<Emphasis Type="Italic">In vitro</Emphasis> propagation and cryostorage of <Emphasis Type="Italic">Syzygium francissi (Myrtaceae)</Emphasis> by the encapsulation-dehydration method

Summary An efficient procedure for the in vitro propagation and cryogenic conservation of Syzygium francissi was developed. The maximum number of shoots per explant was obtained on a Murashige and Skoog (MS) medium supplemented with 4.5 μM benzyladenine and 0.5 μM indole-3-butyric acid (IBA). The in vitro-propagated shoots produced roots when transferred to MS medium containing IBA, indold-3-acetic acid, or naphthaleneacetic acid at various concentrations. Rooted microshoots were transferred to a coco-peat, perlite, and vermiculite (1∶1∶1) mixture, and hardened off under greenhouse conditions. Ninety-five percent of rooted shoots successfully acclimatized in the greenhouse. Shoot tips excised from in vitro-grown plants were successfully cryostoraged at −196°C by the encapsulation-dehydration method. A preculture of formed beads on MS medium containing 0.75 M sucrose for 1 d, followed by 6 h dehydration (20% moisture content) led to the highest survival rate after cryostorage for 1h. This method is a promising technique for in vitro propagation and cryopreservation of shoot tips from in vitro-grown plantlets of S. francissi germplasm.     

Adventitious shoot regeneration from ovaries of Hosta ‘Golden Scepter’

Summary The objective of this study was to evaluate the ability ofHosta Golden Scepter (GS) ovary explants to generate adventitious shootsin vitro. Ovaries were transversely cut into halves and transferred to petri dishes containingHosta initiation medium supplemented with naphthaleneacetic acid (NAA) at 2.5 μM and N⁶-benzyladenine (BA) at 10 μM. GS produced adventitious shoots from the ovary base via organogenesis. The number of adventitious shoots regenerated from callus increased linearly with repeated subculturing on Murashige and Skoog (MS) medium supplemented with 2.5 μM NAA and 10 μM BA. The number of multiple shoots developing from callus (15.8), shoot tip (8.4), leaf (6.7), and root (4.3) occurred on MS medium supplemented with 2.5 μM NAA and 20–30 μM BA. There were significant differences in the number of shoots regenerated from shoot tips and callus on MS medium with 50 and 100 mgmyo-inositol per l. Similarly, there were significant differences in the number of axillary shoots and adventitious shoots produced with 20 g/l sucrose treatment.     

Efficient plant regeneration in <Emphasis Type="Italic">Holarrhena antidysenterica</Emphasis> Wall., from shoot segment-derived callus

Summary A procedure has been outlined for plant regeneration of an important medicinal shrub, Holarrhena antidysenterica, through shoot segment-derived callus. Explants used for callus induction were shoot segments derived from 14-d-old axenic plants on Murashige and Skoog (MS) medium supplemented with 15 μM N⁶-benzyladenine (BA). A white friable type of callus was obtained in 4.52 μM 2,4-dichlorophenoxyacetic acid and 2.32 μM kinetin which did not have the potentiality to regenerate. High-frequency shoot differentiation was achieved on transferring the friable callus to MS medium supplemented with 17.8 μM BA and 8.0 μM naphthaleneacetic acid. The highest percentage of calluses forming shoots (65.06±2.26) was achieved in this medium. The organogenetic potential of the regenerating callus was influenced by the age of the culture. Rooting was achieved on the shoots using MS medium with 25 μM indolebutyric acid. The plantlets were acclimatized and established in soil. The regenerated plants were morphologically uniform and exhibited similar growth characteristics and vegetative morphology to the donor plants.     

