Plant regeneration from cocoyam callus derived from shoot tips and petioles

The effects of various growth regulators on morphogenesis from cocoyam tissues (Xanthosoma sagittifolium) were investigated. Calluses were initiated from shoot tip and petiole explants and proliferated on medium containing 1.36 μM dicamba. Callus production was significantly greater from petioles than from shoot tips. Thidiazuron (0.045 μM) enhanced callus production when dicamba (13.5 μM) was used, and was more favorable to petioles than shoot tips. Friable shoot tip callus was subcultured into liquid media containing either 1.36 μM dicamba alone, 1.35 μM 2,4-D + 0.46 μM kinetin or 1.36 μM dicamba + 0.46 μM kinetin to induce adventive regeneration. Tissues producing single or aggregated shoot buds were subcultured into media containing 0, 0.049 and 0.49 μM 2-isopentenyladenine where bud multiplication and shoot regeneration were observed. Bud aggregates were formed from callus in liquid cultures containing 1.36 μM dicamba, 1.36 μM dicamba + 0.46 μM kinetin or 1.35 μM 2,4-D + 0.46 μM kinetin. Shoot bud clumps which remained green produced shoots, daughter buds, and plantlets in stationary and agitated liquid media containing 0, 0.049 and 0.49 μM 2iP. This revised version was published online in June 2006 with corrections to the Cover Date.     

Phloroglucinol enhances growth and rate of axillary shoot proliferation in potato shoot tip cultures in vitro

Efficacy of phloroglucinol in promoting growth and development of in vitro-derived shoot tips was studied in six potato (Solanum tuberosum L.) genotypes. Different concentrations of phloroglucinol (0, 0.08, 0.4, 0.8, 1.2 and 1.6 mM) were tested in combination with either 0.1 or 0.2 M sucrose in shoot tip proliferation medium based on MS (Murashige and Skoog, 1962) medium supplemented with 5.8 μM GA₃ (gibberellic acid), 1.1 μM BA (N⁶-benzyladenine) and 8.39 μM D-calcium pantothenate. Phloroglucinol fostered multiple shoot formation, promoted axillary shoot proliferation in terms of shoot tip fresh weight and shoot length, and stimulated root formation on the shoot tips. There was significant phloroglucinol × sucrose interaction for number of shoots developed per shoot tip, shoot tip fresh weight and number of roots induced per shoot tip. The beneficial effect of phloroglucinol on shoot tip survival was conspicuous only in genotypes that showed poor survival in the control proliferation medium. There were significant differences in response between the two sucrose levels with regard to shoot tip fresh weight and number of roots per shoot tip. Phloroglucinol in combination with 0.2 M sucrose induced maximum number of roots per shoot tip. Optimum shoot tip growth was fostered in medium containing 0.8 mM phloroglucinol and 0.2 M sucrose. High frequency multiple shoot formation in this medium ensures a faster rate of potato shoot tip multiplication within a limited time and space. This revised version was published online in June 2006 with corrections to the Cover Date.     

Precise, easy measurement of glass pipet tips for microinjection or electrophysiology

We describe a simple procedure to measure precisely the tip diameter of glass micropipets. This procedure can improve the precision of microinjection and some electrophysiological measurements due to their extreme sensitivity to the pipet's exact geometric dimensions. The technique is nondestructive and readily carried out as a brief, extra step in these applications. Digital measurements of the threshold pressures for gas bubbling from (gas filled) pipets submerged in methanol were used to calculate the corresponding inner tip diameters using the LaPlace equation. Direct measurements of the inner tip diameters (from 0.2-5.0 mu) using scanning electron microscopy confirmed the validity of this indirect, simple procedure.     

