In Vitro Culture and Plant Regeneration in Vicia faba subsp. Equina (var. Spring Blaze)

Explants of stem, leaves, roots, and cotyledons from etiolatedaxenically grown Vicia faba seedlings were cultured on a rangeof media. Shoot organogenesis was only obtained with nodal stemand cotyledonary node explants when cultured on MS medium with3% sucrose, 2.0 mg 1^–1 BAP and 02 mg 1^–1 NAA. Callusproliferation accompanied shoot organogenesis from nodal stemexplants. Successive subculture of nodal stem callus resultedin proliferation of regenerative callus which contained severalshoot bud initials. The capacity for shoot regeneration fromthis callus was maintained for 9 months. Histological studiesreveal de novo formation of meristematic centres in callus andtheir further development into bud primordia. High frequencyrooting of these adventitious shoots was obtained on half-strengthMS medium with 1.5% sucrose, 0.1 mg 1^–1 NAA and 0.5 mg1^–1 kinetin. Key words: Vicia faba, adventitious shoots, axillary shoots, de novomeristem formation, organogenesis, tissue culture     

In vitro morphogenetic responses from obligatory apomictic Taraxacum belorussicum Val. N. Tikhom seedlings explants

Taraxacum belorussicum Val. N. Tikhom, a poorly known and obligatory apomictic species, is an attractive plant material for studying the embryological, genetic and molecular mechanisms of apomixis. This work aims to obtain an efficient protocol for Taraxacum belorussicum regeneration. Four types of explants (cotyledons, hypocotyls, meristems and roots) that were taken from 2-weeks-old seedlings were used for in vitro cultures, and a fast and efficient protocol of T. belorussicum regeneration was obtained. Various ½ MS-based media containing IAA (5.71 µM), TDZ (4.54 µM) and PSK (100 nM) were chosen to assess the morphogenetic abilities of selected T. belorussicum explants. Studies on the role of PSK were done in three independent experiments, where the most significant factors were always light and darkness. All explants produced callus by the third day of culture and adventitious shoots after 7 days, although in an asynchronous indirect manner, and with different intensities for all explant types. The most preferred medium culture for hypocotyl, cotyledon and meristem explants was ½ MS?+?TDZ, and ½ MS?+?IAA?+?TDZ?+?PSK for roots which were the only explant sensitive to PSK. A short darkness pretreatment (8 days) in PSK medium was found suitable to enhance organogenesis. Secondary organogenesis was observed for regenerated plants on meristem explants from the ½ MS?+?IAA?+?TDZ?+?PSK medium. A weak somatic embryogenesis was observed for hypocotyl and cotyledon explants from ½ MS?+?IAA?+?TDZ and ½ MS?+?IAA?+?TDZ?+?PSK media. Histological and scanning electron microscope images (SEM) of T. belorussicum confirmed indirect organogenesis and somatic embryogenesis. Plant material treated with aniline blue solution revealed the presence of callose in the cell walls of cotyledon and hypocotyl explants. The presence of extracellular matrix (ECM) and heterogenic structure of callus was also verified by scanning electron microscopy and light microscopy, confirming the high morphogenetic ability of T. belorussicum.

     

Adventitious shoot regeneration from Sinningia speciosa leaf discs in vitro and stability of ploidy level in subcultures

Summary Leaf explants of Sinningia speciosa were cultured in vitro on Murashige and Skoog (MS) basal medium with various growth substances in order to regenerate shoots. On MS medium supplemented with indoleacetic acid (IAA) and kinetin, 80% of the explants produced green callus and 25 to 30 shoots with roots per explant. On MS supplemented with IAA and N⁶ benzyladenine (BA), 80% of the explants produced green callus and 40 to 50 shoots per explant but lacked roots. After 3–4 mo., these shoots were removed from the initial explants and transferred separately onto MS supplemented with indolebutyric acid for their elongation and successive rooting (3 mo.). Histological studies showed that the callus was associated with mesophyll cell layers, primarily with the spongy parenchyma. The shoots regenerated at the callus surface and were associated with newly differentiated vascular areas. Recurrent regenerations were obtained from leaf explants or apical meristems excised from shoots of the previous subcultures. These explants, as compared to initial cultures, had a high frequency of regeneration and also produced more shoots per explant. Chromosome numbers of root tip cells of the mother plant and of all in vitro-regenerated plants remained constant: 2n=26.     

