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.     

In vitro plant regeneration from seedling explants of Stereospermum personatum D.C.: a medicinal tree

Padar (Stereospermum personatum, family Bignoniaceae) is a well-known medicinal tree. Its complete regeneration occurred through shoot bud culture in vitro. The seeds germinated sequentially on plastic trays and polyethylene bags for 21 days served as explants source. Nodal segments from the seedlings were established on MS medium supplemented with 4.44 μM BA, in which 86.6% nodes showed shoot bud elongation. Then, nodal segments from the developed shoots were cultured on MS medium with several BA concentrations; best shoot multiplication was obtained with 0.44 μM BA. In a second experiment where PVP was added to proliferation medium, nodal segments from developed shoots produced maximum 2.78 shoots per node. The nodal segments showed shoot multiplication up to seventh subculture on. Finally, shoots were rooted on MS medium with 2.46 μM IBA. The plants transferred to net pots containing coco-peat were acclimatized in green house, where more than 80% plants survived and grew normally.     

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.     

Influence of phenylacetic acid on clonal propagation of <Emphasis Type="Italic">Decalepis hamiltonii</Emphasis> wight &; ARN: An endangered shrub

Summary We have developed a highly efficient two-stage protocol for induction of multiple shoots from single node in vitro shoot tip explants of Decalepis hamiltonii. It was found that phenylacetic acid (PAA) had a synergistic effect on shoot multiplication when treated with N⁶-benzyladenine (BA). This protocol used PAA for both multiple shoot induction from nodal explants, elongation of primary shoots, and initiation of adventitious shoot formation from primary shoots. Murashige and Skoog medium containing BA (2.22–31.08 μM) and α-naphthaleneacetic acid (0.27–10.74 μM) or PAA (7.34–36.71 μM) was used to initiate shoot formation from nodal explants. The maximum number of shoots per culture was produced on a medium containing 31.08 μM BA and 14.68 μM PAA, while the longest shoot length and nodes were obtained on medium containing 22.2 μM BA and 14.68 μM PAA. Shoots subcultured on MS medium containing 22.2 μM BA and 14.68 μM PAA elongated along with secondary shoot formation. The shoots were rooted on medium containing 9.7 μM indole-3-butyric acid. The plantlets were acclimatized in soil with an 80–90% survival rate under field conditions.     

Rapid in vitro multiplication of <Emphasis Type="Italic">Melia azedarach</Emphasis> L. (a multipurpose woody tree)

An efficient regeneration protocol for rapid multiplication of Melia azedarach, an economically as well as medicinally important timber-yielding tree, was developed. Nearly 90% of the culture exhibited axillary bud sprouting and multiple shoot formation from nodal segments derived from 20-year-old candidate plus tree on Murashige and Skoog (MS) medium supplemented with 5 μM 6-benzyladenine (BA). The highest shoot regeneration frequency (92%), maximum number of multiple shoots (19.7 ± 0.31) as well as shoot length (4.9 ± 0.08 cm) was induced from nodal explants on MS medium amended with 5.0 μM BA, 0.5 μM indole-3-acetic acid (IAA) and 30 μM adenine sulfate (AdS). Addition of 250 mg l⁻¹ ammonium sulphate, (NH₄)₂SO₄, and 100 mg l⁻¹ K₂SO₄, prevented defoliation and tip burning without affecting the number of shoots. The explant harvest period also influenced the bud break and shoot sprouting from nodal segments. Repeated subculturing of nodal explants on fresh MS medium containing lower concentration of BA (2.5 μM) along with IAA (0.5 μM), AdS (30 μM) and additives was found most suitable growth regulator regime for achieving 1.2-fold increase in shoot multiplication rate. The percentage of shoot multiplication as well as the number of shoots per node remained the same during first three subculture passages, afterwards a decline was recorded. About 90% of the in vitro regenerated shoots were successfully rooted ex vitro by giving a pulse treatment of 250 μM indole-3-butyric acid for 15 min, followed by their transfer to thermocol cups containing soilrite. The raised plantlets were successfully acclimatized first under culture room conditions, then to green house with 85% survival rate.     

