• Title/Summary/Keyword: Agrobacterium rhizogenes:ginsenosides

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Ginsenoside Production by Hairy Root Cultures of Panax ginseng Transformed With Agrobacterium rhizogenes (Agrobacterium rhisogense에 의해 형질 전환된 인삼의 모상근 배양에서 Ginsenoside의 생산)

  • 고경수;허인옥고정삼이윤진
    • KSBB Journal
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    • v.5 no.3
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    • pp.263-268
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    • 1990
  • New methods have been developed to transform Panax ginseng with Ri plasmids of Agrobacterium rhizogenes 15834 and A. rhizogenes A4. Modified leaf disc method was made feasible to establish hairy root culture even when an axonic plantlet was not available as in the case of P. ginseng. The contents of ginsenosides (Rgl, Rf, Rc, Rbl, and Rb2) in hairy roots. were determined by HPLC. Hairy root cultures, established as liquid culture in MS medium, was produced 0.34~1.19% ginsenosides on dry weight basis, and this result is significantly higher level than that of normal P. ginseng.

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Production of Red Ginseng Specific Ginsenosides $(Rg_2, Rg_3, Rh_1 and Rh_2)$ from Agrobacterium-transformed hairy Roots of Panax ginseng by Heat Treatment

  • Yang, Deok-Chun;Yang, Kye-Jin;Park, Yong-Eui
    • Journal of Photoscience
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    • v.8 no.1
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    • pp.19-22
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    • 2001
  • It was reported that Red ginseng contains specific ginsenoside-Rg$_2$,-Rg$_3$,-Rh$_1$and -Rh$_2$, which show various pharmacological effects. However, production of these specific ginsenosides from Red ginseng is not commercially applicable because of high cost of the raw material, roots. This work was carried out to examine the production of Red ginseng specific ginsenosides from Agrobacterium-transformed hairy roots. Hairy roots were induced from 3 year-old root segment of Korean ginseng (Panax ginseng C.A. Meyer) after infection with Agrobacterium rhizogenes A4. Among many lines of hairybroots, KGHR-8A was selected. Steam heat treatment of hairy roots was resulted in the changes of ginsenoside composition. Eleven ginsenosides were detected in heat-treated hairy roots but eight in freeze dried hairy roots. In heat treated hairy root, content of ginsenoside-Rb$_1$,Rb$_2$,Rc, Rd, Re, Rf, and Rg$_1$were decreased compared to those of freeze dried hairy roots. However, heat treatment strongly enhanced the amount of Red ginseng specific ginsenogides (ginsenoside-Rg$_2$,-Rg$_3$,-Rh$_1$and -Rh$_2$). Amounts of ginsenoside-Rg$_3$,-Rh$_1$and -Rh$_2$ in heat-treated hairy roots were 2.58, 3.62 and 1.08 mg/g dry wt, respectively, but these were detected as trace amount in hairy roots without heat treatment. Optimum condition of heat treatment for the production of Red ginseng specific ginsenoside was 2 h at 105$^{\circ}C$. This result represents that Red ginseng specific ginsenoside can be producted from hairy roots by steam heat treatment.

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Mass Production of Gain-of-Function Mutants of Hair Roots in Ginseng (기능획득 돌연변이 인삼 모상근의 대량생산)

  • Ko, Suk-Min;In, Dong-Soo;Chung, Hwa-Jee;Choi, Dong-Woog;Liu, Jang-Ryol
    • Journal of Plant Biotechnology
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    • v.34 no.4
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    • pp.285-291
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    • 2007
  • This study describes conditions for the mass production of activation-tagged mutant hairy root lines of ginseng by cocultivation with Agrobacterium rhizogenes. Because it is not currently possible to produce progeny from transgenic ginseng, a loss-of-function approach for functional genomics cannot be appliable to this species. A gain-of-function approach is alternatively the choice and hairy root production by cocultivation of A. rhizogenes would be most practical to obtain a large number of mutants. Various sources of explants were subjected to genetic transformation with various strains of A. rhizogenes harboring the activation-tagging vector pKH01 to determine optimum conditions for the highest frequency of hairy root formation on explants. Petiole explants cocultivated with A. rhizogenes R1000 produced hairy roots at a frequency of 85.9% after 4 weeks of culture. Conditions for maximum growth or branching rate of hairy roots were also investigated by using various culture media. Petiole explants cultured on half strength Schenk and Hildebrandt medium produced vigorously growing branched roots at a rate of 2.6 after 4 weeks of culture. A total of 1,989 lines of hairy root mutants were established in this study. These hairy root lines will be useful to determine functions of genes for biosynthesis of ginsenosides.

