Wheat (<Emphasis Type="Italic">Triticum aestivum</Emphasis> L.) somatic embryogenesis from isolated scutellum: Days post anthesis,days of spike storage,and sucrose concentration affect efficiency

Summary To improve the efficiency of somatic embryogenesis of isolated scutella from commercial wheat (Triticum aestivum L.) cultivars, two factorial experiments were conducted to examine effects of days post anthesis (DPA), days of spike storage (DSS) at 4°C, and sucrose concentrations (SC) on the percentage of scutella producing mature embryos and the number of mature embryos produced per responsive scutellum. In the first experiment, scutella isolated from spikes collected at 10, 11, 12, 13, 14, 15, and 16 DPA and stored at 4°C for 7, 10, 13, and 16d were placed on embryo induction medium [Murashige and Skoog plus 9.96 μM 2,4-dichlorophenoxyacetic acid (2,4-D) and 110 mg l⁻¹ casamino acids], incubated in darkness for 12–14 d and then under light for 2 wk. The interaction of DPA × DSS significantly affected the percentage of scutella producing mature embryos, while only DPA affected the number of mature embryos per responsive scutellum. In the second experiment, scutella isolated from spikes collected at 12 DPA and stored for 15, 16, 17, 18, and 19d were placed on embryo induction medium containing 2, 3, 4, and 5% sucrose. The interaction of DSS × SC significantly affected both the percentage of scutella producing mature embryos and the number of mature embryos per responsive scutellum. In general, DPA/DSS/SC combinations, 12/17/3, 12/18/3, and 12/19/2, yielded the numerically highest embryogenesis efficiencies.     

Development and regulation of three glyoxysomal enzymes during cotton seed maturation and growth

The temporal, nonconcerted development of activities of malate synthase (MS), isocitrate lyase (ICL), and catalase (Cat) was explored in more detail in maturing and germinated cotton (Gossypium hirsutum L.) seeds. RNA was extracted at six intervals beginning at 17 days post anthesis (DPA) through 72 hours post imbibition (HPI). In vitro translations revealed that mRNAs for each enzyme were translatable at all intervals. Enzyme activities and immunoselected proteins also were found at all intervals. Similar specific activities throughout maturation indicated that embryo cells were not accumulating inactive protein. The steady-state level of mRNAs encoding each enzyme exhibited different patterns of change during seed maturation, and each peaked at least 24 h before peak enzyme activities in germinated seeds. All three enzymes occur together as early as 17 DPA in a coordinate manner; however, the subsequent, nonconcerted increases in protein, activity, and mRNA for each enzyme indicate that developmental expression in cotton seed embryos is regulated in a noncoordinate fashion by as yet unidentified specific control mechanism(s).Abbreviations ABA abscisic acid - bp base pairs - DPA days post anthesis - HPI hours post imbibition - kb kilobase (pairs) - M _r relative molecular weight - S Svedberg unit (10^-13s)     

Incubation temperature critical to successful stimulation of in vitro zygotic embryo growth in four Australian native Cyperaceae species

Many species of Western Australian Cyperaceae (sedges) are vital components of the indigenous flora but commonly display low seed set, poor seed quality and intractable seed dormancy. We report the effects of incubation temperature and in vitro growth media on whole seed germination compared with extracted zygotic embryo growth in Tetraria capillaris, T. octandra, Lepidosperma drummondii and L. tenue. No germination was observed from intact whole seeds of all test species regardless of the treatment evaluated. In contrast, excised zygotic embryos of all study species exhibited significant increases in growth when cultured at 15°C compared to embryos incubated at 25°C; however, optimal media for embryo growth were genera specific. Extracted embryos of T. capillaris and T. octandra exhibited maximum percentage growth (30 and 40%, respectively) at 15°C on ½ MS medium with no plant growth regulators required. In the case of L. drummondii and L. tenue 1 μM thidiazuron was a necessary addition to the ½ MS medium resulting in 40 and 77% growth of embryos (at 15°C), respectively. Incubation of extracted embryos at 25°C (regardless of medium treatment) resulted in <10% embryo growth for T. octandra and L. tenue, while the remaining two species (L. drummondii, T. capillaris) showed no embryo growth at 25°C on any medium treatment.     

