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Encoding Green Fluorescent Protein (encoding + green_fluorescent_protein)

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Life Sciences75%

Selected Abstracts

Role of the two type II myosins, Myo2 and Myp2, in cytokinetic actomyosin ring formation and function in fission yeast

CYTOSKELETON, Issue 3 2003
Daniel P. Mulvihill
Abstract The formation and contraction of a cytokinetic actomyosin ring (CAR) is essential for the execution of cytokinesis in fission yeast. Unlike most organisms in which its composition has been investigated, the fission yeast CAR contains two type II myosins encoded by the genes myo2+ and myp2+. myo2+ is an essential gene whilst myp2+ is dispensable under normal growth conditions. Myo2 is hence the major contractile protein of the CAR whilst Myp2 plays a more subtle and, as yet, incompletely documented role. Using a fission yeast strain in which the chromosomal copy of the myo2+ gene is fused to the gene encoding green fluorescent protein (GFP), we analysed CAR formation and function in the presence and absence of Myp2. No change in the rate of CAR contraction was observed when Myp2 was absent although the CAR persisted longer in the contracted state and was occasionally observed to split into two discrete rings. This was also observed in myp2, cells following actin depolymerisation with latrunculin. CAR contraction in the absence of Myp2 was completely abolished in the presence of elevated levels of chloride ions. Thus, Myp2 appears to contribute to the stability of the CAR, in particular at a late stage of CAR contraction, and to be a component of the signalling pathway that regulates cytokinesis in response to elevated levels of chloride. To determine whether the presence of two type II myosins was a feature of cytokinesis in other fungi that divide by septation, we searched the genomes of two filamentous fungi, Aspergillus fumigatus and Neurospora crassa, for myosin genes. As in fission yeast, both A. fumigatus and N. crassa contained myosins of classes I, II, and V. Unlike fission yeast, both contained a single type II myosin gene that, on the basis of its tail structure, was more reminiscent of Myp2 than Myo2. The significance of these observations to our understanding of septum to formation and cleavage is discussed. Cell Motil. Cytoskeleton 54:208,216, 2003. © 2003 Wiley-Liss, Inc. [source]

Use of a novel nonantibiotic triple marker gene cassette to monitor high survival of Pseudomonas fluorescens SBW25 on winter wheat in the field

FEMS MICROBIOLOGY ECOLOGY, Issue 2 2008
Lotta Jäderlund
Abstract Pseudomonas fluorescens SBW25 was tagged with a triple marker gene cassette containing gfp, encoding green fluorescent protein; luxAB, encoding luciferase; and telABkilA, encoding tellurite resistance, and the tagged strain was monitored in the first Swedish field release of a genetically modified microorganism (GMM). The cells were inoculated onto winter wheat seeds and the GMM cells (SBW25,tgl) were monitored in the field from September 2005 to May 2006 using plating, luminometry and microscopic analyses. Cell numbers were high on all sampling occasions and metabolically active cells were detected on all plant parts. Field results were similar to those obtained in a parallel phytotron study, although the amount of SBW25,tgl detected on shoots was significantly higher in the phytotron than in the field. After winter, cell counts were 100-fold higher on the roots and root-associated soil compared with prewinter measurements, although the cells had a lower relative metabolic activity. The wheat seeds were naturally infested with Microdochium nivale, but no treatment resulted in reduction of disease symptoms. No SWB25,tgl cells were ever found in bulk soil or uninoculated plants. The Swedish field trial results complement and contrast with prior field studies performed with the same parent organism in the United Kingdom under different soil, plant and climatic conditions. [source]

Development of a GFP reporter gene for Chlamydomonas reinhardtii chloroplast

THE PLANT JOURNAL, Issue 6 2002
Scott Franklin
Summary Reporter genes have been successfully used in chloroplasts of higher plants, and high levels of recombinant protein expression have been reported. Reporter genes have also been used in the chloroplast of Chlamydomonas reinhardtii, but in most cases the amounts of protein produced appeared to be very low. We hypothesized that the inability to achieve high levels of recombinant protein expression in the C. reinhardtii chloroplast was due to the codon bias seen in the C. reinhardtii chloroplast genome. To test this hypothesis, we synthesized a gene encoding green fluorescent protein (GFP) de novo, optimizing its codon usage to reflect that of major C. reinhardtii chloroplast-encoded proteins. We monitored the accumulation of GFP in C. reinhardtii chloroplasts transformed with the codon-optimized GFP cassette (GFPct), under the control of the C. reinhardtii rbcL 5,- and 3,-UTRs. We compared this expression with the accumulation of GFP in C. reinhardtii transformed with a non-optimized GFP cassette (GFPncb), also under the control of the rbcL 5,- and 3,-UTRs. We demonstrate that C. reinhardtii chloroplasts transformed with the GFPct cassette accumulate ,80-fold more GFP than GFPncb -transformed strains. We further demonstrate that expression from the GFPct cassette, under control of the rbcL 5,- and 3,-UTRs, is sufficiently robust to report differences in protein synthesis based on subtle changes in environmental conditions, showing the utility of the GFPct gene as a reporter of C. reinhardtii chloroplast gene expression. [source]

A transient assay for regulatory gene function in haemopoietic progenitor cells

BRITISH JOURNAL OF HAEMATOLOGY, Issue 3 2000
Zoe J. McIvor
This work aimed to provide a means of assaying directly the effects of transient expression of introduced genes on the survival, proliferation, lineage commitment and differentiation of haemopoietic progenitor cells. For this purpose, we have developed a system that allows isolation of productively transfected, mulitipotent haemopoietic cells within a few hours of the introduction of test genes. We have shown that FDCP-mix cells productively transfected with expression plasmids encoding green fluorescent protein (GFP) differentiate normally and retain colony-forming potential. We constructed an expression vector consisting of a bicistronic cassette in which a GFP marker gene and a test gene are driven from the same promoter. The vector design has been optimized for co-expression and the test gene was shown to be biologically active. The expression profile from a transiently transfected template under different growth conditions reveals that active expression continues for at least 2 d after transfection. The transient transfection of FDCP-mix cells with the vectors described provides a powerful tool for analysis of the immediate early effects of test gene overexpression during haemopoietic differentiation. [source]