Dark pretreatment improves adventitious shoot organogenesis from cotyledons of diploid watermelon

The influence of light incubation during embryo germination on shoot organogenesis from cotyledons of four diploid watermelon [Citrullus lanatus (Thumb.) Matsum. & Nakai cultivars was examined. Germinating embryos in darkness significantly improved the number of explants that produced harvestable shoots during the 6 week incubation period on shoot regeneration medium under a 16-h photoperiod. The percentage of explants with shoots more than doubled for `Crimson Sweet' and was about 1.5-fold greater for `Sweet Gem' and `Yellow Doll' when embryos were germinated in darkness. The percentage of explants with shoots was not significantly improved for `Minilee' by pretreating seedlings in darkness. This study demonstrates that optimal shoot regeneration can be obtained by germinating embryos in darkness before preparing cotyledon explants. This revised version was published online in June 2006 with corrections to the Cover Date.     

In vitro propagation of Agave fourcroydes Lem. (Henequen)

In vitro plant regeneration of Agave fourcroydes Lem. (Agavaceae) is described. Results suggest that the NO₃ ^-:NH₄ ⁺ balance in the culture medium is a key factor controlling callus growth and organogenesis in rhizome cultures. Stem callus showed limited organogenic capacity, but high cytokinin concentrations induced adventitious shoot formation on stem explants. When these shoots were excised and subcultured, new callus formed at their base from which new shoots arose. The shoots from stem explants and rhizome callus formed extensive root systems in vitro and were transferred to pot culture with a 90% survival rate.     

Regeneration of different cultivars of common bean (<Emphasis Type="Italic">Phaseolus vulgaris</Emphasis> L.) via indirect organogenesis

A protocol for in vitro regeneration via indirect organogenesis for Phaseolus vulgaris cv. Negro Jamapa was established. The explants used were apical meristems and cotyledonary nodes dissected from the embryonic axes of germinating seeds. Several auxin/cytokinin combinations were tested for callus induction. The best callus production was obtained with medium containing 1.5 μM 2,4-dichlorophenoxyacetic acid. After 2 weeks of growth calli were transferred to shooting medium containing 22.2 μM 6-benzylaminopurine. Shoots regenerated with a frequency of approximately 0.5 shoots per callus, and upon transfer to rooting medium these shoots produced roots with 100% efficiency. Histological analyses of the regeneration process confirmed the indirect organogenesis pattern. Greenhouse grown regenerated plants showed normal development and were fertile. The protocol was reproducible for other nine P. vulgaris cultivars tested, suggesting a genotype independent procedure.     

<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.     

Shoot regeneration from in vitro-derived leaf and root explants of <Emphasis Type="Italic">Centaurea ultreiae</Emphasis>

In vitro culture is currently used to produce plant material for ex situ conservation of endangered species. In this study, an efficient protocol for shoot regeneration from leaves and roots was developed for Centaurea ultreiae, a critically endangered species. Organogenesis from leaf and root explants was promoted by incubating these explants on half-strength Murashige and Skoog (MS) medium in the presence of one of four different cytokinins [6-benzyladenine (BA), zeatin, kinetin or N⁶-(2-isopentenyl) adenine (2iP)], each provided at five different levels. Shoot organogenesis was induced in both explants. The best response, 90% of leaf explants producing a mean of 2.48 shoots per explants and 94.3% of root explants producing a mean of 5.60 viable shoots per explants, was observed when explants were incubated on a medium containing 0.55 μM BA. Histological studies revealed connectivity between vascular tissues of regenerated shoots and cambial cells of leaf explants. Moreover, adventitious shoots were derived from pericycle cells of root explants and parenchymatic cells of callus tissues.     

The influence of explant orientation and contact with the medium on the pathway of shoot regeneration in vitro in epicotyl cuttings of Troyer citrange

The effect of orientation as regards to gravity, and that of contact with the medium of culture, on shoot regeneration at the cut edges of epicotyl explants of Troyer citrange (Citrus sinensis (L.) Osbeck×Poncirus trifoliata (L.) Raf.) have been separated. The shoot regeneration pathway was not affected by the orientation of the explants as regards to gravity, and was determined by explant polarity and the contact with the culture medium. At the apical edge of the explants, the contact with the medium shifted the pathway of shoot regeneration from a direct one to an indirect one, with formation of a callus. This callus formation was cytokinin-dependent, but the change in the pathway of organogenesis was not caused by the increase in cytokinin availability resulting from the contact with the medium. In contact with the media, regeneration at the basal edge of the explants occurred through an indirect pathway after callus formation. No regeneration occurred, at the basal edge, if the contact with the media was prevented. The orientation of the explants as regards to gravity affected shoot formation through the direct pathway of organogenesis. The number of buds differentiated, and that of growing shoots increased when the orientation of the explants departed from the vertical upright position.     

