Successful expression in pollen of various plant species of in vitro synthesized mRNA introduced by particle bombardment

Gold particles coated with -glucuronidase (GUS) mRNA with a 5 cap structure that had been synthesized in vitro were introduced, by use of a pneumatic particle gun, into pollen grains of lily (Lilium longiflorum), freesia (Freesia refracta) and tulip (Tulipa gesneriana). A fluorometric assay for the GUS activity indicated that in vitro synthesized GUS mRNA introduced into these pollen cells by particle bombardment was successfully expressed. GUS activity in extracts of the bombarded lily pollen became detectable fluorometrically within 30 min after bombardment, peaked at 6 h, then gradually decreased. This activity changed as a function of the developmental stage of the pollen cell of lily.     

High level of GUS gene expression driven by pollen-specific promoters in electroporated lily pollen protoplasts

Gene constructs that contained the -glucuronidase (GUS) gene under the control of a pollen-specific Zm13 promoter from maize and a LAT52 promoter from tomato were introduced by electroporation into pollen protoplasts isolated from bicellular pollen grains of Lilium longiflorum. After 20 h in culture, the pollen protoplasts exhibited the apparent expression of GUS in a fluorometric assay. The GUS activity induced under the control of the Zm13 promoter was over 10 000 times higher than activity in the control (with no DNA or without electroporation). By contrast, the GUS gene was nearly silent in the lily microspore protoplasts and generative cell protoplasts. The GUS activity driven by the Zm13 and LAT52 promoters was also detected by a cytochemical assay. The frequency of blue-staining pollen protoplasts was about 70% in the case of the Zm13 promoter. The efficiency of gene transfer by electroporation was much higher than by particle bombardment. This protoplast-specific electroporation system is suitable for rapid and reliable examination of pollen-specific promoters, being as good as the particle bombardment system.     

Features of the hmg 1 subfamily of genes encoding HMG-CoA reductase in potato

3-Hydroxy-3-methylglutaryl coenzyme A reductase (HMGR) catalyzes a key step in isoprenoid metabolism leading to a range of compounds that are important for the growth, development and health of the plant. We have isolated 7 classes of genomic clones encoding HMGR from a potato genomic library. Comparison of nucleic acid sequences reveals a high degree of identity between all seven classes of clones and the potato hmg 1 gene described by Choi et al. (Plant Cell 4: 1333, 1992), indicating that all are members of the same subfamily in potato. A representative member (hmg 1.2) of the most abundant class of genomic clones was selected for further characterization. Transgenic tobacco and potato containing the -glucuronidase (GUS) reporter gene under the control of the hmg 1.2 promoter expressed GUS activity constitutively at a low level in many plant tissues. High levels of GUS activity were observed only in the pollen. GUS assays of isolated pollen, correlations of GUS activity with the HMGR activity of anthers, hmg 1.2 promoter deletion studies, and segregation analysis of the expression of hmg 1.2::GUS among the R₂ pollen of R₁ progeny plants demonstrated that the hmg 1.2 promoter controls pollen expression.     

Tapetum-specific expression of theOsg6B promoter-β-glucuronidase gene in transgenic rice

The promoter of an anther tapetum-specific gene,Osg6B, was fused to a-glucuronidase (GUS) gene and introduced into rice byAgrobacterium-mediated gene transfer. Fluorometric and histochemical GUS assay showed that GUS was expressed exclusively within the tapetum of anthers from the uninucleate microspore stage (7 days before anthesis) to the tricellular pollen stage (3 days before anthesis). This is the first demonstration of an anther-specific promoter directing tapetum-specific expression in rice.Abbreviations GUS ßGlucuronidase     

