J. A. W. Morgan

A Cystic Fibrosis Epidemic Strain of Pseudomonas aeruginosa Displays Enhanced Virulence and Antimicrobial Resistance

The Liverpool epidemic strain (LES) of Pseudomonas aeruginosa is a transmissible aggressive pathogen of cystic fibrosis (CF) patients. We compared transcriptome profiles of two LES isolates with each other and with a laboratory and genetic reference strain (PAO1) after growth to late exponential phase and following exposure to oxidative stress. Both LES isolates exhibited enhanced antimicrobial resistances linked to specific mutations in efflux pump genes. Although transcription of AmpC beta-lactamase was up-regulated in both, one LES isolate contained a specific mutation rendering the ampC gene untranslatable. The virulence-related quorum-sensing (QS) regulon of LES431, an isolate that caused pneumonia in the non-CF parent of a CF patient, was considerably up-regulated in comparison to either isolate LES400, associated with a chronic CF infection, or strain PAO1. Premature activation of QS genes was detected in isolates from both non-CF parents and the CF patient in a previously reported infection episode. LES isolates lacking the up-regulated QS phenotype contained different frameshift mutations in lasR. When fed to Drosophila melanogaster, isolate LES431 killed the fruit flies more readily than either isolate LES400 or strain PAO1, indicating that virulence varies intraclonally. The LES may represent a clone with enhanced virulence and antimicrobial resistance characteristics that can vary or are lost due to mutations during long-term colonization but have contributed to the successful spread of the lineage throughout the CF population of the United Kingdom.

Flagellin gene and protein variation amongst clinical isolates of Pseudomonas aeruginosa.

Flagellin gene sequences from 64 clinical isolates of the opportunistic pathogen Pseudomonas aeruginosa were amplified by PCR and subjected to RFLP analysis by using seven restriction enzymes to digest the amplified products. Using this approach the isolates were assigned to one of 13 groups. The method was rapid, reproducible and applicable to all isolates. In contrast, serotyping failed to satisfactorily resolve 49% of the strains tested. The vast majority of clinical isolates generated amplified products of 1.02 kb (type a) or 1.25 kb (type b). Electron microscopical analysis revealed evidence fax some. flagellar structural variation between P. aeruginosa strains. This study provides further evidence that the flagellin gene is a widely applicable and useful genetic marker for studying genetic variation within populations of closely related bacteria.

Survival of Xenorhabdus nematophilus and Photorhabdus luminescens in water and soil

Strains of Xenorhabdus nematophilus and Photorhabdus luminescenswere genetically marked with kanamycin resistance and the xylE gene to aid theirdetection in water and soil. Following release in river water, cells declined to undetectable levelsin 6 d. In sterile river water, this decline was enhanced with cells detectable for only 2 d. In sterileMilli‐Q purified water, the decline was slower than in either sterile or non‐sterile river water.Survival in soil was also restricted with cells only detectable for 7 d. These experiments indicatedthat both X. nematophilus and P. luminescens have limited survival orcompetitive abilities in these environments. The faster decline of populations in sterile river waterwas unexpected, and the possible formation of specialized survival stages was investigated. Insterile water, a non‐culturable but viable population of cells was detected, indicating that cellsmay survive longer than anticipated in the environment and remain undetectable using standardmicrobiological methods. The implications of this work to the use of these strains in biologicalcontrol and the release of genetically‐modified micro‐organisms is discussed.

Microbial community responses associated with the development of oomycete plant pathogens on tomato roots in soilless growing systems

Aims:  To determine the spread of different oomycete pathogens in hydroponic, soilless tomato growing systems and their impact on established microbial communities, as baseline studies prior to future introduction of microbial inoculants for disease suppression.

Molecular cloning of two Pseudomonas flagellin genes and basal body structural genes

Pseudomonas putida strains PaW8 and PRS2000 produce flagellins with apparent molecular masses of 81 kDa and 50 kDa respectively. Two Tn5 insertion mutants of P. putida PaW8 lacking the ability to bind the flagellin-specific monoclonal antibody MLV1 were isolated. Mutant PaW8-flg2 contained a Tn5 insertion within a 2.6 kb EcoRI fragment of the P. putida chromosome carrying putative basal body genes. DNA and deduced protein sequences suggested the presence on this fragment of two complete genes homologous to flgH and flgI from Salmonella typhimurium. The insertion of Tn5 occurred in the flgI locus and appeared severely to reduce expression of the P. putida flagellin gene. A Tn5-containing fragment of DNA from a second mutant, PaW8-flg1, was cloned and found to contain sequences that hybridized strongly with the Pseudomonas aeruginosa flagellin gene. A 2.3 kb HindIII fragment containing all but 62 bp of the P. putida PaW8 flagellin gene was cloned and used as a probe to identify clones carrying the equivalent gene from P. putida PRS2000. Flagellin genes from both P. putida strains were sequenced and their amino acid sequences deduced. Both flagellins were found to contain conserved amino- and carboxy-terminal regions when compared to other flagellins, with the central region being more variable. The epitope for MLV1 is likely to lie within this central region of P. putida PaW8 flagellin. The deduced molecular mass of P. putida PaW8 flagellin (68 kDa) differed significantly from its apparent molecular mass estimated by PAGE, possibly as a consequence of post-translational modification.(ABSTRACT TRUNCATED AT 250 WORDS)

The flagellin gene as a stable marker for detection of Pseudomonas fluorescens SBW25

Flagellin gene central regions from 111 isolates of Pseudomonas fluorescens SBW25 obtained from soil during a field release experiment were analysed using a combined PCR/RFLP technique to look for variation. In addition, a 858 bp flagellin gene sequence from the original strain and the last isolate obtained from the release site were compared. There was no variation in flagellin gene sequences indicating that the gene was stable over the period of the release, and that the flagellin gene is a suitable marker for use in the detection of bacteria in release experiments. A comparison of Pseudomonas fluorescens SBW25 flagellin with other sequenced flagellins revealed closest homology to the flagellin of Ps. putida PRS2000.

Plasmid Stability and the Expression and Regulation of a Marker Gene in Acinetobacter and other Gram-Negative Hosts

Much controversy has been raised over the possible intentional release of genetically engineered microorganisms (GEMs) into the natural environment. The potential for microbial detoxification of pollutants, crop protection and improved plant productivity make the proposition an attractive one. However, before any such release can be permitted, there is a need to understand the mechanisms of survival, expression, transfer and rearrangement of recombinant DNA in microbial communities.