Project description:This study is the first to show transfer of regulatory bacterial sRNAs from bacterial OMVs to host cells. Demonstration of transfer of bacterial sRNA from Pseudomonas aeruginosa OMVs to host cells in two cell types. RNA isolated from PA14 OMV exposed primary human bronchial epithelial cells or CFBE41o- bronchial epithelial cells as well as unexposed control cells was analyzed by small RNA-Seq. Primary cell exposures were performed on two donors and exposures of CFBE41o- cells were done in triplicate.

Project description:We analyzed the transcriptional profile of P.aeruginosa PA14 grown under 14 different environmental conditions. These included conditions of growth within biofilms, at various temperatures, osmolarities and phosphate concentrations, under anaerobic conditions, attached to a surface and conditions encountered within the eukaryotic host. We found that >30% of the PA14 genome was differentially regulated at least under one of the 14 environmental conditions (referred to as the adaptive transcriptome). Most of the genes were also differentially regulated upon sigma factor hyper expression and/or inactivation (GEO accession number GSE54999) and many of those belonged to primary alternative sigma factor regulons. The samples of P. aeruginosa PA14 wild type strain were cultivated under 14 different experimental conditions and were analyzed by RNA-seq. For each condition, at least two biological replicates were generated Please note that PA14 is our standard lab strain used for all generated data in this records. There is no mutation introduced for any of those experiments, and thus, the descriptions only highlight the growth conditions.

Project description:Gene regulation via transcription factors influences the metabolic, adaptive and pathogenic capabilities of the organism. We report the transcriptomes of the mutants of six major P. aeruginosa PA14 trancription factors - RhlR, LasR, Anr, GacA, FleQ and CbrB. The P. aeruginosa PA14 transposon mutants were analyzed by RNA-seq. All samples were cultivated in LB medium until reaching an OD600 of 2.0. For each biological replicate, three cultures were pooled for RNA extraction, library preparation and sequencing.

Project description:A transcriptome analysis was performed using RNA sequencing to uncover the cellular responses of Pseudomonas aeruginosa PA14 to SPI031. To assess the direct effects of the compound on cellular processes, the transcription profile was determined from cells treated for 5 min with a sub-inhibitory concentration of SPI031 (0.2x MIC).

Project description:Two-component systems (TCS) serve as basic stimulus-response coupling mechanisms to allow organisms to sense and respond to a large variety of environmental conditions. In the opportunistic pathogen Pseudomonas aeruginosa, more than 100 genes encode TCS components. To avoid unwanted cross-talk between TCSs, the signaling cascades are usually very specific, with one sensor talking to its cognate response regulator. However, cross-regulation may provide effective means to integrate different environmental stimuli into a harmonized output response and thus to coordinate gene expression in response to complex and challenging habitats. Here, we applied a protein-fragment complementation assay (PCA) and identified a direct interaction of two response regulators of the OmpR/PhoB subfamily, namely PhoB and TctD in P. aeruginosa in vivo. Transcriptional profiling and ChIP-seq analysis uncovered adjacent bipartite binding motifs of the two response regulators in 8 promoter regions, of which 6 showed a common PhoB-TctD binding motif with a fixed spacing between the two motifs. We further demonstrate that phosphate limitation exhibits a PhoB-dependent activating activity on the expression of those genes, whereas the presence of a preferred carbon source inhibits gene expression in a TctD-dependent manner. Thus, the perception and the integration of two important environmental signals are achieved by a titration of the relative amounts of two phosphorylated response regulators that inversely regulate a common subset of genes. In conclusion, our results shed light on the general principles underlying two-component signal transduction pathways and the exploitation of cross-regulation to adapt bacterial behavior to complex environments. Transcriptome profiling of the UCBP-PA14 phoB and tctD mutants complemented by phoB ChIP-seq experiments.

Project description:Sigma factors are master regulators of bacterial transcription which direct gene expression of specific subsets of genes. In particular, alternative sigma factors are well-known to be key players of bacterial adaptation to changing environments. To elucidate the regulatory network of sigma factors in P. aeruginosa, an integrative approach including ChIP-seq of 11 polyhistidine-tag sigma factors was performed to define the primary regulon of each sigma factor. Sigma factor genes were fused to a polyhistidine-tag and provided in trans. Under optimal conditions regarding sigma factor activity and induction of sigma factor expression, DNA-sigma factor interactions were conserved by formaldehyde treatment. Upon DNA fragmentation by sonication, the complexes were specifically immunoprecipitated by polyclonal anti-6X His-tag antibodies and the purified DNA was analyzed by Illumina sequencing. DNA enrichment to a control strain was calculated and used for peak calling within promoter region (-500,+100) to identify directly regulated genes/operons.

Project description:DNA methylation is highly dynamic during mammalian embryogenesis. It is broadly accepted that the paternal genome is actively depleted of global cytosine methylation at fertilization, followed by passive depletion that reaches a minimum at the blastocyst stage. However, this model is based on limited data, and to date no base-resolution maps exist to support and refine it. Here, we generated genome-scale DNA methylation maps in mouse gametes and through post-implantation embryogenesis. We find that the oocyte already exhibits global hypomethylation, most prominently at specific subfamilies of LINE-1 and LTR-containing retro-elements, which are disparate between gametes and resolve to lower methylation values in zygote. Surprisingly, the oocyte contributes a unique set of Differentially Methylated Regions (DMRs), including many CpG Island promoter regions, that are maintained in the early embryo but are lost at the onset of embryonic specification and absent in somatic cells. In contrast, sperm contributed methylation includes retrotransposons that become completely methylated after the blastocyst stage. Our data provide a complete genome-scale, base-resolution timeline of DNA methylation in the pre-specified embryo, when this epigenetic modification is most dynamic and before returning to the canonical somatic pattern. Comparison of DNA methylation patterns in mouse gametes and through embryogenesis using Reduced Representation Bisulfite Sequencing (RRBS)

Project description:20 P. aeruginosa strains were genotyped using a custom spotted oligo array (Ausubel P. aruginosa genotyping 4.8K v1), which included primarily oligos for genes present in strain PA14 but absent in PAO1, and oligos for genes present in PAO1 but absent in PA14 (as well as controls).

Project description:In this study we further investigate the previously observed syntrophic interaction between Geobacter sulfurreducens and Pseudomonas aeruginosa. In early coculture establishment, two genetic variants of G. sulfurreducens emerged that were strongly selected for throughout coculture evolution. Single nucleotide polymorphism (SNP) variants occurred in fabI and tetR genes of G. sulfurreducens. The tetR variants displayed upregulation of adenylate cyclase transporter, CyaE and of RND efflux pump proteins as determined through SWATH-MS proteomics.

Project description:This SuperSeries is composed of the SubSeries listed below. Refer to individual Series