Somatic embryogenesis and plant regeneration in açaí palm (<Emphasis Type="Italic">Euterpe oleracea</Emphasis>)

An efficient and simple system for inducing somatic embryogenesis and regenerating plantlets from immature zygotic embryos of açaí palm (Euterpe oleracea) has been developed. Embryogenic calli (ECs) were induced from immature zygotic embryos of açaí palm on Murashige and Skoog (MS) modified medium with 2,4-dichlorophenoxyacetic acid and picloram. Embryogenic frequency was dependent on auxin type and concentration. The optimal concentration of picloram for the high-frequency induction of embryogenic calli (72%) was 225 μM. ECs were then subcultured on a differentiation and maturation medium composed of MS modified medium with 2-isopentenyladenine and naphthaleneacetic acid with subcultures at 4-week intervals. SEs were converted to plants on MS modified medium with half-strength macro- and micronutrients, 20 g l^?1 sucrose, and 2.5 g l^?1 activated charcoal and gelled with 2.5 g l^?1 Phytagel. Detailed morpho anatomical changes during the different stages of somatic embryogenesis were characterized. The development of SEs was asynchronous, and ontogenic studies confirmed that the initial cell divisions occur in the epidermal and subepidermal regions of the zygotic embryos. Broad base attachment of SEs to the epidermis indicates the presence of a suspensor.     

Somatic embryogenesis and plantlet regeneration from mature zygotic embryos of Manchurian ash (Fraxinus mandshurica Rupr.)

Using mature cotyledonary explants of Fraxinus mandshurica, an efficient plant regeneration system was developed via somatic embryogenesis. More than 67 % of mature cotyledons of zygotic embryos yielded 23–159 somatic embryos (SEs) per explant when incubated on medium consisting of half-strength Murashige and Skoog (MS) salts and vitamins (MS1/2) supplemented with 8.88 μM 6-benzyladenine (BA), 26.84 μM naphthaleneacetic acid (NAA), 75 g L^?1 sucrose, and 400 mg L^?1 casein hydrolysate (CH). Approximately, 82 % of induced SEs were observed on browning cotyledonary explants. Histological studies of cotyledon explants at various stages of somatic embryogenesis revealed that the SEs originated from single epidermal cells and developed to the globular, heart, torpedo, and cotyledonary stage embryos. Secondary somatic embryos (SSEs) formed on the surface of radicle tips of the SEs. Addition of low concentrations of NAA and 200–400 mg L^?1 CH to MS1/2 medium increased SSE induction. Cotyledonary SSEs were cultured on MS1/2 medium with 10 mM abscisic acid in the presence of light to promote maturation, and >92 % of mature SSEs were able to germinate with normal shoots. After 8 weeks in culture in the presence of light on medium with one-third of the MS macroelements as well as 0.06 μM NAA, >94 % of the germinated SSEs converted into plantlets. Plantlets acclimatized successfully to ex vitro conditions and developed normal phenotypes under field conditions.     

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.     

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.     

Somatic Polyembriogenesis of <Emphasis Type="Italic">Larix sibirica</Emphasis> in Embryogenic in vitro Culture

The initiation of somatic embryos and their propagation in the long-term proliferating embryonal suspensor mass of Larix sibirica were studied. It was found that the increase in the number of somatic embryos in the embryogenic culture occurred as a result of cleavage of the globules of the somatic embryo and the suspensor; it less often occurred as the result of budding of the suspensor and the separation of the embryonal tubes of the suspensor. In the case of long-term proliferating cell lines (more than 8 years), the rate of cleavage did not weaken. A conclusion on the identity of morphogenic processes underlying the development of zygotic and somatic embryos of conifers is made, which is confirmed by the concept of T.B. Batygina (1999) on the parallelism of their development in vivo and in vitro.     

