• 제목/요약/키워드: Ginsenoside Rg$_3$

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The Change of Ginsenoside Composition in Ginseng Leaf and Stem Extract by the Microwave and Vinegar Process (인삼 잎 줄기 추출물의 초단파 및 식초 처리에 의한 인삼 사포닌 성분 변화)

  • Kim, Shin Jung;Kim, Ju Duck;Ko, Sung Kwon
    • Korean Journal of Pharmacognosy
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    • v.44 no.2
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    • pp.149-153
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    • 2013
  • The purpose of this study was to develop a new preparation process of ginseng extract with the high concentration of prosapogenin, the specific component in Red ginseng. Chemical transformation from the ginseng saponin glycosides to the prosapogenin was analyzed by the HPLC. The extracts of ginseng leaf and stem were processed at the several treatment conditions of the microwave and vinegar(about 14% acidity). MGLS-20 findings show that the ginseng leaf and stem extracts that had been processed with microwave and vinegar for 20 minutes peaked in the level of ginsenoside $Rg_3$(0.906%). MGLS-25 peaked in the level of ginsenoside $Rg_5$(0.329%) in the ginseng leaf and stem extract processed with microwave and vinegar for 25 minute. And the other kinds of ginseng prosapogenin did not show a higher content.

Ginsenoside Composition and Quality Characteristics of Red Ginseng Extracts prepared with Different Extracting Methods (추출방법에 따른 홍삼추출액의 사포닌 조성과 품질특성)

  • Lee, Gang Seon;Nam, Ki Yeul;Choi, Jae Eul
    • Korean Journal of Medicinal Crop Science
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    • v.21 no.4
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    • pp.276-281
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    • 2013
  • This study was conducted to compare the contents of ginsenoside according the water extract conditions of red ginseng. In method A, red ginseng extract was prepared at $75^{\circ}C$ for 18 hours by 1 time extraction, and method B, the preparation was done at $85^{\circ}C$ for 18 hours by 1 time extraction. In method C, the primary extract prepared at $75^{\circ}C$ for 9 hours was blended with the secondary extract prepared by re-extracting the red ginseng residue obtained after the primary extraction, at $85^{\circ}C$ for 9 hours. Method D was the same procedure as method C but the extraction temperature for the primary extraction was $85^{\circ}C$ and that for the secondary extraction was $95^{\circ}C$. The contents of total and $Rb_1$, $Rg_1$ and $Rg_3$ ginsenoside were highest in Method C. The content of prosapogenin (ginsenoside $Rg_2$, $Rg_3$, $Rb_1$ and $Rb_2$) was highest in Method B. There was no consistent tendency in Brix, pH, Hue value and absorbance among extraction methods.

The Comparison of Ginseng Prosapogenin Composition and Contents in Red and Black Ginseng (흑삼과 홍삼의 인삼 프로사포게닌 성분 비교)

  • Jo, Hee-Kyung;Sung, Min-Chang;Ko, Sung-Kwon
    • Korean Journal of Pharmacognosy
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    • v.42 no.4
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    • pp.361-365
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    • 2011
  • The objective of this study is to provide basic information for developing a high-value ginseng product using ginseng saponin and prosapogenin. In order to achieve the proposed objective ginsenoside compositions of Black (BG) and Red (RG) ginseng extract with 95% ethyl alcohol were examined by means of HPLC. The crude saponin and ginsenoside composition of processed ginseng products were analyzed and compared, with BG topping the list with a crude saponin content of 7.53%, followed by RG (5.29%). Ginseng prosapogenin (ginsenosides $Rg_2$, $Rg_3$, $Rg_5$, $Rg_6$, $Rh_1$, $Rh_4$, $Rk_1$, $Rk_3$, $F_1$ and $F_4$) in BG was found to be contained almost 2.6 times as much as that in RG. Ginsenosides $Rg_3$, $Rg_5$, $Rk_1$, $Rh_4$ and $F_4$ in BG in particular were found to be almost 3 times as much as those in RG. $Rg_6$ and $Rk_3$ in BG were also found to be almost 4 times as much as those in RG.

