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.     

Micropropagation of <Emphasis Type="Italic">Vitex agnus-castus</Emphasis>, (Verbenaceae)—a valuable medicinal plant

This study describes in vitro shoot induction and plant regeneration from a mature apical meristem and nodal explants of the endangered medicinal shrub Vitex agnus-castus. Multiple shoots were induced directly from the axis of nodal and apical meristem explants on Murashige and Skoog (MS) medium containing 3% sucrose and different concentrations (1.0, 1.5, 2.0, and 2.5 mg/l) of 6-benzyl aminopurine (BAP) in combination with Kinetin (Kin) and α-naphthalene acetic acid (NAA), both at 0.1 mg/l. BAP and Kinetin were used as supplements to MS basal medium, either individually or in combination with auxins. The optimal concentration of BAP for inducing bud break was found to be 2.0 mg/l when Kinetin was at 0.1 mg/l. Regeneration frequency was highest for both apical meristem and nodal explants (94.5% and 90.3%, respectively) when explants were cultured on MS medium supplemented with BAP (2.0 mg/l) and Kin (0.1 mg/l). A maximum of 7.7 ± 0.4 and 6.7 ± 0.2 shoots were obtained per explant for apical meristem and nodal explants, respectively. Regenerated shoots, transferred to MS medium supplemented with either 1.0 or 1.5 mg/l BAP combined with 0.1 mg/l GA₃, showed maximum elongation of 6.7 ± 0.4 and 6.0 ± 1.3 cm in apical meristem and nodal explants, respectively. In vitro regenerated shoots transferred to half-strength MS medium supplemented with 0.1 mg/l IBA induced 90.4% of the shoots to form roots after 30–35 d of culture. Up to 80% of the regenerated shoots were successfully established in soil in the greenhouse.     

Factors affecting regeneration of bambara groundnut [<Emphasis Type="Italic">Vigna subterranea</Emphasis> (L.) Verdc.] from mature embryo axes

A rapid and efficient regeneration procedure via direct organogenesis from mature embryo axes of ten landraces of bambara groundnut has been developed. Embryo axis cultured on hormone-free Murashige and Skoog (MS; Murashige and Skoog, Physiol Plant 15:473–497, 1962) medium produced only single plants, while multiple shoots were produced at the nodal and apical regions of explants within 3–4 wk of culture on MS medium plus B5vitamins (Gamborg et al., Exp Cell Res 50:151–158, 1968) and supplemented with cytokinins such as 6-benzylaminopurine (BAP), kinetin, zeatin, and thidiazuron alone or in combination with α-naphthaleneacetic acid. BAP proved to be the most effective cytokinin tested in this study. The shoot-forming ability of embryo axis was influenced by BAP concentration, and optimal BAP concentration was determined. Vertical orientation of explants on the medium was significantly better than the horizontal position for shoot induction. Genotypes also showed significant differences in their regeneration in terms of percent response (28.77 ± 3.83–77.70 ± 10.64%) as well as an average number of shoots per explant (5.44–12.63). Regenerated shoots elongated in the same medium and rooted upon transfer to full-strength MS medium devoid of growth regulators. Regenerated plants were successfully transferred to soil and all surviving plants were morphologically normal.     

<Emphasis Type="Italic">In vitro</Emphasis> propagation of <Emphasis Type="Italic">Acacia sinuata</Emphasis> (Lour.) Merr. from nodal segments of a 10-year-old tree