A clonal propagation system for Atlantic white cedar (<Emphasis Type="Italic">Chamaecyparis thyoides</Emphasis>) via somatic embryogenesis without the use of plant growth regulators

Atlantic white cedar (AWC; Chamaecyparis thyoides), an aromatic evergreen conifer native to swamps and bogs along the Atlantic and Gulf coasts of the eastern United States was once an important species for timber production due to its durable wood. However, native populations have declined over the past two centuries. We established an in vitro propagation system for AWC via somatic embryogenesis (SE) without the use of plant growth regulators (PGRs). Whole megagametophytes with zygotic embryos from immature AWC cones were cultured on a modified half-strength embryo maturation (EM) medium with three different PGR treatments, including one devoid of PGRs. Both PGR treatment and cone collection date had significant effects on embryogenesis induction, with EM with no PGRs giving the highest embryogenesis induction, which ranged as high as 27%. We also conducted experiments to determine the effects of activated carbon (AC) and abscisic acid (ABA) in the maturation medium on production of mature somatic embryos. AC significantly affected this variable, with 2 g l^?1 producing more embryos than 0 g l^?1. Application of exogenous ABA not only failed to improve production of mature somatic embryos, the highest level tested (200 µM), apparently lowered production of mature embryos compared to the 0 ABA control. The highest numbers of mature somatic embryos per ml of plated embryogenic suspension (32–37) were produced on medium with 2 g l^?1 AC and levels of ABA at 100 µM or lower. The SE system described here has the potential to contribute the restoration of Atlantic white cedar to its native habitat.     

High-frequency somatic embryogenesis from germinated zygotic embryos of <Emphasis Type="Italic">Schisandra chinensis</Emphasis> and evaluation of the effects of medium strength,sucrose, GA<Subscript>3</Subscript>, and BA on somatic embryo development

We developed a new protocol for highly efficient somatic embryogenesis and plantlet conversion of Schisandra chinensis. Friable embryogenic callus was induced from cotyledonary leaves and hypocotyls of germinated zygotic embryos on Murashige and Skoog (MS) agar medium containing 2,4-dichlorophenoxyacetic acid (2,4-D). Preculture of zygotic embryos on 2,4-D-containing medium increased embryogenic callus induction efficiency. The highest embryogenic callus induction frequency of 56.7% was obtained from shoot apical meristem-containing hypocotyl explants from 1-week-old germinated embryos on MS medium containing 4.0 mg l⁻¹ 2,4-D. Embryogenic callus proliferation, somatic embryo (SE) formation, and subsequent plantlet conversion occurred under optimal culture conditions. The effects of MS medium strength, sucrose, gibberellic acid (GA₃), and 6-benzyladenine (BA) on SE formation and plantlet conversion were evaluated. Low MS medium strength (1/4 to 1/2) was necessary for SE formation, and the optimal sucrose concentration was 2.0%. Supplementing medium with GA₃ negatively impacted SE formation and subsequent development. BA significantly increased the number of SEs and the plantlet conversion capacity. One-third-strength MS medium with 1.0% sucrose and 0.5 mg l⁻¹ BA produced the highest number of SEs (309 embryos from 9 mg embryogenic callus) and the highest frequency of plantlet conversion from germinated SEs (52.6%). When transplanted to soil, 90% of the regenerated plants developed into normal plants.     

Somatic Embryogenesis from 20 Open-Pollinated Families of Portuguese Plus Trees of Maritime Pine

Immature zygotic embryos from 20 open-pollinated (OP) families of maritime pine (Pinus pinaster) plus trees were screened for their somatic embryogenic capacity. The best time for zygotic embryo collection was between 30th June and 16th July 1999 when most embryos were at a pre-cotyledonary stage of development. The somatic embryogenesis (SE) initiation frequency was highest on DCR basal medium with 13.6 µM 2,4-dichlorophenoxyacetic acid (2,4-D) and 4.4 µM 6-benzylaminopurine (BAP) supplemented with L-glutamine and casein hydrolysate. On this medium, initiation frequencies among OP families ranged from 4.6 to 49.1%. Initiation of embryogenic cell lines from all 20 OP families was possible only on DCR based medium, but the addition of L-glutamine and casein hydrolysate significantly increased the number of zygotic embryos producing SE. Most families showed a similar behaviour on different initiation media; however, a few exceptions were observed. Further development of somatic embryos on maturation medium, consisting of DCR with 120 µM abscisic acid (ABA), 100 g l^–1 polyethylene glycol (PEG) and 10 g l^–1 gellan gum, occurred in 29% of 896 embryogenic lines representing all 20 OP families. However, development into cotyledonary somatic embryos was observed in only 11% of the cell lines, but this still represented 18 OP families.     