Disrupting Abscisic Acid Homeostasis in Western White Pine (<Emphasis Type="Italic">Pinus monticola</Emphasis> Dougl. Ex D. Don) Seeds Induces Dormancy Termination and Changes in Abscisic Acid Catabolites

To investigate the role of abscisic acid (ABA) biosynthesis and catabolism in dormant imbibed seeds of western white pine (Pinus monticola), ABA and selected catabolites were measured during a combined treatment of the ABA biosynthesis inhibitor fluridone, and gibberellic acid (GA). Fluridone in combination with GA effectively disrupted ABA homeostasis and replaced the approximately 90-day moist chilling period normally required to break dormancy in this species. Individually, both fluridone and GA treatments decreased ABA levels in the embryos and megagametophytes of white pine seeds compared to a water control; however, combined fluridone/GA treatment, the only treatment to terminate dormancy effectively, led to the greatest decline in ABA content. Fluridone treatments revealed that a high degree of ABA turnover/transport occurred in western white pine seeds during the initial stages of dormancy maintenance; at this time, ABA levels decreased by approximately two-thirds in both embryo and megagametophyte tissues. Gibberellic acid treatments, both alone and in combination with fluridone, suggested that GA acted transiently to disrupt ABA homeostasis by shifting the ratio between biosynthesis and catabolism to favor ABA catabolism or transport. Increases in phaseic acid (PA) and dihydrophaseic acid (DPA) were observed during fluridone/GA treatments; however, increases in ABA metabolites did not account for the reduction in ABA observed; additional catabolism and/or transport of ABA and selected metabolites in all probability accounts for this discrepancy. Finally, levels of 7′ hydroxy-ABA (7′OH-ABA) were higher in dormant-imbibed seeds, suggesting that metabolism through this pathway is increased in seeds that maintain higher levels of ABA, perhaps as a means to further regulate ABA homeostasis.     

Glucan-phosphorylase forms in cotyledons of Pisum sativum L.: Localization,developmental change,in-vitro translation,and processing

The occurrence, location, and biosynthesis of glucan-phosphorylase (EC 2.4.1.1) isoenzymes were studied in cotyledons of developing or germinating seeds of Pisum sativum L. Type-I and type-II isoenzymes were detected, and were also localized by indirect immunofluorescence using polyclonal anti-type-I or anti-type-II phosphorylase antibodies. Type-I isoenzyme was found in the cytosol of parenchyma cells whereas the type-II enzyme form is a plastid protein which resides either in amyloplasts (in developing seeds) or in proplastids (in germinating seeds). During seed development, type-II phosphorylase was the predominant isoenzyme and the type-I isoenzyme represented a very minor compound. During germination, the latter increased whilst type-II phosphorylase remained at a constant level. In in-vitro translation experiments, type-I isoenzyme was observed as a final-size product with an apparent molecular weight of approx. 90 kDa. In contrast, type-II phosphorylase was translated as a high-molecular-weight precursor (116 kDa) which, when incubated with a stromal fraction of isolated intact pea chloroplasts, was processed to the size of the mature protein (105 kDa).Abbreviations IgG immunoglobulin G - kDa kilodalton - poly(A)⁺ RNA polyadenylated RNA - SDS-PAGE sodium dodecyl sulfate-polyacrylamide gel electrophoresis This work has been made possible by grants from the Deutsche Forschungsgemeinschaft. The authors are endebted to Mrs. Karin Niehüser for help in the immunocytochemical studies.     

Dormancy termination of western white pine (<Emphasis Type="Italic">Pinus monticola</Emphasis> Dougl. Ex D. Don) seeds is associated with changes in abscisic acid metabolism

