Growth of Cephalotaxus harringtonia plant-cell cultures

Summary Cell cultures of Cephalotaxus harringtonia were examined to characterize growth kinetics. The requirement for an undefined medium supplement (coconut water) was eliminated by maintaining high cell concentrations in semicontinuous and batch growth. Sucrose fed to batch-cultured cells was completely hydrolyzed and a diauxic growth pattern was observed corresponding to first glucose and then fructose uptake. Examination of increases in cell concentrations on the basis of fresh and dry weight showed that a substantial lag period existed between the initiation of substrate uptake and increases in cell volume. Specific growth rates were highest during periods of glucose uptake, but cell yields were comparable for the two sugars. In contrast, studies with glucose or fructose as the sole carbon source indicated that cell yields were significantly lower with fructose but specific growth rates were comparable for the two sugars.Offprint requests to: P. J. Westgate     

Approximation of continuous growth of Cephalotaxus harringtonia plant cell cultures using fed-batch operation

In Cephalotaxus harringtonia plant cell cultures, periods of batch growth that are limited by hexose uptake are too short to make an accurate estimate of the Monod saturation constant. Continuous cultures are infeasible on a laboratory scale, and semicontinuous cultures require too frequent sampling. Fed-batch operation, consisting of intermittent removal from a culture that is fed continuously, was investigated as a possible solution to these problems. For a constant feed rate, computer simulations showed that a steady state can be achieved which is useful for studying growth at different specific growth rates. In terms of the dilution rate it was confirmed that the operation is essentially equivalent to continuous culture when the samples represent a small fraction of the total culture volume. Experiments with glucose or fructose as the carbon source were carried out in shake flasks fed by a multichannel syringe pump. Results indicate that Monod kinetics based on medium glucose levels cannot adequately describe growth under these conditions. Monod's expression for specific growth rate using internal glucose concentration gives an improved correlation.     

Effects of non-frozen cold storage on the growth,organogenesis and secondary metabolism of callus cultures

Callus tissues derived from chilling-tolerant herbaceous plant, Atractylodes lancea, Atropa belladonna, Bupleurum falcatum, Dioscorea tokoro, Lithospermum erythrorhizon and Phytolacca americana could be cold-stored at 4°C for three months or more, whereas those from chilling-sensitive herbaceous plants such as Datura innoxia and Perilla frutescens var. crispa and a deciduous tree, Mallotus japonicus, could not survive after cold storage for two to three months. Tobacco callus cultures could be stored at 4°C for two or four months depending on a callus strain. The effect of cold storage on secondary metabolite production varied. Nicotine and betalain production suffered from cold storage of tobacco and Phytolacca americana callus cultures, respectively. However, production of anthocyanin in cultures of Mallotus japonicus and Bupleurum falcatum and shikonin derivatives in Lithospermum erythrorhizon callus was affected very little. Root-forming ability was retained for more than one year in cold-stored callus tissues of Bupleurum falcatum, while the control callus tissues maintained at 25°C completely lost the organogenetic ability six months after the first subculture.     

Establishment and characterization of long-term embryogenic maize callus and cell suspension cultures

Friable callus (type 2) was selected from three genotypes (A188, hybrid A188 × B73, and hybrid B73 × A188) of Zea mays L. The three genotypes of type 2 callus doubled in fresh weight after 1 week, and growth was better on N6 than on Murashige-Skoog (MS) medium. Type 2 callus of hybrid B73 × A188 was maintained in culture longer than A188 type 2 callus, and it regenerated higher numbers of plants than the other two genotypes. Type 2 callus of the hybrid B73 × A188 was used to establish cell suspensions. Suspension cells initially grew better on N6 than on MS medium, but after several months of subculture, cells in either N6 or MS medium grew at similar rates. Suspension cells were in mid-log phase by 5–7 days and in stationary phase by about 10 days depending on inoculum density. Growth rate was optimal when cells were transferred at mid-low phase and dry weight of the suspension cells increased at least 10-fold during a 10-day period. Suspension cells from 9-month-old cultures plated on solid medium regenerated plants at an efficiency similar to that of the friable type 2 callus but with more phenotypic abnormalities. Thus, cell suspensions derived from type 2 B73 × A188 callus, in culture for over 1 year, were capable of regenerating plants when 9-months old.     

