A protocol for direct somatic embryogenesis of Protea cynaroides L. using zygotic embryos and cotyledon tissues

We describe a protocol for somatic embryogenesis of Protea cynaroides, with potential for high frequency production of this important horticultural species. Somatic embryos formed directly on both P. cynaroides mature zygotic embryos and excised cotyledons cultured on MS medium without growth regulators. The addition of growth regulators such as naphthalene acetic acid (NAA) (5; 13 and 27 μM) and 2,4-dichlorophenoxyacetic acid (2,4-D) (5; 11 and 23 μM), in combination with thidiazuron (TDZ) (1 μM), benzylaminopurine (BAP) (1 μM) or kinetin (1 μM) suppressed the formation of somatic embryos. After eight weeks in culture, formation of somatic embryos was observed. Zygotic explants formed the most embryos when cultured in a 12-h photoperiod in comparison to explants cultured in the dark. Up to 83% of these embryos germinated after transferal to the germination medium containing 0.3 μM GA₃. Significantly fewer embryos germinated in MS medium with no growth regulators, or supplemented with higher concentrations of GA₃, while low germination percentages were also observed in MS media containing casein hydrolysate and coconut water. The germination of normal somatic embryos (two separate cotyledons and a single radicle) was observed only in media containing either no growth regulators, 0.3 μM GA₃ or 1 μM GA₃. All embryos that germinated in high concentrations of GA₃ were malformed.     

Plant regeneration via adventitious bud formation from cotyledon explants of Panax ginseng C. A. Meyer

Cotyledon explants of ginseng (Panax ginseng C. A. Meyer) produced somatic embryos directly on medium without growth regulators, with 89% of the explants forming somatic embryos. Cytokinin treatment greatly suppressed somatic embryo formation but stimulated the direct formation of adventitious buds. BAP treatment was more effective than the kinetin treatment for adventitious bud formation. Auxin (0.05 mg/l IBA) in combination with cytokinin enhanced adventitious bud formation, with the highest frequency, 40%, at 0.05 mg/l IBA and 5 mg/l BAP. Adventitious buds were mainly formed near the distal portion of the cotyledons, while somatic embryos were formed near the proximal excised margins. Shoots were developed from adventitious buds after transfer to MS medium with 10 mg/l GA₃. Root formation from the shoots was obtained after the shoots were transferred to half-strength MS medium with auxin (IAA). When the plants derived from adventitious buds were transferred to greenhouse soil, 36% were successfully acclimatized. Received: 7 November 1997 / Revision received: 12 January 1998 / Accepted: 7 February 1998     

Somatic embryogenesis and plant regeneration in Acacia farnesiana and A. schaffneri

Summary Efficient plant regeneration systems via somatic embryogenesis have been developed for Acacia farnesiana and Acacia schaffneri [Leguminosae (Mimosoideae)]. The protocol used in this study consisted of placing immature, zygotic embryos of these species in Murashige and Skoog semi-solid basal medium supplemented with 9.05 μM 2,4-dichlorophenoxyacetic acid (2,4-D) and 4.65 μM kinetin to induce callus. Some parts of the callus were used for direct embryo differentiation and others for establishment of cell suspension cultures. In the first case, somatic embryos were produced on semi-solid differentiation media without growth regulators or with abscisic acid (ABA). The higher number of somatic embryos, 345 and 198 embryos per g callus in A. farnesiana and A. schaffneri, respectively was obtained in media without growth regulators, but adding ABA increased the percentage of embryos that reached more advanced differentiation stages. The production of somatic embryos was achieved starting from cell suspensions only when these suspensions were plated into the semi-solid differentiation medium. Somatic embryos germinated on medium containing 217 μM adenine sulfate with efficiencies of 69% in A. farnesiana and 47% in A. schaffneri. Some somatic embryos that developed into plantlets were acclimatized in the greenhouse, and they grew into normal plants.     

