Hairy root culture of <Emphasis Type="Italic">Picrorhiza kurroa</Emphasis> Royle ex Benth.: a promising approach for the production of picrotin and picrotoxinin

Picrorhiza kurroa Royle ex Benth. is an endangered plant producing various compounds of medicinal importance. Hairy roots of P. kurroa were obtained following cocultivation of shoot tip explants with Agrobacterium rhizogenes strains A 4 and PAT 405. Bacterial strain A 4 appeared to be better than the strain PAT 405 in terms of both growth of respective hairy root cultures and secondary metabolite production. The optimal growth of both the hairy root cultures occurred on half-strength semisolid medium with 3% sucrose. Picrotin and picrotoxinin from the roots of wild type field grown plants were compared with 8-week-old hairy root cultures induced by the A 4 and PAT 405 strains of A. rhizogenes. Picrotin and picrotoxinin content were evaluated in hairy root cultures as well as roots of field grown plant of P. kurroa. In terms of the production of picrotin and picrotoxinin, the A 4 induced hairy roots appeared to be a better performer than the PAT 405 induced hairy root cultures. The picrotin and picrotoxinin content was highest in 8-week-old A 4 induced hairy roots (8.8 μg/g DW and 47.1 μg/g DW, respectively). Rapid growth of the hairy roots of P. kurroa with in vitro secondary metabolite production potential may offer an attractive alternative to the exploitation of this endangered plant species.     

Validated TLC method for simultaneous quantitation of kutkoside and picroside‐I from Kutki extract

Introduction – The two iridoid glycosides kutkoside and picroside‐I are the active hepatoprotective principles of Picrorhiza kurroa Royle ex Benth (Scrophulariaceae), commonly known as Kutki. Quantitation of these phytoconstituents is important for the routine quality control of Kutki extract. Objective – To develop and validate a simple, precise and rapid thin‐layer chromatography (TLC) method for the simultaneous quantitation of kutkoside and picroside‐I in Kutki extract. Methodology – The analysis was performed on a TLC precoated silica gel 60 F₂₅₄ plate with ethyl acetate:methanol:glacial acetic acid:formic acid (25:5:1:1, v/v/v/v) as mobile phase. Densitometric evaluation of kutkoside and picroside‐I was carried out at 265 nm and the mobile phase showed good resolution with R_f values 0.42 ± 0.03 and 0.61 ± 0.03 for kutkoside and picroside‐I, respectively. The method was validated in terms of specificity, linearity, accuracy and precision. Results – The content of kutkoside and picroside‐I was found to be 2.18 and 1.90%, respectively, and was comparable with those obtained by HPLC. The linearity was found to be in the range of 80–480 ng/spot for both kutkoside and picroside‐I. The average recovery values were found to be 96.5 and 96.0% for kutkoside and picroside‐I, respectively. Conclusion – The developed method was found to be relatively simple, precise and reproducible for the simultaneous quantitation of kutkoside and picroside‐I. The method does not employ any derivatisation procedure and can be used as a quality control tool for the routine analysis of commercial Kutki extracts. Copyright © 2010 John Wiley & Sons, Ltd.     

Characterization of ornamental Datura plants transformed by Agrobacterium rhizogenes

Summary Datura arborea and D. sanguinea hairy roots were produced by cocultivation of leaf fragments with Agrobacterium rhizogenes strain NCPP 1855. Adventitious buds emerged spontaneously, without exogenous growth regulators, from seven hairy root clones of D. arborea and from one hairy root clone of D. sanguinea. Regenerated plants were successfully acclimatized in the greenhouse. The integration of the bacterial TL-DNA into the genome of the putative transformed plants was confirmed by Southern blot analysis. Transgenic plants displayed increased ability to root in vivo. Morphological traits with relevant ornamental value like plant height, leaf number, size and shape, internode number, and internode length were also affected. Transformation by wild-type Ri TL-DNA provided the chance to study plant growth and differentiation and to select improved genotypes.     

Yield enhancement strategies for the production of picroliv from hairy root culture of Picrorhiza kurroa Royle ex Benth.

