Use of the firefly luciferase gene in a barley (Hordeum vulgare) transformation system

Transgenic lines of the spring barley variety Golden Promise containing the firefly luciferase gene were produced by particle bombardment of immature embryos. Non-destructive analysis of luciferase gene expression was used to monitor the transformation process. This revealed that transformation efficiency, in terms of the percentage of bombarded immature embryos giving rise to transformed callus lines, was very high, up to 40%. Following the expression of the luciferase gene provided a method for the sensitive, non-destructive, real-time monitoring of gene expression throughout the transformation process. Luciferase expression could also be used to easily identify transgenic plants and to identify homozygous transgenic plants at an early stage. The production of transgenic barley by selecting for luciferase-positive material, without an additional selection system, was possible but technically difficult.     

Plant Regeneration from Protoplasts Derived from Suspension Cultures in Leymus racemosus

Calli initiated from mature embryos of Leymus racemosus (Lam. Tzvel. =L. giganteus were transferred onto the AA and DM media to produce friable embryogenic callus,from which embryogenic suspension cultures were established. Protoplasts were isolated from the embryogenic suspension cultures and were cultured either in thin-layer liquid medium or in double-layer (agar/liquid) medium. When visible calli were formed they were transferred onto the NBI agar medium or into the MBL liquid medium for further proliferation. These calli were transferred onto differentiation media of NBII and NR, where green spots were developed. Plants with both shoots and roots can be recovered from these green spots on MS Ⅱ medium containing 0.5 mg/L NAA. The results showed that the Km8p basal medium was favourable to the culture of L. racemosus protoplasts during the early stages of culture. In addition, the composition of the media added to the cultures had a marked influence on the growth of protoplasts, indicating that the nutritional requirements in this plant were different at various stages of protoplast growth and differentiation.     

基因枪介导小麦成熟胚遗传转化的影响因素

小麦成熟胚作为转化受体可克服小麦幼胚存在的受季节和幼胚发育阶段限制的缺点。以湖北省小麦品种‘鄂麦12’和模式品种‘Bobwhite’为材料,成熟胚为转化受体,优化基因枪转化法的轰击压力、轰击距离、选择剂等因素,建立以小麦成熟胚为转化受体的高效转化系统。结果表明:小麦成熟胚作为转化受体时,适宜轰击压力和轰击距离组合是900 psi、6 cm;成熟胚对选择剂G418的敏感性强于幼胚,轰击后需要延长恢复时间,选择剂G418的适合浓度为20～40 mg/L。在以上优化条件下小麦成熟胚转化频率达0.3%～0.9%,已初步建立基因枪介导的小麦成熟胚遗传转化系统。     

Specificity of expression of the GUS reporter gene (uidA) driven by the tobacco ASA2 promoter in soybean plants and tissue cultures

Twelve independent lines were transformed by particle bombardment of soybean embryogenic suspension cultures with the tobacco anthranilate synthase (ASA2) promoter driving the uidA (beta-glucuronidase, GUS) reporter gene. ASA2 appears to be expressed in a tissue culture specific manner in tobacco (Song H-S, Brotherton JE, Gonzales RA, Widholm JM. Tissue culture specific expression of a naturally occurring tobacco feedback-insensitive anthranilate synthase. Plant Physiol 1998;117:533-43). The transgenic lines also contained the hygromycin phosphotransferase (hpt) gene and were selected using hygromycin. All the selected cultures or the embryos that were induced from these cultures expressed GUS measured histochemically. However, no histochemical GUS expression could be found in leaves, stems, roots, pods and root nodules of the plants formed from the embryos and their progeny. Pollen from some of the plants and immature and mature seeds and embryogenic cultures initiated from immature cotyledons did show GUS activity. Quantitative 4-methylumbelliferyl-glucuronide (MUG) assays of the GUS activity in various tissues showed that all with observable histochemical GUS activity contained easily measurable activities and leaves and stems that showed no observable histochemical GUS staining did contain very low but measurable MUG activity above that of the untransformed control but orders of magnitude lower than the constitutive 35S-uidA controls used. Low but clearly above background levels of boiling sensitive GUS activity could be observed in the untransformed control immature seeds and embryogenic cultures using the MUG assay. Thus in soybean the ASA2 promoter drives readily observable GUS expression in tissue cultures, pollen and seeds, with only extremely low levels seen in vegetative tissues of the plants. The ASA2 driven expression seen in mature seed was, however, much lower than that seen with the constitutive 35S promoter; less than 2% in seed coats and less than 0.13% in cotyledons and embryo axes. The predominate tissue culture specific expression pattern of the ASA2 promoter may be useful for genetic transformation of crops.     

