• 한국토양비료학회지
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• 제16권3호
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• pp.260-265
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• 1983

인삼(人蔘)(3년근(年根))의 생육(生育)과 무기양분의 부위별(部位別) 분포(分布)를 네 농도의 질소형태 (황안, 뇨소, 질산칼슘)별로 사경(砂耕)조건에서 조사하였다. 형태에 관계없이 50ppm에서 지상부 및 근부생육이 최대였다. 질산태는 최대의 근중을 뇨소태는 최대의 지상부중을 보였다. 무질소구에서 엽폭이 켰다. 경장(莖長)과 경직경(莖直徑)의 비(比)는 질산태보다 암모니아태에서 적고 근동체부(根胴體部)의 장(長), 직경비(直徑比)는 이와 반대여서 지토부(地土部)와 근부(根部)의 장(長), 직경비(直徑比)는 부상관(負相關)을 보였다. 질소시용은 엽(葉)과 경(莖)에서 인산의 농도를 높인 반면 칼슘의 농도는 저하시켰다. 50ppm구에서는 모든 질소형태에서 무질소구에 비하여 잎으로의 P의 분배(分配)는 감소하였으며 Mg, Ca 및 N는 증가하였다.

• Applied Biological Chemistry
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• 제10권
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• pp.101-105
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• 1968

C 원(源)과 N 원(源)으로써 glucose와 casamino acid를 사용(使用)하여 당농도(糖濃度)와 N 농도(濃度)의 차이(差異)가 Zygosacch. bisporus, Zygosacch. debrueckii, Zygosacch. steiner: 의 포자형성(胞子形成) 및 증식(增殖)과 life cycle에 미치는 영향(影響)에 대(對)하여 시험검토(試驗檢討)하였다. 1. 포자형성최적농도(胞子形成最適濃度)는 N $0{\sim}0.001%$ 당(糖) $10{\sim}20%$이며 N농도(濃度) 0.04%에 있어서는 포자(胞子)를 전(全)혀 형성(形成)하지 않고 0.01% 이하(以下)의 농도(濃度)에 있어서 포자(胞子)를 형성(形成)하게 된다. 2. 증식최적농도(增殖最適濃度)는 N 0.04% 당(糖) $5{\sim}10%$이다. 3. Zygosacch.의 일반적(一般的)인 life cycle은 포자(胞子)${\to}$영양세포(榮養細胞)${\to}$접합(接合)${\to}$포자형성(胞子形成)의 각(各) 단계(段階)를 경유(經由)하나 Zygosacch. bispolus의 zygote를 증식(增殖)에 최적(最適)의 N 농도(濃度) 0.04%의 배지(培地)에 이식(利殖)하였을때 곧 포자(胞子)를 형성(形成)하지 않고 다시 영양번식(榮養繁殖)하며 영양조건(榮養條件) 특(特)히 N 농도(濃度)에 의해서 diploid zygote의 영양번식(榮養繁殖)이 유도된다.

• Journal of Microbiology and Biotechnology
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• 제12권2호
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• pp.273-278
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• 2002

Two-step fed-batch fermentations were carried out to overproduce Bacillus licheniformis maltogenic amylase (BLMA) in recombinant Escherichia coli. The first step was to increase the cell mass by controlling the feeding of a glucose solution, while the second step was designed to improve the amylase expression efficiency by supplementing organic nitrogen sources. The linear gradient feeding method was successfully adopted to maintain the glucose concentration below 0.2 g/l during the fed-batch mode, as effectively minimizing acetic acid formation. When the dissolved oxygen (DO) level became limiting, an accumulation of acetic acid and drastic decrease in specific BLMA productivity were observed. Glucose and organic nitrogen sources consisting of yeast extract and casein hydrolysate were simultaneously supplied in the pH-stat mode to further increase the specific BLMA expression efficiency. An organic nitrogen source consisting of 200 g/1 yeast extract and 100 g/1 casein hydrolysate was found to be the best among the various combinations tested. The feeding of an organic nitrogen source in the second-step fed-batch period was highly beneficial in enhancing the BLMA production. The optimized two-step fed-batch culture resulted in 78 g/l maximum dry cell mass and 443 U/ml maximum BLMA activity, corresponding to 1.5-fold increase in the dry cell mass and 3.7-fold enhancement in BLMA production, compared with the simple fed-batch fermentation.

• 한국버섯학회지
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• 제11권3호
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• pp.124-130
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• 2013

The effects of environmental and nutritional requirement such as temperature, pH, different media, carbon, nitrogen, and carbon-to-nitrogen ratio on the mycelial growth of Cordyceps militaris strain 'Yedang 3' were studied. The optimum temperature and pH for the growth of mycelium were $20-25^{\circ}C$ and pH 6-7, respectively. Out of ten media tested, mushroom complete media (MCM) was the best medium for fast mycelial growth, and Sabouraud's dextrose agar yeast extract (SDAY), malt extract yeast extract agar (YMA) also were favored. The color and shape of colonies varied in different media. The best carbon sources for mycelial growth were fructose, mannitol, and sucrose, whereas the best nitrogen sources were tryptone and peptone. However, mycelia grew slowly in inorganic nitrogen compounds such as $NH_4Cl$, $(NH_4)_2SO_4$, $NH_4NO_3$, and $NaNO_3$. The optimum C:N ratio observed on the culture media was 30-40 range. These results provided basic information on cultural characteristics of vegetative growth and might be useful for spawn production in Cordyceps militaris.

