Could plant hormones be the basis of maturation indices in Pinus radiata?

Maturation and phase change in woody plants are developmental processes at present poorly understood, especially from a physiological point of view. Maturation indices, such as phytohormones, could be used to understand more about the events that accompany the increase in the developmental state and to choose optimal conditions in order to improve forest programs and make them more profitable. In order to determine this putative index, the contents in abscisic acid-like substances (ABA-like), indole-3-acetic acid (IAA) and several cytokinins (Cks) were analysed in terminal and axillary buds of Pinus radiata trees with different developmental states to compare their phytohormonal status. An increase in the content of some zeatin-type (Z-type) Cks, and a decrease in isopentenyladenine-type (iP-type) Cks levels throughout maturation were shown both in terminal and axillary buds. This fact allowed us to consider the ratio iP-type/Z-type Cks, which decreased in parallel with the increasing developmental state of the tree, as a maturation index. According to the results, ABA-like compounds and IAA contents could not be considered as a maturation index in Pinus radiata, even though similar patterns were in fact found between the two kinds of buds.     

A rooting procedure for lentil (Lens culinaris Medik.) and other hypogeous legumes (pea,chickpea and Lathyrus) based on explant polarity

The present study assessed the rooting response of lentil nodal segments in relation to explant polarity, hormone, salt and carbohydrate concentrations of the medium. Nodal segments of lentil with an axillary bud cultured in an inverted orientation (apical end in medium) showed higher rooting frequencies than explants cultured in a normal orientation (basal end in medium). The highest rooting percentage (95.35%) and average number of shoots regenerated per explant (2.4) were obtained from explants placed in an inverted orientation on Murashige and Skoog (MS) medium salts with 3% sucrose, supplemented with 5 microM indole acetic acid (IAA) and 1 microM kinetin (KN). Reducing or increasing phytohormone concentration did not alter significantly root regeneration of inverted explants. Sucrose at 3% allowed higher root regeneration frequencies compared to 1.5% sucrose. MS full concentration permitted regeneration of longer shoots with more nodes per regenerated shoot, compared to MS half-strength, which regenerated more shoots of shorter length and with less nodes. Inverted nodal segments of other hypogeous legumes (pea, chickpea and Lathyrus) also exhibited higher rooting frequencies than explants cultured in a normal orientation on MS medium with 3% sucrose and supplemented with 5 microM IAA and 1 microM KN. The most novel application of this study is the culture of nodal segments of hypogeous legumes in an inverted orientation. This procedure is a considerable improvement over other published procedures concerning in vitro rooting of lentil, pea, chickpea and Lathyrus.     

Plant growth regulators as putative physiological markers of developmental stage in Prunus persica

Prunus persica plants of different ages and statesof maturation were analysed to compare their phytohormonal status. Endogenouslevels of indole-3-acetic acid (IAA), abscisic acid (ABA), and severalcytokinins (Cks): zeatin (Z), zeatin riboside ([9R]Z), dihydrozeatin ((diH)Z),dihydrozeatin riboside ((diH)Z[9R]), isopentenyl adenine (iP) and isopentenyladenosine ([9R]iP), were measured in order to determine their possible use asphysiological indices of phase change and maturation. A decrease in Ck levels(Z, [9R]Z, (diH)Z, (diH)[9R]Z, and iP, [9RiP) was found from the embryonic tojuvenile stage as well as a decrease in the ratio of iP-type (iP and[9R]iP)/Z-type Cks paralleling the increase in tree age. ABA levels increasedduring maturation in Prunus persica and the ratio ofCks/IAA decreased with tree age. From our results, we propose that the balancesof Cks/IAA and iP-type/Z-type Cks are good indices of different developmentalstates in Prunus persica.     