Establishment of hairy root cultures of Psoralea species

Eight Psoralea species (Leguminosae) were inoculated with Agrobacterium rhizogenes, strains 8196 and 9402. Hairy roots were only induced by strain 9402. Attention was focussed on Psoralea lachnostachys. Transformed roots grew very rapidly in Gamborg B5 liquid medium with a doubling time of the culture of 38 hours. Whatever the culture conditions, the two furanocoumarins usually found in roots of Psoralea plants, psoralen and angelicin, were not detected in cultured transformed and non transformed roots even when some chitosan was added to the medium. However, 669 g.g^–1 dry matter of psoralen and 215 g.g^–1 dry matter of angelicin were found in roots from soil grown plants. A possible translocation of these compounds from the aerial parts to the roots is suggested.Abbreviations B5 medium Gamborg's medium (Flow laboratories's formulation) - NAA Naphthaleneacetic acid     

Plant regeneration from callus cultures of several soybean genotypes via embryogenesis and organogenesis

Using callus derived from immature embryos, regeneration of viable plants was obtained in soybean (Glycine max (L.) Merr.). Depending on the composition of the medium, regeneration occurred via embryogenesis or via organogenesis. Embryogenesis resulted when embryos were plated on Murashige and Skoog (MS) medium containing 43 M -naphthaleneacetic acid. In work with the cultivar Williams 82, the addition of 5.0 M thiamine HCl increased embryogenesis from 33% to 58% of the embryos plated. Addition of 30 M nicotinic acid to the MS medium enhanced embryogenesis further to 76%. Organogenesis was obtained when medium containing 13.3 M 6-benzylaminopurine, 0.2 M and -naphthaleneacetic acid and four times the normal concentration of MS minor salts was used. Histological studies of these cultures confirmed the organogenic and embryogenic nature of the cultures, by demonstrating the formation of shoot buds and somatic embryos, respectively. Similar responses were obtained in all 54 genotypes tested in this manner. The cultures retained the ability to regenerate complete plants for at least 12 months and 12–15 subcultures. Seeds have been obtained from several regenerated plants and when grown in the field these produced normal-appearing fertile plants.Abbreviations BAP 6-benzylaminopurine - 2,4-D 2,4-dichlorophenoxyacetio acid - GA₃ gibberellic acid - IAA indole-3-acetic acid - IBA indole-3-butyric acid - MS Murashige and Shoog (1962) medium - NAA -naphthaleneacetic acid - picloram 4-amino-3,5,6-trichloropicolinic acid     

Stevioside biosynthesis by callus,root, shoot and rooted-shoot cultures in vitro

Leaf explants of Stevia rebaudiana Bertoni (Compositae), an herb which produces the sweet ent-kaurene glycoside stevioside, were cultured in Murashige and Skoog medium with vitamins, sucrose (30 g l^–1), agar (0.9% w/v) and supplemented with naphthaleneacetic acid (NAA, 0.5 mg l^–1) and benzylaminopurine (BAP, 0.5 mg l^–1). These conditions yielded friable callus cultures. Differentiation of the callus tissue was then achieved by eliminating the agar and modulating the medium's hormone concentrations. Thus, medium containing increased auxin concentration (1.0 mg l^–1) and no cytokinin or increased cytokinin (1.0 mg l^–1) and no auxin yielded root or shoot cultures respectively. Supplementation of the shoot medium with NAA (1.0 mg ml^–1) induced shoot cultures to grow roots thereby differentiating into rooted-shoot cultures. Only the rooted-shoot cultures tasted sweet. Feedings of [2-¹⁴C]acetic acid to callus, shoot or rooted-shoot cultures demonstrated that only the rooted-shoot cultures are capable of de novo biosynthesis of the aglycone moiety of stevioside (steviol). In addition, [methyl-³H(N)steviol feedings to shoot or rooted-shoot cultures illustrated that both types of cultures are capable of the glycosylation reaction. The ability of these tissues to glycosylate steviol to stevioside was also demonstrated employing crude enzyme preparations derived from shoot or rooted-shoot cultures. These results suggest that stevioside biosynthesis is a function of tissue differentiation since both roots and leaves are required for cultured S. rebaudiana to biosynthesize stevioside from acetate, while the final biosynthetic steps can be performed at all levels of differentiation.     

