Stimulation of asiaticoside accumulation in the whole plant cultures of <Emphasis Type="Italic">Centella asiatica</Emphasis> (L.) Urban by elicitors

The effects of a number of different elicitors on asiaticoside production in whole plant cultures of Centella asiatica were studied, including yeast extract, CdCl₂, CuCl₂ and methyl jasmonate (MJ). Only MJ and yeast extract stimulated asiaticoside production—1.53 and 1.41-fold, respectively. Maximum asiaticoside production was achieved following treatment with 0.1 mM MJ (116.8 mg/l). The highest asiaticoside production (342.72 mg/l) was obtained after 36 days of elicitation in cultures treated with 0.1 mM MJ and 0.025 mg/l 1-phenyl-3-(1,2,3-thidiazol-5-yl)urea (TDZ). Interestingly, MJ not only stimulated the production of asiaticoside but also had an important role in the senescence of C. asiatica. Although asiaticoside content did not change when TDZ was added to medium containing an elicitor, TDZ did increase shoot growth of C. asiatica. We discuss the interactive roles of MJ and TDZ in secondary metabolic production and biomass in whole plants of C. asiatica     

<Emphasis Type="Italic">In vitro</Emphasis> regeneration of medicinal plant <Emphasis Type="Italic">Centella asiatica</Emphasis>

This paper describes multiple shoot regeneration from leaf and nodal segments of a medicinally important herb Centella asiatica L. on Murashige and Skoog’s (MS) medium supplemented with a range of growth regulators. The highest number of multiple shoots was observed on MS augmented with 3.0 mg dm⁻³ N⁶-benzylaminopurine (BAP) and 0.05 mg dm⁻³ α-naphthaleneacetic acid (NAA). Leaf explant showed maximum percentage of cultures regenerating shoots (81.6 %), with the highest shoot number (8.3 shoots per explant) and the shoot length (2.1 cm) whereas, nodal explant showed less number of shoots with callus formation at the base cut end. Successive shoot cultures were established by repeatedly sub-culturing the original explant on a fresh medium. Rooting of in vitro raised shoots was best induced on half strength MS supplemented with 0.5 mg dm⁻³ indole-3-butyric acid (IBA) with highest percentage of shoot regenerating roots (76.8 %) with 3–4 roots per shoot. Plantlets were acclimated in Vermi-compost and eventually established in soil. Contents of chlorophyll, total sugars, reducing sugars and proteins were estimated in leaf tissue from both in vivo and in vitro raised plants. Chlorophyll content was higher in in vivo plants, whereas other three components were higher in in vitro plants.     

<Emphasis Type="Italic">Agrobacterium rhizogenes</Emphasis> mediated transformation of <Emphasis Type="Italic">Scutellaria baicalensis</Emphasis> and production of flavonoids in hairy roots

Using different explants of in vitro seed grown Scutellaria baicalensis Georgi plantlets, hairy roots were induced following inoculation of Agrobacterium rhizogenes strains A₄GUS, R1000 LBA 9402 and ATCC11325. The A₄GUS proved to be more competent than other strains and the highest transformation rates were observed in cotyledonary leaf explant (42.6 %). The transformed roots appeared after 15–20 d of incubation on hormone free Murashige and Skoog medium. Growth of hairy roots was assessed on the basis of total root elongation, lateral root density and biomass accumulation. Maximum growth rate was recorded in root:medium ratio 1:100 (m/v). Hairy root lines were further established in Gamborg B₅ medium and the biomass increase was maximum from 15 to 30 d. PCR, Southern hybridization and RT-PCR confirmed integration and expression of left and right termini-linked Ri T-DNA fragment of the Ri plasmid from A₄GUS into the genome of Scutellaria baicalensis hairy roots. GUS assay was also performed for further integration and expression. All the clones showed higher growth rate them non-transformed root and accumulated considerable amounts of the root-specific flavonoids. Baicalin content was 14.1–30.0 % of dry root mass which was significantly higher then that of control field grown roots (18 %). The wogonin content varies from 0.08 to 0.18 % among the hairy root clones which was also higher than in non-transformed roots (0.07 %).     

