Plant regeneration in vitro from embryogenic cultures of spring- and winter-type barley (Hordeum vulgare L.) varieties

Summary Immature embryos of 41 lines of barley were screened in vitro for callus induction and somatic embryogenesis on different media to establish totipotent cultures. The use of modified MS and CC media, both supplemented with 1 g/l casein hydrolysate, and the substitution of agarose for agar resulted in the highest frequencies of somatic embryo induction. Embryogenic callus was induced and plants regenerated from 23 of the lines tested. The auxins 2,4-D, dicamba, picloram and 2,4,5-T were suitable for embryogenic callus induction. High frequencies of somatic embryo germination occurred on CC medium supplemented with 1 mg/l IAA and 0.05 mg/l zeatin. A strong genotypic effect on the capacity and frequency of embryogenic callus formation was found. Cultivar Golden Promise always gave the best results. Experiments with field grown material in 3 consecutive years showed that environmental factors also strongly influenced the induction of somatic embryogenesis and plant regeneration.Abbreviations 2,4-D 2,4-dichlorophenoxyacetic acid - 2,4,5-T 2,4,5-trichlorophenoxyacetic acid - dicamba 3,6-dichloro-o-anisic acid - picloram 4-amino-3,6,6-trichloropicolinic acid - NAA naphtaleneacetic acid - IAA indole-3-acetic acid - ABA abscisic acid - BAP 6-benzyl amino purine - 2iP 6-(3-methyl-2 butenyl 1-amino)purine - GA₃ gibberellic acid     

Somatic embryogenesis and plant regeneration from suspension cultures of Acanthopanax koreanum Nakai

High-frequency somatic embryogenesis was achieved from an embryogenic cell suspension culture of Acanthopanax koreanum Nakai. Stem segments were cultured on Murashige and Skoog (MS) medium containing auxins and cytokinins. Opaque and friable embryogenic callus formed on MS medium with 4.5 μm 2,4-dichlorophenoxyacetic acid (2,4-D) and 2.0 μm kinetin or zeatin, but was highest on medium containing 4.5 μm 2,4-D alone. Embryogenic calli were transferred to MS liquid medium containing 4.5 μm 2,4-D and maintained by subculture at 2-week intervals. Initiation of somatic embryogenesis and development up to the globular stage from embryogenic cell clumps occurred in medium containing 0.45 μm 2,4-D, whereas maturation and germination of somatic embryos occurred in MS medium lacking 2,4-D. Cytokinin treatment suppressed the normal growth of embryos, but stimulated secondary somatic embryogenesis from the surfaces of primary embryos. Plants from somatic embryos were acclimatized in a greenhouse. Received: 14 January 1997 / Revision received: 17 June 1997 / Accepted: 5 July 1997     

Auxin and sugar effects on callus induction and plant regeneration frequencies from mature embryos of wheat (Triticum aestivum L.)

Summary Genetic engineering of cereals currently depends on the use of tissue culture and plant regeneration systems. In wheat (Triticum aestivum L.), immature embryos are the most widely used explant to initiate cultures, but they are inconvenient due to their temporal availability and production requirements. Mature embryos are easily stored and are readily available as mature seeds. However, plant regeneration frequencies from cultures derived from mature embryos are generally low. This research was undertaken to improve callus induction and plant regeneration from wheat mature embryos of cultivar ‘Bobwhite’. The effects of four auxins [2,4-dichlorophenoxyacetic acid (2,4-D): 3,6-dichloro-o-anisic acid (dicamba); 4-amino-3,5,6-trichloropicolinic acid (picloram): and 2-(2-methyl-4-chlorophenoxy) propionic acid (2-MCPP)], and the effect of maltose vs. sucrose under filter sterilized and autoclaved conditions were evaluated. All auxin treatments resulted in callus induction except 2 MCPP. A highly significant effect of auxin type on both callus and plantlet production was detected, though interactions were observed. The effect of sugar type was dependent on the type of auxin used. Substitution of sucrose by maltose enhanced the regenration ability of callus from embryos cultured on media containing 2,4-D and picloram, but caused an opposite effect on media containing dicamba. Picloram significantly enhanced callus growth, however, embryogenic response and plant regenerability were low. Relative to 2.4-D, dicamba (18μM) resulted in a twofold increase in the number of plants regenerated per embryo and reduced the amount of time required for plant regeneration by 3–4 wk. Mention of a trademark or proprietary product does not constitute a guarantce or warranty by the University of Wisconsin and does not imply its approval to the exclusion of other products that may be suitable.     