Western white pine (Pinus monticola) seeds exhibit deep dormancy at maturity and seed populations require several months of moist chilling to reach their uppermost germination capacities. Abscisic acid (ABA) and its metabolites, phaseic acid (PA), dihydrophaseic acid (DPA), 7-hydroxy ABA (7OH ABA) and ABA-glucose ester (ABA-GE), were quantified in western white pine seeds during dormancy breakage (moist chilling) and germination using an HPLC–tandem mass spectrometry method with multiple reaction monitoring and internal standards incorporating deuterium-labeled analogs. In the seed coat, ABA and metabolite levels were high in dry seeds, but declined precipitously during the pre-moist-chilling water soak to relatively low levels thereafter. In the embryo and megagametophyte, ABA levels decreased significantly during moist chilling, coincident with an increase in the germination capacity of seeds. ABA catabolism occurred via several routes, depending on the stage and the seed tissue. Moist chilling of seeds led to increases in PA and DPA levels in both the embryo and megagametophyte. Within the embryo, 7OH ABA and ABA-GE also accumulated during moist chilling; however, 7OH ABA peaked early in germination. Changes in ABA flux, i.e. shifts in the ratio between biosynthesis and catabolism, occurred at three distinct stages during the transition from dormant seed to seedling. During moist chilling, the relative rate of ABA catabolism exceeded ABA biosynthesis. This trend became even more pronounced during germination, and germination was also accompanied by a decrease in the ABA catabolites DPA and PA, presumably as a result of their further metabolism and/or leaching/transport. The transition from germination to post-germinative growth was accompanied by a shift toward ABA biosynthesis. Dormant imbibed seeds, kept in warm moist conditions for 30 days (after an initial 13 days of soaking), maintained high ABA levels, while the amounts of PA, 7OH ABA, and DPA decreased or remained at steady-state levels. Thus, in the absence of conditions required to break dormancy there were no net changes in ABA biosynthesis and catabolism.Abbreviations ABA abscisic acid - ABA-GE abscisic acid glucose ester - DPA dihydrophaseic acid - 7OH ABA 7-hydroxy abscisic acid - 8OH ABA 8-hydroxy abscisic acid - MRM multiple reaction monitoring - PA phaseic acid     

An analysis of dorsal root ganglia differentiation using three tissue culture systems

Summary The histogenesis of the dorsal root ganglia of chick embryos (ages 3 to 9 days) was followed in three different tissue culture systems. Organotypic explants included dorsal root ganglia connected to the lumbosacral segment of the spinal cord or isolated explants of the contralateral ganglia. Additionally, dissociated monolayer cultures of ganglia tissue were established. The gradual differentiation of progenitor neuroblasts into distinct populations of large ventrolateral and small dorsomedial neurons was observed in vivo and in vitro. Neurites developed after 3 days in the presence or absence of nerve growth factor in the medium. In contrast, autoradiographic analysis indicates that [³H]thymidine incorporation in neuronal cultures differed significantly from intact embryos. In vivo, the number of neuronal progenitor cells labeled with [³H]thymidine decreased in older embryos; in vitro, uptake of [³H]thymidine label was not observed in ganglionic progenitor cells regardless of the age of the donor embryo or the type of culture system. Lack of proliferation in ganglionic progenitor cells was not due to degeneration because vital staining and uptake of [³H]deoxyglucose indicated that neurons were metabolically active. Furthermore, the block in mitotic activity in vitro was limited to presumptive ganglionic neuronal cells. In the ependyma of the spinal cord segment connected to the dorsal root ganglia, neuronal progenitor cells were heavily labeled as were non-neuronal cells within both spinal cord and ganglia. Our results suggest that in vitro conditions can promote the differentiation of sensory neurons from early embryos (E3.5–4.5) without proliferation of progenitor cells.     

Development and storage-protein synthesis in Brassica napus L. embryos in vivo and in vitro

Immature embryos of Brassica napus were cultured in vitro with and without various concentrations of germination inhibitors, and the progress of embryogeny was monitored by comparing accumulation of storage proteins in culture with the normal accumulation in seeds. The two major B. napus storage proteins (12S and 1.7S) were purified from seed extracts and analyzed by rocket immunoelectrophoresis (12S protein) or by sodium lauryl sulfate polyacrylamide gel electrophoresis (1.7S protein). During embryo development within seeds both the 12S and 1.7S proteins were first detected when the cotyledons were well developed (embryo dry weight, 0.4 mg), and each storage protein accumulated at an average rate of 26 g d^-1 during maximum deposition. Accumulation of the 1.7S protein stopped when the water content of the embryo began to decline (embryo DW, 2.7 mg), but accumulation of the 12S protein continued until seed maturity (embryo DW, 3.6 mg). At the end of embryo development the 12S and the 1.7S proteins comprised approx. 60 and 20% of the total salt-soluble protein, respectively. When embryos were removed from seeds at day 27, just as storage protein was starting to accumulate, and placed in culture on a basal medium, they precociously germinated within 3d, and incorporation of amino acids into the 12S storage protein dropped from 3% of total incorporation to less than 1%. If 10^-6 M abscisic acid (ABA) was included in the medium, amino-acid incorporation into the 12S protein increased from 3% of total incorporation when embryos were placed into culture to 18%, 5d later, and the accumulation rate (27.1±2.6 g embryo^-1 d^-1) matched the maximum rate observed in the seed. High osmotica, such as 0.29 M sucrose or mannitol, added to the basal medium, also inhibited precocious germination, but there was a lag period before 12S-protein synthesis rates equaled the rates on ABA media. These results indicate that some factor in the seed environment is necessary for storage-protein synthesis to proceed, and that ABA is a possible candidate.Abbreviations ABA abscisic acid - PAGE polyacrylamide gel electrophoresis - PMSF phenylmethylsulfonylfluoride - SDS sodium lauryl sulfate     