Stable transformation of the food yam Dioscorea alata L. by particle bombardment

Summary A biolistic particle gun was used to deliver genetic material into intact yam cells. Cultured suspension cells of D. alata were bombarded with microprojectiles coated with pBI221.2 DNA and histochemical assays were carried out to show transient GUS expression in bombarded cells. Stably transformed D. alata cells were recovered from cultured cells after bombardment with microprojectiles coated with pRT99gus harbouring both the nptII and uidA genes. Bombarded cells were selected on a medium containing geneticin (G418). Two months after bombardment, calli resistant to G418 were assayed for GUS expression. There was a 100% correlation between resistance to G418 and GUS expression. From these calli, four cell lines were established and GUS activity in each line was determined fluorometrically. The use of a specific GUS inhibitor showed that the GUS activity was due to the introduced uidA gene rather than to any intrinsic GUS-like activity originating from the plant. Incorporation of the introduced DNA into the plant genomic DNA was confirmed by Southern analysis.Abbreviations GUS -glucuronidase - MU 4-Methylumbelliferone - MUG 4-Methylumbelliferyl--D-glucuronide - PVP Polyvinylpyrrolidone - SDS Sodium dodecyl sulphate - TAE Tris-acetate-EDTA buffer - X-Gluc 5-Bromo-4-chloro-3-indolyl--D-glucuronide     

Optimised DNA delivery into Coffea arabica suspension culture cells by particle bombardment

An optimised bombardment protocol to introduce DNA into Coffea arabica suspension culture cells was developed. Osmotic preconditioning of cells and physical bombardment parameters including Helium pressure, gap and target distances affecting DNA delivery were evaluated by monitoring transient expression of the uidA gene driven by the CaMV35S promoter. The highest transient GUS expression was obtained when cells were subjected to a 0.5 M mannitol–sorbitol pre-treatment 4 h prior to bombardment and a Helium pressure of 1550 psi, a 9-mm gap distance and 12 cm target distance as physical bombardment parameters. The optimised protocol was tested with two coffee promoters: -tubulin and arabicin, which presented similar activity to the CaMV35S promoter in suspension culture cells by fluorometric GUS assays. GUS expression was reduced in bombarded tissue culture leaves, and only the CaMV35S and arabicin promoters showed histochemical activity in coffee endosperms. This is the first report of optimization of particle bombardment on coffee suspension culture cells, equivalent CaMV35S activity for a coffee promoter and transient -glucoronidase expression in coffee endo-sperms.     

TheCaMV 35S promoter is highly active on floral organs and pollen of transgenic strawberry plants

We have evaluated the expression of the reporter -glucuronidase (GUS) gene driven by the cauliflower mosaic virus 35S (CaMV 35S) promoter in flowers and pollen from 14 independent transgenic strawberry lines. Of the 14 lines evaluated, 13 (92.8%) showed GUS activity—as estimated by the histochemical GUS assay—in some floral organs, with expression being most common in the flower stem, sepals, petals, ovary and stigma. Ten of these thirteen transgenic lines (77%) showed GUS activity in pollen, although the percentages of positive pollen per flower varied greatly among the different lines. A study of the GUS expression during pollen maturation showed that the (CaMV 35S) promoter showed low expression in pollen from flower buds before anthesis but was activated in mature pollen following anther dehiscence. The percentages of pollen grains that showed GUS activity ranged from 2.1% to 46.3%. These percentages were similar or even higher when mature pollen was stored dry at room temperature for 2 weeks. After 5 weeks of storage, the percentages of GUS-positive pollen decreased in two of the six lines analysed but remained at similar values in the other four lines. GUS activity was also measured in protein extracts of mature pollen by means of the fluorometric GUS assay, with the values obtained ranging from 3.8 mol MU mg protein^–1 h^–1 to 0.26 mol MU mg protein^–1 h^–1. Contrary to the generally held view that the CaMV 35S promoter is virtually silent in pollen, we conclude that it is highly expressed in transgenic strawberry pollen.Abbreviations CaMV 35S Cauliflower mosaic virus promoter - GUS -Glucuronidase (EC 3.2.1.31) - MU 4-Methyl umbelliferone - nos Nopaline synthase promoter - nptII Neomycin phosphotransferase - X-Gluc 5-Bromo-4-chloro-3-indolyl--d-glucuronic acid     