Overcoming phenolic accumulation during callus induction and in vitro organogenesis in water chestnut (Trapa japonica Flerov)

Summary Procedures for callus induction and subsequent organogenesis in the aquatic plant, water chestnut (Trapa japonica Flerov), were established. Phenolics exuded from explants at the callus-induction stage adversely affect callus growth. For cotyledonary node-derived callus cultured in Murashige and Skoog (MS) medium (full, half or quarter strength) containing 2,4-dichlorophenoxyacetic acid (2,4-D) alone or in combination with benzyladenine (BA), the accumulation of phenolics was reduced and callus induction increased by the addition of 10.8 μM phloroglucinol (PG) to the medium. Ascorbic acid was also effective in reducing phenolic accumulation, but less effective for callus induction than PG. Half-strength MS medium supplemented with 2.7 μM 2,4-D, 108.0 μM casein hydrolyzate, and 10.8 μM PG supported maximum callus induction. Plant organogenesis was increased by addition of vitamins (0.27 μM biotin and 2.7 μM folic acid) to half-strength MS medium supplemented with 0.27 μM BA. Many shoots developed from the regenerated nodal shoot explants in liquid half-strength MS salts medium supplemented with 1.08 μM BA and 0.27 μM naphthaleneacetic acid. Individual shoots were excised and cultured in liquid half-strength MS medium supplemented with 5.4 μM IBA and rooted plantlets (108) were transferred and acclimatized in plastic pots. After 3 wk, the plantlets were transplanted in a water chestnut field and the survival rate was 100%.     

Organogenesis,embryogenesis, and synthetic seed production in <Emphasis Type="Italic">Arnebia euchroma</Emphasis>—A critically endangered medicinal plant of the Himalaya

Summary This is the first report of simultaneous organogenesis and somatic embryogenesis in Arnebia euchroma, a highly valued, critically endangered medicinal plant of the Himalaya. Root-derived callus showed only rhizogenesis, whereas leaf-derived callus showed simutaneous organogenesis and somatic embryogenesis. Organogenesis was optimal (12.2 shoots per culture) in 1 μM indole-3-butyric acid combined with 2.5 μM 6-benzyladenine and induction of somatic embryogenesis (16.3 embryos per culture) occurred in 2.5 μM indole-3-butyric acid combined with 2.5 μM 6-benzyladenine. Shoots rooted (100%) best in half-strength Murashige and Skoog (MS) medium supplemented with 2.0 μM indole-3-butyric acid. Early cotyledonary-stage embryos encapsulated with 3% sodium alginate and calcium nitrate (100 mM for 25 min) showed 60.6% germination in MS medium. Rooted shoots transferred to a mixture of sterile soil, sand, and peat (1∶1∶1 by volume) showed 72% survival ex vitro. Application of these protocols would be helpful in reducing pressure in natural populations, in genetic transformation studies, and in long-term storage of elite genotypes through synthetic seed production.     

Plant regeneration by somatic embryogenesis and organogenesis in commercial pineapple (<Emphasis Type="Italic">Ananas comosus</Emphasis> L.)

Summary Axillary and terminal buds from suckers of Ananas comosus cv. Phuket were established on Murashige and Tucker-based (MT) medium with 2.0 mgl⁻¹ (9.8 μM) indolebutyric acid, 2.0 mgl⁻¹ (10.74 μM) naphthaleneacetic acid, and 2.0 mgl⁻¹ (9.29 μM) kinetin, followed by multiplication on Murashige and Skoog-based (MS) medium containing 2.0 mgl⁻¹ (8.87 μM) benzyladenine (BA) to provide a continuous supply of axenic shoots. Leaves, excised from such cultured shoots, produced adventitious shoots from their bases when these explants were cultured on MS medium containing 0.5 mgl⁻¹ (2.26 μM) 2,4-dichlorophenoxyacetic acid (2,4-D) and 2.0 mgl⁻¹ (8.87 μM) BA. Embryogenic callus was produced when leaf explants were cultured on MS medium with 3.0 mgl⁻¹ (12.42 μM) 4-amino-3,5,6-trichloropicolinic acid (picloram). Somatic embryos developed into shoots following transfer of embryogenic tissues to MS medium with 1.0 mgl⁻¹ (4.44 μM) BA. Cell suspensions, initiated by transfer of embryogenic callus to liquid MS medium with 1.0 mgl⁻¹ (4.14 μM) picloram or 1.0 mgl⁻¹ (4.52 μM) 2,4-D, also regenerated shoots by somatic embryogenesis, on transfer of cells to semisolid MS medium with 1.0 mgl⁻¹ (4.44 μM) BA. All regenerated shoots rooted on growth regulator-free MS medium, prior to ex vitro acclimation and transfer to the glasshouse. These studies provide a baseline for propagation, conservation, and genetic manipulation of elite pineapple germplasms.     

