The influence of c-myc expression on fibroblast growth and morphology was investigated by transfection of c-myc genes linked to viral promoters. No foci were observed after transfection of either NIH/3T3 or Rat 2 cells. Cell lines containing activated c-myc genes were established using SV2-neo coselection and several growth parameters of the cells were studied. The cells showed a slight increase in refractility and formed colonies in soft agar with an efficiency of only 1%-2%. The c-myc-transfected cells grew well in 0.5% serum while the controls did not. The major difference in cell growth noted was that c-myc-transfected cells were tumorigenic when inoculated into nude mice or syngeneic rats. Analysis of RNA from the tumorigenic cells showed a level of c-myc expression from the transfected genes that was 2 to 6 fold higher than that from the endogenous gene. The level of c-myc RNA in the fibroblast tumors was similar to that found in mouse plasmacytomas. Expression of the endogenous c-myc gene was unaffected by the transfected genes for subconfluent cells in culture, but the gene was shut off in the nude mouse tumors. These results demonstrate that constitutive c-myc expression leads to tumorigenicity in immortalized cell lines.
The plant genome responds to the bacteriophage P1-derived loxP-Cre site-specific recombination system. Recombination took place at loxP sites stably integrated in the tobacco genome, indicating that the Cre recombinase protein, expressed by a chimeric gene also stably resident in the genome, was able to enter the nucleus and to locate a specific 34 bp DNA sequence. An excisional recombination event was monitored by the acquisition of kanamycin resistance, which resulted from the loss of a polyadenylation signal sequence that interrupted a chimeric neomycin phosphotransferase II gene. Molecular analysis confirmed that the excision had occurred. Recombination occurred when plants with the integrated loxP construction were stably re-transformed with a chimeric cre gene and when plants with the introduced loxP construction were cross-bred with those carrying the chimeric cre gene. As assayed phenotypically, site-specific recombination could be detected in 50%-100% of the plants containing both elements of the system. Kanamycin resistance was detected at 2-3 weeks after re-transformation and in the first leaf of hybrid seedlings. This demonstration of the effectiveness of the loxP-Cre system in plants provides the basis for development of this system for such purposes as directing site-specific integration and regulation of gene expression.
Over 40,000 species of plants accumulate fructan, p-2-1-and P-2-6-linked polymers of fructose as a storage reserve. Due to their high fructose content, severa1 commercial applications for fructans have been proposed. However, plants that accumulate these polymers are not agronomically suited for large-scale cultivation or processing. This study describes the transformation of a Bacillus amyloliguefaciens SacB gene into maize (Zea mays 1.) callus by particle bombardment. Tissue-specific expression and targeting of the SacB protein to endosperm vacuoles resulted in stable accumulation of high-molecular-weight fructan in mature seeds. Accumulation of fructan in the vacuole had no detectable effect on kernel development or germination. Fructan levels were found to be approximately 9-fold higher in sh, mutants compared to wild-type maize kernels. In contrast to vacuole-targeted expression, starch synthesis and endosperm development in mature seeds containing a cytosolically expressed SacB gene were severely affected. The data demonstrate that hexose resulting from cytosolic SacB activity was not utilized for starch synthesis. Transgenic seeds containing a chimeric SacB gene provide further evidence that the dominant pathway for starch synthesis in maize endosperm is through uridine diphosphoglucose catalyzed by the enzyme sucrose synthase.
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