Determination and quantification of asiaticoside in endophytic fungus from <Emphasis Type="Italic">Centella asiatica</Emphasis> (L.) Urban

Centella asiatica (L.) Urban is a highly considered medicinal plant owing to its secondary metabolites asiaticoside, madecassoside, asiatic acid, and madecassic acid. The asiaticoside, one of the most important constituents of the plant, is a triterpenoid saponin having memory enhancement property. Given its medicinal properties, we isolated and characterized endophytic fungi from this plant with the aim to screen these microorganisms for asiaticoside production. In total, we isolated 13 endophytic fungi from the leaves of the plant, out of which one of the isolates produced asiaticoside. This asiaticoside producing isolate was identified as Colletotrichum gloeosporioides by internal transcribed spacer-based rDNA sequencing. The presence of asiaticoside in ethyl acetate extract of C. gloeosporioides was confirmed by LC–MS. The production of asiaticoside measured in relation to incubation time and subculture generation revealed presence of 62.29?±?3.36 µg/100 mL of asiaticoside by C. gloeosporioides on the 15th day in first subculture generation followed by a decrease in subsequent generations. A similar trend was also shown by yield and growth curve of C. gloeosporioides. The asiaticoside production and yield were found to be positively correlated. This paper reported the production of asiaticoside by an endophytic fungus C. gloeosporioides for the first time. The present findings definitely provide an impetus to the production of asiaticoside by utilizing the endophytic source.

Graphical Abstract

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Chemical compound studied in this article: Asiaticoside (PubChemCID: 108062)

     

Organogenesis and <Emphasis Type="Italic">Agrobacterium tumefaciens</Emphasis>-mediated transformation of <Emphasis Type="Italic">Eucalyptus saligna</Emphasis> with <Emphasis Type="Italic">P5CS</Emphasis> gene

The purpose of this research was Eucalyptus saligna in vitro regeneration and transformation with P5CSF129A gene, which encodes Δ¹-pyrroline-5-carboxylate synthetase (P5CS), the key enzyme in proline biosynthesis. After selection of the most responsive genotype, shoot organogenesis was induced on leaf explants cultured on a callus induction medium (CI) followed by subculture on a shoot induction medium (SI). Shoots were subsequently cultured on an elongation medium (BE), then transferred to a rooting medium and finally transplanted to pots and acclimatized in a greenhouse. For genetic transformation, a binary vector carrying P5CSF129A and uidA genes, both under control of the 35SCaMV promoter, was used. Leaves were co-cultured with Agrobacterium tumefaciens in the dark on CI medium for 5 d. The explants were transferred to the selective callogenesis inducing medium (SCI) containing kanamycin and cefotaxime. Calli developed shoots that were cultured on an elongation medium for 14 d and finally multiplied. The presence of the transgene in the plant genome was demonstrated by PCR and confirmed by Southern blot analysis. Proline content in the leaves was four times higher in transformed than in untransformed plants while the proline content in the roots was similar in both types of plants.     

Characterization of a field-grown transgenic pineapple clone containing the genes <Emphasis Type="Italic">chitinase</Emphasis>, <Emphasis Type="Italic">AP24</Emphasis>, and <Emphasis Type="Italic">bar</Emphasis>

