Gradual Depletion of 2,4-D in the Culture Medium for Indirect Shoot Regeneration from Leaf Explants of Camellia sinensis (L.) O. Kuntze

Adventitious shoot regeneration via callus phase from in vitro leaf explants is reported for the first time in tea. Callus was obtained on Murashige and Skoog medium supplemented with varied concentrations of 2,4-dichlorophenoxyacetic acid (2,4-D) (2.5, 5.0, 7.5 and 10.0 mg/l). Rhizogenesis was observed at all concentrations of 2,4-D. Adventitious shoot buds developed indirectly on leaf explants after prolonged culture for 16 weeks on medium supplemented with 10.0 mg/l 2,4-D. GC analysis of the medium and the tissues at different stages of development showed that specific levels of 2,4-D in the tissue were responsible for morphogenesis. Shoot buds developed on rhizogenic calli, only when 2,4-D declined to undetectable or negligible concentrations in the tissue probably due to detoxification and metabolism. Alternatively, shoot buds could also be evoked when rhizogenic calli were transferred to medium supplemented with low concentration of 2,4-D (1.5 mg/l). The adventitious nature of the shoots was confirmed through histological studies.     

In vitro plant regeneration of Aster scaber via somatic embryogenesis

We established an in vitro plant regeneration system via somatic embryogenesis of Aster scaber, an important source of various biologically active phytochemicals. We examined the callus induction and embryogenic capacities of three explants, including leaves, petioles, and roots, on 25 different media containing different combinations of α-naphthalene acetic acid (NAA) and 6-benzyladenine (BA). The optimum concentrations of NAA and BA for the production of embryogenic calli were 5.0 μM and 0.05 μM, respectively. Media containing higher concentrations of auxin and cytokinin (such as 25 μM NAA and 25 μM BA) were suitable for shoot regeneration, especially for leaf-derived calli, which are the most readily available calli and are highly competent. For root induction from regenerated shoots, supplemental auxin and/or cytokinin did not improve rooting, but instead caused unwanted callus induction or retarded growth of regenerated plants. Therefore, plant growth regulator-free medium was preferable for root induction. Normal plants were successfully obtained from calli under the optimized conditions described above. This is the first report of the complete process of in vitro plant regeneration of A. scaber via somatic embryogenesis.     

Tissue-specific antigens secreted by suspension-cultured callus cells of Prunus avium L.

A number of antigenic components are secreted into the medium by P. avium callus cells derived from different tissues and grown in suspension culture. These antigens have been detected using antiserum raised in rabbits to a protein fraction secreted by P. avium leaf callus. One antigen is specific to leaf tissue and is secreted by callus cells derived from stem, pistil and anthers as well as leaves. A second antigen is, in intact organs, restricted to styles of a particular self-incompatibility (S) genotype, but is also secreted by callus cells derived from the leaf. Another antigen, apparently not organ-specific, is secreted by all calli tested, including Rosa (cv. Paul's Scarlet).     

Organogenesis and Plantlet Formation from Organ- and Seedling-Derived Calli of Rice (Oryza sativa)

Callus was induced in different somatic organs of Oryza sativa L. Specific minimum 2,4-dichlorophenoxyacetic acid (2,4-D) concentrations in the medium were necessary for the induction of callus from different organs while high levels of 2,4-D (6–10 mg/l) induced callus formation in each organ tested. The optimum 2,4-D concentration for callus induction and growth for root-derived calli was 2 mg/l and for leaf-derived 6 mg/l. Root and shoot organogenesis were induced in both root- and leaf-derived calli by sub-culturing to a medium lacking 2,4-D. Root organogenesis occurred at a higher frequency than shoot organogenesis. Shoot organogenesis rarely occurred in calli without differentiated roots. Increased age of callus cultures almost completely inhibited shoot development. The addition of the cytokinin 6-γ,γ-dimethylallyl-amino purine partially restored the potential for shoot organogenesis. Whole plants were easily recovered from the calli and grown to maturity with some plants exhibiting phenotypic abnormalities.     

