Lipolytic and proteolytic activities of micrococci isolated from cheese

Determination of changes in the microbial and chemical composition of Țaga cheese during maturation

Țaga cheese is a traditional Romanian smear-ripened cheese made from bovine milk and identified with the name of the village and caves where it is produced. As no previously reported microbiological and chemical studies have been undertaken on this product, this research aimed to investigate the microbiological and biochemical characteristics which ensure the uniqueness of Țaga cheese during the ripening process, to inform producers as to key quality determinants. Cheese samples, consisting of retail blocks, were collected on days 2, 5, 12, 18, and 25 of the ripening process. The evolution of lactic microbiota during the production and maturation of traditional cheeses involves isolating lactic acid microorganisms present in cheese. Cheese samples were analyzed for pH, fat, NaCl, fatty acids, and volatile compounds. The microbial ecosystem naturally changes during the maturation process, leading to variation in the microorganisms involved during ripening. Our results show that specific bacteria were identified in high levels during the entire ripening process and may be responsible for milk fat lipolysis contributing directly to cheese flavor by imparting detailed fatty acid flavor notes, or indirectly as precursors formation of other flavor compounds.

Effect of lactobacillus adjunct cultures on the microbiological and physicochemical characteristics of Roncal-type ewes’-milk cheese

The effect of two different experimental adjunct cultures composed of native facultatively heterofermentative lactobacilli (FHL) on the development of various groups of micro-organisms in Roncal-type ewes' milk cheese was studied. Four cheese batches were manufactured from raw milk (C), pasteurized milk (P), pasteurized milk and an adjunct culture of Lactobacillus paracasei (PP); and pasteurized milk and adjunct culture of Lactobacillus paracasei plus Lactobacillus plantarum (PPP). Retention of the two adjunct cultures in the cheeses was good, and population levels remained constant at around 10(7) cfu g(-1) of cheese throughout ripening. Levels of Enterobacteriaceae and enterococci fell off more abruptly in the batches made with the Lactobacillus adjunct cultures, suggesting competition between the added lactobacilli and those groups of micro-organisms. The inhibitory effect was greater for the adjunct culture composed of L. paracasei plus L. plantarum. Lactococcal levels were higher in the batches made with added FHL, which may be indicative of a synergistic effect between these two groups.

Evolution of microbial populations during traditional Feta cheese manufacture and ripening

In three different dairies (A, B and C) located in Peloponess region (Southern Greece), traditional Feta cheese trials took place February to March using mixtures of sheep's and goat's milk. Only small variations in the evolution of microbial groups were observed during the whole ripening period. The main groups, such as thermophilic cocci, mesophilic lactococci, thermophilic lactobacilli, nonstarter lactic acid bacteria (NSLAB), presumptive Leuconostoc, enterococci and micrococci, reached their highest levels during the first 16 days, and then declined approximately 1-2 log units until the end of ripening. The remaining groups investigated, comprising yeasts, coliforms and Escherichia coli, were highest at day 4. The yeasts remained constant, while coliforms and E. coli decreased sharply and were not detectable after 120 days of ripening. A number of 146 isolates (dairy A) taken from all stages of the manufacturing and ripening process were purified and studied. Lactobacillus plantarum (58/146) and isolates of related species Lactobacillus pentosus and Lactobacillus paraplantarum (16/146) were the most common microorganisms found during cheese ripening. Streptococcus thermophilus (23/146) and Lactobacillus delbrueckii subsp. bulgaricus (20/146) were detected in high levels up to 20 days, and then gradually reduced. Enterococcus faecium (29/146) was found in all manufacturing and ripening stages.