Influence of explant source, plant growth regulators and culture environment on culture initiation and establishment of Quercus robur L. in vitro

Suitable cytokinin supplements and culture environments havebeen determined for the initiation and establishment of shootcultures of Quercus robur seedling tissue. Initiation of axillaryshoot development from nodal explants required culture mediumsupplemented with BA (6-benzylamminopurine). The greatest numbersof stem segments for culture proliferation were obtained using1.0 mg I^-1 BA after 56 d culture. The frequency of shoot developmentand subsequent formation of multiple shoots at initiation wasinfluenced by the position of the nodal explant in the seedlingshoot, incubation temperature and daylength. Explants from basaland apical regions, which contained multiple axillary buds,produced the lowest frequencies of axillary shoot developmentand multiple shoot formation, many remained quiescent. Axillaryshoot development was greatest in single nodal explants excisedfrom the midstem positions, elongated regions of the shoot wherenodes were formerly associated with a leaf. Higher temperaturesstimulated shoot formation with greater numbers of stem segmentsfor culture multiplication being obtained from nodal explantsincubated at 25C. Axillary shoot development was promoted innodal explants maintained under daylengths of 16 h or more.Stem segments cut from axillary shoots which developed fromnodal explants were used to establish shoot multiplication cultureson medium supplemented with 0.4 mg I^-1 BA. Shoot formation fromstem segments was greater at higher incubation temperaturesof 25C and 30C. Multiplication coefficients for stem segmentsincreased after one subculture. Key words: Quercus robur, oak, micropropagation, cytokinin, temperature, daylength, rest, quiescence     

Sugar control of the plant cell cycle: differential regulation of Arabidopsis D-type cyclin gene expression

In most plants, sucrose is the major transported carbon source. Carbon source availability in the form of sucrose is likely to be a major determinant of cell division, and mechanisms must exist for sensing sugar levels and mediating appropriate control of the cell cycle. We show that sugar availability plays a major role during the G(1) phase by controlling the expression of CycD cyclins in Arabidopsis. CycD2 mRNA levels increase within 30 min of the addition of sucrose; CycD3 is induced after 4 h. This corresponds to induction of CycD2 expression early in G(1) and CycD3 expression in late G(1) near the S-phase boundary. CycD2 and CycD3 induction is independent both of progression to a specific point in the cell cycle and of protein synthesis. Protein kinase activity of CycD2- and CycD3-containing cyclin-dependent kinases is consistent with the observed regulation of their mRNA levels. CycD2 and CycD3 therefore act as direct mediators of the presence of sugar in cell cycle commitment. CycD3, but not CycD2, expression responds to hormones, for which we show that the presence of sugars is required. Finally, protein phosphatases are shown to be involved in regulating CycD2 and CycD3 induction. We propose that control of CycD2 and CycD3 by sucrose forms part of cell cycle control in response to cellular carbohydrate status.     

Effect of plant growth substances on the growth of axillary buds in cultured stem segments of Phaseolus vulgaris L.

The hormonal control of axillary bud growth was investigated in cultured stem segments of Phaseolus vulgaris L. When the stem explants were excised and implanted with their apical end in a solid nutrient medium, outgrowth of the axillary buds-located at the midline of the segment-was induced. However, if indoleacetic acid (IAA) or naphthaleneacetic acid (NAA) was included in the medium, bud growth was inhibited. The exposure of the apical end to IAA also caused bud abscission and prevented the appearance of new lateral buds.In contrast to apically inserted segments, those implanted in the control medium with their basal end showed much less bud growth. In these segments, the auxin added to the medium either had no effect or caused a slight stimulation of bud growth.The IAA transport inhibitor N-1-naphthylphthalamic acid (NPA) relieved bud growth inhibition by IAA. This suggests that the effect of IAA applied at the apical end requires the transport of IAA itself rather than a second factor. With the apical end of the segment inserted into the IAA-containing medium, simultaneous basal application of IAA relieved to some extent the inhibitory effect of the apical IAA treatment. These results, together with data presented in a related article [Lim R and Tamas I (1989) Plant Growth Regul 8: 151–164], show that the polarity of IAA transport is a critical factor in the control of axillary bud growth.Of the IAA conjugates tested for their effect on axillary bud growth, indoleacetyl alanine, indoleacetic acid ethyl ester, indoleacetyl-myo-inositol and indoleacetyl glucopyranose were strongly inhibitory when they were applied to the apical end of the stem explants. There was a modest reduction of growth by indoleacetyl glycine and indoleacetyl phenylalanine. Indoleacetyl aspartic acid and indoleglyoxylic acid had no effect.In addition to IAA and its conjugates, a number of other plant growth substances also affected axillary bud growth when applied to the apical end of stem segments. Myo-inositol caused some increase in the rate of growth, but it slightly enhanced the inhibitory effect of IAA when the two substances were added together. Gibberellic acid (GA₃) caused some stimulation of bud growth when the explants were from younger, rather than older plants. The presence of abscisic acid (ABA) in the medium had no effect on axillary bud growth. Both kinetin and zeatin caused some inhibition of axillary buds from younger plants but had the opposite effect on buds from older ones. Kinetin also enhanced the inhibitory effect of IAA when the two were applied together.In conclusion, axillary buds of cultured stem segments showed great sensitivity to auxins and certain other substances. Their growth responded to polarity effects and the interaction among different substances. Therefore, the use of cultured stem segments seems to offer a convenient, sensitive and versatile test system for the study of axillary bud growth regulation.     

