R. W. Haylock scite author profile

BackgroundPseudomonas aeruginosa is considered to grow in a biofilm in cystic fibrosis (CF) chronic lung infections. Bacterial cell motility is one of the main factors that have been connected with P. aeruginosa adherence to both biotic and abiotic surfaces. In this investigation, we employed molecular and microscopic methods to determine the presence or absence of motility in P. aeruginosa CF isolates, and statistically correlated this with their biofilm forming ability in vitro.ResultsOur investigations revealed a wide diversity in the production, architecture and control of biofilm formation. Of 96 isolates, 49% possessed swimming motility, 27% twitching and 52% swarming motility, while 47% were non-motile. Microtitre plate assays for biofilm formation showed a range of biofilm formation ability from biofilm deficient phenotypes to those that formed very thick biofilms. A comparison of the motility and adherence properties of individual strains demonstrated that the presence of swimming and twitching motility positively affected biofilm biomass. Crucially, however, motility was not an absolute requirement for biofilm formation, as 30 non-motile isolates actually formed thick biofilms, and three motile isolates that had both flagella and type IV pili attached only weakly. In addition, CLSM analysis showed that biofilm-forming strains of P. aeruginosa were in fact capable of entrapping non-biofilm forming strains, such that these 'non-biofilm forming' cells could be observed as part of the mature biofilm architecture.ConclusionsClinical isolates that do not produce biofilms in the laboratory must have the ability to survive in the patient lung. We propose that a synergy exists between isolates in vivo, which allows "non biofilm-forming" isolates to be incorporated into the biofilm. Therefore, there is the potential for strains that are apparently non-biofilm forming in vitro to participate in biofilm-mediated pathogenesis in the CF lung.

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Changes in microbial populations during anaerobic flax retting

Donaghy

Levett

Haylock

1990

Journal of Applied Bacteriology

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Donaghy, J.A., Levett, P.N. & Haylock, R.W. 1990. Changes in microbial populations during anaerobic flax retting. Journal of Applied Bacteriology69, 634–641. The bacterial flora of industrial and laboratory scale anaerobic flax rets were determined at intervals throughout the rets. Although after an initial lag period total bacterial numbers remained roughly constant there were fluctuations in the bacterial species constituting the total. Pure culture rets and enzyme assays were used to determine which strains had retting potential. Of the strains demonstrated to have retting ability Bacillus licheniformis and B. subtilis were numerically dominant from 10 to 40 h and were succeeded in dominance by Clostridium acetobutylicum and Cl. felsineum.

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Quantification of Clostridium botulinum Toxin Gene Expression by Competitive Reverse Transcription-PCR

McGrath¹,

Dooley²,

Haylock³

2000

Appl Environ Microbiol

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Clostridium botulinum produces a characteristic botulinum neurotoxin which can cause an often fatal neuroparalytic condition known as botulism. Although food-borne botulism is rare, critical screening by food companies is necessary to ensure that food products are safe. At present, the food industry assesses the risks of botulinum neurotoxin production by challenge testing to check any new food products and to check the efficacy of new storage regimes. Challenge testing involves artificial introduction of defined strains of microorganisms into food, and microbial growth and possible toxin production are then monitored. Botulinum toxin is normally analyzed by using the mouse bioassay. However, the mouse bioassay is expensive, slow, and politically sensitive because of animal rights issues. In this paper we describe adaptation of a new assay, competitive reverse transcription-PCR (RT-PCR), to monitor botulinum neurotoxin production. This method accurately measures the level of toxin-encoding mRNA in C. botulinum cells. Measurement of mRNA should provide a good indication of gene expression as mRNA is turned over rapidly in bacterial cells. In addition, the method is rapid, specific, and sensitive. The competitive RT-PCR method was developed to examine C. botulinum E VH toxin gene expression and was used to investigate the level of toxin production by C. botulinum E VH when the organism was grown in two different types of broth. The results which we obtained with the competitive RT-PCR method demonstrated that this method is more rapid and more sensitive than the mouse bioassay.

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Dikaryon Formation in Coprinus cinereus: Selection and Identification of B Factor Mutants

1980

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~Mutations in the B incompatibility factor of Coprinus cinereus were obtained using two techniques. Both selected for the expression of B-controlled functions (associated with nuclear migration during dikaryon morphogenesis) in heterokaryotic mycelia where these were blocked by having identical B alleles present. The first technique selected for clamp cell fusion in a common B heterokaryon, the second selected for septum dissolution in a heterokaryon following a common B mating. Two mutants, one derived by each of the selection techniques, were studied in detail. In both, mutation was inseparable by recombination from the B locus and resulted in self-compatibility. Mutant monokaryons had uninucleate cells and intact septa. Thus, full regulatory control of morphogenesis in the mutant monokaryon was maintained. However, both mutations promoted clamp cell fusion in dikaryons formed between the mutants and monokaryons having the progenitor B allele or the mutant self allele. Therefore, mutation leads to the loss of regulation of clamp cell fusion. A combination of a B mutation and an A mutation (Amut Bmut) in the same nucleus gave a haploid mycelium which resembled a true dikaryon; thus, both the A and B morphogenetic sequences which are expressed in the dikaryon were operating, However, these dikaryons were not fertile.

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The Application of Fungal Enzymes in Flax Retting and the Properties of an Extracellular Polygalacturonase From Penicillium Capsulatum

Gillespie¹,

Keane²,

Griffin³

et al. 1990

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R. W. Haylock

Pseudomonas aeruginosa Cystic Fibrosis isolates of similar RAPD genotype exhibit diversity in biofilm forming ability in vitro

Changes in microbial populations during anaerobic flax retting

Quantification of Clostridium botulinum Toxin Gene Expression by Competitive Reverse Transcription-PCR

Dikaryon Formation in Coprinus cinereus: Selection and Identification of B Factor Mutants

The Application of Fungal Enzymes in Flax Retting and the Properties of an Extracellular Polygalacturonase From Penicillium Capsulatum

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