Rapid mass propagation of Chrysanthemum cinerariaefolium Vis. by callus culture and ability to synthesise pyrethrins

 Rapid mass propagation of Chrysanthemum cinerariaefolium from young flower heads was developed to compare the ability of callus, in vitro shoots and rooted plants, and original plants to synthesize pyrethrins. The ability to synthesise all six pyrethrin components increased with differentiation. Jasmolin II and cinerin II were the main products present in mother plant shoots, whereas pyrethrin I was the greater component present in callus and in vitro plants. Clonal propagation increased the pyrethrin I content compared to that of plant shoots and young flowers. Total pyrethrin content was the same in in vitro and plant shoots, but lower in these shoots than in young flowers. The pyrethrin I/pyrethrin II ratio, which is directly related to insecticidal activity, varied from 3.4 in in vitro shoots to 0.87 in mother plant shoots and young flowers. Received: 11 July 1998 / Revision received: 10 March 1999 / Accepted: 12 April 1999     

Increased endogenous indole-3-acetic acid:abscisic acid ratio is a reliable marker of Pinus massoniana rejuvenation

ABSTRACT

Pinus massoniana is a recalcitrant tree species for rooting in vitro. We rejuvenated 26-year-old P. massoniana trees by successive grafting. Rooting rates of rejuvenated shoots were > 83.1% after rooting induction. We compared endogenous levels of indole-3-acetic acid (IAA), abscisic acid (ABA), gibberellins (GAs) and zeatin-riboside (ZR), and the rhizogenesis ability of axillary shoots of mature and rejuvenated materials in vitro, i.e., somaplants and grafts. Enhancement of the rooting ability of mature materials in vitro following somatic embryogenesis or repeated grafting onto juvenile rootstocks was accompanied by increased IAA and GAs levels, and by decreased ABA levels in scions used as starting material for micropropagation in vitro. Successive subcultures did not influence the rooting ability of shoots from untreated mature material. Rooting ability of shoots in vitro, however, gradually increased with subculture frequency during repeated subculturing in grafting materials. The IAA:ABA ratio in shoots in vitro after grafting five times, and consequently capable of root organogenesis, was higher than in shoots of untreated mature material incapable of root organogenesis in vitro. A high IAA:ABA ratio was detected in scions of somaplants that were capable of rooting in vitro despite subculture times. We found that the endogenous IAA:ABA ratio is a reliable marker for the recovery of root organogenesis in vitro after rejuvenating treatments for mature P. massoniana trees.     

Variation of phenotype,ploidy level,and organogenic potential of in vitro regenerated polyploids of <Emphasis Type="Italic">Pyrus communis</Emphasis>

A wide range of phenotypic variation was observed among neopolyploids obtained from the diploid pear cultivar ‘Fertility’ by in vitro colchicine treatment. The variant plantlets had alterations in leaf characteristics. Neopolyploids had significantly different ratios of leaf length to leaf width compared to the diploid control. Shoot regeneration from leaf explants and rooting ability from in vitro shoots of neopolyploids was examined. Regeneration frequencies of shoots from leaf explants of seven of the nine neopolyploids were significantly decreased compared to the diploid control. The organogenic potential of neopolyploids was highly genotype-dependent for both shoots and roots. Tetraploid clone 4x − 4 failed to regenerate shoots from leaf explants and the pentaploid clone 5x − 2 failed to root from in vitro shoots. The results suggest that polyploidization caused the decrease in or loss of in vitro organogenic potential. Regenerated shoots derived from neopolyploids showed different phenotypes, depending on the ploidy of the donor plant.     

Optimization of in vitro and ex vitro regeneration and micromorphological studies in <Emphasis Type="Italic">Basella alba</Emphasis> L.

