Ginsenoside production in different phenotypes of Panax ginseng transformed roots

Transformed roots were obtained after the inoculation of sterile root discs of Panax ginseng C.A. Meyer with Agrobacterium rhizogenes A4. The established hairy root lines displayed three morphological phenotypes when cultured on hormone-free liquid Schenk and Hildebrandt medium. Most of the cultures showed the characteristic traits of hairy roots (HR-M), while others were either callus-like (C-M) or thin (T-M) without branching. The growth rate of the transformed root lines was always higher than that of untransformed roots, showing that the genetic changes caused by the A. rhizogenes transformation conditioned a higher biomass formation. When considering the different transformed root phenotypes, we can observe that the highest ginsenoside production was achieved by HR-M root lines, closely followed by C-M ones, whereas the lowest yield was reached by T-M root phenotype. The study of the integration of the TL-DNA and TR-DNA fragments of the pRiA4 in the root genome showed that the aux1 gene was always detected in HR-M and C-M root phenotypes which presented the highest biomass and ginsenoside productions. This fact suggests a significant role of aux genes in the morphology of Panax ginseng transformed roots. The ginsenoside pattern of transformed roots varied according to their morphology, although the ginsenoside contents of the Rg group was always higher than that of the Rb group. From our results, we can infer the potential of some root phenotypes of Panax ginseng hairy root cultures for an improved ginsenoside production.     

Enhanced paclitaxel production induced by the combination of elicitors in cell suspension cultures of Taxus chinensis

Taxus chinensis suspension cells were cultured in the modified Gamborg's B5 medium. Addition of 50 mg chitosan l^–1, 60 M methyl jasmonate and 30 M Ag⁺ resulted in the greatest paclitaxel production, at 25 mg l^–1 in the cultures, being almost 40 times higher than that of the control culture, 10 times higher than that of the culture exposed to Ag⁺, 6 times higher than that of the culture elicited by chitosan and almost double that of the culture elicited by methyl jasmonate.     

Enhanced Ginsenoside Productivity by Combination of Ethephon and Methyl Jasmoante in Ginseng (Panax ginseng C.A. Meyer) Adventitious Root Cultures

Ethephon at 50 μM enhanced both root growth and ginsenoside accumulation in ginseng (Panax ginseng C.A. Meyer) adventitious root cultures, but at 100 μM it inhibited only ginsenoside accumulation. Ginsenoside productivity with 50 μM ethephon was the highest at 1.7 mg l⁻¹ d⁻¹ after 8 days of elicitation. However, elicitation with 50 μM ethephon and 100 μM methyl jasmonate (MJ) improved productivity (6.3 mg l⁻¹ d⁻¹) whereas elicitation with 100 μM MJ alone gave only 2.9 mg l⁻¹ d⁻¹.     

Polyacetylenes accumulation in <Emphasis Type="Italic">Ambrosia maritima</Emphasis> hairy root and cell cultures after elicitation with methyl jasmonate

Three lines of hairy root culture of Ambrosia maritima induced by Agrobacterium rhizogenes ATCC15834 were established. Thiarubrine A, thiarubrine A epoxide, thiarubrine A diol and their precursor pentayneene were produced by the hairy roots after elicitation with methyl jasmonate, the common signal molecule in the plant defense and development. Thiarubrine A diol was the main form detected in the medium. Maximum yield was achieved when the 13-day-old hairy root cultures were exposed to 40 M methyl jasmonate for 72 h. Callus and cell suspension cultures were established and maintained on Murashige and Skoog medium supplied with -naphthylacetic acid (NAA) and kinetin. When the cell suspension cultures were elicited with methyl jasmonate, pentayneene was the only polyacetylene produced. The yield of pentayneene in hairy root cultures was much higher (9.6 times) than that of cell suspension cultures.     