Variations in vinblastine production at different stages of somatic embryogenesis,embryo, and field-grown plantlets of <Emphasis Type="Italic">Catharanthus roseus</Emphasis> L. (G) Don,as revealed by HPLC

Catharanthus roseus L. (G) Don. is an important dicotyledonous medicinal plant that produces anticancer compounds, which are used for the treatment of a wide variety of cancers. We have quantified vinblastine (a major dimeric anticancer compound) in various in vitro raised tissues; embryogenic and nonembryogenic calli, three different embryogenic stages (proliferated, matured, and germinating embryo), somatic embryo derived plantlets and in ex vitro grown plantlets by using high performance liquid chromatography. Of the various obtained callus lines and embryogenesis stages, maximum vinblastine content was found in leaf callus and in germinating embryos. The leaves of somatic embryo-derived plantlets contained more vinblastine than did Catharanthus leaves developed ex vitro. The yield of vinblastine was monitored for 30 wk. The production of vinblastine appeared to be age dependent and tissue specific; the finding of our analyses is discussed in detail.     

Stimulation of root and somatic embryo production in Euonymus europaeus L. by an inhibitor of polyamine biosynthesis

In vitro formation of roots and somatic embryos is obtained from cotyledon explants of a Spindle tree (Euonymus europaeus L.) cultured on two different media: a medium inducing callus formation and the production of roots, and a medium inducing callus formation, root and somatic embryo production. We studied the effects of -difluoromethylornithine (DFMO), a specific, irreversible inhibitor of ornithine decarboxylase (ODC) on root and somatic embryo production, growth and titers of putrescine in Euonymus explants and explant-derived calli. Early changes in putrescine levels were detected in both cultures before the visible emergence of roots or somatic embryos. DFMO rapidly inhibited putrescine accumulation and growth in non-embryogenic calli and highly stimulated rooting activity. DFMO partially inhibited putrescine accumulation in embryogenic calli. This inhibition had no effects on callus growth but significantly reduced the time of emergence of roots and highly stimulated somatic embryo production. The relationship among putrescine, putrescine metabolism, growth, root and somatic embryo formation is discussed.     

The effect of B chromosomes and T-DNA on chromosomal variation in callus cells and regenerated roots of Crepis capillaris

The chromosome behaviour has been compared in three Crepis capillaris callus culture lines and the roots regenerated from these calli. The calli were obtained from explants derived from plants without and with two B chromosomes and the hairy roots were obtained from plants transformed with Agrobacterium rhizogenes. Cytological studies demonstrated that the presence of additional DNA as B chromosomes or as T-DNA had an influence on the numerical and structural variability of the standard chromosome in long-term callus cultures and in regenerated organs. The callus with two B chromosomes displayed higher levels of polyploidyzation than callus without B chromosomes. The roots regenerated from both these calli were only diploid, while roots regenerated from transformed callus were also polyploid. This revised version was published online in June 2006 with corrections to the Cover Date.     

Antimicrobial activity of crude extracts from plant parts and corresponding calli of Bixa orellana L

Ethanol extracts from the different parts of B. orellana showed differential antimicrobial activity. It was found that the extracts of in vitro leaves showed maximum activity against Bacillus pumilus followed by the extracts from the roots and hypocotyls. The callus derived from different explants too showed antimicrobial activity. The leaf callus showed maximum activity. The zone of inhibition for the diluted extracts of in vitro hypocotyls and roots and their corresponding calli showed minimum zone of inhibition at concentration 24 mg/ml, whereas the diluted extract of in vitro leaves and leaf derived callus showed minimum zone of inhibition at 16 mg/ml.     

Pathways of ROS homeostasis regulation in Mesembryanthemum crystallinum L. calli exhibiting differences in rhizogenesis

A comparison of the hydrogen peroxide (H₂O₂) content, proline and betacyanin concentration and activities of some antioxidant enzymes (catalase, superoxide dismutase, guaiacol and ascorbate peroxidases) was made in Mesembryanthemum crystallinum L. calli differing in rhizogenic potential. Callus was induced from hypocotyls of 10-day-old seedlings on a medium containing 1?mg?l^?1 2,4-dichlorophenoxyacetic acid and 0.2?mg?l^?1 kinetin, which was either supplemented with 40?mM NaCl (CIM-NaCl medium) or did not contain any salt (CIM medium). The callus obtained on CIM-NaCl was rhizogenic, whereas the callus induced on the medium without salt was non-rhizogenic throughout the culture. The rhizogenic callus differed from the non-rhizogenic callus in lower betacyanin and H₂O₂ content, but the rhizogenic callus displayed a higher proline level. The activity of H₂O₂ scavenging enzymes, such as catalase (CAT), ascorbate peroxidase (APX) and guaiacol peroxidase (POD), was markedly higher in the rhizogenic callus than in the non-rhizogenic callus, but the total activity of superoxide dismutase (SOD) was higher in the non-rhizogenic callus than in the rhizogenic callus. Aminotriazole (CAT inhibitor) and diethyldithiocarbamate (SOD inhibitor) were added solely to the CIM and CIM-NaCl media to manipulate the concentration of reactive oxygen species (ROS) in the cultured tissues. Both CAT and SOD inhibitors brought about an increase in H₂O₂ content in calli cultured on CIM-NaCl and the loss of rhizogenic potential. Conversely, the addition of inhibitors to the medium without salt led to a decrease in H₂O₂ content. This corresponded with a significant decrease in the endogenous concentration of betacyanins, but did not change the lack of rhizogenic ability.     

