• Journal of Technologic Dentistry
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• v.39 no.4
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• pp.253-259
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• 2017

목적: 이 실험의 목적은 한국 백삼과 캐나다 백삼의 일반 성분 분석, 항산화력 측정 및 치아 우식 유발균에 미치는 항균 효과를 비교 분석하는데 있다. 방법: 한국 백삼과 캐나다 백삼의 일반 성분은 수분정량, 조지방, 조단백질, 그리고 조회분의 분야에서 측정되었다. 두 백삼을 60% 에탄올에 추출시켜 환원당과 DPPH-scavenging assay를 통해 항산화력을 측정했다. 동일 추출물을 이용, 치아 우식균인 streptococcus mutans에 대해 디스크 확산법과 최소저해농도 측정을 실시해 항균력을 측정 및 비교했다. 결과: 실험 결과, 한국 백삼과 캐나다 백삼은 유사한 조지방, 조단백질, 조회분 성분을 갖고 있었으나 수분정량에서 캐나다백삼이 우세했다. 항산화력 실험에서는 캐나다 백삼이 DPPH- scavenging 능력에서 더 높았으나 환원당 실험과 총 페놀 함량에서는 한국 백삼의 수치가 더 높았다. 디스크 확산법을 통한 항균력 실험에서는 한국 백삼이 캐나다 백삼보다 더 넓은 clearing zone을 형성하고 더 낮은 최소저해농도를 달성해 항균력에서 우세했다. 결론: 한국 백삼과 캐나다 백삼은 비슷한 일반성분과 항산화력을 가졌다. 하지만 한국백삼이 치아 우식 유발균인 streptococcus mutans에 대한 항균력에서 더 우세했다.

• Korean Journal of Food Science and Technology
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• v.44 no.4
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• pp.411-416
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• 2012

This study was carried out to investigate the effects of the extrusion process on the change of components in ginseng. The extraction yields from ginseng by distilled water extraction were highest in the extruded ginsengs, whereas it was lowest in the white ginseng. The contents of crude saponin were highest in the extruded ginseng, and they increased as the extrusion temperature was raised. The total contents of 11 kinds of ginsenosides increased in the order of red, white and extruded ginsengs. In particular, red ginseng showed higher contents of Rg1, Rg3 and Rb2, whereas Re was highest in white ginseng. In addition, the contents of Rg2, Rh1, Rh2 and Rg3 in the extruded white ginseng became higher. Free sugar contents were greatest in red ginseng. However, they were lowest in the extruded ginseng. White ginseng had a greater L value, whereas extruded ginseng demonstrated higher a and b values. In conclusion, the extraction yields, the contents of saponin, and ginsenoside-Rg2, Rh1, Rh2 and Rg3 were increased through the extrusion process.

• Korean Journal of Food Science and Technology
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• v.11 no.3
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• pp.182-187
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• 1979

Six commercial ginseng products, red ginseng, white ginseng I and II, red ginseng extract, white ginseng extract I and II were extracted with ethyl ether. Total fatty acid composition of the extracted free lipids was analyzed by gas liquid chromatography and digital integrator was used to measure the area of each peak. Crude lipid contents of red and white ginsengs were similiar. Those of red ginseng extract, white ginseng extract I and II were 1.10, 1.13 and 0.40%, respectively. It was found that 22 kinds of fatty acids existed in red and white ginsengs. Among them, 16 kinds of even numbered fatty acids were identified. Linoleic acid in red and white ginsengs was the most abundant. The contents of that in red ginseng, white ginseng I and II were 63.33, 45.55 and 41.06%, respectively. The next most abundant acid was palmitic acid, the contents of which were 11.30, 14.4 and 18.10% for red ginseng, white ginseng I and II, respectively. Major fatty acids for red ginseng extract and white ginseng extract I were linoleic and palmitic acids in the same order of magnitude. Linoleic and palmitic acids for red ginseng extract were 15.93 and 15.71 %, respectively, while linoleic and palmitic acids for white ginseng extract I were 21.94 and 19.15%, respectively. However, white ginseng extract II contained only 9.21% of linoleic acid and 16.13% of palmitic acid which was the major fatty acid.

• Journal of the Korean Society of Food Science and Nutrition
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• v.12 no.4
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• pp.350-356
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• 1983

Ginseng is one of the most important plant drugs which has been used as a medicine in Asia. Main effective components of ginseng have been recently believed to be saponins which have been isolated and identified from Panax ginseng C. A. Meyer. Decrease in total saponin content of white ginseng by storage years was remarkable in contrast with red ginseng. In storage for three years, decrease in red and white ginsengs were 12% and 27% for total saponin content, and 16.8% and 42.2% for major saponin content, respectively. The PT/PD ratios of red and white ginseng saponins were ranged 0.646 to 0.694% and 0.414 to 0.428%, respectively. According to the result of PT/PD ratios, red ginseng was greater than 50% in compare with white ginseng. The change of PT/PD ratio would greatly influence on the biochemical and pharmacological effects of ginseng.