Dissection of a pollen-specific promoter from maize by transient transformation assays

We have previously reported the isolation and characterization of a gene (Zm 13) from Zea mays which shows a pollen-specific pattern of expression. Stably transformed tobacco plants containing a reporter gene linked to portions of the Zm 13 5 flanking region show correct temporal and spatial expression of the gene. Here we present a more detailed analysis of the 5 regions responsible for expression in pollen by utilizing a transient expression system. Constructs containing the -glucuronidase (GUS) gene under the control of various sized fragments of the Zm13 5 flanking region were introduced into Tradescantia and Zea mays pollen via high-velocity microprojectile bombardment, and monitored both visually and with a fluorescence assay. The results suggest that sequences necessary for expression in pollen are present in a region from –100 to –54, while other sequences which amplify that expression reside between –260 and –100. The replacement of the normal terminator with a portion of the Zm13 3 region containing the putative polyadenylation signal and site also increased GUS expression. While the –260 to –100 region contains sequences similar to other protein-binding domains reported for plants, the –100 to –54 region appears to contain no significant homology to other known promoter fragments which direct pollen-specific expression. The microprojectile bombardment of Tradescantia pollen appears to be a good test system for assaying maize and possibly other monocot promoter constructs for pollen expression.     

The Promoter of a Metallothionein-Like Gene from the Tropical Tree Casuarina Glauca is Active in Both Annual Dicotyledonous and Monocotyledonous Plants

A chimeric gene consisting of the -glucuronidase (gusA) reporter gene under the control of the metallothionein-like promoter cgMT1 from the tropical tree Casuarina glauca was introduced into Nicotiana tabacum via Agrobacterium tumefaciens and into Oryza sativa by particle bombardment. The strongest histochemical staining for GUS activity was observed in the root system of the transgenic plants, and especially in lateral roots. In contrast, a relatively low level of reporter gene expression was seen in the aerial tissues and GUS staining was located mainly in the plant vascular system. The average ratio of GUS activity between root and leaf was found to be 13:1 in tobacco and 1.5:1 in rice. The pattern of cgMT1 promoter activity in floral organs was found to be different in tobacco and rice. High levels of gusA gene expression were detected in the ovules, pollen grains and tapetum, whereas in rice PcgMT1 directs expression to the vascular system of the floral organs. These results suggest that PcgMT1 is potentially useful in molecular breeding to express genes of interest whose products are preferentially needed in roots.     

Development of a pollen-mediated transformation method forNicotiana glutinosa

The development is described of a new procedure to genetically transform plant species using the male gametophyte as a natural transformation vector. Our system avoids the need for complicated regeneration procedures thus making it broadly applicable. Naked plasmid DNA encoding kanamycin resistance and GUS activity was introduced by particle gun bombardment into mature pollen grains ofNicotiana glutinosa. Bombarded pollen was used for pollinations and the resulting seeds were selected for kanamycin resistance. Two different kanamycin-resistant plants, designated VIP A and VIP B, were obtained in two independent experiments. In VIP A, TR2-driven GUS activity was observed in vascular bundles, trichomes and in a small number of pollen grains. DNA gel blot analysis indicated that the introduced DNA was integrated independently into the genome of VIP A and VIP B. It was shown that male and female gametophyte development and seed set were highly aberrant in both VIP A and VIP B and that the offspring of self- and cross-pollinations did not contain the transgenes. This might be caused by a recombination event during the integration of the naked DNA resulting in a deletion of part of the target chromosome. After meiosis such a deletion is lethal for the gametes. Our observation that the transgenes were detected in DNA isolated from sporophytic tissues but not in DNA from VIP A and VIP B pollen grains is in line with this explanation. Future experiments designed to increase the frequency of transformation and to transfer the transgenes to the offspring are discussed.     

