• Journal of Ginseng Research
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• v.18 no.1
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• pp.1-9
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• 1994

Sprague-Dawley rats were given freely with 15% ethanol (control) and 15% ethanol containing (1) 0.1% ginseng saponin, (2) 0.02% ginsenoside $Rb_1$, and (3) $Rg_1$ (tests) instead of water for 7 days and aldehyde dehydrogenase (ALDH) and monoamine oxidase (MAO) activity in different regions of brain were examined. In control group, total ALDH activity with indoleacetaldehyde and acetaldehyde as substrate in all different regions was lower than that of normal group except in the hippocampus. The inhibitory effect on the activity was prominent in the corpus striatum and was not in the hippocampus. However, low-$K_m$ ALDH activity in all different regions was much lower than that of normal group. A considerable decrease in mitochondria ALDH activity in cerebellum and striatum was also observed in control group. In test groups total, low-$K_m$, and mitochondria AkDH activities in all different regions were higher than those in control group. Although ALDH activity in the striatum of test group was higher than control group, it was relatively depressed as compared with normal. There was not found a remarkable difference in extent of stimulating effect on the AkDH activity according to the ginseng saponin components. When biogenic aldehydes were used as substrate, ALDH activity with 3,4-dihydroxy-phenylacetaldehyde (DOPAL) in all brain regions of control group was lower than that using 5-hydroxy-indoleacetaldehyde (HIAL) and 3,4-dihydroxyphenylglycolaldehyde (NORAL) as substrate. In control group, ALDH activity with biogenic aldehydes above mentioned was markedly inhibited in the striatum contrary to other regions. The higher ALDH activity with biogenic aldehydes in test group than in control was found in the striatum, cerebrum, and cerebellum. MAO activity in the cerebellum was inhibited in control group and slightly increased in test group. The results of present study suggest that the corpus striatum is significantly affected by ethanol exposure while the hippocampus is not and that ginseng saponin fraction and ginsenosid es might have a preventive effect against depression of brain ALDH activity by chronic administration of ethanol.

• Korean journal of food and cookery science
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• v.28 no.5
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• pp.623-628
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• 2012

The study was about to produce red ginsengs easily, using a household microwave oven to promote the consumption of fresh ginsengs in the home. Producing red ginsengs with a household microwave oven 'defrost function' takes 13 minutes (A), 'cook function' 6 minutes (B), and finally, 'defrost function' 44 minutes (C). For characteristics of microwave-produced red ginsengs, total saponin loss, color of powder, polyphenol content and saponin composition were compared with common red ginsengs. The color test for red ginseng powder showed that the color of household microwave-produced 6-minute cooked red ginseng (B) or 44-minute defrosted red ginseng (C) was closer to that of the common red ginsengs (E). The total saponin content in water eluted during red ginseng production showed that the saponin loss in microwave red ginseng was negligible compared to the common red ginsengs. Microwave red ginsengs showed no difference in phenol content that of the and higher total ginsenoside content than common red ginsengs. The ginsenoside $Rg_1$, Re, Rf, $Rg_2+Rh_1$, $Rb_1$, Rc, $Rb_2$, $Rb_3$, Rd and $Rg_3$ contents of microwave red ginsengs (A, B) were higher compared to that of the common red ginsengs; the ginsenoside Re, Rc, $Rb_2$, $Rb_3$, Rd and $Rg_3$ contents of 44-minute defrosted red ginseng (C) were higher compared to the common red ginsengs. It is considered that red ginseng production, using microwave oven at home, can be a fast and convenient way to produce highly functional red ginsengs with high ginsenoside content.

• Korean Journal of Plant Resources
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• v.19 no.1
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• pp.133-138
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• 2006

In order to enhance the components of bioactive ginsenosides and the manufacturing process of red ginseng, we developed the simplified method for red ginseng production. The red ginseng extract was prepared from red ginseng produced with the simplified method, and the production rate of extract ($62^{\circ}$ brix) was more than 60%. The ginsenosides of red ginseng were purified and analyzed by HPLC using ELSD. Ginsenoside-$Rg_3,\;Rh_2$ and $Rh_1$, specific artifacts found only in red ginseng, were detected by HPLC. Especially, contents of ginsenoside-$Rg_3$ and Rh1 were detected high than two times in red ginseng produced the simplified method compared to commercial products.

