Stimulating effect of both 4’‐O‐methylnorbelladine feeding and temporary immersion conditions on galanthamine and lycorine production by Leucojum aestivum L. bulblets

Bulb cultures of Leucojum aestivum and L. aestivum ‘Gravety Giant’ were subcultured in medium containing the precursor 4’‐O‐methylnorbelladine (MN) at various concentrations [0 (control), 0.15 and 0.3 g/L]. The cultures were conducted in bioreactor RITA® and lasted for 15, 30, 40 and 50 days. The growth rate and the alkaloid accumulation in bulblets were studied. For this latter purpose, a purification method was developed. It comprised a highly selective solid phase extraction using on the one hand, UPTI‐CLEAN SI and SCX cartridges for plant extracts and on the other hand, 2H cartridges for culture media. Pure alkaloidal fractions were, thus, analyzed by LC‐ESI‐MS allowing the quantitative evaluation of galanthamine and lycorine from culture extracts. Precursor feeding along with temporary immersion conditions was found to significantly improve the accumulation of both galanthamine and lycorine. The maximal concentrations of galanthamine (0.81 mg/g DW) and lycorine (0.54 mg/g DW) in L. aestivum bulblets were reached, respectively, after 40 days of culture with 0.15 g/L of precursor and after 30 days of culture with 0.3 g/L of precursor. In L. aestivum ‘Gravety Giant’ bulb cultures, 0.3 g/L of precursor was the best condition for both galanthamine (0.6 mg/g DW after 50 days) and lycorine (1.13 mg/g DW after 30 days).     

Alkaloid patterns in Leucojum aestivum shoot culture cultivated at temporary immersion conditions

The alkaloid patterns in Leucojum aestivum L. shoot culture cultivated at temporary immersion conditions were investigated using gas chromatography-mass spectrometry. 18 alkaloids were identified, and galanthamine, hamayne and lycorine were dominant. The L. aestivum 80 shoot culture, cultivated at temporary immersion conditions, is a prospective biological matrix for obtaining wide range Amaryllidaceae alkaloids, showing valuable biological and pharmacological activities. The temperature of cultivation influenced enzyme activities, catalyzing phenol oxidative coupling of 4′-O-methylnorbelladine and formation of the different groups Amaryllidaceae alkaloids. Decreasing the temperature of cultivation of L. aestivum 80 shoot culture led to activation of para-ortho’ phenol oxidative coupling (formation of galanthamine type alkaloids) and inhibited ortho-para’ and para-para’ phenol oxidative coupling (formation of lycorine and haemanthamine types alkaloids).     

Temporary immersion systems for Amaryllidaceae alkaloids biosynthesis by Pancratium maritimum L. shoot culture

The alkaloid patterns of sea daffodil (Pancratium maritimum L.) shoot culture, cultivated in a temporary immersion cultivation system were investigated. The shoots accumulated maximal amounts of biomass (0.8 g dry biomass/L and Growth Index?=?1.6) at immersion frequency with 15 min flooding and 12 h stand-by periods. At this regime P. maritimum shoots achieved the highest degree of utilization of carbon source. Twenty-two alkaloids, belonging to narciclasine, galanthamine, haemanthamine, lycorine, montanine, tazettine, homolycorine and tyramine types were identified in intracellular and extracellular alkaloid extracts. The immersion frequency affected strongly the capacity of alkaloid biosynthesis in P. maritimum shoots and at the optimum conditions of cultivation, the total intracellular alkaloid content reached up to 3,469 μg/g dry biomass. The main biosynthesized alkaloids were haemanthamine (900.1 μg/g) and lycorine (799.9 μg/g). The obtained results proved that temporary immersion technology, as a cultivation approach, and P. maritimum shoots, as a biological system, are prospective for producing wide range bioactive alkaloids.     