Summary An in vitro propagation protocol has been developed using nodal explants from a mature ‘elite’ tree of Acacia sinuata. Tissue browning was circumvented by soaking surface-disinfected explants in a solution of antioxidant (238 μM citric acid). Maximum shoot proliferation (75.2%) was achieved from nodal explants collected during the December to March season in Murashige and Skoog's (MS) medium supplemented with 8.9μM 6-benzyladenine (BA), 2.5μM thidiazuron (TDZ), and 135.7μM adenine sulfate (AS) at the end of the first transfer following initial culture (60 d after inoculation). Gibberellic acid (GA₃) at 1.8 μM promoted shoot elongation. The number of shoots was increased by (1) repeated subculturing of nodal explants on fresh medium with the same composition, and (2) using microcuttings from in vitro-regenerated shoots on MS medium containing 6.6 μM BA where each node produced four shoots. When transferred to half-strength MS medium augmented with 7.4 μM indolebutyric acid (IBA) in vitro-regenerated shoots produced prominent roots. Rooted plants were hardened and successfully established in soil. This protocol yielded an average of 100 plants per nodal explant over a period of 3 mo.     

Regeneration of soybean (<Emphasis Type="Italic">Glycine max</Emphasis> L. Merrill) through direct somatic embryogenesis from the immature embryonic shoot tip

We describe here a simple and efficient system of soybean (Glycine max L. Merrill) regeneration through direct somatic embryogenesis by using immature embryonic shoot tips (IEST) as explants. The cultivar Kaohsiung 10 (cv. K10) used in this study did not show embryogenic response either from mature seed-derived explants (cotyledon, embryonic tip, leaf, shoot and root) or immature cotyledons. However, it showed a high percentage (55.8%) of somatic embryo (SEm) formation from the IEST excised 2–3 wk after flowering, thus indicating the crucial roles of type and age of explants. The IEST put forth primary SEm after 2 mo of culturing on Murashige and Skoog (MS) medium supplemented with 6% sucrose, 164.8 μM 2,4-dichlorophenoxyacetic acid (2,4-D), 5 mM asparagine and 684 μM glutamine. Subsequently, secondary SEm were developed 1 mo after culturing on MS medium containing 123.6 μM 2,4-D and 3% sucrose. Cotyledonary embryos were induced on MS medium supplemented with 0.5% activated charcoal after 1 mo. The embryos were desiccated for 72–96 h on sterile Petri dishes and regenerated on hormone-free MS medium. Plantlets with well-developed shoots and roots were obtained within 5–6 mo of culturing of IEST. The SEm-derived plants were morphologically normal and fertile. Various parameters thought to be responsible for efficient regeneration of soybean through somatic embryogenesis are discussed. To our knowledge, this is the first report to employ IEST as explants for successful direct somatic embryogenesis in soybean.     

Micropropagation of <Emphasis Type="Italic">Cotoneaster wilsonii</Emphasis> Nakai—a rare endemic ornamental plant

A simple and efficient micropropagation system was developed for Cotoneaster wilsonii through node and shoot tip explants obtained from mature field-grown plants. Of the two explants, node explants were found to be the most effective for axillary shoot proliferation. The highest frequency of shoot induction was achieved when nodal explants were incubated on Murashige and Skoog (MS) medium supplemented with 0.5 mg L⁻¹ thidiazuron (TDZ) and 0.1 mg L⁻¹ α- naphthaleneacetic acid (NAA) with an average of 34 shoots per explant. The microshoots were separated from the multiple shoots and subcultured on MS medium supplemented with 3% (w/v) sucrose and 0.8% (w/v) agar for further shoot growth. Maximum rooting was obtained on half-strength MS medium supplemented with 0.5 mg L⁻¹ indole-3-butyric acid (IBA). The in vitro-grown plantlets were successfully acclimatized in a glasshouse with 98% of survival. High concentrations of TDZ (1.5–2.0 mg L⁻¹) and repeated subcultures resulted hyperhydric shoots. Supplementation of the culture medium with silicon significantly reduced the induction of hyperhydric shoots. Increasing silicon concentration significantly decreased malondialdehyde content of the regenerated shoots. Data indicate that addition of silicon to the culture medium can effectively control hyperhydricity.     

