<Emphasis Type="Italic">In vitro</Emphasis> propagation and agronomic performance of regenerated chili pepper (C<Emphasis Type="Italic">apsicum</Emphasis> spp.) plants from commercially important genotypes

The application of modern biotechnology for improvement of chili pepper productivity requires an efficient in vitro plant regeneration protocol. In this study, a reliable protocol was developed for the in vitro regeneration of four types of chili, Capsicum annuum var. annuum (Jalapeño and Serrano), C. annuum var. glabriusculum/aviculare (Piquin), and C. chinense (Habanero) by direct organogenesis using three different explants (cotyledon, hypocotyls, and embryo) and three induction media. All evaluated culture media promoted the formation of adventitious shoots. When embryos or hypocotyls were used as explants, morphologically normal adventitious shoots developed, while culturing cotyledons resulted in nonelongating rosette-shaped shoots. The highest in vitro regeneration efficiency (14.6 shoots per explant) was achieved when Habanero chili hypocotyls were grown on Murashige and Skoog medium containing 1.7 μM indole-3-acetic acid and 22.2 μM N⁶-benzyladenine. This regeneration rate is higher than that obtained in previous reports. Regenerated plants were ready to be transferred to the greenhouse 13 wk after the explant culture. An evaluation carried out under greenhouse conditions showed differences in agronomic performance between in vitro regenerated plants and plants developed from seeds with the magnitude of the differences depending on the genotype being studied.     

The influence of ethylene and ethylene modulators on shoot organogenesis in tomato

The influence of ethylene and ethylene modulators on the in vitro organogenesis of tomato was studied using a highly regenerating accession of the wild tomato Solanum pennellii and an F1 plant resulting from a cross between Solanum pennellii and Solanum lycopersicum cv. Anl27, which is known to have a low regeneration frequency. Four ethylene-modulating compounds, each at four levels, were used, namely: cobalt chloride (CoCl₂), which inhibits the production of ethylene; AgNO₃ (SN), which inhibits ethylene action; and Ethephon and the precursor 1-aminocyclopropane-1-carboxylic acid (ACC), which both promote ethylene synthesis. Leaf explants of each genotype were incubated on shoot induction medium supplemented with each of these compounds at 0, 10 or 15 days following bud induction. The results obtained in our assays indicate that ethylene has a significant influence on tomato organogenesis. Concentrations of ethylene lower than the optimum (according to genotype) at the beginning of the culture may decrease the percentage of explants with buds (B), produce a delay in their appearance, or indeed inhibit bud formation. This was observed in S. pennellii and the F1 explants cultured on media with SN (5.8–58.0 μM) as well as in the F1 explants cultured on medium with 21.0 μM CoCl₂. The percentage of explants with shoots (R) and the mean number of shoots per explant with shoots (PR) also diminished in media that contained SN. Shoots isolated from these explants were less developed compared to those isolated from control explants. On the other hand, ethylene supplementation may contribute to enhancing shoot development. The number of isolable shoots from S. pennellii explants doubled in media with ACC (9.8–98.0 μM). Shoots isolated from explants treated with ethylene releasing compounds showed a higher number of nodes when ACC and Ethephon were added at 10 days (in F1 explants) or at 15 days (in S. pennellii) after the beginning of culture. Thus, the importance of studying not only the concentration but also the timing of the application of regulators when developing regeneration protocols has been made manifest. An excess of ethylene supplementation may produce an inhibitory effect, as was observed when using Ethephon (17.2–69.0 μM). These results show the involvement of ethylene in tomato organogenesis and lead us to believe that ethylene supplementation may contribute to enhancing regeneration and shoot development in tomato.     

Optimization of in vitro bud induction and plantlet formation from mature embryos of Aleppo pine (Pinus halepensis Mill.)

