Induction of somatic embryogenesis from female flower buds of elite <Emphasis Type="Italic">Schisandra chinensis</Emphasis>

Somatic embryogenesis (SE) was induced in female flower buds from mature Schisandra chinensis cultivar ‘Hongzhenzhu’. Somatic embryo structures were induced at a low frequency from unopened female flower buds and excised unopened on Murashige and Skoog (MS) agar medium containing 4.0 mg l⁻¹ 2,4-dichlorophenoxyacetic acid (2,4-D). Friable embryogenic calli were induced from somatic embryo structures after three to four subcultures on initiation medium. The frequencies of mature somatic embryo germination and plantlet conversion were low, but increased in the presence of gibberellic acid (GA₃). Some germinated somatic embryos could form friable embryogenic calli on medium without plant growth regulators (PGRs). The germination and conversion frequencies of somatic embryos from embryogenic calli induced using PGR-free medium were higher than for somatic embryos from embryogenic calli induced on medium containing 2,4-D. Most somatic embryos from 2,4-D-induced embryogenic calli had trumpet-shaped embryos, and most somatic embryos from PGR-free medium–induced embryogenic calli had two or three cotyledons. Histological observation indicated that two- and three-cotyledon embryos had defined shoot primordia, but most of the trumpet-shaped embryos yielded plantlets that lacked or had poorly developed meristem tissue. Cytological and random amplification of polymorphic DNA (RAPD) analyses indicated no evidence of genetic variation in the plantlets of somatic embryo origin.     

Somatic embryogenesis of a seedless sweet orange (<Emphasis Type="Italic">Citrus sinensis</Emphasis> (L.) Osbeck)

Somatic embryogenesis is an important in vitro technique used to obtain Citrus sinensis (L.) Osbeck (sweet orange) plantlets for conservation, sanitation, propagation, and breeding. The induction of somatic embryogenesis from adult tissues of sweet orange could be an alternative to in vitro organogenesis from epicotyl segments, especially in seedless cultivars, where the latter is not feasible. The aim of this study was to obtain plantlets from ovary-derived somatic embryos of sweet orange cv. ‘Washington Navel’, an important seedless cultivar for citrus fresh fruit production. The explants used were pistils from flower buds, pre-anthesis, from 20-y-old plants cultivated in the field. Forty plantlets from 47 somatic embryos were obtained, in vitro-grafted, and acclimatized in greenhouse conditions. Ploidy evaluation through flow cytometric analysis, as well as the results of target region amplification polymorphism (TRAP) molecular markers confirmed the somatic origin of embryos as genetically similar to donor plants. This technique could be used for obtaining embryogenic cell suspension cultures or regenerated plants from mature tissues other than seed-derived tissues, especially for seedless genotypes.     

Plant regeneration from embryogenic cell suspensions and protoplasts of dessert banana cv. ‘Da Jiao’ (<Emphasis Type="Italic">Musa paradisiacal</Emphasis> ABB Linn.) via somatic embryogenesis

The ‘Da Jiao’ cultivar of banana (Musa paradisiacal ABB Linn.) is an ideal germplasm to produce new banana varieties resistant to Fusarium oxysporum f. sp. cubense (FOC) race 4, for this cultivar is not only a popular dessert banana in south China, but also bears high resistance to FOC race 4. In this study, we established a homogeneous embryogenic cell suspension (ECS) of ‘Da Jiao’ and obtained regenerated plants from ECS-derived protoplasts via somatic embryogenesis. The ECS was initiated from yellow friable callus induced from immature male inflorescence on M1 medium. A pre-culture was used to select ECS in M2 medium without 2,4-dichlorophenoxyacetic acid for 10 d. Addition of 1.0 mg L⁻¹ abscisic acid to M3 medium could enhance the frequency of somatic embryogenesis by about 2.6-fold. Protoplasts, with a yield range of 5–6 × 10⁶ per milliliter, were isolated from the ECS. About 0.35% of the protoplasts formed microcallus, which contained about 100 cells, after 1 mo of feeder layer culture with ECS of Musa acuminate cv. Mas (AA) as nurse cells. Healthy plantlets (0.14%) were regenerated from the microcallus through somatic embryogenesis.     

