Somatic embryogenesis and plant regeneration from suspension cultures of Picea glauca (White spruce)

Hakman, I. and von Arnold, S. 1988. Somatic embryogenesis and plant regeneration from suspension cultures of Picea glauca (White spruce). - Physiol. Plant. 72: 579–587.
Plantlets were regenerated from long-term embryogenic cultures of Picea glauca (Moench) Voss. (White spruce). Embryogenic calli, initiated from immature zygotic embryos and maintained by monthly subculture for 16 months, were used to establish suspension cultures. Small somatic embryos were continuously produced in liquid culture medium containing auxin and cytokinin and the cultures showed a sustained regeneration capacity for >6 months. Somatic embryos propagated in the suspension cultures developed further into embryos bearing cotyledons, about 1 month after transfer to solidified medium containing abscisic acid. Electron microscopic examination revealed that storage nutrients, lipids, proteins and carbohydrates, accumulated in the somatic embryos during this treatment with abscisic acid (ABA). Upon subculture to medium lacking plant growth regulators such embryos could develop into small green plantlets.     

The sensitivity of transgenic spruce (Picea glauca (Moench) Voss) cotyledonary somatic embryos and somatic seedlings to kanamycin selection

Transformed white spruce cultures containing immature Stage I somatic embryos, were developed after particle bombardment of somatic embryos with pBI 426, carrying an expression cassette with a gus::nptII fusion gene. These Stage I cultures did not show tolerance to kanamycin concentrations above 3 to 5 mg l–1, although assays for GUS and NPTII showed that functional enzymes were present in the transgenic tissue. Embryonic liquid suspension cultures were initiated from this transformed tissue. After treatment on agar-solidified maturation medium with 48 m (±)-ABA high numbers of Stage III (cotyledonary) somatic embryos were produced. When subjected to an embryogenesis re-induction process with 2,4-D and BA, these Stage III embryos produced a new generation of Stage I embryogenic tissues which could tolerate 5--10 mg l–1 kanamycin. Stage III somatic embryos could alternatively be placed onto germination medium for the development of somatic seedlings. When germinated in the presence of 20 mg l–1 kanamycin, 77% of inoculants were resistant. The stability of integration of the gus::nptII fusion gene in the genome of white spruce Stage III somatic embryos and somatic seedlings was confirmed through Southern blot analysis     

A novel method of cryopreservation without a cryoprotectant for immature somatic embryos of conifer

Cryopreservation of embryogenic tissue is an essential storage step in genotype selection and seedling production through somatic embryogenesis. To date, immature conifer somatic embryos, at the proliferation step, were only able to tolerate ultra low temperature after prior cryoprotectant treatments. We report a novel cryopreservation method for conifer (interior spruce and Douglas-fir) embryogenic tissue focusing on the maturation step of developing embryos that forgoes such cryoprotectant treatment. In this study, somatic embryos matured on culture media containing abscisic acid (ABA) at 20°C for 8 weeks. Typically, matured embryos in this manner were able to survive cryopreservation. The embryogenicity, however, decreased with increasing embryo maturity. Non-freezing low temperatures, such as 5°C, not only inhibited cotyledon development but also maintained embryogenicity. Cryotolerance was successfully induced when embryos were matured (or pretreated) under 5°C for a suitable culture period, typically 4–8 weeks. These embryos were able to survive a rapid cooling process and liquid nitrogen storage without the addition of any cryoprotectants. After cryopreservation, embryogenic tissue was recovered in both interior spruce and Douglas-fir. Embryo maturation tests indicated no difference in mature embryo yields with or without cryopreservation in interior spruce. The key factors inducing cryotolerance included ABA supplementation in culture media and low temperature pretreatment. Optimum combinations of these factors can result in high rates of tissue survival and high embryogenicity after cryopreservation.     