Modulation of CycD3;1‐CDK complexes by phytohormones and sucrose during maize germination

Maize CycD3;1 associates to CDKA or CDKB1;1 proteins during germination and the complexes formed develop kinase activity. These complexes appear to vary in size as germination proceeds, suggesting association to different sets of proteins. CycD3;1 and associated CDK proteins respond to phytohormones and sucrose. Results revealed a reduction in the CycD3;1 protein amount along germination in the presence of indoleacetic acid (IAA) or abscisic acid (ABA), although in the latter protein levels recover at the end of germination. While the levels of CDKA increase with IAA, they decrease with ABA. Both phytohormones, IAA and ABA, increase levels of CDKB1;1 only during the early germination times. CycD3;1 associated kinase activity is only reduced by both phytohormones towards the end of the germination period. On the other hand, lack of sucrose in the imbibition medium strongly reduces CycD3;1 protein levels without affecting the levels of neither CDKA nor CDKB1;1. The corresponding CycD3;1 associated kinase activity is also severely decreased. The presence of sucrose in the medium appears to stabilize the CycD3;1 protein levels.     

CycD1, a putative G1 cyclin from Antirrhinum majus, accelerates the cell cycle in cultured tobacco BY-2 cells by enhancing both G1/S entry and progression through S and G2 phases

A putative G1 cyclin gene, Antma;CycD1;1 (CycD1), from Antirrhinum majus is known to be expressed throughout the cell cycle in the meristem and other actively proliferating cells. To test its role in cell cycle progression, we examined the effect of CycD1 expression in the tobacco (Nicotiana tabacum) cell suspension culture BY-2. Green fluorescent protein:CycD1 is located in the nucleus throughout interphase. Using epitope-tagged CycD1, we show that it interacts in vivo with CDKA, a cyclin dependent protein kinase that acts at both the G1/S and the G2/M boundaries. We examined the effect of induced expression at different stages of the cell cycle. Expression in G0 cells accelerated entry into both S-phase and mitosis, whereas expression during S-phase accelerated entry into mitosis. Consistent with acceleration of both transitions, the CycD1-associated cyclin dependent kinase can phosphorylate both histone H1 and Rb proteins. The expression of cyclinD1 led to the early activation of total CDK activity, consistent with accelerated cell cycle progression. Continuous expression of CycD1 led to moderate increases in growth rate. Therefore, in contrast with animal D cyclins, CycD1 can promote both G0/G1/S and S/G2/M progression. This indicates that D cyclin function may have diverged between plants and animals.     

Micropropagation of Salix pseudolasiogyne from nodal explants

The effect of phytohormones on the breaking of dormancy of axillary buds in Salix pseudolasiogyne and their subsequent proliferation from nodal explants were examined. Nodal explants obtained from a 20–year-old S. pseudolasiogyne tree were cultured either on woody plant basal medium (WPM) or WPM supplemented with benzyladenine (BA, 2.2/4.4 μM), zeatin (1.1/2.2 μM), gibberillic acid (GA₃, 2.9 and 14.5 μM), and GA₃ + BA (2.9 + 4.4 μM). Although axillary shoots developed in all the media, a higher percentage bud break occurred on BA supplemented media. To corroborate the results, endogenous levels of cytokinins [Cks, N ⁶-isopentenyladenine (iP), zeatin riboside (t-ZR), dihydrozeatinriboside (DHZR)] and abscisic acid (ABA) were determined. On BA supplemented media, the levels of zeatin type (Z-type) of Cks were higher than those of isopentenyladenine type of Ck in the explants, while the ABA level was low. Axillary shoots did not grow well and became necrotic upon subculture to fresh basal WPM. In order to improve shoot growth, they were subcultured twice at a 4-week interval on to WPM supplemented with BA (2.2/4.4 μM), GA₃ (1.4 μM), or GA₃ + BA (1.4 + 4.4/2.9 + 4.4 μM). Maximal shoot growth (93%) was achieved on WPM supplemented with 2.2 μM BA. Comparative analyses of endogenous Cks revealed that higher Cks (Z-type Cks) were present in actively growing shoots. Rooting was readily achieved when the shoots were subcultured to WPM without phytohormones. The rooted plants were acclimatized well upon transplantation.     