Summary Studies were undertaken to optimize tissue culture conditions for micropropagation of Aleppo pine (Pinus halepensis Mill.) from mature embryos and various explants of the embryo. Over 90% of the embryo explants gave rise to adventitious buds within 4 wk. Intact embryos were the most suitable explants for shoot bud induction. Both isolated cotyledons and hypocotyls produced adventitious buds, but these developed slowly and failed to elongate. N⁶-Benzyladenine (BA) alone at 5.0μM was the most effective cytokinin when added to gelled to gelled von Arnold and Eriksson’s (AE) medium containing 3% sucrose. Adventitious bud development was achieved on hormone-free AE medium, and shoot elongation was optimum on three quarter-strength Bornman’s MCM medium, with 0.1% conifer-derived activated charcoal. Shoots were multiplied on three-quarter strength MCM medium, containing 5μM BA. To induce adventitious roots on the elongated shoots, pulse treatment with 1 mM IBA for 6 h, followed by the transfer of the shoots to sterile peat:vermiculite (1:1) mixture, was beneficial. After acclimatization for 3 to 4 wk under mist, almost all the rooted shoots could be transplanted successfully to the greenhouse, where the plants exhibited normal growth habit. Histologic studies on the ontogeny of adventitious shoot formation from mature embryo explants revealed temporal structural changes in different parts of the explant. Induction of mitotic divisions on the shoot-forming medium resulted in the formation of meristemoids in the epidermal and subepidermal layers of the explant, located initially at both the tips of the cotyledons and the axils of adjacent cotyledons. Shoot buds arising in the axils of adjacent cotyledons were due to new cell division and not to any preexisting meristem.     

Morphogenic capability of <Emphasis Type="Italic">Gentiana kurroo</Emphasis> Royle seedling and leaf explants

Experiments have been carried out on seedling and primary leaf explants of Gentiana kurroo Royle. Morphogenic capacities of cotyledons, hypocotyls and roots were investigated using MS (1962) medium supplemented with 4.64 μM kinetin and 2.26, 4.52 or 9.04 μM 2,4-D. Percentage of callusing explants for each combination was inversely proportional to numbers of obtained embryos. Cotyledons showed the highest morphogenic capabilities. To assess the morphogenic potential of leaf explants, 189 combinations of auxin (NAA, dicamba and 2,4-D) and cytokinin (kinetin, BAP, zeatin, CPPU and TDZ) in different concentrations were tested. The presence of NAA with BAP and dicamba with zeatin produced the greatest number of differentiated somatic embryos. Microscopic analysis of responsive explants led to identifying rhizogenic centers, non-embryogenic and embryogenic cells. The best embryo conversion into germlings was obtained on MS medium containing 4.46 μM kinetin, 1.44 μM GA₃ and 2.68 μM NAA or ½ MS. Both media were supplemented with 4.0% sucrose and 8.0% agar. Depending on explant origin and conversion medium, 55.8–71.0% of somatic embryos developed into germlings and plants.     

In vitro propagation and production of cardiotonic glycosides in shoot cultures of Digitalis purpurea L. by elicitation and precursor feeding

Digitalis purpurea L. (Scrophulariaceae; Foxglove) is a source of cardiotonic glycosides such as digitoxin and digoxin which are commercially applied in the treatment to strengthen cardiac diffusion and to regulate heart rhythm. This investigation deals with in vitro propagation and elicited production of cardiotonic glycosides digitoxin and digoxin in shoot cultures of D. purpurea L. In vitro germinated seedlings were used as a primary source of explants. Multiple shoot formation was achieved for three explant types (nodal, internodal, and leaf) cultured on Murashige and Skoog (MS) medium with several treatments of cytokinins (6-benzyladenine—BA; kinetin—Kin; and thidiazuron—TDZ) and auxins (indole-3-acetic acid—IAA; α-naphthaleneacetic acid—NAA; and 2,4-dichlorophenoxy acetic acid—2,4-D). Maximum multiple shoots (12.7?±?0.6) were produced from nodal explants on MS?+?7.5 μM BA. Shoots were rooted in vitro on MS containing 15 μM IAA. Rooted plantlets were successfully acclimatized. To further maintain the multiple shoot induction, mother tissue was cut into four equal parts and repeatedly sub-cultured on fresh shoot induction liquid medium after each harvest. On adaptation of this strategy, an average of 18 shoots per explant could be produced. This strategy was applied for the production of biomass and glycosides digitoxin and digoxin in shoot cultures on MS medium supplemented with 7.5 μM BA and several treatments with plant growth regulators, incubation period, abiotic (salicylic acid, mannitol, sorbitol, PEG-6000, NaCl, and KCl), biotic (Aspergillus niger, Helminthosporium sp., Alternaria sp., chitin, and yeast extract) elicitors, and precursors (progesterone, cholesterol, and squalene). The treatment of KCl, mycelial mass of Helminthosporium sp., and progesterone were highly effective for the production of cardenolides. In the presence of progesterone (200 to 300 mg/l), digitoxin and digoxin accumulation was enhanced by 9.1- and 11.9-folds respectively.     