Establishment of oil palm cell suspensions and plant regeneration

Primary globular callus from immature zygotic embryos and friable embryogenic tissue derived from mature zygotic embryos were used to establish suspension cultures. Callus cultures were established either on modified Y3 or MS medium containing 475–500 M 2,4-D or 250 M picloram and 0.3% (w/v) activated charcoal. Suspension cultures of both cell lines were established in modified Y3 medium containing 10 M 2,4-D. The establishment of cell suspensions from friable embryogenic tissue took only 2 months, in contrast with suspensions from primary globular callus which took 3–5 months to establish. Embryo differentiation was observed only in cell suspensions derived from the friable embryogenic tissue after plating aliquots on regeneration medium. Germinated embryos were recovered and plantlets were successfully established under greenhouse conditions.Abbreviations CET compact embryogenic tissue - FET friable embryogenic tissue - CIM callus induction medium - PGC primary globular callus - 2,3-D 2,4-dichlorphenoxyacetic acid Y3-Eeuwens' medium - MS Murashige & Skoog medium - PVP-40 polyvinylpyrrolidone - KM Kao & Michayluk vitamins - ABA abscisic acid     

Induction and characterization of embryonic callus types for the initiation of suspension cultures of leek (Allium ampeloprasum L.)

In this paper the development and characterization of a friable, embroyonic callus culture of leek is described. This callus type was initiated on immature embryos and differed in appearance from formerly induced compact, embryogenic callus [4]. The friable callus was comprised of numerous globular embryoids, embedded in a mucilaginous substance. The genotype of the donor plant and the embryo size were important parameters in the initiation of this callus type. Embryos of 0.5–2.5 mm gave the highest frequency of friable callus production. The basal media and inclusion of -proline into the media did not influence the friable callus production. Light microscopic comparison of compact and friable callus showed striking differences. Compact callus consisted of a meristematic zone and contained vascular elements. Friable callus was less differentiated and contained aggregates of embryonic cells, separated by intercellular spaces, and somatic embryos. Ten independently induced friable callus cultures were tested for their amenability to form suspension cultures. From one of these, two highly embryonic suspension cultures were selected.     

An improved system to obtain fertile regenerants via maize protoplasts isolated from a highly embryogenic suspension culture

Summary Regenerants from a 30-month-old haploid and a 10-month-old diploid tissue culture were cross-pollinated to generate a synthetic genotype (HE/89) with improved competence for maintenance of totipotency in various cultured expiants. The HE/89 zygotic embryos developed friable, embryogenic cultures in the commonly used MS-and N6-based media without the addition of L-proline. By optimalization and changing the culture conditions, we were able to regulate the maintenance of the earlier, more synchronous (Type II) and the later, asynchronous (Type I) in vitro embryogenesis, as well as the shift between different ontogenic stages. Within 70 days after the inoculation of immature embryos a relatively homogeneous, early-embryogenic suspension culture usable for protoplast isolation was established from the initially surface-grown cultures. Using modified solutions for protoplast isolation and culture, viable protoplasts were reproducibly obtained from which plants were regenerated via defined ontogenic steps. Despite the long in vitro history of the parental genotypes, 60–70% of the more than 500 plants derived from the HE/89 protoplasts set seeds following self or sib-pollination.     

Rapid analysis of an osmotic stress responsive promoter by transient expression in intact wheat embryos

Expression of the wheat ‘Em’ genes in embryos isstrongly induced both by abscisic acid and by subjection toosmotic stress. We have examined the basis of this inductionin an homologous system by con structing fusions between thepromoter sequences of a cloned ‘Em’ gene and theGUS reporter gene. The ABA-and stress-mediated expression ofthese constructs has been assayed following delivery to intactwheat embryos by particle bombardment. Staining of bombardedembryos with the chromogenic substrate X-gluc enabled a simpleand rapid visual identification of promoter activity by scoringthe numbers of stained spots. Although not rigorously quantitative,a general correspondence between number of expression events(spots) and promoter activity could be inferred when the resultsobtained with bombarded embryos were compared with those obtainedby the fluorlmetnc measurement of GUS activity in cereal aleuroneprotoplasts transfected with the same constructs. Analysis ofa series of 5'-deletions of the ‘Em’ promoters indicatedthat the stress-responsive cis-acting regulatory elements comprisethe same sequences as those responsible for ABA-mediated geneexpression. Key words: Abscisic acid, osmotic stress, Em genes, wheat embryos, transient expression     

Plant regeneration from protoplasts isolated from friable embryogenic callus of cassava