Enhanced glucotropaeolin production in hairy root cultures of Tropaeolum majus L. by combining elicitation and precursor feeding

We have studied the effects of precursor amino acids (phenylalanine and cystein), elicitors (salicylic and acetylsalicylic acids, methyl jasmonate, β-aminobutyric acid, yeast extract), PAL-inhibitor (1-amino-2-phenylethylphosphonic acid) applied alone or in combination on glucotropaeolin production and myrosinase activity in hairy root cultures of Tropaeolum majus. Short, 24-h treatment, and subsequent transfer of hairy roots to the fresh medium enabled avoiding detrimental effect of studied stimulators on biomass growth. In control cultures the highest glucotropaeolin content, 58.1 ± 6.7 mg g⁻¹ DW, was detected on the 3rd day after transfer of the roots to the fresh medium but glucotropaeolin yield (mg 100 ml^–1 culture volume) had been increasing until the 9th day after transfer as a result of continuous biomass growth. Glucotropaeolin content and yield were 2-fold enhanced after treatment with precursor amino acids or PAL-inhibitor alone, but their combination additively led to 4-fold increase in glucotropaeolin production. Among the studied elicitors acetylsalicylic acid induced the highest, 3-fold increase in glucotropaeolin production, it also enhanced myrosinase activity, but to a smaller extend (by about 50%). Acetylsalicylic acid also potentiated induced by precursors, PAL-inhibitor, methyl jasmonate and yeast extract production of glucotropaeolin. The highest, 4.8-fold increase in glucotropaeolin production was found after combined acetylsalicylic acid and precursors treatment. Additive effect of acetylsalicylic acid-combined treatment on myrosinase activity was not detected. The obtained results indicate that amino acid precursors, phenylalanine and cystein, availability may be a limiting factor in the process of stimulation of glucotropaeolin production in T. majus hairy root cultures.     

Manipulation by culture mixing and elicitation of paclitaxel and baccatin III production in Taxus baccata suspension cultures

Summary Experiments were carried out with Taxus baccata cell lines showing different paclitaxel-producing capacities (between 1.74 and 19.91 mgl^&#x2212;1) when growing in a selected product-formation medium that specifically stimulated the production of taxane to the detriment of cell growth. Through mixing low-, medial- and high-producing lines, it could be observed that paclitaxel productivity in the resulting mixed lines was clearly higher than the mean productivity of the individual lines before mixing. This suggests that culture components generated by high-producing individual lines within the population might induce paclitaxel production. Although the accumulation of paclitaxel and baccatin III was higher when 100 &#x03BC;M methyl jasmonate was added to the subcultures of the mixed lines, the results indicate that exogenously applied methyl jasmonate was not the first factor to stimulate taxane production. The possible effects of methyl jasmonate elicitation and paclitaxel accumulation on cell viability are also considered.     

Effect of elicitors on the production of gossypol and methylated gossypol in cotton hairy roots

The effect of two chemical elicitors, salicylic acid and methyl jasmonate, on the production of gossypol, 6-methoxygossypol, and 6,6′-dimethoxygossypol in Gossypium barbadense hairy roots was examined. Methyl jasmonate, but not salicylic acid, was found to increase the production of gossypol and its methylated forms, but with a concomitant reduction in culture growth. The optimal methyl jasmonate dose was between 100 and 300 μM for hairy roots harvested 7 days after elicitation. After 20 d of induction with 100 μM methyl jasmonate, an eightfold increase in the level of gossypol was observed in elicited cultures compared with control cultures, double the highest gossypol levels previously reported for any cotton tissue. A two to threefold increase in the level of 6-methoxygossypol and a slight increase in the levels of 6,6′-dimethoxygossypol were also observed. Although methyl jasmonate stimulated the production of both optical forms of gossypol, the distribution of the enantiomers was different between elicited and control cultures.     

Combined effects of phytohormone, indole-3-butyric acid, and methyl jasmonate on root growth and ginsenoside production in adventitious root cultures of Panax ginseng C.A. Meyer

Indole-3-butyric acid at 25 μM with methyl jasmonate (MJ) at 100 μM in Panax ginseng synergistically stimulated both root growth and ginsenoside accumulation compared with 100 μM MJ alone. Productivity of ginsenoside was 10 mg l⁻¹ d⁻¹ compared to 7.3 mg l⁻¹ d⁻¹ with MJ elicitation alone.     

Efficient elicitation of ginsenoside biosynthesis in cell cultures ofPanax notoginseng by using self-chemically-synthesized jasmonates