In vitro clonal propagation and stable cryopreservation system for <Emphasis Type="Italic">Platycladus orientalis</Emphasis> via somatic embryogenesis

Platycladus orientalis is a widespread conifer, which is native in eastern Asia, and has recently attracted much attention due to its ornamental value for landscape and gardens. However, native P. orientalis populations have been in decline over the past century. Here, we established an in vitro propagation and cryopreservation system for P. orientalis via somatic embryogenesis (SE). Whole megagametophytes with four development stages (Early embryogeny: E1 and late embryogeny: L1, L2, and L3) of zygotic embryos from immature P. orientalis cones were used as initial explants and cultured on three different basal media such as initiation medium (IM), Litvay (LV), and Schenk and Hildebrandt (SH). Both the developmental stage of zygotic embryos and kind of basal medium had a significant effect on embryogenesis induction with IM (P?<?0.001, respectively). The highest frequency of embryogenic callus induction was obtained in megagametophytes with zygotic embryos at L2 stage, which ranged as high as 30%. The maturation medium containing IM basal salts, vitamins and amino acids, 15 g l^?1 abscisic acid (ABA), 50 g l^?1 maltose, and 100 g l^?1 polyethylene glycol 4000 (PEG) was found to be the suitable medium for production of somatic embryos. The frequency of somatic embryo formation from both non-cryopreserved and cryopreserved cell lines was also tested. There were no statistical differences on the production of somatic embryos between non-cryopreserved and cryopreserved cells (P?=?0.523). Genetic fidelity of the plantlets regenerated from non-cryopreserved and cryopreserved embryogenic cell lines was assessed by both random amplified polymorphic DNA (RAPD) and inter simple sequence repeat (ISSR) analysis. There was no genetic instability in the regenerated plantlets from cryopreserved embryogenic cell lines. Both the SE protocol and cryopreservation protocols described here have the potential to contribute the conservation and clonal propagation of P. orientalis germplasm.     

Enhancement of somatic embryogenesis and plant regeneration in Japanese red pine (Pinus densiflora)

The highest proliferation rate (9.8-fold) of embryogenic suspensor mass (ESM) was obtained from half-strength Litvay (½LM, Litvay et al. 1985) medium supplemented with 3.42 mM l-glutamine, while the lowest rate was noted when 0.84 mM l-glutamine (0.6-fold) was added to the medium. The highest growth ratio with brassinolide (BL) was observed for 1.0 μM (2.3-fold, line 05-21) and 0.05 μM (2.9-fold, line 06-22). However, in the ESM lines 05-21 and 06-22, high ESM growth rates (2.3-fold, line 05-21 and 2.1-fold, line 06-3) were seen without BL when compared with 1.0 μM (05-21) or 0.05 μM (06-22). BL-supplemented medium has been shown to have diverse, genotype-specific effects on the degree of ESM proliferation. For somatic embryo maturation with 0.05 % activated charcoal (AC), the highest number (798 g^?1 FW) of cotyledonary somatic embryos (line 06-29) were obtained on a maturation medium supplemented with AC. The influence of light-emitting diode (LED) sources on the germination of somatic embryos (four genotypes) in this species was studied and was strongly genotype-dependent. Germination of somatic embryos from ESM line 05-3 was strongly inhibited by fluorescent, and red + blue light, while lines 05-12, 05-29, and 05-37 showed a similar germination frequency for the five LED sources, where red light most stimulated somatic embryo germination.     

Maturation of somatic embryos in two embryogenic cultures of <Emphasis Type="Italic">Picea morrisonicola</Emphasis> Hayata as affected by alternation of endogenous IAA content

Embryogenic culture lines T4 and T2 were initiated from two mature zygotic embryos of Picea morrisonicola Hay. Mature somatic embryos (SEs) were produced in culture line T2 but not in line T4 after 8-week abscisic acid (ABA) treatment. High performance liquid chromatography (HPLC) analysis of the endogenous indole-3-acetic acid (IAA) content has shown 7.5 times higher IAA production in T4 line than in T2 line during the proliferation phase. However, after ABA incubation the line T4 produced much less IAA than line T2. The application of an anti-auxin, 2,3,5-triiodobenzoic acid (TIBA) or 2-(4-chlorophenoxy)-2-methylpropionic acid (PCIB) induced culture line T4 to produce mature SEs. Both 1 μM TIBA and 5 μM PCIB increased the production of stage 2 SEs in T4 culture line when cultures were treated during the proliferation stage for 8 weeks. Occasionally cotyledonary (stage 3) SEs were even produced from treated T4 culture line. Both chemicals have also been demonstrated to significantly decrease the amount of IAA in the treated T4 and T2 embryogenic lines. However the decrease of the IAA level was not beneficial for SE production in the T2 embryogenic line. These results indicated the importance of endogenous IAA level in manipulating the process of SE maturation in spruce embryogenic cultures.     