Effect of long-term in vitro shoot culture on somatic embryogenesis of quince leaves treated with different light qualities

Summary The effect of long-term in vitro shoot culture on somatic embryogenesis in quince BA 29 was investigated. Three experiments were performed on leaves explanted at about 8-mo. intervals from the same culture stock and maintained under different light qualities. Embryo production was assessed either in terms of percentage of embryogenic leaves or number of embryos per leaf. By appropriate data processing both these responses were linearly related to photoequilibrium in each experiment. Statistical comparisons among the three experiments showed significant differences both in mean (computed over light qualities) and line slope values. In particular, with increasing shoot culture age, both percentage of embryogenic leaves and number of embryos per leaf progressively increased, while mean slope values decreased. The increase in mean values suggests a positive effect on somatic embryogenesis due to possible tissue rejuvenation when mother cultures were cultivated in vitro for longer periods. Slope decrease over time indicated the interactions between age of the in vitro culture and photoequilibrium. Thus, embryo production at different culture ages was consistently found to be highest at high photoequilibrium values; in contrast, if a low level of phytochrome was activated, embryogenesis in the youngest cultures was low or absent, but increased with the progressive tissue rejuvenation arising from long-term in vitro culture.     

Transformation of white spruce (Picea glauca) somatic embryos by microprojectile bombardment

Cotyledonary somatic embryos of white spruce [Picea glauca (Moench) Voss] were subjected to microprojectile bombardment with a gene construct containing a gus::nptll fusion gene. Somatic embryos were used to re-induce the embryogenic tissue after bombardments. Histochemical assay using X-gluc as a substrate showed that all the embryos (100%) were GUS positive 48 h after bombardment. However, only thirteen out of 605 embryos (2.2%) remained GUS positive after two months in culture. Three of those thirteen (23%) embryo-derived tissues consistently showed GUS activity for eight months in culture. These putatively transfomed embryogenic tissues were subjected to Southern blot analysis and the results suggested integration of the gus::nptll gene expression cassette in the white spruce genome.Abbreviations ABA (±)abscisic acid - BA benzyladenine - bp base pair - 2,4-D 2,4-dichlorophenoxyacetic acid - kb kilobase - gus E. coli gene uid A for -glucuronidase - nptll neomycin phosphotransferase II - X-gluc 5-bromo-4-chloro-3-indolyl--D-glucuronic acid     

Initiation of embryogenic callus and suspension cultures of eastern white pine (Pinus strobus L.)

Embryogenic callus and suspension cultures of eastern white pine (Pinus strobus) have been obtained. The whole female gametophyte was plated on a medium containing 50 mg/l glutamine, 500 mg/l casein hydrolysate, 3% sucrose, 2 mg/1 2,4-D, 1 mg/1 BA and 0.2% Gelrite as a solidifying agent. Embryogenic calli could be seen as early as 5 days following culture. Histological studies indicate proliferation of pre-existing embryogenic tissue in the corrosion cavity followed by extrusion of embryogenic callus through the micropylar end of the gametophyte. Embryogenic suspension cultures were obtained by placing embryogenic callus into liquid medium. Embryogenic suspension cultures were subcultured weekly and proliferated as early-stage embryos with attached suspensors. Embryo development was obtained following transfer of the embryogenic tissue to an auxin-free medium containing 50 mM glutamine, 38 M abscisic acid, and 6% sucrose. Although embryo development could be consistently obtained, whole plants have not yet been recovered from these somatic embryos.Abbreviations 2,4-D 2,4-Dichlorophenoxyacetic acid - ABA Abscisic acid - BA 6-Benzyladenine Salaries and research support were provided by State and Federal funds appropriated to OSU/OARDC. Journal Article No. 62–89     

Morphogenesis from cultured leaf tissue ofSorghum bicolor—The morphogenetic pathways

Summary Immature leaf explants ofSorghum bicolor (L.) Moench can be stimulatedin vitro to form roots, shoots or embryos. When the cultures were maintained with the high 2,4-D level which was essential for optimal culture initiation, the organs or embryos proliferated as suppressed primordia, but they could always be identified by simple histological means. Perivascular cells of comparatively old but still immature leaf sheath regions appeared to be strongly determined to form adventitious roots or root-type callus cultures. We have evidence that the embryogenic tissue, and ultimately the embryos, are of multicellular origin. This ontogeny of the embryos appears to be contradictory to the often stated view that somatic embryos generally arise from single committed cells. The implications of these findings for basic and applied research on cereal tissue culture are discussed.Abbreviations 2,4-D 2,4-Dichlorophenoxyacetic acid - Kinetin 6-Furfurylaminopurine - 6-BAP 6-Benzylaminopurine - MS Murashige and Skoog Emrys Thomas died in England in May 1981.     