A series of fluorine and hydroxyl containing jasmonate derivatives, which were chemically synthesized in our institute, were investigated for their effects on the biosynthesis and heterogeneity of ginsenosides in suspension cultures ofPanax notoginseng cells. Compared to the control (without addition of elicitors), 100 μM of each of the jasmonate was added on day 4 to the suspension cultures ofP. notoginseng cells. It was observed that, jasmonates greatly enhanced the ginsenoside content and the ratio of Rb group to Rg group (i.e. (Rb₁+Rd)/(Rg₁+Re)) in theP. notoginseng cells. Some of the synthetic jasmonates, such as pentafluoropropyl jasmonate (PFPJA), 2-hydroxyethyl jasmonate (HEJA) and 2-hydroxyethoxyethyl jasmonate (HEEJA), could promote the ginsenoside content to 2.55±0.11, 3.65±0.13 and 2.94±0.06 mg/100 mg DW, respectively, compared to that of 0.64±0.06 mg/100 mg DW for the control and 2.17±0.04 mg/100 mg DW by the commercially available methyl jasmonate (MJA); and they could change the respective Rb: Rg ratio to 1.60±0.04, 1.87±0.01 and 1.56±0.05, compared to that of 0.47±0.01 for the control and 1.42±0.06 by MJA. The results suggest that suitable esterification of MJA with fluorine or hydroxyl group could increase the elicitation activity to induce plant secondary metabolism. The information obtained from this study is useful for hyper-production of heterogeneous products by plant cell cultures.     

A combination of elicitation and precursor feeding leads to increased anthocyanin synthesis in cell suspension cultures of <Emphasis Type="Italic">Vitis vinifera</Emphasis>

Both elicitation and precursor feeding are effective strategies for improving secondary metabolite production in plant cell suspension cultures. In this study, cell suspension cultures of Vitis vinifera subjected to methyl jasmonate treatment resulted in a significant increase in levels of anthocyanin production. Moreover, a combination of 5 mg/L phenylalanine and 50 mg/L methyl jasmonate promoted the highest level of anthocyanin biosynthesis, resulting in 4.6- and 3.4-fold increases in anthocyanin content and yield, respectively, over the control. The optimum period for elicitation of anthocyanin synthesis was 4 days following incubation in the presence of elicitors, at the beginning of the exponential growth phase. V. vinifera cell lines of different anthocyanin-producing capabilities responded differently to elicitation and precursor feeding. Anthocyanin production of a low-producing cell line, VV06, could be enhanced with addition of elicitors and precursor feeding. Methyl jasmonate was the only elicitor that increased anthocyanin production of the high-producing cell line VV05, but contributed to moderate enhancement of anthocyanin production compared with VV06. For cell line VV06, synergistic effects were observed for all treatment combinations of methyl jasmonate along with other elicitors and precursors. In addition, 6.1- and 4.6-fold increases in anthocyanin content and yield, respectively, were obtained in the presence of 5 mg/L phenylalanine, 50 mg/L methyl jasmonate, and 1 mg/L dextran. However, none of these treatment combinations exhibited synergistic effects in cell line VV05.     

Methyl jasmonate elicitation enhanced synthesis of ginsenoside by cell suspension cultures of Panax ginseng in 5-l balloon type bubble bioreactors

The effects of methyl jasmonate (MJ) elicitation on the cell growth and accumulation of ginsenoside in 5-l bioreactor suspension cultures of Panax ginseng were investigated. Ginsenoside accumulation was enhanced by elicitation by MJ (in the range 50–400 M); however, fresh weight, dry weight and growth ratio of the cells was strongly inhibited by increasing MJ concentration. The highest ginsenoside yield was obtained at 200 M MJ. In the second experiment, 200 M MJ was added on day 15 during the cultivation. The ginsenoside, Rb group, and Rg group ginsenoside content increased 2.9, 3.7, and 1.6 times, respectively, after 8 days of MJ treatment. Rb group gisnsenosides accumulated more than Rg group ginsenosides. Among Rb group ginsenosides, Rb1 content increased significantly by four times but the contents of Rb2, Rc and Rd increased only slightly. Among Rg group ginsenosides, Rg1 and Re showed 2.3-fold and 3.0-fold increments, respectively, whereas there was only a slight increment in Rf group ginsenosides. These results suggest that MJ elicitation is beneficial for ginsenoside production using 5-l bioreactor cell suspension cultures.     

Improved cardenolide production in Calotropis gigantea hairy roots using mechanical wounding and elicitation

A hairy root culture system of Calotropis gigantea was established and effects of mechanical wounding (MW) and elicitors [methyl jasmonate (MJ), yeast extract (YE) and chitosan (CS)] on cardenolide production were investigated. All treatments stimulated the production of cardenolide in hairy root cultures of C. gigantea. CS was the most effective elicitor, followed by MJ. YE and MW also improved cardenolide yield in individual treatments. The highest cardenolide yield (1,050 ± 55 mg/l) was obtained after adding 50 mg CS/l for 20 days, which was 2.7-fold higher than the control.     

