Somatic embryogenesis and plant regeneration from cotyledon explants of a timber-yielding leguminous tree,Dalbergia sissoo Roxb

Efficient plant regeneration through somatic embryogenesis was achieved from callus cultures derived from semi-mature cotyledon explants of Dalbergia sissoo Roxb., a timber-yielding leguminous tree. Somatic embryos developed over the surface of embryogenic callus and occasionally, directly from cotyledon explants without intervening callus phase. Callus cultures were initiated from cotyledon pieces of D. sissoo on Murashige and Skoog (1962) medium supplemented with 4.52, 9.04, 13.57, and 18.09 mumol/L 2,4-dichlorophenoxyacetic acid and 0.46 mumol/L Kinetin. Maximum percentage response for callus formation was 89% on MS medium supplemented with 9.04 mumol/L 2,4-D' and 0.46 mumol/L Kn. Somatic embryogenesis was achieved after transfer of embryogenic callus clumps to 1/2-MS medium without plant growth regulators (1/2-MSO). Average numbers of somatic embryos per callus clump was 26.5 on 1/2-MSO medium after 15 weeks of culture. Addition of 0.68 mmol/L L-glutamine to 1/2-MSO medium enhanced somatic embryogenesis frequency from 55% to 66% and the number of somatic embryos per callus clump from 26.5 to 31.1. Histological studies were carried out to observe various developmental stages of somatic embryos. About 50% of somatic embryos converted into plantlets on 1/2-MSO medium containing 2% sucrose, after 20 days of culture. Transfer of somatic embryos to 1/29-MSO medium containing 10% sucrose for 15 days prior to transfer on 1/2-MS medium with 2% sucrose enhanced the conversion of somatic embryos into plantlets from 50 to 75%. The plantlets with shoots and roots were transferred to 1/2 and 1/4-liquid MS medium, each for 10 days, and then to plastic pots containing autoclaved peat moss and compost mixture (1:1). 70% of the plantiets survived after 10 weeks of transfer to pots. 120 regenerated plantlets out of 150 were successfully acclimatised. After successful acclimatisation, plants were transferred to earthen pots.     

Somatic embryogenesis in pumpkin (Cucurbita pepo L.): control of somatic embryo development by nitrogen compounds

Embryogenic cultures of pumpkin (Cucurbita pepo L.) were initiated from mechanically wounded mature zygotic embryos on 2,4-D-containing MS medium, and on hormone-free, semisolid modified MS medium containing NH4Cl as the sole source of nitrogen. The habituated line was derived from the embryogenic tissue induced with 2,4-D and maintained on medium without growth regulators. Sustained subculturing of the three embryogenic lines on a medium with NH4Cl as the sole source of nitrogen enabled the establishment of highly uniform cultures in which no further development into mature embryo stages occurred. The tissue consisting of proembryogenic globules or globular stage embryos was maintained, without decline, for over six years. Globular embryos proceeded to maturity when a combination of reduced (NH4) and unreduced (NO3) forms of nitrogen was provided in the medium. Different nitrogen sources in the medium caused changes of medium pH during subculture in the pH range of 4.0-6.5. The tissue growth and embryo development were blocked on medium with pH adjusted and stabilized at 4.0 or at 3.2.     

Somatic embryogenesis and organogenesis inGuizotia Abyssinica

Summary Induction of somatic embryogenesis, shoot organogenesis, and subsequent plant regeneration in niger seem to be dependent on genotype, choice of explant, and composition of media growth regulators. Two distinct regeneration protocols have been developed for somatic embryogenesis and shoot organogenesis. Somatic embryogenesis was induced from epicotyls and cotyledonary explants (9 to 35%) (but not from hypocotyls and roots) in presence of 2,4-dichlorophenoxyacetic acid, 2,4,5-trichlorophenoxyacetic acid, and 2,4,5-trichlorophenoxypropionic acid. These embryos matured in MS medium containing Kinetin plus naphthalene acetic acid (NAA), Kinetin plus Zeatin, and Kinetin plus abscisic acid (ABA). Matured embryos could be germinated on LS and MS basal media without hormones. Non-embryogenic callus initiated on Linsmaier and Skoog’s (LS) medium from cotyledons of six different genotypes produced shoots (9 to 32%) on Murashige and Skoog’s (MS) medium fortified with 6-benzylaminopurine (BAP, 0.5 mg · liter^−1), and BAP (1 mg · liter^−1) plus NAA (0.1 mg · liter^−1). These shoots were rooted with 100% frequency by using indole-3-acetic acid or NAA and transferred successfully to the soil.     