Establishment and growth characteristics of Glycyrrhiza glabra hairy root cultures

Hairy root cultures of Glycyrrhiza glabra producing considerable amounts of phenolic compounds were successfully established by using Agrobacterium strain C58C18(pRT GUS 104). The effect of phosphate, ammonia, nitrate and ferric-EDTA concentrations of culture medium on growth and total phenolics production of the cultures were studied. By employing statistical experimental design and linear regression analysis an improved B5 medium (B50-M) could be developed. When cultivating G. glabra hairy roots in B50-M medium we were able to obtain 9 g dried roots/l in 25 days which was twice as much as when using the initial B50 medium. According to tentative analyses the cultures did not contain glycyrrhyzin, but they produced liquiritigenin and isoliquiritigenin. The production of total phenolic substances (mg g^-1 dw) was higher in the improved medium resulting in significantly higher volumetric productivity (mg phenolic compounds l^-1). This will further enable the extraction and identification of the phenolic compounds produced by the cultures.     

New approaches for shoot production and establishment of in vitro root cultures of Cleome rosea Vahl.

Alternative methods for in vitro shoot culture of Cleome rosea, a Brazilian herbaceous species with ornamental value and medicinal potential, were evaluated. A protocol for rapid in vitro multiplication of roots, a valuable source of medicinal compounds, was also developed. Stem explants were cultured in liquid media (continuous immersion and paper bridge), while root explants were cultivated in continuous immersion and on solidified media. The highest numbers of shoots, 20 ± 4.6 shoots/explant, were obtained from stem explants incubated in a continuous immersion system in a liquid medium supplemented with 2.2 μM BA. Root explants cultivated in liquid media produced only hyperhydrous adventitious shoots. However, these explants generated 5.8 ± 0.8 shoots/explant by indirect organogenesis when cultivated on solidified medium supplemented with 2.2 μM BA. In addition, root multiplication was achieved in liquid medium in the presence of α-naphthaleneacetic acid. Adventitious shoots developed on newly formed roots when inoculated on solidified medium supplemented with 2.2 μM BA. Shoot microcuttings developed roots when transferred onto solidified MS medium without growth regulators. Rooted microcuttings were efficiently acclimatized when transferred ex vitro.     

Valepotriates accumulation in callus, suspended cells and untransformed root cultures of Valeriana glechomifolia

Summary Valeriana glechomifolia is an endemic species of southern Brazil, capable of accumulating, in all of its organs, the terpene derivatives known as valepotriates, the presumed sedative components of the roots of pharmaceutically used species of Valeriana. In vitro cultures of the plant were established and the accumulation of acevaltrate, didrovaltrate, and valtrate in callus, cell suspension, and untransformed root cultures was studied. Leaves of in natura plants and roots of micropropagated plantlets were used as the explants for callus induction and root culture establishment, respectively, on Gamborg B5 basal medium supplemented with 2,4-dichlorophenoxyacetic acid (2,4-D) alone or with kinetin (KIN). Culture growth and secondary metabolite yields were enhanced with 2,4-D (4.52μM) and KIN (0.93μM). Maximum valepotriate contents, quantified by HPLC, of acevaltrate (ACE) 2.6mg g⁻¹ DW, valtrate (VAL) 10.2mgg⁻¹ DW, and didrovaltrate (DID) 2.9mg g⁻¹ DW were observed in root cultures after 7–8wk of culture.     

Establishment and characterization of photosynthetic hairy root cultures of Datura stramonium

Twelve different lines of Datura stramonium (normal and hairy) root cultures were subjected to conditions which induce photoautotrophy. Two of the hairy root lines responded to induction, showing clearly a diminished growth rate when compared to heterotrophic cultures, an increase in chlorophyll, a net O₂ evolution, CO₂ fixation, and de novo synthesis of the ribulose 1,5 biphosphate carboxylase enzyme. A time course of growth and tropane alkaloid levels in the tissue and medium, revealed a correlation between the development of the photosynthetic apparatus and the increase in scopolamine. Although normal cultures did not grow photosynthetically, they showed some greening response under the first step of the induction. The correlation between development of photosynthesis and increase in scopolamine synthesis were corroborated with normal root cultures. This experimental model is used for the basic study of the regulatory enzymes involved in the biosynthesis of tropane alkaloids, as well as for the study of their mechanisms of transport.     

