• Title/Summary/Keyword: $ginsenoside-Rb_1$

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A Study on the Effect of Ginseng Saponin on Rat Intestinal Mucosal $Na^+,K^+$-ATPase (인삼 사포닌이 백서 장점막 $Na^+,K^+$-ATPase에 미치는 영향에 관한 연구)

  • 조윤성;김낙두;권용화
    • YAKHAK HOEJI
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    • v.22 no.3
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    • pp.120-127
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    • 1978
  • We have studied the effect of ouabain, tool ginseng saponin, panax saponin C (protopanaxatriol derivative) and ginsenoside $Rb_{1}$ (protopanaxadiol derivative) on $Na^+,K^+$-ATPase and $Mg^{++}$-ATPase activities were determined by the method of Robinson and ATPase activities were determined by the method of King. The $Na^+,K^+$-ATPase activities were inhibitied by 90.1% and 51.1% respectively at the concentration of $10^{-3}M$ and $10^{-4}M$ ouabain. The results are consistent with those of Robinson. The $Na^+,K^+$-ATPase activities were increased by 14.3% and 10.0% respectively at the concentration of $10^{-4}$g/ml and $10^{-5}$g/ml total ginseng saponin. Panax saponin C obtained by the method of Han and ginsenoside $Rb_{1}$ obtained by the method of Shibata were used. The $Na^+,K^+$-ATPase activities were increased in the presence of panax saponin C and the increased activity with panax saponin C was greater than that with total ginseng saponin. On the other hand ginsenoside $Rb_{1}$ showed an inhibitory effect on $Na^+,K^+$-ATPase. Total ginseng saponin, panax saponin C and ginsenoside $Rb_{1}$ had no effect on $Mg^{++}$-ATPase. Therefore, it may be concluded that total ginseng saponin has dual effects on microsomal $Na^+,K^+$-ATPase, that is, panax saponin C exhibits stimulatory action, whereas ginsenoside $Rb_{1}$ shows inhibitory action.

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Identification of Ginseng Sapogenin and Quantitative Determination of $Ginsenoside-Rb_1$ from Crude Drug Preparation Containing Bupleuri Radix (시호(柴胡)함유 생약제제(生藥製劑)중 인삼(人蔘) Sapogenin의 확인 및 $Ginsenoside-Rb_1$의 분리 정량)

  • Choi, Kang-Ju;Ko, Sung-Ryong;Jeon, Byeong-Seon;Sung, Hyun-Soon
    • Korean Journal of Pharmacognosy
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    • v.20 no.3
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    • pp.175-179
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    • 1989
  • From crude drug preparation(Soshiho-Tang) ginseng sapogenins were identified by TLC and $ginsenoside-Rb_1$ was determined quantitatively by HPLC. Panaxadiol, pandaxatriol, acid-hydrolysates of ginseng saponin, were identified by TLC with benzene/acetone(4 : 1, v/v). Rf values of which were measured as 0.26 and 0.14, respectively. The content of $ginsenoside-Rb_1$ was determined by HPLC on $Lichrosorb-NH_2$ column with $CH_3CN/H_2O/n-BuOH$(80 : 20 : 10, v/v). Its recovery rate in the extract granules, was as relatively low as $19.8{\pm}1.4%$ compared to the content in raw red ginseng.

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Preparation of minor ginsenosides C-Mc, C-Y, F2, and C-K from American ginseng PPD-ginsenoside using special ginsenosidase type-I from Aspergillus niger g.848