High-frequency plant regeneration from cotyledon callus of <Emphasis Type="Italic">Acacia sinuata</Emphasis> (Lour.) Merr

Summary A new reliable protocol for the induction of adventitious shoots and plant regenertion from cotyledon-derived callus of Acacia sinuata has been developed. Calluses were induced from cotyledon explants on Murashige and Skoog (MS) medium containing 3% sucrose, 0.8% agar or 0.15% phytagel, 8.1 μM α-naphthaleneacetic acid, and 2.2 μM 6-benzylaminopurine (BA). High-frequency regeneration of adventitious buds from callus was achieved when cultured on half-strength MS medium supplemented with 10% coconut water, 13.3 μM BA, and 2.5 μM zeatin. Histological studies revealed that the regenerated shoots originated from the callus. Among the various carbohydrates tested, sucrose at 87.6 mM was optimum for shoot-bud induction. Addition of 1.7 μM gibberellic acid along with 4.4 μM favored shoot elongation. In vitro-raised shoots produced prominent roots when transferred to half-strength MS medium supplemented with 7.4 μM indole-3-butyric acid. Rooted plants, thus developed, were hardened and successfully established in soil (45%). This protocol yielded an average of 40 plantlets per cotyledon explant over a period of 3 mo.     

Liquid culture for efficient micropropagation of Wasabia Japonica (MIQ.) matsumura

Summary An efficient protocol for in vitro propagation of the valuable medicinal plant, Wasabia japonica (Miq.) Matsumura is described through shoot tip proliferation and direct regeneration. Multiple shoots were induced from shoort tips cultured on Murashige and Skoog (MS) semi-solid medium containing various concentrations (0.5–50 μM) of N⁶-benzyladenine (BA), thidiazuron, kinetin, and zeatin. A comparison was made on shoot multiplication between semi-solid and liquid culture media. Well-developed shoots were obtained using full-strength MS semi-solid medium containing 5.0 μM BA. However, the greatest shoot proliferation was achieved on either full- or half-strength MS liquid media supplemented with 5.0 μM BA for 4 wk (15.3±0.9 and 15.0±0.7 shoots per explant, respectively), and on half-strength MS liquid medium for 6 wk (25.8±1.3 shoots per explant) in culture. In contrast, the maximum number of shoots per explant on full-strength MS semi-solid medium was achieved with either 5.0 μM BA (10.4±0.6 shoots per explant) or 10.0 μM kinetin (10.9±0.8 shoots per explant). Fresh weight of explants and length of shoots derived from full-strength MS liquid medium (1055±77 mg and 34.2±1.0 mm, respectively) were significantly higher than those derived from full-strength MS semisolid medium (437.6±17.3 mg and 15.4±0.7 mm, respectively). Quarter-strength MS liquid medium had no significant difference in shoot proliferation when compared to quarter-strength MS semi-solid medium. Elongated shoots were separated and rooted on half-strength MS semi-solid media fortified with 1-naphthaleneacetic acid (NAA), indole-3-butyric acid (IBA), or indole-3-acetic acid (IAA) ranging from 0.1 to 10.0 μM. Root formation was greatest with IBA when compared with IAA and NAA. One hundred percent of shoots were rooted on half-strength MS medium with 5.0 μM IBA, while vigorous roots were obtained with 10.0 μM IBA. Micropropagated plantlets were successfully established in soil with 95% survival rate after heardening.     

Effects of plant growth regulators on high frequency shoot multiplication and callus regeneration of an important Indian medicinal plant, nirgundi (Vitex negundo L.)

