• Journal of Wetlands Research
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• v.9 no.1
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• pp.99-105
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• 2007

Nonylphenol polyetoxylates (NPnEOs) metabolites; nonylphenol (NP), nonylphenol monoethoxylate (NP1EO), nonylphenoxyacetic acid (NPEC) (collectively referred to "NPE-c") were examined for their degradations by using of lab-scale UV/photocatalytic silicagel (ultraviolet photocatalytic degradation in the presence of silicagel coated with titanium dioxide as a catalyst) reactor. NPE-c degradations by UV/photocatalytic silicagel treatment reached approximately 85-93 % after 40 min irradiation independently of its initial concentration (between ca. 0.5 and 2.0mg/l). Any intermediates under the NPE-c degradation were not identified by GC/MS sample analysis. Degradations of NPE-c were followed pseudo first-order kinetics. Then, the effectiveness of UV/photocatalytic silicagel treatment for degradation of NPE-c was in the order of NPEC > NP > NP1EO.

• Journal of the Korean Wood Science and Technology
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• v.31 no.1
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• pp.16-21
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• 2003

The methanol extractives from root bark of Ulmus davidiana var japonica nakai were fractionated with n-hexane, ethyl ether, ethyl acetate and waster, the water soluble fraction was also fractionated with silicagel column chromatograhy. The chemical structure of purifided compounds were identified with UV, IR, ¹H-NMR and ¹³C-NMR spectra and the antibacterial activities also were investigated. Two different antibacterial compounds (compound A and B) were fractionated with silicagel chromatography and TLC. Compounds B was identified as a catechin rahmnoside. The both of compounds had antibacterial activity on Staphylococcus aureus and Salmonella typhimurium.

• Journal of Soil and Groundwater Environment
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• v.17 no.5
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• pp.20-30
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• 2012

In case of analyzing PAHs (EPA 16 compounds) in oil-contaminated soils, the lump of peaks may occur because of the aliphatic and polar compounds in oil. This phenomenon is due to the lower accuracy of the analysis. To solve this problem, evaluation of application of silicagel-alumina multi-layer fraction was performed using standard substances and oil-contaminated soils. As a result of application of silicagel-alumina multi-layer fraction cleanup method using standard substances, recovery rates of surrogate standards (5 compounds including Naphthalene-d8) were 83~100% and those of target standards were 75~129%. These were to meet the target values (60~130%) in this study. When used 4% water-silicagel column analyze PAHs in oil-contaminated soils, Some problems were generated for quantitative analysis of PAHs; concentration of PAHs was underestimated due to an upward baseline of internal standard (recovery rate: less than 60%) and overestimated by the lump of peaks which were not purified (the biggest recovery rate: more than 400%). On the other hand, in case of silicagel-alumina multi-layer fraction cleanup method, recovery rate of surrogate standards were 61~101.6%. Therefore this cleanup method was considered a valid method to improve accuracy of analysis of PAHs in oil-contaminated soils.

• 한국생물공학회:학술대회논문집
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• 2001.11a
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• pp.613-616
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• 2001

The performance of five supports was evaluated for the immobilization of protease in a packed bed reactor, Celite R640, Duolite A568 and Silicagel 60 showed higher enzyme activity for column opel'ation, The optimum conditions for this operation were pH 5.0 and $50^{\circ}C$, Egg yolk protein was also hydrolyzed to obtain peptide solution in this study.

• Microbiology and Biotechnology Letters
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• v.18 no.5
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• pp.501-505
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• 1990

Streptomyces sp. KISl3 isolated from soil was found to produce low molecular weight thiol protease inhibitors. The protease inhibitor production was closely linked to the cell growth and regulated by growth condition. The inhibitor was purified from the culture broth through butanol extraction, silicagel 60 column chromatography, Sephadex LH-20 gel filtration and preparative HPLC. The inhibitor showed specific inhibitory activity to thiol protease such as papain, picin and bromelain. The mode of inhibition against papain to Hammersten casein as a substrate was non-competitive.