The optimum concentrations of the plant hormones for in vitro regeneration and subsequent effect of auxins on rooting (in vitro and ex vitro) of shoots of Basella alba L. have been investigated in present study. Nodal shoot segments were used as explants to initiate the cultures. The bud breaking from explants was observed within 1 week of incubation on agar gelled Murashige and Skoog’s (MS) medium. Multiple axillary shoots (7.30 ± 0.56 shoots per explant) were induced on MS medium supplemented with 2.0 mg/L 6-benzylaminopurine (BAP). The shoots were multiplied (maximum 17.10 ± 0.44 shoots per explant) on the same medium fortified with 0.5 mg/L each of BAP and Kin (Kinetin) +0.1 mg/L IAA. These shoots were excised and rooted in vitro (10.73 ± 0.92 roots per shoot) on half-strength MS medium augmented with 2.0 mg/L indole-3 butyric acid (IBA). Hundred percentage success rates have been achieved by ex vitro rooting of the in vitro regenerated shoots with IBA at 300 mg/L. The in vitro and ex vitro rooted shoots were acclimatized in greenhouse and subsequently transferred to the natural field conditions where 100 % survival rate was reported. The ex vitro rooting method was found more advantageous than in vitro rooting in terms of time, energy and survival percentage of B. alba. A comparative foliar micromorphological study of B. alba was conducted to understand the micromorphological changes in plants while shifting from in vitro to the in vivo conditions in terms of variations in stomatal index, venation pattern and vein density, and the arrangement of crystals. The study could help in understanding the response of in vitro raised plants towards in vivo environment.     

NMR-based metabolomic analysis of wild,greenhouse, and in vitro regenerated shoots of <Emphasis Type="Italic">Cymbopogon schoenanthus</Emphasis> subsp. <Emphasis Type="Italic">proximus</Emphasis> with GC–MS assessment of proximadiol

Cymbopogon schoenanthus subsp. proximus is a wild plant distributed in subtropical and east Africa extending from the north to the southern parts of Egypt. Widely used in folk medicine, it is the source of the diuretic sesquiterpene proximadiol. Nuclear magnetic resonance metabolomic analysis of polar extracts of shoots from wild, greenhouse, somatic embryos, and direct and indirect organogenic in vitro cultures was carried out. Metabolic profiling yielded 39 compounds, of which common metabolites were 15 (38.4%). Unique metabolites were trehalose (2.5%) in the wild plants, 2-hydroxylisobutyrate, galactarate and tyrosine (7.6%) in indirect organogenic shoots. Tartrate was found only in direct regenerated shoots (2.5%). Metabolites identified in greenhouse and embryogenic shoots showed no unique compounds. Multivariate analysis revealed significant differences between all tested shoots. 4-aminobutyrate, alanine, glutamine, glucose, fructose, and sucrose were the most significantly different metabolites. Proximadiol was identified and quantitatively measured from the non-polar extract of different types of shoots using gas chromatography and mass spectrometry (GC–MS). Concentrations ranged from 3.6 ± 0.03 to 198.6 ± 7.2 µg/100 mg dry weight in regenerated shoots from somatic embryogenesis and in wild plant shoots, respectively. Direct organogenesis yielded the highest in vitro concentration (20.3 ± 0.5 µg/100 mg dry weight). This study reported the metabolic profiling of C. schoenanthus polar extract and identified primary metabolites that are unique to the wild type and shoots regenerated from different in vitro cultures. Proximadiol was quantified and the in vitro culture system yielding the highest concentration relative to the wild plant was identified.     

Structural differences between hyperhydric and normal in vitro shoots of <Emphasis Type="Italic">Handroanthus impetiginosus</Emphasis> (Mart. ex DC) Mattos (Bignoniaceae)

The anatomy of normal and hyperhydric shoots (leaves and stems) of in vitro Handroanthus impetiginosus was compared using light microscopy, scanning electron microscopy, and transmission electron microscopy. In contrast to normal shoots, hyperhydric shoots presented numerous anatomical abnormalities at the proliferation stage. Disorganized cortex, epidermal holes, epidermal discontinuity, collapsed cells, and other structural characteristics were observed in hyperhydric shoots. So, by using anatomical analysis of in vitro H. impetiginosus shoots at the proliferation stage, we can predict which plants will survive the rhizogenesis and acclimatization stages.     

