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The inducibility of ermC by erythromycin, megalomicin, and celesticetin was tested with both wild-type ermC and several regulatory mutants altered in the 19-amino-acid-residue leader peptide, MGIFSIFVISTVHYQP NKK. In the model test system that was used, the ErmC methylase was translationally fused to beta-galactosidase. Mutational alterations that mapped in the interval encoding Phe-4 through Ile-9 of the leader peptide not only affected induction by individual antibiotics, but did so differentially. The subset of mutations that affected inducibility by the two macrolides erythromycin and megalomicin overlapped and were distinct from the subset of mutations that affected induction by celesticetin. These studies provide a model system for experimentally varying the relative efficiencies with which different antibiotics induce the expression of ermC. The possibility that antibiotics with inducing activity interact directly with the nascent leader peptide was tested by using a chemically synthesized decapeptide, MGIFSIFVIS--, attached at its C-terminus to a solid-phase support. This peptide, however, failed to bind erythromycin in vitro.  相似文献   

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The ermC mRNA leader segment, which encodes a 19 amino acid leader peptide, MGIFSIFVISTVHYQPNKK, plays a key role in regulating expression of the ErmC methylase. The contribution of specific leader peptide amino acid residues to induction of ermC was studied using a model system in which the ErmC methylase was translationally fused to Escherichia coli beta-galactosidase as indicator gene. Codons of the ermC leader peptide were altered systematically by replacement of leader DNA segments with double-stranded DNA constructed from chemically synthesized oligonucleotides. Missense mutations that resulted in reduced efficiency of induction involved codons for amino acid residues 5 to 9 (-SIFVI-). Nonsense mutations causing termination of the leader peptide at codons 10 (-S-) or 12 (-V-) remained inducible. These findings suggest that the codons for residues 5 to 9 of the leader peptide comprise the critical region in which ribosomes stall in the presence of erythromycin.  相似文献   

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The ermC gene of plasmid pE194 specifies resistance to the macrolidelincosamide-streptogramin B antibiotics. This resistance, as well as synthesis of the 29,000 dalton protein product of ermC, has been shown to be induced by erythromycin. Weisblum and his colleagues have established that macrolide resistance is associated with a specific dimethylation of adenine in 23 S rRNA. We show that pE194 specifies an RNA methylase that can utilize either 50 S ribosomes or 23 S rRNA as substrates. Synthesis of this methylase is induced by low concentrations of erythromycin, and the enzyme is produced in elevated amounts by strains carrying a high copy number mutant of pE194. The methylase comigrates with the 29K ermC product on polyacrylamide gels. The purification and some properties of this methylase are described.  相似文献   

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Induction of translation of the ermC gene product in Bacillus subtilis occurs upon exposure to erythromycin and is a result of ribosome stalling in the ermC leader peptide coding sequence. Another result of ribosome stalling is stabilization of ermC mRNA. The effect of leader RNA secondary structure, methylase translation, and leader peptide translation on induced ermC mRNA stability was examined by constructing various mutations in the ermC leader region. Analysis of deletion mutations showed that ribosome stalling causes induction of ermC mRNA stability in the absence of methylase translation and ermC leader RNA secondary structure. Furthermore, deletions that removed much of the leader peptide coding sequence had no effect on induced ermC mRNA stability. A leader region mutation was constructed such that ribosome stalling occurred in a position upstream of the natural stall site, resulting in induced mRNA stability without induction of translation. This mutation was used to measure the effect of mRNA stabilization on ermC gene expression.  相似文献   

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In Bacillus subtilis, the ermC gene encodes an mRNA that is unusually stable (40-min half-life) in the presence of erythromycin, an inducer of ermC gene expression. A requirement for this induced mRNA stability is a ribosome stalled in the ermC leader region. This property of ermC mRNA was used to study the decay of mRNA in B. subtilis. Using constructs in which the ribosome stall site was internal rather than at the 5' end of the message, we show that ribosome stalling provides stability to sequences downstream but not upstream of the ribosome stall site. Our results indicate that ermC mRNA is degraded by a ribonucleolytic activity that begins at the 5' end and degrades the message in a 5'-to-3' direction.  相似文献   