Somatic embryogenesis in callus cultures of Rosa hybrida L. cv. Landora

Callus was initiated from immature leaf and stem segments of rose (Rosa hybrida cv. Landora) and subcultured every four weeks on a basal medium of half-strength Murashige & Skoog (1962) salts plus 30 g l^-1 sucrose (1/2 MS) and supplemented with 2.2 M BA, 5.4 M NAA and 2.2–9.0 M 2,4-D. Embryogenic callus and subsequently somatic embryos were obtained from 8-week-old callus culture on 1/2 MS+2.2 M BA+0.05 M NAA+0.3 M GA₃+200–800 mg l^-1 L-proline. Long-term cultures were established and maintained for up to 16 months by repeated subculture of embryogenic callus on L-proline deficient medium. About 12% of cotyledonary stage embryos taken from cultures cold-stored at 8±1°C for 4 days germinated on 1/2 MS+2.2 M BA+0.3 M GA₃+24.7 M adenine sulphate.Abbreviations BA benzyladenine - NAA -naphthaleneacetic acid - 2,4-D 2,4-dichlorophenoxyacetic acid - GA₃ gibberellic acid     

Induction of somatic embryogenesis in cultured cells of <Emphasis Type="Italic">Chenopodium quinoa</Emphasis>

A major limiting factor for quinoa cultivation as a grain crop on a large scale are virus diseases, in particularly seed borne diseases. Therefore, a somatic embryogenesis protocol is a necessary tool to produce virus free plants. Somatic embryogenesis offers the possibility of mass production of transgenic plants and therefore can be used easily to study the effect on plants resulting from breeding processes. An in vitro protocol has been developed for somatic embryogensis from calluses and cell cultures of Chenopodium quinoa. Callus was induced from hypocotyl explants within 2 weeks of culture on a modified Murashige and Skoog (MS) medium supplemented with 0.45 M 2,4-D. Calluses were cultured on solid or liquid MS medium and later the development of somatic embryos was observed on both employing the same MS medium without 2,4-D. To our knowledge this is the first report of somatic embryogenesis in Chenopodium quinoa.     

In-vitro regeneration of olive tree by somatic embryogenesis

We induced somatic embryogenesis from the cotyledon segments ofOlea europaea (L) cvs. ‘Chetoui’, ‘Chemleli’, and ‘Arbequina’. Calli were established from all three cultvars on OMc media supplemented with IBA and 2i-R The greatest success was obtained with media that contained zero or low concentrations of growth regulators. High levels of hormones (i.e.,>0.5 mgL^-1 IBA and 2i-P) inhibited embryogenesis. Embryos at different maturation stages were observed with continuously proliferating secondary embryogenesis. Abnormally shaped embryos and teratoma were also noted. Four weeks was the optimal incubation period for inducing embryogenesis on the auxin-containing medium. In addition, 30 to 40 gL^-1 sucrose was more effective than glucose in stimulating the growth and maturation of somatic embryos. Embryogeic efficiency was also higher when multivariate combinations of nitrogen sources (inorganic and organic nitrogen forms) were used. The plantlets that were derived from our germinating somatic embryos were similar to those obtained from axillary buds.     

Direct somatic embryogenesis induced from cotyledons of mango immature zygotic embryos

Summary For the first time, regenerated plantlets were obtained from immature zygotic embryos of mango (Mangifera indica L.) through direct somatic embryogenesis. Pro-embryogenic mass (PEM)-like structures, which are differentiated as clusters of globular structures, were easily induced directly from the abaxial side of cotyledons from immature fruits, 2.0–3.5 cm diameter by a 2-wk culture period on a modified Murashige and Skoog medium with 5 mgl⁻¹ (25μM) indole-3-butyric acid (IBA). Conversion of somatic embryos into plantlets was achieved after 4 wk of culture on the conversion medium containing 5mgl⁻¹ (23 μM) kinetin. Secondary somatic embryogenesis could also be obtained directly from the hypocotyls of mature primary somatic embryos cultured on the conversion medium. In our experimental system, only minor problems were noted with browning of cultures.     