Stimulation of Rg3 ginsenoside biosynthesis in ginseng hairy roots elicited by methyl jasmonate

It has been recognized that ginsenoside Rg3 is not naturally produced in ginseng although this ginsenoside can accumulate in red ginseng as the result of a thermal process. In order to determine whether or not Rg3 is synthesized in ginseng, hairy roots were treated with methyl jasmonate (MJ). From HPLC analysis, no peak for Rg3 was observed in the controls. However, Rg3 did accumulate in hairy roots that were MJ-treated for 7?days. Rg3 content was 0.42?mg/g (dry weight). To gain more insight into the effects of MJ on UDP-glucosyltransferase (UGT) activity, we attempted to evaluate ginsenoside Rg3 biosynthesis by UGT. A new peak for putative Rg3 was observed, which was confirmed by LC-MS/MS analysis. Our findings indicate that the proteins extracted from our hairy root lines can catalyze Rg3 from Rh2. This suggests that our ginseng hairy root lines possess Rg3 biosynthesis capacity.     

Effect of methyl jasmonate and salicylic acid on sesquiterpene lactone accumulation in hairy roots of <Emphasis Type="Italic">Cichorium intybus</Emphasis>

The effects of methyl jasmonate (MJ) or salicylic acid (SA) on the sesquiterpene lactone content and biomass accumulation were investigated in a hairy root culture of Cichorium intybus. The guaianolides crepidiaside B (1), 8-deoxylactucin (2), and the germacranolide sonchuside A (3) were quantified by RP-HPLC. Neither MJ nor SA affected the growth of examined hairy root culture. Jasmonate up-regulated biosynthesis of the analysed sesqiterpene lactones in the culture (maximum after 72 h). SA caused a transient increase in sonchuside A accumulation in the roots (up to twofold increase compared with the control) and decrease of guaianolide content.     

Enhancement of taxane production in hairy root culture of Taxus x media var. Hicksii

This study assessed the effect of two precursors (l-phenylalanine and p-amino benzoic acid) used alone or in combination with methyl jasmonate, on the growth and accumulation of paclitaxel, baccatin III and 10-deacetylbaccatin III in hairy root cultures of Taxus x media var. Hicksii. The greatest increase in dry biomass was observed after 4 weeks of culturing hairy roots in medium supplemented with 1 μM of l-phenylalanine (6.2 g L⁻¹). Addition of 1 μM of l-phenylalanine to the medium also resulted in the greatest 10-deacetylbaccatin III accumulation (422.7 μg L⁻¹), which was not detected in the untreated control culture. Supplementation with 100 μM of l-phenylalanine together with 100 μM of methyl jasmonate resulted in the enhancement of paclitaxel production from 40.3 μg L⁻¹ (control untreated culture) to 568.2 μg L⁻¹, the highest paclitaxel content detected in the study. The effect of p-amino benzoic acid on taxane production was less pronounced, and the highest yield of paclitaxel (221.8 μg L⁻¹) was observed when the medium was supplemented with 100 μM of the precursor in combination with methyl jasmonate.Baccatin III was not detected under the conditions used in this experiment and the investigated taxanes were not excreted into the medium.     

Adventitious root growth and ginsenoside accumulation in Panax ginseng cultures as affected by methyl jasmonate

Adventitious roots of ginseng were treated with methyl jasmonate (MJ) up to 150m and cultured for 40days. Up to 100m MJ inhibited the root growth but increase ginsenoside accumulation. In a two-stage bioreactor culture, total ginsenosides, after elicitation with 100 m MJ peaked after 10days at 48mgg^–1 dry wt and then dropped sharply. Of the two groups of ginsenosides (Rb and Rg), higher amounts of Rb accumulated in the adventitious roots.Revisions requested; 2 July 2004; Revisions received 30 June 2004; 3 September 2004     

Modulation of carrier-mediated uptake of abscisic acid by methyl jasmonate in Phaseolus coccineus L