High frequency axillary bud multiplication and ex vitro rooting of Wedelia chinensis (Osbeck) Merr.--a medicinal plant

An efficient protocol was achieved for rapid propagation of Wedelia chinensis (Osbeck) Merr. through axillary bud proliferation and ex vitro rooting. Murashige and Skoog (MS) medium supplemented with benzyladenine (BA; 8.87 microM) and indole-3-butyric acid (IBA; 2.46 microM) was optimal for axillary bud proliferation, which developed a mean of 8.3 shoots/node. Excision and culture of node segments from in vitro shoots on medium supplemented with the same concentration of growth regulators developed more than 30 shoots within 40 days. Excision and culture of nodes in succession enhanced the number of shoots. Shoot multiplication did not exhibit decrease in the number of shoots even at 10th subculture. Nevertheless, the shoots exhibited a tendency towards stunted nature. But reduction of BA to 4.44 or 2.22 microM resumed normal growth of shoots. Half strength MS medium fortified with IBA (2.46 microM) induced the highest number of roots. All in vitro rooted shoots survived in field. Dipping of the basal end of shoots collected from multiplication medium in IBA (2.46 microM) solution for 7 days induced roots and its transfer to small pots facilitated the survival of all rooted shoots (100%). Rooting ex vitro by direct transfer of shoots from multiplication medium exhibited 89.2 per cent survival. Use of commercial sugar and tap water and also the omission of in vitro rooting reduce the propagation cost 50-70 per cent. The protocol enables to harvest more than 50,000 plantlets within 150 days starting from a single node explant.     

Optimizing Shoot Formation in Gentiana kurroo Royle for Gentiopicroside Production

The roots and shoots of Gentiana kurroo Royle are rich sources of gentiopicroside (GPD). The plant is used traditionally for curing many metabolic diseases. The exploitation of G. kurroo in its native habitat has placed the plant on the critically endangered list of plants in India. One of the ways of creating an alternative source of G. kurroo is through in vitro propagation. Although a number of in vitro propagation methods for G. kurroo exist, there are no studies that have optimized methods for rapid in vitro shoot production and the production of GPD. The objective of this study was to develop an effective in vitro shoot multiplication system of G. kurroo. Furthermore, the influence of solid and liquid induction media were investigated. Shoots were regenerated from embryogenic callus and transferred to solid and liquid Murashige and Skoog (MS) and Gamborg (B₅) media fortified with various concentrations of BA containing different auxins. It was observed that the liquid medium produced a higher number of shoots than the solid media. MS supplemented with BA (2 mg/L) and IAA (0.5 mg/L) produced?~?5.58 shoots per explant on the solid medium, while?~?16 shoots per explant was obtained in the liquid medium. High-Performance Liquid Chromatography (HPLC) analysis of in vitro shoots grown in the liquid medium produced 9.13 mg/g dry weight (DW) of GPD which is seven-fold higher than that of naturally growing plant shoots. The in vitro protocol for G. kurroo developed in this study may be used for industrial production of GPD.

     

In vitro regeneration of Semecarpus anacardium L. from axenic seedling-derived nodal explants

Semecarpus anacardium (Anacardiaceae), a deciduous forest tree, is a potent source of medicinal compounds. Poor seed viability of this species limits the conventional propagation practice. Proliferation of shoots from axillary meristem was achieved in semisolid WPM medium supplemented with BAP 4.44 μM and KN 4.64 μM. Factors including culture vessels, gelling agents and antioxidants were identified and optimized for proliferation and growth of shoots in vitro. Cotton-plugged culture vessels were more favorable. Phytagel 0.2% as gelling agent and activated charcoal 0.2% as antioxidant were superior to other agents and antioxidants tested. All the shoots rooted in half-strength WPM liquid medium with IBA 2.46 μM. Rooted shoots survived (91%) in the soil–sand 1:1 mixture. Ex vitro rooting of shoots and hardening of plants were achieved in 80% of the explants in the soil–sand mixture. Hardened plants were maintained in a greenhouse. This is the first report on in vitro regeneration of Semecarpus anacardium.     