Somatic embryogenesis from immature zygotic embryos of oil palm

Immature zygotic embryos at different developmental stages were used for callus induction and regeneration studies. Immature embryos excised from fruits 77, 91, 100, 114, 128, 140 and 193 days after pollination and mature embryos were cultured on modified Y3 medium containing 500 mgl^–1 cysteine, 0.5% (w/v) PVP-40, 500 M 2,4-d and 0.3% (w/v) charcoal. Compact embryogenic tissue began differentiating directly from embryo explants after 2 weeks of culture. The percentage of embryos forming compact embryogenic tissue ranged from 28.6% for 91-day-old embryos to 0% for 140-day-old and older embryos. Friable embryogenic tissue was observed in callus cultures derived from 100-day-old embryos. Although both compact and friable embryogenic tissues were successfully isolated, normal embryo and plantlet development was observed only from friable embryogenic tissue.Abbreviations ABA abscisic acid - 2,4-d 2,4-dichlorophenoxyacetic acid - NAA naphthaleneacetic acid - PVP polyvinylpyrollidone     

Enhancement of somatic embryogenesis of Ipomoea batatas in solid eultures and production of mature somatic embryos in liquid cultures for application to a bioreactor production system

Somatic embryos of Ipomoea batatas Lam. (sweet potato cv. White Star) were produced in an airlift bioreactor. This work describes the optimization of the embryogenic system on semisolid medium, followed by transfer of the system to liquid cultures and ultimately to the airlift bioreactor. The physiological age of embryogenic callus influenced the number and overall morphology of the embryo population in both semisolid and liquid medium. Maximum mature embryo production (35 embryos 10 mg^-1 inoculum) was obtained from six-week-old callus at 30°C. Somatic embryogenesis occurred in liquid cultures containing 20 mM NH₄NO₃ and 30 mM KCl. Globular embryos formed and continued development in suspension producing viable, mature cotyledonary embryos by day 14. Embryo formation and development was limited in the bioreactor. Although shear stress was responsible for some embryogenic damage, the effect of purging the system with fresh air needed to be investigated. To isolate aeration effects from shear stress effects, atmospheric determinations were performed on shaker flask cultures. Initially the gas composition within the Erlenmeyer headspace was that of room air. Ethylene increased to a maximum of 6.4 ppm (day 16), maximum CO₂, 21.2%, was also evident on day 16, and oxygen was depleted to a minimum of 8.1% by day 14. Purging the cultures with fresh air reduced the number of embryos formed; however, they were significantly longer than those formed in closed flasks. The gas response model of Ipomoea batatas will enable atmosphere replenishment in the bioreactor mimicking that of the shaker flask environment. Once the damaging effects of shear stress have been overcome, the regulation of bioreactor gasses should allow somatic embryo formation in the bioreactor comparable to that in shaker flasks.     

Genetic variation in somatic embryogenic response in open-pollinated families of black spruce

Summary Zygotic embryos from open-pollinated seeds of 20 black spruce (Picea mariana) families were used to investigate the proportion of genotypes that would give rise to embryogenic tissue (ET) and mature somatic embryos. Eighty-five percent of the maternal genotypes gave rise to embryogenic tissue. Within-family rates of ET induction ranged from 0 to 17%, with an average of 8%. The largest proportion of variation was among families, indicating the additive nature of the genetic variation. On a medium with 6% sucrose and 3.7 M ABA, 90% of the embryogenic lines gave rise to abundant (>100/100 mg of ET), well-formed, mature somatic embryos. A medium with 2% sucrose, without 2,4-D, was used to germinate the mature somatic embryos. These were grown in the greenhouse and have now been established in field trials.     

Identification of callus types for long-term maintenance and regeneration from commercial cultivars of wheat (Triticum aestivum L.)

