Pollen-mediated transgene flow in the wind-pollinated grass species tall fescue (Festuca arundinacea Schreb.)

Information regarding gene flow in wind-pollinated, outcrossing forage grasses is essential for any future releases of value-added transgenic cultivars. Experiments on pollen dispersal was carried out by growing transgenic tall fescue (Festuca arundinacea) in a central plot, surrounded by exclosures containing recipient plants up to a distance of 200 m from the central source plants in eight directions. The central transgenic tall fescue plants carried a chimeric hygromycin phosphotransferase gene (hph) and a chimeric -glucuronidase gene (gusA). Seeds were collected from the recipient plants and germinated seedlings were used for high throughput DNA isolation and polymerase chain reaction (PCR) analysis. More than 21,000 seedlings were PCR analyzed for the experiments conducted in three years. Transgenes were detected in recipient plants at up to 150 m from the central transgenic plot. The highest transgene frequencies, 5% at 50 m, 4.12% at 100 m and 0.96% at 150 m, were observed north of the central plot, the prevailing wind direction. Lower transgene frequencies were detected in other directions, particularly at 100 m and 150 m distances. No transgene was detected at 200 m distance in any direction. Transgene flow was less effective or ineffective when recipient plants were further away from the central donor plants. Southern blot hybridization analysis confirmed the transgenic nature of the PCR positive plants. A supplementary experiment demonstrated that transgene flow can be controlled by placing transgenic plantings downwind and long distances from non-transgenic seed increases, thus allowing tall fescue breeding and transgene development programs to be conducted concurrently at the same research station.     

Transformation of Liquidambar styraciflua using Agrobacterium tumefaciens

Summary We describe the molecular transformation of Liquidambar styraciflua using Agrobacterium tumefaciens. A binary TI-plasmid vector containing a chimeric neomycin phosphotransferagene which confers resistance to kanamycin and either a chimeric Bacillus thuringiensis toxin gene, a chimeric E. coli -glucuronida(GUS), or a chimeric tobacco anionic peroxidase gene was introduced into sweetgum by co-cultivation with Agrobacterium tumefaciens. Sweetgum shoots regenerated in the presence of kanamycin were confirmed to be transformed by genomic DNA blots or the presence of GUS activity. The optimization of the transformation protocol and the incorporation of molecular transformation into a rapid germplasm improvement protocol are discussed.     

Cloning and characterization of the rice CatA catalase gene, a homologue of the maize Cat3 gene

We isolated and sequenced a genomic clone (CatA) encoding CAT-A catalase, a homologue of the maize catalase isozyme 3 (CAT-3) from rice (Oryza sativa L.). The 5-upstream non-coding region had very low similarity with the maize Cat3 gene and possible cis elements and sequence motifs in the maize Cat3 gene were not evident, except for TATA and CAAT motifs. Several sequence motifs found in the promoters of plant seed-specific genes were identified in the 5-upstream non-coding region of the CatA gene. Northern blotting showed that the CatA gene is expressed at high levels in seeds during early development and also in young seedlings. Methyl viologen (paraquat) resulted in the 3-fold induction of the CatA gene in the leaves of young seedlings, whereas abscisic acid, wounding, salicylic acid, and hydrogen peroxide had no or only slight effects.The 1.9 kb 5-upstream fragment (–1559 to +342) of the CatA gene was fused with the Escherichia coli -glucuronidase (GUS) gene and introduced by electroporation into protoplasts prepared from rice suspension-cultured cells, then the transient expression of the GUS gene was examined. Deletion analysis of this chimeric gene suggested that a weak silencer is located in the region between –1564 to –699. Abscisic acid (ABA) at a final concentration of 10^–6 M doubled GUS activity in protoplasts electroporated with the chimeric DNAs having 1.9 to 1.2 kb 5-upstream regions. A sequence highly similar to the Sph box, a motif found in genes modulated by ABA, was found at –266 to –254. Deletion of this region however, did not eliminate the responsiveness to ABA. Expression of the chimeric gene in the protoplasts was not enhanced by stress such as low and high temperature, hydrogen peroxide, methyl viologen, salicylic acid, elicitor, and UV light.The chimeric CatA-GUS plasmid DNAs amplified in the methylation-positive strain, E. coli DH5, showed GUS gene activities, whereas all the chimeric DNAs amplified in the methylation-deficient E. coli JM 110 were completely inactive in the presence or absence of ABA in the culture medium. DNA methylation, especially of either one or both of the deoxyadenosines at the two GATC motifs (one in the first exon and the other in the first intron of the rice CatA gene), appeared to be responsible for the CatA promoter activity identified in the transient assay.author for corresondenceThe nucleotide sequence data reported will appear in the DDBJ EMBL and GenBank Nucleotide Sequence Databases under the accession number D29966.     