Micropropagation of <Emphasis Type="Italic">Sapindus trifoliatus</Emphasis> L. and assessment of genetic fidelity of micropropagated plants using RAPD analysis

An efficient in vitro propagation system has been developed for rapid micropropagation of Soapnut (Sapindus trifoliatus Linn.), a medicinally and economically important tree from nodal (axillary bud) segments of seedlings. The frequency of shoot regeneration from seedling node explant was influenced by the age of the seedlings, growth regulators and successive transfer of the mother explant. Explants from 4-week-old seedlings yielded the maximum shoot regeneration frequency (97.22%) on full-strength MS medium supplemented with 1.0 mg l⁻¹ of 6-benzylaminopurine (BAP). After harvesting the newly formed shoots, the mother explants transferred to same medium subsequently produced a maximum of 5.16 shoots per explant after third passage. Further improvement in the morphogenic response occurred when the nodal explants excised from in vitro regenerated shoots were employed, and 6.89 shoots per explant were obtained on the same medium after the third subculture. Optimal rooting (91.67%) was obtained by placing the micro-shoots in liquid MS medium with 1.0 mg l⁻¹ IBA for 24 h and then transferring to the agar solidified MS medium devoid of IBA. The micropropagated shoots with well-developed roots were acclimatized and successfully transplanted to soil with 90% survival rate. Genetic stability of the regenerated plants was assessed using random amplified polymorphic DNA (RAPD). The amplification products were monomorphic in micropropagated plants and similar to those of mother plant. No polymorphism was detected revealing the genetic integrity of micropropagated plants. This is the first report of an efficient protocol for regeneration of S. trifoliatus through organogenesis, which can be applied for further genetic transformation assays and pharmaceutical purposes.     

<Emphasis Type="BoldItalic">In vitro</Emphasis> propagation of the ornamental bromeliad <Emphasis Type="BoldItalic">Acanthostachys strobilacea</Emphasis> (Schult. f.) Klotzsch via nodal segments

Acanthostachys strobilacea (Schult. f.) Klotzsch is an ornamental species of Bromeliaceae that may show an elongated stem when cultivated in vitro. This work reports a micropropagation protocol for A. strobilacea using nodal segments. Seeds were placed in Murashige and Skoog’s medium with macronutrients diluted to 1/5. Nodal segments isolated from the stems of in vitro elongated plants were subcultured in the same medium and kept in different light intensities (14, 41, and 50 μmol m⁻² s⁻¹) or continuous darkness. Another group of nodes was subcultured according to the position in the mother seedling. The plants that showed the most stem elongation were those that were cultured in 14 μmol m⁻² s⁻¹ or that came from isolated nodal segments in the median and basal regions of the mother plant. After 2 mo, all of the plants originating from the development of lateral buds were transferred to a greenhouse. Only those that were not elongated survived ex vitro and flowered after 1 yr.     

in vitro propagation of Ochreinauclea missionis (Wall. EX G. Don), an ethnomedicinal endemic and threatened tree

Summary Biotechnology has offered a nonconventional method of plant propagation and has been intensively applied as a conservation strategy for sustaining biodiversity for rare plants. In vitro conservation through micropropagation of Ochreinauclea missionis, a rare, endemic and medicinal tree species of Western Ghats in Karnataka region of India is reported. Multiple shoots were initiated from nodal explants on Murashige and Skoog (MS) medium supplemented with 8.8 μM 6-benzylaminopurine (BA) and 0.3% (w/v) activated charcoal. Shoots were elongated in MS medium with a combination of 2.2 μM BA and 5.3 μM α-naphthaleneacetic acid (NAA) or growth regulator-free medium. Individual shoots with a minimum of one node were excised and rooted in vitro on MS medium with 0.3% activated charcoal or ex vitro rooted by treatment with 49 μM indole-3-butyric acid (IBA) for 30 min. Regenerants acclimated in Soil-rite exhibited 65% survival in the greenhouse.     

<Emphasis Type="Italic">In vitro</Emphasis> propagation of North American ginseng (<Emphasis Type="Italic">Panax quinquefolius</Emphasis> L.)