Protoplasts were isolated from friable embryogenic callus (FEC) and from suspensions derived from FEC of cassava genotype TMS60444. Suspensions yielded the highest number of protoplasts (1.5×10⁶ protoplasts/g fresh weight). Protoplasts plated at a density of 10⁵–10⁶/ml in a medium supplemented with 0.5 mg/l α-naphthaleneacetic acid and 1 mg/l zeatin began dividing after 3 days, and after 30 days this resulted in an absolute plating efficiency as high as 2.5%. After 2 months of culture, 60% of the developed calli were highly friable and in appearance identical to the original FEC. The protoplast derived FEC was first purified through two rounds of selection of 3 weeks each before beeing cultured for regeneration of plants. This was done by culturing the protoplast-derived FEC for 11 weeks on maturation medium, yielding a maximum of 184 organized embryos per 10.000 initially cultured protoplasts. Most of the organized embryos were torpedo shaped and matured after they had been isolated from the calli and transferred to fresh medium. Mature embryos were multiplied by secondary somatic embryogenesis at high efficiency (>90%) on a medium supplemented with 8 mg/l 2,4-dichlorophenoxyacetic acid. About 30% of the mature secondary somatic embryos developed into shoots after transfer to a medium supplemented with 1 mg/l N⁶-benzylaminopurine (BAP). Shoots rooted readily on a medium without BAP. Received: 30 August 1996 / Revision received: 9 June 1997 / Accepted: 1 October 1997     

Fertile transgenic Brachiaria ruziziensis (ruzigrass) plants by particle bombardment of tetraploidized callus

We have produced transgenic plants of the tropical forage crop Brachiaria ruziziensis (ruzigrass) by particle bombardment-mediated transformation of multiple-shoot clumps and embryogenic calli. Cultures of multiple-shoot clumps and embryogenic calli were induced on solidified MS medium supplemented with 0.5mg/L 2,4-dichlorophenoxyacetic acid (2,4-D) and 2mg/L 6-benzylaminopurine (BAP) or 4mg/L 2,4-D and 0.2mg/L BAP, respectively. Both cultures were bombarded with a vector containing an herbicide resistance gene (bar) as a selectable marker and the β-glucuronidase (GUS) reporter gene. Sixteen hours after bombardment, embryogenic calli showed a significantly higher number of transient GUS expression spots per plate and callus than multiple-shoot clumps, suggesting that embryogenic callus is the more suitable target tissue. Following bombardment and selection with 10mg/L bialaphos, herbicide-resistant embryogenic calli regenerated shoots and roots in vitro, and mature transgenic plants have been raised in the greenhouse. Polymerase chain reaction (PCR) and DNA gel blot analysis verified that the GUS gene was integrated into the genome of the two regenerated lines. In SacI digests, the two transgenic lines showed two or five copies of GUS gene fragments, respectively, and integration at different sites. Histochemical analysis revealed stable expression in roots, shoots and inflorescences. Transgenic plants derived from diploid target callus turned out to be sterile, while transgenics from colchicine-tetraploidized callus were fertile.     

High Frequency of Plant Production via Somatic Embryogenesis from Callus or Cell Suspension Cultures inEleutherococcus senticosus

Hypocotyl segments ofEleutherococcus senticosuscultured on Murashigeand Skoog's (MS) medium with 4.5 µM2,4-D produced somaticembryos directly from the surface of explants without interveningcallus formation. When these somatic embryos were subculturedto the same MS medium with 4.5 µM2,4-D, friable embryogeniccalli were formed mainly from radicle tips of somatic embryos,but at a low frequency (5%). Selected embryogenic calli weremaintained on MS agar or liquid medium with 4.5 µM2,4-D.To induce somatic embryo development, embryogenic calli andcell clumps were transferred to MS medium lacking 2,4-D. Thefrequency of somatic embryo formation differed between culturetypes with 1570 embryos formed per Petri dish from callus cultureand 5514 embryos formed per flask from cell suspension cultures.Somatic embryos formed on agar medium had larger cotyledonsthan those of embryos formed in liquid medium. GA₃treatmentwas necessary to induce germination from somatic embryos. Therate of plant conversion was 97% in somatic embryos from callusculture and 76% in embryos from liquid culture. Regeneratedplantlets were successfully acclimatized in the glasshouse.Copyright1999 Annals of Botany Company Eleutherococcus senticosus, micro propagation, somatic embryogenesis.     

Callus formation and plant regeneration from immature and mature embryos of rye (Secale cereale L.)

