• Journal of Applied Biological Chemistry
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• 제62권1호
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• pp.87-91
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• 2019

The contents of major ginsenosides (ginsenosides Rb1, ginsenoside Rc, ginsenoside Rd, ginsenoside Re, ginsenoside Rf, and ginsenoside Rg1) in ginseng cultivated in different areas in Korea, ginseng that underwent different cultivation processes and ages, and ginseng cultivated in different countries were determined using high-performance liquid chromatography equipped with UV/VIS detector. Ginsenoside Rc was the most abundant ginsenoside in all different ginseng samples. The highest total concentration of major ginsenosides was found in the ginseng cultivated in Jinan (0.931 mg/g) and 4-year grown red ginseng (1.785 mg/g). Major ginsenosides were the most abundant in Korean ginseng (1.264 mg/g), compared to those in Chinese and American ginseng. The results of this study showed the different contents of major ginsenosides in the ginseng samples tested and emphasized which sample could contain high yield of ginsenosides.

• 한국산림과학회지
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• 제104권3호
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• pp.434-442
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• 2015

본 연구는 표고버섯의 지면 톱밥균상재배 과정과 버섯수확량을 구명하였다. 이 톱밥 균상재배는 봉지를 사용하지 않고, 살균된 톱밥과 표고의 톱밥종균을 3:1로 섞어서 지면에 두께 약 10 cm의 균상을 만들어 재배하는 방법이다. 톱밥배지는, 함수율을 65%로 맞추고 $65^{\circ}C$에서 저온살균 후 종균을 접종하고 지면에 약 10 cm 두께의 균상으로 만들고 보습과 보온을 위하여 유공비닐로 덮어두었다. 이 배지는 배양 78일 후에, 함수율이 61~72%, pH는 5.6에서 3.9~4.6로 낮아졌다. 배양기간중 배지내 에르고스테롤 농도는 $0.33{\sim}0.59{\mu}g/g$로 변동이 있었다. 지면배지를 입상한 후 2주 만에 이산화탄소 농도는 약 8.06%까지 급격히 증가하였다. 7주차에는 배지표면이 갈변되기 시작하였고, 이산화탄소 농도는 11주차까지 6~7%를 유지하였다. 그 후 지면배지의 표면비닐을 제거한 12주차부터는 통기성이 증대하여 이산화탄소가 1.5% 이하로 급격히 감소하였다. 이 재배사내 온도는 $7.1{\sim}29^{\circ}C$, 습도는 27.3~100%였고, 톱밥배지내의 온도 변화범위는 $11.6{\sim}30^{\circ}C$였다. 이 지면 재배에서 표고수확은, 입상 약 120일 후인 7월 말경부터 시작되었고, 그 후 약 100일 동안, 즉 12월초까지 8주기에 걸쳐 관수관리하면서 이루어졌다. 이 재배에서 주기별 총 표고수확량은 1주기(7/29~8/4)에 352 kg, 2주기(8/17~8/22)에 288 kg, 3주기(9/3~9/7)에 320 kg, 4주기(9/19~9/24)에 800 kg, 5주기(10/3~10/8)에 1,296 kg, 6주기(10/17~10/22)에 1,853 kg, 7주기(11/4~11/9)에 1,476 kg, 마지막 8주기(11/23~12/7)에 990 kg이었다. 농장 전체는 약 33.0톤의 톱밥배지에서 약 7.4톤의 표고를 수확하여 지면 톱밥균상재배의 표고생산 효율은 약 22.4%였다.