Adventitious shoot formation is not inherent to micropropagation of banana as it is in maize

Despite their similar morphology, banana and maize shoot tips responded strikingly different with respect to the in vitro formation of homogeneous multiple shoot clusters. While up to 50 small shoots per maize explant could be induced within 1 month, zero to one additional shoot formed starting from a banana shoot tip. Subsequently, banana shoot tips were subjected to different combinations of five cytokinins (0–100 μM) and five auxins (0–5 μM). The cytokinins thidiazuron and benzylaminopurine stimulated multiplication to a higher extent compared to zeatin, kinetin and isopentenyl adenine. The addition of indoleacetic acid, naphthalene acetic acid or indolebutyric acid to cytokinin containing medium did not affect the in vitro response. In contrast, 2,4-dichlorophenoxyacetic acid (1 and 5 μM) and a higher concentration of picloram (5 μM) had a detrimental effect on shoot formation and resulted in explant death and globule development. When small (0.1 cm) shoot tips were grown on cytokinin medium without an auxin source, the average number of shoots was generally two to three times lower compared to bigger (0.5 cm) shoot tips. Based on our experience in maize and this large-scale study with banana shoot tips, we conclude that banana is extremely recalcitrant towards adventitious shoot formation. This recalcitrance could not be overcome by any of the 173 different plant growth regulator combinations tested. In vitro multiplication of banana thus appears solely restricted to axillary shoot formation.     

Physical restraints underlying short-term inhibition by auxin of root elongation in intact maize seedlings

This report investigates physical changes associated with the short-term inhibition of root elongation in intact maize seedlings (Zea mays L. vs. Halamish) by exogenous auxin. Movement of root tips was assayed by video microscopy in control roots, roots grown for 45 min in 10^–6 M indole3-acetic acid (IAA), or roots chilled for 3 min at 11°C. IAA and chilling treatments similarly reduced root elongation rates (from 29 ± 6 m min^–1 to 6 ± 2 m min^–1). Initial rates of root tip contraction induced by 300 mOsmol mannitol were used to calculate tissue contractibility values. These allowed a comparison of effects of IAA and chilling treatments on apparent rates of water transport out of the root tip tissues. Chilling treatment reduced root tip contractibility by 66%, whereas IAA had much less effect (26% reduction). Roots were also exposed to an osmotic jump treatment; the initial osmotically induced increase in elongation rate was used to determine root tip extensibility values. Both IAA and chilling treatments reduced root tip extensibilities by 57%. Inhibition of wall-yielding properties, rather than hydraulic limitations, appeared to be primarily associated with inhibition of intact root tip elongation by exogenous IAA.     

Hormonal control of the outgrowth of axillary buds in <Emphasis Type="Italic">Alstroemeria</Emphasis> cultured <Emphasis Type="Italic">in vitro</Emphasis>

We study apical dominance in Alstroemeria, a plant with an architecture very different from the model species used in research on apical dominance. The standard explant was a rhizome with a tip and two vertically growing shoots from which the larger part had been excised leaving ca. 1 cm stem. The axillary buds that resumed growth were located at this 1-cm stem just above the rhizome. They were released by removal of the rhizome tip and the shoot tips. Replacement of excised tips by lanolin with indole-3-butyric acid (IBA) restored apical dominance. The auxin transport inhibitors 2,3,5-triiodobenzoic acid (TIBA) and N-1-napthylphthalamic acid (NPA) reduced apical dominance. 6-Benzylaminopurine (BAP) enhanced axillary bud outgrowth but the highest concentrations (> 9 μM) caused fasciation. Thidiazuron (TDZ) did not show improvement relative to BAP. Even though the architecture of Alstroemeria and the model species are very different, their hormonal mechanisms in apical dominance are for the greater part very similar.     

Enhanced recovery of doubled haploid lines from parthenogenetic plants of melon (<Emphasis Type="Italic">Cucumis melo</Emphasis> L.)