North American ginseng (NAG) (Panax quinquefolius L.) is a medicinally important plant with multiple uses in the natural health product industry. As seed propagation is time-consuming because of the slow growth cycle of the plant, in vitro propagation using a bioreactor system was evaluated as an effective approach to accelerate plant production. An efficient method was developed to multiply nodal explants of NAG using liquid-culture medium and a simple temporary immersion culture vessel. The effects of plant growth regulators, phenolics, and chemical additives (activated charcoal, melatonin, polyvinylpolypyrrolidone, and ascorbic acid) were evaluated on in vitro-grown NAG plants. The highest number (12) of shoots per single node was induced in half-strength Schenk and Hildebrandt basal medium containing 2.5 mg/l kinetin, in which 81% of the cultured nodes responded. In a culture medium with 0.5 mg/l α-naphthalene acetic acid (NAA), roots were induced in 78% of the explants compared to 50% with a medium containing indole-3-acetic acid. All of the resulting plants appeared phenotypically normal, and 93% of the rooted plants were established in the greenhouse. Phenolic production increased significantly (P < 0.05) over a 4-wk culture period with a negative impact on growth and proliferation. Activated charcoal (AC; 50 mg/l) significantly reduced total phenolic content and was the most effective treatment for increasing shoot proliferation. Shoot production increased as the phenolic content of the cultures decreased. The most effective treatment for NAG development from cultured nodal explants in the bioreactor was 2.5 mg/l kinetin, 0.5 mg/l NAA, and 50 mg/l AC in liquid culture medium. This protocol may be useful in providing NAG tissues or plants for a range of ginseng-based natural health products.     

High-frequency in vitro propagation of the endangered species <Emphasis Type="Italic">Tuberaria major</Emphasis>

A novel protocol suitable for the micropropagation of the endangered species Tuberaria major using seedlings as explants is reported. Using this protocol, we studied the effects of explant type (apical shoots and nodal segments) and cytokinins [6-benzyladenine (BA), kinetin, and zeatin (ZEA)] on shoot proliferation. Explant type significantly influenced the proliferation frequency and mean number of shoots, with nodal segments showing a higher proliferation capacity. The mean number of shoots was significantly higher when the explants were cultured in half-strength (1/2) MS medium supplemented with 0.2 mg l⁻¹ BA (6.83 ± 0.77 shoots) or ZEA (6.55 ± 0.71 shoots). The shoots showed a great rooting capacity that was significantly influenced by the concentration of MS macronutrients but not by the concentration of auxins. The highest rooting frequencies (97–100%) were obtained in 1/2 MS medium with or without plant growth regulators. The plants obtained were easily acclimatized to ex vitro conditions, with 97% surviving after 6 weeks. The micropropagated plants were successfully reintroduced into their natural habitat and exhibited normal development. In conclusion, our culture protocol, with efficient seed germination, subsequent multiplication of nodal explants using ZEA at 0.2 mg l⁻¹, and successful ex vitro establishment of well-rooted plantlets on 1/2 MS medium, provides a simple and reliable methodology for the large-scale propagation of T. major, thereby contributing to germplasm preservation of this endangered species.     

<Emphasis Type="Italic">In vitro</Emphasis> propagation of <Emphasis Type="Italic">Decalepis arayalpathra</Emphasis>, a critically endangered ethnomedicinal plant