• 한국지하수토양환경학회지:지하수토양환경
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• 제18권1호
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• pp.57-66
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• 2013

Although the quantity of dredged soils has increased owing to recent new harbor construction, sea course management, polluted sediment dredging, and four-river project, the reuse or recycling of those dredged soils has not done properly in Korea. To develop measures to utilize them in various ways for reuse or recycling, the biophysicochemical properties of dredged soils and sediment were assessed in this study. Samples were classified according to their sources-river and sea-by location, and as dredged soil and sediment depending on storage time. The results showed that dredged materials from the sea have high clay content and can be used for making bricks, tiles, and lightweight backfill materials, while dredged materials from the river have high sand content and can be used in sand aggregates. Separation procedures, depending on the intended application, should be carried out because all dredged materials are poorly sorted. All dredged soils and sediments have high salinity, and hence, salts should be removed before use for cultivation. Since dredged materials from the sea have adequate concentrations of nutrients, except phosphate, they can be used for creating and restoring coastal habitats without carrying out any additional removal processes. The high overall microbial activities in dredged materials from the river suggested that active degradation of organic matter, circulation of nutrients, and provision of nutrients may occur if these dredged materials are used for cultivation purpose.

• Journal of Microbiology and Biotechnology
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• 제10권4호
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• pp.455-461
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• 2000

Abstract Spirulina platensis was grown in SWlUe waste to reduce inorganic compowlds and simultaneously produce feed resources. Spirulina platensis prefers nitrogenous compounds in Ibe order: $NH_4^{+}-N>NO_3^{-}-N>simple-N$ such as urea and simple amino acids. It even consumes $NH_4^{+}-N$ first when urea or nitrate are present. Therefore, the content of residual $NH_4^{+}-N$ in Spimlina platensis cultures can be determined by the relative extent of the following processes: (i) algal uptake and assimilation; (ii) ammonia stripping; and (iii) decomposition of urea to NH;-N by urease-positive bacteria. The removal rates of total nitrogen ffild total phosphorus were estimated as an indicator of the treatment effIciency. It was found that Spirulina platensis was able to reduce 70-93% of $P_4^{3-}-P$, 67-93% of inorganic nitrogen, 80-90% of COD, and 37-56% of organic nitrogen in various concentrations of swine waste over 12 days of batch cultivation. The removal of inorganic compounds from swine waste was mainly used for cell growth, however, the organic nitrogen removal was not related to cell growlb. A maximum cell density of 1.52 dry-g/l was maintained with a dilution rate of 0.2l/day in continuous cultivation by adding 30% swine waste. The nitrogen and phosphorus removal rates were correlated to the dilution rates. Based on the amino acid profile, the quality of the proteins in the Spirulina platensis grown in the waste was the same as that in a clean culture.ulture.

• 드라이브 ㆍ 컨트롤
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• 제16권4호
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• pp.74-79
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• 2019

In this study, an edible fresh corn harvest testing machine was designed and manufactured. And harvesting performance was analyzed through the field test. The testing machine is of the tractor attached type. It is connected to the tractor PTO shaft to transfer power to the each part of the harvesting machine. And it harvests fresh corn by one row through the processes of cutting, stem crushing, detaching, and collecting. The performance test was performed at PTO speed (540, 750, 1050 rpm, respectively), working speed (0.1, 0.15, 0.2 m/s, respectively), and cropping cultivation (row spacing·hill spacing 70·25 cm, 70·40 cm, 90·30 cm, respectively). The performance test was repeated three times in the 15 m section. The detachment loss ratio, uncollected crop ratio, damage ratio, and harvest ratio were analyzed. As a result of the performance test, it was analyzed that the PTO speed 540 rpm, running speed of 0.1 m/s, and row spacing·hill spacing 70·40 cm were the optimal condition.

• KSBB Journal
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• 제19권3호
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• pp.192-199
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• 2004