An interpretation of genomic balance in seed formation in interspecific hybrids of Solanum

Summary To investigate the mechanisms of seed failure in intraspecific and interspecific crosses of Solanum two diploid, S. commersonii and Group Phureja, and one tetraploid species, S. acaule, species were crossed and the seeds were analyzed for embryo and endosperm development. Many seeds of certain crosses observed seven days after pollinations were found to contain abnormal embryos and degenerating endosperms. In some cases seeds contained an embryo with no endosperm, or an endosperm with no embryo. Other interspecific crosses which were predicted to fail actually produced seeds with normally developed embryos and endosperms. To further characterize the intra- and interspecific embryos and endosperms the nuclear DNA was measured. There are several ways to explain the ploidy levels of embryos and endosperms among the crosses, the occurrence of unreduced gametes in some cases and genomic instability in other cases. The latter resulted in chromosome loss at meiotic and mitotic divisions. Genomic balance in interspecific seeds is critical to both embryo and endosperm development.Scientific Journal Series Article No. 14636 of the Minnesota Experiment Station     

Somatic embryo proliferation, maturation and germination in Catharanthus roseus

In the present study an efficient somatic embryogenesis method has been developed in Catharanthus roseus. Friable embryogenic callus was induced from hypocotyl of in vitro germinated seeds on Murashige and Skoog basal nutrient media supplemented with various auxins particularly 2,4-D (1.0 mg l⁻¹). However, only NAA (1.0 mg l⁻¹) produced somatic embryos in cultures. Embryo proliferation was even high on the same medium added with BAP. Cotyledonary somatic embryo germinated and converted into plantlets in BAP (0.5 mg l⁻¹) added medium following a treatment with gibberellic acid (1.0 mg l⁻¹) for maturation. Carbon sources and concentrations had a marked influence on maturation process. Plantlet conversion was better achieved when embryos were matured on 3% fructose or 3–6% maltose. The result discussed in this paper indicates that somatic embryos were produced in numbers and converted plantlets can be used as raw material, genetic modification to embryo precursor cell may improve alkaloid yield further.     

Partitioning of 14C-photoassimllates within seeds of Phaseolus coccineus (Lam.) and Phaseolus coccineus x Phaseolus vulgaris L.

The objective of this study was to determine partitioning within seeds of ¹⁴C-photoassimilates at three stages of seed development in two Phaseolus crosses — P. coccineus Lam. selfed, and P. coccineus x P. vulgaris L. Abortion of the interspecific embryos occurred when the seed reached 10 mm seed length. When expressed as sink strength (% dpm) or sink activity (% dmp/d.wt.) there were no differences in partitioning of ¹⁴C-photoassimilates when whole seeds were analyzed. If the seed was divided into seed coat, liquid endosperm, and embryo, the sink activity of the interspecific embryo was higher than that of the embryo in the selfed seed. Therefore, abortion of these interspecific Phaselus embryos appeared not to be caused by a lack of photoassimilates.Assistant Professor, Professors, respectively.Contribution from the Agr. Expt. Station, University of Minnesota, St. Paul, MN 55108. Paper No. 13,548, Scientific Journal Series. This research was supported in part by the Science and Education Administration of the United States Department of Agriculture under Grant 59-2271-9-2-020-0 and in part by a grant from the Minnesota Soybean Research and Promotion Council.     

Effet du stress salin sur la germination et la croissance in vitro du pistachier (Pistacia vera L.)

In order to study the salinity tolerance of pistachio (Pistacia vera L.), embryos developed from mature seeds were isolated and cultured in vitro and subjected to different NaCl concentrations (0, 42.8, 85.5, 171.1 and 256.6 mM) for 30 days. The results showed that in vitro germination of embryonic axes was not affected by the salt concentration. However, the germinated embryo survival rates decreased from 100% for the control to 62.9% for the highest salt concentration (256.6 mM).In addition, the plantlet growth (length of aerial and root parts, number of leaf produced per embryo, as well as the production of total fresh and dry matter for both aerial parts and roots) showed significant differences according the various salt concentrations. To cite this article: B. Benmahioul et al., C. R. Biologies 332 (2009).     