Summary A rapid shoot multiplication protocol was established for an important medicinal plant, Vitex negundo L., belonging to the family Verbenaceae, using Murashige and Skoog medium, achieved by shoot multiplication as well as callus regeneration. Shoot multiplication was induced by different concentrations of 1-phenyl-3-(1,2,3-thiadiazol-5-yl)-urea (TDZ), Benzyladenine and 6-furfuryl amino purine separately along with 10% (v/v) coconut water. Green organogenetic callus was obtained by the combined effect of 0.5–2.15 μM TDZ and 1.7 μM indole-3-acetic acid (IAA) along with 1% polyvinylpyrrolidone (PVP), and produced the maximum number of shoots when subcultured onto medium containing 2.7 μM TDZ alone. Elongation of in vitro shoots was observed in MS medium containing 2.4 μM gibberellic acid and rooting was induced by the combined effect of 1.71 μM IAA and 1.62 μM α-naphthalene acetic acid.     

Direct shoot regeneration from leaf explants of <Emphasis Type="Italic">Rosa damascena</Emphasis> Mill.

Summary A protocol for in vitro propagation using direct induction of shoot buds from leaf explants of in vitro-raised shoots of Rosa damascena var. Jwala is reported. The present study is the first report on direct shoot regeneration in scented roses. Elite plants raised from nodal explants and maintained for over 2yr in vitro on a static liquid shoot multiplication Murashige and Skoog (MS) medium supplemented with 5.0 μM benzyladenine (BA) and 3% sucrose were used. Petioles from fully developed young leaves, obtained after 4 wk of pruning of old shoots, were found to be ideal for regeneration of shoots. Initially the explants were cultured in an induction medium [half-strength MS+3% sucrose+6.8μM thidiazuron+0.27 μM α-naphthaleneacetic acid (NAA)+17.7 μM AgNO₃] and subsequently transferred to the regeneration medium (MS+2.25 μM BA+0.054 μM NAA) after 7, 14, 21, 28, and 35d. The highest shoot regeneration response (69%) was recorded when shoots were kept in the induction medium for 21 d and later transferred to regeneration medium. Histological studies revealed direct formation of shoot buds without the intervening callus phase. In vitro rooting of micro-shoots was accomplished within 2wk on half-strength MS liquid medium supplemented with 10.0 μM IBA and 3% sucrose for 1 wk in the dark and later transferred to hormone-free medium and kept in the light. Plantlets, remaining in the latter medium for 5–6 wk when transferred to soil, showed 90% survival.     

Direct shoot and cormlet regeneration from leaf explants of ‘Silk’ banana (AAB)

Summary Direct shoot and cormlet regeneration from leaf explants were obtained in triploid dessert banana cultivar Nanjanagud Rasabale (NR) that is classified under the group ‘Silk’ and has the genotype AAB. The response for both cormlet and direct shool formation was observed only in leaf explants obtained from shoots cultured in liquid medium but not in similar explants obtained from shoots grown on gelled medium. Shoot initiation occurred after a sequential culture of leaf (sheath) explants on modified Murashige and Skoog (MS) medium supplemented with different growth regulators. In the sequence, the leaf explants were cultured first on medium with a high level (22.4 μM) of benzyladenine (BA), second on indolc-3-butyric acid (IBA) supplemented medium, and third on reduced BA medium under incubation in the dark. The highest adventitious shoot regeneration in 24% of the explants, with the number of shoots ranging from 2 to 3 per explant, occurred in the explants incubated at the first step in medium with 22.4 and 0.198 μM IBA. Further growth and complete shoot formation occurred under incubation in a 16-h photoperiod. While keeping the culture conditions constant and replacing BA with picloram (0.83–20.71 μM) in the initial step, adventious origin of cormlets occurred in 12% of the explants. However, when rhizome explants (also obtained from shoots grown in liquid medium) were cultured with various growth regulators in the first step, medium containing 2,4,5-trichlorophenoxyacctic acid (7.82 μM) produced friable callus that re-differentiated into roots only. Physical forms of the medium, ie.e. agar-gelled or liquid, imparted specific effects on the extent of multiplication of leaf-regenerated shoots with no differences in morphology and growth patterns when compared to those of meristem-derived plants.     