Summary Immature embryos, inflorescences, and anthers of eight commercial cultivars of Triticum aestivum (wheat) formed embryogenic callus on a variety of media. Immature embryos (1.0–1.5 mm long) were found to be most suitable for embryogenic callus formation while anthers responded poorly; inflorescences gave intermediate values. Immature embryos of various cultivars showed significant differences in callus formation in response to 11 of the 12 media tested. No significant differences were observed when the embryos were cultred under similar conditions on MS medium with twice the concentration of inorganic salts, supplemented with 2,4-D, casein hydrolysate and glutamine. Furthermore, with inflorescences also no significant differences were observed. Explants on callus formation media formed two types of embryogenic calli: an off-white, compact, and nodular callus and a white compact callus. Upon successive subcultures (approximately 5 months), the nodular embryogenic callus became more prominent and was identified as aged callus. The aged callus upon further subculture, formed an off-white, soft, and friable embryogenic callus. Both the aged and friable calli maintained their embryogenic capacity over many subculture passages (to date up to 19 months). All embryogenic calli (1 month old) from the different callus-forming media, irrespective of expiant source, formed only green shoots on regeneration media that developed to maturity in the greenhouse. There were no significant differences in the response of calli derived from embryos and inflorescences cultured on the different initiation media. Also, the shoot-forming capacity of the cultivars was not significantly different. Anther-derived calli formed the least shoots. Aged and friable calli on regeneration media also formed green shoots but at lower frequencies. Plants from long-term culture have also been grown to maturity in soil.Florida Agricultural Experiment Station Journal Series No. R-00494     

Evaluation of somaclonal variation during somatic embryogenesis of interior spruce (Picea glauca engelmannii complex) using culture morphology and isozyme analysis

Somaclonal variation during interior spruce (Picea glauca engelmannii complex) somatic embryogenesis was evaluated using culture morphology and isozyme analysis. Genotype-specific abscisic acid-dependent developmental profiles and isozyme patterns were similar for subclone and parent line embryogenic cultures and cotyledonary somatic embryos. Extensive analysis of fifteen hundred subclone embryos of one genotype revealed no isozyme pattern variation. Initiation of embryogenic cultures was dependent on the developmental stage of the explant although cultures derived from different stages were morphologically similar. The embryogenic cultures initiated from interior spruce embryos show a high degree of genetic stability in that the morphological behavior and isozyme phenotype were always consistent with that of the explant genotype. These results support the conclusion that this culture system is appropriate for clonal propagation of interior spruce.     

Growth and activities of enzymes of primary metabolism in batch cultures of Catharanthus roseus cell suspension under different pCO2 conditions

In vitro enzyme activities of glycolysis, pentose-phosphate pathway and dark CO₂ fixation were assayed in batch cultures of heterotrophic Catharanthus roseus cells under various gassing rates and partial pressures of carbon dioxide. Detrimental effects of low pCO₂ culture conditions on the growth characteristics could be linked to marked changes in levels of enzymes of primary metabolism during growth. The enzyme levels observed during the early stages of growth were found to be more stable when a constant pCO₂ (20 mbar) was maintained and enabled exponential growth to be reached more rapidly.The importance of carbon dioxide as a conditioning factor of the culture medium is discussed.     

Initiation and maintenance of long term somatic embryogenesis from anthers and ovaries of Vitis longii ‘Microsperma’

Anthers and ovaries of Vitis longii Microsperma produced embryogenic callus when cultured on solidified Murashige and Skoog medium with 5M 2,4-dichlorophenoxyacetic acid (2,4-D) and 1M benzyladenine (BA). The initial callus was short-lived. However, long-term embryogenesis from callus was maintained through serial transfers by careful selection of clustered embryos with subtending callus. Alternatively, long term culture maintenance was through secondary embryogenesis which occurred directly from previously formed embryos on medium lacking growth regulators. Somatic embryos were white, exhibited frequent pluricotyly and tended to be larger than zygotic embryos. Histology of embryogenic callus demonstrated the presence of lipid-like substances and abundant starch. Somatic embryos were attached to callus by narrow to wide suspensor-like structures and possessed typical epidermal, cortical, and vascular tissue. Embryo cells contained abundant lipid-like accumulations but no starch. Embryos germinated when placed on medium containing 1M BA and produced plants of normal appearance.     