Comparing carbohydrate status during norway spruce seed development and somatic embryo formation

Summary The carbohydrate status of developing seeds of Picea abies was examined in order to provide a frame of reference for the evaluation of changes in carbohydrate content in maturing somatic embryos of the same species. Samples were taken at weekly intervals from 12 May 1998 (estimated time of pollination) until 20 October 1998. The total non-structural carbohydrate content was high (≈150–180 μg mg⁻¹ dry weight) at the time of the first samples and the carbohydrate spectrum consisted of sucrose, glucose, fructose, and pinitol. A dramatic decrease in carbohydrate content took place from June 6 onwards, that was accompanied by changes in carbohydrate partitioning to favor sucrose over hexoses and the disappearance of pinitol. Raffinose and stachyose were first detected on July 28, and their content gradually increased thereafter. Isolated embryos and remaining megagametophytes were analyzed starting with September 1. Carbohydrate content was higher in isolated zygotic embryo than in the rest of the seed, with a slowly increasing fraction of raffinose and stachyose. Comparisons of presented data with the results of our previous study of somatic embryo carbohydrate status (Lipavská et al., 2000) revealed the following common features: (1) a decrease in total carbohydrate content and (2) an increase in sucrose:hexose ratios in developing seeds and embryonal suspensor mass. Marked differences were observed in carbohydrate spectra: (1) somatic embryo development was not accompanied by pinitol accumulation in any phase; (2) mature zygotic embryos, in contrast to mature somatic embryos, contained raffinose and stachyose. These observations will provide a solid basis for improvement of protocols for somatic embryogenesis in Picea.     

Seed dormancy in Acer: The role of abscisic acid in the regulation of seed development in Acer platanoides L.

Germinability of isolated embryos from developing fruits of Acer platanoides was high at the earliest developmental stage assessed (90 dpa), but fell subsequently and at seed maturity was very low. These observations showed an inverse correlation with changes in endogenous free abscisic acid (ABA) levels in the embryo, which were low during early ontogeny, but reached maximum levels late in development (150–160 dpa). These observations suggest the possibility that dormancy may be induced during development as a result of ABA accumulation in the embryo, an argument strengthened by the obvious inhibitory effect of added ABA on the germinability of isolated embryos. The cotyledons appear to exert an inhibitory influence on embryo germinability that may result from their free ABA content although the embryonic axis itself possesses an innate dormancy that may reflect its own free ABA content. The increased germinability of isolated embryos resulting form added kinetin serves only to emphasise the complexity of the system and the dangers of simplistic interpretation.The correlation between germinability and ABA content is not complete, however, since much of the reduction in germinability had occurred before any appreciable increase in free ABA levels in the embryo was observed. Indeed the failure of the intact seed to respond to endogenous changes in embryonal ABA levels suggests that even though free ABA in the embryo may influence embryo germinability, it has little effect in the intact seed, where the presence of an intact testa may be a more important factor.The absence of a desiccation phase in the embryo during the late stages of development suggests that the large increases in endogenous free ABA did not cause dormancy by inhibiting water uptake, nor did they result from water stress in the embryonal tissues.     

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     

Changes in germination and respiratory potential of embryos of dormant Grand Rapids lettuce seeds during long-term imbibed storage,and related changes in the endosperm