Inactivation of the nopaline synthase gene by double transformation: reactivation by segregation of the induced DNA

Tobacco plants were transformed with derivatives of a binary vector pMON505 and two kanamycin resistant lines that were nopaline positive were selected for second transformation. The plasmids used for the second transformation were derivatives of pMON850 which carries the nopaline synthase gene in addition to a gene for gentamicin resistance. Insertion of each transgene was confirmed by Southern hybridization. Surprisingly, we found that more than 50% of the doubly transformed tobacco plants were nopaline negative. Tobacco plants that were transformed only by the second vector exhibited nopaline accumulation. DNA methylation patterns at the HpaII site in the promoter region of the nopaline synthase gene did not correlate with the nopaline phenotype. In some plant lines, seedlings of the R1 generation which segregated out the second T-DNA insertion recovered the nop⁺ phenotype. These results indicate that nopaline accumulation was inhibited by the presence of the second T-DNA.Abbreviations T-DNA transferred DNA - NPTII neomycin phosphotransferase II - uidA -glucuronidase - Km kanamycin - Gm gentamicin - nop⁺ nopaline positive - nop^– nopaline negative - MS medium, Murashige-Skoog medium     

Germ line transmission and expression of alacZ containing transgene in tilapia (Oreochromis niloticus)

Transgenic tilapia were produced using a carp -actinlacZ gene construct and the transmission of the transgene to F₁ progeny was followed. Of 36 founder fish analysed, 9 (25%) were found to be transgenic in at least one tissue and two of these were found to transmit the transgene to progeny. One male produced only three out of 28 transgene DNA positive progeny (10.7%) but none of these were found to express the transgene. The other male produced 243 out of 1601 (15.2%)lacZ expressing embryos; 40 of these were analysed by Southern blotting and all were found to be positive for the presence of the transgene but revealed two different patterns of transgene arrangement. Three different expression patterns were also observed and presumed to be a result of multiple integration events and resulting position effects.     

High-level salivary gland expression in transgenic mice

A 7.1 kb mini-gene construct containing cloned DNA from the murine parotid secretory protein (PSP) gene with 6.2 kb of the promoter, has previously been shown to direct specific mRNA expression to the salivary glands in transgenic mice. However, the level of transgene expression in the parotid gland was only a few percent of the endogenous level. This indicated that elements necessary for high-level expression are still to be found. In this study, we have searched for such regulatory elements in additional flanking regions by using a 25 kb clonedPsp ^b fragment containing the complete structural gene, 11.4 kb of 5-flanking sequence, and 2.5 kb 3-flanking sequence as a transgene. To distinguish the expression of the transgene from that of the endogenous gene, we took advantage of an allelic difference, using an oligonucleotide that recognized the mRNA fromPsp ^b and the transgene but not that from the other allele,Psp ^a . The expression of the transgene was examined in animals homozygous forPsp ^a . Three independent integrations all exhibited a level of parotid-gland-specific expression that corresponded to that of the endogenous gene. Thus, sequences responsible for this high-level PSP mRNA expression are situated within the genomic DNA of the transgene.     

Stable yeast transformation with chimeric plasmids using a 2 micron-circular DNA-less strain as a recipient.