Somatic embryogenesis and plant regeneration through cell suspension in diploid (AB) banana cultivar Elakki Bale (syn Neypoovan)

An efficient protocol was developed using cell suspensions for somatic embryogenesis and plantlet regeneration in a most popular diploid AB banana (M.accuminata X M.bulbisiana hybrid) cv. Elakki Bale (syn Neypoovan) known for its taste and keeping quality in southern India. Floral primodia from position 8–16 of male inflorescence which were more responsive for embryogenesis were used as explants for the embryogenic callus production in MS media supplemented with different concentration of 2,4-D. A concentration of 18.1 μM 2, 4-D produced maximum embryogenic calli in 1 % of the explants inoculated. Embryogenic calli on repeated sub culturing on MA2 media produced good embryogenic cell suspensions (ECS). Microscopic examination of ECS showed globular, smaller with dense cytoplasm filled with starchy granules characteristic of embryogenic cells. Highest number of somatic embryos (189) was produced on modified MA3 media. A germination percentage of 31 % were observed in BAP 22.19 μM concentration. Regenerated plants with normal shoot and root were hardened in soilrite. Direct somatic embryogenesis and plant regeneration was also noticed in embryogenic calli which did not pass through the ECS stage. The protocol optimized for somatic embryogenesis through cell suspension and also direct embryogenesis leading to plantlet regeneration can be used for the micropropagation and genetic manipulation.     

Excision of a selectable marker gene in transgenic banana using a Cre/lox system controlled by an embryo specific promoter

Antibiotic and herbicide resistance genes have been used in transgene technology as powerful selection tools. Nonetheless, once transgenic events have been obtained their presence is no longer needed and can even be undesirable. In this work, we have developed a system to excise the selectable marker and the cre recombinase genes from transgenic banana cv. ‘Grande Naine’ (Musa AAA). To achieve this, the embryo specific REG-2 promoter was isolated from rice and its expression pattern in banana cell clumps, somatic embryos and regenerated plantlets was characterized by using a pREG2::uidA fusion construct. Subsequently, the REG-2 promoter was placed upstream of the cre gene, conferring Cre functionality in somatic embryos and recombination of lox sites resulting in excision of the selectable marker and cre genes. PCR analysis revealed that 41.7 % of the analysed transgenic plants were completely marker free, results that were thereafter confirmed by Southern blot hybridization. These results demonstrate the feasibility of using developmentally controlled promoters to mediate marker excision in banana. This system does not require any extra handling compared to the conventional transformation procedure and might be useful in other species regenerating through somatic embryogenesis.     

Cyclic secondary somatic embryogenesis and efficient plant regeneration in mountain ash (Sorbus pohuashanensis)

An efficient protocol for secondary somatic embryogenesis in mountain ash is reported. Secondary somatic embryos (SSEs), initially obtained from primary embryos, were proliferated and maintained for more than 2?years via cyclic secondary somatic embryogenesis. SSEs were produced on the surfaces of cotyledons and radicles of maternal somatic embryos. Histological observations of the various stages of SSE development revealed four typical stages: globular, heart-shaped, torpedo, and cotyledon. Addition of a low concentration of naphthaleneacetic acid (NAA) to Murashige and Skoog (MS) medium resulted in the induction of SSEs, but addition of 2,4-dichlorophenoxyacetic acid (2,4-d) to MS medium decreased SSE formation. Addition of casein hydrolysate (CH) to MS medium promoted induction of SSEs. Cotyledonary SSEs were cultured on MS medium with 20?C60?g?L^?1 sucrose under light for 1?month until maturation. After transferred to MS medium containing either 0.06???M NAA or 0.15???M indole-3-butyric acid in the light, over 50?% of the mature SSEs developed into plantlets. Addition of 1.0?g?L^?1 activated charcoal was beneficial for SSE germination (over 60?%). At 18?°C, over 90?% of the germinated SSEs converted to plantlets on ? MS (half-strength of MS macroelements) with 1.8???M NAA under light. Plantlets acclimatized successfully to ex vitro conditions and field plants developed with normal phenotypes.     

Somatic embryogenesis and plant regeneration from cotyledons of walnut,Juglans regia L.

