Overexpression of a Catharanthus tryptophan decarboxylase (tdc) gene leads to enhanced terpenoid indole alkaloid (TIA) production in transgenic hairy root lines of Rauwolfia serpentina

To enhance the production of terpenoid indole alkaloids in Rauwolfia serpentina, Catharanthus tryptophan decarboxylase (Crtdc) gene was over-expressed in transgenic hairy root cultures using Agrobacterium rhizogenes-mediated transformation. Among six transgenic hairy root lines, line RT4 accumulated the highest alkaloid content, with 0.1202 % dry weight (DW) reserpine and 0.0064 % DW ajmalicine, after 10 weeks of culture. Whereas, wild-type roots accumulated 0.0596 ± 0.003 % DW reserpine and 0.0011 ± 0.001 % DW ajmalicine. Transgenic hairy root line RT7 produced the lowest alkaloid content (reserpine: 0.0896 ± 0.002 % DW; ajmalicine: 0.002 ± 0.0 % DW). On the basis of alkaloid content the six hairy root lines were grouped as RT4/RT2 > RT3/RT5 > RT7/RT8. Analysis of gene expression profile indicated that Crtdc was expressed at a higher level in transgenic lines, which could be correlated with enhanced metabolite accumulation in roots. This study confirms that over-expression of Crtdc is a superlative method to improve the biosynthetic potential of Rauwolfia hairy root cultures. Enhanced reserpine and ajmalicine production can serve as an alternative choice to provide resources for relative pharmaceutical industries.     

Agrobacterium rhizogenes mediated transformation of the medicinal plant Decalepis arayalpathra and production of 2-hydroxy-4-methoxy benzaldehyde

Agrobacterium rhizogenes mediated transformation of Decalepis arayalpathra, an ethnomedicinal plant, was achieved by infecting juvenile hypocotyl explants with different strains, including A4, MTCC 532, TR105 and LBA 5402. Hypocotyl explants induced hairy roots at a higher frequency (53.2 ± 0.3 %) than cotyledons (32.1 ± 0.2 %) when infected with the most virulent strain TR105. The explants co-cultivated 48 h in half-strength salts and vitamins of Murashige and Skoog basal medium (half-MSB) induced hairy roots either directly from the wounds or followed by the formation of gall like structures. Irrespective of the explants, the strain MTCC 532 induced callus alone. The root initials on the galls proliferated vigorously and elongated more rapidly when they were segmented and subcultured on half-MSB medium than the proliferation and elongation of directly emerged roots. The established hairy roots showed intermittent gall formation which was the active sites for hairy roots induction. The molecular evidence of rol A and rol C gene integration was confirmed by PCR amplification and southern blot hybridization. Growth of the hairy roots was undertaken by measuring root growth unit after culturing root tips in half-MSB solid medium and determined fresh weight/dry weight/conductivity during time-course study in shake flask cultures. The maximum biomass and accumulation of the root specific compound, 2-hydroxy-4-methoxy benzaldehyde (MBALD) (0.22 % dry weight), was recorded at the 6th week of growth, which was more than that observed in normal root cultures (0.16 % dry weight).     

Growth kinetics and ginsenosides production in transformed hairy roots of American ginseng—Panax quinquefolium L

A thin, profusely branched, fast growing hairy root line of Panax quinquefolium (American ginseng) was established by co-culturing epicotyl explants with a wild type strain of Agrobacterium rhizogenes. The transformed roots grew by over 10-fold from the initial inoculum within 8 weeks. The crude ginsenosides content in the roots was about 0.2 g/g dry wt level up to the 10th week of culture. Ginsenosides Rb2, Rd, Re, Rf and Rg1 constituted 47–49% of the crude saponin fraction between 6 and 8 weeks of growth whereas, Rc ginsenoside was accumulated only after 9th weeks when the biomass started receding. PCR amplification analysis of the hairy roots confirmed their transgenic nature by showing the presence of Ri-TL DNA with rolA, rolB and rolC genes in their genome.     