Summary By using two chimeric plasmids containing yeast URA3 gene as a selection marker and 2 m yeast DNA linked to the bacterial plasmid pCR1, a yeast strain devoid of any 2 m DNA sequence was transformed. Recovery in E. coli of plasmids from yeast transformants showed that the 2 m-less strain was able to maintain the chimeric plasmids as autonomous replicons, with very infrequent plasmid recombination. Hybridization experiments gave no evidence for integration of the URA3 DNA sequence in the chromosomal DNA. The transformed clones showed a high stability of the ura⁺ character during vegetative multiplication, even in the absence of selective pressure. The specific activity of orotidine 5 monophosphate decarboxylase (coded by the URA3 gene) was 5 to 10 fold higher than in the wild type.These features should offer new possibilities for cloning with yeast.     

Agrobacterium-mediated transformation of commercial melon (Cucumis melo L., cv. Amarillo Oro)

Cotyledon explants of muskmelon (Cucumis melo L., cv. Amarillo Oro) seedlings were co-cultivated with disarmed Agrobacterium tumefaciens strain LBA4404 that contained the binary vector plasmid pBI121.1. The T-DNA region of this binary vector contains the Nopaline synthase/neomycin phosphotransferase II (NPTII) chimeric gene for kanamycin resistance and the Cauliflower Mosaic Virus 35S/-glucuronidase (GUS) chimeric gene. After infection, the cotyledon pieces were placed in induction medium containing 100 mg/l kanamycin. Putative transformed shoots were obtained, followed by the development of morphologically normal plantlets. The transgenic nature of regenerants was demonstrated by polymerase chain reaction, Southern blot analysis, plant growth on medium selective for the transgene (NPTII) and expression of the co-transformed GUS gene. Factors affecting the transformation procedure are discussed.Abbreviations CaMV Cauliflower Mosaic Virus - Cf Cefotaxime - GUS -glucuronidase - Km Kanamycin - MS Murashige and Skoog - NOS nopaline synthase - NPTII neomycin phosphotransferase II - PCR polymerase chain reaction     

Overproduction of recombinant laccase using a homologous expression system in <Emphasis Type="Italic">Coriolus versicolor</Emphasis>

One of the major extracellular enzymes of the white-rot fungus Coriolus versicolor is laccase, which is involved in the degradation of lignin. We constructed a homologous system for the expression of a gene for laccase III (cvl3) in C. versicolor, using a chimeric laccase gene driven by the promoter of a gene for glyceraldehyde-3-phosphate dehydrogenase (gpd) from this fungus. We transformed C. versicolor successfully by introducing both a gene for hygromycin B phosphotransferase (hph) and the chimeric laccase gene. In three independent experiments, we recovered 47 hygromycin-resistant transformants at a transformation frequency of 13 transformants g^–1 of plasmid DNA. We confirmed the introduction of the chimeric laccase gene into the mycelia of transformants by a polymerase chain reaction in nine randomly selected transformants. Overproduction of extracellular laccase by the transformants was revealed by a colorimetric assay for laccase activity. We examined the transformant (T2) that had the highest laccase activity and found that its activity was significantly higher than that of the wild type, particularly in the presence of copper (II). Our transformation system should contribute to the efficient production of the extracellular proteins of C. versicolor for the accelerated degradation of lignin and aromatic pollutants.     

The effect of MAR elements on variation in spatial and temporal regulation of transgene expression

The level of transgene expression often differs among independent transformants. This is generally ascribed to different integration sites of the transgene into the plant genome in each independently obtained transformant (position effect). It has been shown that in tobacco transformants expressing, for example, a cauliflower mosaic virus (CaMV) 35S promoter-driven -glucuronidase (GUS) reporter gene, these position-induced quantitative differences among individual transformants were reduced by the introduction of matrix-associated regions (MAR elements) on the T-DNA. We have previously shown by imaging of in planta firefly luciferase (luc) reporter gene activity that quantitative differences in transgene activity can be the result of either a variation in (1) level, (2) spatial distribution and/or (3) temporal regulation of transgene expression between independent transformants. It is not known which of these three different aspects of transgene expression is affected when the transgene is flanked by MAR elements. Here we have used the firefly luciferase reporter system to analyse the influence of MAR elements on the activity of a CaMV 35S-luc transgene in a population of independently transformed tobacco plants. Imaging of in planta LUC activity in these tobacco plant populations showed that the presence of MAR elements does not result in less variation in the average level of transgene expression between individual transformants. This result is different from that obtained previously with a 35S-GUS reporter gene flanked by MAR elements and reflects the differences in the stability of the LUC and GUS reporter proteins. Also the variation in spatial patterns of in vivo LUC activity is not reduced between independent transformants when the transgene is flanked by MAR elements. However, MAR elements do seem to affect the variation in temporal regulation of transgene expression between individual transformants. The potential effects of MAR elements on the variability of transgene expression and the relation to the stability of the (trans)gene product are discussed.     