Direct somatic embryogenesis from leaves,cotyledons and hypocotyls of <Emphasis Type="Italic">Hippophae rhamnoides</Emphasis>

Plant regeneration via direct somatic embryogenesis from cotyledons, hypocotyls and leaves in seabuckthorn (Hippophae rhamnoides L.) was achieved. The influences of basal media, carbon sources, plant growth regulators (PGRs) with different concentrations and combinations on embryogenesis capacity of explants were studied. The highest frequency of somatic embryos production and germination was obtained on Schenk and Hildebrandt medium (SH) supplemented with 1.0 mg dm⁻³ kinetin and 0.2, 0.5 mg dm⁻³ indole-3-acetic acid. Granulated sugar was the optimal carbon source. The embryo-derived plantlets with well-developed roots and shoots were transferred successfully to the greenhouse with a maximum survival rate of 55 %. Histological observation revealed that the somatic embryos were similar to those of zygotic embryos.     

Somatic embryogenesis of agriculturally important lupin species (Lupinus angustifolius,L. albus,L. mutabilis)

Somatic embryos were obtained from immature cotyledons of Lupinus angustifolius, L. albus and L. mutabilis but not from L. luteus. Different kinds of basal media and plant growth regulators in primary and secondary culture were tested. The best induction media were based on B5 and were supplemented with 5 mg I^-1 2,4-D alone or with 0.25 mg I^-1 kinetin. Mature stage somatic embryos were obtained on media containing ABA (0.1–0.5 mg I^-1) and a high NH₄/NO₃ ratio. Embryo germination and plantlet development occurred on MS media supplemented with glutamine or GA₃.     

<Emphasis Type="Italic">In vitro</Emphasis> propagation of the rare medicinal plant <Emphasis Type="Italic">Ceropegia candelabrum</Emphasis> L. through somatic embryogenesis

Summary Efficient in vitro propagation of Ceropegia candelabrum L. (Asclepidaceae) through somatic embryogenesis was established. Somatic embryogenesis depended on the type of plant growth regulators in the callus-inducing medium. Friable callus, developed from leaf and internode explants grown on Murashige and Skoog (MS) medium supplemented with 4.52μM2,4-dichlorophenoxyacetic acid (2,4-D), underwent somatic embryogenesis. Compared to solid media, suspension culture was superior and gave rise to a higher number of somatic embryos. Transfer of the friable callus developed on MS medium containing 4.52μM 2,4-D to suspension cultures of half- or quarter-strength MS medium with lower levels of 2,4-D (0.23 or 0.45 μM) induced the highest number of somatic embryos, which developed up to the torpedo stage. Somatic embryogenesis was asynchronous with the dominance of globular embryos. About 100 mg of callus induced more than 500 embryos. Upon transfer to quarter-strength MS agar medium without growth regulators, 50% of the somatic embryos underwent maturation and developed into plantlets. Plantlets acclimatized under field conditions with 90% survival.     

Large-scale somatic embryogenesis and regeneration of <Emphasis Type="Italic">Panax notoginseng</Emphasis>

An efficient system for inducing somatic embryogenesis in Panax notoginseng was established using shaker flasks and bioreactor cultures; furthermore, regenerated plantlets were successfully transferred to ex vitro soil conditions. Embryogenic callus was induced from segments of adventitious roots incubated on Murashige and Skoog (MS) medium containing 1.0 mg/L 2,4-dichlorophenoxyacetic acid (2,4-D) after 5 weeks of culturing. The highest frequency (100%) of somatic embryogenesis, with a mean of 32.7 somatic embryos per callus, was obtained on embryogenic callus incubated on a medium containing 0.5 mg/L 2,4-D. To scale-up somatic embryo formation, 10 g (~1.65 × 10⁴) of early globular-stage somatic embryos were incubated in a 3 L airlift bioreactor containing 1.5 L 1/2 MS medium without plant growth regulators (PGRs) for a period of 4 weeks; these globular-stage somatic embryos then developed into cotyledonary embryos. When maintained on PGR-free medium, the cotyledonary embryos developed roots but did not develop shoots. However, when they were treated with gibberellic acid (GA₃), they continued to germinate and transformed into plantlets after 2 weeks of culture. Plantlets with well-developed shoots and roots were transferred to an autoclaved vermiculite and perlite mixture, acclimatized for a period of 3 months and successfully transferred to forest mountain soil. Following overwintering, these plants produced new growth.     