Plant regeneration via somatic embryogenesis in cotton

An efficient in vitro plant regeneration system characterized by rapid and continuous production of somatic embryos using leaf and stem explants of abnormal seedling as an explant have been developed in Gossypium hirsutum L. Embryogenic callus and somatic embryos have been obtained directly from the explants of cotton abnormal seedlings. Plant growth regulators influenced the induction of cotton somatic embryogenesis. The optimal medium for direct somatic embryogenesis was modified MS medium supplemented with 0.1 mg l^-1 ZT and 2 g l^-1 activated carbon. On this medium, an average of 28.0 and 28.1 matured somatic embryos formed from per leaf and stem explants respectively. The highest frequency of somatic embryogenesis was 100%. The somatic embryos were converted into normal plantlets when cultured on modified MS medium supplemented with 0.1 mg l^-1 ZT. Upon transfer to soil, plants grew well and appeared normal. Plants could be regenerated within 60–80 days. The system of cotton somatic embryogenesis and plant regeneration described here will facilitate the application of plant tissue culture and genetic engineering on cotton genetic improvement. This revised version was published online in June 2006 with corrections to the Cover Date.     

Somatic embryogenesis and plant regeneration in zygotic embryo explant cultures of rugosa rose

Rugosa rose (Rosa rugosa) is cultivated as a garden flower and an important genetic resource for the breeding of roses (R. hybrida). This study describes culture conditions for high frequency plant regeneration from zygotic embryo explants via somatic embryogenesis in rugosa rose. Mature zygotic embryo, cotyledon, and radicle explants formed embryogenic calluses at frequencies of 38, 6.7, and 8.8% when cultured on half-strength Murashige and Skoog medium (½MS) supplemented with 2.26, 9.05, and 9.05 μM 2,4-dichlorophenoxyacetic acid, respectively. Embryogenic calluses produced numerous somatic embryos, which then developed into plantlets on ½MS without growth regulators. Regenerated plantlets were grown to whole plants in a growth chamber.     

Somatic embryogenesis and plantlet regeneration from cotyledon explants isolated from emblings and seedlings of hybrid firs

Embryogenic tissues have been initiated on cotyledon explants dissected from seedlings or emblings of hybrid firs. Cotyledons of seedling origin (Abies alba x A. cephalonica) gave a relatively low initiation frequency (1.94 percnt;). In embling-derived cotyledons (Abies alba x A. cephalonica, Abies alba x A. numidica), the initiation was cell-line dependent and reached values between 1.25 and 24.28 percnt;. The established embryogenic cell lines are being maintained in long-term cultures.The origin and development of the somatic embryos have been traced histologically. The early stages of somatic embryo development have been characterised by cell division activity (predominantly periclinal) in the epidermal and subepidermal layers of cotyledons and subsequently by development of nodular structures. Further differentiation led to the formation and emergence of somatic embryos on the surface of cotyledons.Somatic embryo development and plantlet regeneration occurred from proliferating tissues initiated from cotyledons of embling as well as seedling origin.     

Somatic embryogenesis from seed explants of Abies alba

Megagametophytes of Abies alba containing the immature embryos were dissected from the seed coats and divided by longitudinal and transverse sections. They were placed with the cut surface down on modified Schenk & Hildebrandt medium containing 50 mgl^-1 myo-inositol and 2% sucrose, supplemented with 1 mgl^-1 N⁶-benzyladenine (BAP). An embryogenic type of callus proliferated after one month of culture. Closer examination revealed the presence of structures resembling early stages of embryogenesis as well as of single elongated, vacuolated cells and clusters of cells with dense cytoplasm. Under appropriate conditions, some of the somatic embryos elongated and formed cotyledons.     

Somatic embryogenesis and plant regeneration from leaf tissue of jojoba

A protocol was developed for the induction, maturation and germination of somatic embryos from leaf tissue of jojoba [Simmondsia chinensis (Link) Schneider]. Explants were placed on their adaxial sides in Petri dishes and maintained in darkness on half-strength Murashige and Skoog basal medium (MS/2). Combinations of 2,4-dichlorophenoxyacetic acid (1.35–4.52 μM) with 6-benzylaminopurine (1.33–4.43μM) and 2 synthetic cytokinins, N-(2-chloro-4pyridyl)-N′-phenylurea (1.21–4.03μM) or (E)-6-[3-(trifluoromethyl)-but-2-enylamino] purine (1.11–3.71μM) resulted in formation of embryogenic cultures and somatic embryos. After two 30-day subcultures, embryogenic cultures were transferred onto MS/2 medium supplemented with different auxins and cytokinins. Somatic embryo maturation, germination and plantlet formation were achieved using 1-naphthaleneacetic acid (3.75μM) or indole-3-butyric acid (3.44μM) in combination with BA (0.44 or 1.33μM) or F3iP (0.37 or 1.11μM). Histology confirmed each stage of development. This revised version was published online in June 2006 with corrections to the Cover Date.     