Efficient plant regeneration from petiole explants of West Indian gherkin (Cucumis anguria L.) via indirect organogenesis

An efficient protocol for in vitro organogenesis was achieved from callus-derived immature and mature petiole explants of West Indian gherkin (Cucumis anguria L.). Calluses were induced from immature petiole explants excised on 7-day-old in vitro seedlings and mature petiole explants of 40-day-old in vivo plants. The maximum frequency of immature petiole explants (98.0 %) and mature petiole (91.5 %) produced green, compact organogenic callus in Murashige and Skoog (MS) medium with Gamborg (B5) vitamins containing 30 g l^?1 sucrose, 8.0 g l^?1 agar and 4.0 μM naphthalene acetic acid (NAA) with 2.0 μM benzyl amino purine (BAP) after two successive subculture at 11 days interval. Adventitious shoots were produced from the organogenic callus when it was transferred to MSB₅ medium supplemented with 3.0 μM TDZ, 1.0 μM NAA and 0.05 mM L-glutamine with shoot induction frequency of immature petiole 45 shoots and mature petiole 40 shoots per explant. The shoots were excised from callus and elongated in MSB₅ medium fortified with 3.0 μM gibberellic acid (GA₃). Then elongated shoots were rooted in half strength MSB₅ medium supplemented with 3.0 μM indole 3-butyric acid (IBA). Histological analyses of the regeneration process confirmed the indirect organogenesis pattern. Plantlets with well-developed shoot and root systems were successfully acclimatized (95 %) in winter season and exhibited normal morphology and growth characteristics. The survival percentage differed with seasonal variations.     

Factors affecting plantlet regeneration from in vitro cultured immature embryos and cotyledons of Prunus mume “Xue mei”

Using immature embryos and cotyledons as explants, a successful immature embryo culture and efficient plant direct regeneration via organogenesis from cotyledons, which showed different patterns, was established for the “Xuemei” cultivar of Prunus mume. For immature embryo culture, high frequency plantlet forming (89.5%) from embryo axis was obtained on half-strength Murashige and Skoog (½MS) medium supplemented with 13.2 μM 6-benzyladenine (BA) and 2.7 μM 1-naphthaleneacetic (NAA). At the same time, shoots direct differentiation from cotyledons with the embryo axis development was also observed on ½MS medium containing 2.2 μM BA together with different combinations of NAA (2.7, 5.4 μM) and indole-3-butyric acid (IBA) (0, 2.5, 5.0 μM). Better results were achieved when embryo axes were removed from cotyledons and cultured on ½MS medium supplement with 13.2 μM BA, 2.7 μM NAA (72.9%) or 2.2 μM BA, 2.2 μM thidiazuron (TDZ), and 2.7 μM NAA (84.2%), respectively. Regenerated shoots were successfully rooted on ½MS or Woody Plant medium (WPM) supplemented with 2.5–5.0 μM IBA. The effect of embryo axes, BA and TDZ, on cotyledons’ regeneration were investigated in detail. The rooted plantlets were transferred to soil successfully with normal morphology.     