• Journal of Ginseng Research
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• v.10 no.1
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• pp.66-75
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• 1986

Influnces of Fuiarium solani and Phytophthora cactorum infection on the changes in saponin components of Korean ginseng (Panax ginseng C.A. Meyer)roots and some of the biology of those fungi in relation to ginseng root were investigated. Mycelial growth of F. solani was decreased as increasing concentration of the water extracts of fresh ginseng roots, while that of P. cactorum was increased as increasing the concentration of the water extracts and crude saponin. Mycelial growth of F. solani, however, was increased as increasing concentration of crude ginseng saponin upto 20 ppm, while it was tended to be decreased when the concentration was higher than 50 ppm. Nystatin also suppresed the growth of F. solani as increasing its concentration, but it did not affected on the growth of p. cactorum. Ginsenoside Ra and Ro components were not detected in ginseng roots inoculated with F. solani or P. cactorum. Panaxadiol gisenosides were increased by 3.0%, whereas panaxatriol ginsenosides were decreased by 34.9% in ginseng roots inoculated with F. iolani. In ginseng roots inoculated with P. cactorum panaxadiol ginsenosides were increased by 21.1%, but panaxatriol ginsenosides were decreased by 23.5%. PD/PT ratio in ginseng roots inoculated with F. solani or P. cactorum were equally increased by 58.4% in spite of differences in the change of panaxadiol and panaxatriol ginsenosides. The total saponin components of ginseng roots inoculated with F. solani or P. cactorum were decreased by 17.8% and 2.5%, respectively.

• Journal of Ginseng Research
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• v.10 no.1
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• pp.36-44
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• 1986

Fresh ginseng roots were extracted by different extraction methods to estimate the amount of extracts, and the content of common constituents and ginsenosides for comparison. The results are as follows: 1 The amount of the extract obtained by water as a solvent was about five times higher than those by ethanol or pressing process. 2. Water extraction at 70-$80^{\circ}C$ gave highest value in saponin yield, which was reduced by half by boiling, 3. The saponin yield by pressing process was shown to be about 52% of total saponin; saponins belonging to protopanaxatriol-ginsenosides being extracted better than those belonging to proto-panaxadiol-ginsenosides . 4. The contents of total sugar, reducing sugar, crude protein and total amino acids in the water extract were revealed to be higher compared to those in an ethanol extract. 5. The extract obtained by press had the highest ash content.

• Journal of the Korean Society of Food Science and Nutrition
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• v.40 no.2
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• pp.229-234
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• 2011

This study investigated quality characteristics of 4 year-old ginseng by enzymatic hydrolysis conditions to increase utilization. Ginseng was ground after steaming and was each treated with hydrolase A, B, C and D. When quality characteristics by the enzymes were examined, no significant difference was observed with pH of 5.5~5.6 and the sugar content of 4.0~4.33. The crude saponin content was the highest in ginseng treated with D, followed by B, C and A. The crude saponin, the reducing sugar and the total sugar contents increased until 0.3% (w/w) concentration in enzyme D with no significant difference by its concentration. Although active ingredients increased with time passage of hydrolysis, no significant change was found after three hours and the crude saponin content was the highest when ginseng was treated at $60^{\circ}C$. From these results, optimum conditions for 4 year-old ginseng were $60^{\circ}C$ for 3 hours with 0.3% (w/w) enzyme D, and under these conditions the reducing sugar, the total sugar and the crude saponin contents recorded 18.11, 36.21 and 4.23 mg/g, respectively. Therefore, enzymatic hydrolysis was found to be effective in increasing active ingredients of 4 year-old ginseng with various usages expected.

• Biomedical Science Letters
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• v.9 no.1
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• pp.43-49
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• 2003

This study was carried out to investigate the effect of crude ginseng saponin (CGS) on blood chemical parameters in adult female guinea pigs exposed to 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD). A total of 80 guinea pigs (800$\pm$20g) were divided into 8 groups: group 1 (normal control group) was given vehicle (corn oil containing small amount of acetone and DMSO) and saline; group 2 (single TCDD-treated) received TCDD (1 $\mu\textrm{g}$/kg, i.p.) and saline (i.p.); groups 3 and 4 were administered CGS at a daily i.p. doses of 10 and 20 mg/kg for 4 weeks, respectively; groups 5 and 6 were administered CGS (10 and 20 mg/kg, respectively) for 5 weeks starting 1 week before TCDD-exposure; groups 7 and 8 were administered CGS (10 and 20 mg/kg, respectively) for 3 weeks from 1 week after TCDD-exposure. CGS was prepared by Diaion HP-20 adsorption chromatography. Body weights of G2 were significantly decreased from the and week after TCDD-exposure (P<0.01). Body weights of the CGS-treated groups were also decreased by TCDD-exposure but the weight loss was greatly retarded compared with that of G2. Increase in blood glucose, amylase, lipase, total cholesterol, triglyceride, AST and LDL-cholesterol levels by TCDD exposure was significantly attenuated by the CCS-treatment (P<0.05). From these results, we found that saponin, the main active ingredient of gineseng, played a protective role in TCDD-induced toxicity and ginseng protected female animals from dioxin-induced toxic manifestation.