Somatic embryogenesis from immature zygotic embryos ofGinkgo biloba

Immature zygotic embryos ofG. biloba were taken, at various developmental stages, from ovules harvested in November 1993. Zygotic embryos showing the beginning of the cotyledonary development cultured on modified Murashige & Tücker (1969) media proliferated intensely. In fact, 98.5% of the immature zygotic embryos produced embryogenic and undifferentiated tissues (calluses), in proportions varying depending on the hormonal composition of the induction media. After two weeks of culture, direct embryogenesis was observed on the hypertrophic cotyledons when benzyladenine 10 M was used as the sole plant growth regulator in the induction media. The addition of different concentrations of NAA (5–10–20 M) and of BA (5 M) to the induction media led to an indirect embryogenesis after two months, when the calluses were transferred to the development media without auxin. The highest frequency of embryogenic tissues (90–95%) and the highest number of somatic embryos per explant (9.6) were obtained with benzyladenine (10 M) as the sole exogenous growth factor. Some embryos isolated mechanically or in situ on the callus developed as far as the later cotyledonary stage.Abbreviations AUX Auxin - BA Benzyladenine - CYT Cytokinin - IZE Immature zygotic embryo - MT Murashige & Tücker (1969) medium - NAA Naphtaleneacetic acid     

Somatic embryogenesis from leaf cultures of potato

An efficient procedure has been developed for inducing somatic embryogenesis from leaf cultures of potato cv. Jyothi. Leaf sections were initially cultured on 2,4-dichlorophenoxyacetic acid (2,4-D) + benzyladenine (BA) and -naphthaleneacetic acid (NAA) + BA supplemented Murashige and Skoog (MS) media. Nodular embryogenic callus developed from the cut ends of explants on media containing 2,4-D and BA, whereas compact callus developed on media containing NAA and BA. The explants with primary callus were subsequently moved onto MS media containing zeatin and/or gibberellic acid (GA₃) and BA. Treatment with zeatin (22.8 M) and BA (10.0 M) resulted in the induction of the highest number of somatic embryos directly from meristematic centres produced on the nodular tissue. Embryo induction and maturation took place on this medium. The cotyledonary stage embryos developed into complete plantlets on hormone-free MS medium. A distinct feature of this study is the induction of somatic embryogenesis in leaf cultures of potato which has not been reported previously.     

Somatic embryogenesis in Jatropha curcas Linn., an important biofuel plant

Jatropha curcas L. is one potential source of non-edible biofuel-producing energy crop. Its importance also lies in its medicinal properties. The species is primarily propagated through heterozygous seeds, and thus the seed oil content varies from 4 to 40%. Moreover, due to its perennial nature, seed setting requires 2 to 3 years time. The seed viability and rate of germination are low, and quality seed screening is another laborious task; thus, seed propagation alone cannot provide quality planting material for sustainable use. Somatic embryogenesis, a powerful tool of plant biotechnology for faster and quality plant production has been successfully applied to regenerate plants in Jatropha curcas for the first time. Embryogenic calli were obtained from leaf explants on MS basal medium supplemented with only 9.3 μM Kn. Induction of globular somatic embryos from 58% of the cultures was achieved on MS medium with different concentrations of 2.3–4.6 μM Kn and 0.5–4.9 μM IBA; 2.3 μM Kn and 1.0 μM IBA proved to be the most effective combination for somatic embryo induction in Jatropha curcas. Addition of 13.6 μM adenine sulphate stimulated the process of development of somatic embryos. Mature somatic embryos were converted to plantlets on half strength MS basal medium with 90% survival rate in the field condition. The whole process required 12–16 weeks of culture for completion of all steps of plant regeneration. This protocol of somatic embryogenesis in Jatropha curcas may be an ideal system for future transgenic research.     

Genotype effects on proliferative embryogenesis and plant regeneration of soybean

Summary Proliferative somatic embryogenesis is a regeneration system suitable for mass propagation and genetic transformation of soybean [Glycine max (L.) Merr.]. The objective of this study was to examine genotypic effects on induction and maintenance of proliferative embryogenic cultures, and on yield, germination, and conversion of mature somatic embryos. Somatic embryos were induced from eight genotypes by explanting 100 immature cotyledons per genotype on induction medium. Differences in frequency of induction were observed among genotypes. However, this step was not limiting for plant regeneration because induction frequency in the least responding genotype was sufficient to initiate and maintain proliferative embryogenic cultures. Six genotypes selected for further study were used to initiate embryogenic cultures in liquid medium. Cultures were evaluated for propagation of globular-stage tissue in liquid medium, yield of cotyledon-stage somatic embryos on differentiation medium, and plant recovery of cotyledon-stage embryos. Genotypes also differed for weight and volume increase of embryogenic tissue in liquid cultures, for yield of cotyledon-stage embryos on differentiation medium, and for plant recovery from cotyledon-stage embryos. Rigorous selection for a proliferative culture phenotype consisting of nodular, compact, green spheres increased embryo yield over that of unselected cultures, but did not affect the relative ranking of genotypes. In summary, the genotypes used in this study differed at each stage of plant regeneration from proliferative embryogenic cultures, but genotypic effects were partially overcome by protocol modifications.     