An interchangeable system of hairy root and cell suspension cultures ofCatharanthus roseus for indole alkaloid production

Hairy roots ofCatharanthus roseus obtained by co-cultivation of hypocotyl segments withAgrobacterium rhizogenes, and cultured in SH (Schenk and Hildebrandt) basal medium, formed two types of calli when subcultured in SH medium with 1 mg/1 -naphthaleneacetic acid and 0.1 mg/l kinetin. One of them, a compact callus, when re-subcultured in SH basal medium gave rise to hairy roots again. A rhizogenic cell suspension culture was established from this type of callus. When cultured in SH medium with growth regulators, the rhizogenic callus produced catharanthine at a level of 41% of the level in the initial hairy roots. Upon transfer to SH basal medium, regenerated hairy roots produced this alkaloid at the original level of 1.5 mg/g dry wt. Using this cell/hairy root interchange system a new management system for hairy root culture in bioreactors has been devised and examined involving production of biomass in the form of a cell suspension in medium supplemented with growth regulators, and catharanthine production by hairy roots regenerated from these cells in medium without growth regulators.Abbreviations NAA -naphthaleneacetic acid - SH Schenk and Hildebrandt - SHNK SH medium + 1 mg 1^–1 NAA + 0.1 mg 1^–1 kinetin     

Effects of cytokinin on adventitious root formation in callus cultures ofVigna unguiculata (L.) walp

Summary Yellowish compact callus, induced from cowpea hypocotyls on Murashige and Skoog(MS) medium (1962) containing 0.2 mg/l(0.93 μM) kinetin and 0.4 mg/l (1.81 μM) 2,4-dichlorophenoxyacetic acid (2,4-D), was subcultured on MS medium containing cytokinin alone, auxin alone, or auxins plus cytokinins in order to determine the effect of cytokinins on root organogenesis in callus cultures. The callus actively proliferated on the same medium but did not show any organogenic activity macroscopically as well as microscopically. On medium with N⁶-benzyladenine (BA) and 1-naphthaleneacetic acid (NAA), the yellowish compact callus first changed to pale green compact callus and then many green spots appeared on its surface under light culture. But the yellowsih compact callus remained yellowish and white spots appeared on its surface in dark culture. These spots gradually became white nodular structures. Adventitious root formation from the nodular structures occurred not only on the same medium, but also on medium with either auxin or cytokinin but not both. Yellowish compact callus on medium with auxin alone was transformed to yellowish friable callus, which did not develop adventitious roots. The yellowish friable callus could gain rhizogenic activity only after morphological modification to pale green compact callus on medium with auxin plus cytokinin. The modified callus did not form adventitious roots on medium with auxins but only with cytokinins. Therefore, it is suggested that cytokinins have stimulating effects on root formation from callus that previously did not show rhizogenic activity on medium with auxins alone. In addition, the rhizogenic potential of cowpea callus was discriminated from that of leaf explants, which formed adventitious roots directly on medium with auxin alone.     

<Emphasis Type="Italic">In vitro</Emphasis> organogenesis and antioxidant enzymes activity in <Emphasis Type="Italic">Acanthophyllum sordidum</Emphasis>

The effect of various hormonal combinations on callus formation and regeneration of shoot and root from leaf derived callus of Acanthophyllum sordidum Bunge ex Boiss. has been studied. Proteins and activity of antioxidant enzymes were also evaluated during shoot and root organogenesis from callus. Calli were induced from leaf explants excised from 30-d-old seedlings grown on Murashige and Skoog medium containing 4.52 μM 2,4-dichlorophenoxyacetic acid + 4.65 μM kinetin. Maximum growth of calli and the most efficient regeneration of shoots and roots occurred with 2.69 μM 1-naphthalene acetic acid (NAA), 2.69 μM NAA + 4.54 μM thidiazuron and 2.46 μM indole-3-butyric acid. Protein content decreased in calli and increased significantly during regeneration of shoots from callus. Superoxide dismutase activity decreased in calli comparing to that of seedlings, then increased in regenerated shoots and roots. High catalase activity was detected in seedlings and regenerated shoots, whereas high peroxidase activity was observed in calli and regenerated roots.     