Optimization of biolistic bombardment parameters for <Emphasis Type="Italic">Dendrobium</Emphasis> Sonia 17 calluses using GFP and GUS as the reporter system

Genetic transformation system of Dendrobium Sonia 17 was optimized using green fluorescent protein (GFP) and -glucuronidase (GUS) gene as the reporter systems. The 35S-sgfp-TYG-nos (p35S) and pSMDFR, carrying sgfp and gusA gene, respectively, were co-bombarded into the calluses. Parameters optimized were acceleration pressure, target distance, gold particle size, pre-bombardment cultured time, plasmid DNA precipitation, total plasmid DNA and the ratio of the plasmids co-bombarded. Both reporter systems responded similarly to the bombardment parameters investigated. Based on the GUS/GFP spot counts, the GFP expression rate was higher than that for GUS under the control of the same promoter, CaMV 35S. GFP could be used as the reporter system for the co-bombardment as it was rapid and non-destructive system to monitor the transformed tissues. A combination of GFP and antibiotic resistance gene was used to select stable putative transformants.     

The promoter of aBrassica napus polygalacturonase gene directs pollen expression ofβ-glucuronidase in transgenicBrassica plants

A 647-bp 5-flanking fragment obtained from genomic clone Sta 44G(2) belonging to a family of polygalacturonase genes expressed inBrassica napus pollen was fused to the-glucuronidase (GUS) marker gene. This fusion construct was introduced intoB. napus plants viaAgrobacterium tumefaciens transformation. Analysis of the transgenicB. napus plants revealed that this promoter fragment is sufficient to direct GUS expression specifically in the anther and that GUS activity increases in pollen during maturation.Abbreviation GUS -Glucuronidase     

Bees assess pollen returns while sonicating Solanum flowers

Summary Can bees accurately gauge accumulating bodily pollen as they harvest pollen from flowers? Several recent reports conclude that bees fail to assess pollen harvest rates when foraging for nectar and pollen. A native nightshade (Solanum elaeagnifolium Cavanilles) that is visited exclusively for pollen by both solitary and social bees (eg. Ptiloglossa and Bombus) was studied in SE Arizona and SW New Mexico. The flowers have no nectaries. Two experiments were deployed that eliminated pollen feedback to the bees by experimentally manipulating flowers prior to bee visits. The two methods were 1) plugging poricidal anthers with glue and 2) emptying anthers of pollen by vibration prior to bee visitation. Both experiments demonstrated that bees directly assess pollen harvest on a flower-by-flower basis, and significantly tailor their handling times, number of vibratile buzzes per flower and grooming bouts according to the ongoing harvest on a given flower. In comparison to experimental flowers, floral handling times were extended for both Bombus and Ptiloglossa on virgin flowers. Greater numbers of intrafloral buzzes and numbers of times bees groomed pollen and packed it into their scopae while still on the flower were also more frequent at virgin versus experimental flowers. Flowers with glued andreocia received uniformly brief visits from Bombus and Ptiloglossa with fewer sonications and virtually no bouts of grooming. Curtailed handling with few buzzes and grooms also characterized visits to our manually harvested flowers wherein pollen was artificially depleted. Sonicating bees respond positively to pollen-feedback while harvesting from individual flowers, and therefore we expect them to adjust their harvesting tempo according to the currency of available pollen (standing crop) within Solanum floral patches.     