Galanthamine production by Leucojum aestivum L. shoot culture in a modified bubble column bioreactor with internal sections

Shoot culture of summer snowflake (Leucojum aestivum L.) was successfully cultivated in an advanced modified glass‐column bioreactor with internal sections for production of Amaryllidaceae alkaloids. The highest amounts of dry biomass (20.8 g/L) and galanthamine (1.7 mg/L) were achieved when shoots were cultured at 22°C and 18 L/(L·h) flow rate of inlet air. At these conditions, the L. aestivum shoot culture possessed mixotrophic‐type nutrition, synthesizing the highest amounts of chlorophyll (0.24 mg/g DW (dry weight) chlorophyll A and 0.13 mg/g DW chlorophyll B). The alkaloids extract of shoot biomass showed high acetylcholinesterase inhibitory activity (IC₅₀ = 4.6 mg). The gas chromatography–mass spectrometry (GC/MS) profiling of biosynthesized alkaloids revealed that galanthamine and related compounds were presented in higher extracellular proportions while lycorine and hemanthamine‐type compounds had higher intracellular proportions. The developed modified bubble‐column bioreactor with internal sections provided conditions ensuring the growth and galanthamine production by L. aestivum shoot culture.     

Direct sowing of Coffea arabica somatic embryos mass-produced in a bioreactor and regeneration of plants

The effect of germination conditions on the morphology of Coffea arabica L. somatic embryos mass-produced in a 1-l temporary immersion bioreactor (RITA®) was studied with emphasis on direct sowing in soil. Using germinated embryos, direct sowing resulted in a highly successful conversion of embryos into plants. A culture density above 1600 embryos per 1-l bioreactor positively affected embryo morphology by causing higher embryonic axis elongation (+4–5?mm). At this density, the addition of a high concentration of sucrose (234?mM) 2 weeks before sowing promoted an increase in effective plant conversion in soil (78%) and a vigorous vegetative growth of the resulting plants. Furthermore, direct sowing reduced handling time to 13% and shelving area requirements to 6.3% of the values obtained by conventional acclimatization of plants developed on gel media.     

Adventitious shoot regeneration from in vitro leaf explants of <Emphasis Type="Italic">Fraxinus nigra</Emphasis>

In order to establish an attractive method for the production of valuable medicinal alkaloids (galanthamine and lycorine), the plants of Leucojum aestivum and L. aestivum ‘Gravety Giant’ grown in bioreactor RITA® were subjected to various concentrations of methyl jasmonate (MeJA), salicylic acid (SA), 1-aminocyclopropane-1-carboxylic acid (ACC) and 2-chloroethylphosphonic acid (ethephon) at different times of culture. The application of MeJA showed a negative effect on L. aestivum and L. aestivum ‘Gravety Giant’ plant growth. We observed that the incubation of plants during 168 h with 100 µM of MeJA resulted above two times lower F.W. (fresh weight) increments compared with control. While SA showed an inhibitory effect only on the growth of L. aestivum cultures. ACC and ethephon had a positive effect on both types of culture. Treatment with 50 µM of MeJA during 168 h stimulated galanthamine and lycorine biosynthesis in L. aestivum and L. aestivum ‘Gravety Giant’ cultures. In addition, the accumulation of galanthamine was increased when 10 µM of ACC were added to both types of culture. 10 µM of ACC stimulated also lycorine biosynthesis by L. aestivum ‘Gravety Giant’. The addition of 10 µM of ethephon had a positive effect only on lycorine production in plants of L. aestivum. SA promoted galanthamine and lycorine biosynthesis in tested plants. Indeed the highest galanthamine (0.8 mg/g dry weight: D.W.) and lycorine (1.53 mg/g D.W.) concentrations were observed in L. aestivum ‘Gravety Giant’ plants treated with 5 µM of SA during 10 h.     

Improving secondary embryogenesis in <Emphasis Type="Italic">Quercus robur</Emphasis>: application of temporary immersion for mass propagation

The effects of the culture system used for embryo proliferation were investigated with the aim of improving multiplication rates and somatic embryo quality in two embryogenic lines of Quercus robur derived from mature trees (B-17 and Sainza). Embryo proliferation medium was defined following comparison of five different semi-solid media, and the highest multiplication rates (based on the total number of embryos and number of cotyledonary-shaped embryos) were achieved with medium supplemented with 0.44 μM benzyladenine for both lines. Embryo proliferation on semi-solid medium was compared with that obtained by a temporary immersion system (TIS), in which four cycles with immersion frequencies of 1 min every 6, 8, 12 or 24 h were tested. TIS promoted a significant increase in proliferated embryo biomass, with the growth index (GI) two and four times higher than in semi-solid medium in B-17 and Sainza genotypes, respectively. An immersion cycle of 1 min every 8 or 12 h produced approximately 700 somatic embryos (B-17) and 1,500 somatic embryos (Sainza) per RITA^® bioreactor, with significant differences in the latter genotype with respect to gelled medium. TIS had also a significant effect on somatic embryo synchronization as it enabled a higher production of cotyledonary embryos (90%), which represents increases of 14% (B-17) and 20% (Sainza) with respect to gelled medium. For germination of embryos proliferated in TIS two maturation systems were applied: (1) culture in semi-solid medium containing 6% sorbitol or (2) culture by TIS (without sorbitol) at a frequency of 1 min immersion every 48 h. Germination ability was higher after maturation on sorbitol medium and plantlet conversion occurred in 48% (B-17) and 13% (Sainza) embryos. TIS produced large numbers of well-developed cotyledonary embryos, hence reduced the cost and labor.     