Effect of cadmium on the phenolic compounds formation in the callus cultures derived from various organs of the tea plant

The effects of cadmium (6.3 × 10^?5 M or 10.6 × 10^?5 M) on the growth of tea plant (Camellia sinensis L.) callus cultures derived from leaves, stems, and roots and on the formation, in these cultures, of phenolic compounds, including flavans and lignin, which are characteristic of the tea plant, were investigated. In the calli derived from leaves and stems, cadmium treatment decreased the biomass increment, while in the calli derived from roots, growth characteristics remained at the control level. Under the effect of cadmium, the content of phenolic compounds, including flavans, in the leaf calli decreased, while in the stem and root calli, it either increased (at the cadmium concentration of 6.3 × 10^?5 M), or was close to a control one (at the cadmium concentration of 10.6 × 10^?5 M). The lignin content in the root and stem calli increased, but it did not change in the leaf calli. All this data demonstrate that the cadmium-induced changes in phenolic metabolism of the tea plant callus culture depended both on the cadmium concentration in the medium and on the origin of calli.     

Cyclic somatic embryogenesis and efficient plant regeneration from callus of safflower

Efficient plant regeneration through somatic embryogenesis was established for safflower (Carthamus tinctorius L.) cv. NARI-6. Embryogenic calli were induced from 10 to 17-d-old cotyledon and leaf explants from in vitro seedlings. High frequency (94.3 %) embryogenic callus was obtained from cotyledon explants cultured on Murashige and Skoog’s germination (MSG) basal medium supplemented with thidiazuron, 2-isopentenyladenine and indole-3-butyric acid. Primary, secondary and cyclic somatic embryos were formed from embryogenic calli in a different media free of plant growth regulators, however, 100 % cyclic somatic embryogenesis was obtained from cotyledon derived embryogenic calli cultured on MSG. Somatic embryos matured and germinated in quarter-strength MSG medium supplemented with gibberellic acid. Cotyledons with root poles or non root poles were converted to normal plantlets and produced adventitious roots in rooting medium. Rooted plants were acclimatized and successfully transferred to the field.     

Occurrence of Plant-Uncoupling Mitochondrial Protein (PUMP) in Diverse Organs and Tissues of Several Plants

The presence of plant-uncoupling mitochondrial protein (PUMP), previously described by Vercesi et al. (1995), was screened in mitochondria of various organs or tissues of several plant species. This was done functionally, by monitoring purine nucleotide-sensitive linoleic acid-induced uncoupling, or by Western blots. The following findings were established: (1) PUMP was found in most of the higher plants tested; (2) since ATP inhibition of linoleic acid-induced membrane potential decrease varied, PUMP content might differ in different plant tissues, as observed with mitochondria from maize roots, maize seeds, spinach leaves, wheat shoots, carrot roots, cauliflower, broccoli, maize shoots, turnip root, and potato calli. Western blots also indicated PUMP presence in oat shoots, carnation petals, onion bulbs, red beet root, green cabbage, and Sedum leaves. (3) PUMP was not detected in mushrooms. We conclude that PUMP is likely present in the mitochondria of organs and tissues of all higher plants.     

Flow cytometric analysis of polysomaty and in vitro genetic instability in potato

The analysis of nuclear DNA contents in various tissues of potato genotypes showed that flow cytometry is a rapid method to characterize large populations of cells for polysomaty, that is, the occurrence of cells with normal DNA levels together with cells containing endoreduplicated nuclei. The proportion of endoreduplicated nuclei varied in different tissues and genotypes of potato. The analysis of callus and cell cultures showed that the temporal changes in nuclear DNA contents during in vitro growth can be followed and the degree of polyploidization quantified. It is concluded that flow cytometry is a highly suitable method to detect ploidy changes in differentiated plant tissues and calli which are often not amenable for chromosome number determination.     