High intensity and blue light regulated expression of chimeric chalcone synthase genes in transgenic Arabidopsis thaliana plants

Summary To establish a genetic system for dissection of light-mediated signal transduction in plants, we analyzed the light wavelengths and promoter sequences responsible for the light-induced expression of the Arabidopsis thaliana chalcone synthase (CHS) promoter fused to the -glucuronidase (GUS) marker gene. Transgenic A. thaliana lines carrying 1975, 523, 186, and 17 by of the CHS promoter fused to the GUS gene were generated, and the expression of these chimeric genes was monitored in response to high intensity light in mature plants and to different wavelengths of light in seedlings. Fusion constructs containing 1975 and 523 by of CHS promoter sequence behaved identically to the endogenous CHS gene under all conditions. Expression of these constructs was induced specifically in response to high intensity white light and blue light. The response to blue light was seen in the presence of the P_fr form of phytochrome. Fusion constructs containing 186 by of promoter sequence showed reduced basal levels of expression and only weak stimulation by blue light but were induced significantly by high intensity white light. These analyses showed that the expression of the A. thaliana CHS gene is responsive to a specific blue light receptor and that sequences between — 523 and — 186 by are required for optimal basal and blue light-induced expression of this gene. The experiments lay the foundation for a simple genetic screen for light response mutants.     

Rare instances of Cre-mediated deletion product maintained in transgenic wheat

Previously, we described a Cre-lox based strategy to convert a complex multi-copy integration pattern to a single-copy transgene (Srivastava et al., 1999). When a lox-containing transgenic line of wheat was crossed with a cre-expressing line, extra copies of the transgene were deleted by site-specific recombination. This process included the removal of a lox-flanked selection marker gene, bar. Three out of six F₁ plants were chimeric for the resolved and the complex loci because both completely resolved and incompletely resolved patterns were found in the F₂ population. From one F₁ plant, 4 out of 20 F₂ progeny showed not only incomplete resolution of the complex integration pattern, but also the presence of a circular loxP-bar-nos3 fragment, which we refer to as the bar circle. This bar circle was detected in subsequent generations, and was associated with the presence of both the lox transgene and the cre locus. We hypothesize that the cre gene in these bar circle plants must have undergone a genetic or epigenetic change that altered the spatial and/or temporal pattern of cre expression. Late expression might excise the DNA incompletely, and late in development. What is surprising is that the DNA is not degraded, but remains in the cells as an extra-chromosomal circular molecule.     

Rapid in planta evaluation of root expressed transgenes in chimeric soybean plants

Production of stable transgenic plants is one factor that limits rapid evaluation of tissue specific transgene expression. To hasten the assessment of transgenes in planta, we evaluated the use of chimeric soybean seedlings expressing transgenic products in roots. Tap roots from four-day old seedlings (cultivars ‘Jack’ and KS4704) were excised and hairy roots were induced from hypocotyls via Agrobacterium rhizogenes-mediated transformation. Inoculated hypocotyls were screened on a MS-based medium containing either 200 mg/L kanamycin or 20 mg/L hygromycin. Beta-glucuronidase (GUS) activity assay indicated that highest GUS expression was observed in hypocotyls exposed to a 4-d pre-inoculation time, a neutral pH (7.0) for the co-cultivation medium. A 170-bp of the Fib-1 gene and 292-bp of the Y25C1A.5 gene fragments, both related to nematode reproduction and fitness, were cloned independently into pANDA35HK vector using a Gateway cloning strategy. The resulting RNAi constructs of the genes fragments were transformed into soybean using the chimeric hairy root system and evaluated for its effect on soybean cyst nematode (Heterodera glycines) fecundity. Confirmation of transformation was attained by polymerase chain reaction and Southern-blot analysis, and some potential for suppression of H. glycines reproduction was detected for the two constructs. This method takes on average four weeks to produce chimeric plants ready for transgene analysis.     