Summary This study reports a protocol for successful micropropagation of Decalepis arayalpathra (Joseph and Chandras) Venter. (Janakia arayalpathra Joseph and Chandrasekhran; Periplocaceae), a critically endangered and endemic ethnomedicinal plant in the southern forests of the Western Ghats which is overexploited for its tuberous medicinal roots by the local Kani tribes. Natural regeneration is rare and conventional propagation is difficult. Conservation of the species through micropropagation was attempted. The nodal explants of greenhouse-raised plants, were more desirable than cotyledonary nodal explants of aseptic seedlings. The basal nodes (73%) of 12–16-wk-old greenhouse-grown plants cultured in Murashige and Skoog (MS) medium containing 12.96 μM 6-benzyladenine (BA), 2.48 μM 2-isopentenyladenine (2-ip) and 2.68 μM α-naphthaleneacetic acid (NAA) formed 16–17 cm long unbranched robust solitary shoots in 8 wk. Cotyledonary nodal explants cultured in the same medium showed multiple shoot formation and axillary branching. But the shoots were thin, fragile and not suitable for mass propagation. Single nodes of a solitary shoot subcultured on MS medium containing 2.22 μM BA and 0.24 μM 2-ip together produced 9.8±0.3 nodes from 18.0±0.6 cm long shoots within 5–6 wk. The basal nodes of the shoots so formed were repeatedly subcultured to increase the stock of propagules while the 2.5–3.0 cm terminal cuttings were used for rooting. The best root induction (68%) and survival (86%) was achieved on half-strength MS medium supplemented with 1.07 μM NAA. Field-established plants showed uniform growth and phenotypic similarity to parental stock.     

Micropropagation of Searsia dentata

A method for in vitro regeneration of Searsia dentata from nodal and shoot tip explants derived from mature trees is outlined. Nodal explants produced multiple shoots from the axis when cultured on Murashige and Skoog (MS) medium containing 3% sucrose supplemented with 0, 5, 7.5, 10, or 12.5 μM N ⁶-benzyladenine (BA). An average of 5.3 shoots was obtained from nodal explants on 10 μM BA. For shoot tip explants, however, supplementation of α-naphthaleneacetic acid (NAA) with BA favored a caulogenic response. A maximum of 6.1 shoots were produced per shoot tip explant on MS containing 7.5 μM BA plus 5.0 μM NAA. The in vitro-regenerated shoots produced roots when transferred to full-strength MS medium containing 3% sucrose and 10 μM indole-3-butyric acid (IBA). The developed plantlets were transferred initially to a mist house. After an initial acclimatization period of 3–4 mo, plantlets were shifted to the greenhouse where they thrived for 9 mo. The standardized protocol for mass propagation of S. dentata should eliminate the dependence on natural stands of plants for traditional medicinal purposes, and will also serve as a means of conservation as the species is heavily overexploited.     

In vitro clonal propagation of annatto (Bixa oreliana L.)

Summary A protocol for in vitro propagation of Bixa orellana is described. Plants were regenerated from shoot apex and nodal explants on B5 medium supplemented with 4.9 μM 2-isopentenyl adenine. The multiplication factor of shoot apex explants was higher (nine shoots per explant) than that of the nodal explants (five shoots per explant). Regardless of the position of the nodes, all the nodal explants gave similar responses. However, the size of the nodal explant was an important factor in producing multiple shoots: 0.5 cm nodal explants produced the maximum multiple shoots. Regenerated shoots from shoot apex explants rooted best on MS medium supplemented with 0.05 μM α-naphthalene acetic acid (NAA). whereas shoots regenerated from nodal explants needed 2.7 μM NAA for rooting. Eighty per cent survival of in vivo transferred plants occurred on the best potting substrate, coco peat. Since the multiplication factor was nine per explant, this protocol can be use for commercial microprogation. However, the regeneration capacity declined after 10 subcultures. Approximately, 3350 rooted plants could be generated in 10 mo. after eight subcultures, from one shoot with a shoot apex and four nodes.     

An efficient protocol for micropropagation of <Emphasis Type="Italic">Melaleuca alternifolia</Emphasis> Cheel