Fast-growing hairy root cultures of Picrorhiza kurroa induced by Agrobacterium rhizogenes offers a potential production system for iridoid glycosides. In present study we have investigated the effects of various nutrient medium formulations viz B5, MS, WP and NN, and sucrose concentrations (1–8%) on the biomass and glycoside production of selected clone (14-P) of P. kurroa hairy root. Full strength B5 medium was found to be most suitable for maximum biomass yield on the 40th day of culture (GI = 32.72 ± 0.44) followed by the NN medium of the same strength (GI = 22.9 ± 0.43). Secondary metabolite production was 1.1 and 1.3 times higher in half strength B5 medium respectively in comparison to MS medium. Maximum biomass accumulation along with the maximum picroliv content was achieved with 4% sucrose concentration in basal medium. RT vitamin and Thiamine-HCl effected the growth and secondary metabolite production of hairy roots growing on MS medium but did not show any effect on other media. The pH of the medium played significant role in growth and secondary metabolite production and was found to be highest at pH 6.0 while lowest at pH 3.0 and pH 8.0. To enhance the production of biomass and Picroliv 5 liter working capacity bioreactor was used, 27-fold (324 g FW) higher growth was observed in bioreactor than shake flask and secondary metabolite production was similarly enhanced.     

Indole alkaloid production by hairy root cultures of Catharanthus roseus

Hairy root cultures of Catharanthus roseus were established by infection with six different Agrobacterium rhizogenes strains. Two plant varieties were used and found to exhibit significantly different responses to infection. Forty-seven hairy root clones derived from normal plants and two derived from the flowerless variety were screened for their growth and indole alkaloid production. The growth rate and morphological appearance showed wide variations between the clones. The alkaloid spectra observed were qualitatively but not quantitatively very similar to that of the corresponding normal plant roots. No vindoline or deacetyltransferase activity could be detected in any of the cultures studied. O-acetylval-lesamine, an alkaloid which has not been previously observed in C. roseus was identified from extracts of hairy root clone No. 8. Two root clones were examined for their growth and alkaloid accumulation during a 26-day culture period. Alkaloid accumulation parallelled growth in both clones with ca. 2 mg ajmalicine and catharanthine per g dry weight being observed.Dedicated to Dr. Friedrich Constabel on the occasion of his 60th birthday     

Agrobacterium tumefaciens-mediated hairy root production from seedlings of Chinese cabbage

Cruciferous hairy roots are often used for improving drought adaptability, peroxidase production, andin vitro subculturing ofPlasmodiophora brassicae. For metabolic engineering,Agrobacterium tumefaciens-mediated systems have previously been developed for hairy root production in other plant species. Here, we used therolABC gene binary construct inA. tumefaciens strain GV3101 to establish cultures of Chinese cabbage hairy roots. On both solid and liquid media, therolABC hairy root lines exhibited a wild-type hairy root syndrome in terms of their growth and morphology. This demonstrates that those three genes are sufficient to induce high-quality hairy roots in Chinese cabbage. Such a system could be useful for the stable production of secondary metabolites in that species.     

A novel life cycle arising from leaf segments in plants regenerated from horseradish hairy roots

Summary Horseradish (Armoracia rusticana) hairy root clones were established from hairy roots which were transformed with the Ri plasmid in Agrobacterium rhizogenes 15834. The transformed plants, which were regenerated from hairy root clones, had thicker roots with extensive lateral branches and thicker stems, and grew faster compared with non-transformed horseradish plants. Small sections of leaves of the transformed plants generated adventitious roots in phytohormone-free G (modified Gamborg's) medium. Root proliferation was followed by adventitious shoot formation and plant regeneration. Approximately twenty plants were regenerated per square centimeter of leaf. The transformed plants were easily transferable from sterile conditions to soil. When leaf segments of the transformed plants were cultured in a liquid fertilizer under non-sterile conditions, adventitious roots were generated at the cut ends of the leaves. Adventitious shoots were generated at the boundary between the leaf and the adventitious roots and developed into complete plants. This novel life cycle arising from leaf segments is a unique property of the transformed plants derived from hairy root clones.     