Plant regeneration via somatic embryogenesis in creeping bentgrass (Agrostis palustris Huds.)

We have established a high-frequency plant regeneration system via somatic embryogenesis from mature seeds of creeping bentgrass (Agrostis palustris Huds). The effects of 2,4-dichlorophenoxyacetic acid (2,4-D), 3.6-dichloroo-anisic acid (dicamba) and 6-benzyladenine (BA) on callus formation and embryogenesis were evaluated. Callus produced on the Murashige and Skoog (MS) (1962) medium containing 2,4-D had low embryogenic potency. In the presence of 30 M dicamba, addition of 2.25 to 9 M BA significantly enhanced embryogenic callus formation over dicamba alone. Optimum frequency of somatic embryogenesis was achieved on MS basal medium containing 30 M dicamba and 2.25 M BA. Over 80% of somatic embryos germinated and formed plantlets on half-strength MS basal medium. These plantlets grew normally in the greenhouse.Abbreviations MS Murashige and Skoog medium - 2,4-D 2,4-dichlorophenoxyacetic acid - BA 6-benzyladenine - dicamba 3, 6-dichloro-o-anisic acid     

Increased Copper Content of the Medium Improves Plant Regeneration from Immature Embryo Derived Callus of Wheat (Triticum aestivum)

The effect of various concentrations of CuSO₄ on the induction and regeneration of embryogenic callus from immature embryos of wheat was investigated. Immature embryos of wheat cvs C-306 and R-3777 were cultured on MS medium supplemented with 2,4-D (11.3 µM) and different levels of cupric sulphate, i.e. 0, 0.1 (MS level), 0.5, 1 and 5 µM. Relatively high induction frequency of callus was obtained on MS medium supplemented with 2,4-D (11.3 µM) and 0.5 µM CuSO₄. The compact, nodular, embryogenic callus was maintained on the medium having 2,4-D (11.3 µM) and proline (86.8 µM) by regular subculturing. Plant regeneration from the embryogenic callus occurred on MS medium supplemented with NAA (1.07 µM) and BAP (44.4 µM). Regenerated plantlets were rooted on MSmedium supplemented with IAA (2.85 µM). The average number of regenerated plantlets produced from primary callus induced on 2,4-D (11.3 µM) and 5x CuSO₄ was significantly higher.     

Somatic embryogenesis from pea embryos and shoot apices

Conditions were defined for plant regeneration via somatic embryogenesis in pea, using explants from immature zygotic embryos or from shoot apices. For the induction of somatic embryos, an auxin (picloram or 2,4-dichlorophenoxyacetic acid) was required. Embryogenic callus originated from embryonic axis tissue of immature embryos and from the axillary-bud region and the plumula of shoot apices. A clear effect of embryo size on somatic embryogenesis was shown. There were differences in frequency of somatic embryogenesis among the five genotypes used in the study. Additions of BA to auxin-containing medium reduced embryo production. Histological examinations confirmed the embryogenic nature of the immature embryo cultures and revealed that somatic embryos originated from the meristematic areas near the callus surface.Abbreviations BA benzyladenine - 2,4-D 2,4-dichlorophenoxyacetic acid - NAA naphthaleneacetic acid - picloram 4-amino-3,5,6-trichloropicolinic acid     

Direct somatic embryogenesis of Agave fourcroydes Lem. through thin cell layer culture