Shoot regeneration from petioles of coral bells (Heuchera sanguinea Engelm.) cultured in vitro, and subsequent planting and flowering ex vitro

Summary Successful shoot regeneration from petioles, leaves, and petioles with leaves cultured in vitro is reported in Heuchera sanguinea. Petioles or petioles with leaves regenerated more shoots than leaves alone. For culture, the optimum hormonal concentrations were 0.19 μM α-naphthaleneacetic acid combined with 0.44 or 4.4 μM benzyladenine in Murashige and Skoog-based (MS) medium: the regenerating rate and the number of shoots per explant were 60% and 8.6–9.7, respectively. Histological study on petiole culture showed dividing cell clusters including vascular tissues after 1 wk, callus including several dividing cell clusters at the periphery after 3 wk and then apical meristems with immature leaves after 5 wk. Rooting from the regenerated shoots was highest (95%) on MS medium containing 4.9 μM indole-3-butyric acid. Seventy-three percent of rooted plants were successfully acclimatized in pots. When they were cultured in the field, the plants grew and most flowered the following year over winter.     

<Emphasis Type="Italic">In vitro</Emphasis> regeneration and plant establishment of <Emphasis Type="Italic">Tylophora indica</Emphasis> (Burm. F.) Merrill: Petiole callus culture

Summary A protocol has been developed for high-frequency shoot regeneration and plant establishment of Tylophora indica from petiole-derived callus. Optimal callus was developed from petiole explants on Murashige and Skoog basal medium supplemented with 10μM2,4-dichlorophenoxyacetic acid +2,5μM thidiazuron (TDZ). Adventitious shoot induction was achieved from the surface of the callus after transferring onto shoot induction medium. The highest rate (90%) of shoot multiplication was achieved on MS medium containing 2.5μM TDZ. Individual elongated shoots were rooted best on halfstrength MS medium containing 0.5μM indole-3-butyric acid (IBA). When the basal cut ends of the in vitro-regenerated shoots were dipped in 150μM IBA for 30 min followed by transplantation in plastic pots containing sterile vermiculite, a mean of 4.1 roots per shoot developed. The in vitro-raised plantlets with well-developed shoot and roots were successfully established in earthen pots containing garden soil and grown in a greenhouse with 100% survival. Four months after transfer to pots, the performance of in vitro-propagated plants of T. indica was evaluated on the basis of selected physiological parameters and compared with ex vitro plants of the same age.     

Strawberry sepal: Another explant for thidiazuron-induced adventitious shoot regeneration

Summary An efficient system to regenerate shoots on excised sepals (calyx) of greenhouse-grown ‘Bounty’ strawberry (Fragaria x ananassa Duch.) was developed in vitro. Sepal cultures produced multiple buds and shoots without an intermediary callus phase on 2–4 μM 1-phenyl-3-(1,2,3-thiadiazol-5-yl) urea (thidiazuron, TDZ)-containing shoot induction medium within 4–5 wk of culture initiation. Young expanding sepals with the adaxial side touching the culture medium and maintained for 14 d in darkness produced the best results. In a second experiment, sepals proved more effective than the leaf discs and petiole segments for regenerating shoots. A third experiment compared the effects of six concentrations of two cytokinins (TDZ at 0, 0.5, 2, and 4 μM and zeatin at 2 and 4 μM) for elongation of sepal-derived adventitious shoots. The media containing TDZ generally promoted more callus formation and suppressed shoot elongation. TDZ-initiated cultures transferred into the medium containing 2–4 μM zeatin, produced usable shoots after one additional subculture. Shoots were rooted in vitro in the same medium used for shoot regeneration, but without any growth regulators. When transferred to potting medium, 85–90% of in vitro plantlets survived.     