Interaction of environment and ABA and GA treatments on the maize anther culture response

Treatments designed to influence abscisic acid (ABA) or gibberellin (GA) concentrations were applied to developing tassels of maize (Zea mays L.) plants in different environments or to anthers in culture to determine the effect on formation of embryo-like structures (ELS). Production of ELS was significantly affected in certain environments when ABA, GA₃, ancymidol, or fluridone solutions were pipetted into whorls of field-grown plants approximately 3 days before tassel harvest. In 1996 anthers from 10 M ancymidol-treated plants were most responsive, producing 35 ELS/100 anthers and 50 M GA₃-treated plants were least responsive, producing 12 ELS/100 anthers. In 1997 under hotter, drier conditions, anthers from 50 M GA₃-treated plants were most responsive, producing 20 ELS/100 anthers and those from 50 M ABA-treated plants were least responsive, producing 2.4 ELS/100 anthers. Anthers from growth chamber plants were significantly more responsive when grown in a 16-h than a 12-h photoperiod. With the 16-h photoperiod the response was significantly greater with a 250 M ABA whorl treatment. With the 12-h photoperiod there was no significant effect from whorl treatments. Modification of the culture medium with added ABA, GA₃, ancymidol, or fluridone was generally ineffective, except in 1997 when the response was significantly higher with 1 M ABA added to the culture medium. The results suggest that the maize anther culture response may be influenced by environmental conditions that interact with ABA and GA treatments to donor plants during tassel development.     

Expression of a foreign gene in electroporated pollen grains of tobacco

Summary The incorporation of genetically engineered DNA into pollen and subsequent fertilization of eggs by the transformed pollen would be a convenient method for producing genetically engineered seed. This method of pollen transformation would circumvent the need for other types of gene transfer methods such as the use of Agrobacterium tumefaciens, which has a limited host range and thus a limited capability for genetically engineering plants. It would also avoid the problems associated with the regeneration of some plants from tissue, cell, or protoplast culture after receiving foreign DNA. To this end, the genetically engineered plasmid DNA vector pBI221 containing the gene encoding -glucuronidase (GUS) was introduced by electroporation into germinating pollen grains of tobacco (Nicotiana gossei L.). Transient expression of the GUS gene was demonstrated by the presence of GUS activity in fluorometric assays of pollen extracts 24 h after the introduction of pBI221 via electroporation. Intact pBI221 was detected by Southern blotting procedures as a distinct DNA band in pollen extracts 1 h after electroporation. In addition, pBI221 was detected as a diffuse band of higher molecular weight DNA 24 h after electroporation, suggesting that some of the pBI221 was incorporated into the genome of the pollen.     

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.     

Expression analysis of four<Emphasis Type="Italic"> Pinus radiata</Emphasis> male cone promoters in the heterologous host<Emphasis Type="Italic"> Arabidopsis</Emphasis>

Four male cone-specific promoters were isolated from the genome of Pinus radiata D. Don, fused to the -glucuronidase (GUS) reporter gene and analysed in the heterologous host Arabidopsis thaliana (L.) Heynh. The temporal and spatial activities of the promoters PrCHS1, PrLTP2, PrMC2 and PrMALE1 during seven anther developmental stages are described in detail. The two promoters PrMC2 and PrMALE1 confer an identical GUS expression pattern on Arabidopsis anthers. DNA sequence analysis of the PrMC2 and PrMALE1 promoters revealed an 88% sequence identity over 276 bp and divergence further upstream (<40% sequence identity). GUS expression driven by a 276-bp PrMALE1 promoter fragment showed the same pattern in Arabidopsis anthers as observed for the full-length PrMALE1 promoter. Within the 276-bp promoter fragment a region of high homology to a previously described 16-bp anther-box was identified. In gain-of-function experiments the putative PrMALE1 anther-box was fused upstream of a 90-bp CaMV 35S minimal promoter, as a single copy in the sense direction and as an inverted repeat. No GUS expression was conferred to Arabidopsis anthers by either of these two constructs. In a loss-of-function experiment a 226-bp PrMALE1 deletion construct, which did not contain the putative PrMALE1 anther-box, still maintained the originally observed PrMALE1 GUS expression pattern. Hence, gain-of-function as well as loss-of-function experiments consistently showed that the putative anther-box of the PrMALE1 promoter is non-functional in the Arabidopsis genetic background. For the analysis of the four full-length pine promoters PrCHS1, PrLTP2, PrMC2 and PrMALE1, transformation vectors based on pCAMBIA2200 and pCAMBIA1302 were used. It will also be demonstrated in this article that sequences within the T-DNA borders of these vectors caused a characteristic histological background expression in Arabidopsis, with staining observed in vascular tissue of leaves, sepals, roots, filaments of stamens and in stems and pistils.Abbreviation GUS -glucuronidaseGenBank accession numbers for the analysed promoters: AF 337656 (PrCHS1), AF 337655 (PrLTP2), AF 337657 (PrMC2) and AF 337658 (PrMALE1).     