• 대한환경공학회지
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• 제38권12호
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• pp.635-640
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• 2016

미생물연료전지(MFC)는 하 폐수내의 유기물로부터 전기를 생산할 수 있는 획기적인 기술이지만, 실용화를 위해서는 하 폐수 내의 질소를 제거할 수 있어야 한다. 본 연구에서는 두 개의 대면적 SEA (separator electrode assembly)로 구성된 평판형 외기환원전극 미생물연료전지(FA-MFC)를 이용하여 질산화 전배양의 유무와 식종원에 따른 총질소제거율을 평가하였다. 질산화 전배양 단계에서 FA-MFC의 질산화율은 식종원과는 무관하게 99% 이상을 나타냈다. 질산화 및 탈질 단계에서 300 mg-COD/L 이하의 낮은 유기물 농도에서는 전배양을 하지 않은 조건의 총질소제거율이 가장 높았다. 유기물 농도가 증가할수록 더 높은 총질소제거율을 나타냈으며, 유기물제거율은 모든 조건에서 95% 이상을 나타냈지만, 종속영양탈질에만 이용되지는 않은 것으로 판단된다. FA-MFC의 전기 발생량은 매우 낮았지만, 유기물과 질소를 동시에 제거할 수 있다는 장점이 있기 때문에 획기적인 하 폐수처리공법으로 발전시킬 수 있으리라 기대된다.

• Applied Biological Chemistry
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• 제14권1호
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• pp.99-102
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• 1971

Saccharomyces rouxii $T_9$의 생육에 있어서 질소원 및 무기염류의 영향을 실험한 결과는 아래와 같다. (1) 무염배지의 경우 유기질소원으로서는 peptone을 $2.5{\sim}5.0%$ 첨가했을때 균의 생육이 가장 양호하였으며 무기질소원으로서는 $(NH_4)_2HPO_4$를 1.0% 첨가했을때 가장 양호하였다. (2) 20% 식염함유배지의 경우 유기질소원으로서는 yeast ext.를 1.5% 첨가했을때 가장 양호하였으며 무기질소원으로서는 urea를 5% 첨가 했을매 가장 양호하였다. (3) 무기염류로서 $NaNO_3$는 무염배지의 경우 1% 첨가했을때 가장 양호하였으나 20% 또 식염함유배지의 경우에는 26% 첨가했을 때보다 5%첨가했을때 더욱 양호 하였다. (4) $MgSO_4$와 $CaCl_2$는 0.5% 첨가한 경우 무염배지에서 보다도 20% 식염함유 배지에서 더욱 효과가 있었으며 $MgCl_2$는 26% 식염함유배지에 1%첨가 했을때 가장 효과가 있었다.

• 한국대기환경학회:학술대회논문집
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• 한국대기환경학회 2005년도 추계학술대회 논문집
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• pp.170-172
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• 2005

• Environmental Engineering Research
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• 제9권6호
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• pp.269-278
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• 2004

• Mycobiology
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• 제38권4호
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• pp.274-281
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• 2010

Cordyceps cardinalis was reported in Japan and the USA in 2004, and its fruiting bodies have recently been cultured in Korea. Herbarium specimens preserved at the Cordyceps Research Institute, Mushtech, Korea were revised and identified as C. cardinalis, based on morphological characters and conidial structures. Most of the C. cardinalis specimens were collected from Mt. Halla in Jeju-do. The effects of various nutritional sources and environmental conditions such as temperature and pH on mycelial growth of C. cardinalis were studied. Oatmeal agar, Martin's peptone dextrose agar, and Schizophyllum (mushroom) genetics complete medium plus yeast extract resulted in the best mycelial growth. Among carbon sources, cereals, and nitrogen sources, maltose, oatmeal, and peptone resulted in the best mycelial growth respectively. Mineral salts helped to increase growth rate but only resulted in thin mycelial density, similar to water agar. A temperature of $25^{\circ}C$ and a pH of 7 resulted in the highest mycelial growth. Based on these results, a Cordyceps cardinalis composite medium (CCM) was formulated with 1% maltose, 2% oatmeal, 1% peptone, and 2% agar. Use of the CCM resulted in slightly better mycelial growth than that of other commonly used agar media. Only organic nitrogen sources imparted a reddish pigmentation to the agar media, but this character diminished after several subcultures. A 7 day culture duration resulted in the best mycelial growth.

• 한국버섯학회지
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• 제11권4호
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• pp.194-200
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• 2013

Polyporus umbellatus (Syn. Grifola umbellata) is a sclerotium forming mushroom belongs to family Polyporaceae of Polyphorales, Basidiomycota. The sclerotia of P. umbellatus have long been used for traditional medicines in China, Korea and Japan. This study was initiated to obtain the basic data for artificial sclerotial production of P. umbellatus. Here, we investigated the favorable conditions for mycelial growth of P. umbellatus and its symbiotic fungus Armillaria mellea. We also evaluate the favorable carbon and nitrogen sources for sclerotial formation in dual culture between P. umbellatus and A. mellea. The favorable conditions for mycelial growth of P. umbellatus were $20^{\circ}C$ and pH 4, while optimal conditions for mycelial growth of A. mellea were $25^{\circ}C$ and pH 6. The carbon sources for optimal mycelial growth of P. umbellatus were fructose and glucose, while carbon sources for favorable mycelial growth of A. mellea were also fructose and glucose. The nitrogen sources for favorable mycelial growth P. umbellatus were peptone and yeast extract, while optimal mycelial growth of A. mellea were obtained in peptone and yeast extract. When P. umbellatus and A. mellea were dual cultured on carbon sources, sclerotia were induced on basal media supplemented with glucose, fructose and maltose at pH 4~6, while nitrogen sources inducing sclerotia were basal media supplemented with peptone and yeast extract for 60 days at $20^{\circ}C$ under dark condition.