In vitro shoot propagation of Dendrocalamus strictus nees

Multiple shoots were induced from seedling and axillary buds of mature plants of Dendrocalamus strictus on Murashige and Shoog's medium supplemented with BA and kinetin. About 35–45 shoots were obtained within 20–25 days from a nodal explant of seedling and 3–8 shoots were obtained from a nodal explant of mature plants in the primary culture. The seedling derived cultures were separated into groups of 5–7 and transferred to fresh subculture medium. Rooting of the shoots was achieved under in vitro and ex vitro conditions. 85–90% of rooting was achieved by the ex vitro method using IBA. This revised version was published online in June 2006 with corrections to the Cover Date.     

Somatic embryogenesis and in vitro flowering inBrassica nigra

Summary This report describes a protocol for regeneration ofBrassica nigra in vitro from unorganized callus to a highly differentiated stage of flowering. Callus is initiated from seedling hypocotyl, and root explants and plantlets are obtained via somatic embryogenesis. Shoot cultures can be established from these plantlets. These shoots can either be induced to flower in vitro or rooted to produce plants which flower ex vitro. Each stage of development is marked with a specific growth regulator requirement. This has potential as a model system to understand the cellular and molecular mechanisms involved in morphogenesis, and it can be used to understand the mechanism of change of phase from vegetative to reproductive. An advantage of this system is that in vitro flowering can be obtained repeatedly in the shoots raised from the axillary buds of the flowering shoots. The protocol can also be used to procureB. nigra gametes under aseptic condition.     

Multiple shoot induction and plant regeneration of the endangered species <Emphasis Type="Italic">Crepis novoana</Emphasis>

In vitro culture is a useful tool in the ex situ conservation of rare, endemic, and threatened plant species. Crepis novoana (Compositae) is an endangered endemic in northwestern Spain. Use of in vitro culture tools is necessary due to the poor conservation status of populations of the species. The systems of in vitro propagation developed for this species in the present study were caulogenesis from leaf explants and growth of axillary buds from shoots. Explants were produced by placing fragments of leaves on Murashige and Skoog medium (MS) supplemented with 2.22 μM 6-benzyladenine (BA) and 2.69 μM naphthaleneacetic acid (NAA); caulogenesis was induced in 80% of explants, with development of a mean number of 2.48 shoots per explant. Axillary bud development from shoots was highest with MS supplemented with 4.44 μM BA and 0.54 μM NAA, resulting in production of a mean number of 49.77 shoots per explant. Immersion of the basal side of shoots in a solution of 5.37 mM NAA for 30 s yielded 90% success in the production of rooted shoots. Plantlets were well acclimatized, and almost 100% of plants transferred to soil recovered successfully.     

Micropropagation of Citrus halimii – an endangered species of South-east Asia

A successful system of direct organogenesis is described for the wild citrus tree, Citrus halimii Stone which used in vitro seedling explants cultured on Murashige and Skoog medium supplemented with 0.4–11.1 μM 6-benzyladenine. Hypocotyl was the best explant for multiple shoots regeneration. Maximum number of shoots was obtained on medium with 2.2–11.1 μM 6-benzyladenine. Rooting of regenerated shoots was best on Murashige and Skoog medium supplemented with 2.7 μM α-naphthalenacetic acid. In vitro and ex vitro rooted plantlets survived (on average 83.3%) after being transferred to the soil mixture consisting of soil, sand and organic material (1: 1: 1) and kept in the glasshouse. This revised version was published online in June 2006 with corrections to the Cover Date.     