본 연구에서는 글루타치온의 생산 공정을 개발하기 위해 효모의 성장특성, 글루타치온의 생산성 및 공정 모니터링에 관하여 조사하였다. 초기 pH가 4인 경우 40 mg/L 정도의 높은 글루타치온이 생산되었으며 배양온도에 따른 글루타치온의 생산은 3$0^{\circ}C$에서 가장 높게 나타났다. 그리고 최소 배지에 첨가한 시스테인은 배양 12시간에 넣었을 때 글루타치온의 생산성이 높게 나타났다. 생물 반응기를 이용한 회분식 배양에서 기질 농도에 따른 S. cerevisiae 성장 특성 및 글루타치온 생산은 글루코스 농도 20 g/L에서 글루타치온 생산량이 55 mg/L로 가장 높았다. 최소 배양액에 배양 초기에 0.5 % (v/v) 글라이신과 글루탐산을 각각 첨가하고 배양 11시간에 시스테인을 0.5% (v/v) 추가로 첨가한 경우에 글루타치온의 생산량이 많았다. 회분식 배양 후 기질을 첨가하는 유가식 발효 공정에서는 반응기내 글루코스 농도가 0.5 g/L 이하로 유지되도록 글루코스를 계단식으로 공급하였을 때 글루타치온은 약 102 mg/L로 높은 생산량을 나타내었다. 2차원 형광 센서를 이용하여 글루타치온 생산 공정의 온라인 모니터링은 배양액의 배지 조성이나 성장 특성 등 배양기내의 환경 변화에 따라 형광 영역 및 세기가 다르게 나타났으며 실시간 모니터링 된 형광 데이터는 기질 및 생산물 그리고 균체 성장 등의 각종 공정 변수와 좋은 상관성을 보였다. 따라서 2차원 형광 센서에 의한 모니터링은 글루타치온 대량 생산을 위한 실시간 모니터링에 매우 효과적이라 할 수 있다.

• KSBB Journal
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• 제9권5호
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• pp.518-524
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• 1994

Cytodex III 마립담체를 이용하여 무혈청배지에서 인간선장 세포를 배양하였다. 무혈청애지에서 미립담체 표변에 세포들은 정상적으로 부착하고 확 산하면셔 세포들은 담체에서 담체로 이동하여 생육 하였다. 미립담체에 접착 수율은 1%의 혈청 을 포 함된 배지에서는 약 93%인 반면에 무혈청배지에 서는 85% 정도로 나타났다. 접착된 세포의 90% 이상이 유가식 및 연속배양에서 탐체의 표변에 접 착한 후 6시간 후에 확산하며 생육하였다. 유가식 배양에셔 서1포농도와 최대 scu-P A 농도는 각각 $9.1{\times}10^5$ cells/m!와 1790 IU/ml이였고 연속배양에 셔는 각각 $2.5{\times}10^6$ cells/m]와 1820 IU/ml로 나타났다. 또한 저혈청배지에셔는 scu-P A가 tc-P A로의 전환율이 10% 정도로 높은데 비교하여 무혈 청배지에서는 전환율이 4.8%로 낮은 것으로 나타났 다. 이처럼 무혈청배지는 저혈청배지에셔보다 낮은 tc-P A로의 전환율을 유지할 수 있는 이점이 었다.

• KSBB Journal
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• 제8권3호
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• pp.217-223
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• 1993

호알카리성 Alcaligenes속의 한 균종응 이용하여 peptide계 생분해성 고분자인 ${\gamma}$-PGA( p이yglutarnic a acid}의 회분 맺 연속배양어l 의한 대량 생산성을 조사하였다. 화분배양시 ${\gamma}$-PGA의 생생량 벚 생산생은 포도당 농도 50g/P 까지 포도당의 농도증가에 따라 증가하였으나 최대 생산수율은 10gjP 의 포도당 농도 에서 얻어졌으며, 이때의 수율은 63% 이였다. 또, 비 증식속도는 포도당 농도 50g/l 에셔 약 $0.25hr^{-1}$로 최대값을 나타냈으나, 이 이상의 농도에서는 고농도 기섣에 의한 균체생육의 저해륜 나타내였다. 온도, pH 및 교반속도(rpm)를 독랩변수로 한 반응표면 분 석에 의한 ${\gamma}$-PGA 생산의 최적 희분배양 조건은 배 양온도 $31^{\circ}C$, pH 10 및 회전속도 87rpm의 정상점에 서 얻어졌으며, 이 조건에서 ${\gamma}$-PGA의 생산량은 약 11g/l 로 추정되었다. 연속배양의 경우 wash out은 희석률 0.5hr-1에서 일어났으며, 희석률 $0.40hr^{-1}$일 때 최대 생산성을 나타내였고, 최대 생산생은 2.80g/l/h로 회분배양보다 약 9배 높았다.

