Project description:Investigation of whole genome gene expression level in E. coli rpoS knock-out strain grown up to stationary phase in M9 minimal media supplemented with 0.2% glucose

Project description:The degradation of aromatic compounds comprises an important step in the removal of pollutants and re-utilization of plastics and other non-biological polymers. Here we set out to study Pseudomonas sp. strain phDV1, a gram-negative bacterium that was selected for its ability to degrade aromatic compounds. In order to understand how the aromatic compounds and their degradation products are reintroduced in the metabolism of the bacteria and the systematic/metabolic response of the bacterium to the new carbon source, the proteome of this strain was analysed in the presence of succinate, phenol and o-, m-, p-cresol as sole carbon source. We then applied label-free quantitative proteomics to monitor overall proteome remodeling during metabolic adaptation to different carbon sources. As a reference proteome, we grew the bacteria in succinate and then compared the respective proteomes of bacteria grown on phenol and different cresols. In total, we identified 2295 proteins; 1908 proteins were used for quantification between different growth conditions. We found that 70, 100, 150 and 155 proteins were significantly differentially expressed in cells were grown in phenol, o-, m- and p-cresol-containing medium, respectively. The carbon source affected the synthesis of enzymes related to aromatic compound degradation, and in particular, the enzyme involved in the meta-pathway of monocyclic aromatic compounds degradation. In addition, proteins involved in the production of polyhydroxyalkanoate (PHA), an attractive biomaterial, showed higher expression levels in the presence of monocyclic aromatic compounds.Our results provide for the first time comprehensive information on the proteome response of this strain to monocyclic aromatic compounds.

Project description:The proteome of the anaerobic bacterium Dehalococcoides mccartyi strain CBDB1 from the phylum Chloroflexi was investigated. D. mccartyi strain CBDB1 is a model organism for organohalide respiration where halogenated organic compounds serve as terminal electron acceptors. A wide range of halogenated organic compounds have been shown to be dehalogenated by the strain CBDB1. Therefore, D. mccartyi strain CBDB1 is a promising candidate for bioremediation application. Proteomic analysis of cultures grown with hexachlorobenzene as only electron acceptor resulted in identification of 8,491 distinct peptides which represents 1,023 proteins. A coverage of 70% of the 1,458 annotated proteins for strain CBDB1 was achieved. In addition, a spectral library was created from the annotated spectra. By using proteogenomics, 18 previously not annotated peptides were identified which contribute to four proteins previously not annotated and corrections in length of eight protein coding sequences.

Project description:M. catarrhalis strain O35E.rpsl was inoculated into the nasopharynx of healthy, male adult chinchillas. 24 hours later the nasopharyngeal tissues were extracted and homogenized. Total RNA was extracted from these tissue samples. Subsequently, M. catarrhalis genome directed primers were utilized to synthesize cDNA from the total RNA sample. As a control, M.catarrhalis strain O35E.rpsl was grown in BHI broth to a Klett density of 200 units and underwent RNA extraction per standard protocols. The genome directed primers mentioned above were utilized to synthesize cDNA. Both cDNA samples were subsequently labelled with either Cy3 or Cy5 and hybridized to a custom Microarrays, Inc. gene chip and scanned after 16 hours. Differential gene expression was measured utilizing the broth grown cells as the baseline and the chinchilla isolated cells as the experimental variable.

Project description:To address the question of how photosynthetic bacterium Rhodopseudomonas palustris differentially regulates gene expression of three nitrogenase isozymes (Mo, V, and Fe nitrogenases), we constructed Mo strain (Mo nitrogenase only strain), V strain (V nitrogenase only strain), and Fe strain (Fe nitrogenase only strain), and analyzed the whole genome transcriptome profiles of each mutant and wild-type cells grown under nitrogen-fixing conditions. Keywords: Genetic modification

Project description:The purpose of the study is to identify iron-responsive genes in the bacterium Bradyrhizobium japonicum. Parent strain LO was grown under iron limitation or under iron sufficiency and compared to each other by whole genome microarray analysis. Keywords: Comparison of cells grown under low or high iron conditons