Regeneration of pineapple plants via somatic embryogenesis and organogenesis

Summary We have developed efficient methods for plant regeneration, via both embryogenesis and organogenesis, of Smooth Cayenne pineapple, Ananas comosus (L.) Merr. Leaf bases and core (stem) sections of in vitro shoots, produced from culture of crown tip meristem, were used as explants for plant regeneration as follows: (1) Leaf base and core section explants cultured on Murashige and Skoog (MS) medium containing 41 μM 4-amino-3,5,6-trichloropicolinic acid (picloram, P) or thidiazuron (T)/P combinations produced embryogenic tissues. Different types of embryogenic tissues (friable emryogenic tissue, embryogenic cell cluster, and chunky embryogenic tissue) have been developed with varying properties in terms of growth rate and state of development. The embryogenic tissues regenerated shoots upon culture on MS medium containing 13 μM 6-benzylaminopurine (BA) and 1μM α-naphthaleneacetic acid (NAA) followed by culture on MS medium containing 4 μM BA. (2) Crown tip meristems cultured on MS medium containing 13 μM BA followed by leaf explants cultured on MS medium with 27 μM NAA and 1 μM BA produced shoots via direct organogenesis. (3) Explants cultured on MS medium containing 5 μM T and 0.5 μM indole-3-butyric acid (IBA) produced nodular globular structures, which produced shoots upon culture on MS medium containing 1 μM BA and 1 μM gibberellic acid. Shoots obtained from all of the above methods were rooted in half-strength MS medium containing 3 μM NAA and 2.5 μM IBA. Plants were transferred to the greenhouse or shipped to Costa Rica for field trials. Somatic embryo-derived plants exhibited 21 % spininess, and organogenic-derived plants exhibited 5% spininess in the field trials.     

<Emphasis Type="Italic">In vitro</Emphasis> regeneration of witloof chicory (<Emphasis Type="Italic">Cichorium intybus</Emphasis> L.) from leaf explants and accumulation of esculin

Summary An efficient protocol has been developed for the regeneration of plantlets from leaf explants of witloof chicory (Cichorium intybus L.). Regeneration via callus was obtained on modified Murashige and Skoog semisolid medium (MS) containing 2.0 μM indole-3-acetic acid +5.0 μM 6-furfurylaminopurine (kinetin), and 1000 mgl⁻¹ casein hydrolyzate. At least five or more shoots regenerated from each callus. The shoots were rooted on MS +0.2 μM indole-3-butyric acid. The plantlets thus obtained were successfully established in soil after bardening. Esculin accumulation was recorded in plant tissues at different stages of differentiation in in vitro cultures and compared with in vivo-grown, plants. The esculin accumulation was higher in in vitro plants.     

Photoperiodically independent flowering of Pharbitis nil plants regenerated from flower buds

Summary Flower buds and anthers of the short-day plant Pharbitis nil were treated either with thermic shock (7 or 35°C) or osmotic/trophic shock (12% sucrose) for 24 h. Explants were transferred either to Murashige and Skoog medium (MS) with addition of 6-benzylaminopurine (BA; 4.4μM) and 6% sucrose or to the same growth medium containing 22 μM BA and 3% sucrose. Both media were supplemented with α-naphthaleneacetic acid (NAA; 0.55 μM). Osmotic/trophic shock stimulated the occurrence of shoots on flower buds grown on medium containing 22 μM BA. Thermic shock (7 and 35°C) inhibited this process on both types of explants. Regenerated plantlets were transferred to MS medium supplemented with 6% sucrose, gibberellic acid (GA₃; 1.44μM), NAA (0.55 μM) and Ca²⁺ (0.66 mgl⁻¹). After 3–4 wk they were able to produce flowers without photoperiodic induction.     

Tissue culture and plant regeneration of the salt marsh monocots <Emphasis Type="Italic">Juncus roemerianus</Emphasis> and <Emphasis Type="Italic">Juncus gerardi</Emphasis>