• 한국미생물·생명공학회지
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• 제49권3호
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• pp.432-439
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• 2021

Microbial community plays important roles in the culture environment of mud crab Scylla serrata. One of the environmental management efforts for the cultivation of S.serrata is by stabilizing microorganisms involved in nitrogen cycle process. The availability of dissolved inorganic nitrogen in its culture environment under a recirculating system closely relates to the nitrogen cycle, which involves both anaerobic and aerobic bacterial activities. Anaerobically, there are two major nitrogen compound degradation processes, i.e., denitrification and dissimilatory nitrate reduction to ammonium (DNRA). This study aimed to identify denitrifying and DNRA bacteria isolated from the recirculating cultivation of S. serrata. The water samples were collected from anaerobic filters called close filter system, which is anaerobically conditioned with the addition of varying physical filter materials in the recirculating mud crab cultures. The results showed that three denitrifying bacterial isolates and seven DNRA bacterial isolates were successfully identified. The phylogenetic analysis based on 16S rRNA gene of the denitrifying bacteria revealed that HIB_7a had the closest similarity to Stenotrophomonas daejeonensis strain MJ03. Meanwhile, DNRA bacterial isolate of HIB_92 showed a 100% similarity to Bacillus sonorensis strain N3, Bacillus vallismortis strain VITS-17, Bacillus tequlensis strain TY5, Geobacillus sp. strain DB24, Bacillus subtilis strain A1, and Bacillus mojavensis strain SSRAI21. This study provides basic information denitrifying and DNRA bacterial isolates identity which might have the potential to be applied as probiotics in aquaculture systems in order to maintain optimal environmental conditions.

• Advances in concrete construction
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• 제16권1호
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• pp.69-78
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• 2023

This investigation delves into the adverse repercussions stemming from the impact of arsenic on steel pipes concealed within soil designated for rice cultivation. Simultaneously, the study aims to ascertain effective techniques for detecting arsenic in the soil and to provide strategies for mitigating the corrosion of steel pipes. The realm of nanotechnology presents promising avenues for addressing the intricate intersection of renewable energy, oil, and environmental pollution from a novel perspective. Nanostructured materials, characterized by distinct chemical and physical attributes, unveil novel pathways for pioneering materials that exert a substantial impact across diverse realms of food production, storage, packaging, and quality control. Within the scope of the food industry, the scope of nanotechnology encompasses processes, storage methodologies, packaging paradigms, and safeguards to ensure the safety of consumables. Of particular note, silver nanoparticles, in addition to their commendable antibacterial efficacy, boast anti-fungal and anti-inflammatory prowess, environmental compatibility, minimal irritability and allergenicity, resilience to microbial antagonism, thermal stability, and robustness. Confronting the pressing issue of arsenic contamination within both environmental settings and the food supply is of paramount importance to preserve public health and ecological equilibrium. In response, this study introduces detection kits predicated upon silver nanoparticles, providing an expeditious and economically feasible avenue for identifying arsenic concentrations ranging from 0.5 to 3 ppm within rice. Subsequent quantification employs Hydride Atomic Absorption Spectroscopy (HG-AAS), which features a detection threshold of 0.05 ㎍/l. A salient advantage inherent in the HG-AAS methodology lies in its capacity to segregate analytes from the sample matrix, thereby significantly reducing instances of spectral interference. Importantly, the presence of arsenic in the soil beneath rice cultivation establishes a causative link to steel pipe corrosion, with potential consequences extending to food contamination-an intricate facet embedded within the broader tapestry of renewable energy, oil, and environmental pollution.