Immature cotyledons of open-pollinated seeds from five walnut (Juglans regia L.) cultivars were excised from fruits at 6–11 weeks after full pistillate bloom and grown on a sequence of media to induce somatic embryogenesis. Globular, heart, cotyledonary and complete somatic embryos were obtained. Embryogenic cultures were maintained for more than a year by repetitive embryogenesis in which the roots, cotyledons and hypocotyls of somatic embryos formed additional adventive somatic embryos. Mature somatic embryos required a cold treatment of 8–10 weeks at 2–4°C to overcome apical dormancy. Selected plantlets derived from these somatic embryos were grown to young plants in soil. In addition, somatic embryogenesis was induced in J. hindsii (Jeps.), Jeps., and in Pterocarya sp., another member of the Juglandaceae.     

Micropropagation ofPanax notoginseng by somatic embryogenesis and RAPD analysis of regenerated plantlets

Somatic embryogenesis was induced in callus tissues derived from young flower buds ofPanax notoginseng via callus within 18 weeks of culture. The mature somatic embryos were germinated on half-strength Murashige and Skoog's (MS) medium supplemented with gibberellic acid A₃(GA) and 6-benzyladenine (BA). The most suitable medium for optimal root formation proved to be MS medium supplemented with 1-naphthaleneacetic acid (NAA). Total DNA was extracted from the leaves of the regenerated plantlets ofP. notoginseng. Analysis of random-amplified polymorphic DNA (RAPD) using 21 arbitrary oligonucleotide 10-mers, showed the genetic homogeneity ofP. notoginseng. The amplification products were monomorphic for all of the plantlets ofP. notoginseng regenerated by embryogenesis, suggesting that somatic embryogenesis can be used for clonal micropropagation of this plant.     

Recovery and regeneration of embryogenic cultures from female flowers of False Horn Plantain

Somatic embryogenesis from immature male flowers in Musa is only suitable for genotypes with a male bud. Six friable embryogenic cultures were obtained from 28 cultured buds of female flowers of the AAB False Horn Plantains, ‘Curraré’ and ‘Curraré Enano’. Embryogenic suspensions were established from these embryogenic cultures. Somatic embryogenesis was demonstrated histologicaly. Regeneration of plants was obtained either from somatic embryos directly isolated from embryogenic cultures or from suspensions after plating on a semi-solid medium. This study demonstrates that somatic embryogenesis from immature flowers is suitable for genotypes of Musa with or without male buds. This revised version was published online in June 2006 with corrections to the Cover Date.     

Developing a cell suspension system for Musa-AAA-EA cv. ‘Nakyetengu’: a critical step for genetic improvement of Matooke East African Highland bananas

Embryogenic cell suspensions of triploid East African Highland bananas (Musa AAA-EA) were initiated and generated using cooking cultivar ‘Nakyetengu’ belonging to the Nakabululu clone set. Immature male flowers produced embryogenic calli consisting of embryos and friable tissue after 4 mo culture on a modified MA1 callus induction medium. Friable calli were initiated and maintained in liquid MA2 medium. A cell growth rate of 1.5–2.0 sedimented cell volume (SCV) per month was observed. Embryo development was observed at 2.18?×?10³ embryos per mL SCV. Germination of these embryos was observed at 2.8% and 6.2% for two cell suspension lines. Plant regeneration efficiency was 60–100%, all producing normal plants with a shoot and roots at weaning. In the field, somatic cell-derived plants were all normal morphology and comparable to control plants during vegetative and reproductive stages. This study is a breakthrough for recalcitrant East African Highland banana and offers a system that can provide essential raw materials for associated germplasm improvement through genetic engineering approaches.     