In vitro selection of Coffea arabica callus for resistance to partially purified phytotoxic culture filtrates from Colletotrichum kahawae

Calli derived from hypocotyl explants of a susceptible and resistant genotype of Coffea arabica were evaluated for their response to different concentrations of partially purified culture filtrates (PPCFs) produced by Colletotrichum kahawae which are phytotoxic. The size of calli was measured non-destructively by automated image analysis. Differential responses of calli ranged from complete necrosis or reduced growth in the susceptible genotype (N39) to an absence of necrosis and rapid growth in the resistant genotype (cv. Hybrido de Timor). Subsequently, one selection cycle in the presence of PPCF was devised and applied to calli of nine C. arabica genotypes. Normal plants were regenerated through somatic embryogenesis of callus lines that survived the phytotoxin treatment and in vitro and in vivo testing of these plants against the PPCF showed that increased resistance to the toxin had been obtained. These studies suggest that in vitro selection of calli may be a feasible approach to acquiring germplasm with improved resistance to coffee berry disease.     

Two NAD-dependent alcohol dehydrogenases (E.C. 1.1.1.1) in callus cultures of wheat,rye and triticale

Summary Two NAD-dependent alcohol dehydrogenases ADH-1 and ADH-2, under independent genetic control of genes designated as Adh-1 and Adh-2 located on chromosomes 4A, 4B and 4D, have been reported in aestivum wheat (Hart 1980). Only ADH-1 is expressed in developing seeds, dry seeds, pollen and germinating seedlings. ADH-2 can be induced in seedling roots or shoots under conditions of partial anaerobiosis or by certain chemicals. Expression of ADH-1 and ADH-2 isoenzymes was investigated in undifferentiated calli from aestivum and durum wheats, rye, triticale and also in in vitro regenerated roots and leaves from aestivum cultures. Wheat callus cultures originating from seed, mature and immature embryos, mesocotyl and root, as well as cultures grown on media containing different supplements did not show any variation in the overall expression of ADH-1 or ADH-2, although differences in the band intensities were observed. The callus isoenzyme pattern was similar to that observed in roots under anaerobic conditions. Both ADH-1 and ADH-2 were expressed in in vitro regenerated roots but were absent in regenerated leaves. Expression of ADH-1 and ADH-2 in wheat calli seems to be related to the type of differentiation.     

Effect of light quality and tissue origin on phenolic compound accumulation and antioxidant activity in Camellia japonica calli

In Camellia japonica callus culture, the effects of light quality on the accumulation of phenolic compounds were examined. To this end, the calli were cultured under three monochrome [white (W), red (R), and blue (B)] and two mixed [red/blue (RB) and red/green/blue (RGB)] light sources. After 4 weeks of culture, fresh and dry callus weights were determined, and phenolic content was analyzed using high-performance liquid chromatography. We also examined the effects of RGB light on calli derived from four origins (leaf: CL; root: CR; petal: CP; and ovary: CO). Total phenolic and flavonoid content and DPPH radical scavenging activity were highest in calli exposed to RB and RGB. Catechin was detected only in calli exposed to mixed light (RB and RGB). Interestingly, red pigmentation development in CL and CR calli after 2 weeks of culture and organogenic calli in CR and CP samples was observed. Furthermore, expression of the phenylalanine ammonia lyase and chalcone synthase genes was found to be higher in the CR line than in other lines, and total phenolic and flavonoid content was also higher in the CR and CP lines. The findings of the present study revealed that the accumulation of phenolics and flavonoids in callus tissue varies depending on light quality, which stimulates cell division, and may thus affect the proliferation and organogenesis of C. japonica callus. We also established that the effects of light on red pigment expression and the accumulation of bioactive compounds are dependent on the tissue origin of callus material.

     

Tropane Alkaloids from Callus Cultures, Differentiated and Shoots of Hyoscyamus muticus L.

Alkaloid production has been observed in cotyledonary leaf derived callus tissues, and also in in vitro differentiated shoots, and roots of Hyoscyamus muticus. The callus tissue was developed form cotyledonary leaf explants on Murashige and Skoog medium enriched with 2 mg 1^-1 2, 4-D and 0.5 mg 1^-1 BAP. Cotyledonary leaf derived callus was proliferated in the same medium for 2 passages (1 passage 28-30 days). Green and compact callus was used for alkaloid extraction. Shoots and roots formed on MS medium containing 0.05 mg 1^-1 NAA and 0.5 mg 1^-1 BAP, and also compact, nodular and embryogenic calli from which these shoots and roots differentiated, were used for alkaloid extraction. Chromatographic studies performed with TLC showed the presence of hyoscyamine as the major alkaloid present in the callus tissues, differentiated shoots and roots. However, alkaloid content varied in different tissues. Differentiated roots were found to contain maximum amount of hyoscyamine.