Here, we describe a new protocol for the induction of direct somatic embryogenesis of Agave fourcroydes through thin cell layer (TCL) culture technology. The protocol was optimized for the main factors known to affect the process, including the type of explant (stem or leaf tissue), type and concentration of exogenous growth regulators (α-naphthalene acetic acid [NAA], 2,4-diclorophenoxyacetic acid [2,4-D], 4-amino-3,5,6-trichloro-2-pyridinecarboxylic acid [picloram], and 3,6-dichloro-2-methoxybenzoic acid [dicamba]), and the influence of plant genotype. Thin tissue segments cut transversally (tTCLs) from stems of in vitro-cultured plants gave the best embryogenic response when cultured with 2.26 μM dicamba (92.22 embryos/explant) or 2.07 μM picloram (81.72 embryos/explant). It was interesting to observe that the embryogenic capacity of these tissues was affected by the presence of 6-benzylaminopurine (BA) in the culture medium in which the explant donor plantlets were maintained. Thirteen clonal lines (each derived from a different parental plant), compared for their embryogenic competence under the same culture conditions, produced very different embryogenic responses that varied from very high (117 embryos/explant) to null. The histological analysis revealed that the amount of meristematic tissue present in the tTCLs varied according to the region of the stem (apical, middle, or basal) from which they originated. The cells of the vascular procambium became competent and developed into cell lines that formed embryos, either by a unicellular or a multicellular pathway. Mature embryos germinated in half-strength Murashige and Skoog medium without growth regulators and 85% of regenerated plants was successfully acclimatized in a greenhouse.     

Recurrent somatic embryogenesis and plant regeneration from seedlings of <Emphasis Type="Italic">Hepatica nobilis</Emphasis> Schreb.

A method for secondary somatic embryogenesis was developed on embryos derived from embryogenic callus formed on Hepatica nobilis seedlings. Somatic embryogenesis (SE) was induced on seedlings (on the hypocotyl and epicotyl parts) grown on the Murashige and Skoog (1962) medium (MS) supplemented with 1 µM naphthaleneacetic acid (NAA), and/or 0.1 µM 6-benzyladenine (BA) and on medium without plant growth regulators (PGR). The best response of embryogenic callus formation was observed on the medium containing 1 µM NAA alone or with 0.1 µM BA. Individual somatic embryos, formed on embryogenic callus on the medium without PGR (MS0), at heart, torpedo and cotyledonary stage, were transferred to the media where secondary somatic embryo formation and development into plantlets occurred. Although the most efficient repetitive cycles of secondary SE were recorded for all stages of somatic embryos (heart, torpedo, cotyledonary) on the MS0 medium (77.8–87.4 %), secondary somatic embryos were also obtained on all media supplemented with cytokinins. The best rate of somatic embryos germination was achieved on MS media with 0.2 µM NAA and 2 µM BA, and 0.1 µM NAA and 1 µM BA (48.8–52.0 %) when more mature embryos (cotyledonary stage) were used. Plantlets grown from somatic embryos were successfully acclimatized to greenhouse conditions.     

Direct somatic embryogenesis of potato [<Emphasis Type="Italic">Solanum tuberosum</Emphasis> (L.)] cultivar ‘Kufri Chipsona 2’

Direct somatic embryo induction was achieved from leaf and internodal explants of Solanum tuberosum (L.) cultivar ‘Kufri Chipsona 2’ on Murashige and Skoog (Physiol Plant 15:473–497, 1962) medium containing 10.0 µM silver nitrate (MS1 medium) supplemented with 2,4-dichlorophenoxyacetic acid (2,4-D; 2.5 µM) and 6-benzyladenine (BA; 1.0 µΜ). It was observed that in absence of AgNO₃, friable callus was induced from cut ends of the explants, which does not develop into any kind of organised structure; thus highlighting the requirement of AgNO₃ for somatic embryogenesis in potato. Furthermore, the effect of medium strength, sucrose concentration and heat shock treatment on somatic embryogenic potential of explants was also investigated. When the strength of basal medium was reduced to half, the frequency of internodal segments differentiating somatic embryos was almost double in comparison to full strength MS medium. Sucrose concentration and heat shock treatment were found to have interactive effect on somatic embryo induction. Explants subcultured on medium containing 174 mM sucrose and subjected to heat shock (1 h; 50 °C) showed maximum somatic embryo differentiation. Although, the percent explants differentiating somatic embryos decreased sharply with increase in sucrose concentration (>?174 mM), yet the number of somatic embryos differentiated per explant were found to increase with further increase in sucrose concentration. Histological observations revealed that somatic embryos directly developed from epidermis of leaf explant and cut ends of internodal segments progressed from globular to cotyledonary stage after passing through intermediate embryogenic stages (heart shaped and torpedo shaped). Conversion of somatic embryos into plantlets (92%) was achieved on MS1 medium supplemented with BA (10.0 µM) and gibberellic acid (15.0 µM) and all regenerated plants were found to be phenotypically alike.     