• Journal of the Korean Society of Food Science and Nutrition
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• v.36 no.9
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• pp.1211-1218
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• 2007

The aim of this study was to compare the fermentability and characteristics of fermented broths for white ginseng, red ginseng and extruded white ginseng at $110^{\circ}C$ (A), $120^{\circ}C$ (B) and $130^{\circ}C$ (C). The scanning electron microphotograph of B and C was uniform aircell distribution, but A had increased pore size and exploded some aircell's wall. Saccharification rate constant of C was the highest (10.123 $mg/mL·hr^{1/2}$). Fermentation temperature was $27^{\circ}C$ for 30 days and the cultivation was fixed with Saccharomyces cerevisiae, Aspergillus usamii, and Rhizopus japonicus. The pH of red ginseng fermented broth was 3.79, which was the highest among the fermented samples. The fermented broth of B had the highest acidity (4.46%). The fermented broth of A had the highest reducing sugar content in ginseng suspensions (32.36 mg/mL). In ginseng fermented broths, reducing sugar content was decreased rapidly during the initial 5 days and alcohol content was increased during the initial 5 days. On the fifth day, the fermented broth of C showed the highest alcohol content (5.20%).

• Journal of the Korean Society of Food Science and Nutrition
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• v.38 no.7
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• pp.946-950
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• 2009

Chemical components and antioxidative activities of white ginseng, red ginseng and extruded white ginseng (EWG) were evaluated. Extrusion condition was 20% moisture content, 100 and $140^{\circ}C$ barrel temperature. The results showed that total sugar and acidic polysaccharide contents of white ginseng powder were increased after extrusion treatment of which EWG at $140^{\circ}C$ barrel temperature had higher value than EWG at $100^{\circ}C$ barrel temperature. Free radical scavenging activity of EWG at $140^{\circ}C$ barrel temperature was 80.2 and 45.6% respectively. The butanol fraction of polyphenolic compound and acidic polysaccharide were $27.2{\pm}0.1\;mg/g$ and $217.6{\pm}0.7\;mg/g$, respectively. The ginsenosides were quantified by HPLC and the yield of ginsenoside-Rg3s and Rg3r were achieved by extrusion process.

• Korean Journal of Food Science and Technology
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• v.28 no.2
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• pp.389-392
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• 1996

Crude polysaccharide fractions were isolated from white ginseng and red ginseng (Panax ginseng). The amount of crude polysaccharide fraction in red ginseng was higher than that of white ginseng. The glucose contents of crude polysaccharide fraction isolated from white ginseng and red ginseng were determined as 95.1% and 89.9% by HPLC, respectively. Method of carbazole-sulfuric acid was applied to determine the amount of acidic polysaccharide in white ginseng and red ginseng. The amount of acidic polysaccharide in red ginseng was higher than that of white ginseng. Whereas, contents of minerals (Cu, Zn, Fe, Mg) in crude polysaccharide fraction from white ginseng were higher than those of crude Polysaccharide fraction from red ginseng.

• Journal of the Korean Society of Food Science and Nutrition
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• v.43 no.2
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• pp.258-264
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• 2014

This study investigated the effects of die temperature and repeated extrusion on the chemical components and antioxidant properties of extruded white ginseng (EWG). Die temperature was adjusted to 100, 120, and followed by repeated extrusion under the same conditions with corresponding samples. Secondary extruded white ginseng (SEWG) at a die temperature of $120^{\circ}C$ had the highest acidic polysaccharide content of all extrudates. Increasing die temperature and repeated extrusion both increased crude saponin content of the extrudate. Ginsenoside Rh1 was detected in the EWG ($140^{\circ}C$) and SEWGs, whereas ginsenosides Rg3s and Rg3r were only detected in SEWG ($140^{\circ}C$). The highest total phenolic content, DPPH radical scavenging activity, and reducing power obtained from SEWG ($140^{\circ}C$) were $8.55{\pm}0.03$ mg/g, $72.05{\pm}0.63%$, and $0.80{\pm}0.004$, respectively. In conclusion, repeated extrusion increases antioxidant activity and crude saponin contents for the development of improved ginseng products.

• Journal of the Korean Society of Food Science and Nutrition
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• v.33 no.4
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• pp.736-740
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• 2004

Preparation of ginseng concentrate with high content of acidic polysaccharide from white tail ginseng marc that was obtained after preparation of white tail ginseng extract. As a result of extraction of white tail ginseng under various concentrations of ethanol (0∼90%), both amount of acidic polysaccharide and extraction yield decreased by increasing the ethanol concentration. However, acidic polysaccharide extracted by water from white tail ginseng marc was increased in accordance with the increase of ethanol concentration. The optimal condition for the extraction of acidic polysaccharide from the marc was treatment of $\alpha$-amylase in 390∼650 unit/g residue/15 mL of distilled water for 5 min at 4$0^{\circ}C$. The amount of acidic polysaccharide in water extract of the marc was increased from 8.3% to 10.5% by the treatment of $\alpha$-amylase. A new ginseng extract mixture was manufactured by mixing 50% ethanol extract of white tail ginseng and water extract of alcoholic residue in the ratio of 8:2 (w/w). Crude saponin content and acidic polysaccharide content were 10.5% and 17%, respectively. The mixture had a same crude saponin content and twice acidic polysaccharide content comparing to 50% ethanol extract of white tail ginseng. It suggests that preparation of new ginseng concentrate with high content of acidic polysaccharide from white tail ginseng marc has high potencies in the utilization of waste material.

• 인삼약초
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• v.4 no.1 s.11
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• pp.83-91
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• 2006