Recovery of doubled haploid (DH) progeny from haploid melon plants for use in breeding programs requires efficient chromosome doubling procedures. We describe improved procedures for recovery of fruits and viable seeds from parthenogenetic melon plants. Plant regeneration from nodal explants treated with 500 mg/L colchicine for 12 h was increased from 40 to 88% by transferring the treated explants to medium supplemented with a combination of growth regulators [5 μM IAA; 5 μM BA; 1 μM ABA; 30 μM AgNO₃). Prolonged exposure (2–7 days) to colchicine inhibited regeneration from nodal explants but had less effect on shoot tip explants. Many colchicine-treated plantlets flowered in vitro, allowing early assessment of their male fertility. Production of stained pollen in plants from nodal explants was highest after 0.5–2 days of colchicine treatment and on plants from shoot tips after 1–2 days. In vitro pollen counts correlated well with counts from greenhouse grown plants and with fruit set. The fruit set rate for colchicine-treated plants with a high pollen number was 47%. Appropriate colchicine treatment and culture of nodal explants as well as tip explants can substantially increase the number of fertile plants and DH lines recovered from parthenogenetic melons.     

Dynamics of mitochondria during the <Emphasis Type="Italic">Neurospora crassa</Emphasis> tip growth

Tip growth of the mycelial fungus N. crassa vegetative hyphae is realized owing to the combined activities of tens of the cells and diverse intracellular structures, such as microvesicles, microtubules, microfilaments, mitochondria, etc. Using a vital mitochondrial probe Mitotracker Red (10 μM, 10 min) we have found that the same mitochondria can move hundreds of microns along the hyphae within several hours. Analysis of the mitochondria distribution along 100 μm of the tips in intact hyphae as well as in the isolated apical fragments has shown that the congregation of mitochondria in the growing tips can correlate with the rate of elongation. These data together with the earlier electrophysiological estimations of the membrane potential gradients along the hyphal tips suggest that the electrical gradients along the hyphal apical part can be involved in the regulation of the energy supply of the tip growth.     

Long‐term dynamics of mycorrhizal root tips in a loblolly pine forest grown with free‐air CO2 enrichment and soil N fertilization for 6 years

Large‐scale, long‐term FACE (Free‐Air CO₂ enrichment) experiments indicate that increases in atmospheric CO₂ concentrations will influence forest C cycling in unpredictable ways. It has been recently suggested that responses of mycorrhizal fungi could determine whether forest net primary productivity (NPP) is increased by elevated CO₂ over long time periods and if forests soils will function as sources or sinks of C in the future. We studied the dynamic responses of ectomycorrhizae to N fertilization and atmospheric CO₂ enrichment at the Duke FACE experiment using minirhizotrons over a 6 year period (2005–2010). Stimulation of mycorrhizal production by elevated CO₂ was observed during only 1 (2007) of 6 years. This increased the standing crop of mycorrhizal tips during 2007 and 2008; during 2008, significantly higher mortality returned standing crop to ambient levels for the remainder of the experiment. It is therefore unlikely that increased production of mycorrhizal tips can explain the lack of progressive nitrogen limitations and associated increases in N uptake observed in CO₂‐enriched plots at this site. Fertilization generally decreased tree reliance on mycorrhizae as tip production declined with the addition of nitrogen as has been shown in many other studies. Annual NPP of mycorrhizal tips was greatest during years with warm January temperatures and during years with cool spring temperatures. A 2 °C increase in average late spring temperatures (May and June) decreased annual production of mycorrhizal root tip length by 50%. This has important implications for ecosystem function in a warmer world in addition to potential for forest soils to sequester atmospheric C.     

Seasonal variations in the spatial distribution of root tips in teak (Tectonia grandis Linn. f.) plantations in the Varanasi Forest Division,India

Summary Seasonal variations in the spatial distribution of root tips were studied in 19 and 29 year old teak plantations, located on red and alluvial soils respectively. The pattern was essentially similar at both sites, but generally the alluvial soil site exhibited a greater number of root tips. Root tips decreased with increasing distance from the tree base. Through-out most of the year the relative distribution of root tips decreased with depth; the difference between 0–10 and 10–20 cm depths was marginal, but 20–40 cm depth contained distinctly fewer root tips. At all distances a similar seasonal trend was noticed, a mid rainy season peak being followed by a steady decline until the dry summer except for an abrupt rise to a smaller peak in February after the winter rains.The root tip density was positively correlated with the 2 mm root biomass and both showed a similar bimodal annual cycle. Of three environmental variables studied, soil moisture and rainfall were significantly positively correlated with root tip densityl the relationship between soil temperature and root tip density was negative and non-significant. The combined effect of soil moisture and temperature on root tip density, evaluated by a multiple regression model, accounted for 80–95% of the variation in root tip density.     