Biochemical and histological changes associated with <Emphasis Type="Italic">in vitro</Emphasis> responses in sunflower cotyledonary explants

In vitro shoot regeneration from sunflower cotyledonary explants can be obtained in the presence of kinetin and indole-3-acetic acid. In contrast, callus proliferation is obtained in the presence of 2,4-dichlorophenoxyacetic acid on culture medium. The purpose of this study was to investigate changes in protein profiles during callus and shoot development from cotyledonary explants and to correlate them with ontogenic stages during in vitro culture. Cotyledons cultured in the presence of 2,4-dichlorophenoxyacetic acid produced friable callus as a result of early division of parenchymatic cells associated with the vascular bundles of the explant. The callogenic ability was independent of the cotyledonary region used as starting explant. Direct shoot organogenesis was observed from the same type of cells growing in culture media supplemented with kinetin and indole-3-acetic acid. In this case, the regeneration potential varied among regions from which the explants were obtained. Protein profiles revealed differences associated with shoots or callus developmental programs. A 27-kDa polypeptide was uniquely detected in the explants undergoing shoot organogenesis. The amount of this polypeptide during the first 4 d of culture increased and was followed by the appearance of meristematic centers in histologically analyzed samples. This polypeptide could be used as a specific marker for in vitro shoot development in this species.     

Morphogenesis in leaf,hypocotyl and root explants of Digitalis thapsi L. cultured in vitro

The effects of the auxins 2,4-D, NAA and IAA either alone or in combination with kinetin or BA were investigated to assess the morphogenetic potential of leaf, root and hypocotyl explants of Digitalis thapsi. Calluses were obtained from the three explants in basal medium without the addition of growth regulators and in leaves, the calluses formed roots. Application of 2,4-D, NAA or BA increased callus formation. The presence of NAA induced root formation and that of BA induced shoot formation via callus interphase. Indole-3-acetic acid alone only induced the generation of roots in the hypocotyl callus. Kinetin was ineffective in all the explants tested. Combinations of NAA with kinetin or BA were more effective in inducing organogenesis in leaf explants. Optimum responses were obtained in hypocotyl and root explants by using IAA in combination with BA, the highest rate of shoot regeneration being observed in hypocotyl explants.Rooting of the differentiated shoots was readily achieved in media without growth regulators. Regenerated plantlets were transferred to soil and grew with a survival rate of 70%.Abbreviations BA benzyladenine - 2,4-D 2,4-dichlorophenoxyacetic acid - IAA indoleacetic acid, Kin-kinetin - NAA naphthaleneacetic acid     

Induction of adventitious shoots in vitro in Campanula carpatica

Efficient protocols have been developed to induce adventitious shoots in different types of explants of Campanula carpatica Jacq. More than five shoots per explant developed on hypocotyls of 5-week-old seedlings after 2 weeks of culture. Hypocotyls produced twice as many shoots as the cotyledons. TDZ proved to be about 6 times more efficient than BA. NAA had to be added to the regeneration medium to obtain the optimal balance of auxin and cytokinin to induce shoot regeneration. Significant differences were noted between different growth regulator concentrations in their effects on shoot organogenesis. BA induced double the number of callus clumps as TDZ. Incubation of explants in the dark produced about 6 shoots per explant while those in the light produced about 2 shoots per explant. Explants derived from 5-week-old seedlings were five times more regenerative compared to those derived from 15-week-old seedlings. Explants from cv. White Uniform were more organogenic than those from cv. Blue Clip. Root segments were also found to form shoots when treated with CPPU.     

In vitro plant regeneration from cotyledon explants of Swainsona salsula Taubert

An effective protocol has been developed for plant regeneration from cotyledon explants of Swainsona salsula Taubert (Saline swainsona), a medicinal and agronomic shrub. Adventitious shoots were obtained from 83.2% of cotyledon explants from 3-day seedlings cultured on Murashige and Skoog (MS) medium containing 2.0 mg l⁻¹ thidiazuron (TDZ), with an average of 9.3 shoots per explant. Individual elongated shoots were rooted on half strength MS medium supplemented with 2.0 mg l⁻¹ indole-3-butyric acid (IBA), with 59.3% success. Regenerated plants with well developed shoots and roots were successfully transferred to soil, without detectable variants. Histological observation revealed that shoots developed from cotyledon explants via organogenesis, with little callus. This revised version was published online in June 2006 with corrections to the Cover Date.     