A rapid in vitro propagation protocol for Piper barberi Gamble, a critically endangered plant

Summary A protocol is described for rapid multiplication of Piper barberi Gamble (Piperaceae) through shoot tip and nodal explant cultures. Nodal explants with a single axillary meristem showed three times better response with respect to shoot proliferation when compared to shoot tip explants. The best shoot proliferation response of nodal explants was observed with a cytokinin combination of N₆-benzyladenine (4.43 μM) and kinetin (2.32 μM), with 88% bud break. The number of shoot initials (2.4) produced per nodal explant was twice the number of shoot initials (1.2) per shoot tip. An average of 6.9±0.58 adventitious shoots were observed from the proximal end of the internodal explants on Mursashige and Skoog (1962) (Ms) basal medium supplemented with N₆-benzyladenine (2.22 μM) and kinetin (0.46 μM). A multiplication rate of 82 shoots per explant could be achieved after 9 wk of subculturing. The in vitro shoots were rooted on one-half and one-quarter MS basal medium. The shoots rooted on one-quarter MS in the dark produced eight roots with an average root length of 3.36 cm and 98% survival. These plants were transferred to the field with a survival rate of 75%.     

<Emphasis Type="Italic">In vitro</Emphasis> plant regeneration through somatic embryogenesis and direct shoot organogenesis in <Emphasis Type="Italic">Pennisetum glaucum</Emphasis> (L.) R. Br.

An efficient in vitro plant regeneration protocol through somatic embryogenesis and direct shoot organogenesis has been developed for pearl millet (Pennisetum glaucum). Efficient plant regeneration is a prerequisite for a complete genetic transformation protocol. Shoot tips, immature inflorescences, and seeds of two genotypes (843B and 7042-DMR) of pearl millet formed callus when cultured on Murashige and Skoog (MS) medium supplemented with varying levels of 2,4-dichlorophenoxyacetic acid (2,4-D; 4.5, 9, 13.5, and 18 μM). The level of 2,4-D, the type of explant, and the genotype significantly effected callus induction. Calli from each of the three explant types developed somatic embryos on MS medium containing 2.22 μM 6-benzyladenine (BA) and either 1.13, 2.25, or 4.5 μM of 2,4-D. Somatic embryos developed from all three explants and generated shoots on MS medium containing high levels of BA (4.4, 8.8, or 13.2 μM) combined with 0.56 μM 2,4-D. The calli from the immature inflorescences exhibited the highest percentage of somatic embryogenesis and shoot regeneration. Moreover, these calli yielded the maximum number of differentiated shoots per callus. An efficient and direct shoot organogenesis protocol, without a visible, intervening callus stage, was successfully developed from shoot tip explants of both genotypes of pearl millet. Multiple shoots were induced on MS medium containing either BA or kinetin (4.4, 8.8, 17.6, or 26.4 μM). The number of shoots formed per shoot tip was significantly influenced by the level of cytokinin (BA/kinetin) and genotype. Maximum rooting was induced in 1/2 strength MS with 0.8% activated charcoal. The regenerated plants were transferred to soil in pots, where they exhibited normal growth.     

Rapid in vitro multiplication and plant regeneration from nodal explants of Andrographis paniculata: a valuable medicinal plant

A rapid and efficient method for the large-scale propagation of a highly valuable medicinal plant, Andrographis paniculata Nees, through in vitro culture of nodal explants obtained from 15-d-old aseptic seedling has been developed. High frequency direct shoot proliferation was induced in nodal explants cultured on Murashige and Skoog’s medium supplemented with 6-benzylaminopurine (BAP). Amongst the various cytokinins tested (BAP, kinetin, thidiazuron and 2-isopentyl adenine), BAP proved to be the most effective. The shoot forming capacity of the nodal explants was influenced by the BAP concentration (1–12.5 μM), and the optimal response was observed at 10 μM BAP, which induced an average of 34 shoots in 94% of the cultures within 4 wk. Significant differences were recorded in terms of average number of shoots per explant (8.6–34.1) among the different concentrations of BAP investigated. Concentrations of all cytokinins tested reach a level that can be considered above the optimum level, as marked by a reduced frequency of shoot proliferation. The multiple shoots obtained on various concentrations of BAP failed to elongate even after transfer to hormone-free MS medium. Elongation of the induced shoots was achieved on MS basal medium supplemented with 1.0 μM GA₃ within 2 wk. A proliferating shoot culture was established by repeatedly subculturing the original nodal explants on shoot multiplication medium after each harvest of the newly formed shoots. The explants retained their morphogenic potential even after three harvests. Therefore, in 90 d, about 60–70 shoots were obtained from a single nodal explant and the nodal explants from primary shoots further regenerated equivalent number of shoots, depicting their high frequency regeneration potential in A. paniculata. Rooting was best induced in 94% of shoots cultured on MS medium supplemented with 2.5 μM indole-3-butyric acid (IBA), within a wk. The plantlets were successfully transferred to soil after hardening with a 92% survival rate. The system is rapid: the initiation of shoot buds to the transplanting of regenerants to soil is completed in 8–9 wk.     

