Mark A. Trend scite author profile

Genotypic and phenotypic methods were applied to investigate differences between the closely related species Campylobacter hyoilei and Campylobacter coli. A unique DNA sequence from C. hyoilei was used to design a specific PCR assay that amplified a DNA product of 383 bp for all C. hyoilei strains, but not other Campylobacter species, including C. coli. The PCR assay could detect 100 fg pure C. hyoilei DNA, 2i10 2 c.f.u. ml N1 using cultured cells and 83i10 3 c.f.u. 01 g N1 in faeces. The C. hyoilei sequence utilized for specific detection and identification of this species showed similarities to sequences from bacteriophages Mu, P2 and 186, suggesting lysogination of the ancestral C. hyoilei genome. Activities of a set of 15 enzymes that participate in a variety of cellular functions, including biosynthesis, catabolism, energy generation, maintenance of redox balance and phosphate utilization, were tested using sets of strains of C. hyoilei and C. coli. Comparison of mean rates of enzyme activities revealed significant differences between species in the values determined for seven of these activities. Both the genetic and phenotypic data indicate that C. hyoilei is a unique Campylobacter species.

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Evasion of the Toxic Effects of Oxygen

Hazell

Harris

Trend

2014

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Mark A. Trend

Oxidases and reductases are involved in metronidazole sensitivity in Helicobacter pylori

Potential Involvement of Several Nitroreductases in Metronidazole Resistance in Helicobacter pylori

Intracellular redox status and antibiotic resistance in enterogastric micro-aerophilic bacteria: evidence for the ‘scavenging of oxygen’ hypothesis

Differentiation between Campylobacter hyoilei and Campylobater coli using genotypic and phenotypic analyses.

Evasion of the Toxic Effects of Oxygen

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