Micropropagation of lily (Lilium longiflorum) via in vitro stem node and pseudo-bulblet culture

A protocol for micropropagation of Lilium longiflorum using pseudo-bulblets from in vitro shoot-tip-derived stem nodes was developed. Shoot tips from stems of dormant bulbs were cultured on one-half Murashige and Skoog (MS) medium. Stems from plantlets derived from the shoot tips were cut into nodal segments, which were then cultured on one-half MS medium supplemented with 1 μm 6-benzyladenine (BA). Pseudo-bulblets formed on each node after 1 month. An average of 32 pseudo-bulblets were formed on all nodes of the plantlet. Pseudo-bulblets gave rise to multiple shoots when cultured on one-half MS medium supplemented with 2.3 μm BA. Shoots were rooted on one-half MS medium containing 1.1 μm α-naphthaleneacetic acid. A continuous system of propagation by multiplication of pseudo-bulblets with no dormancy period was developed. The 80 flowering plants produced from shoot tip culture were acclimatized in the greenhouse for 3 months and then grown in the experimental garden for 8 months. Received: 29 October 1997 / Revision received: 28 April 1998 / Accepted: 3 May 1998     

Shoot regeneration from organogenic callus of sweet cherry (<Emphasis Type="Italic">Prunus avium</Emphasis> L.)

A complete method to regenerate adventitious shoots and to produce field-ready trees from three commercial cultivars of sweet cherry (Prunus avium L.) is described. The effects of explant types, pre-treatments, basal media, and phloroglucinol on cultivars Bing, Sweetheart, and Lapins were investigated. Callus developed on four explant types: apical shoot tips isolated from orchard trees; and punctured shoot tips, stem sections, and shoot bases of in vitro shoot cultures. Callus formed on Bing (5%), Sweetheart (8%), and Lapins (20%) shoot tips from orchard trees after 4 months on Murashige and Skoog medium (MS) at half-strength with 3 μM benzylaminopurine (BA). In vitro-derived explants formed callus after 3 months on Woody Plant Medium with 3 μM BA (W3B): punctured shoot tips (Sweetheart and Lapins 67%), stem sections (Sweetheart 31%, Lapins 27%), and shoot bases (Sweetheart 10%, Lapins 17%). Pre-treatment of shoot cultures on MS with 3 μM BA and 1 mM phloroglucinol increased callus formation three-fold on shoot base explants. Callus was separated from parental explants and maintained on MS with 3 μM BA. Shooting was induced by transferring callus to W3B. At 2 weeks, shoot development approached 100%. By 4 weeks, 7–17 shoots had formed on each explant. Callus was maintained for 1.5 years with no decrease in shoot production. Shoots were grafted onto Mazzard (P. avium) rootstocks with 54% (Sweetheart), 57% (Lapins), and 21% (Bing) success after 5 weeks.     

