Danielle Desiree Ringoir scite author profile

The enteric pathogen Campylobacter jejuni is a highly prevalent yet fastidious bacterium. Biofilms and surface polysaccharides participate in stress survival, transmission, and virulence in C. jejuni; thus, the identification and characterization of novel genes involved in each process have important implications for pathogenesis. We found that C. jejuni reacts with calcofluor white (CFW), indicating the presence of surface polysaccharides harboring ␤1-3 and/or ␤1-4 linkages. CFW reactivity increased with extended growth, under 42°C anaerobic conditions, and in a ⌬spoT mutant defective for the stringent response (SR). Conversely, two newly isolated dim mutants exhibited diminished CFW reactivity as well as growth and serum sensitivity differences from the wild type. Genetic, biochemical, and nuclear magnetic resonance analyses suggested that differences in CFW reactivity between wild-type and ⌬spoT and dim mutant strains were independent of well-characterized lipooligosaccharides, capsular polysaccharides, and N-linked polysaccharides. Targeted deletion of carB downstream of the dim13 mutation also resulted in CFW hyporeactivity, implicating a possible role for carbamoylphosphate synthase in the biosynthesis of this polysaccharide. Correlations between biofilm formation and production of the CFW-reactive polymer were demonstrated by crystal violet staining, scanning electron microscopy, and confocal microscopy, with the C. jejuni ⌬spoT mutant being the first SR mutant in any bacterial species identified as up-regulating biofilms. Together, these results provide new insight into genes and processes important for biofilm formation and polysaccharide production in C. jejuni.

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Colonisation phenotype and colonisation potential differences in Campylobacter jejuni strains in chickens before and after passage in vivo

Ringoir

Korolik

2003

Veterinary Microbiology

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Comparison of 2-day-old and 14-day-old chicken colonization models forCampylobacter jejuni

Ringoir

Szylo

Korolik

2007

FEMS Immunol Med Microbiol

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In this study, we compared two types of chicken infection models for Campylobacter jejuni in terms of infectious dose required to colonize the chickens and the susceptibility of chickens of different ages to persistent colonization by C. jejuni. In one model, chickens at day 2 posthatching were used, and in the other, 14-day-old chickens were used. The minimum C. jejuni cell number required to colonize 14-day-old chickens was 5 Â 10 4 cells, and that for 2-day-old chickens was 5 Â 10 3 . The ability of various C. jejuni strains to colonize the chicken gastrointestinal tract was the same in both models.

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Potential use of characterised hyper-colonising strain(s) of Campylobacter jejuni to reduce circulation of environmental strains in commercial poultry

Calderón-Gómez

Hartley

McCormack

et al. 2009

Veterinary Microbiology

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