Investigating the cryopreservation of nodal explants of Lithodora rosmarinifolia (Ten.) Johnst., a rare, endemic Mediterranean species

In this study, we investigated the possibility of using the droplet-vitrification technique for cryopreserving nodal segments of in vitro plantlets of the endangered plant species Lithodora rosmarinifolia. Among the three vitrification solutions tested, only solutions B1, containing (w/v) 50 % glycerol and 50 % sucrose, and B3, containing 40 % glycerol and 40 % sucrose, were able to induce cryotolerance in nodal explants, resulting in intermediate survival and recovery after cryopreservation. A three-step vitrification protocol, including an additional dehydration treatment with half-strength vitrification solution for 30 min before the treatment with full-strength vitrification solution, did not lead to any improvement in survival and recovery compared with the two-step protocol. The optimal protocol was the following: preculture of nodal segments in liquid medium with 0.3 M sucrose for 16 h and 0.7 M sucrose for 5 h, treatment for 20 min in loading solution containing 1.9 M glycerol + 0.5 M sucrose, dehydration with vitrification solution B1 (glycerol 50.0 %, sucrose 50.0 %, w/v) for 60 min at room temperature, rapid cooling in minute droplets of vitrification solution, and rapid rewarming by immersion of nodal segments for 20 min in unloading solution containing 1.2 M sucrose. Under these conditions, 33 % recovery of cryopreserved nodal explants was achieved. Regrowth of cryopreserved samples was rapid and direct. These results indicate that long-term storage of L. rosmarinifolia by means of cryopreservation of nodal segments is possible, thereby contributing to securing the diversity of this rare and endangered plant species.     

Factors affectingin vitro establishment and shoot proliferation ofRosa hybrida L. andRosa Chinensis minima

Summary The effects of nodal explants collected at different plastochrones, use of various benzyladenine (BA) concentrations, sources of carbohydrates, and phases of the culture medium on shoot establishment and proliferation ofRosa hybrida L. andR. chinensis minima were evaluated. Higher numbers of shoots per explant were obtained fromR. hybrida cv. Carefree Beauty explants proximal to the apical meristem than those from distal nodes. However, proliferating shoots derived from plastochrones proximal to the apical meristem had a lower number of leaves/explant and were shorter than those derived from other distal plastochrones. Although shoot proliferation increased with higher BA concentration in the medium, a concentration of 4.4 μM BA was found optimum for axillary bud-break and shoot development forR. hybrida cvs. Adelaide Hoodless and Cuthert Grant. A higher shoot proliferation rate was observed forR. hybrida cv. Carefree Beauty explants grown on a medium containing 55.5 mM fructose than 58.4 mM sucrose. However, no differences were observed forR. hybrida cv. Cuthert Grant grown on a medium containing either fructose or sucrose. The mean number of shoots/explant was higher forR. chinensis minima cv. Red Sunblaze explants grown on a liquid (4.5) than on a solid medium (1.7) for the first reculture; while no significant differences between the two phases of the medium were observed for the second reculture. However, a higher mean number of shoots/explant was observed on solid-phase (4.0) than liquid-phase medium (3.4) for the third reculture. A higher mean number of leaves/shoot was obtained on a solidified medium rather than liquid medium in the first two consecutive recultures, while no differences were observed for the third reculture. Although a significant effect of BA concentration on mean number of shoots/explant was observed for Red Sunblaze nodal explants, the influence of BA concentration decreased in the two consecutive cultures for both phases of the medium. Hyperhydricity was observed on Red Sunblaze shoots grown on the liquid-phase medium.     

