T. M. Cogan scite author profile

Aims: The aim of this work was to investigate the spatial and temporal distribution of species and strains of non-starter lactic acid bacteria (NSLAB) within Cheddar cheese. Methods and Results: Randomly ampli®ed polymorphic DNA was used to identify and track the principle species and strain groups of NSLAB present. The same strains dominated each location examined within a cheese at any particular time point. Temporal change in species and strains of NSLAB during ripening was observed. A mixture of Lactobacillus paracasei, Lact. plantarum, Lact. rhamnosus and unidenti®ed strains was found up to 6 weeks of maturation, thereafter only Lact. paracasei strains were isolated. Conclusions: Little variation in the spatial distribution of NSLAB strains occurs within Cheddar cheese; however, temporal changes in the species and strains were observed during ripening. Signi®cance and Impact of the Study: The complex changes in the composition of the NSLAB community of Cheddar cheese may be the source of the variation in¯avour that is seen in commercial practice.

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Enterococcal diversity in the environment of an Irish Cheddar-type cheesemaking factory

Gelsomino

Vancanneyt

Condón

et al. 2001

International Journal of Food Microbiology

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Manufacture of Cheddar cheese with and without adjunct lactobacilli under controlled microbiological conditions

Lynch

McSweeney

Fox

et al. 1996

International Dairy Journal

135

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Source of Enterococci in a Farmhouse Raw-Milk Cheese

Gelsomino

Vancanneyt

Cogan

et al. 2002

Appl Environ Microbiol

120

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Enterococci are widely distributed in raw-milk cheeses and are generally thought to positively affect flavor development. Their natural habitats are the human and animal intestinal tracts, but they are also found in soil, on plants, and in the intestines of insects and birds. The source of enterococci in raw-milk cheese is unknown. In the present study, an epidemiological approach with pulsed-field gel electrophoresis (PFGE) was used to type 646 Enterococcus strains which were isolated from a Cheddar-type cheese, the milk it was made from, the feces of cows and humans associated with the cheese-making unit, and the environment, including the milking equipment, the water used on the farm, and the cows' teats. Nine different PFGE patterns, three of Enterococcus casseliflavus, five of Enterococcus faecalis, and one of Enterococcus durans, were found. The same three clones, one of E. faecalis and two of E. casseliflavus, dominated almost all of the milk, cheese, and human fecal samples. The two E. casseliflavus clones were also found in the bulk tank and the milking machine even after chlorination, suggesting that a niche where enterococci could grow was present and that contamination with enterococci begins with the milking equipment. It is likely but unproven that the enterococci present in the human feces are due to consumption of the cheese. Cow feces were not considered the source of enterococci in the cheese, as Enterococcus faecium and Streptococcus bovis, which largely dominated the cows' intestinal tracts, were not found in either the milk or the cheese.

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T. M. Cogan

Recent advances in cheese microbiology

Spatial and temporal distribution of non-starter lactic acid bacteria in Cheddar cheese

Enterococcal diversity in the environment of an Irish Cheddar-type cheesemaking factory

Manufacture of Cheddar cheese with and without adjunct lactobacilli under controlled microbiological conditions

Source of Enterococci in a Farmhouse Raw-Milk Cheese

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