Control of root and shoot-bud formation from potato tuber tissue cultured in vitro

Comparative studies on the control of root and shoot-bud formation and plant regeneration have been undertaken in discs (1 × 6 mm in diameter) excised from tubers of potato ( Solanum tuberosum L. cv. Irish Cobbler) cultured in vitro. The results clarified that the optimal culture conditions for shoot-bud formation were quite different from those for root formation and, in conclusion, that (1) shoot-buds were produced when cultured in modified White's medium containing 0.25 M mannitol with 2.3 μ M zeatin and 0.57 μ M indole-3-acetic acid (IAA) at 20°C under relatively high light irradiation, while (2) roots were readily formed when cultured in modified White's medium containing 29 m M sucrose with 4.7 μ M kinetin plus 1.7 μ M IAA at 30°C in darkness.     

Establishment of Aster sedifolius and Aster caucasicus callus cultures as a potential source of antioxidants

Abstract

Callus cultures were established for Aster sedifolius and Aster caucasicus, two Aster species used in natural medicine for their anticancer, antibacterial and antiviral activities attributed to the high content of antioxidant compounds such as polyphenols and ascorbate. The effects of growth medium and light condition on the induction and growth rate of callus from leaf, petiole and root explants are reported. Callus induction and proliferation depended on the genotype and the experimental conditions. In particular, a profuse callus culture was obtained from leaf explants grown in the light on medium supplemented with 2,4-D (0.1 mg l^?1) for A. caucasicus and on medium supplemented with 2,4-D (0.44 mg l^?1) plus 6-benzil-ammino-purine (BAP) (0.22 mg l^?1) for A. sedifolius. The content of total polyphenol and ascorbic acid was estimated in leaf and petiole explants of in vivo plants and in the relative derived calli. In calli, polyphenol content was lower than in the corresponding in vivo organs. Furthermore, the total ascorbic acid content decreased in calli while the reduced ascorbic acid pool increased. These findings demonstrate that Aster callus cultures produce antioxidant compounds and as such might be a model system to investigate the regulation and production of these important metabolites.     

Mitochondrial activity during shoot formation and growth in tobacco callus

Mitochondria isolated from tobacco ( Nicotiana tabacum L. cv. Wisconsin 38) callus growing on either shoot-forming or non-shoot forming medium show an increase in state 3 and state 4 respiration and a drop in respiratory control and ADP/O ratios after subculture. the protein content of the mitochondria fraction and the activity of succinate dehydrogenase, malate dehydrogenase, cytochrome c oxidase and catalase also increase after subculture but there is no apparent difference between shoot-forming and non-shoot-forming tissue. For mitochondria assayed at their native osmolarities, a trend of higher respiration rates and respiratory control as well as lower levels of cyanide-resistant respiration was observed for shoot-forming tissue. Generally, differences were greatest after day 9 in culture, the time during which primordia formation occurred in the shoot-forming callus. These patterns are in concert with the view that the shoot-forming process has a high energy requirement which must be realized during the time of primordia formation.     

Somatic embryogenesis and plant regeneration from leaf, root and stem-derived callus cultures of Areca catechu

Plant regeneration through somatic embryogenesis of Areca catechu L. was established using leaf, root and stem segments as explants. Embryogenic callus was induced and maintained on medium supplemented with 2,4-dichlorophenoxyacetic acid (2,4-D) or 3,6-dichloro-2-methoxybenzoic acid (dicamba) at concentrations 2, 4, 6 and 8 mg dm⁻³ in darkness. Somatic embryos were found on primary callus in the presence of 2 and 4 mg dm⁻³ dicamba and during subculture on 2 – 8 mg dm⁻³ 2,4-D or 2 – 4 mg dm⁻³ dicamba-containing media. Plantlet conversion from embryos was successfully achieved on growth regulator-free medium. The plants grew well when transplanted to containers in shaded greenhouse.     