Chemical composition,antioxidant and macromolecule damage protective effects of Picrorhiza kurroa Royle ex Benth

In the present study, we identified the chemical constituents of 70% hydroalcoholic fraction of Picrorhiza kurroa by LC–ESI–MS/MS which showed the presence of iridoid glucosides such as picroside I, picroside II, picroside III, picroside IV, kutkoside, pikuroside and flavonoids like apocynin and vanillic acid. P. kurroa exhibited DPPH radical scavenging and metal chelating activities with IC₅₀ of 75.16 ± 3.2 and 55.5 ± 4.8 μg/mL and also showed potent reducing power and total antioxidant activities. The extract inhibited macromolecule damage such as H₂O₂ induced plasmid DNA damage and AAPH induced oxidation of bovine serum albumin and lipid peroxidation of rat hepatic tissues.     

The effect of plant growth regulators on biomass formation and lobeline production of Lobelia inflata L. hairy root cultures

We have studied the biomass and alkaloid production of geneticallytransformed hairy root cultures of Lobelia inflata L. Thehairy root clone 8009/h7 transformed with Agrobacteriumrhizogenes strain R 1601 was cultivated on B5 solid media containingdifferent amounts of the growth regulators KIN, IAA or NAA. KIN significantlydecreased growth and lobeline production and strongly inhibited biomassformation at 5 mg/l. IAA and NAA had characteristic morphologicaleffects on growth, in increasing the number of the lateral roots. However theyrestricted linear growth. Addition of IAA or NAA into the culture mediumincreased the biomass formation and lobeline production of hairy roots. It wasfound that the greatest amount of lobeline was obtained at the 0.2mg/l IAA concentration, similar to the effect of NAA.     

An unusual root tip formation in hairy root culture of Hyoscyamus muticus

Summary Hairy root cultures of Hyoscyamus muticus were established using Agrobacterium rhizogenes ATCC 15834. In one out of 8 clones established, an unusual root tip formation was observed after transfer of cultures from half-strength Murashige and Skoog (1962) to White's medium (1939). This phenomenon was associated with the production of a fine brownish cell suspension culture. Hairy root development resumed after transfer of the root tips from White to half-strength Murashige and Skoog medium. After plating the isolated brownish cells on hormone-free half-strength Murashige and Skoog or White solid medium, callus proliferation was observed, and then redifferentiation of hairy roots occurred. The polymerase chain reaction analysis of the H. muticus hairy root (clone Z2) revealed that only the tl region of the T-DNA was integrated. The growth and the production of five tropane alkaloids by this clone were examined.Abbreviations PCR Polymerase Chain Reaction - MS medium Murashige and Skoog Medium - 1/2 MS medium half-strength MS medium - WP medium Woody Plant medium - RC medium Root Culture medium - WH medium White medium - HPLC High Performance Liquid Chromatography - wt. weight     

Sonication-assisted Agrobacterium rhizogenes-mediated transformation of Verbascum xanthophoeniceum Griseb. for bioactive metabolite accumulation

An efficient protocol for the establishment of transformed root culture of Verbascum xanthophoeniceum using sonication-assisted Agrobacterium rhizogenes-mediated transformation is reported. Only 10 days after the inoculation with A. rhizogenes ATCC 15834 and 45 s ultrasound exposure, hairy roots appeared on 75% of the Verbascum leaves. Ten hairy root lines were isolated, although only half of them were free of bacterial contamination and started growing when excised from mother explants. The transgenic nature of the most vigorously growing hairy root clones (VX1 and VX6) was confirmed by polymerase chain reaction. Under submerged cultivation both hairy root clones accumulated high biomass amounts (12.8 and 14.3 g L⁻¹, respectively) and significant amounts of bioactive phenylethanoid glycoside verbascoside (over 6-times more than in mother plant leaves). LC-APCI-MS analyses confirmed verbascoside accumulation in hairy root clones along with three other phenylethanoid glycosides (forsythoside B, leucosceptoside B and martynoside) and an iridoid glycoside aucubin. This is the first report on the induction of hairy roots of Verbascum plants.     