Micropropagation and in vitro flowering of endemic and endangered plant Ceropegia attenuata Hook

Factors affecting in vitro propagation were evaluated for Ceropegia attenuata Hook., an endemic and endangered plant having ornamental potential but a limited reproductive capacity. Rapid shoot multiplication from nodal explants was established using varying concentrations of cytokinins and auxins either alone or in combinations. The highest frequency of shoot induction was achieved when nodal explants were inoculated on Murashige and Skoog (MS) medium supplemented with 13.31 μM 6-benzylaminopurine with a mean of 12.9?±?0.5 shoots per explant. High concentrations of TDZ (6.81–11.35 μM) and KN (6.78–11.61 μM) resulted in stunted and vitrified shoots. Factors implicated in the promotion of floral transition of the C. attenuata have been identified which are 4-amino-3, 5, 6-trichloropicolinic acid (picloram), 6-benzylaminopurine, sucrose and photoperiod. The highest frequency of flowering (100%) was obtained when axillary shoot explants were transferred to MS medium supplemented with picloram (4.14 μM) within 4 weeks of culture. Transfer of in vitro regenerated shoots to half strength MS medium with 2.46 μM indole-3-butyric acid (IBA) showed maximum root induction. The in vitro grown plantlets were successfully acclimatized in the glasshouse with 85% of survival and showed normal development. The developed protocol provided a simple, cost-effective approach for the conservation of endangered plant C. attenuata for replenishing its declining populations.     

Plant regeneration from different explant types of Bituminaria bituminosa and furanocoumarin content along plant regeneration stages

The first protocol for in vitro plant regeneration from different explants of Bituminaria bituminosa, a pasture and medicinal species, has been established. Three explant types (petiole, leaflet and petiole-leaflet attachment “PLA”) cultured on media with different combinations of benzylaminopurine (BA; 5.0, 10.0 or 20.0 μM) and naphthalene acetic acid (NAA) or indole acetic acid (IAA; 0.5 or 5.0 μM) were tested for calli induction, and with 5 μM BA + 0.5 μM NAA or IAA for shoot development. The average number of shoots (≥5 mm) per callus depended on the explant type and the calli induction medium. The highest average number of shoots per callus was achieved by culturing leaflet and PLA explants on 5 μM IAA + 10 μM BA for calli induction and on 0.5 μM IAA + 5 μM BA for shoot development, and by culturing petiole explants on 0.5 μM NAA + 10 μM BA followed by a second culture on 0.5 μM NAA + 5 μM BA. The highest frequency of shoot rooting was achieved with 10.0 μM NAA and 1.0 μM gibberellic acid (GA₃). Rooted plants were acclimatised in a culture chamber, reaching 96 % survival. Acclimatised plants were transferred to a greenhouse and finally to the field, reaching 100 % survival. The furanocoumarin (FC) accumulation was evaluated in organogenic calli, in vitro shoots, ex vitro plants in the greenhouse and in ex vitro plants in the field (after 1 and 4 months of acclimatisation). The content of FCs depended on the plant material evaluated, being higher in ex vitro plants in the field (up to 9,824 μg g^?1 DW total FC) and lowest in organogenic calli (up to 50 μg g^?1 DW total FC). This effect may be due to cell organization, longer exposure to environmental factors and the developmental stage.     