Plant regeneration via somatic embryogenesis from solid and suspension cultures of Vitis vinifera L. cv. ‘Manicure Finger’

Vitis vinifera L. cv. ‘Manicure Finger’ is one of the major table grape varieties in China. To provide a strong foundation for genetic transformation with potential for crop improvement, we undertook plant regeneration via somatic embryogenesis. Anthers and gynoecia were harvested from immature flowers and used as explants to induce embryogenic calli. Explants cultured in MS1 medium (based on Murashige and Skoog basal salts), supplemented with 4.5-μM 2,4-dichlorophenoxyacetic acid (2,4-D) and 4.4-μM 6-benzylaminopurine (6-BA) showed the highest rates of embryogenic callus induction (3.7%?±?1.3% for anthers and 4.8%?±?2.5% for gynoecia). After several months, somatic embryos were produced from embryogenic calli cultured in plant growth regulator-free MS2 medium (with reduced sucrose). Somatic embryos (SE) at the cotyledonary stage were isolated and cultured on three different media (MS2, MS3, or B) for conversion into plantlets, the efficiency of which ranged from 63.9%?±?4.8% to 83.9%?±?8.4%. After 1 mo of in vitro culture, 80% of plants with at least six leaves were successfully transplanted into soil. SE was repeatedly induced from previously induced somatic embryos for up to 1.5 yr. Using embryogenic calli as starting material, suspension cultures containing embryogenic cell aggregates were also established in liquid MS medium supplemented with 4.5-μM 2,4-D. The embryogenic cell aggregates continued to proliferate without differentiating for successive subculture cycles. After transfer to 2,4-D-free liquid medium for 4 wk, an average of 63.7%?±?9.0% mature SEs were produced per 20 mL of liquid medium. More than 40% of somatic embryos at cotyledonary stage, derived from the suspension cultures, successfully germinated into plants using solid medium.     

Effects of cadmium and lead stress on somatic embryogenesis of coniferous species. Part I: Evaluation of the genotype-dependent response

Somatic embryogenesis is an important biotechnological tool that has significant potential to be used in studies related to environmental stress. In this study, embryogenic cell masses of Abies alba and Picea abies were grown on media enriched with 50–500 µM cadmium (Cd²⁺) or lead (Pb²⁺). The effects of cadmium and lead were evaluated during the subsequent stages of somatic embryogenesis: proliferation, maturation, and germination. The following characteristics were evaluated: proliferation potential, cell viability, average number of somatic embryos obtained per 1 g of fresh weight, and morphology of the developed somatic embryos. The tested heavy metals significantly reduced the proliferation rate of A. alba and P. abies embryogenic cell masses. The highest tested cadmium concentration markedly slowed or stopped the growth of embryogenic cell masses in both species. Unexpectedly, the proliferation ratio remained fairly high for the P. abies cell lines treated with lead at all concentrations tested. During the maturation stage, the total number of somatic embryos declined under cadmium exposure. The formation of early precotyledonary and cotyledonary somatic embryos in both species was similarly reduced, although cadmium caused a higher death rate and was more toxic than lead. To the best of our knowledge, this is the first report to study the effects of heavy metals on A. alba embryogenic cell masses during the proliferation stage as well as on the maturation and germination processes of both species. This in vitro system can be used for testing the response of large sets of genotypes, and the best performing lines can be used in the future for in vivo performance tests of heavy metal-polluted soils.     

Plant regeneration through direct somatic embryogenesis from immature zygotic embryos of the medicinal plant,Paris polyphylla Sm.