Morphological development of anthers induced by the dimorphic smut fungus<Emphasis Type="Italic"> Microbotryum violaceum</Emphasis> in female flowers of the dioecious plant<Emphasis Type="Italic"> Silene latifolia</Emphasis>

When inoculated with the dimorphic smut fungus Microbotryum violaceum (Pers.) G. Deml and Oberwinkler, the female flower of the dioecious plant Silene latifolia (Miller) E.H.L. Krause develops anther-like structures filled with spores instead of pollen grains. Using natural scanning electron microscopy, Nomarski interference microscopy, and fluorescence microscopy, we investigated the morphological modifications of the host plant resulting from this parasitism and the localization of smut hyphae in the flower bud. Flowers of infected plants lasted significantly longer than those of healthy plants, probably because the infection strengthened floral organs, such as the flower base and the anther filaments. Smut hyphae were observed throughout all organs of the young flower buds of infected plants, including sepals, petals, stamens, and pistil primordia. In healthy female flowers, anthers initiated sporogenous cell formation, but lacked parietal cell layers. By contrast, the parietal cell layers of infected female flowers differentiated into tapetal tissue, middle cell layers, and endothecial layers, as in the anthers of healthy male flowers. Smut spore formation in the infected anther was initiated in intercellular regions between the sporogenous cells, resulting in degeneration of premature sporogenous cells, tapetal tissue, and middle cell layers. The development of the endothecial layers and epidermis in the infected anther were morphologically normal.Abbreviations DAPI 4,6-diamidino-2-phenylidole - i infected - PMC pollen mother cell     

Transient Expression of β-Glucuronidase in Embryo Axes of Cotton by Agrobacterium and Particle Bombardment Methods

Transient expression of -glucuronidase (GUS) in zygotic embryo axes of two cotton (Gossypium hirsutum L.) cultivars NHH-44 and DCH-32 was induced by Agrobacterium mediated transformation or by particle bombardment. For Agrobacterium transformation, disarmed A. tumefaciens strain GV 2260/p35SGUSINT was used. In cv. NHH-44, the maximum frequency of transient expression (14.28 %) was achieved on spotting Agrobacterium paste on the apical regions of the split embryo axes. The method resulted in a transformed callus line, which showed strong GUS activity. Integration of NPTII gene was confirmed by Southern analysis. Transgene expression by particle bombardment was achieved with p35SGUSINT and pIBGUS plasmids independently. The maximum frequency of GUS expression in 29.16 % explants was observed in cultivar NHH-44 with gold microcarriers (1.1 µm) when bombarded once with rupture disc of 7586 kPa at target cell distance of 6 cm. A transformed callus line was obtained when explants were bombarded with p35SGUSINT and cultured on Murashige and Skoog's medium supplemented with B₅ vitamins, 0.1 mg dm^–3 1-phenyl-3-(1,2,3-thiadiazol-5-yl) urea, 0.01 mg dm^–3 -naphthaleneacetic acid, 3 % glucose + 50 mg dm^–3 kanamycin. High GUS activity was observed in callus tissue as well as in somatic embryo like structures achieved in liquid shake cultures.