Optimized shoot regeneration for Indian soybean: the influence of exogenous polyamines

A simple and efficient regeneration protocol was established for soybean [Glycine max (L.) Merrill]. Cotyledonary node explants from 7-day-old in vitro seedlings were used as explants. The effect of different plant growth regulators [N ⁶ –benzyladenine (BA), kinetin (KT), thidiazuron (TDZ), gibberellic acid (GA₃), zeatin riboside (ZTR), indole-3-acetic acid (IAA), and indole-3-butyric acid (IBA)] along with polyamines (Spermidine, spermine, and putrescine) were investigated at different stages of regeneration using direct organogenesis system. Exogenous spermidine (137.69 μM) in shoot induction medium containing optimal BA concentration (2.22 μM) induced maximum number of shoots (39.02 shoots/explant) compared to BA (2.22 μM) alone. Regenerated shoots elongated well in shoot elongation medium containing GA₃ (1.45 μM) and spermine (74.13 μM), and developed profuse roots in root induction medium containing putrescine (62.08 μM). Rooted plantlets were successfully hardened and acclimatized with a survival rate of 92 %. The amenability of the standardized protocol using cultivar PK 416 was tested on four more Indian soybean cultivars JS 90–41, Hara soy, Co1, and Co2 of which PK 416 was found to be the best responding cultivar, with a maximum of 96.94 % shoot induction.     

TDZ-induced plant regeneration in <Emphasis Type="Italic">Brassica oleracea</Emphasis> L. var. <Emphasis Type="Italic">botrytis</Emphasis>: effect of antioxidative enzyme activity and genetic stability in regenerated plantlets

The effects of various combinations of plant growth regulators on regeneration potential from seedling-derived leaf tissues of Brassica oleracea L. var. botrytis were evaluated. Callus was induced from 2-wk-old leaf explants. The explants were incubated on Gamborg’s (MSB₅) medium. The maximum frequency of callus induction (85.56%) was recorded on MSB₅ medium supplemented with 9.1 μM thidiazuron (TDZ) and 0.5 μM α-naphthaleneacetic acid (NAA). Optimum shoot induction (54.44%) was obtained on MSB₅ medium supplemented with 4.5 μM TDZ and 0.5 μM NAA. The maximum number of shoots per explant (5.33) was recorded on MSB₅ medium with 4.5 μM TDZ and 0.5 μM NAA, whereas the maximum shoot length (4.86 cm) was recorded for shoots cultured on MSB₅ medium supplemented with 4.5 μM TDZ and 5.7 μM gibberellic acid (GA₃). However, optimum root induction (71.11%) occurred on half-strength Murashige and Skoog basal medium supplemented with 4.9 μM indole-3 butyric acid (IBA). Studies on the antioxidant activity of superoxide dismutase, ascorbate peroxidase, and peroxidase in seedlings, callus, regenerated shoots, and regenerated plantlets cultured on 4.5 μM TDZ and 0.5 μM NAA medium revealed the roles of these key antioxidative enzymes in callus induction and regeneration. The genetic stability of the regenerated plantlets was assessed using inter simple sequence repeat primers. The monomorphic amplification products confirmed true-to-type in vitro regenerated plants. This in vitro regeneration method can be useful in the large-scale production of genetically uniform plants, for genetic transformation, and conservation of elite germplasm of plant species.     

Meristematic nodule culture: a new pathway for in vitro propagation of<Emphasis Type="Italic"> Eucalyptus globulus</Emphasis>

Morphogenesis was induced in Eucalyptus globulus seeds, cotyledons, hypocotyls and leaves from in vitro clonal plantlets. Globular structures were observed after 2 weeks induction on B5 culture medium supplemented with 10% coconut water, 0.05–0.5 mg l^?1 6-benzylaminopurine (BAP) and 0.5 mg l^?1 indole-3-butyric acid (IBA). These continued to proliferate under dark conditions until the 2nd to 3rd subculture. Following transfer to a photoperiod of 16 h light, shoots evolved from these globular structures and developed further to plantlets. The influence of several factors, including culture medium composition, sucrose concentration, the type, concentration and combination of growth regulators and the presence of coconut water was studied. The percentage of explants showing globular structure formation and the number of globular structures per explant were evaluated. Macroscopic, histological and scanning electron microscopic studies revealed that the morphogenic process involved mainly organogenic nodules with fewer globular somatic embryos. The nodules gave rise to shoots and subsequently complete plants following incubation on B5 Gamborg medium containing 0.5 mg l^?1 IBA and 30 g l^?1 sucrose, which promoted root formation.     