The effect of auxin on plant regeneration of wheat,barley and triticale

One of the basic components of a medium influencing somatic embryogenesis of cereals from immature embryos is the type of auxin. According to some researchers, phytohormones can also play an important role during Agrobacterium-mediated transformation. In this first part of research, the influence of three types of auxins used alone or in combination of two on somatic embryogenesis and plant regeneration in three cereal species has been tested. Eight cultivars of barley, five cultivars of wheat and three cultivars of triticale have been used. Efficiency of plant development on two regeneration media, with and without growth regulators has been compared. Efficiency of regeneration characterized by frequency of explants that form embryogenic callus ranged from 25% for wheat cultivar Torka to 100% for two barley cultivars. Mean number of plantlets regenerating per explant differed significantly (from 2 to 58) depending on the type of auxin in inducing media, the type of regenerating media as well as cultivar. The biggest differences in regeneration efficiency were observed between barley cultivars, however regeneration of plants occurred in all combinations tested. The best regeneration coefficients for most barley cultivars were obtained after culture on dicamba or dicamba with 2,4-D. However, in the case of highly regenerating cv Scarlett, the most effective culture media contained picloram or 2,4-D alone. The highest values of regeneration coefficients for two triticale cultivars (Wanad and Kargo) were obtained on picloram (26.1 and 21.4, respectively) and for `Gabo' on picloram with dicamba (12.6). The range of mean number of regenerated plantlets was from 12 to 30. Dicamba alone or lower concentrations of picloram with 2,4-D were the best media influencing embryogenic callus formation in five wheat cultivars. However, the highest values of regeneration coefficients ranging from 10.6 to 26.8 were obtained at lower concentrations of picloram with 2,4-D or picloram with dicamba. R2 regeneration medium containing growth regulators was significantly better for plantlet development in several combinations (cultivar and induction medium) than the one without growth regulators. Generally, regeneration coefficients for all tested cultivars of three cereal species on the best media were high, ranging from 5.5 for barley cultivar Rodion to 51.6 for another barley cultivar Scarlett. Plantlets developed normally, flowering and setting seed.     

Somatic embryogenesis and plant regeneration inPisum sativum L.

Somatic embryogenesis was induced in immature zygotic embryos of pea (Pisum sativum L.), synthetic auxins α-naphthalene acetic acid (NAA), 2,4-dichlorophenoxyacetic acid (2,4-D) and 4-amino-3,5,6-trichloropicolinic acid (picloram, PIC) being used. Only one (line HM-6) of 46 genotypes tested exhibited good potential for somatic embryogenesis. 2,4-D was found as the best somatic embryo inductor. Three different ways of somatic embryo conversion have been described. Plantlets from individual somatic embryos were micropropagated as somaclones and subsequently rooted. A sterile morphological mutant has been found within a group of fertile plants of T₀-generation. Sufficient amount of T₁-seeds is available for somaclonal variation studies.     