Melaleuca alternifolia is cultivated for the production of an essential oil useful in the cosmetic and pharmaceutical industries. Despite the economic importance of this species, there is little knowledge about its in vitro propagation. The aim of this study was to establish an efficient protocol for micropropagation of M. alternifolia. With the goal of in vitro multiplication by axillary shoot proliferation, both solid and liquid MS and WPM media were tested with supplementation with BA at 0, 0.55, 1.11, 2.22, 3.33, and 4.44 μM. The best result for shoot multiplication was obtained when either 0.55 μM BA was added into solid MS medium or 1.11 μM BA was added into liquid MS medium, with 5.6 and 11.8 shoots per explant generated, respectively. On solid or liquid WPM medium supplemented with 0.55 μM BA, the proliferation rates were 5.5 and 4.7, respectively. Three auxins (NAA, IAA, and IBA) were tested at 0.53 and 2.64 μM during the rooting stage. Several sucrose concentrations (15, 30, and 45 g L⁻¹) were compared to a sucrose-free medium. Rooting performances on four culture media were then compared: MS, half-strength MS (MS/2), MS + activated charcoal (AC), and MS/2 + AC. The results showed that auxin addition to culture medium is not necessary for in vitro rooting. Rooted microcuttings from different culture media were acclimatized in a greenhouse, and the survival percentage was evaluated. All shoots cultured in an auxin-free MS medium supplemented with sucrose (30 g L⁻¹) produced roots, and all plants survived during acclimatization. Activated charcoal added in rooting medium reduced rooting rates.     

Plant regeneration from stem nodal segments of <Emphasis Type="Italic">Orthosiphon stamineus</Emphasis> benth., a medicinal plant with diuretic activity

Summary A micropropagation method for Orthosiphon stamineus, using stem nodal segments, has been developed. The highest number of regenerated shoots was obtained on Murashige and Skoog (MS) medium supplemented with 6.7 μM benzyladenine with the formation of an average of 6.1 shoots per explant over a period of 4 wk. The number of shoots increased with longer culture duration on proliferation medium. Multiple shoots which were maintained on the proliferation medium for 6 wk had the highest proliferation rate. Separation of multiple shoots and culturing in larger flasks significantly promoted the growth and formation of plantlets. All the in vitro plantlets survived when transferred to the field and showed no significant morphological differences from the mother plants.     

An efficient protocol for large-scale plantlet production from male floral meristems of <Emphasis Type="Italic">Musa</Emphasis> spp. cultivars Virupakshi and Sirumalai

In vitro propagation has played a key role for obtaining large numbers of virus free, homogenous plants, and for breeding of plantains and bananas (Musa spp.). Explant sources utilized for banana micropropagation include suckers, shoot tips, and floral buds. The present study employed male floral meristems as explant material for micropropagation of hill banana ecotypes (AAB) ‘Virupakshi’ and ‘Sirumalai.’ Immature male floral buds were collected from healthy plants from hill banana growing areas. Exposure of explants to ethyl alcohol (70%, v/v) for 30 s, then mercuric chloride (0.1%, w/v) for 30 s, followed by three independent rinses of 5 min each in autoclaved, double-distilled water satisfactorily reduced the contamination. Male floral bud explants were cultured on Murashige and Skoog (MS) basal medium supplemented with different combinations of 6-benzylaminopurine (BAP), coconut water, naphthaleneacetic acid, gibberellic acid, and additional supplements. MS medium supplemented with 5 mg l⁻¹ BAP and coconut water (15%) was the most efficient media for shoot initiation and multiple shoot formation (15 shoots from a single part of a floral bud). The best response for shoot elongation was obtained using the combination of basal MS, 5 mg l⁻¹ BAP, 1 mg l⁻¹ naphthaleneacetic acid and 1.5 mg l⁻¹ gibberellic acid. Regenerated shoots were rooted in basal MS medium within 15–20 d. The rooted plantlets were transferred to a soil mixture and maintained at a temperature of 25 ± 2°C for 10 d and then at room temperature (30–32°C) for 2 wk, before transferring to a greenhouse. The regenerated plantlets showed 100% survival.     