Increased accumulation of the cardio-cerebrovascular disease treatment drug tanshinone in Salvia miltiorrhiza hairy roots by the enzymes 3-hydroxy-3-methylglutaryl CoA reductase and 1-deoxy-d-xylulose 5-phosphate reductoisomerase

Tanshinone is widely used for treatment of cardio-cerebrovascular diseases with increasing demand. Herein, key enzyme genes SmHMGR (3-hydroxy-3-methylglutaryl CoA reductase) and SmDXR (1-deoxy-d-xylulose 5-phosphate reductoisomerase) involved in the tanshinone biosynthetic pathway were introduced into Salvia miltiorrhiza (Sm) hairy roots to enhance tanshinone production. Over-expression of SmHMGR or SmDXR in hairy root lines can significantly enhance the yield of tanshinone. Transgenic hairy root lines co-expressing HMGR and DXR (HD lines) produced evidently higher levels of total tanshinone (TT) compared with the control and single gene transformed lines. The highest tanshinone production was observed in HD42 with the concentration of 3.25 mg g^?1 DW. Furthermore, the transgenic hairy roots showed higher antioxidant activity than control. In addition, transgenic hairy root harboring HMGR and DXR (HD42) exhibited higher tanshinone content after elicitation by yeast extract and/or Ag⁺ than before. Tanshinone can be significantly enhanced to 5.858, 6.716, and 4.426 mg g^?1 DW by YE, Ag⁺, and YE-Ag⁺ treatment compared with non-induced HD42, respectively. The content of cryptotanshinone and dihydrotanshinone was effectively elevated upon elicitor treatments, whereas there was no obvious promotion effect for the other two compounds tanshinone I and tanshinone IIA. Our results provide a useful strategy to improve tanshinone content as well as other natural active products by combination of genetic engineering with elicitors.     

Molecular and chemical characterization of plants regenerated from Ri-mediated hairy root cultures of Rauwolfia serpentina

Hairy root lines were induced from leaf explants of Rauwolfia serpentina known to contain high levels of reserpine (0.0882 % DW) content. Out of five high yielding hairy root lines, three (R1, R14 and R15) exhibited spontaneous regeneration of shoots after 6–8 weeks in liquid B5 medium. Excised regenerated shoots underwent robust shoot proliferation when cultured on Murashige and Skoog (MS) medium supplemented with 0.1 mg/l naphthanleneacetic acid (NAA) and 1.0 mg/l 6-benzyladenine. When shoots were transferred to a root induction medium, consisting of MS basal medium and 1.0 mg/l NAA, all rooted within 2–3 weeks. Of a total of 45 plants developed from three different hairy root lines, 30 were successfully acclimatized and transferred to the green house. Almost 90 % of these plants grown in the green house showed no observed phenotypic differences, while 10 % were stunted and grew poorly, in comparison to non-transformed plants. Phenotypic assessment of regenerated plants for plant length, number of nodes and intermodal lengths, number of leaves per node, leaf color, leaf size, number of flowering shoots, flower size, fruit size, lateral root branching and root biomass was conducted. Polymerase chain reaction and Southern blot hybridization revealed that all plants derived from hairy roots carried the Ri T_L-DNA fragment. Moreover for plants derived from transgenic hairy root line R14, presence of more than a single transgene copy number was observed, and this might have contributed to observed abnormal phenotypes. Analysis of reserpine content revealed that roots of regenerated plants had similar levels (0.0889 % DW) to those of their corresponding hairy roots.     

Influence of <Emphasis Type="Italic">Agrobacterium rhizogenes</Emphasis> on induction of hairy roots and benzylisoquinoline alkaloids production in Persian poppy (<Emphasis Type="Italic">Papaver bracteatum</Emphasis> Lindl.): preliminary report