Somatic embryogenesis and metabolic differences between embryogenic and non-embryogenic structures in mangosteen

Somatic embryogenesis in mangosteen (Garcinia mangstana L.) was investigated using seed and leaf segments cultured on Murashige and Skoog medium with treatments of 6-benzyladenine (BA) [2.0, 3.0, 4.0 µM] and 2,4-diclorophenoxyacetic acid (2,4-D) [4.5, 9.0, 13.5 µM]. There were four types of structures (globular, nodular compact, friable and spongy) formed. Two treatments resulted in embryogenic characteristics from seed cultures; the highest percentage 46.67?% of globular structure (resembling somatic embryos) grown on 3.0 µM BA and 80?% of nodular compact structures on 4.0 µM BA?+?13.5 µM 2,4-D. For the leaf culture, highest percentage, 93.33?% produced nodular compact structures on 2.0 µM BA?+?4.5 µM 2,4-D. Histological analysis showed that the globular structure has well-defined protoderm and separated from the original explant. Nodular compact structure also showed the presence of densely cytoplasmic meristematic cells with a high nucleoplasmic ratio. These characteristics observed in globular and nodular compact structure indicates somatic embryo formation. The globular structures which were converted into shoots and roots (60.00?%) showed atypical somatic embryogenesis in mangosteen. Metabolite fingerprinting was carried out using gas chromatography–mass spectrometry. Amino acids, carbohydrates, organic acids and fatty acids were found in both the embryogenic structures and non-embryogenic structures tested. Multivariate discriminant analyses of the metabolic data revealed significant metabolites (P?≤?0.05) for both types of structures. Principle component analysis suggested that amino acids and carbohydrates were the major compounds distinguishing embryogenic and non-embryogenic structures. Ornithine and mannose were present at significant level in embryogenic structures as compared to non-embryogenic ones while fructose was significantly higher in non-embryogenic structures.     

Somatic embryogenesis in tulip (<Emphasis Type="Italic">Tulipa gesneriana</Emphasis> L.) flower stem cultures

In the present study, the procedures for induction of somatic embryogenesis (SE) in an in vitro culture of the tulip have been developed. SE was initiated on flower stem explants isolated from “Apeldoorn” bulbs during their low-temperature treatment. Bulbs had not been chilled or had been chilled for 12 or 24 weeks at 5°C. The explants were cultured with exogenous auxins 2,4-dichlorophenoxyacetic acid (2,4-D), 4-amino-3,5,6-trichloropicolinic acid (Picloram), α-naphthaleneacetic acid (NAA) at 1–100 μM and cytokinins: benzyladenine (BA) and zeatin (ZEA) at 0.5–50 μM. Increase in auxin concentrations caused an intensive enlargement of the explant parenchyma, which changed into homogenous colorless callus. On the same media, vein bundles developed into yellowish, nodular callus. Picloram was more efficient in inducing the formation of embryogenic nodular callus than 2,4-D, whereas the latter stimulated formation of colorless callus. The base of the lower part of the flower stem isolated from bulbs chilled for 12 weeks proved to be the best explant for callus formation. The highest number of somatic embryos was produced on medium with 25 μM Picloram and 0.5 μM BA. Development of adventitious roots was noticed in the presence of 2,4-D. Globular embryos developed into torpedo stage embryos under the influence of BA (5 μM) and NAA (0.5 μM). Morphological and anatomical data describing development of callus and somatic embryos are presented.     

Auxin and nutritional stress coupled somatic embryogenesis in <Emphasis Type="Italic">Oldenlandia umbellata</Emphasis> L.

Somatic embryos were induced from internodal segment derived callus of Oldenlandia umbellata L., in MS medium supplemented with different concentrations of 2,4-Dichlorophenoxy acetic acid (2,4-D). Initially calli were developed from internodes of microshoots inoculated in 2.5 µM NAA supplemented medium. Then calli were transferred to 2,4-D added medium for somatic embryogenesis. Nutritional stress coupled with higher concentration of 2,4-D triggered somatic embryogenesis. Nutritional stress was induced by culturing callus in a fixed amount of medium for a period up to 20 weeks without any external supply of nutrients. Addition of 2.5 µM 2,4-D gave 100% embryogenesis within 16 weeks of incubation. Callus mass bearing somatic embryos were transferred to germination medium facilitated production of in vitro plantlets. MS medium supplemented with 2.5 µM benzyl adenine and 0.5 µM α-naphthalene acetic acid produced 15.33 plants per culture within 4 weeks of culture. Somatic embryo germinated plants were then hardened and transferred to green house.     