Somatic embryogenesis and plantlet regeneration from mature zygotic embryos of Manchurian ash (Fraxinus mandshurica Rupr.)

Using mature cotyledonary explants of Fraxinus mandshurica, an efficient plant regeneration system was developed via somatic embryogenesis. More than 67 % of mature cotyledons of zygotic embryos yielded 23–159 somatic embryos (SEs) per explant when incubated on medium consisting of half-strength Murashige and Skoog (MS) salts and vitamins (MS1/2) supplemented with 8.88 μM 6-benzyladenine (BA), 26.84 μM naphthaleneacetic acid (NAA), 75 g L^?1 sucrose, and 400 mg L^?1 casein hydrolysate (CH). Approximately, 82 % of induced SEs were observed on browning cotyledonary explants. Histological studies of cotyledon explants at various stages of somatic embryogenesis revealed that the SEs originated from single epidermal cells and developed to the globular, heart, torpedo, and cotyledonary stage embryos. Secondary somatic embryos (SSEs) formed on the surface of radicle tips of the SEs. Addition of low concentrations of NAA and 200–400 mg L^?1 CH to MS1/2 medium increased SSE induction. Cotyledonary SSEs were cultured on MS1/2 medium with 10 mM abscisic acid in the presence of light to promote maturation, and >92 % of mature SSEs were able to germinate with normal shoots. After 8 weeks in culture in the presence of light on medium with one-third of the MS macroelements as well as 0.06 μM NAA, >94 % of the germinated SSEs converted into plantlets. Plantlets acclimatized successfully to ex vitro conditions and developed normal phenotypes under field conditions.     

In vitro induction of tetraploid <Emphasis Type="Italic">Ziziphus jujuba</Emphasis> Mill. var. <Emphasis Type="Italic">spinosa</Emphasis> plants from leaf explants

The genetic manipulation of Capsicum has been unsuccessful, and a large bottleneck to transferring the desired genes is due to the difficulty in regenerating whole plants through tissue culture because of its highly recalcitrant and high genotype specificity. This study aimed to investigate and establish rapid shoot regeneration from the proximal ends of the leaves of Capsicum frutescens KT-OC and BOX-RUB varieties. A maximum of 8–10 shoot buds were obtained from the margins of the proximal portion of a cotyledonary leaf explant of C. frutescens variety KT-OC on medium I containing 44.44 µM 6-benzylaminopurine (BA), 5.71 µM indole-3-acetic acid (IAA), 10 µM silver nitrate (AgNO₃) and 1.98 mg L^?1 2-(N-morpholine) ethane sulphonic acid within 4 weeks of incubation, of which 60% of explants responded in terms of shoot buds. Petiole explants (40%) cultured on the same medium produced 2–4 shoots per explant from the distal portion. The cut portions of the cotyledonary leaf proximal portions responded well to shoot bud formation in the presence of 22.20 µM BA and 14.68 µM phenyl acetic acid (PAA), wherein 100% of explants responded in terms of shoot bud formation, with an average of 10?±?1.7 and 8?±?1.9 shoot buds per explant in KT-OC and BOX-RUB varieties, respectively. The differentiated shoots grew well and proliferated in the presence of 14.68 µM PAA?+?22.20 µM BA and 10 µM AgNO₃. Shoot elongation was obtained in presence of 1.44 µM gibberellic acid (GA₃) and 10 µM AgNO₃. These shoots were rooted on plant growth regulator-free half-strength MS medium and upon hardening; field survival rate was 70%. This reproducible regeneration method for C. frutescens, especially the Indian high pungent variety, from proximal portion of cotyledonary leaf and petiole explants, can be used for biotechnological improvement.     

In Vitro Propagation Using Transverse Thin Cell Layer Culture and Homogeneity Assessment in Ceropegia bulbosa Roxb.