Transient transformation of pollen and embryogenic tissues of white spruce (Picea glauca (Moench.) Voss) resulting from microprojectile bombardment

Detailed analyses of the physical parameters inherent in the microprojectile bombardment technology necessary to produce optimum transient -glucuronidase (GUS) expression were undertaken in pollen and embryogenic tissues of white spruce. Higher helium pressure used for microprojectile bombardment resulted in lower GUS expression in pollen, but in higher GUS expression in embryogenic tissues. Modification of the osmoticum of the culture medium had a limited effect on GUS transient expression in pollen but substantially increased the transient expression in embryogenic tissues. The viability of transformed pollen was not affected by the bombardment procedure. This is the first detailed analysis of microprojectile bombardment technology reporting the conditions needed for optimum transient transformation of pollen and embryogenic tissues of white spruce.     

Plant regeneration from embryo-derived tissue cultures of soybeans

Summary Routine regeneration of fertile plants from a tissue culture of soybean has been achieved. Serially propagated embryogenic cultures were initiated from immature embryos of many genotypes. Organized tissues developed only on the cotyledons of embryos. Genotypic variation in the frequency of initiation of embryogenic tissue was noted. However, embryogenic tissue cultures were generated from all genotypes tested. Embryogenic tissue was serially increased and underwent morphogenesis. Whole fertile plants were recovered. Cultures have been maintained for two years without loss of morphogenic competency. Editor's Statement This procedure for initiating embryogenic tissue cultures from commerical cultivars of soybean and the subsequent development of fertile plants establishes a framework for studying the processes of embryogenesis and embryogenyin vitro as well as providing a system for tissue culture propagation and in vitro modification of soybean. Robert B. Horsch     

Cryopreservation of interior spruce (Picea glauca engelmanni complex) embryogenic cultures

Summary Embryogenic cultures of interior spruce derived from 12 full-sib families were subjected to cryopreservation, with a 97 % success rate for 357 genotypes. Analyses suggested that cryotolerance was not related to family ranking (height increment), embryogenic potential or culture dispersability in suspension, and long-term storage in or above liquid nitrogen did not affect regenerative potential. By contrast, differences in cryotolerance among cell lines appeared to be prevalent in certain families. Analysis with a DNA fingerprinting probe used for clonal identification demonstrated no evidence of somaclonal variation as a result of cryopreservation. The results of this work indicate the applicability of cryopreservation as a long-term storage strategy for spruce embryogenic cultures from a wide genetic background.Abbreviations ABA ± abscisic acid - BA N⁶-benzyladenine - BSA bovine serum albumin - CTAB cetyldimethylethyl-ammonium bromide - DMSO dimethylsulfoxide - DTT dithiothreitol - EDTA ethylenediaminetetraacetic acid disodium salt - IBA indole-3-butyric acid - LN liquid nitrogen - PEG polyethylene glycol - SLS N-lauroyl sarcosine - Tris tris[hydroxymethylamino] methane - 2,4-D 2,4-dichlorophenoxyacetic acid     

Enhancement of somatic embryogenesis in Norway spruce (Picea abies L.)

Summary Embryogenic callus developed in 55% of the mature embryo explants of Norway spruce (Picea abies L.) growing on a LP medium minus the amino acids and sugars (except sucrose). This is the highest reported yield of embryogenic callus from mature embryos of P. abies that has ever been reported. Callus induction from either the middle or the end of the hypocotyl of the embryos began after 2–3 weeks. Three types of calli were recovered: (a) globular, (b) light green-compact, (c) white mucilaginous. Only the white mucilaginous calli were embryogenic. The globular and light green-compact calli never become embryogenic, even after several subcultures. The development of somatic embryos was accomplished on half-strength macro-elements of NSIII medium containing 1 M -naphthaleneacetic acid, 1 M abscisic acid, and 3% sucrose. The addition of 10^–7 M buthionine sulfoximine to the medium increased the development of somatic embryos by three fold. These results suggest that there is a great potential for increasing the frequency and development of somatic embryos in P. abies. Careful selection of the genotype and modification of the culture medium is required.