Somatic embryogenesis in Eucalyptus globulus

Somatic embryos were obtained from 1% of cotyledon pieces and hypocotyls of mature embryos of Eucalyptus globulus Labill. cultured on media containing a high concentration of picloram or IBA. 2,4-D and other synthetic auxins did not yield somatic embryos or embryogenic callus. Somatic embryos arose indirectly via callus, being visible after four months, and directly, where little callus or adventitious root initiation occurred. Somatic embryos, formed directly from explants, were visible within five weeks. Various structural abnormalities of somatic embryos were observed, especially after induction on media containing picloram. Only two out of fifteen somatic embryos showed hypocotyl and radical elongation, but plantlets did not develop further.     

High Frequency of Plant Production via Somatic Embryogenesis from Callus or Cell Suspension Cultures inEleutherococcus senticosus

Hypocotyl segments ofEleutherococcus senticosuscultured on Murashigeand Skoog's (MS) medium with 4.5 µM2,4-D produced somaticembryos directly from the surface of explants without interveningcallus formation. When these somatic embryos were subculturedto the same MS medium with 4.5 µM2,4-D, friable embryogeniccalli were formed mainly from radicle tips of somatic embryos,but at a low frequency (5%). Selected embryogenic calli weremaintained on MS agar or liquid medium with 4.5 µM2,4-D.To induce somatic embryo development, embryogenic calli andcell clumps were transferred to MS medium lacking 2,4-D. Thefrequency of somatic embryo formation differed between culturetypes with 1570 embryos formed per Petri dish from callus cultureand 5514 embryos formed per flask from cell suspension cultures.Somatic embryos formed on agar medium had larger cotyledonsthan those of embryos formed in liquid medium. GA₃treatmentwas necessary to induce germination from somatic embryos. Therate of plant conversion was 97% in somatic embryos from callusculture and 76% in embryos from liquid culture. Regeneratedplantlets were successfully acclimatized in the glasshouse.Copyright1999 Annals of Botany Company Eleutherococcus senticosus, micro propagation, somatic embryogenesis.     

Somatic embryogenesis of <Emphasis Type="Italic">Merwilla plumbea</Emphasis> (Lindl.) Speta

A simple and efficient system was developed for rapid somatic embryogenesis from leaf explants of Merwilla plumbea, a traditional but threatened medicinal plant in South Africa. Friable embryogenic callus (FEC) was obtained from leaf explants on embryogenic callus induction medium containing agar-solidified Murashige and Skoog (MS) salts and vitamins, 8.3 μM picloram, 2.3 μM thidiazuron (TDZ) and 20 μM glutamine. FEC was subsequently incubated in embryogenic callus proliferation medium containing 4.5 μM 2,4-dichlorophenoxyacetic acid (2,4-D) and 4.1 μM picloram for 7 days before it was transferred to liquid somatic embryo medium (SEM_L) containing MS medium supplemented with 0.4 μM picloram and 0.9 μM TDZ. In SEM_L supplemented with 150 mg L⁻¹ haemoglobin, 5.4–35.6 somatic embryos per settled cell volume of 500 mg FEC were obtained. These embryos were at globular to cotyledonary developmental stages. Embryo maturation, germination and plant formation rate was 94.4% following transfer of SEs to half-strength MS medium supplemented with 1.4 μM gibberellic acid. Plantlets transferred into soil acclimatized in the misthouse and established successfully in the greenhouse (100%). This is the first report on induction of Merwilla plumbea somatic embryogenesis. The protocol developed offers controlled vegetative propagation by alleviating extinction threats, ensures germplasm conservation and provides a system for physiological, biochemical, molecular and cellular studies of embryo development.     

Protein changes associated with plant regeneration in embryogenic calli of sugarcane (Saccharum sp.).