Persian poppy (Papaver bracteatum Lindl.) is an important medicinal plant and source of the opium alkaloids codeine, morphine and thebaine. Transgenic root cultures of P. bracteatum Lindl. are well-defined model systems to investigate the molecular and metabolic regulation of benzylisoquinoline alkaloid biosynthesis. Agrobacterium rhizogenes was able to produce hairy roots on wounded Persian poppy seedlings. Excised shoots from 7-day-old Persian poppy were co-cultivated with the A. rhizogenes strain R15834 carrying the pBI121 binary vector. All media, except for the co-cultivation medium, included 40 mg l⁻¹ paromomycin to select for pBI121 transformants and 200 mg l⁻¹ cefotaxime to eliminate the Agrobacterium. Eight weeks after infection, paromomycin-resistant roots appeared on 45–50% of explants maintained on hormone-free medium. Isolated hairy roots were propagated in liquid medium containing 1.0 mg l⁻¹ 1-naphthaleneacetic acid to promote rapid growth. Also, callus induction and shoot regeneration of transformed Calli in vitro was achieved on B5 medium containing 1.0 mg l⁻¹ 1-naphthaleneacetic acid. Detection of the neomycin phosphotransferase gene and GUS histochemical localization confirmed the integrative transformation of root cultures. This is the first study to illustrate useful protocol to introduce foreign genes into transgenic Persian poppy hairy root cultures using A. rhizogenes strain R15834.     

Transformation of Althaea officinalis L. by Agrobacterium rhizogenes for the production of transgenic roots expressing the anti-HIV microbicide cyanovirin-N

The marshmallow plant (Althaea officinalis L.) has been used for centuries in medicine and other applications. Valuable secondary metabolites have previously been identified in Agrobacterium rhizogenes-generated transgenic ‘hairy’ roots in this species. In the present study, transgenic roots were produced in A. officinalis using A. rhizogenes. In addition to wild-type lines, roots expressing the anti-human immunodeficiency virus microbicide candidate, cyanovirin-N (CV-N), were generated. Wild-type and CV-N root lines were transferred to liquid culture and increased in mass by 49 and 19 % respectively over a 7 day culture period. In the latter, the concentration of CV-N present in the root tissue was 2.4 μg/g fresh weight, with an average secretion rate into the growth medium of 0.02 μg/ml/24 h. A. officinalis transgenic roots may therefore in the future be used not only as a source of therapeutic secondary metabolites, but also as an expression system for the production of recombinant pharmaceuticals.     

A reliable and efficient protocol for inducing genetically transformed roots in medicinal plant Nepeta pogonosperma

Nepeta pogonosperma is an important medicinal plant with anti-inflammatory effects. An efficient and reliable transformation system for this plant was developed through optimization of several factors which affected the rate of Agrobacterium rhizogenes mediated transformation. Five bacterial strains, A4, ATCC15834, LBA9402, MSU440 and A13, two explant types, leaves and stems, and several co-cultivation media were examined. The maximum rate of hairy root induction was obtained from stem explants using MSU440 and ATCC15834 bacterial strains. A drastic increase in the frequency of transformation (91 %) was observed when MS medium lacking NH₄NO₃, KH₂PO₄, KNO₃ and CaCl₂. Hairy root lines were confirmed by polymerase chain reaction (PCR) using primers of the rolB gene. According to Southern blot analysis, one T-DNA copy was inserted into each of the hairy root lines. In the present study, transgenic hairy roots have been obtained trough genetic transformation by A. rhizogenes harbouring two plasmids, the Ri plasmid and pBI121 binary vector harbouring gus reporter gene. Expression of the gus gene in transgenic hairy root was confirmed by histochemical GUS assay.     

A reliable and efficient protocol for inducing hairy roots in Papaver bracteatum

An efficient and reliable transformation system for a very important medicinal plant Papaver bracteatum was developed through optimization of several factors that affect the rate of effective A. rhizogenes-mediated transformation and growth rate of hairy root. Five bacterial strains, A4, ATCC15834, LBA9402, MSU440 and A13, and three explants types, hypocotyls, leaves and excised shoots were examined. The highest frequency of transformation was achieved using LBA9402 strain in the excised shoots. Several inoculation and co-cultivation media and different concentration of arginine were evaluated using LBA9402 strain and the excised shoots as explant. Interestingly, a drastic increase in the frequency of transformation (47.3 %) was observed when Murashige and Skoog medium containing 1 mM arginine and lacking NH₄NO₃ KH₂PO₄, KNO₃ and CaCl₂ was used. The effect of sucrose concentration and the ratio of NH₄ ⁺: NO₃ ^? on hairy root biomass was examined. Maximum biomass was obtained in 30 g/l sucrose and 20:10 mM ratio of NH₄ ⁺ to NO₃ ^? on MS medium. Transgenic hairy root lines were confirmed by polymerase chain reaction (PCR) and Southern hybridization.     