Effects of White Light and UV Irradiation on Growth and Saponin Production from Ginseng Hairy Root (광 및 UV 조사가 인삼 모상근의 생장 및 사포닌 생합성에 미치는 영향)

  • In, Jun-Gyo;Park, Dong-Sik;Lee, Bum-Soo;Kim, Se-Young;Rho, Yeong-Deok;Cho, Dong-Ha;Kim, Seong-Mu;Yang, Deok-Chun
    • Korean Journal of Medicinal Crop Science
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    • v.14 no.6
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    • pp.360-366
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    • 2006
  • To investigate the effect of culture conditions on growth and ginsenosides accumulation, we cultured the ginseng hairy root under three different media, white light or ultra-violet irradiation. The MS/B5 medium containning MS basal salt and B5 vitamin was good for the growth and ginsenoside accumulation. The light during the culture period of ginseng hairy root was irradiated. The growth was abundant in the ginseng hairy root cultured in dark. But the ginsenosides accumulation was higher than in the ginseng hairy root cultured in the light irradiation. When the ginseng hairy root was cultured in 20 L bioreactor, the ginsenosides accumulation was observed at 34% higher than the hairy root cultured in dark. UV irradiated the ginseng hairy root during the culture period. The long time irradiation of UV was caused decreasing the growth of ginseng hairy root, but the accumulation of ginsenosidess was increased as to the irradiated time.

Production of Ginsenoside in Callus of Ginseng Hairy Roots (인삼 모상근의 캘러스를 이용한 ginsenoside 생산)

  • Kwon, Jung-Hee;Cheon, Hyun-Choon;Yang, Deok-Cho
    • Journal of Ginseng Research
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    • v.27 no.2
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    • pp.78-85
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    • 2003
  • By the Agrobacterium rhizogenes A$_4$ were induced a transformed callus of ginseng hairy root and examine to find the possibility whether it can produce certain ginsenoside. Investigations for a finding out to optimal culture medium showed that BA application is better than more factorial composition between auxins and cytokinins. For the induction of hairy root callus of ginseng, l/2 MS medium containing 1 to 3 mg of benzyladenine(BA) per liter gave the best result. The growth of ginseng hairy root callus(GHC) cultured with the 1/2MS medium supplemented with 2 mg BA/L was selected for best suspension cultures. The optimum concentration of BA for ginsenosides production was found to be 2 mg/L. Probably the inoculum size of callus plays a role with the ginsenoside production in suspension culture. AS for inoculum size of callus, 50 mg was superior to 150 mg for growth and ginsenoside production. Ginsenoside contents were highest in the suspension culture grown for four weeks under continuous light condition. In fact that continous light treatment promote strongly the synthesis of ginsenoside of the hairy root callus is first result in the world and the numerously induced root hairs of the callus leads a new method for ginsenoside production.

The Production of Anti-cancer Substances by in vitro Grown Cultures of Panax ginseng C.A. Meyer

  • Yang, Deok-Chun;Park, Kyung-Hwa;Kim, Yong-Hae;Yoon, Eui-Soo;Kang, Tae-Jin;Park, Kwang-Tae
    • Proceedings of the Plant Resources Society of Korea Conference
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    • 1999.10a
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    • pp.46-57
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    • 1999
  • Ginseng(Panax ginseng C.A. Meyer) is important medicinal plant but requires 4-year cultivation for root harvest because of slow growth. In contrast, ginseng callus and hairy roots grow vigorously and may Produce the same or more biologically active compounds for human health than natural ginseng roots. Therefore, ginseng callus and hairy roots can be used for commercial purposes. Polyacetylene, one of anti-cancer compounds in ginseng, was not detected in the callus cultured on the medium containing 2, 4-B, but cells derived from the callus growth was excellent, The ginseng calli cultured on the medium containing 2mg11 CPA and 0.05mg/1 BA was grown vigorously and produced panaxydol, one of ginseng polyacetylene. The biosynthesis of polyacetylene in callus was not affected by addition of NAA and sucrose in media. The SH medium was better than the MS medium for ginseng callus growth and biosynthesis of panaxydol. Another ginseng anti-cancer compounds, ginsenoside-Rg$_3$, Rh$_1$and Rh$_2$ were detected in ginseng hairy roots by heat treatment. Those of Panax ginseng were obtained after root disks of three-year old roots were infected with Agrobacterium rhizogenes Rl000 $A_4$T in dark condition after one month of culture. The optimum growth of hairy roots was achieved in the culture of 1/2 MS liquid medium in dark(22$^{\circ}C$) under 60 rpm gyratory shaking. Hairy roots grew well in 5 ι Erlenmeyer flasks, 1ι roller drums, 10ι jar-fermenters, and especially in 20ι air-lift .culture vessels. All heat treatments had remarkably different ginsenoside contents. Eleven ginsenosides were determined in heat treatment, eight in freeze dried hairy roots. Contents of ginsenoside-Rbl , Rb2, Rc, Rd. Re, Rf, and Rg$_1$tested in all heat treatments were less than those of freeze dried hairy roots. Contents of glnsenoside-Rg$_2$ in heat treatment for 1 hour at 105$^{\circ}C$ was 4.92mg/g dry wt, 3.9 times higher than 1.27 mg/g dry wt of freeze dried hairy roots. The optimum condition of heat treatment for the production of ginsenoside-Rg$_3$and Rhl was 2 hours at 105$^{\circ}C$, and ginsenoside content was 2.58mg/g dry wt and 3.62mg/g dry wt, respectively. The production of ginsenoside-Rh2 was the highest in heat treatment for 2 hours at 105$^{\circ}C$ among treatments examined, and ginsenoside-Rh$_2$content was 1.08mg/g dry wt.

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