A pFBP6::Barnase Construct Resulted in Stigma and Style Ablation and Floral Abscission in Transgenic Tobacco

The potential for transgene dispersal through pollen, fruit, and seed is an important argument against the release of genetically modified plants. One approach toward addressing the concerns of gene flow from transgenic crops into closely related wild species involves in the use of tissue-specific promoters to engineer male and/or female sterility. In this study, we investigated the potential of Barnase ectopic expression for engineering floral sterility. A 2.6?kb promoter region of floral binding protein 6 (FBP6) from Petunia hybrida was isolated and fused to a reporter gene encoding ??-glucuronidase (GUS). The construct was introduced into tobacco plants where GUS staining was detected ubiquitously throughout the various tissues. The expression pattern of FBP6 resembled AG promoters, i.e., weak promoter activity was found in vegetative tissues, and strong activity was found in the various floral organs including the carpels and stigma. Meanwhile,The pFBP6::Barnase construct was then cotransformed into tobacco along with the Barstar gene, encoding an enzymatic inhibitor of Barnase, which was expressed at low but ubiquitous levels. Although cotransformed tobacco plants showed near normal vegetative growth, 74% of transgenic plants exhibited stigma and style ablation, and 98% of flower buds abscised before opening. Further analyses confirmed that stigma and style ablation prevented fertilization of the flower, and abscission of the bud followed rapidly. Thus, this approach has advantages for those ornamental/landscaping species where the pollen and fruit represent pollutants of the urban environment (e.g., platanus and poplar).     

Promoters of nuclear‐encoded respiratory chain Complex I genes from Arabidopsis thaliana contain a region essential for anther/pollen‐specific expression

Regulatory promoter regions responsible for the enhanced expression in anthers and pollen are defined in detail for three nuclear encoded mitochondrial Complex I (nCI) genes from Arabidopsis thaliana. Specific regulatory elements were found conserved in the 5′ upstream regions between three different genes encoding the 22 kDa (PSST), 55 kDa NADH binding (55 kDa) and 28 kDa (TYKY) subunits, respectively. Northern blot analysis and transgenic Arabidopsis plants carrying progressive deletions of the promoters fused to the β-glucuronidase (GUS) reporter gene by histochemical and fluorimetric methods showed that all three promoters drive enhanced expression of GUS specifically in anther tissues and in pollen grains. In at least two of these promoters the –200/–100 regions actively convey the pollen/anther-specific expression in gain of function experiments using CaMV 35S as a minimal promoter. These nCI promoters thus contain a specific regulatory region responding to the physiological demands on mitochondrial function during pollen maturation. Pollen-specific motifs located in these regions appear to consist of as little as seven nucleotides in the respective promoter context.     

Wound-inducible and organ-specific expression of ORF13 from Agrobacterium rhizogenes 8196 T-DNA in transgenic tobacco plants

Tissue-specific expression of the ORF13 promoter from Agrobacterium rhizogenes 8196 was assessed throughout the development of transgenic tobacco plants using a GUS reporter gene. ORF13 exhibited high activity in roots but with different patterns of expression. The activity of the ORF13 promoter in vascular tissues increased from the base to the tip of the stem. The ORF13 promoter is wound inducible in a limited area adjacent to the wound site. The time course of wound induction of ORF13 in transgenic tobacco containing an ORF13 promoter-GUS translational fusion was similar to that previously described for genes involved in plant defense responses. A series of 5′ deletions of the ORF13 promoter fused to the β-glucuronidase gene was examined for expression in roots and leaves of transgenic plants. Cis-acting elements that modulate quantitative expression of the transgene after wounding were detected.     

Characterization of a Novel Pollen-Specific Promoter from Wheat (Triticum Aestivum L.)

PSG076 is a pollen-specific gene isolated from wheat. The 1.4-kb promoter upstream of the ATG start codon was isolated by inverse-PCR (IPCR). To determine its activity, the PSG076 promoter was fused with the ??-glucuronidase (GUS) reporter gene and introduced into tobacco. Histochemical analysis in transgenic tobacco showed that GUS activity was detected in late bicellular pollen grains and increased rapidly in mature pollen. GUS activity was also detected in pollen tubes of transgenic tobacco. No GUS activity was found in other floral and vegetable tissues. These results indicate that the PSG076 promoter directs pollen-specific activity at late stages of pollen development and pollen tube growth. Deletion analysis showed that a 0.4?kb fragment of the promoter was enough to confer pollen-specific expression.     

Identification of a promoter motif involved in Curtovirus sense-gene expression in transgenic Arabidopsis

Expression of the seven open reading frames (ORFs) of single-stranded DNA Curtoviruses such as Beet curly top virus (BCTV) and Beet severe curly top virus (BSCTV) is driven by a bi-directional promoter. To investigate this bi-directional promoter activity with respect to viral late gene expression, transgenic Arabidopsis plants expressing a GUS reporter gene under the control of either the BCTV or BSCTV bi-directional promoter were constructed. Transgenic plants harboring constructs showed higher expression levels when the promoter of the less virulent BCTV was used than when the promoter of the more virulent BSCTV was used. In transgenic seedlings, the reporter gene constructs were expressed primarily in actively dividing tissues such as root tips and apical meristems. As the transgenic plants matured, reporter gene expression diminished but viral infection of mature transgenic plants restored reporter gene expression, particularly in transgenic plants containing BCTV virion-sense gene promoter constructs. A 30 base pair conserved late element (CLE) motif was identified that was present three times in tandem in the BCTV promoter and once in that of BSCTV. Progressive deletion of these repeats from the BCTV promoter resulted in decreased reporter gene expression, but BSCTV promoters in which one or two extra copies of this motif were inserted did not exhibit increased late gene promoter activity. These results demonstrate that Curtovirus late gene expression by virion-sense promoters depends on the developmental stage of the host plant as well as on the number of CLE motifs present in the promoter.