Influence of Agrobacterium rhizogenes strains on hairy root induction and ‘bacoside A’ production from Bacopa monnieri (L.) Wettst.

Stable lines of hairy roots were established from leaf explants of Bacopa monnieri using different strains (A4, R1000, SA79, MTCC 532 and MTCC 2364) of Agrobacterium rhizogenes. The efficiency of hairy roots induction of these strains varied significantly and the maximum transformation frequency (75 %) was observed in case of strain SA79 using leaf explants followed by internode (55 %) in the presence of acetosyringone. Different parameters such as cell density of Agrobacterium suspension, co-cultivation period and infection time influenced the root induction frequency. Maximum frequency of root induction was obtained with bacterial density of 0.6 OD₆₀₀, 2 days of co-cultivation period and 10 min of infection time. Integration of T-DNA in the genome of hairy roots was confirmed by PCR amplification of rolB gene. Elimination of Agrobacterium from the established root cultures was ascertained by amplifying the DNA fragment specific to 16S rDNA and virD gene. All lines of hairy roots except strain A4 induced showed higher growth rate and accumulated higher levels of ‘bacoside A’ than the untransformed roots. Maximum biomass accumulation (6.8 g l^?1) and ‘bacoside A’ content (10.02 mg g^?1 DW) were recorded in case of the hairy root line induced by strain MTCC 2364.     

Production of transgenic Aralia elata regenerated from Agrobacterium rhizogenes-mediated transformed roots

Transgenic hairy roots were induced from petiole and root segments of in vitro plant Aralia elata, a medicinal woody shrub, after co-cultivation with A. rhizogenes ATCC 15834. The percentage of putative hairy root induction from root segments was higher (26.7%) than petiole explants (10.0%). Hairy roots showed active production of lateral roots with vigorous elongation. Transgenic plants were regenerated from hairy roots via somatic embryogenesis. These plants had wrinkled leaves, short petioles and numerous lateral hairy roots. The RT-PCR analysis showed the expression of rol A, B, C, D, aux 1 and 2 genes differed between the transgenic lines. Endogenous IAA level was higher in transgenic than non-transgenic plants. Conclusively, transgenic hairy roots were developed for first time in A. elata and the transgenic hairy root lines showed distinct morphological growth pattern and gene expression.     

Morphinan alkaloids in Papaver bracteatum: Biosynthesis and fate

The known metabolic pathway for hydrophenanthrene alkaloids in Papaver somniferum has been examined for occurrence in P. bracteatum, a species reported to contain thebaine but no codeine or morphine. 1,2-Dehydro-reticulinium-[3-¹⁴C] chloride and (±)-reticuline-[3-¹⁴C] were fed to P. bracteatum plants and both were incorporated, the former into reticuline and thebaine and the latter into thebaine, suggesting that thebaine biosynthesis is the same in the two species. Studies of the natural abundance of morphinan alkaloids in P. bracteatum and the results from feeding codeinone-[16-³H] and codeine-[16-³H] indicate that this species can reduce codeinone to codeine but can not perform either of the demethylations to produce codeinone or morphine. Fed thebaine-[16-³H] was substantially metabolized but not by pathways that involved demethylations to either oripavine or northebaine.     

Efficiency of different Agrobacterium rhizogenes strains on hairy roots induction in Solanum mammosum

This article presents the abilities and efficiencies of five different strains of Agrobacterium rhizogenes (strain ATCC 31798, ATCC 43057, AR12, A4 and A13) to induce hairy roots on Solanum mammosum through genetic transformation. There is significant difference in the transformation efficiency (average number of days of hairy root induction) and transformation frequency for all strains of A. rhizogenes (P < 0.05). Both A. rhizogenes strain AR12 and A13 were able to induce hairy root at 6 days of co-cultivation, which were the fastest among those tested. However, the transformation frequencies of all five strains were below 30 %, with A. rhizogenes strain A4 and A13 showing the highest, which were 21.41 ± 10.60 % and 21.43 ± 8.13 % respectively. Subsequently, the cultures for five different hairy root lines generated by five different strains of bacteria were established. However, different hairy root lines showed different growth index under the same culture condition, with the hairy root lines induced by A. rhizogenes strain ATCC 31798 exhibited largest increase in fresh biomass at 45 days of culture under 16 h light/8 h dark photoperiod in half-strength MS medium. The slowest growing hairy root line, which was previously induced by A. rhizogenes strain A13, when cultured in optimized half-strength MS medium containing 1.5 times the standard amount of ammonium nitrate and potassium nitrate and 5 % (w/v) sucrose, had exhibited improvement in growth index, that is, the fresh biomass was almost double as compared to its initial growth in unmodified half-strength MS medium.     