Effect of copper excess in environment on soybean root viability and morphology

The effects of increase copper concentrations in medium (10–150 μM CuSO₄) on growth and viability of the roots of two-week-old soybean seedlings (Glycine max L., cv. Dorintsa) were studied. Copper excess suppressed biomass accumulation and linear plant growth; copper affected root growth much stronger than shoot growth. The presence of 10 μM CuSO₄ in medium suppressed accumulation of plant biomass by 40% and the root length by 70%; in the presence of 25 μM CuSO₄, these indices were equal to 80 and 90%, respectively. In the presence of 50 μM CuSO₄, roots ceased to grow but biomass and shoot length still increased slightly. 150 μM CuSO₄ was lethal for plants. The earliest sign of excessive copper toxicity was the accumulation of MDA, indicating activation of membrane lipid peroxidation. A significant increase in MDA content was observed at plant incubation in medium with 10 μM CuSO₄ for 1 h; in this case, the content of copper in the roots increased from 36 ±1.8 (in control) to 48 ± 2.4 μg/g dry wt. The number of dead cells (permeable for the dye Evans Blue) was doubled in the presence of 200 μg/g dry wt within the root; this occurred in 72 h of growth in medium with 10 μM CuSO₄, in 6 h at 25 μM CuSO₄, in 3 h at 50 μM CuSO₄, and 1 h at 150 μM CuSO₄. Toxicity of copper excess was manifested stronger in dividing and elongation cells of the root apex (root meristem and the zone of elongation) than in more basal root regions. Copper excess resulted in the formation of breaks in the surface cell layers of the root tips and affect root morphology. When plant grew in medium with 10 μM CuSO₄, a distance of lateral root formation zone from the root tip decreased markedly, and spherical swellings were formed on the tips of lateral roots. The higher copper concentrations (50 and 150 μM) suppressed completely the development of lateral roots.     

<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.     

In vitro regeneration of <Emphasis Type="Italic">Carlina acaulis</Emphasis> subsp. <Emphasis Type="Italic">simplex</Emphasis> from seedling explants

The aim of the study was to obtain an efficient system for Carlina acaulis subsp. simplex propagation. The experimental materials were shoot tips, fragments of hipocotyls, cotyledons and roots isolated from 10-day-old seedlings. The explants were transferred to the proliferation medium supplemented with different types of cytokinin: BA (13.3 μM), kinetin (13.9 μM) and zeatin (13.7 μM) in combination with NAA (0.54 μM). The best morphogenetic response was observed when explants were cultured on the BA supplemented medium. The maximum shoot organogenesis frequency was observed for shoot tip (nearly 94%). On average 8.6 axillary shoots were induced per explant. Multiplication rate increased during the first three subcultures. The shoots revealed a wide range of morphogenetic responses. Differences were observed in the presence or absence of hair on the surface of lamina. These changes had epigenetic character and were the effect of changes in DNA methylation, which is shown by differences in methylation pattern between 18S rRNA and 25S rRNA genes in the analyzed regenerated plants. Nearly 94% of plantlets were rooted on auxin lacking medium. Addition of auxin (NAA or IAA) increased both the rooting percentage (100%) and the number of roots per shoot, but their growth was inhibited. Shortening of the auxin exposition time reduced the number of roots. Moreover, high efficiency (90%) was observed for ex vitro rooting. Plantlets with a large number of roots survived better than the ones with only a few roots. Plants were able to flower and gave viable seeds.     

The Cellular Basis of Gastrulation in Xenopus laevis: Active, Postinvolution Convergence and Extension by Mediolateral Interdigitation

Time-lapse videomicrographic and SEM analyses of normal andmicrosurgically altered gastrulation show that the morphogeneticmovements of the dorsal marginal zone (DMZ)—extension,convergence, and involution—all result from behavior thatoccurs after the marginal zone has involuted. Before its involution,the DMZ shows no detectable capacity for autonomous convergenceor extension. If its involution is prevented, the DMZ will showconvergence and extension but only at developmental stages ator beyond the stage at which it normally would have involuted.Thus autonomous convergence and extension, which have been ascribedto the DMZ are, in fact, properties of the dorsal mesodermalmantle (DMM) and the archenteron roof. SEM analysis of cellshape and packing patterns, suggest that cells of the DMM merge(interdigitate) mediolaterally, between one another, beginningjust beyond the point of involution. This behavior is thoughtto reduce the width and increase the length (postinvolutionconvergence and extension) of the DMM. The decrease in circumference(width) at the vegetal-most part of the newly involuted DMMforms a constriction ring just inside the blastopore. Constrictionand concurrent elongation of the DMM act in concert to movethe blastoporal lip vegetally. The DMZ is passively pulled vegetallyand over the blastoporal lip as deep cells are recruited forparticipation in mediolateral interdigitation at the vegetalend of the DMM.     