In sito galanthamine extraction during the cultivation of Leucojum aestivum L. shoot culture in two‐phase bubble column cultivation system

Two‐phase bioreactor cultivation system was developed and applied for in sito recovery of extracellular galanthamine during the cultivation of Leucojum aestivum L. shoot culture in a modified column bioreactor system. The inclusion of an external circulation column with adsorbent resin Amberlite XAD‐4 as a second phase, on the 21st day of the beginning of cultivation resulted in 1.25 folds increase in biomass accumulation and maximal amounts of accumulated galanthamine of 6 mg/L (3.1 mg/L intracellular and 2.9 mg/L extracellular). It was demonstrated that the inclusion of a second phase at the cultivation of the L. aestivum shoot culture in a bubble column bioreactor with internal sections redirected the alkaloid metabolism to galanthamine synthesis and inhibits the synthesis of hemanthamine and lycorine type alkaloids. Our research demonstrated that the application of the two‐phase cultivation systems could be an important tool to increase the yields of valuable secondary metabolites in plant tissue culture‐based bioprocess.     

ENDOGENOUS CYTOKININS IN THREE GENERA OF MICROALGAE FROM THE CHLOROPHYTA1

Nine axenic microalgal (Chlorophyta) strains from three genera (Protococcus, Chlorella, and Scenedesmus) were analyzed for endogenous cytokinins. Cytokinin‐like activity was detected using the excised cucumber cotyledon bioassay. Five strains showed no cytokinin‐like activity and four strains, low cytokinin‐like activity. Ethanolic extracts of the microalgae containing a mixture of deuterium‐labeled standards were purified using a combined DEAE‐Sephadex octadecysilica column and immunoaffinity column based on wide‐range specific mon‐oclonal antibodies and analyzed by HPLC linked to a micromass single quadrupole mass spectrometer with an electrospray interface and a photodiode array detector. There were similar trends in cytokinin profiles for the nine microalgal strains investigated, although concentrations did vary. Both isopentenyladenine and isopentenyladenosine were detected in all nine strains. cis‐Zeatin and cis‐zeatin riboside occurred at higher concentrations than the trans isomers, whereas trans‐zeatin‐O‐glucoside and trans‐zeatin riboside‐O‐glucoside were dominant over the cis isomers. Dihydrozeatin and its conjugates were not detected in any significant amounts. The aromatic benzyladenine always occurred at higher concentrations than benzyladenosine. The topolins were well represented with all three isomers (ortho, meta, and para) being detected, with ortho‐topolin and ortho‐topolin riboside occurring at higher concentrations than the other isomers. However, for the O‐glucosides, the meta isomers (meta‐topolin‐O‐glucoside and meta‐topolin riboside‐O‐glucoside) occurred at higher concentrations than the other isomers. No N‐glucosides were detected (isopentenyladenine‐9‐glucoside, zeatin‐9‐glucoside, dihydrozeatin‐9‐glucoside, benzyladenine‐9‐glucoside, ortho‐topolin‐9‐glucoside, and meta‐topolin‐9‐glucoside). Generally, zeatin and topolin conjugates were the dominant forms of isoprenoid and aromatic cytokinins, respectively. There was no distinct trend in the proportions of isoprenoid to aromatic cytokinins.     