Somatic embryogenesis and plantlet development in Pinus sylvestris and Pinus pinaster on medium with and without growth regulators

To initiate somatic embryogenesis in Pinus sylvestris and Pinus pinaster, immature seeds were collected from June to August and the developmental stage of the zygotic embryos was determined. Four developmental stages were distinguished and the response of the zygotic embryos at each of the four developmental stages was compared intra- and inter-species. For this study, modified Litvay's medium (LM), with or without growth regulators, was chosen. Somatic embryogenesis was initiated and maintained on both media but the two species displayed different propensities. In P. sylvestris, the highest initiation frequency was obtained with intact megagametophytes containing embryos at the four-cell stage to the stage of cleavage polyembryony (up to 22 and 9%, respectively). The culture medium had no significant effect on the initiation and proliferation of embryogenic cultures. In P. pinaster, however, the best response occurred from excised zygotic embryos at the stage prior to elongation of cotyledon primordia (up to 40% explants responded), on medium with growth regulators. Another characteristic distinguishing the two species in culture was that in some embryogenic cell lines of P. sylvestris, somatic embryos matured spontaneously when initiated and maintained on medium without growth regulators. Some of these embryos developed into plantlets on the same medium at the frequency of 40%. Therefore, in P. sylvestris all the stages of somatic embryogenesis were achieved on the medium without growth regulators. However, in both species, maturation of a large number of somatic embryos was greatly improved on medium containing high concentration of gellan gum (Gelrite 10 g l^?1) and abscisic acid (60 μM). Cotyledonary somatic embryos subsequently germinated (72 and 80% for P. sylvestris and P. pinaster, respectively) and developed into plantlets (48 and 29%, for P. sylvestris and P. pinaster, respectively). This represents a significant improvement in plantlet recovery from somatic embryos of both species.     

Factors affecting maintenance, proliferation, and germination of secondary somatic embryos of Eucalyptus globulus Labill

The described protocol for repetitive somatic embryogenesis (SE) in Eucalyptus globulus produced more somatic embryos than the primary SE protocol. Primary somatic embryos (induced on MS_3NAA) were transferred to the same medium, leading to new cycles of somatic embryos, for at least 2 years. The influence of medium (MS and B5), plant growth regulators (auxins and cytokinins), and light on secondary SE was tested. The MS medium without growth regulators (MS_WH) was more efficient for cotyledonary embryo formation and germination than the B5 medium. Reducing auxin (NAA) levels increased the proliferation of globular somatic embryos and allowed SE competence to be maintained on medium free of plant growth regulators. The addition of two cytokinins (BAP and KIN) to the MS medium did not improve proliferation of globular secondary embryos, but was crucial during later stages of the SE process (germination and conversion). Data also show that light may influence the quality of the process, depending on its stage. Darkness should be maintained until the cotyledonary stage is reached, after which exposure to light is recommended.     

Improvement of somatic embryogenesis in zonal geranium

A number of media constituents including sucrose, ammonium nitrate and plant growth regulators were evaluated in an attempt to improve somatic embryo production in zonal geranium (Pelargonium ×hortorum) cv. Scarlet Orbit Improved. Somatic embryo production was characterized by the quantity and type of somatic embryo induced by the treatments. Sucrose at 4% supported the highest number of total somatic embryos while improving the proportion of the morphologically normal cotyledon-stage somatic embryos. Addition of ammonium nitrate also improved embryo production. With 1.89 mM ammonium nitrate, normal cotyledon-stage embryo development was increased by 53%; the proportion of normal cotyledon-stage embryos decreased and abnormal embryos with leaves or serrated margins in cotyledons (fringed-shoot type) increased with higher ammonium nitrate concentrations. The effect of plant growth regulators on somatic embryogenesis indicated that exogenous supply of indole-3-acetic acid (IAA) at a range of 0.25 to 4 μM failed to promote somatic embryogenesis. In contrast, benzyladenine (BA) up to 2.0 μM increased the total embryo number and the proportion of desirable cotyledon-stage embryos. There was no interaction between IAA and BA. Our research has demonstrated that improvement in both quantity and quality of somatic embryos can be achieved in zonal geranium.     