Induction by thidiazuron of somatic embryogenesis in intact seedlings of peanut

In planta differentiation of somatic embryos was induced in seedlings of peanut (Arachis hypogaea L.) obtained from mature seeds germinated on a medium supplemented with thidiazuron (TDZ: N-phenyl-N¹- (1,2,3 thiadiazol-yl)urea). At optimum levels of TDZ (10 M), all germinating seeds produced embryogenic seedlings, and somatic embryos developed in the apical region and on the surface of cotyledons and hypocotyls. These somatic embryos matured, germinated, and formed shoots which eventually developed into whole plants. Thidiazuron-induced direct embryogenesis from morphologically intact seedlings may provide an excellent experimental system for investigating somatic embryogenesis and the morphoregulatory role of TDZ.Abbreviations 2,4-D 2,4-dichlorophenoxyacetic acid - MS Murashige and Skoog (1962) medium - TDZ thidiazuron (N-phenyl-N¹(1,2,3 thiadiazol-yl)urea) This research was supported by an operating grant from the Natural and Engineering Research Council of Canada to P.K.S. We thank Drs. J.A. Qureshi and Judith Strommer for helpful discussions, and Sangeeta Saxena for technical assistance. A gift of technical-grade thidiazuron from Nor-Am Chemical Co., Wilmington, Del., USA is gratefully acknowledged.     

Somatic embryogenesis in avocado (Persea americana Mill.) in vitro

A tissue culture procedure was developed for the regeneration of somatic embryos from callus cultures of the avocado,Persea americana. Immature zygotic embryos, 0.6–0.8 mm long, were used as original explants. Addition of 0.1 mg/l picloram (4-amino-3,5,6-trichloropicolinic acid) to culture medium appeared critical for callus initiation. Development of somatic embryos was accomplished in picloram concentrations of 0.01 to 0.1 ml/l. A few well developed embryos produced green shoots. Attempts to induce a higher incidence of germination were unsuccessful.Investigation was supported by funds from the California Avocado Society, the Instituto Nacional de Investigaciones Agrarias, the Fundation Juan March, the Chancellor's Patent Fund, and the Southern California Phi Beta Kappa Alumni Association. Authors thank H. Quick for the photography and J. Lippert for the illustrations.     

Somatic embryogenesis of Panax ginseng in liquid cultures: a role for polyamines and their metabolic pathways

A callus with embryogenic capacity was generated fromroot sections of Panax ginseng and used as aninoculum source for embryogenic liquid cultures in athree-step process: – a suspension culture of cellaggregates in the presence of an auxin/cytokininmixture, – an induction medium containing auxin only(for 5 to 30 days), – a regeneration medium containingcytokinin only (for one month). Up to 25 embryos wererecovered per 2.5 g of aggregates in these conditions.Incorporation of polyamines or their precursorsarginine and ornithine into either the induction orregeneration media increased the number of embryosproduced by up to 4 times. Inhibitors of bothbiosynthesis and biodegradation of polyamines reducedthe number of embryos. These results support earlierfindings of the role of polyamines in the process ofsomatic embryogenesis. The success of these liquidcultures opens up the possibility of producing somaticembryos of Panax ginseng in bioreactors.     

High frequency somatic embryogenesis and plantlet regeneration from hypocotyl protoplast cultures of Brassica napus

A simple protocol has been developed for high frequency protoplast regeneration via somatic embryogenesis in B. napus. Protoplasts isolated from hypocotyl tissue of 8–12 day old seedlings of Brassica napus ISN706 (AACC) when cultured in KM(A) medium resulted in divisions with a, frequency ranging from 30–35%. Regeneration of plantlets was possible by both organogenesis and embryogenesis. Nearly 80% of the call transferred on to MS medium supplemented with 5.0 mg l^-1 2iP, 0.1 mg l^-1 NAA, 0.001 mg l^-1 GA₃, 0.5 g l^-1 PVP and 0.5 g l^-1 MES displayed somatic embryogenesis. The somatic embryos developed into normal plantlets, and also displayed secondary, repetitive embryogenesis.