Project description:The purpose of the study is to identify Irr-responsive genes in the bacterium Bradyrhizobium japonicum. Parent strain LO was compared to irr mutant strain LODTM5 by whole genome microarray analysis. Both cell types were grown in iron-limited media. Keywords: Comparison of B. japonicum wild type and mutant cells

Project description:We showed previously that insertion of Synechocystis 12-desaturase in Salmonellas membrane alters membrane physical state (MPS) followed by the expression of stress genes causing inability to survive within murine macrophages . Recently, we showed that expression of one membrane lipid domain (MLD) of 12-desaturase (ORF200) interferes with Salmonella MPS causing loss of virulence in mice and immunoprotection. We postulated that a putative -AMP intercalates specifically within phospholipids but, depending on its amino acid sequence, does so within particular key sensors of MLD. In this study we choose as target for a putative synthetic AMP, PhoP/PhoQ, a sensor that responds to low Mg2+ concentration during murine macrophages infection. We synthesized a modified DNA fragment coding for an amino acid sequence (NUF) similar to that fragment and expressed it in Salmonella LT2 strain. We show that the pattern of gene expression controlled by PhoP/PhoQ and other pathways involving phospholipids biosynthesis, stress proteins and genes coding for antigens are dysregulated. We also present RNAseq of strain expressing ORF200 and showed that the pattern of the same genes is altered. Accumulation of NUF conferred temporary immunoprotection suggesting that it is possible to address a synthetic peptide to a specific MLD. This represents a powerful procedure to synthesize -AMPs and generate live non virulent strains for vaccination.

Project description:Escherichia coli is a metabolically versatile bacterium that is able to grow in the presence and absence of oxygen. Several previous transcript-profiling experiments have compared separate anaerobic and aerobic cultures. Here, for the first time, the process of adaptation was investigated by determining changes in transcript profiles when anaerobic steady-state cultures were perturbed by the introduction of air. Escherichia coli strain MG1655 was grown in a New Brunswick Scientific Bioflow 1000 fermentation vessels (1.8 l capacity) with culture agitation speed constant at 400 rpm and the temperature maintained at 37 °C. Oxygen levels were monitored using galvanic oxygen electrodes while the pH was maintained at 7.2 ±0.2 by automatic titration with sterile KOH. Evans defined medium was used as the growth medium with glucose (30 mM) as the carbon source with the dilution rate being 0.2 h-1. Anaerobic cultures were maintained by sparging the chemostat with oxygen-free nitrogen (95 %) and carbon dioxide (5 %) (0.2 l min-1). The switch to aerobic conditions was achieved by sparging the culture with air (2.0 l min-1) in place of the above gas mix. After a period of 5, 10, 15 and 60 min exposure to air, cells were harvested directly into RNA Protect (Qiagen) to stabilize RNA before total RNA purification using Qiagen’s Rneasy Midi kit as recommended by manufacturer’s instructions. Keywords: time course response to air

Project description:Escherichia coli is a metabolically versatile bacterium that is able to grow in the presence and absence of oxygen. Here, the process of adaptation was investigated by determining changes in transcript profiles when aerobic steady-state cultures were depleted of air. Escherichia coli strain MG1655 was grown in a New Brunswick Scientific Bioflow 1000 fermentation vessels (1.8 l capacity) with culture agitation speed constant at 300 rpm and the temperature maintained at 37 °C. Oxygen levels were monitored using galvanic oxygen electrodes while the pH was maintained at 7.2 ±0.2 by automatic titration with sterile KOH. Evans defined medium was used as the growth medium with glucose (15 mM) as the carbon source with the dilution rate being 0.2 h-1. Aerobic cultures were maintained by sparging the chemostat with air (0.4 l min-1). The switch to micro-aerobic conditions was achieved by switching off the air sparging the culture. After a period of 5, 10, 15 and 60 min exposure to air, cells were harvested directly into RNA Protect (Qiagen) to stabilize RNA before total RNA purification using Qiagen’s Rneasy Midi kit as recommended by manufacturer’s instructions. Keywords: time-course, oxygen-depletion