Arabidopsis thaliana hairy roots for the production of heterologous proteins

To evaluate the ability of Arabidopsis thaliana hairy roots to produce heterologous proteins, hypocotyls were transformed with Rhizobium rhizogenes harbouring a green fluorescent protein gene (gfp) fused to a plant signal peptide sequence. Hairy root transgenic lines were generated from wild-type or mutant genotypes. A line secreted GFP at 130 mg/l of culture medium. Unlike as was previously found with turnip hairy roots, a His-tag was still attached to approximately 50?% of the protein. Control of the pH and addition of a protease inhibitor to the culture medium resulted in up to 87?% of the GFP retaining the His-tag. A. thaliana hairy roots expressing the human serpina1 (α-1-antitrypsin) gene secreted the protein, which was visible on a PAGE gel. Protein activity in the culture medium was demonstrated using an elastase inhibition assay. A. thaliana hairy roots can now be considered for the production of heterologous proteins, making it possible to mine the numerous genetic resources for enhancing protein production and quality.     

Establishment of Gymnema sylvestre hairy root cultures for the production of gymnemic acid

Gymnema sylvestre is an important medicinal plant that bears bioactive compound namely gymnemic acid. In the present study, G. sylvestre was transformed by Agrobacterium rhizogenes. Seedling explants namely roots, stems, hypocotyls, cotyledonary nodal segments, cotyledons and young leaves were inoculated with A. rhizogenes strain KCTC 2703. Transformed (hairy) roots were induced from cotyledons and leaf explants. Six transgenic clones of hairy roots were established and confirmed by polymerase chain reaction (PCR) and RT-PCR using rolC specific primers. Hairy roots cultured using MS liquid medium supplemented with 3 % sucrose showed highest accumulation of biomass (97.63 g l^?1 FM and 10.92 g l^?1 DM) at 25 days, whereas highest accumulation of gymnemic acid content (11.30 mg g^?1 DM) was observed at 20 days. Nearly 9.4-fold increment of biomass was evident in suspension cultures at 25 days of culture and hairy root biomass produced in suspension cultures possessed 4.7-fold higher gymnemic acid content when compared with the untransformed control roots. MS-based liquid medium was superior for the growth of hairy roots and production of gymnemic acid compared with other culture media evaluated (B5, NN and N6), with MS-based liquid medium supplemented with 3 % sucrose was optimal for secondary metabolite production. The current results showed great potentiality of hairy root cultures for the production of gymnemic acid.     

Plant regeneration, genetic fidelity, and active ingredient content of encapsulated hairy roots of Picrorhiza kurrooa Royle ex Benth.

Among five hairy root lines of Picrorhiza kurrooa that were established through Agrobacterium rhizogenes, one (H7) was selected for encapsulation due to high accumulation of picrotin and picrotoxinin (8.3 and 47.6 μg/g DW, respectively). Re-grown encapsulated roots induced adventitious shoots with 73 % frequency on MS medium supplemented with 0.1 μM 6-benzylaminopurine, following 6 months of storage at 25 °C. Regenerated plantlets had 85 % survival after 2 months. Regenerants were of similar morphotype having increased leaf number and branched root system as compared to non-transformed plants. The transformed nature of the plants was confirmed through PCR and Southern blot analysis. Genetic fidelity analysis of transformed plants using RAPD and ISSR showed 5.2 and 3.6 % polymorphism, respectively. Phytochemical analysis also showed that picrotin and picrotoxinin content were similar in hairy root line and its regenerants.