A protocol for induction of direct somatic embryogenesis and subsequent plant regeneration for the medicinally important and endangered plant Paris polyphylla Sm. has been developed for the first time. Immature zygotic embryos (IZEs) were cultured on different media namely Gamborg (B5), ½ B5, Murashige and Skoog (MS), ½ MS, Chu et al. (N6), ½ N6, Schenk and Hildebrandt (SH) and ½ SH. Highest frequency of somatic embryogenesis (32.6 %) and mean number of somatic embryos (SEs) per explant (28.7 ± 1.7) were obtained on ½ MS medium directly without an intermediate callus phase. The frequency of SE induction was significantly increased to 40.7 % when ½ MS medium was solidified with gelrite compared to agar (32.6 %). Secondary somatic embryos (SSEs) appeared on the primary SEs in a repetitive way on plant growth regulator-free ½ MS medium but with a gradual decrease in embryogenic potential during subsequent subcultures. Plasmolyzing pre-treatment of SSEs with 1.0 M mannitol for 12 h effectively maintains its embryogenic capacity. Primary embryos at the elongated dimpled and early cotyledonary stage displayed the highest embryo forming capacity of 26.94 and 27.87, respectively. High frequency of SE germination (94.0 %) occurred on ½ MS medium with 0.5 mg/l gibberellic acid. Highest percentage of seedling to plantlet conversion was observed in the medium supplemented with 0.05 mg/l 6-benzylaminopurine and 0.1 mg/l α-naphthalene acetic acid. Regenerated plants displayed morphological characteristics similar to that of the wild plants. Flow cytometry analysis showed ploidy stability of the regenerated plants.     

Somatic embryogenesis in Alnus glutinosa (L.) Gaertn

Induction of somatic embryos and plant regeneration was demonstrated for the first time in Alnus glutinosa. Somatic embryos were initiated from zygotic embryos collected 1–3 weeks post-anthesis (WPA), i.e., when they were at globular or early cotyledonary stage and were 0.5–1 mm in length. Induction frequency (16.6 %) and the mean number of somatic embryos (4.5 embryos/explant) were highest after culture of zygotic embryos, collected at 3 WPA, on Murashige and Skoog medium (MS) supplemented with 0.9-μM 2,4-dichlorophenoxyacetic acid and 2.22-μM benzyladenine (BA). No embryogenic induction was observed on medium with BA alone. Initial somatic embryos differentiated indirectly from callus tissue formed at the surface of the zygotic embryos. Embryogenic competence was maintained by secondary embryogenesis, which was affected by explant type, plant growth regulators and genotype. Secondary embryogenesis was induced by culture of small groups of whole somatic embryos or isolated cotyledon explants on medium consisting of MS medium (half-strength macronutrients) supplemented with 0.44-μM BA. Histological study of isolated cotyledon explants revealed that secondary embryos developed directly from differentiated embryogenic tissue on the surface of cotyledons. Somatic embryos at successive stages of development, including cotyledonary-stage embryos with shoot and root meristems, were evident. For plantlet conversion, somatic embryos were transferred to maturation medium supplemented with 3 % maltose, followed by 6 weeks of culture in Woody Plant Medium supplemented with 0.44-μM BA and 0.46-μM Zeatin (Z). This novel protocol appears promising for mass propagation, conservation and genetic transformation of black alder.     

Histology of somatic embryogenesis in <Emphasis Type="Italic">Coffea arabica</Emphasis> L.

The objective of this study was to characterize the histodifferentiation of somatic embryogenesis obtained from leaf explants of C. arabica. Therefore, we histologically analyzed the respective stages of the process: leaf segments at 0, 4, 7, 15 and 30 days of cultivation, Type 1 primary calli (primary calli with embryogenic competence) and 2 (primary calli with no embryogenic competence), embryogenic calli, globular, torpedo and cotyledonary embryos, and mature zygotic embryos. Callus formation occurred after seven days of culture, with successive divisions of procambium cell. In this cultivation phase, it was found that Type 1 primary calli are basically formed by parenchymal cells with reduced intercellular spacing, whereas Type 2 primary calli are predominantly composed of parenchymal cells with ample intercellular spaces and embryogenic calli composed entirely of meristematic cells. After 330 days, it was evident from the differentiation of somatic embryogenesis that there was formation of globular somatic embryos, consisting of a characteristic protoderm surrounding the fundamental meristem. With the maturation of these propagules after 360 days, torpedo-stage somatic embryos arose, in which tissue polarization and early differentiation of procambial strands were verified. After 390 days, cotyledonary somatic embryos were obtained, where the onset of vessel elements differentiation was verified, a characteristic also observed in mature zygotic embryos. We concluded that somatic embryogenesis obtained from C. arabica leaves initiates from procambium cell divisions that, in the course of cultivation, produce mature somatic embryos suitable for regenerating whole plants.     