Establishment of callus and cell suspension cultures of Corydalis saxicola Bunting, a rare medicinal plant

An efficient procedure has been developed for callus induction and cell suspension cultures of C. saxicola for the first time. Explant selection was carried out among leaf, stem and root to select a suitable type of explants capable of higher callus formation. Leaf explants thus selected showed maximum response to callus induction (67.1%). Modified B5 medium supplemented with 0.5 mg l(-1) 2,4-D plus 2 mg l(-1) BA was the most favorable medium for callus formation with the highest induction rate (94.8%) and greatest fresh weight of callus (1.7 g per explant). Cell suspension cultures were established by transferring 2-8 g fresh callus to 80 ml liquid B5 medium. An inoculum size of 8 g produced the greatest biomass accumulation, dehydrocavidine and berberine productions, which was 13.1 g l(-1), 8.0 mg l(-1) and 4.1 mg l(-1), respectively. In response to various sucrose concentrations from 10 g l(-1) to 80 g l(-1), cultures with 60 g sucrose l(-1) not only produced the highest dry biomass (18.5 g l(-1)) but also the highest formation of dehydrocavidine (11.6 mg l(-1)) and berberine (7.6 mg l(-1)). These prepared cell suspension cultures provided a useful material for further regulation of alkaloid biosynthesis and for enhanced production of valuable alkaloids on a large scale.     

Establishment of callus and cell suspension cultures of raspberry (Rubus idaeus cv. Royalty)

Callus cultures were initiated from leaf sections of raspberry (Rubus idaeus L.) cv. Royalty. Explants from younger leaves produced significantly more calli than those from older leaves. Anderson's salt mixture was more efficient for callus induction than the Murashige-Skoog medium. The best propagation and growth of calli was observed on Anderson's medium supplemented with 9 M 2,4-dichlorophenoxyacetic acid, 4.9 M indolebutyric acid and 4.9 M 6-(dimethylallylamino)-purine. During a 28-day period, the fresh weight of calli increased approximately five times. The same medium without agar was used for establishing cell suspension cultures. Fresh weight of cells increased four times and dry weight approximately doubled during 10 days of culture.Abbreviations 2,4-d 2,4-dichlorophenoxyacetic acid - 2iP 6-(dimethylallylamino)-purine - IBA indolebutyric acid - MS Murashige & Skoog basal salt medium     

Establishment of callus,cell suspension and shoot cultures of Leonurus cardiaca L. and diterpene analysis

Summary Callus cultures, cell suspension cultures and shoot cultures of Leonurus cardiaca L. (Motherwort) were established and growth conditions optimized. Shoot cultures showed constant growth whether in the dark or under continuous light, accumulating varying amounts of the furanic labdane diterpenes leosibiricin, preleosibirin, leosibirin and isoballotenol acetate, which are also present in the soil-grown plants. Only traces of leosibiricin were detected in callus cultures, while cell suspension cultures did not produce any furanic diterpenes. A small amount of furanic labdane diterpenes was found in the medium of shoot cultures. Callus and shoot culture induction of several other Lamiaceae species is also described.Abbreviations 2 4-D 2,4-dichlorophenoxyacetic acid - BAP benzylaminopurine - GA₃ gibberellic acid - HPLC high pressure liquid chromatography - NAA naphthyl acetic acid - TLC thin layer chromatography     

Metabolism of 2,4-dichlorophenoxyacetic Acid in soybean root callus and differentiated soybean root cultures as a function of concentration and tissue age

The metabolism of [1-¹⁴C]2,4-dichlorophenoxyacetic acid (2,4-D) in soybean (Glycine max [L.] Merrill var. Amsoy) root callus and in differentiated soybean root cultures was investigated as a function of pesticide concentration and age of tissue. The chronological age of the tissue was found to be correlated with the mitotic index which reached a peak at 2 weeks and then declined. The metabolism of 2,4-D changed with age of the root callus tissue. The amount of free 2,4-D found in 3-week-old root callus tissue rapidly increased as the concentration of 2,4-D in the medium was increased from 10⁻⁶ to 10⁻⁵ molar, whereas the low level of aqueous (glycosides) and ether soluble metabolites (2,4-D amino acid conjugates) increased slowly. With 9-week-old root callus tissue, the amount of free 2,4-D remained at a relatively low, constant level (saturation level) as the concentration of 2,4-D in the medium increased. Under these conditions the aqueous metabolites increased only slightly but the ether fraction (2,4-D amino acid conjugates) rapidly increased. Thus, the older root callus tissue appeared to regulate the level of free 2,4-D at about 4 nanomoles per gram by converting any excess 2,4-D into amino acid conjugates.

In 3-week-old, differentiated root cultures the metabolism of 2,4-D closely paralleled the metabolism found in the older 9-week-old callus tissue. The saturation level of free 2,4-D found in this tissue was only about 1 to 2 nanomoles per gram.