Plant regeneration via somatic embryogenesis and shoot organogenesis from immature cotyledons of Camellia nitidissima Chi

Camellia nitidissima Chi (Theaceae) is a world-famous economic and ornamental plant with golden-yellow flowers. It has been classified as one of the rarest and most endangered plants in China. Our objective was to induce somatic embryogenesis, shoot organogenesis and plant regeneration for C. nitidissima. Three types of callus (whitish, reddish and yellowish) were induced from immature cotyledons on improved woody plant medium (WPM) with different plant growth regulators (PGRs). Among the callus, whitish callus was induced by 4.5 μM 2,4-dichlorophenoxyacetic acid (2,4-D) and reddish and yellowish callus were induced by strongly active cytokinins, thidiazuron (TDZ) or 6-benzylaminopurine (BAP), singly or combined with weakly active auxin, α-naphthaleneacetic acid (NAA). The embryogenic callus could differentiate into somatic embryos, nodular embryogenic structures (large embryo-like structures) or adventitious shoots depending on the PGR used in WPM. BAP was best for adventitious buds and zeatin was best for somatic embryogenesis while kinetin (Kt) was best for the formation of nodular embryogenic structures. The three regeneration pathways often occurred in the same embryogenic callus clumps. Most shoots (80.0%) developed roots in WPM supplemented with 24.6 μM IBA and 0.3 μM NAA while 47.5% of somatic embryos could germinate directly and develop into plantlets on induction medium supplemented with 0.9 μM BAP and 0.1 μM NAA. The nodular embryogenic structures could be sub-cultured and cyclically developed in one of two differentiation pathways: shoot organogenesis or somatic embryogenesis. Plantlets derived from shoot buds rooted and somatic embryos germinated when transplanted into soil in a greenhouse; 66.7% of plantlets from shoot culture and 78.6% of plantlets from somatic embryos survived after 8 weeks’ acclimatization.     

Amplified somatic embryogenesis from male flowers of triploid banana and plantain cultivars (Musa spp.)

Summary Somatic embryogenesis and plant regeneration of banana and plantain cultivars (Musa spp.) were obtained by culturing young male flowers. Multiplication and maintenance of embryogenic cultures were achieved by culturing somatic embryos in a temporary immersion system (SIT). A multiplication rate of 40 allowed us to obtain more than 6000 somatic embryos after 6 mo. of subculture. Plant recovery frequencies were 60 to 70%. This method was expanded to different banana and plantain genomic groups.     

Regeneration of pineapple (Ananas comosus L.) plant through somatic embryogenesis

An efficient protocol for a complete plant regeneration by somatic embryogenesis was developed with Smooth Cayenne pineapple (Ananas comosus L.). Previous works showed that this species is responsive to somatic embryogenesis. In the present work the influence of components of culture medium in the induction, development and conversion of somatic embryos was investigate in order to establish a somatic embryogenesis protocol. Nodular callus (83.67%) was initiated from leaf explants of young plants on CIM₃ medium. The highest frequency (37.6%) of embryogenic callus induction was obtained from 4-week-old calluses on EIM₃ medium supplemented with 3.0 mg/l picloram. The highly organized callus induction and the development of somatic embryos were achieved after the transfer of callus clumps onto EIM₃ medium containing 1.0 mg/l BAP + 0.1 mg/l NAA. The frequency of somatic embryo formation was of 39.5?±?2.45 embryos per callus. Up to 97% of the somatic embryos were converted into complete plants within 4 week on MSB medium with 1.0 mg/l BAP + 0.05 mg/l GA₃ + 500 mg/l glutamine. The continuation of the elongation of the shoots occurred on this medium). Shoots obtained from all the above methods were rooted in MSB medium with activated charcoal. Complete plantlets were transferred onto specially made polyethylene bags containing soil mixture and transferred to the greenhouse. Survival rate of the plantlets under ex vitro conditions was 98% and maximum average number of plantlets (80?±?0.6). The well-developed plantlets were transferred to an open field where the plants produced normal fruits.     

Plantlet regeneration through indirect shoot organogenesis and somatic embryogenesis in Justicia gendarussa Burm. f., a medicinal plant

A protocol for the regeneration of a large number of plantlets via indirect shoot organogenesis and somatic embryogenesis has been developed from the stem and leaf explants of Justicia gendarussa Burm. f. The callus was efficiently induced from the explants using Murashige and Skoog (MS) medium supplemented with α-Naphthalene acetic acid (NAA) + Benzyl amino purine (BAP) (1.0?+?0.1 mg/l). The highest number of plantlets through indirect shoot organogenesis was obtained when the callus was subcultured to MS medium with BAP + NAA (0.1?+?1.0 mg/l). The maximum number of plantlets via somatic embryos was obtained in the medium with BAP + NAA (1.0?+?0.1 mg/l) for stem derived calli and Kinetin (Kn) + NAA (2.0?+?0.1 mg/l) for leaf derived calli. The in vitro developed shoots were rooted well in half strength MS medium supplemented with 0.5 mg/l of Indole-3-acetic acid (IAA). The in vitro regenerated plantlets were hardened using a mixture of sterile sand:soil:manure (1:1:1). The present study is the first report on the regeneration of plants through somatic embryogenesis from stem and leaf derived calli of J. gendarussa.     