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Thirty-five Staphylococcus aureus strains from auricular infections were isolated. The identification of strains was confirmed by Api ID 32 Staph strips, the antibiotic susceptibility test was performed using ATB Staph kit. PCR assay was used to detect the oxacillin resistance gene (mecA) and the erythromycin genes (ermA, ermB, ermC, msrA and mef). The susceptibility profile of all strains revealed a low resistance level to oxacillin and erythromycin. The PCR results show that 60 % of the strains are mecA positive. The frequency of erythromycin genes was: ermA (+) 22.8 %, ermB (+) 45.7, ermC (+) 17.1, msrA (+) 28.6. The mef gene was not detected in any strain. No correlations between genotypic and phenotypic methods for the determination of oxacillin and erythromycin resistance was found. However, multiplex PCR technique was shown to be a fast, practical and economic technique for the detection of methicillin-and erythromycin-resistant staphylococci.  相似文献   

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Induction of ermC requires translation of the leader peptide.   总被引:14,自引:1,他引:13       下载免费PDF全文
D Dubnau 《The EMBO journal》1985,4(2):533-537
ermC confers resistance to macrolide-lincosamide streptogramin B antibiotics by specifying a ribosomal RNA methylase, which results in decreased ribosomal affinity for these antibiotics. ermC expression is induced by exposure to erythromycin. We have previously proposed a translational regulation model in which erythromycin causes stalling of a ribosome, which is translating a leader peptide. Stalling causes a conformation shift in the ermC mRNA which in turn unmasks the methylase ribosomal binding site. A prediction of this translational attenuation model for ermC induction was tested by replacing the second codon of the putative ermC leader peptide coding region by TAA. As expected, the introduction of this mutation resulted in an uninducible phenotype which was suppressible by two ochre suppressor mutations in Bacillus subtilis. It is concluded that translation through the leader peptide coding region, in frame with the predicted leader peptide, is required for ermC induction.  相似文献   

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Addition of erythromycin (Em) to a Bacillus subtilis strain carrying the ermC gene results in ribosome stalling in the ermC leader peptide coding sequence. Using Δ ermC , a deletion derivative of ermC that specifies the 254 nucleotide Δ ermC mRNA, we showed previously that ribosome stalling is concomitant with processing of Δ ermC mRNA, generating a 209 nucleotide RNA whose 5' end maps to codon 5 of the Δ ermC coding sequence. Here we probed for peptidyl-tRNA to show that ribosome stalling occurs after incorporation of the amino acid specified by codon 9. Thus, cleavage upstream of codon 5 is not an example of 'A-site cleavage' that has been reported for Escherichia coli . Analysis of Δ ermC mRNA processing in endoribonuclease mutant strains showed that this processing is RNase J1-dependent. Δ ermC mRNA processing was inhibited by the presence of stable secondary structure at the 5' end, demonstrating 5'-end dependence, and was shown to be a result of RNase J1 endonuclease activity, rather than 5'-to-3' exonuclease activity. Examination of processing in derivatives of Δ ermC that had codons inserted upstream of the ribosome stalling site revealed that Em-induced ribosome stalling can occur considerably further from the start codon than would be expected based on previous studies.  相似文献   

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We are studying the molecular mechanism of cellular protein localization. The availability of genetic techniques, such as gene fusion in Escherichia coli, has made this problem particularly amenable to study in this prokaryote. We have constructed a variety of strains in which the gene coding for an outer membrane protein is fused to the gene coding for a normally cytoplasmic enzyme, beta-galactosidase. The hybrid proteins produced by such strains retain beta-galactosidase activity; this activity serves as a simple biochemical tag for studying the localization of the outer membrane protein. In addition, we have exploited phenotypes exhibited by certain fusion strains to isolate mutants that are altered in the process of protein export. Genetic and biochemical analyses of such mutants have provided evidence that the molecular mechanism of cellular protein localization is strinkingly similar in both bacteria and animal cells.  相似文献   

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A rapid method to quantitate non-labeled RNA species in bacterial cells   总被引:36,自引:0,他引:36  
We have developed a rapid method to quantitate specific bacterial RNA species. The method measures the steady-state level of RNA, produces a linear response over more than a 16-fold range of RNA concentration, and can be used for Staphylococcus aureus, Escherichia coli and Bacillus subtilis. In this method, a sheared whole-cell lysate of approx. 7 x 10(8) organisms, prepared as for plasmid screening, is separated on agarose, blotted to a nitrocellulose filter, hybridized with a radiolabeled DNA probe, and autoradiographed. The RNA species are quantitated by counting the radioactive bands on the filter. We have applied the method to the measurement of mRNA induction of the genes encoding beta-lactamase, ermC rRNA methylase, and the alpha-complementing fragment of beta-galactosidase. Upon induction, a ten-fold increase in the mRNA for each gene was observed. The peak mRNA level occurred after 30 min for beta-lactamase, 20 min for beta-galactosidase, and 5 min for the ermC rRNA methylase.  相似文献   

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