Host-tissue differences in transformation of pumpkin (Cucurbita pepo L.) by Agrobacterium rhizogenes

Agrobacterium rhizogenes (wild-type strains 8196 and 15834) transformation of pumpkin (Cucurbita pepo L.) intact seedlings grown in vivo, and 6–8-day-old excised cotyledons cultured in axenic conditions was investigated. Transformed (hairy) roots were successfully induced only on the excised cotyledons with the strain 8196, while intact seedlings failed to form hairy roots with either of the two different bacterial strains. Axenic hairy-root cultures established on MS medium without hormones grew vigorously. Mannopine was detected in all transgenic root clones examined. The peroxidase activity in transformed roots was higher compared with normal roots. Electrophoretic analyses of soluble proteins and isoperoxidases showed substantial differences between transformed and normal pumpkin roots.     

Morphometric and biochemical characterization of red beet (<Emphasis Type="Italic">Beta vulgaris</Emphasis> L.) hairy roots obtained after single and double transformations

It is known that T-DNA of Agrobacterium rhizogenes affects processes of plant development and activates the synthesis of secondary metabolites in transformed plant cells. In the present investigation, we provide evidence that different strains of A. rhizogenes significantly affect morphometric, morphological and functional characteristics of hairy roots of red beet (Beta vulgaris L.). Infection with four strains of A. rhizogenes (A4, A 2/83, A 20/83 and LMG-150) resulted in ten clones of hairy roots, which were named accordingly as A4(1), A4(2), A4(3), A 2/83(1), A 2/83(2), A 2/83(3), A 20/83(1), A 20/83(2), A 20/83(3) and LMG-150. Their growth characteristics, pigment content, levels of endogenous auxin and T-DNA copy number showed significant differences probably due to the physiological status of the host cell rather than the T-DNA copy number. Although A 2/83 showed highest hairy root induction capacity, the best hairy root clone was obtained with strain LMG-150 that produced highest biomass and pigments. In this root clone, the enzyme peroxidase was found involved in altering the endogenous auxin pool. When root clone LMG-150 was re-transformed to insert additional individual rol genes, two double transformed clones were obtained, one for rolABC and the other for rolC gene where the former produced higher biomass and betalaine than the latter. Despite the established fact that rol genes of T-DNA influence endogenous phytohormones, no direct correlation among the single transformants and the double transformants was found. This is the first report, in our knowledge, where a hairy root clone has been used to obtain double transformants.     

Genetic transformation of Rhamnus fallax and hairy roots as a source of anthraquinones

Hairy roots of Rhamnus fallax Boiss. were induced using Agrobacterium rhizogenes strain A4M70GUS. The culture established on Woody plant media (WPM) showed a typical hairy root phenotype: rapid growth, reduced apical dominance and root plagiotropism. Seven clones of R. fallax were selected on the basis of their differences in colour and the root branching. The growth of hairy root culture, measured through gain in fresh mass, was done under 16-h photoperiod or in the dark. An increase in anthraquinone (AQ) content was obtained in clones with yellow and less branched roots, like clone 1 [16.43 mg g⁻¹(d.m.)] and clone 7 [14.21 mg g⁻¹(d.m.)], compared with other analysed transformed and non-transformed tissue. This study presents the first report of successful transformation of any species from family Rhamnaceae by A. rhizogenes and analysis of AQ production in transformed tissue.     

Hairy roots of Brassica napus: I. Applied glutamine overcomes the effect of phosphinothricin treatment

Summary Hairy roots of Brassica napus (rape cv. Giant) were produced by cocultivating leaf and cotyledon explants with Agrobacterium rhizogenes strain A4T. The hairy roots grew prolifically on solid and in liquid media. Incorporation of ammonium sulphate or phosphinothricin (PPT) into the media reduced growth. PPT treatment reduced glutamine synthetase (GS) activity and increased the ammonia content of the hairy roots. We have found that PPT treatment also induces a loss of glutamine from the roots and this may influence root growth. To test this we grew hairy roots in a liquid medium containing 10 mM glutamine. This glutamine treatment overcame the PPT induced suppression of growth but also significantly increased GS activity, reduced ammonia accumulation and increased the levels of glutamate and asparagine.     

The effect of yeast extract and methyl jasmonate on rosmarinic acid accumulation in <Emphasis Type="Italic">Coleus blumei</Emphasis> hairy roots

The leaves of axenically grown Coleus blumei were inoculated with Agrobacterium rhizogenes strain A4 and hairy root were established. PCR and Southern hybridization analysis confirmed transgenic nature of hairy root clones. Cultures of normal roots, induced by α-naphthaleneacetic acid on leaf explants, and hairy roots were evaluated for growth and rosmarinic acid content. Significantly better growth and up to 2.8 higher amount of rosmarinic acid was detected by HPLC analysis in hairy root clones. Methyl jasmonate stimulated rosmarinic acid accumulation in 6 out of 11 tested clones, while yeast extract induced RA accumulation in two and diminished it in 5 out of 11 tested hairy root clones.     