Comparative adventitious shoot induction in kentucky coffeetree root and petiole explants treated with thidiazuron and benzylaminopurine

Summary Adventitious shoot induction and elongation was compared between root and petiole explants of Kentucky coffeetree (Gymnocladus dioicus L.) explants treated with a factorial combination of benzylaminopurine (BA) and thidiazuron (TDZ). Petiole explants initiated more adventitious shoots compared to root explants. Up to 83% of petiole explants initiated shoots compared to 67% of root explants. Maximal shoot induction was approximately 12 or five shoots per responding explant for petiole and root explants, respectively. For both explant types, TDZ was more effective than BA for shoot induction. There was an interaction between BA and TDZ on shoot induction in petiole explants, with the greatest percentage of explants forming shoots and the highest number of shoots initiated on the combination of 0.5 μM TDZ plus 10μM BA and 1.0μM TDZ plus 5 or 10 μM BA. In contrast, increasing concentrations of BA inhibited shoot initiation in root explants with and without TDZ. While BA inhibited shoot initiation in root explants, it promoted shoot initiation in petiole explants. In contrast, TDZ was equally effective at inducing shoots in root and petiole explants. This suggests that root and petiole explants of Kentucky coffeetree could be a useful model system for studying the differences, in apparent mode of action between TDZ and BA on adventitious shoot initiation.     

In vitro plant regeneration of Mammillaria elongata normal and cristate forms

In the normal form of Mammillaria elongata, shoots were regenerated in vitro, through callus, from tubercle explants excised from the upper part of the branch and cultured on Murashige and Skoog medium (MS) with 1.07 μM α-napthaleneacetic acid (NAA) and 22.20 μM 6-benzylaminopurine (BA). A high percentage of tubercles explants of the M. elongata cristate form, excised from the tip of the branch and cultured on MS with 0.54 μM NAA and 0.44 μM BA or 1.07 μM NAA, responded by initially forming an inflated cristate shoot, which gave cristate and normal shoots, without callus intervention, when transferred on basal MS. Callus formed on cristate tubercles explants gave both cristate and normal shoots when transferred onto basal MS. Normal and cristate shoots were rooted in vitro on MS with 9.84 μM or 0.98 μM indole-3-butyric acid, respectively, and established ex vitro. In both normal and cristate form, the differential response appeared to be associated with the site of the explant excision. The formation of shoots was influenced by the season of culture; i.e., explants excised in October had a higher shoot formation rate than those excised February. This revised version was published online in June 2006 with corrections to the Cover Date.     

In vitro propagation of Cleome spinosa (Capparaceae) using explants from nursery-grown seedlings and axenic plants

Summary Two independent experiments were performed to establish micropropagation of Cleome spinosa from stem segments. In the first experiment, direct shoot organogenesis on hypocotyl explants from 2-mo.-old nursery-grown seedlings was obtained on Murashige and Skoog medium with different combinations of benzyladenine (BA) and 6-furfurylaminopurine, added either individually or in combination. Best proliferation rates occurred in the presence of 2.2 and 4.4 μM BA and the highest mean number of shoots was produced in response to 4.4 μM BA. In the second experiment, regeneration via direct organogenesis was also obtained from nodal and internodal segments of axenic plants cultured in the presence of BA (4.4 and 8.8 μM) in association with indole-3-acetic acid (IAA) (0.57 and 1.14 μM). Internodal explants were the most responsive on all media tested. The best mean number of shoots per explant was achieved on medium with 4.4 μM BA in association with 0.57 μM IAA. Histological studies of the globular structures formed at the apical portion of the explants revealed direct shoot regeneration and adventitious shoot differentiation from meristematic centers around the vascular bundles of the primary regenerants. All shoots elongated and rooted on MS0 medium. The acclimatization rates ranged between 70 and 84%. Plants reached to maturity and flowered 4 mo. after transfer to ex vitro conditions.     

