Characterisation of rhamnolipid biosynthesis in Pseudomonas aeruginosa PA01

Price, Bianca Louise

January 2011

No description available.

572

Pseudomonas aeruginosa

Molecular and genetic analysis of Type III secretion system expression in Pseudomonas aeruginosa

Chung, Jade Chui Shan

January 2012

No description available.

572

Pseudomonas aeruginosa

Bacteriophage, lysozyme and antiserum effect on viral-simulated plaques by Pseudomonas aeruginosa in HeLa

Coleman, Richard Glenn, 1943-

January 1967

No description available.

Pseudomonas aeruginosa.

Bacteriophages.

Lysozyme.

Methods for the production, measurement, and determination of immunospecificity of toxin Z by several strains of Pseudomonas aeruginosa

Wong, Francis Sze-Ho, 1949-

January 1976

No description available.

Pseudomonas aeruginosa.

Immunospecificity.

Toxins.

Enumeration of heat- and cold-stressed Pseudomonas aeruginosa utilizing selective procedures

Fuller, Janet Carol Kukulinsky, 1952-

January 1976

No description available.

Pseudomonas aeruginosa.

Bacteriology -- Technique.

Chloramphenicol effects on growth, enzymatic activities and metabolism of the parental and a resistant strain of Pseudomonas aeruginosa

Mahmourides, George.

January 1983

When Pseudomonas aeruginosa ATCC 9027 var. RCII, a chloramphenicol-tolerant substrain, is grown in a phosphate limited, complex medium, along with the drug (150 (mu)g/ml), it accumulates high intracellular levels of inorganic phosphate and fails to synthesize normal levels of alkaline phosphatase and pyocyanine. Glucose transport is additionally hindered, and, accordingly, extracellular glucose is mainly oxidized to 2-ketogluconate. The preference of NAD(H)-linked enzymatic activities suggests the absence of transhydrogenase activity. The cytochrome content and intracellular ATP pool of this substrain are also greater. The ATP pool is further augmented when chloramphenicol is omitted from the medium. H('+)/O analysis confirmed that the substrain gained one additional ATP conservation site. Drug tolerance in P. aeruginosa ATCC 9027 is clearly accompanied by greater energy production. Slower growth arises since more energy is delegated towards maintenance and survival in the presence of the drug.

Chloramphenicol.

Pseudomonas aeruginosa.

PA3719-Mediated Regulation of the MexAB-OprM Efflux System of Pseudomonas aeruginosa

Klinoski, Rachel Lynne

26 September 2007

Intrinsic antimicrobial resistance of the opportunistic human pathogen Pseudomonas aeruginosa has mainly been attributed to the presence of several chromosomally-encoded multidrug efflux systems. The MexAB-OprM system exports the largest range of structurally unrelated antimicrobial agents and its expression is modulated by multiple regulatory controls. To develop a better understanding of mexAB-oprM overexpression in nalC mutants, which characteristically produce the effector protein PA3719 that binds and disrupts MexR transcriptional repression of mexAB-oprM, the PA3719-MexR interaction domains were investigated. Using a bacterial two-hybrid system, the C-terminus of PA3719 was found to be sufficient to mediate MexR-binding, and the binding region was found to be distinct from the MexR DNA-binding motif. The two-hybrid system was also used in an attempt to understand the role of PA3720, a protein of unknown function that is also overexpressed in nalC mutants. Results from this study confirm that PA3720 does not function to bind and alleviate NalC transcriptional repression of the PA3720-PA3719 operon. This study also attempted to identify the signals involved in overexpressing PA3720-PA3719, in the hopes to elucidate the natural function of MexAB-OprM. Random transposon mutagenesis using a PA3720-PA3719 promoter-lacZ fusion containing P. aeruginosa strain was conducted, but failed to clearly identify any disrupted genes associated with PA3720-PA3719 overexpression. Using the same PA3720-PA3719 promoter-lacZ fusion, expression of these genes was assessed as a function of growth in both wildtype and nalC mutant P. aeruginosa strains. Interestingly, PA3720-PA3719 expression was found to be growth-regulated, with an increased amount of expression occurring in late log/early stationary phase, even in the absence of nalC. This suggests that another regulator(s) is/are involved in modulating PA3720-PA3719 levels in late log/early stationary phase. Since PA3719 ultimately influences mexAB-oprM expression, its involvement in mediating growth-phase mexAB-oprM expression was assessed by examining mexA expression in both wildtype and PA3719 deletion P. aeruginosa strains. PA3719 was found to be involved in some, but not all, of the growth phase control of mexAB-oprM. These results suggest that mexAB-oprM growth-phase regulation is complex, as both MexR-dependent and MexR-independent regulatory pathways seem to exist. Overall, this study has produced a better understanding of mexAB-oprM regulation in nalC mutant P. aeruginosa strains. / Thesis (Master, Microbiology & Immunology) -- Queen's University, 2007-09-25 19:00:42.929