The effects of methyl jasmonate and jasmonic acid on uptake of abscisic acid (ABA) by suspension-cultured runner-bean cells and subapical runner-bean root segments have been investigated. Increasing concentrations of methyl jasmonate inhibit ABA uptake by the cultured cells with a K _i of 22±3 M. This is not due to cytoplasmic acidification or to effects on metabolism of ABA, and is not additive with inhibition of radioactive ABA uptake by nonradioactive ABA. Uptake of indol-3-yl acetic acid (IAA) is unaffected by methyl jasmonate. The maximum effect of nonradioactive ABA in inhibiting uptake of radioactive ABA, previously shown to reflect saturation of an ABA carrier, is generally greater than the effect of maximally inhibitory concentrations of methyl jasmonate. Similar results were obtained with root segments, but longer incubation times were necessary to observe inhibitory effects of methyl jasmonate. Demethylation of methyl jasmonate to jasmonic acid does not appear to be required since similar concentrations of jasmonic acid had no observable direct effect on ABA uptake other than that attributable to cytoplasmic acidification. Histidine reagents, a proton ionophore and acidic external pH all affect in parallel the inhibition by methyl jasmonate and nonradioactive ABA of uptake of radioactive ABA by the cultured cells. There is no effect of ABA or nonradioactive methyl jasmonate on uptake of radioactive methyl jasmonate by the cultured cells. It is proposed that methyl jasmonate interacts with the ABA carrier. Various models for this interaction are discussed.Abbreviations ABA abscisic acid - DMO 5,5-dimethyloxazolidine-2,4-dione - IAA indol-3-yl acetic acid     

Methyl jasmonate increases the production of valepotriates by transformed root cultures of Valerianella locusta

Transformed roots of V. locusta (Valerianaceae) were obtained through transformation with Agrobacterium rhizogenes strains A4 and ATCC 15834. Six known valepotriates, including diavaltrate, acevaltrate, didrovaltrate, IVHD-valtrate, isovaltrate, and valtrate were the major components detected. An LC/PDA method was used in the quantitation of these compounds in the transformed root extracts. The treatment of transformed roots with biotic (methyl jasmonate, salicylic acid, yeast extract) and abiotic elicitors (CuSO₄, HgCl₂, CaCl₂) was used as a strategy to improve the production of valepotriates. Methyl jasmonate appeared to be the best elicitor for valepotriate production, yielding up to a 7-fold increase in total valepotriate content, while HgCl₂ had the most deteriorating effect on the production of valepotriates. Salicylic acid-, CuSO₄- and CaCl₂-treated roots showed significant increases in the production at a short duration of exposure; the production decreased as the time of elicitation increased. The highest total valepotriate content achieved in this study was 139 mg g^–1 DW (13.9%) from transformed roots treated for 10 days with 100 M methyl jasmonate. This amount was >50- and 12-fold higher than the values reported from the cultivated plants and callus culture, respectively, and was comparable to the amount reported from the high valepotriate-producing species Valeriana thalictroides Graebn. The production of diavaltrate, acevaltrate, didrovaltrate, and isovaltrate were significantly higher, while the production of IVHD-valtrate was lower and that of valtrate was similar to that of the control. The IVAL/VAL production ratio was affected by the treatment with methyl jasmonate but not by other elicitors. The use of transformed root cultures in combination with the treatment with biotic and abiotic elicitors offer a new route for high valepotriate production.     

Adventitious root growth and ginsenoside accumulation in Panax ginseng cultures as affected by methyl jasmonate

Adventitious roots of ginseng were treated with methyl jasmonate (MJ) up to 150 microM and cultured for 40 days. Up to 100 microM MJ inhibited the root growth but increase ginsenoside accumulation. In a two-stage bioreactor culture, total ginsenosides, after elicitation with 100 microM MJ peaked after 10 days at 48 mg g(-1) dry wt and then dropped sharply. Of the two groups of ginsenosides (Rb and Rg), higher amounts of Rb accumulated in the adventitious roots.     

Elicitation of galanthamine biosynthesis by Leucojum aestivum liquid shoot cultures

The effects of methyl jasmonate and jasmonic acid on galanthamine production, phenolic acid content and growth of Leucojum aestivum L. shoot culture, cultivated in submerged conditions were investigated. The best time-point for addition of elicitors was during the exponential phase of the culture growth. The maximal contents of galanthamine and lycorine (226.9 μg/flask and 491.4 μg/flask, 1.36 and 1.67-fold higher compared to the control, respectively) were achieved after elicitation with jasmonic acid, whereas the elicitation with methyl jasmonte resulted in maximal accumulation of phenolic acids. It was demonstrated that the boosting effect of jasmonic acid on Amaryllidacea alkaloid biosynthesis was due to induction of the activity of tyrosine decarboxylase, whereas methyl jasmonate stimulates the biosynthesis of phenolic acids by inducing mainly the activity of phenylalanine ammonia-lyase.