Beneficial effects of fermented black ginseng and its ginsenoside 20(S)-Rg3 against cisplatin-induced nephrotoxicity in LLC-PK1 cells

  • Han, Myoung-Sik;Han, Im-Ho;Lee, Dahae;An, Jun Min;Kim, Su-Nam;Shin, Myoung-Sook;Yamabe, Noriko;Hwang, Gwi Seo;Yoo, Hye Hyun;Choi, Suk-Jung;Kang, Ki Sung;Jang, Hyuk-Jai
    • Journal of Ginseng Research
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    • v.40 no.2
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    • pp.135-140
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    • 2016
  • Background: Nephrotoxicity is a common side effect of medications. Panax ginseng is one of the best-known herbal medicines, and its individual constituents enhance renal function. Identification of its efficacy and mechanisms of action against drug-induced nephrotoxicity, as well as the specific constituents mediating this effect, have recently emerged as an interesting research area focusing on the kidney protective efficacy of P. ginseng. Methods: The present study investigated the kidney protective effect of fermented black ginseng (FBG) and its active component ginsenoside 20(S)-Rg3 against cisplatin (chemotherapy drug)-induced damage in pig kidney (LLC-PK1) cells. It focused on assessing the role of mitogen-activated protein kinases as important mechanistic elements in kidney protection. Results: The reduced cell viability induced by cisplatin was significantly recovered with FBG extract and ginsenoside 20(S)-Rg3 dose-dependently. The cisplatin-induced elevated protein levels of phosphorylated c-Jun N-terminal kinase (JNK), p53, and cleaved caspase-3 were decreased after cotreatment with FBG extract or ginsenoside 20(S)-Rg3. The elevated percentage of apoptotic LLC-PK1 cells induced by cisplatin treatment was significantly abrogated by cotreatment with FBG and the ginsenoside 20(S)-Rg3. Conclusion: FBG and its major ginsenoside 20(S)-Rg3, ameliorated cisplatin-induced nephrotoxicity in LLC-PK1 cells by blocking the JNKep53ecaspase-3 signaling cascade.

CHEMICAL STUDIES ON CRUDE DRUG PROCESSING RED GINSENG AND WHITE GINSENG (생약에 관한 화학구조-홍삼 및 백삼-)

  • Kitagawa Isao
    • Proceedings of the Ginseng society Conference
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    • 1984.09a
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    • pp.159-168
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    • 1984
  • 생약의 화학적 특성에 대한 계속적인 연구가 이루어짐에 따라 우리는 홍삼 및 백삼의 화학성분을 상대적으로 규명하였다. 홍삼은 극성이 약한 분획에서 5개의 새로운 배당체(20R-ginsenoside $Rg_{2},\;Rh_{1};20R$, 20S-ginsenoside $Rg_{3}; ginsenoside\;Rh_{2}$와 새로운 아세칠렌 화합물(Panaxytriol)을 함유하는 특징적인 성분들이 gins - enoside Rh1, Rg2와 함께 분리되었다. ginsenoside Rh2는 배양된 종양세포에 대해 세포독소 효과를 보여주었다. 백삼은 수용성 분획에서 특징적인 성분이 있는 것으로 밝혀졌으며, 여기에서 malonly-ginsenosides Rb1, Rb2, Rc 및 Rd로 명명된 새로운 배당체 성분이 분리되었다. Malona-ginsenosides는 백삼에서는 주요한 배당체이지만, 홍삼에서는 검출되지 않았다.

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Metabolite profiles of ginsenosides Rk1 and Rg5 in zebrafish using ultraperformance liquid chromatography/quadrupole-time-of-flight MS

  • Shen, Wenwen;Wei, Yingjie;Tang, Daoquan;Jia, Xiaobin;Chen, Bin
    • Journal of Ginseng Research
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    • v.41 no.1
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    • pp.78-84
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    • 2017
  • Background: In the present study, metabolite profiles of ginsenosides Rk1 and Rg5 from red ginseng or red notoginseng in zebrafish were qualitatively analyzed with ultraperformance liquid chromatography/quadrupole-time-of-flight MS, and the possible metabolic were pathways proposed. Methods: After exposing to zebrafish for 24 h, we determined the metabolites of ginsenosides Rk1 and Rg5. The chromatography was accomplished on UPLC BEH C18 column using a binary gradient elution of 0.1% formic acetonitrile-0.1% formic acid water. The quasimolecular ions of compounds were analyzed in the negative mode. With reference to quasimolecular ions and MS2 spectra, by comparing with reference standards and matching the empirical molecular formula with that of known published compounds, and then the potential structures of metabolites of ginsenosides Rk1 and Rg5 were acquired. Results: Four and seven metabolites of ginsenoside Rk1 and ginsenoside Rg5, respectively, were identified in zebrafish. The mechanisms involved were further deduced to be desugarization, glucuronidation, sulfation, and dehydroxymethylation pathways. Dehydroxylation and loss of C-17 residue were also metabolic pathways of ginsenoside Rg5 in zebrafish. Conclusion: Loss of glucose at position C-3 and glucuronidation at position C-12 in zebrafish were regarded as the primary physiological processes of ginsenosides Rk1 and Rg5.