  • Liu, Chun-Ying;Zhou, Rui-Xin;Sun, Chang-Kai;Jin, Ying-Hua;Yu, Hong-Shan;Zhang, Tian-Yang;Xu, Long-Quan;Jin, Feng-Xie
    • Journal of Ginseng Research
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    • v.39 no.3
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    • pp.221-229
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    • 2015
  • Background: Minor ginsenosides, those having low content in ginseng, have higher pharmacological activities. To obtain minor ginsenosides, the biotransformation of American ginseng protopanaxadiol (PPD)-ginsenoside was studied using special ginsenosidase type-I from Aspergillus niger g.848. Methods: DEAE (diethylaminoethyl)-cellulose and polyacrylamide gel electrophoresis were used in enzyme purification, thin-layer chromatography and high performance liquid chromatography (HPLC) were used in enzyme hydrolysis and kinetics; crude enzyme was used in minor ginsenoside preparation from PPD-ginsenoside; the products were separated with silica-gel-column, and recognized by HPLC and NMR (Nuclear Magnetic Resonance). Results: The enzyme molecular weight was 75 kDa; the enzyme firstly hydrolyzed the C-20 position 20-O-${\beta}$-D-Glc of ginsenoside Rb1, then the C-3 position 3-O-${\beta}$-D-Glc with the pathway $Rb1{\rightarrow}Rd{\rightarrow}F2{\rightarrow}C-K$. However, the enzyme firstly hydrolyzed C-3 position 3-O-${\beta}$-D-Glc of ginsenoside Rb2 and Rc, finally hydrolyzed 20-O-L-Ara with the pathway $Rb2{\rightarrow}C-O{\rightarrow}C-Y{\rightarrow}C-K$, and $Rc{\rightarrow}C-Mc1{\rightarrow}C-Mc{\rightarrow}C-K$. According to enzyme kinetics, $K_m$ and $V_{max}$ of Michaelis-Menten equation, the enzyme reaction velocities on ginsenosides were Rb1 > Rb2 > Rc > Rd. However, the pure enzyme yield was only 3.1%, so crude enzyme was used for minor ginsenoside preparation. When the crude enzyme was reacted in 3% American ginseng PPD-ginsenoside (containing Rb1, Rb2, Rc, and Rd) at $45^{\circ}C$ and pH 5.0 for 18 h, the main products were minor ginsenosides C-Mc, C-Y, F2, and C-K; average molar yields were 43.7% for C-Mc from Rc, 42.4% for C-Y from Rb2, and 69.5% for F2 and C-K from Rb1 and Rd. Conclusion: Four monomer minor ginsenosides were successfully produced (at low-cost) from the PPD-ginsenosides using crude enzyme.

Conversion of Ginsenoside Rb1 and Taxonomical Characterization of Stenotrophomonas sp. 4KR4 from Ginseng Rhizosphere Soil (인삼 근권 토양에서 분리한 Stenotrophomonas sp. 4KR4의 Ginsenoside Rb1 전환능 및 분류학적 특성)

  • Jeon, In-Hwa;Cho, Geon-Yeong;Han, Song-Ih;Yoo, Sun Kyun;Whang, Kyung-Sook
    • Korean Journal of Microbiology
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    • v.49 no.4
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    • pp.369-376
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    • 2013
  • We isolated the ${\beta}$-glucosidase producing bacteria (BGB) in ginseng root system (rhizosphere soil, rhizoplane, inside of root). Phylogenetic analysis of the 28 BGB based on the 16S rRNA gene sequences, BGB from rhizosphere soil belong to genus Stenotrophomonas (3 strains), Bacillus (1 strain), and Pseudoxanthomonas (1 strain). BGB isolates from rhizoplane were Stenotrophomonas (16 strains), Streptomyces (1 strain) and Microbacterium (1 strain). BGB from inside of root were categorized into Stenotrophomonas (3 strains) and Lysobacter (2 strains). Especially, Stenotrophomonas comprised the largest portion (approximately 90%) of total isolates and Stenotrophomonas was a dominant group of the ${\beta}$-glucosidase producing bacteria. We selected strain 4KR4, which had high ${\beta}$-glucosidase activity (108.17 unit), could transform ginsenoside Rb1 into Rd, Rg3, and Rh2 ginsenosides. In determining its relationship on the basis of 16S rRNA sequence, 4KR4 strain was most closely related to Stenotrophomonas rhizophila e-$p10^T$ (AJ293463) (99.62%). Therefore, on the basis of these polyphasic taxonomic evidence, the ginsenoside Rb1 converting bacteria 4KR4 was identified as Stenotrophomonas sp. 4KR4 (=KACC 17635).

