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Drug
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Target Concepts:
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Query: DrugBank:EXPT01586 (
G418
)
2,237
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We have shown that the Leishmania major transfection vector pR-NEO (or derivatives thereof) can be introduced and stably maintained in four species complexes of pathogenic Leishmania (L. tropica, L. mexicana, L. donovani, L. braziliensis), and the genera Endotrypanum and Crithidia; transfection of Trypanosoma cruzi or Trypanosoma brucei was not successful. Quantitative plating assays showed that the transfection efficiencies were high in L. major and Leishmania amazonensis (5x10(-5)/cell) and about 10-fold less for Leishmania panamaensis and Crithidia. Leishmania donovani transfected with pR-NEO retained the ability to infect hamsters, and amastigotes recovered after 2 months yielded
G418
-resistant promastigotes which retained high levels of extrachromosomal pR-NEO DNA. In promastigotes, the transfected DNA existed as extrachromosomal circles, and expressed the predicted 2.4-kb hybrid NEO/DHFR-TS mRNA bearing the trans-spliced miniexon. Large quantitative differences were observed only in Crithidia: relative to transfected Leishmania species, the copy number of pR-NEO was elevated 20-fold, while the levels of the NEO/DHRFR-TS mRNA or Escherichia coli beta-galactosidase (synthesized from the expression vector pX-beta
GAL
) were reduced 80 and more than 1000-fold, respectively. Thus, genetic signals derived from L. major DNA that mediate RNA expression or stability are recognized by the heterologous Leishmania species but less efficiently by Crithidia. These studies suggest that pR-NEO derived vectors may be applied to the study of genes expressed throughout the life cycle in a wide range of pathogenic trypanosomatids.
...
PMID:Stable DNA transfection of a wide range of trypanosomatids. 190 80
The Ty3 retrotransposon of Saccharomyces cerevisiae was employed for the site-specific integration of heterologous genes into the yeast genome. A
GAL
-regulated promoter allowed induction of the retrotransposition process, and a bacterial neo(r) gene inserted in the Ty3 element was used as a selectable model heterologous gene. The frequency of transposition of this neo(r)-marked element was found to be comparable to that of an unmarked element. Three amplification systems were constructed; the systems varied with respect to the location and number of the
GAL
-regulated helper and neo(r)-marked Ty3 elements. For all three systems, neo(r) integrations were readily selected with a maximum of two insertions obtained per round of amplification. A sequential amplification strategy was effective for further increasing the number of integrated cloned genes, and families of strains varying by only one neo(r) insertion were easily obtained. Resistance to the antibiotic
G418
correlated well with the number of integrated neo(r) genes, and Northern blots verified the relationship between cloned gene number (up to four) and neo(r) expression. Structural stability of the integrated genes was also demonstrated. By controlling the number of rounds of amplification and the level of
G418
selection, precise numbers of integrated heterologous genes could be obtained. Because the amplification process can be repeated using different cloned genes inserted in the Ty3 element, these results demonstrate the potential of retrotransposition for the regulated integration of a series of different genes at nondeleterious chromosomal locations.
...
PMID:Site-specific integration of heterologous genes in yeast via Ty3 retrotransposition. 1862 37
Yeast recombinant plasmid containing FRT-sequence flanked by hybrid
GAL
-CYC promoter and NPTII gene was developed.
GAL
-CYC promoter contains four UAS sequences and two closely associated TATA-boxes in CYC part. This construct provides galactose-inducible synthesis of neomycinphosphotransferase from NPTII gene, and, thus, resistance of transformed cells to
G418
antibiotic. Nucleosome positioning within NPTII gene in repressed and active states was studied. Under repressive conditions (growth on glucose) stable positioning of three nucleosomes was detected. Two nucleosomes are localized in CYC-part. One of them encompasses both TATA-boxes. The third nucleosome overlaps FRT sequence and start of NPTII gene coding sequence. All three nucleosomes show multiple positioning. It suggests possibility of nucleosome sliding along DNA. After induction of NPTII expression by galactose sliding of two nucleosomes is detected. Sliding leads to exposure of TATA-box and long promoter segment. Sliding results in stable repositioning of nucleosomes at new sites. 5'-distal nucleosome moves closer to UAS-sequences. As a results UAS becomes spatially closer to TATA-box. This proximity facilitates assembly of preinitiation complex. Nucleosomes slides independently from each other. The second nucleosome moves towards FRT-sequence and repositions at its nucleosome positioning signal. Galactose-induced expression does not affect nucleosome positioning with coding region of NPTII gene. Unidirectional sliding and repositioning are detected without induction after deacetylase inhibition with trichostatine A. Basal expression of NPTII gene was shown without activation of
GAL
-CYC promoter and after spatial uncoupling of coding sequence and promoter by gene inversion. In these cases it seems that expression is driven by TATA-like element in FRT-sequence. This element is located in permanently exposed area (in vivo data).
...
PMID:[Nucleosome positioning within neomycinphosphotransferase gene (NPTII) on yeast plasmid in repressed and active state]. 1914 Mar 24