An improved micropropagation of Terminalia bellirica from nodal explants of mature tree

An efficient and improved in vitro propagation method has been developed for Terminalia bellirica, a medicinally important tree from nodal explants of 10-year-old mature tree. Shoot multiplication was influenced not only by cytokinin types, their concentrations and their interaction with auxin but also by successive transfer of mother explants for different passages, subculture of excised shoots on fresh medium and different medium composition. MS medium containing 2.22 μM BAP was found to be the best for shoot multiplication in a single step. After excision of newly formed shoots, mother explants successively transferred to the same medium produced maximum shoots per explant after IV passage. Further enhancement in morphogenetic response occurred when excised shoot clumps (2–3 shoots) were subcultured on MS medium supplemented with 2.22 μM BAP, 1.16 μM Kn and 0.57 μM IAA. Half-strength MS medium supplemented with 24.60 μM IBA and 100 mg l⁻¹ AC was most effective for rooting of the shoots. To reduce labor, cost and time, an experiment on ex vitro rooting was also carried out and it was observed that highest percent shoots rooted ex vitro when treated with 2,460 μM IBA for 5 min. Plantlets rooted in vitro as well as ex vitro were acclimatized successfully under the green house conditions. In comparison to plantlets developed from in vitro rooted, percent survival of plants those rooted ex vitro was significantly higher. Use of ex vitro rooting technique for plant production serves as a more economical option; therefore, present method can be used for large-scale commercial production of this medicinally important tree.     

Multiple shoot induction and regeneration of whole plants from cotyledonary node and nodal explants of Sterculia urens Roxb., a gum yielding tree

Plant regeneration from the nodal explants of 1-month-old in vitro grown plants and cotyledonary node explants of 15-days-old seedlings of Sterculia urens is reported. Nodal explants were grown on MS medium supplemented with various growth regulators like BA, KIN and TDZ. For shoot induction 13.3 μM BA, 0.9 μM TDZ and 9.3 μM KIN were found optimum. Among the three growth regulators 0.90 μM TDZ was used for the growth of cotyledonary node explants. An average of 8.6 shoots per node and 11.2 shoots per cotyledonary node were observed in 4 to 5 weeks. These shoots were subsequently rooted in vitro on half strength MS medium containing various concentrations of auxins like IBA and NAA. The best concentrations for rooting of shoots were 19.7 μM IBA and 16.1 μM NAA. Plantlets were acclimatized to ex vitro conditions and established in the field.     

In vitro flowering of Bambusa edulis and subsequent plantlet survival

Bamboo shoots could be induced to flower in vitro, but there is very little information on the effect of growth components on flowering. In this study, multiple shoots grown from in vitro, spikelet-derived, somatic embryos of Bambusa edulis were used for in vitro flowering. Multiple shoots flowered on Murashige and Skoog medium (MS) with 0.5 mM thidiazuron (TDZ) and 30 g l sucrose. Different     

Adaptation of Cotton Shoot Apex Culture to Agrobacterium-Mediated Transformation

A protocol is presented for rapid genotype-independent transformation and regeneration of cotton (Gossypium spp.) from shoots isolated from germinating seedlings. Isolated shoots are inoculated with a super-virulent strain of Agrobacterium tumefaciens, subjected to a mild antibiotic selection, and directly regenerated as shoots in vitro. Shoots do not dedifferentiate and mutation rates are low. Rooted shoots can be obtained within 6–10 weeks of isolation and inoculation depending on the cotton cultivar.     

In vitro regeneration using twin scales for restoration of critically endangered aquatic plant Crinum malabaricum Lekhak & Yadav: a promising source of galanthamine