• Korean Journal of Microbiology
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• v.24 no.4
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• pp.352-356
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• 1986

A study was carried out to determine the effect of ginseng saponin an its related materials on aflatoxin production by Aspergillus parasiticus NRRL2999 in glucose-salts(GS) medium. Maximal growth of the mold and AF froduction in the medium occurred after 5 and 9 days at $28^{\circ}C$, respectively. When various concentrations of saponin added to the medium aflatoxin synthesis were significantly reduced (p<0.05) compared to the control after 9 days at $28^{\circ}C$. 0.05% of saponin inhibited aflatoxin production most effectively in the low concerntrations of saponin (0.01-0.2%) and the toxin synthesis reduced with an increasing concentrations of saponin in the high concentrations (0.03-5.0%). Various concentrations (0.01-1.0%) of saponin diol and triol in the media also caused to reduce aflatoxin synthesis by the mold (p<0.05). All saponin fractions were found to decrease aflatoxin production significantly. Saponin fraction numbers of 1,2,4 and 6 were shown to reduce aflatoxin production effectively, and the number 1 was the most effective. Addition of 0.05% of nucleic acid related materials to the medium reduced aflatoxin production (p<0.05). Aflatoxins could not be found in broth at all, but in mycelia when 0.05% of caffeine was added to the medium. Aflatoxin synthesis was well correlated with total lipid synthesis, growth and glucose uptake. When aflatoxin synthesis inhibited (5.0% of saponin) both total lipid synthesis and growth were stimulated and the efficiency of glucose utilization was reduced.

• Journal of the Korean Society of Food Science and Nutrition
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• v.34 no.2
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• pp.247-254
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• 2005

The objective of this study is to compare the chemical properties of red ginseng, white ginseng, and extruded ginseng. Six kinds of samples were prepared and examined their chemical components. The comparison among crude ash, crude lipid, and total sugar resulted insignificant difference. White ginseng had lower content of reducing sugar than those of extruded ginseng and red ginseng. Total amino acid was found relatively low in treatment A (sliced whole root and dried at 7$0^{\circ}C$). Total amino acid of treatment C (extruded dry whole root ginseng slices, moisture content 30%, barrel temperature 11$0^{\circ}C$, and screw speed 200 rpm) was higher than that of treatment B (extruded dry whole root slices, moisture content 25%, barrel temperature 11$0^{\circ}C$, and screw speed 200 rpm). Crude saponin of treatments A, B, C, D (white ginseng with skin), E (skinless white ginseng), and F (red ginseng) were 4.02, 4.77, 4.12, 3.56, 3.25, and 4.02%, respectively. Ginsenoside was contained similarly as crude saponin. The amount of ginsenoside in the treatment of A, B, C, D, E, and F was recorded respectively at 6.031, 8.108, 6.876, 7.978, 5.591, and 9.834 mg/g. A specific component in red ginseng, $R_{g3}$ was detected in treatment F. Maltol was detected in treatment Band F. Acidic polysaccharide was increased 2∼3% by extrusion process. In conclusion, extruded ginseng had similar components to those of red ginseng.

• Journal of Bio-Environment Control
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• v.11 no.4
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• pp.199-204
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• 2002

To overcome a decrease of Korean ginseng production caused by successive cropping, we have tried to develop a nutrient culture system for Korean ginseng production. For determining the optimal substrate, mixture of sand and TKS-2 (S＋T), peatmoss (P), reused rockwool (RR), and granular rockwool (GR) were investigated. The overall physico-chemical properties of RR fell into the reported optimal range for the ginseng cultivation. However, bulk density of S＋T was a little higher than that of soil in Korean ginseng fields. The top fresh weight of the ginseng was high in RR and S＋T substrates. The root fresh and dry weights in the RR were remarkably greater than that in the conventional soil (CS) of Korean ginseng fields. In terms of ginseng quality, the vitamin C content of ginseng root in nutrient culture was higher than that in CS. However, the contents of crude saponin and total ginsenosides in ginseng between in the nutrient culture and in the soil culture did not show any significant differences.