Effects of Panax notoginseng, ginsenoside Rb1, and notoginsenoside R1 on proliferation of human breast carcinoma MCF-7 cells

  • Xie, Jing-Tian;Aung, Han H;Wang, Chong Zhi;Mehendale, Sangeeta R;McEntee, Eryn;Wicks, Sheila;Li, Jing;Yuan, Chun-Su
    • Advances in Traditional Medicine
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    • v.6 no.4
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    • pp.286-292
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    • 2006
  • In this study, we evaluated the antiproliferative effects of Panax notoginseng, ginsenoside Rb1, and notoginsenoside R1 in the human breast carcinoma MCF-7 cell line. Our results indicated that both Panax notoginseng radix extract (NRE) and Panax notoginseng rhizoma extract (NRhE) possess significant antiproliferative activities in MCF-7 cells. Compared to control group (100%), at the concentrations of 0.05, 0.5, and 1.0 mg/ml NRE, cell growth was concentration-dependently reduced to 81.0 ${\pm}$ 6.1 (P < 0.01), 34.2 ${\pm}$ 4.8 (P < 0.001), and 19.3 ${\pm}$ 1.9 (P < 0.001), respectively. Similar results with NRhE at concentrations of 0.5 and 1.0 mg/ml were obtained in these MCF-7 cells. To identify the responsible chemical constituent, we tested the antiproliferation effects of two representative saponins, ginsenoside Rb1 and notoginsenoside R1, on the MCF-7 cells. The data showed that ginsenoside Rb1 was endowed with antiproliferative properties, while notoginsenoside R1 did not have an inhibitory effect in the concentrations tested. Our studies provided evidence that Panax notoginseng extracts and ginsenoside Rb1 may be beneficial, as adjuvants, in the treatment of human breast carcinoma.

Ginsenoside Contents of Korean White Ginseng and Taegeuk Ginseng with Various Sizes and Cultivation Years (국내산 백삼과 태극삼의 크기 및 연근별 인삼사포닌 함량)

  • Hwang, Jin-Bong;Ha, Jae-Ho;Hawer, Woo-Derck;NahmGung, Bae;Lee, Boo-Yong
    • Korean Journal of Food Science and Technology
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    • v.37 no.3
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    • pp.508-512
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    • 2005
  • Ginsenoside composition and contents of Korean white and taegeuk ginsengs were investigated to establish Chinese pharmaceutical standards for import of Korean ginseng. Total ginsenoside-Rg1, Re, and Rb1 of all Korean white and taegeuk ginseng samples were higher than guideline of Chinese standard of 0.4%, $Mean{\pm}S.D.$ values of Rg1, Re, and Rb1 of Korean white ginseng were $232.7{\pm}110.2,\;235.3{\pm}101.5,\;and\;280.1{\pm}121.3\;mg%$, respectively. Ratio of Rg1 to Re of Korean white ginseng was 1.02. $Mean{\pm}S.D.$ values of Rg1, Re, and Rb1 of Korean taeguek ginseng were $262.1{\pm}127.2,\;213.1{\pm}55.7,\;and\;279.9{\pm}92.1\;mg%$, respectively.

Microbial Conversion of Major Ginsenoside $Rb_1$ to Pharmaceutically Active Minor Ginsenoside Rd

  • Kim Myung Kyum;Lee Jun Won;Lee Ki Young;Yang Deok-Chun
    • Journal of Microbiology
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    • v.43 no.5
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    • pp.456-462
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    • 2005
  • More than seventy strains of aerobic bacteria showing ${\beta}$-glucosidase activity were isolated from a ginseng field, using a newly designed Esculin-R2A agar, and identified by their 16S rRNA gene sequences. Of these microorganisms, twelve strains could convert the major ginsenoside, $Rb_1$, to the pharmaceutically active minor ginsenoside Rd. Three strains, Burkholderia pyrrocinia GP16, Bacillus megaterium GP27 and Sphingomonas echinoides GP50, were phylogenetically studied, and observed to be most potent at converting ginsenoside $Rb_1$ almost completely within 48 h, as shown by TLC and HPLC analyses.

Study on biosynthesis of ginsenosides in the leaf of Panax ginseng by seasonal flux analysis