The effect of carbon source on callus induction and regeneration ability in Pharbitis nil

Flower buds, cotyledons and hypocotyls of Pharbitis nil were used as plant material. Flower buds (1–2 mm long) were excised from 3-week-old plants, grown in soil. Cotyledons of 7-day-old sterile seedlings were cut into 25 mm² squares cotyledons whereas hypocotyls were cut to 1 mm long fragments. Explants were transferred into Petri dishes containing the Murashige and Skoog medium (MS), supplemented with either BA (11 μM·L⁻¹) alone or BA (22 μM·L⁻¹) and NAA (0.55 μM·L⁻¹), and different sugars: sucrose, fructose, glucose, mannose or sorbitol (autoclaved or filter-sterilized). Addition of glucose instead of sucrose to the medium stimulated the induction of callus on flower buds and cotyledonary explants, but inhibited its growth on fragments of hypocotyls. The medium supplemented with fructose (especially filter-sterilized) stimulated the development of flower elements. Organogenesis of shoots and roots on explants was also observed. Flower buds and hypocotyls were able to regenerate both organs. Addition of fructose or glucose to the medium stimulated the organogenesis of shoots, whereas root organogenesis was inhibited on all explants used. Sorbitol strongly inhibited both induction of callus and organogenesis on all explants used.     

Cellular responses of leaf explants of Cocos nucifera L. in vitro

Leaf explants of Cocos nucifera L. (coconut palm) were studied in vitro in order to establish whether or not rapid cellular changes contribute to the well known recalcitrance of coconut cells in tissue culture. Segments from the base of immature leaves were cultured on modified Eeuwens' medium at 30°C in darkness. The mitotic index, nuclear DNA amounts, cell and nuclear size were measured both before and during culture (from 0 to 70 days). There was no basipetal gradient of cell division in immature coconut leaves; the mitotic index never exceeded 2% and showed neither a positional nor temporal relationship with leaf development. Moreover the vast majority of cells were in G1 of the cell cycle. This cell cycle pattern was maintained for most of the period in culture although at 70 days there was an increase in the proportion of cells in S- and G2-phases consistent with low rates of callus formation. The nuclear: cell size ratio was constant in cells within the immature leaf irrespective of developmental age. However upon transfer to culture media, cell size but not nuclear size increased. We suggest that this uncoupling of cell and nuclear size disrupts cell co-ordination and is a key contributor to recalcitrant cellular behaviour of this species in vitro.     

Leaf explant response in in vitro culture of St. John’s wort (Hypericum perforatum L.)

For centuries Hypericum perforatum has been used in natural medicine. In the last decades, it has also attracted the attention of pharmaceutical industry due to its promising anti-depressant properties. The important factor in pharmaceutical application of plant material is its stable content of active compounds. Such stability requires standardized conditions of growth, e.g. an in vitro culture. Our aim was to establish a medium allowing for an effective regeneration of shoots from the standardized leaf explants in in vitro conditions. Cultures of the leaf explants carried out in darkness, on Murashige and Skoog agar medium, supplemented with auxins (2,4-dichlorophenoxyacetic acid, 2-metoxy-3,6-dichlorobenzoic acid, α-naphtaleneacetic acid, indole-3-acetic acid) and cytokinins (kinetin, N⁶-(benzyl)adenine, thidiazuron) resulted in callus formation. The callus produced roots on media containing indole-3-acetic acid or α-naphtaleneacetic acid alone. On media supplemented with auxins and cytokinins, indirect shoot organogenesis was also observed. The most efficient shoot formation was observed with 2.85 μM of indole-3-acetic acid and 4.44 μM of benzyladenine. Regenerated shoots were rooted on Murashige and Skoog without plant growth regulators medium or on a medium supplemented with indole-3-acetic acid. From a single leaf explant (one fifth of the leaf) after a month of the culture, 35 regenerated shoots were obtained (allowing for the formation of about 180 vegetative shoots per leaf). Successful multiplication of shoots from a standardized explant makes it possible to obtain a great quantity of uniform plant material for biotechnological purposes.     