Ceropegia bulbosa is an endangered medicinal plant used traditionally in the treatment of various diseases. Our aim is to develop a rapid and a competent procedure for direct and indirect organogenesis from transverse thin cell layer (tTCL) explants of C. bulbosa. Optimum response to direct adventitious shoot bud induction from tTCLs was observed on medium augmented with 8.8 µM 6-benzyladenine (BA) producing 15.6 ± 0.31 shoots per responsive explant. Best callusing response (95 %) was observed with tTCL explants in medium containing 4.5 µM 2,4-dichlorophenoxyacetic acid and 2.2 µM BA. High frequency shoot regeneration (75 %) was observed from tTCL derived calli. Medium containing 8.8 µM BA and 0.27 µM α-naphthalene acetic acid produced 22.2 ± 0.64 shoots with shoots acquiring an average length of 4.6 ± 0.12 cm. In vitro rooting was recorded on ½ strength Murashige and Skoog medium, producing 10.9 ± 0.23 roots with a length of 4.24 ± 0.16 cm. Plants were successfully transferred to the field with a survival rate of 89 %. The clonal nature of the regenerants was assessed using Inter-simple sequence repeat markers.     

Efficient direct plant regeneration from immature leaf roll explants of sugarcane (<Emphasis Type="Italic">Saccharum officinarum</Emphasis> L.) using polyamines and assessment of genetic fidelity by SCoT markers

A rapid and efficient method for in vitro direct plant regeneration from immature leaf roll explants of Saccharum officinarum L. (sugarcane) cv. Co 86032 was developed by the application of exogenous polyamines (PA). The effect of explant source from apical meristems and pre-culture of explants in the dark on shoot regeneration was studied. Adventitious shoot regeneration occurred on the proximal regions of immature leaf roll explants when pre-incubated in the dark for 2 wk and the regeneration response was decreased from the middle to distal end. A higher number of direct shoots (130 primary shoots explant^?1) and multiple shoots (657 secondary shoots explant^?1), were obtained with a combination of spermidine (103.27 μM), spermine (49.42 μM), and putrescine (31.04 μM) along with plant growth regulators. Shoot induction was increased up to twofold and multiplication was increased up to threefold in the medium supplemented with PA. Profuse rooting was observed in putrescine (93.12 μM), spermidine (68.84 μM), and spermine (24.71 μM), with mean number of 57 roots. A twofold increase in the number of roots was observed in medium supplemented with PA with respect to control cultures, which facilitated the successful transplantation and acclimatization process of in vitro propagated sugarcane plants. Histology and scanning electron microscopy analyses supported adventitious direct shoot regeneration from immature leaf roll explants. The genetic stability of in vitro regenerated plants was confirmed using start codon targeted polymorphism marker system.     

Optimization of regeneration and Agrobacterium-mediated transformation of immature cotyledons of chickpea (Cicer arietinum L.)

Immature cotyledons collected at different time intervals from four genotypes of chickpea (C 235, BG 256, P 362 and P 372) were cultured adaxially on Murashige and Skoog (MS) medium supplemented with 6-benzyladenine, thidiazuron, kinetin, zeatin and dimethylallylaminopurine (2-iP), either alone or in combination with indole-3-acetic acid (IAA) or α-napthoxyacetic acid (α-NOA) for dedifferentiation and regeneration of adventitious shoots. Morphogenesis was achieved with explants cultured adaxially on MS medium with 13.68 μM zeatin, 24.6 μM 2-iP, 0.29 μM IAA and 0.27 μM α-NOA. Explants prepared from pods of 21 days after pollination, responded favourably to plant growth regulator treatment in shoot differentiation. Histological studies of the regenerating explants, revealed the initiation of meristematic activity in the sub-epidermal region during the onset of morphogenesis, which can be correlated with elevated activity of cytokinin oxidase-dehydrogenase, for cytokinin metabolism. The regenerated shoots were efficiently rooted in MS medium supplemented with 2.46 μM indole-3-butyric acid and acclimatized under culture room and glasshouse conditions for normal plant development leading to 76–80 % survival of the rooted plantlets. The immature cotyledon explants were used for Agrobacterium-mediated transformation with critical manipulation of cultural conditions like age of explant, O.D. of Agrobacterium suspension, concentration of acetosyringone, duration of sonication and co-cultivation for successful genetic transformation and expression of the reporter gene uidA (GUS). Integration of transgene was confirmed by molecular analysis. Transformation frequency up to 2.08 % was achieved in chickpea, suggesting the feasibility of using immature cotyledon explants for Agrobacterium-mediated transformation.     