This study intended to develop a significant in vitro regeneration protocol for sustainable propagation, conservation and re-establishment of critically endangered aquatic plant species Crinum malabaricum Lekhak & Yadav (Malabar river lily). This plant is the natural source of galanthamine, the drug to treat Alzheimer’s disease. We present a scientific understanding, emphasizing the use of twin scales (separated from the large parent bulb) in direct regeneration of new shoots and proliferation of bulblets assisted by nutrients supply. The meristematic region of the bulb plate, present between the scales was activated using cytokinins to produce shoots (maximum 12 shoots per twin scale) on full strength Murashige and Skoog’s (MS) medium augmented singularly with 2.0 mg L^?1 6-benzylaminopurine (BAP). Upon subculturing of shoots on diverse concentrations of plant growth regulators (BAP and IAA/NAA), BAP alone at 2.0 mg L^?1 was served optimum for the better proliferation of shoots (53 shoots). The regenerated shoots were rooted in vitro on half strength MS medium fortified with various types of auxins. Highest number of roots (11.6 within 4 weeks) and bulblets (after 3 months) resulted with 1.0 mg L^?1 Indole-3-butyric acid (IBA) under in vitro conditions. The rooted plants were hardened in the greenhouse and finally transferred to the natural stream with 83% survival rate. The SCoT (start codon targeted) and ISSR (inter simple sequence repeats) marker analysis of in vitro raised and mother plants confirmed the genetic stability of tissue cultured plants and the reliability of present protocol for C. malabaricum. It is the foremost report on in vitro regeneration and genetic fidelity analysis for restoration of this critically endangered aquatic plant using twin scale technique. The study could help in ex situ conservation, reintroduction and restoration of C. malabaricum population in its natural habitat.

     

Efficient in vitro regeneration systems for Vaccinium species

Efficient protocols for shoot regeneration from leaf explants suitable for micropropagation as well as for the development of transgenic plants were developed for blueberry (Vaccinium corymbosum) and lingonberry (Vaccinium vitis-idaea) cultivars. Nodal segments were used to initiate in vitro shoot cultures of lingonberry cultivar ‘Red Pearl’ and southern highbush blueberry cultivar ‘Ozarkblue’. In order to develop an optimized regeneration procedure, different types and concentrations of plant growth regulators were tested to induce adventitious shoot regeneration on excised leaves from micropropagated shoots of both cultivars. The effect on percentage regeneration and number of shoots per explant was investigated. Results indicated that zeatin was superior to TDZ and meta-topolin in promoting adventitious shoot formation. A concentration of 20 μM zeatin was most effective in promoting shoot regeneration in both cultivars, in case of ‘Red Pearl’ along with 1 μM NAA. Shoots were either allowed to root in vitro on medium containing IBA or NAA or ex vitro in a fog tunnel. IBA was superior to NAA for induction of root development in vitro in both Vaccinium cultivars. Ex vitro rooting under high humidity was tested with cuttings from mature field-grown plants, from acclimatized tissue culture derived plants and with unrooted in vitro proliferated shoots planted directly. It was found that in vitro shoots rooted better under fog than cuttings from the other plant sources and rooting was equivalent to that achieved in vitro.     

Elimination of five viruses from sugarcane using in vitro culture of axillary buds and apical meristems

Procedures were developed for the in vitro elimination of Sugarcane mosaic virus (SCMV), Sorghum mosaic virus (SrMV), Sugarcane streak mosaic virus (SCSMV), Sugarcane yellow leaf virus (SCYLV) and Fiji disease virus (FDV) from infected sugarcane. In vitro shoot regeneration, elongation and virus elimination through meristem tissue culture originating from both apical and axillary shoots were compared. The average rates of regeneration and elongation from apical meristem tissues were 91 and 66%, respectively, with the virus-free rate among elongated shoots ranging from 61–92%. Mature axillary buds were cultivated in vitro to produce axillary shoots, from which meristem tissues were excised and cultured. These meristem tissues regenerated (77–100%) and elongated (55–88%) in culture medium at approximately the same rate as the apical meristems. The average virus elimination rate was 90% among elongated shoots derived from mature axillary buds. All five viruses can be eliminated by meristem tissue culture from both apical and axillary shoots using a standardized procedure. The overall average efficiency of virus-free plant production was 45 and 58% from apical and axillary shoots, respectively. There were no significant differences for shoot induction or virus elimination when the meristems were harvested from either the apical or the axillary shoots. This is the first report of SrMV or SCSMV elimination from sugarcane, as well as elimination of any mixed virus infections. This new method of harvesting meristems from axillary buds greatly expands the amount of material available for therapeutic treatments and thereby increases the probability of eliminating viruses from infected sugarcane.