Multidrug Efflux

Pseudomonas aeruginosa

Chromosomal Determinants of Aminoglycoside Resistance in Pseudomonas aeruginosa

Krahn, Thomas

25 September 2012

Pseudomonas aeruginosa is an opportunistic pathogen found in soil and aquatic environments that possesses a broad range of intrinsic antibiotic resistance mechanisms, including a highly impermeable outer membrane and several RND-type efflux pumps that export a number of clinically relevant antibiotic classes. Chronic P. aeruginosa infections in cystic fibrosis (CF) patients gradually develop high levels of resistance to antimicrobial therapy due to conditions that favour the acquisition and selection of numerous chromosomal mutations, the nature of which are poorly understood. To identify chromosomal contributors to aminoglycoside resistance a P. aeruginosa transposon mutant library was screened for increases in aminoglycoside susceptibility. Six genes of interest (pstB, lptA, faoA, amgR, PA0392, and PA2798) were identified, the deletion of which meaningfully decreased aminoglycoside minimum inhibitory concentrations in wild-type P. aeruginosa. Combinations of gene deletions were constructed to determine if any of these genes contributed to aminoglycoside resistance via a common mechanism or whether they operated independently to promote intrinsic aminoglycoside resistance. In all cases, double deletion had an additive impact on aminoglycoside susceptibility, suggesting that each gene of interest contributes to resistance through an independent mechanism. Deletions in pstB, lptA, faoA, amgR, PA0392, and PA2798 were introduced into pan-aminoglycoside-resistant CF-lung isolates where they dramatically compromised aminoglycoside resistance, indicating that these genes also contribute to acquired aminoglycoside resistance in chronic P. aeruginosa infections. A fluorimetric assay was developed to measure aminoglycoside-induced membrane depolarization using the voltage sensitive probe DIBAC4(3). Gentamicin-induced membrane depolarization was found to be substantially increased in the amgR, pstB, and PA0392 mutant strains when compared to wild-type P. aeruginosa. These increases in depolarization paralleled declines in cell viability as measured by a gentamicin killing assay, suggesting that the cytoplasmic membranes of these mutant strains are more sensitive to the membrane perturbing effects of aminoglycoside-induced mistranslated proteins, and supporting a role for the disruption of the selective barrier of the cytoplasmic membrane in the bactericidal activity of the aminoglycosides. This study describes novel contributors to intrinsic and acquired aminoglycoside resistance in P. aeruginosa, and highlights the importance of membrane functions in resisting these activities. / Thesis (Master, Microbiology & Immunology) -- Queen's University, 2012-09-21 21:27:23.303

antibiotic resistance

pseudomonas aeruginosa

Identification of low molecular weight compounds produced or utilized by pychrotrophic meat spoilage organisms

Moosavi-Nasab, Marzieh.

January 1997

Meat Juice Medium (MJM), an aqueous extract of meat, was inoculated with Pseudomonas aeruginosa and incubated for 7 d at 4$ sp circ$C under shaking conditions (100 rev.min$ sp{-1}$). Two predominant compounds produced during spoilage of MJM were detected using HPLC. These compounds with retention times (RT) of 21.48 and 32.04 min were tentatively identified as acetic and butyric acids, respectively. These compounds were also produced when MJM was replaced with Brain Heart Infusion Broth medium. In later experiments, the effect of glucose supplementation on the rate of MJM spoilage was examined. Glucose 0.5% (wt/vol) was added to the MJM, inoculated with P. aeruginosa and incubated at 30$ sp circ$C under shaking conditions (100 rev.min$ sp{-1}$). HPLC of samples after 1d of incubation indicated the presence of 8 predominant compounds including acetic and butyric acids. Their concentrations were, in general, higher in control samples of MJM without added glucose. Using HPLC, TLC, Pyrolysis/GC/MS, FTIR and GC-MS methodologies, the compounds with RT of 8.91, 9.67, 11.96, 13.33, 17.74, 21.48, 26.07 and 32.04 min were tentatively identified as cadaverine, 2-keto gluconic acid, fructose, lactic acid, acetic acid, methanol and butyric acid. In contrast to the results of previous researchers, cadaverine was produced in large amounts while no putrescine was produced by P. aeruginosa. During the spoilage period, the levels of glucose, fructose and total carbohydrate were monitored. Addition of glucose to MJM delayed slime production by 4 days and increase to maximum pH of 8.3 by 7 days. Results suggest that addition of glucose to MJM delays spoilage by P. aeruginosa.

Meat -- Microbiology.

Pseudomonas aeruginosa.

Primary effects of the tetracyclines on Pseudomonas aeruginosa

Sergeant, Claire

January 1992

Pseudomonas aeruginosa grew in the presence of 10 $ mu$g/ml tetracycline (TC) or chlorotetracycline (CTC) in a minimal medium containing Mg$ sp{++}$. Growth is inhibited, with a six-fold increase in length of the lag phase. Cells revert to sensitivity when returned to antibiotic-free medium. Substitution of Mg$ sp{++}$ in the growth medium of CTC-resistant strains with Ca$ sp{++}$ and Sr$ sp{++}$ resulted in dramatic changes in growth and cell mass of cultures. Exposure of CTC-grown cells to EDTA did not result in cell lysis. SDS-PAGE of outer membrane proteins of resistant cells revealed loss of a protein band of molecular weight 73,500 D and the appearance of a 54,000 D protein band. Growth of cells resistant to CTC was hampered by subsequent exposure to penicillin G. Chelation of divalent cations from the outer membrane of sensitive cells leading to cell disruption is postulated as the primary mode of action of this antibiotic against P. aeruginosa.

Pseudomonas aeruginosa.

Tetracyclines.