Induction of somatic embryogenesis in Brassica juncea L. and analysis of regenerants using ISSR-PCR and flow cytometer

A new and simple protocol has been developed and standardized for direct somatic embryogenesis and plant regeneration from aseptic seedlings derived from immature Brassica juncea seeds. Depending on the age of immature seeds and nutrient media, in vitro occurrence of embryogenesis and the number of embryos from each seedling have varied greatly. The largest number of somatic embryos, producing 12.7 embryos per seedlings, have been developed by seedlings obtained from immature seeds collected after 21 days of pollination (DAP). Effect of different nutrient media [Gamborg (B5), Murashige and Skoog (MS) and Linsmaier and Skoog (SH)] and carbon sources (fructose, glucose, maltose and sucrose) were assessed to induce somatic embryos and the maximum response were achieved on Nitsch culture medium fortified with sucrose (3% w/v) followed by fructose and maltose. The somatic embryo converted into complete plantlets within 04-weeks of culture on Nitsch medium containing half-strength of micro and macro salts. The regenerated plantlets were successfully established in soil with 90% survival rate. The acclimated plants were subsequently transferred to field condition where they grew normally without any phenotypic differences. Genetic stability of B. juncea plants regenerated from somatic embryos were confirmed by inter-simple sequence repeat (ISSR)-PCR analysis and flow cytometry. No significant difference in ploidy level and ISSR banding pattern were documented between somatic embryo’s plants and control plants grown ex vitro.     

Highly efficient plant regeneration via somatic embryogenesis from cell suspension cultures of Boesenbergia rotunda

Boesenbergia rotunda is a perennial ginger species rich in flavonoids, flavones, and cyclohexenyl chalcone derivatives. Several of these secondary metabolites have shown promising antiviral and anticancer activities, and thus, it is important to optimize methods for robust production of clonal materials. In this study, cell suspensions were established and their growth capacities were evaluated in liquid media supplemented with varying growth regulator compositions. The highest settled cell volume of 6.1?±?0.3 ml with a specific growth rate of 0.0892?±?0.0035 was achieved by maintaining cells in Murashige and Skoog liquid media supplemented with 1.0 mg L^?1 of 2,4-dichlorophenoxyacetic acid and 0.5 mg L^?1 6-benzyladenine, representing a 12-fold increase in cell volume during the culture period. A somatic embryogenesis rate of 1,433.33?±?387.84 somatic embryos per milliliter of settled cells was achieved with an inoculation cell density of 50 μl settled cell volume and on growth regulator-free agar plates. Around half (53.5?±?7.9%) of the somatic embryos germinated into complete plantlets on media supplemented with 3 mg L^?1 6-benzyladenine and 1 mg L^?1 α-naphthaleneacetic acid. The plantlets were successfully transferred to soil and grown in the greenhouse. Phytochemical profiling via high-performance liquid chromatography analysis revealed that regenerated plantlets retained the capacity to produce and accumulate bioactive compounds. Hence, this protocol will be helpful for metabolic engineering and functional studies of genes and enzymes involved in the biosynthetic pathway of valuable compounds in B. rotunda.     

