Project description:Whole-genome sequencing of blaCTX-M-8 carrying plasmid and their hosts

Project description:Sequence of a fosA3- and blaCTX-M-14- co-carrying IncN-IncC plasmid and its variants

Project description:Genomic data of 14 nontyphoidal Salmonella strains carrying blaCTX-M-55 gene in Conghua District, Guangzhou

Project description:Enterotoxin-producing C. perfringens type A is a common cause of food poisonings. The cpe encoding the enterotoxin can be chromosomal (genotype IS1470) or plasmid-borne (genotypes IS1470-like-cpe or IS1151-cpe). The chromosomal cpe-carrying C. perfringens are a more common cause of food poisonings than plasmid-borne cpe-genotypes. The chromosomal cpe-carrying C. perfringens type A strains are generally more resistant to most food-processing conditions than plasmid-borne cpe-carrying strains. On the other hand, the plasmid-borne cpe-positive genotypes are more commonly found in human feces than chromosomal cpe-positive genotypes, and humans seem to be a reservoir for plasmid-borne cpe-carrying strains. Thus, it is possible that the epidemiology of C. perfringes type A food poisonings caused by plasmid-borne and chromosomal cpe-carrying strains is different. A DNA microarray was designed for analysis of genetic relatedness between the different cpe-positive and cpe-negative genotypes of C. perfringens strains isolated from human, animal, environmental and food samples. The DNA microarray contained two probes for all protein-coding sequences in the three genome-sequenced strains (C. perfringens type A strains 13, ATCC13124, and SM101). The chromosomal and plasmid-borne C. perfringens genotypes were grouped into two distinct clusters, one consisting of the chromosomal cpe-genotypes and the other consisting of plasmid-borne cpe-genotypes. Analysis of the variable gene pool complemented with the growth studies demonstrate different carbohydrate and amine metabolism in the chromosomal and plasmid-borne cpe-carrying strains, suggesting different epidemiology of the cpe-positive C. perfringens strain groups.

Project description:we performed ChIP-seq assays to identify in vivo targets of GltR. The plasmid mini-gltR-flag-lacz was constructed and the resultant plasmid was fused to P. aeruginosa strain PAO1, yielding PAO1/mini-gltR-flag-lacz. We investigated GltR-binding to the chromosome of PAO1 during growth with glucose by ChIP-Seq. Sequence reads obtained from three independent ChIP-Seq experiments using anti-flag antibody and mapped to the P. aeruginosa PAO1 genome.Using the MACS software,we identified 55 enriched loci (q-value < 0.05) harboring GltR-binding peaks, that were enriched > 3-fold, but were absent in control sample conducted without anti-flag antibody.

Project description:We report the genome-wide analysis from chromatin immunoprecipitated DNA (ChIP-sequencing) at very high resolution of the DNA binding pattern of ParBF (SopB) either on the full length plasmid F or on E. coli chromosome carrying the parSF centromere sequence. We also varied the intracellular ParBF concentration to discriminate between the several proposed mechanism of partition complexes assembly.

Project description:Horizontal gene transfer (HGT) is the major mechanism responsible for spread of antibiotic resistance. Antibiotic treatment has been suggested to promote HGT, either by directly affecting the conjugation process itself or by selecting for conjugations subsequent to DNA transfer. However, recent research suggests that the effect of antibiotic treatment on plasmid conjugation frequencies, and hence the spread of resistance plasmids, may have been overestimated. We addressed the question by quantifying transfer proteins and conjugation frequencies of a blaCTX-M-1 encoding IncI1 resistance plasmid in Escherichia coli MG1655 in the presence and absence of therapeutically relevant concentrations of cefotaxime (CTX). Analysis of the proteome by iTRAQ labeling and liquid chromatography tandem mass spectrometry revealed that Tra proteins were significantly up regulated in the presence of CTX. The up-regulation of the transfer machinery was confirmed at the transcriptional level for five selected genes. The CTX treatment did not cause induction of the SOS39 response as revealed by absence of significantly regulated SOS associated proteins in the proteome and no significant up-regulation of recA and sfiA genes. The frequency of plasmid conjugation, measured in an antibiotic free environment, increased significantly when the donor was pre-grown in broth containing CTX compared to growth without this drug, regardless of whether blaCTX-M-1 was located on the plasmid or in trans on the chromosome. The results shows that antibiotic treatment can affect expression of a plasmid conjugation machinery and subsequent DNA transfer.

Project description:E. coli with blaCTX-M-15 and blaCTX-M-27 carrying plasmids

Project description:Sequence of plasmid carrying beta lactamase, KPC gene

Project description:66 strains of blaCTX-M-55-positive Escherichia coli