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De Clercq D Ceustermans A Heyndrickx M Coosemans J Ryckeboer J 《Journal of applied microbiology》2007,103(6):2102-2112
AIMS: The composting process needs to be validated for its hygienic status in order to ensure that it is free of pathogens. Generally, this is evaluated through temperature monitoring, or additionally through active inoculation and monitoring of indicator organisms. We aimed to develop a monitoring method for the heat-resistant indicator organism Salmonella enterica ssp. enterica serovar Senftenberg strain W775 for detection in composting biowastes. METHODS AND RESULTS: The method development is comprised of: (i) optimization of molecular detection of bacteria belonging to the genus Salmonella; (ii) identification of a DNA marker for Salmonella strain W775; and (iii) development of a multiplex polymerase chain reaction (PCR)-based on both DNA markers. Subsequently, Salmonella strain W775 was inoculated and monitored during composting of biowastes in an industrial composting facility. CONCLUSIONS: A highly sensitive and specific detection of viable cells was obtained by enriching the compost sample prior to multiplex PCR analysis. Complete inactivation of Salmonella strain W775 was obtained within 4 days in an industrial composting facility at temperatures ranging between 41 and 57 degrees C. SIGNIFICANCE AND IMPACT OF THE STUDY: We describe a monitoring method for the simultaneous detection of naturally occurring Salmonella strains and artificially introduced Salmonella strain W775 in composting biowastes that can be applied in routine analysis. 相似文献
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Joke Stoorvogel Mario J.A.W.M. van Bussel Jos A.M. vande Klundert 《FEMS microbiology letters》1987,48(1-2):277-281
Abstract In this paper we describe the cloning of a restriction fragment of Enterobacter cloacae chromosomal DNA that causes β-lactam resistance in both Escherichia coli HB101 and the parental strain E. cloacae 2249-1.
The increase in minimum inhibitory concentration (MIC) of the β-lactam antibiotics studied was not the result of enhanced β-lactamase production, but of a decrease in the concentration of the pore proteins OmpF and OmpC in E. coli and of a 37-kDa membrane protein in E. cloacae . The results obtained thus far indicate that we have cloned a gene encoding a 20 kDa polypeptide that is involved in the regulation of outer membrane protein synthesis. 相似文献
The increase in minimum inhibitory concentration (MIC) of the β-lactam antibiotics studied was not the result of enhanced β-lactamase production, but of a decrease in the concentration of the pore proteins OmpF and OmpC in E. coli and of a 37-kDa membrane protein in E. cloacae . The results obtained thus far indicate that we have cloned a gene encoding a 20 kDa polypeptide that is involved in the regulation of outer membrane protein synthesis. 相似文献
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A novel type of osmoregulatory mutant of Escherichia coli K-12 exhibiting constitutive expression of the ompC gene was isolated and characterized at the molecular level In this particular mutant ( cec ; c onstitutive e xpression of Omp C ). an insertion sequence (IS-1) was found to be located at right upstream of the regulatory sequence for the ompC promoter. We demonstrate that the IS1 insertion observed in the cec mutant does not provide the ompC gene with an artificial promoter, but rather perturbs normal regulation of the ompC promoter, which is mediated by the regulatory gene, ompR . 相似文献
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The regulatory locus ompB, consisting of 2 genes, ompR and envZ, is required for the expression of ompC and ompF genes encoding the major outer membrane porin proteins OmpC and OmpF in Escherichia coli K12. We utilized localized mutagenesis to isolate cold-sensitive mutants in the ompB operon. The isolated mutants exhibited a cold-sensitive OmpC− phenotype, but remained OmpF+. Furthermore, ompC expression was still regulated by medium osmolarity. The cold-sensitive OmpC− phenotype was complemented by plasmids carrying the wild-type ompB operon, but not by plasmids containing either envZ or ompR genes alone. This suggests that the mutations are in the ompB promotor. We show that the mutations can be used to control expression vectors based on the ompC promotor. 相似文献
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The osmoregulated ompC gene of Escherichia coli was cloned and the DNA sequence of a fragment encompassing the promoter region and a portion of the coding region was determined. There were no obvious homologies in the DNA sequence of the promoter regions of the ompC and ompF genes, in contrast to those of the coding regions of the two genes, both of which code for the matrix porins (major outer membrane proteins) and form passive diffusion pores. The amino acid sequence of the signal peptide of pro-OmpC protein was also deduced from the DNA sequence 相似文献
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