We previously introduced the bar gene, along with chitinase and AP24 genes, into the pineapple genome. The present report focuses on the evaluation of the first vegetative generation of a transgenic clone containing these genes. Three materials were compared: macropropagated controls (non-transformed), micropropagated controls (non-transformed), and micropropagated transformed plants. From each group, 50% of the plants were sprayed with FINALE^® 3 mo after the experiment initiation. The characterization was performed after 1 yr of field growth. FINALE^® killed all non-transgenic plants. Plants that survived the herbicide application showed 2n?=?50 chromosomes in their roots after 1 yr in the field. Micropropagated transformed plants sprayed with FINALE^® did not show phenotype differences from micropropagated transformed plants not sprayed with the herbicide. Between the micropropagated transformed plants sprayed with FINALE^® and the micropropagated control plants, the following differences were observed: modifications in levels of cell wall-linked, free and total phenolics, and total proteins. Moreover, changes of the fruit mass without crown were also recorded. Between the micropropagated transformed plants sprayed with FINALE^® and the macropropagated control plants, levels of chlorophyll b, total chlorophyll pigments, and proteins were different. Furthermore, activities of phenylalanine ammonia-lyase, superoxide dismutase, and glutamine synthetase were dissimilar. The plant height and diameter, and the crown height were also different. Until now, we have evaluated transformed pineapple plants during hardening and field growth. Although some unexpected variations were recorded, we believe they are not relevant enough to justify rejection of transgenesis as an important tool for pineapple genetic improvement.     

Effect of growth regulators on asiaticoside production in whole plant cultures of<Emphasis Type="Italic">Centella asiatica</Emphasis> (L) urban

We investigated the effects of growth regulators on whole-plant cultures derived from nodes ofCentella asiatica. A B5 liquid medium including 0.01 mg L^-1 2,4-D resulted in decreased growth and asiaticoside production. Among the cytokinins tested (TDZ, BA, zeatin, and kinetin), TDZ was the best supplement for the promotion of asiaticoside biosynthesis. To directly estimate this effect, we measured asiaticoside content in the leaf, the main organ for synthesis. The addition of TDZ did not affect asiaticoside accumulation. Nevertheless, our results suggest that treatment with exogenous TDZ may enhance the production of asiaticoside in cultures simply through an increase in biomass.     

<Emphasis Type="Italic">Agrobacterium tumefaciens</Emphasis> and <Emphasis Type="Italic">Agrobacterium rhizogenes</Emphasis> transformed roots of the parasitic plant <Emphasis Type="Italic">Triphysaria versicolor</Emphasis> retain parasitic competence

Parasitic plants in the Orobanchaceae invade roots of neighboring plants to rob them of water and nutrients. Triphysaria is facultative parasite that parasitizes a broad range of plant species including maize and Arabidopsis. In this paper we describe transient and stable transformation systems for Triphysaria versicolor Fischer and C. Meyer. Agrobacterium tumefaciens and Agrobacterium rhizogenes were both able to transiently express a GUS reporter in Triphysaria seedlings following vacuum infiltration. There was a correlation between the length of time seedlings were conditioned in the dark prior to infiltration and the tissue type transformed. In optimized experiments, nearly all of the vacuum infiltrated seedlings transiently expressed GUS activity in some tissue. Calluses that developed from transformed tissues were selected using non-destructive GUS staining and after several rounds of in vivo GUS selection, we recovered uniformly staining GUS calluses from which roots were subsequently induced. The presence and expression of the transgene in Triphysaria was verified using genomic PCR, RT PCR and Southern hybridizations. Transgenic roots were also obtained by inoculating A. rhizogenes into wounded Triphysaria seedlings. Stable transformed roots were identified using GUS staining or fluorescent microscopy following transformation with vectors containing GFP, dsRED or EYFP. Transgenic roots derived from both A. tumefaciens and A. rhizogenes transformations were morphologically normal and developed haustoria that attached to and invaded lettuce roots. Transgenic roots also remained competent to form haustoria in response to purified inducing factors. These transformation systems will allow an in planta assessment of genes predicted to function in plant parasitism. Alexey Tomilov and Natalya Tomilova made an equal contribution in the paper.     

