Abstract
This study has characterized the dominant non-starter Lactobacillus species isolated from different sites in a Stilton cheese to establish its diversity, stress-tolerance, anti-microbial activity and potential contribution to quality of cheese. Fifty-nine Lactobacillus isolates were cultured from the outer crust, blue veins and white core of the cheese and were speciated phenotypically and by 16S rDNA sequence analysis. Lactobacillus plantarum was the dominant species detected with only two isolates identified as Lactobacillus brevis. Strains were typed by pulse-field gel electrophoresis (PFGE) using the enzyme NotI to examine their genomic diversity. Cluster analysis of PFGE patterns produced five major clusters which associated isolates with their sites of isolation within the cheese. One L. plantarum isolate from each cheese site was selected and evaluated for salt, acid, relative humidity, and heat tolerance to determine whether stress conditions within the isolation site selected their phenotype. D72°C values were 6, 13, and 17 s for strains from the crust, veins and core, respectively, suggesting strains on the crust may not have been able to survive pasteurization and therefore had been added post-pasteurization. All strains recovered from heat injury within 24–48 h at 4°C. pH values of 3, 3.5, and 4 suppressed growth but strains showed a varying ability to grow at pH 4.5 and 5; isolates from the core (which has the lowest pH) were the most acid-tolerant. All strains grew at 3.5 and 5% salt but were suppressed at 10%; those from the crust (which has a lower water activity) were the most halo-tolerant, growing at 8% salt whereas strains from the core were sensitive to this salt concentration. All 57 L. plantarum isolates were examined for antimicrobial activity and variable activity against Lactobacillus pentosus and other genera was demonstrated; plantaricin EF genes were present in 65% of strains. It was concluded that there are varied phenotypes and genotypes of Lactobacillus in a Stilton cheese according to site of isolation. Occurrence of different L. plantarum genotypes could contribute to variation in the cheese quality from batch to batch and provides criteria for selecting isolates as potential adjunct cultures.
Highlights
Stilton is a protected designation of origin (PDO) mold-ripened semisoft blue-veined cheese made from pasteurized cows’ milk in the United Kingdom
Kluyveromyces lactis and Debaryomyces hansenii were found to be the dominant yeasts in the blue veins whereas Candida catenulata and Yarrowia lipolytica were mostly found in the outer crust and white core (Gkatzionis et al, 2014)
The cell-free supernatant (CFS) with activity against L. pentosus was only obtained from Lactobacillus isolated from the blue veins and white core. These results suggested that, under our experimental conditions, the CFS of L. plantarum isolates could only show antagonism against Gram-negative bacteria and closely related members of the Lactic acid bacterial (LAB) group such as L. pentosus
Summary
Stilton is a protected designation of origin (PDO) mold-ripened semisoft blue-veined cheese made from pasteurized cows’ milk in the United Kingdom. The bacterial community structure in these cheese sites was found to be different in each section, comprising L. lactis, Enterococcus faecalis, Lactobacillus plantarum, Lactobacillus curvatus, Leuconostoc mesenteroides, Staphylococcus equorum, and Staphylococcus sp., with L. plantarum being the dominant species (Hiscox et al, 1940; Sharpe and Brindley, 1956; Whitley, 2002; Ercolini et al, 2003) This complex microbiota is responsible for ripening leading to the typical aroma development of the cheese, the composition is fortuitous, through accidental introduction during production, and not directly controlled by the producer. It may reflect the source of introduction of each isolate
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