Micropropagation of oregano (<Emphasis Type="Italic">Origanum vulgare×applii</Emphasis>) from meristem tips

Summary ‘Mendocino’ oregano (Origanum vulgare × applii) cultivated in Argentina has been subject to progressive yield loss as a consequence of continuous vegetative propagation. A method of reducing damage to the shoot tip during sterilization procedures for micropropagation is proposed. Single shoot cuttings are less sensitive to disinfecting substances than green tips. Meristems taken from young plantlets that grew in vitro produced less oxidation during the culture than those dissected immediately after disinfecting from plants grown in the field. This work describes the effects of the growth regulators benzyladenine (BA) and naphthaleneacetic acid (NAA) at various concentrations and combinations on micropropagation of O. vulgare × applii. Treatment with 0.28 μM BA and 0.53 μM NAA gave greatest effiency (mean: 22.2 nodes per plantlet). After 60 d 100% of rooted plantlets could be formed per explant under optimum conditions.     

Assessing among‐lineage variability in phylogenetic imputation of functional trait datasets

Phylogenetic imputation has recently emerged as a potentially powerful tool for predicting missing data in functional traits datasets. As such, understanding the limitations of phylogenetic modelling in predicting trait values is critical if we are to use them in subsequent analyses. Previous studies have focused on the relationship between phylogenetic signal and clade‐level prediction accuracy, yet variability in prediction accuracy among individual tips of phylogenies remains largely unexplored. Here, we used simulations of trait evolution along the branches of phylogenetic trees to show how the accuracy of phylogenetic imputations is influenced by the combined effects of 1) the amount of phylogenetic signal in the traits and 2) the branch length of the tips to be imputed. Specifically, we conducted cross‐validation trials to estimate the variability in prediction accuracy among individual tips on the phylogenies (hereafter ‘tip‐level accuracy’). We found that under a Brownian motion model of evolution (BM, Pagel't λ = 1), tip‐level accuracy rapidly decreased with increasing tip branch‐lengths, and only tips of approximately 10% or less of the total height of the trees showed consistently accurate predictions (i.e. cross‐validation R‐squared >0.75). When phylogenetic signal was weak, the effect of tip branch‐length was reduced, becoming negligible for traits simulated with λ < 0.7, where accuracy was in any case low. Our study shows that variability in prediction accuracy among individual tips of the phylogeny should be considered when evaluating the reliability of phylogenetically imputed trait values. To address this challenge, we describe a Monte Carlo‐based method that allows one to estimate the expected tip‐level accuracy of phylogenetic predictions for continuous traits. Our approach identifies gaps in functional trait datasets for which phylogenetic imputation performs poorly, and will help ecologists to design more efficient trait collection campaigns by focusing resources on lineages whose trait values are more uncertain.     

Preparative Procedures and Culture Medium Affect the Success of Cryostorage of Holostemma annulare Shoot Tips

Shoot tip cryopreservation of Holostemma annulare, an endangered medicinal plant was carried out using Murashige-Skoog (MS) medium containing mM NH⁺ ₄+NO^– ₃; 20.6+39.4 (MS-1), 2.6+18.8 (MS-2) or 0.0+18.8 (MS-3). The three media combinations were tested during four preparative procedures viz.: development of cultures; preconditioning of shoot tip cuttings; preculture of encapsulated shoot tips; and post-freeze recovery to understand the most critical phase of NH₄NO₃ sensitivity. MS-1 used during the initial three preparative steps supported 10.9–16.6% post-freeze recovery of cryopreserved shoot tips. Development of culture in MS-1 and subsequent passages (2nd, 3rd and 4th preparative steps) in MS-2 or MS-3 improved the recovery rate to 26.4–35.8%. MS-3 used throughout the steps favoured 38.5% recovery. Shoot tips from shoot cultures raised in MS-2 upon preconditioning in MS-2 or MS-3 and subsequent preculture of encapsulated shoot tips and post-freeze recovery culture in MS-3 showed maximum regeneration (55%). MS-2 used throughout the procedure supported 48% regeneration of cryopreserved shoot tips.