Induction of somatic embryogenesis and adventitious shoots from immature leaves of cassava

Direct somatic embryogenesis was successfully achieved from immature leaves of cassava (Manihot esculenta Crantz) cultured on induction medium containing 2,4-dichlorophenoxyacetic acid or naphthaleneacetic acid. Changing the duration of induction or changing plant growth regulators resulted in differences in regeneration of somatic embryos or adventitious shoots. The results showed that auxin was a key factor for inducing embryogenic cells. The embryogenic cells were mainly induced within 4–12 days. Only if the embryogenic cells were induced, the auxin enhanced formation of somatic embryo whereas 6-benzylaminopurine stimulated development of adventitious shoots. Histological examinations supported the conclusion.     

Improvement of English walnut somatic embryo germination and conversion by desiccation treatments and plantlet development by lower medium salts

Summary Well-developed somatic embryos were selected from a repetivively somatic embryo line derived from embryonic axes of immature zygotic embryos of English walnut ‘No. 120’ (Juglans regia L.) for germination and conversion studies. In germinating dishes, somatic embryos germinated into only shoots, only roots, or both shoots and roots. Without any pretreatment, 28% somatic embryos germinated, while those treated with 2.5–5.0 mg 1⁻¹ (7.2–14.4 μmol) gibberellic acid (GA₃) germinated at 25–28% and those receiving a cold treatment of 2–3 mo. at 3–4°C germinated at 30–43%. However, only 4–19% of the germinating embryos showed both shoots and roots. Treated with desiccation, either with CaCl₂·6H₂O or Ca(NO₃)₂·4H₂O at 20°C in the dark for 3 d, somatic embryos germinated at 85–91%, 57–69% of which had both shoots and roots. Treatment with 2 mo. cold storage in combination with desiccation using Ca(NO₃)₂·4H₂O resulted in 92% of somatic embryos germinating, 70% of which showed both shoots and roots. No significant differences were observed between solid and liquid germination media. After transferring the germinating embryos to plantlet development media, 52–63% of those with both shoots and roots developed into plantlets while 11% with only shoots or 9% with only roots converted into plantlets. Plantlet development was improved by using lower medium salts and sucrose concentrations. The addition of activated charcoal enhanced root development, particularly root branching. Of 131 plants transplanted, 91 plants were acclimatized to a greenhouse.     

Repetitive somatic embryogenesis in Medicago truncatula ssp. Narbonensis and M. truncatula Gaertn cv. Jemalong

Medicago truncatula ssp Narbonensis and four genotypes of M. truncatula Gaertn cv. Jemalong were tested for their somatic embryogenesis potential using a two-step protocol. In the first step, embryogenic callus was induced in folioles isolated from shoots grown in vitro and cultured on Murashige and Skoog (MS) medium supplemented with 2,4-dichlorophenoxyacetic acid and zeatin. In the second step, somatic embryos were allowed to develop from the induced callus in MS growth-regulator-free medium. Individual somatic embryos were then isolated and transferred again to growth regulator free medium where they formed secondary somatic embryos in repetitive cycles. Conversion of somatic embryos into plantlets was achieved by isolating late-torpedo-phase somatic embryos with distinct cotyledons and reculturing them onto MS growth regulator free medium. The system of repetitive somatic embryogenesis in M. truncatula described here represents a permanent source of embryogenic material that can be used for the genetic modification of this species. Received: 7 August 1997 / Revision received: 22 December 1997 / Accepted: 20 January 1998     

Optimization of direct somatic embryogenesis from mature zygotic embryos ofPanax ginseng C. A. Meyer

Culture conditions were optimized for somatic embryogenesis ofPanax ginseng. The highest frequency of embryo formation was obtained when tissues were excised from the middle region of the cotyledon segments of zygotic embryos. Only treatment with light could stimulate the formation of single-type somatic embryos, whereas multiple-type somatic embryos and calli were observed under dark conditions. The highest production of somatic embryos was found with an NH₄ ⁺:NO₃ ratio of 21:39. Among the tested media (MS, B5, and SH), maximum formation of somatic embryos was obtained when cotyledon expiants were cultured on an 1% agar MS medium supplemented with 5% sucrose. Regenerated ginseng plantlets were transferred to an autoclaved soil mixture in the greenhouse. These transformants showed no detectable variations in their morphology or growth characteristics compared with the donor plant.     