Optimization of plantain (<Emphasis Type="Italic">Musa</Emphasis> AAB) micropropagation by temporary immersion system

The positive and reliable effect of temporary immersion systems on in vitroshoot proliferation was already proved for different plant genera and it is now presented as an alternative for plantain micropropagation. Some culture parameters affecting the efficiency of the twin flasks system or temporary immersion bioreactor (Escalona et al., 1999) were investigated. Three different cytokinins (benzyladenine, thidiazuron and meta-topolin) were added to the culture medium and meta-topolin at a concentration of 4.4 M was proved to be the most efficient. Successive subcultures (28 days per subculture) were performed on medium supplemented with meta-topolin, revealing a decrease in multiplication after the 6th subculture. Multiplication rate was not changed within the ranges of immersion times (4, 12 or 22 min) and frequencies (every 3, 5 or 7 h) tested. The size of the bioreactor (250, 1,000, 5,000 or 10,000 ml) and the volume of medium per inoculum (10, 20 or 30 ml) were also evaluated and appeared to have an influence on the multiplication. A proportion of 25–100 ml of headspace per inoculum and 30 ml of medium per inoculum resulted in a multiplication rate > 13 in 28 days.     

Regeneration of somatic embryos in Theobroma cacao L. in temporary immersion bioreactor and analyses of free amino acids in different tissues

The present study aimed at developing temporary immersion bioreactor techniques for multiplication of cacao somatic embryos. Temporary Immersion System (TIS), i.e. flooding of plant tissue at regular time intervals provides an efficient way to propagate plants. Somatic embryos were regenerated in twin flask bioreactors. The TIS proved to be suitable for mass regeneration of somatic embryos and for their subsequent direct sowing. The number of embryos after 3 months of culture was significantly higher in TIS cultures than in the solid medium variant. TIS also improved embryo development regarding the conversion to torpedo shaped forms. Matured embryos derived from TIS and pre-treated with 6% sucrose were converted into plants after direct sowing. Additionally to the influence of culture conditions on the development of somatic embryogenesis the content and composition of free amino acids were analysed. The content of free amino acids in somatic embryos rose as immersion frequency increased. The endogenous free GABA content in embryogenic callus was significantly higher than in non-embryogenic callus.     

Effects of ethylene on somatic embryogenesis and galanthamine content in <Emphasis Type="Italic">Leucojum aestivum</Emphasis> L. cultures

The influence of ethylene on in vitro morphogenesis of Leucojum aestivum and galanthamine accumulation was studied. Calli were cultivated on Murashige and Skoog (MS) medium supplemented with 25 μM 4-amino-3,5,6-trichloropicolinic acid (picloram) and 0.5 μM benzyladenine (BA). During incubation under these conditions, callus cultures produced ethylene (9.5 nL/g fresh weight: F.W.) whereas no ethylene was found in somatic embryos cultivated on medium supplemented with 0.5 μM α-naphthalene acetic acid (NAA) and 5 μM zeatin. Application of the precursor of ethylene 1-aminocyclopropane-1-carboxylic acid (ACC) increased ethylene production in both cultures, and decreased callus growth by a factor of 1.2, whereas callus growth was enhanced by a factor of 1.1 in the presence of an inhibitor of ethylene silver nitrate (AgNO₃) or by a factor of 1.2 with an absorbent potassium permanganate (KMnO₄). ACC enhanced the induction of somatic embryos and the development of globular embryos. Removal of ethylene by KMnO₄ during somatic embryogenesis led to the development of plants with greater length. Silver thiosulphate (STS) induced galanthamine production in callus cultures (0.1% dry weight), whereas ACC induced galanthamine production in somatic embryo cultures (2% dry weight).     

Improvement of somatic embryogenesis in highland-papaya cell suspensions

Axillary buds (2 mm) from 3-year-old Carica pubescens Lenné et Koch (highland papaya) fruit-bearing plants grown in the greenhouse were cultivated in NN-medium supplemented with different growth regulators naphthaleneacetic acid and indoleacetic acid in combination with Zeatin, benzyladenine, Kinetin and thidiazuron. Several responses were observed within 2–3 months; namely, sprouting of the preformed axillary buds, bud branching into multiple shoots, callus formation at the basal end of the explant and somatic embryogenesis in the preformed callus. Somatic embryogenesis was frequent in most of the tested growth regulator combinations, with the exception of thidiazuron which showed no effect. A much higher yield of somatic embryos could be obtained in suspensions. Somatic embryogenesis was enhanced by the occurence of adventive embryogenesis on single embryos as globular embryo clusters. This was observed in cell suspensions initially grown in a WPM-medium with 2,4-dichlorophenoxyacetic acid, or in combination with benzyladenine or zeatin, for 6 days, then maintained in a growth regulator-free medium under continuous agitation (50 RPM) on an orbital shaker for 3 months. Single cells grown in the absence of 2,4-dichlorophenoxyacetic acid did not initiate embryogenesis and de-differentiated into callus. Plantlets were recovered after transfer of mature embryos from cell suspensions into Magenta flasks. In a second subculture, adventitious embryogenesis occurred spontaneously in clusters at the globular embryo stage under the same growth conditions, yielding a high number of embryos. The culture conditions described above allowed initiation of a large number of somatic embryos directly from cell suspensions through adventive somatic embryogenesis and indirectly from callus on axillary buds.Abbreviations 2,4-d dichlorophenoxyacetic acid - CH casein enzymatic hydrolysate - BA benzyladenine - FAA formalin:acetic acid:alcohol - Glu l-glutamine - IAA indoleacetic acid - NAA naphthaleneacetic acid - NN Nitsch and Nitsch-medium (1969) - TDZ thidiazuron - SD standard deviation     