<Emphasis Type="Italic">In vitro</Emphasis> propagation of northern red oak (<Emphasis Type="Italic">Quercus rubra</Emphasis> L.)

In vitro propagation of northern red oak (Quercus rubra) shoots was successful from cotyledonary node explants excised from 8-wk-old in vitro grown seedlings. Initially, four shoots per explant were obtained on Murashige and Skoog (MS) medium supplemented with 4.4 μM 6-benzylaminopurine (BA), 0.45 μM thidiazuron (TDZ), and 500 mg l⁻¹ casein hydrolysate (CH) with a regeneration frequency of 64.7% after 3 wk. Subculturing explants (after harvesting shoots) to fresh treatment medium significantly increased shoot bud regeneration (16.6 buds per explant), but the buds failed to develop into shoots. A higher percentage (73.3%) of the explants regenerated four shoots per explant on woody plant medium (WPM) supplemented with 4.4 μM BA, 0.29 μM gibberellic acid (GA₃), and 500 mg l⁻¹ CH after 3 wk. Explants subcultured to fresh treatment medium after harvesting shoots significantly increased shoot regeneration (16 shoots per explant). Shoot elongation was achieved (4 cm) when shoots were excised and cultured on WPM supplemented with 0.44 μM BA and 0.29 μM GA₃. In vitro regenerated shoots were rooted on WPM supplemented with 4.9 μM indole-3-butyric acid. A higher percentage regeneration response and shoot numbers per explant were recorded on WPM supplemented with BA and GA₃, than on MS medium containing BA and TDZ. Lower concentrations of BA and GA₃ were required for shoot elongation and prevention of shoot tip necrosis. Each cotyledonary node yielded approximately 20 shoots within 12 wk. Rooted plantlets were successfully acclimatized.     

Propagation of Dalbergia sissoo Roxb. through in vitro shoot proliferation from cotyledonary nodes

A protocol is presented for micropropagation of an economically important timber-yielding forest tree, Dalbergia sissoo Roxb. (Sissoo). Multiple shoots were induced from cotyledonary nodes derived from 1-week-old axenic seedlings on Murashige and Skoog's medium containing either N ⁶-benzyladenine (BA), kinetin (Kn), isopentenyladenine (2iP) or thidiazuron (TDZ), with BA being the most effective growth regulator. High-frequency shoot proliferation (99%) and maximum number of shoots per explant (7.9 shoots) were recorded with BA at an optimum level of 8.9 μM. Concentrations of all cytokinins tested above the optimum level markedly reduced the frequency of shoot proliferation. A proliferating shoot culture was established by repeatedly subculturing the original cotyledonary node on shoot multiplication medium after each harvest of the newly formed shoots. Primary shoots were multiplied as nodal explants, and from each stem node 2 or 3 shoots developed. Thus, 60–70 shoots were obtained in 3 months from a single cotyledonary node. About 91% of the shoots developed roots following transfer to half-strength MS medium containing a combination of 5.7 μM indole-3-acetic acid, 4.9 μM indole-3-butyric acid and 5.3 μM indole-3-propionic acid. Eighty percent of the plantlets were successfully acclimatized and established in soil. Received: 1 October 1997 / Revision received: 31 March 1998 / Accepted: 7 April 1998     

In vitro plant regeneration from organogenic callus of <Emphasis Type="Italic">Curcuma kwangsiensis</Emphasis> Lindl. (Zingiberaceae)

A novel protocol for callus-mediated shoot regeneration was established for an important medicinal and ornamental plant native to South China, Curcuma kwangsiensis, using shoot base sections excised from seedlings in vitro as explant sources. The frequency of callus formation reached 91% for explants cultured on MS medium containing 1.4 μM TDZ, 4.4 μM BA and 2.3 μM 2,4-D. 8.2 shoots per callus was achieved on MS medium supplemented with 1.4 μM TDZ, 17.8 μM BA and 2.7 μM NAA. Single shoots transferred into MS medium free of plant growth regulator rooted well. Regenerated plants acclimatized ex vitro at 100%, and grew vigorously under shaded greenhouse conditions.     