Pattern of Molecular Aggregation of Ginsenosides in Aqueous Solution (수용액(水溶液)에서 인삼배당체(人蔘配糖體)의 분자결합양상(分子結合樣相))

  • Park, Hoon;Lee, Mee-Kyoung;Park, Qwi-Hee
    • Applied Biological Chemistry
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    • v.29 no.2
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    • pp.198-206
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    • 1986
  • For the information on micellization at each ginsenoside level aqueous solution of purified saponin of Panax ginseng root was dialyzed through dialysis tubing (MW 12,000) or eluted through Bio-Gel P-2 (MW 200-2,000) and analysed for ginsenosides by high performance liquid chromatography. Ginsenosides can be classified into three groups depending upon molecular aggregation pattern and spatial arrangement of hydrophilic parts in molecule. Group I that is large micelle former(aggregation number: above 10) and one side hydrophilic part (HP) includes $ginsenoside\;Rb_1$, $Rb_2$, Rc and Rd (diols). Group II thai is small micelle former (aggregation number:>10-1) and semi-two sales HP includes $Rg_2$, Rf (triol) and $Rg_3$ (diol). Group III that is no micelle former (aggregation number: 1) and two sides HP includes Re and $Rg_1$ (triol).

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Development of Consumer demand Ginseng Products Using Saponin Modification Techniques (사포닌 변환에 의한 맞춤형 인삼제품개발)

  • Yang, Deok-Chun;Choi, Kwang-Tae
    • Proceedings of the Plant Resources Society of Korea Conference
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    • 2012.05a
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    • pp.8-8
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    • 2012
  • Ginseng have been traditionally used for strengthening immunity, providing nutrition and recovering health from fatigue. Recently, pharmaceutical activities of ginseng roots have been proven by many researches, and ginseng has become a world-famous medicinal plant. Ginseng saponin, ginsenoside, is one of the most important secondary metabolite in ginseng which has various pharmacological activities. Many studies have aimed to convert major ginsenosides to the more active minor ginsenoside Rg3 for consumer demand ginseng product. Microbial strain GS514 strain was isolated from soil around ginseng roots for enzymatic preparation of ginsenoside Rg3, which strain shows strong ability of converting ginsenoside Rb1and Rd into Rg3 in the solution with NaCl. The gene encoding a ${\beta}$-glucosidase from this GS514 was cloned and expressed in the BL21 (DE3) strain of Escherichia coli. The recombinant enzyme was purified and characterized. The molecular mass of purified was 87.5 kDa, as determined by SDS-PAGE. The gene sequence revealed significant homology to the family 3 glycoside hydrolases. The purified single enzyme also catalyzed the conversion of ginsenoside Rb1 into Rg3. This target enzyme will be able to produce as much saponin for consumer demand ginseng product. Anti-apoptotic proteins bind with pro-apoptotic proteins to induce apoptosis mechanism. Over expression of these anti-apoptotic proteins lead to several cancers by preventing apoptosis. Docking simulations were performed for anti-apoptotic proteins with several ginsenosides from Panax ginseng. Our finding shows ginsenosides particularly Rg3, Rh2 and Rf have more binding affinity with apoptotic proteins. Further, these docking system of each ginsenosides can be extended to experimental screen system for further brief confirmations of several diseases.

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Easy Red Ginseng Production Using Household Microwave Ovens (가정용 전자레인지를 이용한 간편 홍삼 제조)

  • Kim, Mi Hyun;Kim, Kyung Tack;Cho, Chang-Won;Rho, Jeonghae
    • 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.

Effect of Extrusion Process on the Change of Components in Ginseng (압출성형이 인삼의 성분변화에 미치는 영향)

  • Ryu, Byung-Hee;Choi, Mi-Jung;Chung, Koo-Chun;Lee, Si-Kyung
    • 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.