Indirect regeneration of the Cancer bush (<Emphasis Type="Italic">Sutherlandia frutescens</Emphasis> L.) and detection of <Emphasis Type="SmallCaps">l</Emphasis>-canavanine in <Emphasis Type="Italic">in vitro</Emphasis> plantlets using NMR

The present study reports a simple protocol for indirect shoot organogenesis and plant regeneration of Sutherlandia using rachis and stem segments. Different concentrations (0.0–68.08 μmol l⁻¹) of thidiazuron (TDZ) were used for callus induction and shoot organogenesis. The highest percentage of callus formation (97.5%) and the highest percentage of explants forming shoots (88.8%) were obtained from rachis explants cultured onto Murashige and Skoog (MS) medium (Murashige and Skoog, Physiol. Plant. 15:473–495, 1962) supplemented with 45.41 μmol l⁻¹ TDZ. Scanning electron microscopy demonstrated the early development of adventitious shoots derived from callus cultures. Shoot clusters were further developed and grown in MS hormone-free medium. The presence of l-canavanine was determined by thin-layer chromatography and confirmed after column fractionation using silica gel and nuclear magnetic resonance spectroscopy. Individual shoots were rooted on different concentrations and combinations of MS salt strength and IBA. Half-strength MS salt medium supplemented with 24.6 μmol l⁻¹ IBA was optimal for root induction in which 78% of shoots were rooted. The in vitro plants were successfully acclimatized in a growth chamber with a 90% survival rate.     

High efficiency <Emphasis Type="Italic">in vitro</Emphasis> plant regeneration from epicotyl explants of Chinese peanut cultivars

An efficient organogenesis and micropropagation system was developed for in vitro plant regeneration of multiple cultivars of peanut (Arachis hypogaea). The system was used to regenerate plants from nine cultivars: Luhua no. 9, Luhua no. 13, Luhua no. 14, Fenghua no. 1, Fenghua no. 3, Fenghua no. 5, Huayu no. 23, Qinglan no. 2, and Baisha 1016. Epicotyl and embryo axis explants were cultured on Murashige and Skoog (MS) basal medium supplemented with 33.29–44.39 μM 6-benzyladenine (BAP) and 2.15–4.30 μM α-naphthaleneacetic acid (NAA). The highest rate of shoot formation was observed in epicotyl explants taken from 4-d-old seedlings (5.1 ± 1.4 shoots per explant). Optimum shoot development was observed in explants cultured on MS medium containing 4.48 μM BAP and 2.89 or 5.78 μM gibberellin (GA₃). Well-developed shoots (3–5 cm high) formed roots after 2 wk on MS medium containing 0–2.69 μM NAA. We observed that all multiple shoots formed at the site of epicotyl incision and at the upper end of each section, indicating physiological polarity of shoot formation. The maximum shoot induction rate for Luhua no. 9, Luhua no. 13, Luhua no. 14, Fenghua no. 1, Fenghua no. 3, Fenghua no. 5, Huayu no. 23, Qinglan no. 2, and Baisha 1016 was 60.0%, 83.3%, 80.7%, 91.5%, 86.0%, 59.7%, 75.0%, 67.3%, and 72.7%, respectively. This regeneration system will play a vital role in achieving the genetic improvement of Chinese peanut.     

Micropropagation of <Emphasis Type="Italic">Teucrium fruticans</Emphasis> L., an ornamental and medicinal plant

An efficient protocol for in vitro propagation of the valuable ornamental and medicinal plant Bush germander (Teucrium fruticans L.) was developed through axillary shoot proliferation. A Murashige and Skoog agar medium supplemented with benzylaminopurine (6.6 μM), α-naphthaleneacetic acid (0.053 μM), and sucrose (3%) significantly improved the production of multiple shoots directly from nodal segment explants, resulting in an average of 2.8 shoots per segment with an average of 6.8 nodes per shoot that would be potential newly formed explants. The new shoots were developed without a marked decrease in the average height of the shoots. Shoots treated with 2.5 μM indole-3-butyric acid showed the highest average root number (7.9) and the highest percentage of rooting (94%). Plantlets were hardened off and transferred to jiffy pots for acclimatization under greenhouse conditions, resulting in a 100% survival rate.