Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: DrugBank:EXPT01586 (G418)
 2,237 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Some eukaryotic genes can be expressed in bacteria but there are few examples of the expression of prokaryotic genes in eukaryotes. Antibiotic G418 is a 2-deoxystreptamine antibiotic that is structurally related to gentamicin but has inhibitory activity against a much wider variety of pro- and eukaryotic organisms. In bacteria, resistance to G418 can be determined by several plasmid-encoded modifiying enzymes and, in view of the broad spectrum of activity of G418, we considered that this antibiotic might be useful as a selective agent for the introduction of these antibiotic resistance genes into a eukaryotic organism such as Saccharomyces cerevisiae. Additional impetus for these experiments came from the knowledge that certain of the G418-resistance determinants in bacteria are carried on transposable elements; a study of the properties of these elements in eukaryotes would be intriguing.
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PMID:Expression of a transposable antibiotic resistance element in Saccharomyces. 625 17

Industrially useful polyploid yeasts such as the brewing yeasts do not possess any auxotrophic genetic markers and hence are not easily amenable to plasmid-mediated DNA transformations. In an attempt to obtain genetic markers, a number of useful Saccharomyces sp. strains and some amylolytic Schwanniomyces sp. strains were tested for their susceptibility to the antibiotic Geneticin G418 , a 2-deoxystreptamine reported to be active against bacteria, yeasts, and plant and animal cells. All of the Saccharomyces sp. strains, including the brewing strains, were found to be susceptible to G418 in the concentration range of 150 to 500 micrograms/ml. Of the three Schwanniomyces species investigated, only Schwanniomyces castellii (strain 1402) was found to be resistant to G418 at concentrations up to 1 mg/ml. Resistance was exhibited both in liquid media and on glycerol-peptone-yeast extract agar plates. This finding is interesting in view of the possibility of using this strain as a DNA donor for transformations aimed at introducing the amylolytic capability into brewing yeasts.
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PMID:Susceptibility of Saccharomyces spp. and Schwanniomyces spp. to the aminoglycoside antibiotic G418. 637 88

Tetrahymena thermophila is a eucaryotic organism that is highly susceptible to growth inhibition by aminoglycoside antibiotics. Concentrations of paromomycin, gentamicin G418, and hygromycin B at 22, 10, and 17 microM, respectively, inhibited growth by 50%. A combination of in vitro and in vivo methods was used to determine the mechanisms of action of these aminoglycoside antibiotics on protein synthesis in T. thermophila. Analysis of polysome profiles from paromomycin- and gentamicin G418-treated cells showed clear, progressive depletions of polysomes concomitant with an inhibition of in vivo [14C] lysine incorporation. In vitro, paromomycin and gentamicin G418, which are disubstituted 2-deoxystreptamine-containing molecules, were not very effective inhibitors of either the translocation of peptidyl-tRNA or the elongation of nascent polypeptide chains on polysomes. In contrast, we found that the translocation of phe-tRNA on polyuridylate programmed ribosomes was susceptible to inhibition by paromomycin. We conclude that the primary inhibitory action of paromomycin and gentamicin G418 was at (i) an early stage of elongation after initiation, (ii) the initiation stage of translation, or (iii) a stage of translation before initiation. Hygromycin B, which is a monosubstituted 2-deoxystreptamine-containing aminoglycoside, potently inhibited the elongation of nascent chains during the translation of polysomes. In addition, the in vitro translation of polysomes from two hygromycin B-resistant mutants was resistant to the inhibition of elongation caused by hygromycin B.
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PMID:Mechanisms of action of aminoglycoside antibiotics in eucaryotic protein synthesis. 643 89