Somatic embryogenesis and plant regeneration from cell suspension cultures of Rajeli (AAB), an endangered banana cultivar

Rajeli (AAB), a commercially valuable Indian banana cultivar, is presently under the threat of extinction due to various diseases, warranting development of the strategies for its conservation and incorporation of disease resistance. This elite genotype was successfully regenerated in vitro via establishment of cell suspensions followed by somatic embryogenesis. The immature male flower buds were cultured on gelled Murashige and Skoog medium supplemented with 4 mg/l 2,4-D, 1 mg/l each of IAA and NAA, D-Biotin, 100 mg/l Malt Extract, 100 mg/l L-Glutamine and 30 g/l sucrose. Embryogenic calli with translucent somatic embryos were observed after 4 months of male flower bud culturing. Fine embryogenic cell suspensions were established in the liquid medium of same composition but with 45 g/l sucrose. Of the various sugars tested, maltose in the maintenance medium yielded better growth of plated cells as compared to sucrose, fructose and dextrose. Embryos differentiated at a high frequency and mature somatic embryos developed into plantlets on MS medium supplemented with 0.5 mg/l BAP. Approximately 40 % of the torpedo stage somatic embryos germinated and developed into complete plants. The regenerated plants exhibited normal phenotype during acclimatization in the greenhouse. The technique can be employed for conservation of this endangered cultivar and its improvement via mutagenesis and genetic transformation.     

Clonal propagation in vitro from immature embryos and flower buds of Lycopersicon peruvianum and L. esculentum

Direct propagation of Lycopersicon esculentum Mill. and L. peruvianum (L.) Mill. has been achieved from both reproductive and embryonic stages of the life cycle. Multiple adventitious shoots were induced from immature flower buds on Murashige and Skong (MS) basal medium supplemented with 2 mg 1⁻¹ 6-benzylaminopurine (BAP). Multiple shoots and somatic embryos were induced from immature zygotic embryos on HLH basal medium supplemented with 1 g 1⁻¹ yeast extract and 2 mg 1⁻¹ BAP. The nature of the response was related to the developmental stage of the parent embryo at explanting. The process of multiple shoot induction from embryos shows features in common with direct somatic embryogenesis from sexual embryos of Lycopersicon and other genera.     

High-frequency plant regeneration via somatic embryogenesis and organogenesis and in vitro flowering of regenerated plantlets in Panax ginseng

 The morphogenesis ability of light yellowish globular callus derived from cotyledons of mature zygotic embryos of Panax ginseng was investigated. The optimal media for somatic embryogenesis and shoot organogenesis were MS medium containing 0.5 mg l^–1 2,4-dichlorophenoxyacetic acid, 0.1 mg l^–1 6-benzyladenine (BA), and 500 mg l^–1 lactoalbumin hydrolysate, and SH medium supplemented with 0.5 mg l^–1 α-naphthaleneacetic acid, 0.1 mg l^–1 BA, and 500 mg l^–1casein hydrolysate. The influences of glucose, mannose, fructose, and sorbose in the media on somatic embryogenesis and shoot organogenesis were revealed as differences in the numbers of somatic embryos and adventitious shoots per gram of morphogenic callus. The best regeneration of somatic embryos was obtained on medium containing glucose, with a mean of 8.7 somatic embryos per gram of callus. The best regeneration of shoots was observed on medium containing fructose, with an average of 12.2 adventitious shoots per gram of callus. Of the somatic embryos 95% were converted into regenerated plantlets, and 100% of adventitious shoots rooted to form regenerated plantlets. Regenerated plants were successfully established in soil. Flowering was observed in 5.7% of the regenerated plants derived from shoot organogenesis and in 1.4% of the regenerated plants derived from somatic embryogenesis. Received: 1 December 1998 / Revision received: 13 September 1999 / Accepted: 20 September 1999     

Influence of stock plant pretreatment on gynogenic embryo induction from flower buds of onion

The gynogenic response of a range of onion genotypes to flower bud culture was compared using a two-step culture system. Embryogenic cultures and plantlets were produced from unpollinated ovules in whole flower bud explants 6 to 19 weeks after culture initiation. Preconditioning stock plants significantly influenced gynogenic embryogenesis. A ten-fold increase in embryogenesis was obtained when flower buds were cultured from stock plants maintained at 15 °C compared to 10 °C or the ambient temperature conditions of a glasshouse (maximum-minimum of 25–12.7 °C). A total of 49 embryos was obtained from 2660 cultured flower buds and 45% of plantlets were successfully acclimatised to glasshouse conditions. The majority of acclimatised plantlets were haploid (68%) but spontaneous double haploid plants (23%) were obtained from three genotypes. This revised version was published online in June 2006 with corrections to the Cover Date.