Grand Rapids lettuce (Lactuca sativa L.) seeds were stored in an imbibed state for up to two years. Embryos dissected from stored seeds showed a progressive loss with time in their ability to germinate on polyethylene glycol (PEG) solutions. Little germination of dissected embryos from one-month imbibed seeds occurred on-6 bar PEG but only after four months of storage did the dissected embryos fail to germinate on-4 bar PEG. After two years storage 30% of dissected embryos still were able to germinate on-2 bar PEG. This loss of germination potential, which may be a symptom of the development of an embryo dormancy, could be reversed by N⁶-benzyladenine (BA) and red light (R) applied together or separately to dissected embryos. Two weeks of chilling of 12-month imbibed seeds restored sensitivity to R and a 48-h BA pretreatment prior to R resulted in germination rates similar to those of seeds emerging from primary dormancy. There was loss of embryo control of endo--mannanase activity after two weeks of storage even though the endosperms themselves retained their capacity for enzyme synthesis for six more weeks. Eventually, then, endo--mannanase synthesis is not possible because of inherent changes in both the embryo and endosperm, although each tissue undergoes changes at its own rate. Oxygen uptake by embryos dissected from two-month imbibed seeds did not increase to the same extent as embryos dissected from freshly imbibed seeds. In intact seeds germinating from a skotodormant state, oxygen uptake increased at a time coincident with radicle protrusion, but did not achieve the levels of uptake of those seeds germinating from a primary dormant state. The decline in uptake of oxygen by secondary dormant seeds is the result of a lowered respiratory capability of the embryo itself, rather than of changes in permeability of the surrounding structures.Abbreviations BA N⁶-benzyladenine - Pfr active (far-redabsorbing) form of phytochrome - R red light - PEG polyethylene glycol     

Dormancy in somatic embryos and seeds ofVitis: changes in endogenous abscisic acid during embryogeny and germination

Abscisic acid (ABA) in extracts of somatic embryos and seeds of Gloryvine (Vitis vinifera L.xV. rupestris Scheele) was measured by gas chromatography-mass spectrometry-selected ion monitoring using deuterated ABA, (±)-[C-3Me-²H₃]ABA, ([²H₃]ABA) as internal standard. The ABA content increased rapidly during embryogeny (0.035 ng/embryo at the globular stage to 0.22 ng/embryo at the mature stage). The level of ABA in the tissues of somatic embryos, expressed in ng/mg dry weight, decreased from the globular stage (0.76 ng/mg) to the mature stage (0.25 ng/mg). Chilling (4° C) induced normal germination of seeds and mature somatic embryos and precocious germination of globular, heart-shaped and torpedoshaped somatic embryos. In all cases chilling led to a marked reduction in endogenous ABA. Exogenous (±)-ABA inhibited the germination of chilled somatic embryos.Abbreviations ABA abscisic acid - [²H₃]ABA (±)-[C-3Me-²H₃]-abscisic acid - BHT 2,6-di-t-butyl-4-methylphenol - GC-MS gas chromatography-mass spectrometry - Me-ABA and Me-[²H₃]ABA methyl esters of ABA and [²H₃]ABA, respectively - SIM selected ion monitoring     

Germline transmission of exogenous genes in chickens using helper-free ecotropic avian leukosis virus-based vectors

We have used vectors derived from avian leukosis viruses to transduce exogenous genes into early somatic stem cells of chicken embryos. The ecotropic helper cell line, Isolde, was used to generate stocks of NL-B vector carrying theNeo ^r selectable marker and theEscherichia coli lacZ gene. Microinjection of the NL-B vector directly beneath unincubated chicken embryo blastoderms resulted in infection of germline stem cells. One of the 16 male birds hatched (6.25%) from the injected embryos contained vector DNA sequences in its semen. Vector sequences were transmitted to G₁ progeny at a frequency of 2.7%.Neo ^r andlacZ genes were transcribedin vitro in chicken embryo fibroblast cultures from transgenic embryos of the G₂ progeny.     

Plant regeneration via somatic embryogenesis from in vitro tissue culture in two Tunisian Cucumis melo cultivars Maazoun and Beji

Hypocotyl, cotyledon and zygotic embryo explants from two Tunisian Cucumis melo L. cultivars Beji and Maazoun, cultured on the MS medium added with 2,4-D (0.25–1 mg l⁻¹) and BA (0.10–0.50 mg l⁻¹), produce calluses with somatic embryos after 3 weeks of culture. For Beji c.v. the highest percentage (62.50%) of embryogenesis was observed for cotyledons. The average embryo number per callus was 10.40. Embryogenesis induction for zygotic embryos reached 33.50% with 29 embryos per callus. The embryogenesis ability of hypocotyls did not exceed 12.50% (2.50 embryos per callus). Somatic embryogenesis for Maazoun c.v. explants was less efficient. Embryos formation was observed only for cotyledons (29%) and zygotic embryos (25%). Cotyledonary staged embryos, when transferred to hormone free MS medium, germinated. The maximum germination rates were 51.50 and 44.50%, respectively for Maazoun and Beji c.v. The highest percentage (36.50%) of survival plants was noted for Beji c.v. Regenerants were diploids (2n = 2x = 24) and morphologically similar to their parents issued from seeds.