Micropropagation of <Emphasis Type="Italic">Metrosideros excelsa</Emphasis>

Multiple shoots were induced on stem segments of an 8-y-old plant of Metrosideros excelsa Sol ex Gaertn. “Parnel”. Axillary shoots produced on uncontaminated explants were excised, segmented, and recultured in the same medium to increase the stock of shoot cultures. The Murashige and Skoog (MS) medium, augmented with different concentrations of 2- isopenthenyladenine (2iP) and indole-3-acetic acid (IAA), either singly or in combinations, as potential medium for shoot multiplication by nodal segments was tested. In the following experiment, equal molar concentrations of four cytokinins [2iP, kinetin, zeatin, and N ⁶-benzyladenine (BA)] in combination with equal molar concentrations of three auxins [IAA, α-naphthaleneacetic acid (NAA), and indole-3-butyric acid (IBA)] were tested for ability to induce axillary shoot development from single-node stem segments. The highest rate of axillary shoot proliferation was induced on MS agar medium supplemented with 1.96μM 2iP and 1.14μM IAA after 6 wk in culture. Different auxins (IAA, IBA, and NAA) were tested to determine the optimum conditions for in vitro rooting of microshoots. The best results were accomplished with IAA at 5.71μM (89% rooting) and with IBA at 2.85 or 5.71μM (86% and 86% rooting, respectively). Seventy and 90 percent of the microshoots were rooted ex vitro in bottom-heated bench (22 ± 2°C) after 2 and 4 wk, respectively. In vitro and ex vitro rooted plantlets were successfully established in soil.     

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.     

Nodal segments or microtubers as explants for in vitro microtuber production of potato

Experiments on recycling small microtubers back into tissue culture revealed that they have a great advantage over nodal segments when used as explants in vitro. They produced plantlets ready for micropropagation in one-half the time it took nodal segments to do so. They did not require a fixed daylength (either long or short days) for this, nor were they dependent on the presence of sucrose in the culture medium. Small microtubers were more suitable than large because the latter produced very many branches which senesced more rapidly. When maintained in culture, these plantlets from microtubers themselves produced microtubers of a similar array of sizes and fresh weights to nodal explants, but at a much faster rate. For this, the presence of a high level of sucrose (8%) was beneficial, and slightly larger microtubers produced a higher yield. The microtubers produced from these plantlets were identical to those from nodal segments, and had a similar period af dormancy.     

Clonal propagation byin vitro culture of Corchorus (jute)

Callus was produced on cotyledon, shoot tip, hypocotyl and root explants of twoCorchorus species on several media. Cytokinin was necessary for callus production on cotyledon explants. BothC.olitorius genotypes produced most callus on media with zeatin and either NAA or IAA, and theC.capsularis genotype produced most callus on media with IAA and either zeatin or BA. High frequencies of regenerated shoots were obtained from shoot tip explants of both species, from the apical meristem and from callus. Media with 2.0 mg 1⁻¹ BA were superior for both species, and media with zeatin were equally good forC.capsularis only. More regeneration was obtained for all genotypes after subculture of callus on media with 2.0 mg 1⁻¹ zeatin. Cotyledon callus produced less regeneration, also with differences between genotypes; explants of both genotypes ofC.olitorius produced regeneration on a medium with NAA and zeatin, and theC.capsularis genotype produced regeneration on a medium with IAA and BA. Limited regeneration from root explant callus was obtained forC.capsularis only on medium with BA and IAA. Regeneration was not obtained from hypocotyl callus. Further regeneration of shoots of both species was obtained from secondary callus after subculture, and from nodal segments of regenerated shoots and of seedling shoots cultured on basic MS medium without growth hormones. Roots were produced on about 80% of all shoots after transference to medium with 0.2 mg 1⁻¹ IBA, and rooted plantlets survived and flowered normally after transference to compost.     