Expression of transferred genes during hairy root development in pea

Root border cell development and expression of reporter genes were evaluated in transgenic pea hairy roots. Successful induction of hairy roots in pea is conditioned by bacterial strain and plant genotype, as well as by developmental and environmental factors. Morphological changes sometimes occur when hairy roots are transferred from infected plants to tissue culture media, but such changes are confined to specific clones. Expression of reporter genes under the control of promoters from bean (Phaseolus vulgaris L.) stress genes encoding phenylalanine ammonia lyase and chalcone synthase were evaluated. Expression patterns vary between hairy roots taken directly from infected plants, and those grown in culture; most hairy roots taken from infected plants exhibit expression throughout all tissues, whereas expression in cultured hairy roots is most often localized to specific tissues. Patterns of expression that occur during different stages of hairy root development are very similar to those observed in transgenic plants expressing the same fusion genes. Border cell separation and release in hairy roots is normal, and expression of glucuronidase in border cells of some transgenic roots resulted in development of bright blue single cells. Cultured hairy roots should provide a very useful model for studying the effect of defined changes in root border cells on microbial associations with roots of this important legume.Abbreviations YEM yeast extract-mannitol - GUS glucuronidase - PAL phenylalanine ammonium lyase - CHS chalcone syntase     

Potential of thidiazuron in improved micropropagation of Picrorhiza kurroa– an endangered medicinal herb of alpine Himalaya

The potential of thidiazuron (1-phenyl-3-(1, 2, 3-thiadiazol-5-yl) urea (TDZ) in the micropropagation of Picrorhiza kurroa, a western Himalayan herb was studied. The roots and rhizomes of this plant are rich in medicinally important glycosides i.e., picroside I, picroside II and kutkoside. Nodal segments (2.0–2.5 cm) from plants were pretreated with 0, 0.25, 0.50, 0.75, 1.0 μM TDZ for 7, 15 and 30 days. Maximum shoot multiplication was recorded after 60 days, provided, the nodal segments pretreated with 0.5 μM TDZ for 15 days were transferred to 0.8% agar gelled MS medium containing 3.0% sucrose. The shoots also showed profuse rooting having maximum length. When these plantlets were incubated at 15°C for 10 days and transferred to sand under polyhouse conditions, 100% survival was recorded after one month. In contrast, when the plantlets were not incubated at 15°C, only 86% survival was recorded. While the stomata and chlorophyll content of the tissue culture-raised plantlets treated at 15°C were comparable to that of plants growing in the field, the ones that were not treated at 15°C showed lower number of stomata and chlorophyll content.     

Optimization of induction and culture conditions and tropane alkaloid production in hairy roots of <Emphasis Type="Italic">Anisodus acutangulus</Emphasis>

In this study, an efficient transformation system for the medicinal plant Anisodus acutangulus was successfully developed and optimized using Agrobacterium rhizogenes. Three bacterial strains, A4, R1601, and modified C58C1 and three explant types, leaf blade, petiole, and stem, were examined. The highest transformation efficiency of 94.44% was achieved using strain C58C1 with stem explants. Over 20 independent hairy root lines were successfully established with strain C58C1 using stem explants, all of which contained the ro/B and ro/C genes as confirmed by polymerase chain reaction (PCR). Out of four media compositions, the liquid 1/2 MS medium was found the most suitable for hairy root growth. The maximum biomass of one hairy root line increased up to 80 times in liquid 1/2 MS medium after a 30 day culture period. Different hairy root lines displayed a varied capacity for tropane alkaloid production and the best hairy root line (T4) from the C58C1-stem combination produced up to 10.21 mg/g (dw) of hyoscyamine, which was about 1.5-fold higher than in the wild type plants. To our knowledge, this is the first report to demonstrate the production of tropane alkaloids in hairy roots of A. acutangulus.