Establishment of callus and cell suspension cultures of <Emphasis Type="Italic">Centella asiatica</Emphasis>

Methods for induction of callus and cell suspension cultures have been developed for the medicinally important herb Centella asiatica (L.) Urban. Thin layer chromatography (TLC) and high performance liquid chromatography (HPLC) analysis showed the presence of asiaticoside in the in vitro grown leaves, callus and cell suspension cultured cells.     

Transgenic tobacco plants containing <Emphasis Type="Italic">Bt</Emphasis> and <Emphasis Type="Italic">GNA</Emphasis> genes

A new plant expression vector (pBSbtCry1Ac-GNA) containing two insect resistant genes, a synthetic chimeric gene SbtCry1Ac encoding the insecticidal protein CrylAc and a gene GNA encoding snowdrop lectin (Galanthus nivalis agglutinin) was constructed. Transgenic tobacco plants containing these two genes were obtained through Agrobacterium-mediated transformation of tobacco leaf discs. Results from PCR detection and genomic DNA Southern blot analysis indicated that both SbtCrylAc gene and GNA gene were integrated into the genome of these plants. Results of Western blot analysis indicated that these two proteins were expressed in the analyzed plants. Bioassays of Myzus persicae and Helicoverpa assulta on detached leaves of transformed tobacco plants were carried out. The average aphid inhibition rate of these plants tested at 12 d post-infestation was 71.9 %. The average H. assulta mortality of these plants tested at 6 d post-infestation was up to 89.8 %. The kanamycin resistance of the T₁ progeny of these transgenic plants was analyzed and a typical 3:1 segregation was observed.     

Hairy root induction and plant regeneration of <Emphasis Type="Italic">Rehmannia glutinosa</Emphasis> Libosch. f. <Emphasis Type="Italic">hueichingensis</Emphasis> Hsiao via <Emphasis Type="Italic">Agrobacterium rhizogenes</Emphasis>-mediated transformation

The objective of this research was to establish an efficient system of genetic transformation and plant regeneration from hairy roots by infecting the leaf sections and stem segments of in vitro Rehmannia glutinosa Libosch. f. hueichingensis Hsiao plantlets. Hairy roots were induced from them after co-culturing with Agrobacterium rhizogenes strain 15834 at a frequency of 32 and 29.4%, respectively. The calluses were induced from hairy roots on half-strength Murashige and Skoog medium containing 0.2 mg/l kinetin and 3.0 mg/l benzyladenine at a frequency of 100%, from which transgenic shoots and plantlets were developed. Transgenic plantlets did not have differences in morphology except the shortened internodes and an increase in adventitious root formation compared to wild-type plants. PCR and Southern-blot analyses confirmed that rolB gene of TL-DNA was inserted in the genome of transformed hairy roots and plantlets. RT-PCR analysis and opine paper electrophoresis revealed that rolB gene was expressed in the transformed hairy roots and plantlets. Conclusively, transgenic hairy roots and transgenic plants of Rehmannia glutinosa Libosch. f. hueichingensis Hsiao were developed for the first time. This text was submitted by the authors in English. Published in Russian in Fiziologiya Rastenii, 2009, Vol. 56, No. 2, pp. 247–255.     

Hairy root culture of <Emphasis Type="Italic">Plumbago indica</Emphasis> as a potential source for plumbagin

Hairy roots of Plumbago indica were established at high frequency (90 %) by infecting leaf explants with Agrobacterium rhizogenes strain ATCC 15834. The axenic root cultures were established under darkness in hormone-free liquid Murashige and Skoog medium containing 3 % sucrose. The highest plumbagin content was found to accumulate in roots at their exponential phase of growth. A low pH (4.6) and a low concentration of sucrose (1 %) were beneficial for root growth in darkness, while pH 5.6 and 3 % sucrose under continuous irradiance enhanced plumbagin accumulation in roots up to 7.8 mg g⁻¹(d.m.). Direct shoot regeneration from hairy root culture was also achieved under continuous irradiance, thus indicated an easy way of obtaining transformed P. indica plants.     

