. The optimum concentration of $NH_4$Cl; inorganic nitrogen and yeast extract; organic nitrogen were 0.05% and 0.1%, respectively. In various carbon sources, others with the exception of hydrophobic property substrate (n-alkane) and hydrophilic property substrate (glucose, glycol) were not found to be effective fur biosurfactant production, and 3.0% was better in yield than other concentration of glucose. This yielded C-to-N ratios between 17 and 20. In our experiment, the highest biosurfactant production by P. aeruginosa F722 were observed in 5 days cultivation, containing glucose 3.0%, $NH_4$Cl 0.05%, and yeast extract 0.1% and C-to-N ratio was 20. Optimal pH and temperature for biosurfactant production were 7.0 and $35^{\circ}C$, respectively. Under the optimal culture conditions with glucose, biosurfactant production was amounted to 1.66 g/l. Velocity of biosurfactant production and strain growth increased after nitrogen depletion. The average surface tension of 30 mN/m after the 3 days of incubation under optimal culture condition was measured by ring tensionmeter.

• Korean Journal Plant Pathology
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• v.1 no.1
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• pp.56-60
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• 1985

The present researches were carried out to examine the favorable nutritional conditions for mycelial growth of Cercospora kikuchii, and inhibition of bacterial growth by the fungus at various cultural conditions. As the nitrogen source, the fungus grew better on yeast-extract than the other sources of nitrogen tested. Sucrose, glucose, maltose and fructose were good sources of carbon for mycelial growth of the fungus. Two isolates of C. kikuchii, wild types A and D, inhibited the growth of bacteria on the medium containing yeast-extract or peptone as the nitrogen source, and sucrose, glucose, maltose or fructose as the carbon source, at pH 5.0. However, the albino mutant showed very little inhibitory effect under the same conditions.

• The monthly packaging world
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• s.198
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• pp.98-107
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• 2009

한국환경산업기술원이 지난 달 11일 인증신청 기업의 탄소성적 산출 편의성을 제공하고 동일 품목간 탄소성적의 비교 가능성 증진을 위하여 탄소성적표지 인증을 받은 16개 품목에 대한 인증사례를 발표했다. 탄소성적표지는 제품과 서비스의 생산 및 수송, 유통, 사용, 폐기 등의 과정에서 발생하는 온실가스의 배출량을 제품에 표기하여 소비자에게 제공함으로써 시장주도로 저탄소 소비문화 확산에 기여하는데 그 목적이 있다. 본 고에서는 한국환경산업기술원이 발표한 제11차 탄소성적표지 인증 사례 가운데 식품 및 포장관련 사례를 중심으로 살펴보도록 한다.

• KSBB Journal
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• v.23 no.1
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• pp.18-22
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• 2008

Various probiotic Lactobacillus spp. are known to produce exopolysaccharide (EPS) which has potential health promoting functionality. A Lactobacillus paracasei strain producing EPS was isolated from healthy human. This strain, named L. paracasei KLB58, was grown on modified MRS medium. Experiments were conducted under various growth conditions to optimize the EPS production. Our study showed that incubation temperature played an important role in EPS production. When incubation temperature was changed from $37^{\circ}C$ to $25^{\circ}C$, the increase of EPS production (28.1 mg/ml) was the highest in our experiment. The type of carbon source in the medium also affected EPS production. Galactose was the most effective for EPS production among the carbon sources examined. Using galactose, glucose, lactose and sucrose, the amount of released EPS was 38.9 mg/ml, 35.6 mg/ml, 21.76 mg/ml and 16.9 mg/ml, respectively. However, acidity in growth medium inhibited EPS productivity due to the low growth yield. When grown at pH 4, L. paracasei KLB58 could only produce EPS of 14.6 mg/ml. When the initial amounts of nitrogen and carbon sources were examined, EPS production was not significantly affected by nitrogen source while carbon source affected considerably.

• Journal of Korean Society of Environmental Engineers
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• v.28 no.5
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• pp.480-486
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• 2006

On account of exchanging main process from chemical precipitation for MLE(Modified Ludzark-Ettinger), an external carbon source was required for supplementation of carbon source shortage that was needed biological denitrification in the S sewage treatment plant(S-STP). In this study, NUR(nitrate uptake rate), OUR(oxygen uptake rate) test and a field application test was conducted for the applicability assessment of Terephtalic acid(TPA) by-product contained about 4.7% acetate as alternative external carbon source. As the results, TPA by-product shows more rapid acclimation than methanol, 8.24 mg ${NO_3}^--N/g$ VSS/hr specific denitrification rate, 3.70 g $COD_{Cr}/g\;NO_3$ C/N ratio and 99.4% readily biodegradable COD contents. In the results of field application, the nutrient removal efficiency was high and effluent T-N concentration is 8.2 mg/L. It is concluded that TPA by-product is the proper alternative external carbon source.