Project description:Pseudomonas phage YZU-PF-006 isolate:sewage Genome sequencing

Project description:Enterobacter phage PF-CE2 Genome sequencing

Project description:Explore the genome-scale influence of PA3 phage gene product gp68 on Pseudomonas aeruginosa PA3

Project description:12 Pseudomonas filamentous phage Pf-like

Project description:This SuperSeries is composed of the following subset Series: GSE29319: Iron-starvation effect on transcriptome of Pseudomonas fluorescens Pf-5: iron(II) chloride GSE29320: Iron-starvation effect on transcriptome of Pseudomonas fluorescens Pf-5: iron(III) chloride Refer to individual Series

Project description:The GacS/GacA signal transduction system is a central regulator in Pseudomonas spp., including the biological control strain P. fluorescens Pf-5, in which GacS/GacA controls the production of secondary metabolites and exoenzymes that suppress plant pathogens. A whole genome oligonucleotide microarray was developed for Pf-5 and used to assess the global transcriptomic consequences of a gacA mutation in P. fluorescens Pf-5. In cultures at the transition from exponential to stationary growth phase, GacA significantly influenced transcript levels of 632 genes, representing more than 10% of the 6147 annotated genes in the Pf-5 genome. Transcripts of genes involved in the production of hydrogen cyanide, the antibiotic pyoluteorin, and the extracellular protease AprA were at a low level in the gacA mutant, whereas those functioning in siderophore production and other aspects of iron homeostasis were significantly higher in the gacA mutant than in wild-type Pf-5. Notable effects of gacA inactivation were also observed in the transcription of genes encoding components of a type VI secretion system and cytochrome C oxidase subunits. Two novel gene clusters expressed under the control of gacA were identified from transcriptome analysis, and we propose global-regulator-based genome mining as an approach to decipher the secondary metabolome of Pseudomonas spp.

Project description:Pf-5 is an important biocontrol strain of Pseudomonas fluorsecens, that improves plant growth, mainly via the production of secondary metabolites and growth/colonisation competition. Copper is a broad-spectrum antimicrobial that is effective against bacteria, fungi and even viruses in soluble forms such as copper sulfate and to a lesser extent in solid form, such as copper surfaces. Copper sulfate is commonly sprayed on food crops to increase yield and is becoming more routinely used due to the increasing problem of resistance to standard pesticides. Thus, an obvious question that remains is: what effect is this introduced copper having on these important biocontrol strains? First, the phenotypic effects of copper on carbon utilisation and pH tolerance was tested using Biolog. Interestingly, the ability of Pf-5 to utilise amino acids as a sole carbon source was largely unaltered, but the presence of copper completely eliminated the utilisation of carbohydrates or fatty acids, and diminished the use of carboxylic acids and amines. This could be explained by copper-mediated disruptions of enzymes in metabolic pathways, such as the TCA cycle. The effect on gene expression was examined using reverse transcriptomics, which established molecular bases for the phenotypic results, and confirmed some known mechanisms for copper resistance, efflux and transporter proteins, and highlighted the delicate interplay with cellular control of iron, as well as uncovered the interesting relationship between integrated bacteriophage and copper as a molecular switch. The integrated phage, Prophage 01, was downregulated in the presence of copper and when this phage was activated with Mitomycin C, the copper appeared to stop the phage from going into lytic cycle and protected lysis of the cells. Prophage 01 is integrated between the housekeeping genes mutS and cinA and is conserved throughout many Pseudomonas. However, only Pf-5, out of the 10 strains tested seemed to be protected from cell lysis by copper, indicating that Prophage 01 in Pf-5 has unique features that interact with Cu. Two-condition experiment, where normal culture in rich medium versus cell treated with CuSO4. 3 biological replicates including 3 technical replicates for one of the biological replicates and 2 technical replicates for another of biological replicates. Swap-dye experiments were performed.

Project description:Pf-5 is an important biocontrol strain of Pseudomonas fluorsecens, that improves plant growth, mainly via the production of secondary metabolites and growth/colonisation competition. Copper is a broad-spectrum antimicrobial that is effective against bacteria, fungi and even viruses in soluble forms such as copper sulfate and to a lesser extent in solid form, such as copper surfaces. Copper sulfate is commonly sprayed on food crops to increase yield and is becoming more routinely used due to the increasing problem of resistance to standard pesticides. Thus, an obvious question that remains is: what effect is this introduced copper having on these important biocontrol strains? First, the phenotypic effects of copper on carbon utilisation and pH tolerance was tested using Biolog. Interestingly, the ability of Pf-5 to utilise amino acids as a sole carbon source was largely unaltered, but the presence of copper completely eliminated the utilisation of carbohydrates or fatty acids, and diminished the use of carboxylic acids and amines. This could be explained by copper-mediated disruptions of enzymes in metabolic pathways, such as the TCA cycle. The effect on gene expression was examined using reverse transcriptomics, which established molecular bases for the phenotypic results, and confirmed some known mechanisms for copper resistance, efflux and transporter proteins, and highlighted the delicate interplay with cellular control of iron, as well as uncovered the interesting relationship between integrated bacteriophage and copper as a molecular switch. The integrated phage, Prophage 01, was downregulated in the presence of copper and when this phage was activated with Mitomycin C, the copper appeared to stop the phage from going into lytic cycle and protected lysis of the cells. Prophage 01 is integrated between the housekeeping genes mutS and cinA and is conserved throughout many Pseudomonas. However, only Pf-5, out of the 10 strains tested seemed to be protected from cell lysis by copper, indicating that Prophage 01 in Pf-5 has unique features that interact with Cu.

Project description:This SuperSeries is composed of the following subset Series: GSE33907: Tannic acid (20 µg/ mL) treatment effect on transcriptome of Pseudomonas fluorescens Pf-5 GSE33908: Tannic acid (160 µg/ mL) treatment effect on transcriptome of Pseudomonas fluorescens Pf-5 Refer to individual Series

Project description:The global transcriptional profile of novel T7-like Pseudomonas aeruginosa phage LUZ100 was obtained using the long read RNA sequencing technique ONT-cappable-seq. Using this approach we obtained a comprehensive genome-wide map of viral transcription start sites, terminators and transcription units and gained new insights in the molecular mechanisms of transcriptional regulation of T7-like temperate phages.