Secondary somatic embryogenesis and plant regeneration in myrtle (Myrtus communis L.)

Immature seeds, as well as hypocotyls and cotyledons excised from seedlings of Myrtus communis L., were cultured on media containing half-strength Murashige and Skoog macronutrients (MS/2) with combinations of auxins and cytokinins, in order to study their morphogenetic competence. Somatic embryogenesis was obtained from cotyledons, hypocotyls and 2-month-old immature seeds with 0.1 mg/l 2,4-dichlorophenoxyacetic acid (2,4-D). The percentage of explants showing this primary somatic embryogenesis ranged from 4% for hypocotyls to 12% for 2-month-old immature seeds. In the latter, somatic embryogenesis was also obtained in media containing 2,4-D plus a cytokinin, and with only a cytokinin. Somatic embryos obtained from hypocotyls, cotyledons or immature seeds were able to develop on MS/2 medium without plant growth regulators. Subculture of primary somatic embryos obtained from immature seeds on MS/2 medium without plant growth regulators gave rise to clusters with secondary somatic embryos and embryogenic calli. These clusters were subcultured every 8 weeks, and they were the source of highly embryogenic cultures. An average of 10% of the secondary somatic embryos developed into plantlets in each subculture. Therefore, the same culture on MS/2 medium without growth regulators yielded both plantlets and de novo secondary embryos. Received: 6 April 1998 / Revision received: 10 July 1998 / Accepted: 21 July 1998     

Induction of somatic embryos from cultures of <Emphasis Type="Italic">Agave vera-cruz</Emphasis> Mill.

Somatic embryogenesis from cultures of shoot apices, cotyledon and young leaves of in vitro shoots of Agave vera-cruz Mill. was studied. Embryogenic callus was obtained when explants were cultured on Murashige and Skoog’s (MS) medium (1962) supplemented with L₂ vitamins, 4.52 μM 2,4-dichlorophenoxyacetic acid (2,4-d) or 5.37 μM ∝-naphthalene acetic acid (NAA). Somatic embryos differentiated from this embryogenic callus upon subculture to maturation/conversion medium containing cytokinin either alone or with auxin and l-glutamine. The best combination of growth regulators for development of somatic embryos was found to be 5.37 μM naphthalene acetic acid plus 0.91 μM zeatin and 40 g/l sucrose. The conversion frequency of somatic embryos to plantlets varied from 46–50%. Rooted plantlets were transferred directly to pots containing a soil, sand, and manure mixture without any hardening phase with 96–98% survival of the plantlets. Based on the histological observations, the potential origin of the somatic embryo is discussed.     

The growth regulators used for bud regeneration and shoot rooting affect the competence for flowering and seed set in regenerated plants of protein peas

Summary The production of whole plants from explants of protein pea (Pisum sativum L.) using an efficient, reliable and rapid strategy, while maintaining trueness to type, will be required before regeneration can be exploited for genetic transformation. Seeds of the pea genotypes Terese, Solara, Frisson and P64 (a hypernodulating mutant line of Frisson) were surface-sterilized and imbibed overnight, whereafter embryo axes were dissected and germinated on hormone-free medium for 7–10 d. Hypocotyl sections lacking pre-existing meristems were harvested and cultured on a range of media with various concentrations and combinations of growth regulators in order to induce either caulogenesis or somatic embryogenesis. Differences in responsiveness were apparent between genotypes, but regeneration via caulogenesis was consistently more reliable than via the induction of somatic embryos. Few explants underwent somatic embryo production and their conversion into plants has remained elusive so far, irrespective of the genotype studied. Conversely, large numbers of buds were produced within 10 d by organogenesis, and healthy, rootable shoots were obtained. A clear relationship was observed between the growth regulators employed for bud regeneration and shoot rooting phases and the subsequent competence of the regenerated plants for flowering, pod formation and viable seed production.     