Organogenesis and embryogenesis in several Hypericum perforatum genotypes

Summary St John’s wort (Hypericum perforatum) is a valuable plant used as a herbal remedy or in phytopharmaceutical drugs to treat a variety of physical ailments. Much research has been performed to study the biochemical production of secondary metabolites of in vitro cultured plants or organs. However, all of these studies have looked at the regeneration of plants from explants in only one genotype. In addition, no study has revealed the mechanism of plant regeneration in H. perforatum, i.e. organogenesis or somatic embryogenesis. We found that different genotypes Helos, Topas, Elixir, and Numi responded similarly to regeneration medium. The regeneration responses (i.e. callus, root, or shool production) of identical explants from different genotypes were similar. However, the source of explant material (leaves, hypocotyls, and roots) from the same genotype had significant effects on the response to media and plant regeneration frequency. Using scanning electron microscopy and light microscopy, the progress of organogenesis and embryogenesis under similar culture conditions was recorded. Root segments were the most responsive explants, producing the maximum number of shoots per explant of all the genotypes.     

In vitro organogenesis and plant formation in Acacia sinuata

In vitro morphogenesis via organogenesis was achieved from callus cultures derived from hypocotyl explants of Acacia sinuata on MS (Murashige and Skoog, 1962) medium. Calli were induced from hypocotyl explants excised from 7-day-old seedlings on MS medium containing 3% sucrose, 0.8% agar, 6.78 μM 2,4-dichlorophenoxyacetic acid and 2.22 μM 6-benzylaminopurine. Regeneration of adventitious buds from callus was achieved when they were cultured on MS medium supplemented with 10% coconut water, 13.2 μM 6-benzylaminopurine and 3.42 μM indoleacetic acid. Addition of gibberellic acid (1.73 μM) favored shoot elongation. Regenerated shoots produced prominent roots when transferred to half strength MS medium supplemented with 7.36 μM indolebutyric acid. Rooted plantlets, thus developed were hardened and successfully established in the soil. This protocol yielded an average of 20 plants per hypocotyl explant over a period of 4 months. This revised version was published online in June 2006 with corrections to the Cover Date.     

Micropropagation of <Emphasis Type="Italic">Scabiosa caucasica</Emphasis> Bieb. Cv. Caucasica blue

Summary Micropropagation of Scabiosa caucasica cv. Caucasica Blue was achieved by culturing, separating axillary and adventitious shoots, or node sectioning on Murashige and Skoog (MS) medium supplemented with benzyladenine (BA). The highest frequency of adventitious shoots regenerated from nodal or internodal explants and leaf blade (with or without petiole) appeared to occur on MS medium with 4.4 and 18 μM BA, respectively. Addition of 0.19 or 1.9 μM α-naphthaleneacetic acid to the BA-containing medium promoted callus formation and reduced shoot organogenesis. During micropropagation, shoot nodal explants derived from in vitro shoots cultured on MS medium supplemented with 4.4 μM BA yielded 8.9 shoots per explant within 40 d after culture initiation.     

Organogenesis, shoot regeneration, and flowering response of Vernonia cinerea to different auxin/cytokinin combinations

Summary A viable protocol has been developed for direct and indirect shoot regeneration of Vernonia cinerea. To establish a stable and high-frequency plant regeneration system, leaf and stem explants were tested with different combinations of α-naphthalene acetic acid (NAA), indole-3-acetic acid (IAA), and benzylaminopurine (BA). Lateral buds on nodal explants grew into shoots within 2 wk of culture in Murashige and Skoog (MS) basal medium supplemented with 20.9 μM BA. Excision and culture of nodal segments from in vitro-raised shoots on fresh medium with the same concentration of BA facilitated development of more than 15 shoots per node. Similarly leaf, nodal, and internodal explants were cultured on MS basal medium supplemented with different concentrations of BA, NAA, and IAA either alone or in combinations for callus induction and organogenesis. Shoot buds and/or roots were regenerated on callus. Shoot buds formed multiple shoots within 4 wk after incubation in induction medium. Adventitious buds and shoots proliferated when callus was cut into pieces and subcultured on MS basal medium containing 20.9 μM BA and 5.3 μM NAA. This combination proved to be the best medium for enhanced adventitious shoot bud multiplication, generating a maximum of 50 shoots in 4 wk. This medium was also used successfully for shoot proliferation in liquid medium. Root formation was observed from callus induced in medium containing 8.05–13.4 μM NAA. Regenerated shoots exhibited flowering and root formation in MS basal medium without any growth regulators. Plantlets established in the field showed 85% survival and exhibited identical morphological characteristics as the donor plant.