Directed excision of a transgene from the plant genome

Summary The effectiveness of loxP-Cre directed excision of a transgene was examined using phenotypic and molecular analyses. Two methods of combining the elements of this system, re-transformation and cross pollination, were found to produce different degrees of excision in the resulting plants. Two linked traits, -glucuronidase (GUS) and a gene encoding sulfonylurea-resistant acetolactate synthase (ALS^r), were integrated into the genome of tobacco and Arabidopsis. The ALS^r gene, bounded by loxP sites, was used as the selectable marker for transformation. The directed loss of the ALS^T gene through Cre-mediated excision was demonstrated by the loss of resistance to sulfonylurea herbicides and by Southern blot analysis. The -glucuronidase gene remained active. The excision efficiency varied in F₁ progeny of different lox and Cre parents and was correlated with the Cre parent. Many of the lox × Cre F₁ progeny were chimeric and some F₂ progeny retained resistance to sulfonylureas. Re-transformation of lox/ALS/lox/GUS tobacco plants with cre led to much higher efficiency of excision. Lines of tobacco transformants carrying the GUS gene but producing only sulfonylurea-sensitive progeny were obtained using both approaches for introducing cre. Similarly, Arabidopsis lines with GUS activity but no sulfonylurea resistance were generated using cross pollinations.     

Cytoplasmic actin A3 gene promoter injected as supercoiled plasmid is transiently active inBombyx mori embryonic vitellophages

Summary Freshly deposited eggs ofBombyx mori were microinjected with supercoiled plasmid DNA which carried the -galactosidase coding sequence ofEscherichia coli inserted in place of the coding sequence of theB. mori cytoplasmic actin A3 gene. Transient expression of this fusion gene in the embryo was determined by in situ histochemical detection of enzyme activity. After injection of the plasmid at different stages of embryonic development, -galactosidase activity depending on the injected DNA was only detected in the vitellophages. This indicates the presence of active transactivators of the actin A3 gene promoter in this cell type. Tissue specificity of the fusion gene expression could be related to the early polyploidization of vitellophages, a process which would favour the stability of the nuclear pool of injected plasmids. The activity of the transgene in vitellophages was detectable at 24–33 h of egg development, the stage presumed for the onset of zygotic gene expression, up to the end of embryogenesis. This gene transfer system is thus promising to analyse thecis regulatory sequences of the actin A3 gene and could be utilized for other ubiquitous genes. Correspondence to: M. Coulon-Bublex     

Characterization of a rice gene family encoding root-specific proteins

Two cDNA clones (RCc2 and RCc3) corresponding to mRNAs highly expressed only in root tissues of rice (Oryza sativa L.) seedlings were characterized. Respectively, they encode polypeptides of 146 (14.5 kDa) and 133 amino acids (13.4 kDa) that share high (<70%) sequence similarity with a polypeptide encoded by a cDNA (ZRP3) encoding an mRNA preferentially expressed in young maize roots. Genomic DNA blot analysis revealed that they are members of a small gene family and RCg2, the gene corresponding to RCc2, was isolated. A 1656 bp 5-upstream sequence of RCg2 was translationally fused to a -glucuronidase (GUS) reporter gene and stable introduction of the chimeric construct into rice was confirmed by PCR and genomic DNA blot analyses. Histochemical analysis of transgenic rice plants containing the full-length chimeric gene showed high levels of GUS activity in mature cells and the elongation and maturation zones of primary and secondary roots, and in the root caps, but no GUS activity was detected in root meristematic regions. Surprisingly, high GUS activity was also detected in leaves of the same plants. This raises the possibility that the RCg2 5-upstream element may not be sufficient for the proper spatial control of root specificity in transgenic rice.     