Primary and repetitive secondary somatic embryogenesis of <Emphasis Type="Italic">Lepidosperma drummondii</Emphasis> (Cyperaceae) and <Emphasis Type="Italic">Baloskion tetraphyllum</Emphasis> (Restionaceae) for land restoration and horticulture

Somatic embryogenesis was developed as a method of mass propagation for Lepidosperma drummondii (Cyperaceae), a difficult to propagate but important species for post-mining restoration in a region of high plant biodiversity, in the southwest of Western Australia. Cultures were initiated from excised zygotic embryos, shoot cultures to rhizomes. Only zygotic embryos of L. drummondii developed somatic embryos, with half strength Murashige and Skoog basal medium (BM) and 1 μM 2,4-dichlorophenoxyacetic acid (2,4-D) being the most effective combination. The first culture cycle yielded a mean of 30 somatic embryos per excised zygotic embryo forming an embryo cluster. After a further 6 wk in culture (on fresh BM with 1 μM 2,4-D), approximately 350 somatic embryos per starting embryo cluster were recorded. Following regular sub-culturing of primary somatic embryo clusters onto fresh media (every 4 wk), more than 74,000 secondary somatic embryos were estimated to have been produced after eight subculture periods. This translates to between 1,000 and 2,000 somatic embryos produced from an estimated 45 mg of starting tissue per culture plate or potentially 22,0000–44,000 somatic embryos per gram of tissue. This is a significant improvement over all previous methods used to propagate L. drummondii, in which typical in vitro shoot multiplication rates are as low as 1.43 per 8 wk. This also compared favourably with published data and concurrent experiments undertaken in this study (as an extra control measure) on somatic embryo production for a related species Baloskion tetraphyllum (using the same BM with 1 μM 2,4-D and coleoptile segments as explants). Various media combinations were investigated for efficacy in converting somatic embryos into plants with best results ranging from 86% to 100% conversion for B. tetraphyllum on BM without plant growth regulators. Development of L. drummondii somatic embryos into plants was not observed on BM without plant growth regulators. However, a best result of 39% conversion to plants was observed on BM with 1 μM thidiazuron. This is the first report of successful development of somatic embryogenesis and conversion of somatic embryos into plants using thidiazuron for the Australian cyperale L. drummondii.     

Factors influencing somatic embryo maturation, high frequency germination and plantlet formation in Terminalia chebula Retz.

The factors influencing somatic embryo maturation, high frequency somatic embryo germination, and plantlet formation were studied in Terminalia chebula Retz. Maturation of somatic embryo were influenced by a number of factors such as in vitro culture passage, concentrations of sucrose, levels of abscisic acid (ABA), basal media and media additive combinations. Maximum frequency of somatic embryo maturation (57.22 ± 2.02), was obtained on MS medium supplemented with 50 g/l sucrose. Different factors such as strengths of MS nutrients, plant growth regulators, media additives and their combinations controlling somatic embryo germination and plantlet formation were studied. High frequency of germination and plantlet formation (58.80 ± 1.47) were achieved by subsequent subculture of mature somatic embryos on MS medium containing 30 g/l sucrose and 0.5 mg/l benzyladenine (BA). However, although duration of in vitro passage of the callus tissue was critical, contribution of the combinations of plant growth regulators and media additives showed nugatory effect on somatic embryo maturation and germination as evident from variable responses.     

Somatic embryogenesis and plant regeneration from immature embryos of western larch

Somatic embryogenesis was initiated from immature embryos of western larch (Larix occidentalis Nutt.) on media containing 2,4-dichlorophenoxyacetic acid and N6- benzyladenine. The effects of explant type and ammonium nitrate and glutamine concentrations on initiation were tested. Although 21–93% of explants rendered cultures in various experiments, only 3% yielded sustainable embryogenic lines. Excised embryos at the early cotyledonary stage were optimal for initiation. Maturation of somatic embryos was promoted by abscisic acid. Response to abscisic acid concentrations and duration of exposure to abscisic acid varied with genotype. Maximal results were obtained with 0.025 M abscisic acid for 1 to 2 weeks followed by individual culture on medium without growth regulators. Mature somatic embryos developed into shoots with roots. Plantlets have been established in peat.Abbreviations 2,4-D 2,4-dichlorophenoxyacetic acid - BA N⁶-benzyladenine - IBA indole-3-butyric acid - ABA abscisic acid