  • Kim, Dongmin;Han, Jaehong
    • Journal of Applied Biological Chemistry
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    • v.62 no.4
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    • pp.315-322
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    • 2019
  • Seasonal ginsenoside flux in the leaves of 5-year-old Panax ginseng was analyzed from the field-grown ginseng, for the first time, to study possible biosynthesis and translocation of ginsenosides. The concentrations of nine major ginsenosides, Rg1, Re, Rh1, Rg2, R-Rh1, Rb1, Rc, Rb2, and Rd, were determined by UHPLC during the growth in between April and November. It was confirmed total ginsenoside content in the dried ginseng leaves was much higher than the roots by several folds whereas the composition of ginsenosides was different from the roots. The ginsenoside flux was affected by ginseng growth. It quickly increased to 10.99±0.15 (dry wt%) in April and dropped to 6.41±0.14% in May. Then, it slowly increased to 9.71±0.14% in August and maintained until October. Ginsenoside Re was most abundant in the leaf of P. ginseng, followed by Rd and Rg1. Ginsenosides Rf and Ro were not detected from the leaf. When compared to the previously reported root data, ginsenosides in the leaf appeared to be translocated to the root, especially in the early vegetative stage even though the metabolite translocated cannot be specified. The flux of ginsenoside R-Rh1 was similar to the other (20S)-PPT ginsenosides. When the compositional changes of each ginsenoside in the leaf was analyzed, complementary relationship was observed from ginsenoside Rg1 and Re, as well as from ginsenoside Rd and Rb1+Rc. Accordingly, ginsenoside Re in the leaf was proposed to be synthesized from ginsenoside Rg1. Similarly, ginsenosides Rb1 and Rc were proposed to be synthesized from Rd.

Characterizing a Full Spectrum of Physico-Chemical Properties of Ginsenosides Rb1 and Rg1 to Be Proposed as Standard Reference Materials

  • Kim, Il-Woung;Hong, Hee-Do;Choi, Sang-Yoon;Hwang, Da-Hye;Her, Youl;Kim, Si-Kwan
    • Journal of Ginseng Research
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    • v.35 no.4
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    • pp.487-496
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    • 2011
  • Good manufacturing practice (GMP)-based quality control is an integral component of the common technical document, a formal documentation process for applying a marketing authorization holder to those countries where ginseng is classified as a medicine. In addition, authentication of the physico-chemical properties of ginsenoside reference materials, and qualitative and quantitative batch analytical data based on validated analytical procedures are prerequisites for certifying GMP. Therefore, the aim of this study was to propose an authentication process for isolated ginsenosides $Rb_1$ and $Rg_1$ as reference materials (RM) and for these compounds to be designated as RMs for ginseng preparations throughout the world. Ginsenoside $Rb_1$ and $Rg_1$ were isolated by Diaion HP-20 adsorption chromatography, silica gel flash chromatography, recrystallization, and preparative HPLC. HPLC fractions corresponding to those two ginsenosides were recrystallized in appropriate solvents for the analysis of physico-chemical properties. Documentation of the isolated ginsenosides was made according to the method proposed by Gaedcke and Steinhoff. The ginsenosides were subjected to analyses of their general characteristics, identification, purity, content quantitation, and mass balance tests. The isolated ginsenosides were proven to be a single compound when analyzed by three different HPLC systems. Also, the water content was found to be 0.940% for $Rb_1$ and 0.485% for $Rg_1$, meaning that the net mass balance for ginsenoside $Rb_1$ and $Rg_1$ were 99.060% and 99.515%, respectively. From these results, we could assess and propose a full spectrum of physicochemical properties for the ginsenosides $Rb_1$ and $Rg_1$ as standard reference materials for GMP-based quality control.

Change of Neutral Ginsenoside Contents in Red and Fresh Ginseng (Panax ginseng C. A. Meyer) by Hydrolysis (가수분해 처리에 의한 홍삼과 인삼의 중성 Ginsenoside 함량 변화)

  • Han, Jin Soo;Lee, Gang Seon;Tak, Hyun Seong;Kim, Jung-Sun;Ra, Jeong Woo;Choi, Jae Eul
    • Korean Journal of Medicinal Crop Science
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    • v.22 no.1
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    • pp.23-31
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    • 2014
  • This study was carried out to investigate change of ginsenoside contents in red and fresh ginseng according to root part and age by hydrolysis. Neutral total ginsenoside contents by hydrolysis in 6-year main root and lateral root were significantly increased than those by non-hydrolysis, as 41.6 and 32.8%, respectively. However, there was no significant difference in red ginseng. In fresh ginseng, ginsenoside contents of the protopanaxatriol group such as Re, Rf, $Rg_1$, $Rg_2$, and $Rh_1$ were not significantly different, but $Rb_1$, $Rb_2$, $Rb_3$, Rc, and Rd showed significant difference. The increase rate of neutral total ginsenoside content by hydrolysis was higher in epidermis-cortex than stele. Also, the neutral total ginsenoside content was fine root > rhizome > lateral root > main root, respectively. While there was no tendency towards the increase of ginsenoside by hydrolysis with the increase of root age in fine root and rhizome, there was significant decrease in main root and lateral root.