• Journal of Environmental Health Sciences
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• v.2 no.1
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• pp.5-9
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• 1975

For analysis of Xanthene dyes according to the developing solvent and adsorbent was applied to Thin-layer chromatography with silicagel and cellulose plate. Silicagel chromato-plate used were prepared under different condition of activation. Using eight developing solvent, the influence of the condition for activation upon the separation of Xanthene dyes was investigated. The results are shown in Table 3. Methyl ethyl ketone+Acetone+$H_2O$ (10:0.1:0.4) mixture and n-butanol+Ammonia water (4:1) mixture gave clear separation for Xanthene dyes, including Fluorescein, Erythrosine Rhodamin B, Eosine, Rose bengale, phloxine and Acid red those Rf values decrease in the described ordor. Methyl ethyl ketone+Acetone+$H_2O$ (10:0.1:0.4) was applied to two adsorbents which were purchased from different manufactures. The results of Chromatograms are obtained Figure 6.

• Microbiology and Biotechnology Letters
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• v.17 no.2
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• pp.121-125
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• 1989

Actinomycetes GF 155-2, which produced an extracellular pepsin inhibitor, was isolated from soil samples. Optimal conditions of inhibitor production by flask-shacking culture were 2% glucose, 0.7% polypeptone, initial pH 1.0, culture time 60 hours and temperature 30%. Effect of in-organic salts was not observed. About 5mg of colorless crystalline inhibitor was obtained from 5L culture broth in jar tormentor by means of ammonium sulfate precipitation, methanol extraction, and column chromatographies on Amberlite IR-120, XAD-2 and silicagel 60.

• Journal of the Society of Cosmetic Scientists of Korea
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• v.16 no.1
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• pp.40-46
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• 1990

A method was described for the analysis of Artemisia extract in cosmetic soap. Esculetin-6-methylether was used as indicator ingredient for analysis of Artemisia extract. It was isolated from the plant and purified with silicagel column. The structure was conformed with IR, NMR and MASS spectroscopy. The Artemisia extract in sample was isolated with chloroform and interfering com- pounds were eliminated with silicagel column. The Artemisia extract was determined by reverse phase high- performance liquid chromatography with a fluorescence detector and a solvent system of H2O/THF/MeOH. The recorveries of Artemisia extract were 93.9-106.1% in the cosmetic soap.

• Korean Journal of Medicinal Crop Science
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• v.5 no.4
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• pp.249-254
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• 1997

From Korean cultivated peony root, paeoniflorin and albiflorin, which are generally considered to be principal components of peony root, were isolated by silicagel column chromatography. Their structures were identified by spectroscopic methods $(UV,\;FT-IR,\;^1H{\cdot}^{13}C-NMR)$ and their purities were 98% and 93%, respectively. The concentrations of paeoniflorin and albiflorin in ten Korean cultivated peony lines were determined by reverse phase HPLC. The concentrations of paeoniflorin ranged from 1. 56 to 4.04% and those of albiflorin ranged from 0.04 to 1. 98% in ten Korean cultivated lines. In the ten cultivated lines, the concentrations of albiflorin in Punggi lines were higher than other lines.

• Journal of Life Science
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• v.13 no.3
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• pp.365-373
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• 2003

Instead of deodorization appararus of fish oil, an adsorbent such as activated charcoal, activated alumina, silicagel, bamboo charcoal was packed in column alone or mixed with preparative ratio, and then test the effective deodorization with bleaching. In the progress of degumming, the effective method was 18 ml of 2.5% oxalic acid per 100m1 of crude large anchovy oil. The optical condition to deacidified was treating for 30 min at $40^{\circ}C$ with 2.5% sodium hydroride solution. The effective deodorization was added with 3% silicagel under the alone treating adsorbent, and mixed treating was 30% activated alumina and 10% silicagel but added to green tea powder was not effective. The major fatty acid of total lipid were 16:0, 20:5n-3, 18:1n-9, 16:1n-7 and 22:6n-3 after treatment of degumming, deacidfication and deodorizing in the large anchovy oil. The oxidative stability of refined anchovy oil added to $\alpha$-tocopherol was validated 20 days under the control, and 30 days in the case of $\alpha$-tocopherol. The 0.01% $\alpha$-tocopherol was more effective than 0.02% $\alpha$-tocopherol.