Carbon nutrition of mature green orchid <Emphasis Type="Italic">Serapias strictiflora</Emphasis> and its mycorrhizal fungus <Emphasis Type="Italic">Epulorhiza</Emphasis> sp.

We studied the nutritional modes of the orchid Serapias strictiflora and its mycorrhizal fungus Epulorhiza sp. using the differences in carbon isotopic composition (δ¹³C) of C₃ orchid and C₄ maize tissues. We found that if cultivated in substrate lacking any organic compounds, the mycorrhizal extraradical mycelia (δ¹³C = −26.3 ± 0.2 ‰) developed well, despite being fully dependent on nutrition from orchid roots (δ¹³C = −28.6 ± 0.1 ‰). If the mycorrhizal fungus had additional access to and colonized decaying maize roots (δ¹³C = −14.6 ± 0.1 ‰), its isotopic composition (δ¹³C = −21.6 ± 0.4 ‰) reflected a mixture of biotrophy and saprotrophy. No statistically significant differences in δ¹³C of new storage tubers were found between Epulorhiza-associated orchids with (δ¹³C = -28.2 ± 0.1 ‰) and without access to maize roots (δ¹³C = −28.6 ± 0.2 ‰). We conclude that autotrophy is the predominant nutritional mode of mature S. strictiflora plants and that they supply their mycorrhizal fungus with substantial amount of carbon (69 ± 3 % of the fungus demand), even if the fungus feeds saprotrophically.     

Semisterile meiotic mutant <Emphasis Type="Italic">sy11</Emphasis> with heterologous chromosome synapsis in rye <Emphasis Type="Italic">Secale cereale</Emphasis> L.

A study was made of the expression and inheritance of the sy11 mutation, which alters homologous chromosome synapsis in meiotic prophase I of rye. The abnormal phenotype proved to be determined by a recessive allele of a single sy11 gene. Univalents and multivalents were observed in homozygotes for the mutant allele. Analysis of the synaptonemal complex revealed a combination of homologous and nonhomologous synapsis in the mutant. The nonhomologous synapsis frequency significantly decreased in the course of meiotic prophase I in the mutant. The number of chiasmata per bivalent in metaphase I was 1.1 ± 0.01 versus 1.8 ± 0.01 in wild-type plants, and the number of univalents was 2.7 ± 0.06 versus 0.5 ± 0.05 in wild-type plants. As a result, a broad range of abnormalities was observed at subsequent stages of meiosis and led to the formation of defective microspores. Mutant plants were semisterile.     

Drought,warming and soil fertilization effects on leaf volatile terpene concentrations in <Emphasis Type="Italic">Pinus halepensis</Emphasis> and <Emphasis Type="Italic">Quercus ilex</Emphasis>

The changes in foliar concentrations of volatile terpenes in response to water stress, fertilization and temperature were analyzed in Pinus halepensis and Quercus ilex. The most abundant terpenes found in both species were α-pinene and Δ³-carene. β-Pinene and myrcene were also abundant in both species. P. halepensis concentrations were much greater than those of Q. ilex in agreement with the lack of storage in the latter species (15205.60 ± 1140.04 vs. 0.54 ± 0.08 μg g⁻¹ [d.m.]). The drought treatment (reduction to 1/3 of full watering) significantly increased the total terpene concentrations in both species (54% in P. halepensis and 119% in Q. ilex). The fertilization treatment (addition of either 250 kg N ha⁻¹ or 250 kg P ha⁻¹ or both) had no significant effects on terpene foliar concentrations. The terpene concentrations increased from 0.25 μg g⁻¹ [d.m.] at 30°C to 0.70 μg g⁻¹ [d.m.] at 40°C in Q. ilex (the non-storing species) and from 2,240 μg g⁻¹ [d.m.] at 30°C to 15,621 μg g⁻¹ [d.m.] at 40°C in P. halepensis (the storing species). Both species presented negative relationship between terpene concentrations and relative water contents (RWC). The results of this study show that higher terpene concentrations can be expected in the warmer and drier conditions predicted for the next decades in the Mediterranean region.     