Summary An efficient protocol was developed to regenerate entire plants from immature embryos of elite genotypes of rye as a prerequisite to plant transformation. Three winter genotypes and one spring genotype were tested using both immature and mature embryos as explants. Four types of callus initiation media and five kinds of regeneration media were tested in all possible combinations. Immature embryos gave much higher levels of plant regeneration than mature embryos, but mature embryos could be induced to regenerate plants for all genotypes and media tested, although at low levels. A minimum stage of embryo development must be reached before embryos can be cultured successfully. Genotypic effects were less pronounced than those reported for inbred cereal species such as wheat and barley, but there was an effect of genotype on percentage of callus formation. There was a significant interaction between genotype and initiation media. Composition of the initiation media affected both the percentage of callus formation from embryos and subsequent frequencies of plant regeneration. Composition of the regeneration media had no effect on level of plant regeneration. Immature embryos of all genotypes tested could be induced to produce 90–100% callus on appropriate initiation media and all regenerated shoots from approximately one-half to three-quarters of the calluses produced.     

Efficient production of transgenic Alstroemeria plants by using Agrobacterium tumefaciens

A highly efficient and reproducible protocol was developed to obtain transgenic Alstroemeria plants by combining Agrobacterium tumefaciens with friable embryogenic callus (FEC). To develop this transformation method, factors such as infection time, cocultivation period, effect of acetosyringone (AS), different dilution concentrations of the bacterium and temperature during cocultivation were evaluated. A protocol was developed in which transient GUS expression activity was observed ranging from 25% to 55% out of the cocultivated FEC cultures, when FEC cultures were infected for 30 min with 50 μM AS, 1:10 dilution of bacteria, and then cocultivated at 24°C in the dark for 7 days with Agrobacterium strain LBA4404 (pTOK233) that carried gus, nptII and hpt genes. Seven independent experiments produced a total of 1300 transformed somatic embryos with shoots from 3.5 g of FEC. Of these germinated embryos, 50% developed into plants in vitro. Thus, on average, 500 mg of FEC infected with A. tumefaciens produced approximately 80–100 transgenic plants within 6–8 months via a selection process with 2.5–20 mg L^?1 hygromycin. Additionally, transformation was also performed with Agrobacterium strain AGL1 (containing the uidA and ppt genes), and this showed that luciferase‐based selection was less detrimental to the transgenic lines than was herbicide‐based selection. The transformation efficiency was 18.6% for the luciferase‐based selection and 7.6% for the PPT‐based selection, although with luciferase‐based selection, more false positives were obtained (about a quarter of the lines were escapes). The nptII and uidA genes were detected by polymerase chain reaction analysis in nine of the 19 tested lines. The results indicate that the system developed here can be used as an alternative to particle bombardment of Alstroemeria.     

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     

Improved somatic embryogenesis of grapevine (<Emphasis Type="Italic">Vitis vinifera</Emphasis>) with focus on induction parameters and efficient plant regeneration

A study of four parameters (induction medium, floral explant, developmental stage and year) was carried out to determine the best combination for the embryogenesis induction of eight grapevine (Vitis vinifera L.) cultivars. Anthers and ovaries were extracted from flower buds at three developmental phases and incubated in two induction media over two consecutive years. As average, the percentage of embryogenesis on Nitsch and Nitsch-derived medium (9.1%) was higher than in Murashige and Skoog-derived medium (5.9%) and embryogenesis from ovaries (10.1%) was 2-fold higher than from anthers (4.9%). Earlier flower developmental stages (II–III) favored embryogenic induction from anthers, while later stages (III–V) did it from ovaries. Induction of embryogenic cultures was genotype dependent. Two years after the establishment of the embryogenic lines, an average of 48.0% of the pro-embryogenic masses were viable and suitable to initiate cell suspensions. Embryogenic cultures of four genotypes showed a high percentage of conversion from embryos to plants: Albariño (61.8%), Garnacha (48.8%), Tempanillo (71.0%) and Sultanina (69.0%). Moreover, cell suspensions were competent for transient transformation based on β-glucuronidase assay, as up to 6,387 blue spots per Petri plate after Biolistic bombardment were obtained. Here, we present the advantage of ovaries over anthers for the embryogenesis induction of several grapevine cultivars. This is the first report of embryogenesis from the cultivars Albariño, Verdejo and Muscat Hamburg as well as transient transformation of Albariño and Tempranillo.     