Endogenous hormonal content and somatic embryogenic capacity of Corylus avellana L. cotyledons

Endogenous indole-3-acetic acid (IAA), abscisic acid (ABA) and cytokinins [zeatin (Z) zeatin riboside, dihydrozeatin, dihydrozeatin riboside, N⁶-isopentenyl adenine (iP) and N⁶-isopentenyladenine riboside] were evaluated in hazelnut (Corylus avellana L.) cotyledons of different developmental stage and genetic source for their somatic embryogenic capacity. There was an inverse correlation between the embryogenic potential of cotyledons and the degree of maturity of zygotic embryos, the first characteristic being associated with iP-type cytokinins and the second with Z-type cytokinins. Although the differences in total cytokinin, ABA and IAA contents between the cotyledons were small, the IAA/ABA and, mainly, the iP-type/Z-type cytokinin ratios were found to be two good indexes of the embryogenic competence of explants, suggesting that the endogenous hormonal balance is a very important factor defining the in vitro potential of hazelnut cotyledons. Received: 6 January 1997 / Revision received: 3 March 1997 / Accepted 1 April 1997     

In Vitro Regeneration and Isozyme Patterns in Zizyphus mauritiana

Shoot regeneration has been achieved in Zizyphus mauritiana from juvenile explants (internodal and nodal segments) on MS medium containing 2% sucrose and 50 mg l^?1 each of asparagine, arginine and glutamine, 5 mg l^?1 cystelne hydrochloride and various combinations of IAA/zeatin, BAP, KN and Ad. The explants were most responsive on the medium containing zeatin followed by BAP. Callusing could be induced from all parts of the seedling viz. cotyledonary leaf, hypocotyl, epicotyl, leaf and nodal region on various media tried. Expression of peroxidase and esterase in the in vivo and in vitro grown tissues was also compared through starch gel electrophoresis.     

In vitro multiplication and field establishment of Adhatoda beddomei C. B. Clarke,a rare medicinal plant

Clonal propagation of Adhatoda beddomei C.B. Clarke (Acanthaceae), a rare medicinal shrub, was achieved through callus-free axillary meristem proliferation from stem node explants of field-grown plants cultured in SH medium. Shoot multiplication was a function of cytokinin activity but sustained growth of the shoots was dependent on the synergistic effect with the auxin, IAA. An optimum number of 5–10 shoots per explant were obtained in 6 weeks using 3.0 mg.l^–1 BAP, 0.5 mg.l^–1 2-ip and 1.0 mg.l^–1 IAA, Upon subculture, vertical halves of the precultured node with the differentiated shoots yielded a larger aggregate number of shoots (23–27) than the uncut precultured node left intact (15–17). Shoot multiplication was rapid and consistent over prolonged periods when the hormonal concentrations were reduced to 1.0 mg.l^–1 BAP and 0.2 mg.l^–1 IAA during subculture, and reculture of the nodal explants derived from shoot cultures. Rooting of 3–5 cm shoots thus obtained was greatly accelerated in stationary liquid medium containing 0.2 mg.l^–1 IBA or IAA. Hardening of the rooted plantlets in the humidity chamber was essential for high frequency (95%) survival. Micropropagated plants established in the field flowered after fifteen months and were free from apparent defects in cytological, growth and flowering characteristics.Abbreviations SH Schenk and Hildebrandt (1972) basal medium - BAP 6-benzylaminopurine - 2-ip 2-isopentenyladenine - IAA indole-3-acetic acid - IBA indole-3-butyric acid - NAA 1-naphthaleneacetic acid     

Micropropagation of nodal explants from adult trees of Cleistanthus collinus

The micropropagation of adult Cleistanthus collinus was accomplished. The nodal segments from terminal twigs of a 15-year-old tree and basal sprouts of a comparable chronological age were used for initiating shoot bud cultures. Washing explants with sterile mixtures of citric acid (520.5 μM) and PVP 40 (3.75 μM) three to four times controlled the leaching of brown inhibitory substances into the establishment medium. Axillary shoots proliferated best on MS medium containing citric acid (104.1 μM), and PVP 40 (12.5 or 25 μM) supplemented with 0.44 μM BA. The number of new shoots from nodal segments of explants placed on MS medium supplemented with 0.44 μM BA increased when the remaining lengths of nodal segments were transferred to fresh medium after the longer microshoots were harvested. The microshoots derived from basal sprouts rooted best (50%) when treated with 11.4 mM IAA for 2 min, whereas only 40% of the microshoots derived from terminal twigs produced roots after a 2-min exposure to 28.5 mM IAA. The placement of BA-soaked agar cubes on the apex-decapitated shoots controlled shoot-tip necrosis considerably. In general, explants from basal sprouts were more suitable than terminal twig explants for the micropropagation of adult trees of C. collinus. Received: 26 February 1997 / Revision received: 13 September 1997 / Accepted: 29 September 1997