Summary Tissue culture and plant regeneration protocols for the salt marsh plants Juncus roemerianus Scheele and Juncus gerardi Loisel, were developed. J. roemerianus callus was induced from mature seeds cultured on Murashige and Skoog (MS) medium supplemented with 2.22 μM 6-benzylaminopurine (BA), 5.37 μM α-naphthaleneacetic acid (NAA), 2.26 μM 2,4-dichlorophenoxyacetic acid (2,4-D), and 50 ml l⁻¹ coconut water (callus induction medium). The callus was subcultured on MS medium containing 2.22 μM BA, 5.37 μM NAA, and 9.05 μM 2,4-D for callus maintenance. Shoot regeneration occurred 2 wk after transferring the callus onto shoot regeneration medium, which consisted of MS medium containing BA or thidiazuron. A high frequency of shoot regeneration was obtained when the medium contained 13.3 μM BA. Regenerated shoots were transferred to MS medium supplemented with 10.7 μM NAA for root production. Rooting did not occur in the shoots regenerated on the thidiazuron-containing media. The callus induction medium for J. roemerianus was also effective in inducing callus of J. gerardi from young inflorescences. The same medium was also used for callus maintenance. Shoot regeneration occurred 10 d after transferring the callus onto MS medium supplemented with 0.44 μM BA and 0.57 μM indole-3-acetic acid. Root regeneration occurred after transferring the shoots onto MS medium plus 0.44 μM BA and 14.8 μM indole-3-butyric acid. The regenerated plants of both J. roemerianus and J. gerardi grew vigorously in potting soil in the greenhouse. J. roemerianus regenerants also grew well in a saltwater-irrigated field plot. Tissue culture-produced plants of J. roemerianus and J. gerardi can be used for planting in created or restored wetlands.     

Silver nitrate promotes shoot development and plant regeneration of chile pepper (Capsicum annuum L.) via organogenesis

Summary Chile pepper (Capsicum annuum L.) plants were regenerated from cotyledon explantsin vitro in four major stages: bud induction, bud enlargement, shoot elongation, and root development. Bud induction medium contained 0.5 mg/L (2.9μM) indole-3-acetic acid and 2 mg/L (8.9 μM) N⁶-benzyladenine. Bud enlargement occurred, and an occasional shoot appeared when medium with 2 mg/L (6μM) gibberellic acid, 2 mg/L (8.9 μM) N⁶-benzyladenine, and 5 mg/L (29.4 μM) silver nitrate was used. Most shoots elongated after placement on a third medium without plant growth regulators or on fresh plates of bud enlargement medium. Incubations were for 2, 2, and 4 weeks, respectively, at 28.5°C and continuous light. Treatment with silver nitrate was necessary for multiple shoot production and elongation to occur in the third culture stage and was most effective when present in the second-stage medium but not in the bud induction medium. Sixteen to 26% of the shoots rooted in medium with 1 mg/L (5.4 μM) 1-naphthaleneacetic acid after 1 month. Additional shoots transferred to a second rooting medium with 0.1 or 1.0 mg/L (0.54 or 5.4 μM) 1-naphthaleneacetic acid developed roots, increasing the overall rooting efficiency to 70–72%. Most rooted shoots grew well and produced viable seeds when grown in the greenhouse. Other cytokinins tested for plant regeneration were zeatin and thidiazuron. Zeatin induced few shoots and fewer well-developed plants. Thidiazuron induced multiple shoots 4 months after culture began, but many were small and did not elongate further. Phytagar tissue culture grade proved superior to other agars tested, increasing bud induction frequency from 0-33% to 80–93% and eliminating explant hyperhydricity.     

Effect of various growth regulators on shoot regeneration of sugarcane

Summary Sugarcane (Saccharum spp. hybrid cv. CP 84-1198) embryogenic calluses were induced from young leaves cultured on modified Murashige and Skoog basal medium supplemented with 13.6 μM 2,4-dichlorophenoxyacetic acid. Five concentrations, 0.5, 1.0, 2.5, 5.0, and 10.0 μM, of five different growth regulators, 6-benzylaminopurine, kinetin, 6-γ,γ-(dimethylallylamino)purine, zeatin, and thidiazuron, were tested with or without 22.5 μM α-naphthaleneacetic acid to compare their ability to induce regeneration from embryogenic callus. After 4 wk on medium, the percentage of shoot meristem induction was evaluated, and after 10 wk the total number of shoots produced, as well as the percentage of shoots greater than 1 cm in length, was obtained. Although it had the lowest percentage of elongated shoots, medium containing thidiazuron alone performed better than all other growth regulators tested, with the highest percentage of shoot induction and the largest number of shoots, particularly at a concentration of 2.5 μM.