Acetylcholinesterase inhibitory activity of some Amaryllidaceae alkaloids and Narcissus extracts

Amaryllidaceous plants produce pharmacologically active alkaloids, galanthamine being the most interesting for its use in the treatment of Alzheimer's disease as a cholinesterase inhibitor. The aim of this work was to test 23 pure Amaryllidaceae alkaloids and 26 extracts from different species of the genus Narcissus for their acetylcholinesterase inhibitory activity using galanthamine as a reference. Only seven alkaloids, belonging to the galanthamine and lycorine skeleton types, exhibited such an effect, sanguinine being the most active, even more than galanthamine. All the extracts with the highest acetylcholinesterase inhibitory activity contained galanthamine except that of N. assoanus, a lycorine type alkaloid-bearing species.     

Cycle characteristics in a temporary immersion bioreactor affect regeneration,morphology, water and mineral status of coffee (<Emphasis Type="Italic">Coffea arabica</Emphasis>) somatic embryos

Mass regeneration of Coffea arabica L. somatic embryos using a temporary immersion bioreactor was improved by optimizing the immersion cycles, i.e. both the duration and the frequency of immersions. It was demonstrated that increasing the frequency of short immersions (1 min immersions every 24, 12 and 4 h) stimulated embryo production (480, 2,094 and 3,081 embryos/1-l bioreactor, respectively) and improved quality (60, 79 and 85 of torpedo shaped embryos, respectively). On the other hand, an increase in the immersion duration (1, 5 and 15 min) inhibited embryo regeneration (from 2,094 to 428 embryos per 1-l bioreactor) and negatively affected their morphological quality (from 79 to 49 torpedo-shaped embryos) and the conversion of embryos into plants (from 70 to 33). A 15 min immersion duration applied every 4 h produced hyperhydric symptoms in 90 of the embryos. Hyperhydric embryos were characterized by higher fresh weight and water content, more negative values for water potential and higher K⁺ content when compared to normal torpedo-shaped embryos. Micrographs showed structural problems in the globular stage, such as the existence of an irregular epidermis and an absence of reserves. Whatever the immersion cycle used, the somatic embryos exhibited water and mineral characteristics very different from those of their zygotic counterparts. The use of 1 min immersions every 4 h led to the production of the largest quantities of torpedo-shaped embryos without hyperhydricity that succeeded in regenerating plants (75 conversion).     

Alkaloids biosynthesis by <Emphasis Type="Italic">Pancratium maritimum</Emphasis> L. shoots in liquid culture

The process of alkaloid biosynthesis by Pancratium maritimum shoot culture, cultivated under submerged conditions, was investigated. Twenty-two compounds of different structural types of the Amaryllidaceae alkaloids (tyramine, narciclasine, galanthamine, haemanthamine, lycorine, pancracine, tazettine and homolycorine types) were detected in the studied samples from biomass and cultural liquid. Dominant compounds in the shoots were of tyramine, lycorine and haemanthamine types, whereas in the culture media were found mainly lycorine type compounds. Based on the multi-metabolic estimation of the alkaloid metabolism and physiological peculiarities, liquid cultures of P. maritimum shoots could be defined as prospective biological systems for producing bioactive molecules with acetylcholinesterase inhibitory and apoptotic activities.     

Plant regeneration from callus and protoplast cultures of Helianthus giganteus L.