Histological comparison of single somatic embryos of maize from suspension culture with somatic embryos attached to callus cells

An embryogenic suspension culture of Zea mays, genotype 4C1, was obtained from friable callus that was cultured on solid medium and had been obtained from zygotic embryos. The suspension contained non-dividing elongated cells, clusters of dividing isodiametric cells, and globular, ovoid, and polar stages of somatic embryos. The single somatic embryos were blocked in shoot meristem formation: when transferred to regeneration medium they developed a root and, at the shoot side, a green cap with meristematic cells, but a scutellum and leaf primordia were not formed. In medium containing 2,4-dichlorophenoxy acetic acid, somatic embryos formed embryogenic callus aggregates, consisting of globular stage somatic embryos attached to each other via undifferentiated callus cells. These somatic embryos developed into mature embryos with the zygotic histological characteristics, such as scutellum and leaf primordia, in maturation medium, and then regenerated into plants in regeneration medium. By omitting the maturation phase, regeneration occurred via organogenesis. Polyembryos, i. e. embryos attached to each other without callus tissue in between, behaved as single somatic embryos. It is concluded that the attached callus tissue provides a factor that stimulates scutellum and leaf primordia formation.Abbreviations CMM callus maintenance medium - 2,4D 2,4-dichlorophenoxy acetic acid - PCV packed cell volume - MS Murashige and Skoog medium     

Transformation of elite white maize using the particle inflow gun and detailed analysis of a low-copy integration event

Elite white maize lines W506 and M37W were transformed with a selectable marker gene (bar) and a reporter gene (uidA) or the polygalacturonase-inhibiting protein (pgip) gene after bombardment of cultured immature zygotic embryos using the particle inflow gun. Successful transformation with this device did not require a narrow range of parameters, since transformants were obtained from a wide range of treatments, namely pre-culture of the embryos for 4-6 days, bombardment at helium pressures of 700-900 kPa, selection-free culture for 2-4 days after bombardment and selection on medium containing bialaphos at 0.5-2 mg l^-1. However, bombardments with helium pressures below 700 kPa yielded no transformants. The culture of immature zygotic embryos of selected elite white maize lines on medium containing 2 mg l^-1 2,4-dichlorophenoxyacetic acid and 20 mM L-proline proved to be most successful for the production of regenerable embryogenic calli and for the selection of putative transgenic calli on bialaphos-containing medium after transformation. Transgenic plants were obtained from four independent transformation events as confirmed by Southern blot analysis. Transmission of the bar and uidA genes to the T₄ progeny of one of these transformation events was demonstrated by Southern blot analysis and by transgene expression. In this event, the transgenes bar and uidA were inserted in tandem.     

Calluses initiated from thin mature embryo fragments are suitable targets for wheat transformation as assessed by long-term GUS expression studies

Microprojectile- or Agrobacterium-mediated DNA delivery into calluses initiated from immature embryos has proven to be effective in transforming wheat. Yet, obtaining a large number of high quality immature embryos throughout the year is a laborious and delicate process. To circumvent these limitations, we propose an alternative technique applying the particle bombardment technology to calluses derived from fragmented mature embryos rather than immature tissues. The phosphinothricin acetyl transferase (bar) and -glucuronidase (gus) genes were used as selectable and screenable marker genes, respectively, to assess and optimise the performance of the proposed technique. Primary requirement for genetic transformation method development, the regeneration capacity of bombarded calluses was established. A preculture duration of 6 days was identified as optimal for DNA uptake and -glucuronidase (GUS) expression. The highest activity was recorded when calluses were selected. Long-term GUS expression studies (1–7weeks subsequent to bombardment), showed differentiated behaviours for tissues obtained from mature versus immature embryos. Notably, mature embryos exhibited the greatest number of cells stably expressing the reporter gene, thus providing an excellent source material for developing a stable transformation procedure.     

Characterization and regeneration of wheat (Triticum aestivum L.) embryogenic cell suspension cultures

Summary Stable cell suspension cultures were established from two types of calli (one compact, nodular and embryogenic, the other friable and embryogenic) derived from cultured immature embryos of wheat (cv FLA302). Only aged calli, which had been subcultured for at least 5–8 months, formed suspensions comprised mainly of groups of small, round, densely cytoplasmic, starch-containing cells. Only the embryogenic suspension derived from the aged, compact and nodular callus formed distinct somatic embryos when plated on regeneration media containing IAA and zeatin. Upon subsequent transfer to fresh regeneration medium more than 200 green rooted plants were obtained.Abbreviations 6-BA 6-benzylaminopurine - CH casein hydrolysate - 2,4-D 2,4-dichlorophenoxyacetic acid - GA₃ gibberellic acid - IAA indole-3-acetic acid - IBA indole-3-butyric acid - MS Murashige and Skoog (1962) basal medium - NAA naphthaleneacetic acid - PCV packed cell volume