Establishment of an <Emphasis Type="Italic">Agrobacterium</Emphasis>-mediated transformation system for <Emphasis Type="Italic">Fortunella crassifolia</Emphasis>

Epicotyl segments of kumquat (Fortunella crassifolia Swingle cv. Jindan) were transformed with Agrobacterium tumefaciens GV3101 harboring neomycin phosphotransferase gene (npt II) containing plant expression vectors. Firstly, the explants were cultured in darkness at 25 °C on kanamycin free shoot regeneration medium (SRM) for 3 d, and then on SRM supplemented with 25 mg dm⁻³ kanamycin and 300 mg dm⁻³ cefotaxime for 20 d. Finally, they were subcultured to fresh SRM containing 50 mg dm⁻³ kanamycin monthly and grown under 16-h photoperiod. Sixty five kanamycin resistant shoots were regenerated from 500 epicotyl explants after four-month selection. Shoot tips of 20 strong shoots were grafted to 50-day-old kumquat seedlings and survival rate was 55 %. Among the 11 whole plants, 3 were transgenic as confirmed by Southern blotting. This is the first report on transgenic kumquat plants, and a transformation efficiency of 3.6 % was achieved.     

The ectopic expression of <Emphasis Type="Italic">PttKN1</Emphasis> gene causes pleiotropic alternation of morphology in transgenic carnation (<Emphasis Type="Italic">Dianthus caryophyllus</Emphasis> L<Emphasis Type="Italic">.</Emphasis>)

Carnation (Dianthus caryophyllus L.) is one of the most important ornamental plants in the world. Though morphological modification of carnation is very important to its commercial value, there have been no relevant reports until now. PttKN1 (Populus tremula × Tremuoides knotted1), isolated from the vascular cambial region of hybrid aspen, is a novel member of KNOX gene family. In this paper, we transformed 35S:PttKN1 to carnation via Agrobacterium tumefaciens. All primary transformants subsequently obtained were placed into phenotypic categories and self-pollinated. A total of 32 T0 progeny with aberrant phenotypes were obtained. PCR assay proved the validity of these transgenic plants. Phenotypes of 32 35S:PttKN1 plants were distinct from those of wild-type plants, including: (1) modification of phyllotaxis (15/32): wild-type carnation was with typical opposite phyllotaxis, while transgenic plants displayed tricussate whorled and multiple-cussate whorled phyllotaxis. Irregular modification of phyllotaxis was also observed; (2) modification of stem (9/32): wild-type stems were round; however, some transgenic plants exhibited much thicker and flatter stem; (3) the whole transgenic plants of carnation (8/32) became dwarf. These morphological modifications of carnation indicate that we have successfully attained some novel lines of carnation. These lines can have potential practical applications. In conclusion, the selection of stably genetic lines is discussed.     

Optimalization of the peroxidase production by tissue cultures of horseradish <Emphasis Type="Italic">in vitro</Emphasis>

Tissue cultures of Armoracia rusticana L., both transformed with Agrobacterium rhizogenes and nontransformed, were screened for peroxidase activity. Most of the derived and tested strains exhibited 20 times higher activity [from 99 to 723 U g⁻¹(d.m.)] than the root of the intact plant [(30 U g⁻¹ (d.m.)]. The highest peroxidase activity was found in tumour culture growing on the medium without growth regulators. The influence of the addition of sugars and heavy metal ions in the medium on peroxidase production was tested. Increase in peroxidase activity was observed after cultivation of horseradish culture with cadmium, cobalt, nickel or lead ions.This work is supported by Grant Agency of Czech Republic Project No. 526/04/0135.