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.     

Seasonal and micro-environmental factors controlling clonal propagation of mature trees of marwar teak [<Emphasis Type="Italic">Tecomella undulata</Emphasis> (Sm.) Seem]

A simple method has been developed for clonal propagation of mature trees of Tecomella undulata (Sm.) Seem, a medicinally important deciduous timber tree of hot arid regions, via multiple shoot proliferation from axillary buds after examining the role of season influences and physico–chemical conditions on micropropagation. Spring season (March–April) was the best period for contamination free establishment of explants and maximum sprouting of healthy axillary buds. Shoots proliferated directly from the explant nodes cultured on Murashige and Skoog’s medium containing cytokinins, BAP supporting better growth compared to kinetin during shoot induction as well as multiplication phase. Cytokinin concentration influenced the bud induction frequency and optimal response of 2.6 buds per explant was achieved in 86.66% explants on media supplemented with 10 µM BAP. Stunted shoot buds with excessive callus were observed when cytokinin concentration was increased beyond optimal levels. Ascorbic acid (50 mg/l), arginine and citric acid (25 mg/l each) were added to proliferation and multiplication media for reducing callus proliferation and better shoot growth. Among the media (B5, MS, NN, WPM and SH) tested, SH was best for shoot multiplication. Shoot cultures were multiplied by regular subculture of axillary shoots on SH medium containing 5.0 µM each of BAP and kinetin. Shoots produced roots when cultured on ½× SH medium + 10 μM IBA. Regenerated plantlets were successfully transferred to field after hardening and acclimatization. Genetic homogeneity of tissue culture raised plants was confirmed by generation of monomorphic DNA fragments with Start codon targeted and intersimple sequence repeat (ISSR) markers.     

In vitro propagation of <Emphasis Type="Italic">Cymbidium goeringii</Emphasis> Reichenbach fil. through direct adventitious shoot regeneration

The influence of 2,4-dichlorophenoxyacetic acid (2,4-D), benzyladenine (BA), and thidiazuron (TDZ) on direct rhizome induction and shoot formation from rhizome explants of Cymbidium goeringii was explored. Rhizome segments obtained from in vitro seed cultures of C. goeringii were placed on Murashige and Skoog (MS) medium incorporated with 5, 10, 20, or 40 µM 2,4-D and 1, 2, 4, or 8 µM BA or TDZ alone or in combination with 20 µM 2,4-D. The explants developed only rhizomes on MS medium with or without 2,4-D. The highest percent of rhizome formation (100%) was obtained on MS medium incorporated with 20 μM of 2,4-D. The morphology and number of rhizomes varied with the level of 2,4-D in the medium. Direct adventitious shoot formation was achieved on medium incorporated with BA or TDZ. The adventitious shoots produced per explant significantly increased with the supplementation of 2,4-D to cytokinin-containing medium. The highest mean of 21.8 ± 1.8 shoot buds per rhizome segment was obtained in medium fortified with 20 μM 2,4-D and 2 μM TDZ. The greatest percent of root induction (100%) and the mean of 5.3 ± 1.1 roots per shoot were achieved on ½ MS medium incorporated with 2 μM of α-naphthaleneacetic acid. About 97% of the in vitro-produced plantlets acclimatized in the greenhouse. An efficient in vitro propagation protocol was thus developed for C. goeringii using rhizome explants.