Developmental regulation of expression of the malate synthase gene in transgenic plants

The cucumber malate synthase (MS) gene, including 1856 bp of 5 non-trnascribed sequence, has been transferred into Petunia (Mitchell) and Nicotiana plumbaginifolia plants using an Agrobacterium binary vector. The transferred gene is found in variable copy number in different transformants, and is stably transmitted in each case as a single Mendelian character. Transgene mRNA accumulates in the seedling during the first three days of germination, then declines in amount as the cotyledons emerge from the seed. The decline is more pronounced in light-grown seedlings than in dark-grown seedlings. Expression of the MS transgene is also detected at a low level in petals of transformed Petunia plants. In these respects the pattern of MS gene expression is similar in cucumber and in trnasformed plants, showing that the transferred DNA fragment contains a functional MS gene. A 1076 bp fragment of 5 sequence was linked to the -glucuronidase reporter gene and transferred into Nicotiana, where it was shown to direct temporal and spatial patterns of expression similar to that of the complete MS gene. However, histochemical localisation of -glucuronidase activity demonstrated that the chimaeric gene is expressed not only in cotyledons of transgenic plants, but also in endosperm and some hypocotyl cells during early germination. The relevance of these findings to the control of malate synthase gene expression is discussed.     

Linear transgene constructs lacking vector backbone sequences generate transgenic rice plants which accumulate higher levels of proteins conferring insect resistance

Biolistic transformation was used to introduce genes encoding the insecticidal proteins snowdrop lectin (Galanthus nivalis agglutinin; GNA) and cry1Ac Bt toxin (-endotoxin from Bacillus thuringiensis) into elite rice (Oryza sativa) cultivars. Plant transformation was carried out in parallel experiments simultaneously by using either whole plasmids containing suitable gene constructs, or the corresponding minimal gene cassettes, which were linear DNA fragments lacking vector sequences excised from the plasmids. Both transformation methods generated similar numbers of independent transformation events. Selected R₀ clonal plant lines were further characterised for presence and expression of transgenes. Co-transformation of the unselected genes (cry1Ac and gna) with the selectable marker (hpt) was at least as efficient for transformation with minimal gene cassettes as with whole plasmid DNA, and higher levels of accumulation of the insecticidal gene products GNA and cry1Ac were observed in plants resulting from minimal gene cassette transformation. Insect bioassays with major pests of rice showed that transgenic plants expressing gna showed enhanced resistance to brown planthopper (Nilaparvata lugens), and plants expressing cry1Ac were protected against attack by striped stem borer (Chilo suppressalis). Expression of both transgenes gave protection against both pests, but did not increase protection against either pest significantly over the levels observed in plants containing a single insecticidal transgene.     

Induced expression of a chimeric gene construct in transgenic lettuce plants using tobacco pathogenesis-related protein gene promoter region

The expression of a stress- and salicylic acidinducible protein gene from tobacco, PR1a protein gene, was determined after its Introduction to lettuce (Lactuca sativa L.) plants. The 5 flanking 2.4 Kb fragment from PR1a gene was joined to the bacterial -glucuronidase (GUS) gene (PR-GUS) and introduced into lettuce cotyledons by Agrobacterium-mediated gene transfer using a binary vector containing a kanamycin-resistance gene as a selectable marker. As a control with constitutive expression, the chimeric gene consisting of CaMV 35S RNA promoter and GUS gene (35S-GUS) was used. An improved method for shoot formation directly from lettuce cotyledons was used effectively for transformation, shortening the time for regeneration. In 70% or more of kanamycin-resistant regenerated lettuce plants, into which PR-GUS or 35S-GUS was introduced, high GUS activity and integration of the chimeric gene into the lettuce genome were detected. By treatment with salicylic acid, GUS activity increased 3- to 50-fold in PR-GUS transformants, however, no increase was detected in 35S-GUS plants. These results showed that the promoter of the stress-inducible tobacco PR1a protein gene was introduced into lettuce plants, and the introduced chimeric gene was expressed normally under the regulated control of the PRla promoter.Abbreviations BA N6-benzyladenine - GUS -glucuronidase - NAA -naphthaleneacetic acid - Km kanamycin - Km^s kanamycin resistant - Km⁰ kanamycin sensitive - NPT- II neomycin phosphotransferase II - PR pathogenesis-related - SA salicylic acid - MS Murashige and Skoog medium - NOS nopaline synthase