Summary Methods of plant regeneration from callus and protoplasts of Helianthus giganteus L. are described. Embryogenic callus was obtained from leaf explants and plants were regenerated from these calli on MS media with different combinations of benzyladenine and naphtaleneacetic acid. Leaf protoplasts isolated from in vitro grown plants formed somatic embryos when cultured in agarose solidified droplets of V-KM medium containing benzyladenine and naphtaleneacetic acid. Embryos developed into plantlets on media with reduced auxin contents. Regenerated plants were successfully planted in soil.Abbreviations BA benzyladenine - IAA indoleacetic acid - MS Murashige and Skoog medium - NAA naphtaleneacetic acid - V-KM protoplast culture medium of Binding and Nehls     

Somatic embryogenesis in Araujia sericifera

This work presents the preliminary results of in vitro studies with Araujia sericifera, which is cultivated for ornamental purposes. Immature seeds from wild plants were used to start the cultures. Somatic embryos and friable embryogenic calluses were obtained from white cotyledons in media containing naphthaleneacetic acid and benzyladenine or 2,4-dichlorophenoxyacetic acid. Plants were regenerated from these somatic embryos.Cell suspensions obtained from friable calluses cultured in M1 modified medium showed a considerable growth capacity. The packed cell volume was doubled in about 15 days of culture at the exponential phase. the results obtained may be used to design further experiments with the aim of improving somatic embryogenesis.Abbreviations NAA -naphthaleneacetic acid - BA benzyladenine - IBA indolebutyric acid - 2,4-d 2,4-dichlorophenoxyacetic acid     

A simple method for mass propagation of Spathiphyllum cannifolium using an airlift bioreactor

Summary A method for the micropropagation of Spathiphyllum cannifolium is presented using shoot tip proliferation onto Murashige and Skoog (MS) medium supplemented with different plant growth regulator concentrations and combinations. The proliferation responses were significantly influenced by the cytokinin type and concentrations. Supplementation of the medium with benzyladenine (BA; 4.44–13.32 μM) increased the shoot proliferation rate significantly as compared to other treatments. When cytokinins were used with auxin (indole-3-butyric acid, IBA and naphthalene acetic acid. NAA), the number of shoots per explant increased in comparison with treatments with BA alone. The largest number of shoots, 9.3 per explant, was obtained with 13.32 μM BA and 4.9 μM IBA. Different MS medium strengths and sucrose concentrations were used with the aim to stimulate in vitro shoot proliferation. Full MS medium with 30 gl⁻¹ sucrose was found to be suitable for shoot tip culture of Spathiphyllum. Comparative studies between gelled medium and bioreactor culture [continuous immersion (with or without net) and temporary immersion in liquid media using ebb and flood] revealed that shoot multiplication and growth were more efficient in continuous immersion (with net) bioreactor with low cytokinin-supplemented media. Plantlets from the bioreactor were cultured hydroponically for 30 d and 100% of plants were rooted and acelimatized successfully. Rapid and efficient multiplication rate in bioreactor and successful transfer to greenhouse makes this protocol suitable for large-scale multiplication of this important foliage plant.     

Anticholinesterase and mutagenic evaluation of in vitro-regenerated Agapanthus praecox grown ex vitro

Beyond establishing micropropagation protocols for medicinal plants, it is important that the efficacy and safety of propagated plants be ascertained for these plants to be accepted for use in traditional medicine. The use of propagated plants could alleviate/reduce over-exploitation of wild populations. The present study evaluated the anticholinesterase and mutagenic properties of 1-yr-old tissue culture-derived Agapanthus praecox grown ex vitro and naturally grown mother plants. The tissue culture-derived plants were regenerated using different plant growth regulators. A dose-dependent inhibition of acetylcholinesterase (AChE) enzyme was observed in all the tissue culture-derived and naturally grown mother plants. The leaf extract of tissue culture-derived plants regenerated with a combination of benzyladenine (BA) and thidiazuron (TDZ) demonstrated a significantly low AChE-inhibitory activity. Conversely, the root extract of plants regenerated with BA alone demonstrated the highest AChE-inhibition activity (IC₅₀ = 0.20 mg/mL) when compared to extracts from other treatments and the naturally grown mother plants. None of the samples were found to be mutagenic in the absence of metabolic activation. The present study indicated that regenerated plants could be used as potent substitutes for naturally grown plants in traditional medicine. However, the choice of treatment used during micropropagation operation may significantly influence the therapeutic potential of regenerated plants, even after 1 yr of growth.