Plant regeneration from cultured immature inflorescence segments (3–5 mm) of sugarcane (Saccharum sp) var. CP 5243 was obtained via somatic embryogenesis. Embryogenic callus culture was initiated on MS medium supplemented with 2,4-D (13.5 μM) over 30 days. The callus was subcultured every 15–20 days on MS medium supplemented with 2,4-D (4.5 μM), arginine (50 mg l^-1) and proline (500 mg l^-1). The callus was subjected to five treatments: 2,4-D (4.5 μM), Picloram (8.2 μM) and Dicamba (22.6 μM). SPC was determined at the beginning, after 20 days in culture, and every 24 hours thereafter up to 72 hours. SDS-PAGE electrophoresis was performed based on soluble protein content. Some differences were found between SPC and bands (intensity and number) for all treatments associated with shoot formation. The results point out the association of soluble protein content and callus regenerative ability of sugarcane cv. CP5243 and suggest the presence of a marker protein (between 55–70 kDa) for embryogenic callus regeneration ability in this cultivar. This revised version was published online in June 2006 with corrections to the Cover Date.     

Plant regeneration through somatic embryogenesis from immature and mature zygotic embryos of Musa acuminata ssp. burmannica

A simple and efficient protocol has been developed for in vitro regeneration of M. acuminata ssp. burmannica (AA) plants. Somatic embryos were produced when immature and mature zygotic embryo explants were cultured on Murashige and Skoog medium supplemented with plant growth regulators 2,4-dichlorophenoxyacetic acid; (2,4-D), picloram or benzyl adenine and indole acetic acid. In general, immature embryos responded better than mature embryos. Callus proliferation was highest in medium supplemented with 2,4-D (4.5???M). Subsequent transfer of callus to fresh medium produced rapidly proliferating embryogenic calli. Embryogenic calli were maintained in complete darkness for 15?d followed by cycles of 8?h dark and 16?h light, under white fluorescent lamps with a light intensity of 3,000?lm/m² and at temperature of 28?±?2°C. Regeneration of embryogenic calli into plantlets was higher for immature embryos (76.6%) than for mature embryos (50.6%). This plant regeneration protocol using mature or immature zygotic embryos, via somatic embryogenesis, has significant potential to improve germination efficiencies of hybrid progenies used in conventional breeding strategies. Furthermore, tests on seed storage showed that seed viability rapidly decline after harvesting and was negligible after 9?mo of storage. This indicates using freshly harvested seeds as explant material is necessary for maximizing the tissue culture response.     

An improved protocol for somatic embryogenesis and plant regeneration in macaw palm (Acrocomia aculeata) from mature zygotic embryos

An improved protocol for plant regeneration via somatic embryogenesis was developed using mature macaw palm (Acrocomia aculeata) zygotic embryos as initial explant. For induction of the embryogenic callus (EC), two basic media (BM) were tested consisting of Murashige and Skoog and Eeuwens (Y3) salts with 30 g L^?1 sucrose, 0.5 g L^?1 glutamine and 2.5 g L^?1 Phytagel. The 3,6-dichloro-2-methoxybenzoic acid (dicamba), 4-amino-3,5,6-trichloro-picolinic acid (picloram) and 2,4-dichlorophenoxyacetic acid (2,4-D) auxins were added to the culture media at concentrations of 0, 1.5 or 3.0 mg L^?1. After 240 days, the embryogenic calli were transferred to the respective BM media with auxin concentrations reduced to 0.5 or 1.0 mg L^?1 in order to differentiate the somatic embryos (SEs). Plant regeneration was performed on the BM media without growth regulators. Embryogenic calli were observed after 180 days of culture and in all treatments with auxin. The Y3 medium showed the best EC formation results (60.8 %). These calli showed yellowish coloration, compact consistency and nodular aspect. After 60 days in differentiation medium, SEs were verified in different stages of development. Histological analysis showed that the SEs were formed from a nodular EC. The SEs generally presented unicellular origin with suspensor formation, and at the end of development, bipolar embryos were observed. The plant regeneration frequency reached levels up to 31.9 % when using induction medium consisting of Y3 associated to 1.5 mg L^?1 of 2,4-D and the subsequent auxin reduction to 0.5 mg L^?1 in the differentiation stage. Regenerated plants showed normal development, with root and aerial part growth.