Enhancement of somatic embryogenesis and plant regeneration in Japanese larch (<Emphasis Type="Italic">Larix leptolepis</Emphasis>)

Different nitrogen sources, abscisic acid (ABA), gellan gum at various concentrations, and osmotica were evaluated for their effects on maturation of somatic embryo (SE) in Japanese larch (Larix leptolepis). Different concentrations of l-glutamine or casein hydrolysate (CH) in the medium were also compared. The highest number of matured embryos was obtained with ½ Litvay (LM) medium supplemented with 1.71 mM l-glutamine and 250 mg l^?1 CH. In terms of osmoticum effect, the highest number of cotyledonary SEs was produced in medium containing 0.2 M maltose. As for the effects of ABA and gellan gum concentration, the highest number of cotyledonary SEs was achieved on a medium containing 60 μM ABA and 0.8% gellan gum. In addition, the best plantlet conversion frequency (35.5%) was obtained with SEs derived from the treatment with 60 μM ABA and 0.8% gellan gum.     

Somatic embryogenesis and direct as well as indirect organogenesis in Lilium pumilum DC. Fisch., an endangered ornamental and medicinal plant

Somatic embryogenesis and organogenesis in Lilium pumilum were successfully regulated by picloram, α-naphthaleneacetic acid (NAA), and 6-benzyladenine (BA). In organogenesis, the highest shoot regeneration frequency (92.5%) was obtained directly from bulb scales on Murashige and Skoog (MS) medium containing 2.0 mg L^?1 BA and 0.2 mg L^?1 NAA, while organogenic callus (OC) formed from leaves on MS medium supplemented with 1.0 mg L^?1 BA and 0.5 mg L^?1 NAA. Following subculture, 76.7% of OC regenerated shoots. In somatic embryogenesis, the combination of picloram and NAA increased the amount of embryogenic callus (EC) that formed with a maximum on 90.7% of all explants which formed 11 somatic embryos (SEs) per explant. Differences between EC and OC in cellular morphology and cell differentiation fate were easily observed. SEs initially formed via an exogenous or an endogenous origin. The appearance of a protoderm in heart-shaped SE and the bipolar shoot–root development in oval-shaped SE indicated true somatic embryogenesis. This protocol provides a new and detailed regulation and histological examination of regeneration pattern in L. pumilum.     

Differential responses to somatic embryogenesis of different genotypes of Brazilian oil palm (Elaeis guineensis Jacq.)

To assess the potential of different genotypes of Brazilian oil palm (Elaeis guineensis Jacq.) to somatic embryogenesis and somatic embryo proliferation, mature zygotic embryos of nine commercial genotypes of E. guineensis (BRSC2001, BRSC2328, BRSC2301, BRSC3701, BRSCM1115, BRSC7201, BRSC2528, BRSC2501, and BRSCN1637) were used. Explants were incubated on Murashige and Skoog (MS) supplemented with 450 μM picloram, 3.0 % sucrose, 500 mg l^?1 glutamine, and 2.5 g l^?1 activated charcoal, and gelled with 2.5 g l^?1 Phytagel. After induction, for differentiation and maturation, the embryogenic calli (ECs) were transferred into fresh medium supplemented with 0.6 μM naphthaleneacetic acid (NAA) and 12.30 μM 2-isopentenyladenine (2iP) or 40 μM picloram in combination with 0.3 g l^?1 activated charcoal, and 500 mg l^?1 glutamine. Somatic embryos were converted into plants on MS medium with macro- and micro-nutrients at half strength, 2 % sucrose, and 2.5 g l^?1 activated charcoal, and gelled with 2.5 g l^?1 Phytagel. In general, zygotic embryos swelled after 14 days. Primary calli, which were observed in all the genotypes after 45–60 days of culture, eventually progressed to ECs at 90 days. At this time, scanning electron microscopy (SEM) analysis showed cellular differences between compact and friable calli. After 150 days in the induction phase, the ECs with proembryos that were transferred to the medium for differentiation and maturation, differentiated asynchronically into somatic embryos at globular and torpedo stages. The results showed that BRSC2328 and BRSCM1115 had the highest potential for EC formation (90–100 %) and somatic embryo differentiation (40.7 and 52.5 somatic embryos per callus, respectively) when compared to other genotypes. After approximately 90 days of culture on MS basal medium without growth regulators, protrusion of the leaf primordia was observed, characterizing the onset of germination of the somatic embryos into plants.