Direct regeneration from in vitro leaf and petiole tissues of <Emphasis Type="Italic">Populus tremula</Emphasis> ‘Erecta’

Dormant buds from a mature tree of Populus tremula ‘Erecta’ were incubated on a Murashige and Skoog (MS) medium supplemented with 1.0 μM thidiazuron (TDZ). Induced shoots were then proliferated on medium of MS or Woody Plant Medium (WPM), or Driver and Kuniyuki Walnut (DKW) supplemented with varying levels of benzyladenine (BA). Overall, shoots grown on MS medium supplemented with 1.25–2.5 μM BA exhibited the highest frequency of shoot proliferation (>95%) and more than 60% of responding explants produced more than five shoots per explant. Shoot organogenesis was induced from both leaf and petiole explants incubated on WPM medium containing BA, or TDZ, or zeatin. Among the different cytokinins tested, zeatin induced the highest frequency (average 72.1%) of shoot organogenesis. None of explants survived on media containing no cytokinins within 6–8 weeks following culture. Overall, a higher frequency of shoot regeneration was obtained from petioles than from leaf explants. The highest frequency of regeneration was achieved when petioles were incubated on WPM containing 10–20 μM zeatin. Addition of naphthaleneacetic acid (NAA) did not have a significant effect on shoot regeneration in all treatments. Shoot organogenesis was directly induced from petiole explants without intervening callus. Regenerated shoots were easily rooted on all tested media supplemented with 0.5 μM NAA. Rooted plants were transferred to potting mix and grown in the greenhouse.     

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.     

Micropropagation and slow growth conservation of cardamom (<Emphasis Type="Italic">Elettaria cardamomum</Emphasis> Maton)

Cardamom (Elettaria cardamomum Maton) has great commercial value as a spice crop in India. A one-step protocol for direct regeneration of plants and in vitro conservation by slow growth method has been developed. A maximum of 6.5 shoots/culture were obtained in 2 mo or 15.1 shoots/culture in 4 mo on Murashige and Skoog (Physiol Plant 15:473–497, 1962) medium (MS) + 5 μM benzylaminopurine gelled with 0.7% agar (micropropagation medium). Rooting also occurred simultaneously on the same medium. Using one shoot tip or nodal explant, about 30,375 plants can be regenerated in a year on the micropropagation medium. In vitro conservation by slow growth method was achieved on 1/2 MS (major salts) + 5 μM BAP + 0.7% agar (conservation medium); about 70% of the cultures survived up to 18 mo at 25 ± 2°C. Successful regrowth of plants on micropropagation medium was obtained by culturing nodal explants excised from 18-mo-old conserved plants. Some 96% of the plants survived the hardening treatment and grew normally in a greenhouse. If 24 cultures are conserved on the conservation medium, it is possible to regenerate at least 750 plants by using explants derived from 70% of the surviving shoots and culturing the same in micropropagation medium for 4 mo. These plants may be used for planting or as a source of explants for the next conservation cycle. On the basis of 20 random amplified polymorphic DNA and 13 inter-simple sequence repeat primers analyses, no significant reproducible variation was detected among the in vitro-conserved plants compared with the mother plants.     

<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.     

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.     

Shoot organogenesis from petiole explants in the aquatic plant Nymphoides indica

A protocol for rapid shoot organogenesis from petiole explants of the ornamental aquatic plantNymphoides indica L. Thwaites O. Kuntze was developed for use in future mutation breeding and cultivar selection studies. Optimum culture conditions for shoot organogenesis were determined. Effects of factorial combinations of 2-iP, BA or kinetin (0–25 μM) in factorial combination with IAA or NAA (0–25 μM) were examined. On the basis of regeneration frequency (80%) and adventitious shoot number (11.5 shoots per explant), most efficient shoot organogenesis occurred on petiole explants cultured on a basal medium consisting of full-strength MS inorganic salts, 0.56 mM myo-inositol, 1.2 μM thiamine-HCl, 116.8 mM sucrose supplemented with 10 μM BA and 20 μM IAA and solidified with 0.8% TC agar. Formation of adventitious shoots by direct and indirect shoot organogenesis from the same explant was verified by histological sectioning. With the exception of variegated leaf production on a single adventitious shoot produced in the presence of 25 μM kinetin and 15 μM NAA, no visible phenotypic abnormalities were observedin vitro in any of the shoots generated. Solid achlorophyllous adventitious shoots were recovered following culture of this variegated leaf tissue. Plantlets were easily acclimatized toex vitro conditions. This revised version was published online in June 2006 with corrections to the Cover Date.