Genomic diversity of Escherichia isolates from diverse habitats
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ABSTRACT: Comparative genomic hybridization between Escherichia coli strains to determine core and pan genome content of clinical and environmental isolates Two color experiment, Escherichia coli Sakai (reference), clinical and environmental Escherichia coli strains (testers): At least two replicates including a single dye swap for each reference-tester comparison
Project description:To rigorously characterize the Fsr regulon, we compared gene expression in V583 isogenic mutants in Fsr genes and each of the Fsr-regulated protease genes using microarrays and purified GBAP, the quorum-sensing molecule. We used microarrays to identified the genes that are regulated directly by Fsr Quorum sensing system. E. faecalis V583 cells were collected at 0 minutes and 10 minutes after GBAP addition, for RNA extraction and hybridization on Affymetrix microarrays. The cells were collected when the number of the cells are ideal for Quorum sensing activation. This procedure was also made without GBAP addition. For each condition were made replicates.
Project description:Salmonella enterica serotype Typhimurium cause a localized enteric infection in immunocompetent patients while human immunodeficiency virus (HIV)-infected patients develop a life threatening bacteremia. We used a rhesus macaque ileal loop model to study how simian immunodeficiency virus (SIV) infection triggers defects in mucosal barrier function that enhance S. Typhimurium dissemination. SIV infection resulted in significant depletion of CD4+ T cells in the intestinal mucosa. Gene expression profiling revealed a defective TH17 response (with suppression of IL-17 and IL-22 expression) and impaired homeostasis of the intestinal epithelium in SIV-infected animals during NTS infection. These findings correlated with an impaired ability of lamina propria CD4+ T cells from SIV-infected macaques to produce IL-17 upon ex vivo stimulation, while production of IFNï§ was not affected. This cytokine imbalance in SIV-infected animals was associated with reduced expression of genes required for intestinal epithelial maintenance and repair, increased fluid secretion during NTS infection, epithelial damage and translocation of a non-invasive S. Typhimurium mutant. Although no defects in neutrophil recruitment were noted, the ileum of SIV-infected animals contained lower levels of the enzyme myeloperoxidase, which may indicate defects in neutrophil killing capacity. S. Typhimurium was recovered in markedly increased numbers from the mesenteric lymph nodes of SIV-infected macaques, illustrating the increased potential for systemic dissemination during co-infection. Our data suggest that SIV-infection causes a multi-factorial defect in mucosal barrier function that promotes bacterial dissemination. Keywords: Disease state analysis Comparison of ileal gene expression profiles in SIV infected rhesus macaques in response to Salmonella challange.
Project description:Lactobacillus casei is remarkably adaptive to diverse habitats. To understand the evolution and adaptation of Lb. casei strains isolated from different environments, the gene content of 22 Lb. casei strains isolated from various habitats (cheeses, n=8; plant materials, n=8; and human sources, n=6) were examined by comparative genome hybridization with an Lb. casei ATCC 334-based microarray. Comparative genome hybridization was performed against an Affymetrix custom microarray designed to include 2,661 (97%) chromosomal and 17 (85%) plasmid CDSs predicted to occur in Lb. casei ATCC 334, as well as all predicted CDSs in the draft Lb. helveticus CNRZ 32 genome. CDSs that were not included in the microarray design were all transposase-encoding genes.
Project description:Normal lung function relies on mature function of alveolar type II cels, which have numerous functions including to regulate ion and fluid flux, produce immune molecules, and synthesize and secrete surfactant to stabilize air spaces. Differentiation of type II cells from precursor epithelial cells is accelerated by exposure of cultured cells to glucocorticoid and cAMP. In these studies we used DNA microarray analysis to identify genes of both fetal and adult type II cells that are regulated by glucocorticoid plus cAMP. In the first series of experiments we isolated epithelial cells from fetal human lung and cultured cells for 5 days with or without hormone treatment (dexamethasone plus 8-Br-cAMP plus isobutylmethylxanthine, DCI) and then performed DNA microarray analysis. In the second series of experiments, we isolated type II cells from adult human postmortem lung and cultured cells for 5 days with or without DCI and performed DNA microarray analysis.
Project description:We collected small RNA sequencing data from brain and heart of an adult Xenopus tropicalis individual to investigate the conservation of site-specific miRNA editing events identified in mammals. Sequencing of 2 small RNA sequencing libraries
Project description:The vancomycin resistant strain V583 was exposed to therapeutical dose of vancomycin in order to understand the cell response to the antibiotic besides the induction of the vanB genes E. faecalis V583 cells were collected at 10 minutes and 30 min after vancomycin addition and without vancomycin, for RNA extraction and hybridization on Affymetrix microarrays. The cells were collected when at 0.4. For each condition were made replicates.
Project description:The bacterium Serratia marcescens is a common contaminant of contact lens cases and lenses. Serratamolide is one of the secreted hemolytic/cytotoxic factors which contribute to the virulence of this opportunistic pathogen (PMID 22615766). A newly identified transcription factor (eepR) is essential for serratamolide production (PMID 25897029). In the present study, we used immortalized human corneal-limbal epithelial (HCLE) cells (PMID 12766048) as targets for the secreted products of either wild-type (WT) S. marcescens or an isogenic eepR mutant. Microarray data showed that at sub - cytotoxic levels, the secretome of WT bacteria stimulated a > 2-fold response in 712 unique characterized genes. Analysis showed that immune/inflammatory response pathways are significantly enriched in these genes. The scaled response of eepR, ((eepR - control)/(WT â?? control)), was < 0.5 for 418 of these 712 genes (59%). Pathway analysis of these 2-fold attenuated genes confirmed that they too represented immune/inflammatory responses. These data demonstrate that the serratamolide-deficient eepR mutant evokes a much weaker immune/inflammatory response from a clinically relevant cellular target than does the wild-type bacterium. A common batch of HCLE cells was used. Independent preparations of Serratia marcescens secretomes were made for each experiment.
Project description:Background: Members of E. coli serogroup O45 are porcine enteropathogenic E. coli (PEPEC) strains which cause post-weaning diarrhea and produce characteristic attaching and effacing (A/E) lesions. Most of O45 PEPEC strains possess the locus of enterocyte effacement (LEE), encoding the virulence factors for A/E lesions, and often possess the paa gene, which is thought to contribute to the early stages of PEPEC virulence. Methodology: Nine O45 PEPEC strains and a rabbit enteropathogenic (REPEC) strain, known to produce A/E lesions, were characterized using an E. coli O157-E. coli K12 whole genome microarray and a virulence gene-specific microarray, and by PCR experiments. Results: Based on their virulence genes profiles, the 10 strains were characterized as atypical EPEC. The differences in their genomes pointed to two distinct evolutionary groups of O45 PEPEC, Group I and Group II, and to the contribution these genetic differences have on virulence in pigs. Group I contained the REPEC strain and four O45 PEPEC strains known to induce severe A/E lesions in challenged pigs whereas Group II was composed of five other O45 PEPEC strains which induced less severe or no A/E lesions in challenged pigs. Significant differences between Groups I and II were found in the presence or absence of 50 O-Islands (OIs) or S-loops and 13 K-islands (KIs) or K-loops, including the virulence-associated islands OI#1 (S-loop#1), OI#47 (S-loop#71), OI#57 (S-loop#85), OI#71 (S-loop#108), OI#115, OI#122, and OI#154 (S-loop#253). 10 samples, with two microarrays per sample. Each microarray includes duplicates of every spot.