The effect of a commercial starter culture addition on the ripening of an artisanal goat's cheese (Cameros cheese)

The evolution of physicochemical parameters, and the most important microbial groups, were determined for the following three batches of 'Cameros' goat's milk cheese during ripening: Batch R elaborated with raw milk, Batch RS elaborated with raw milk and with the addition of a starter culture, and Batch PS elaborated with pasteurized milk and with the addition of the same culture. No differences in total solids (TS) or in the content of NaCl, fat and total nitrogen (expressed as percentages of TS) were found during the ripening. The pH, fat acidity and non-protein nitrogen (NPN, expressed as a percentage of TN) showed significant differences between the batches. The inoculated batches showed the fastest drop in pH at the beginning of the ripening period, but the cheeses of Batch R showed a higher degree of lipolysis and proteolysis. The addition of a starter influenced the microbiological quality of the cheeses. Differences in the counts of Enterobacteriaceae and faecal coliforms were found between Batches R and RS after 15 days. Staphylococcus aureus increased in number during the early period of ripening and attained a population above 6 log cfu g-1 in Batch R in the period from 5 to 10 days. However, enterotoxins were not detected in this Batch. Batch R showed lower values of lactic acid bacteria at the beginning of the ripening period, but no significant differences were found between batches in the period from 5 to 15 days of ripening. At the beginning of the ripening, Lactococcus was the main lactic acid bacteria, with L. lactis lactis being predominant. After 15 days, the lactic acid bacteria counts decreased in the three batches, especially in the cheeses of Batch PS (only 2.2 log cfu g-1 was found at 60 days), as lactococci (the only lactic acid bacteria present in Batch PS) are incapable of growing under the conditions found in cheeses at the end of their ripening period. At this time, Lactobacillus was the predominant genus in Batches R and RS, with L. plantarum predominant. No lactococci were found from day 30 in Batch R and from day 40 in Batch RS. The cheeses of Batch RS received the most favourable scores from the tasting panel for all attributes judged: cut appearance, colour, aroma, taste, texture and general acceptance.     

Effect of heat treatment on the proteolytic activity of mesophilic bacteria isolated from goats' milk cheese

Strains of mesophilic lactococci and lactobacilli isolated from goats' milk cheese were grown to maximum density in milk at 30°C, pH 6·5. They were subsequently cooled to 12°C and then heated at 50°, 52° and 54°C (holding time, 15 s). The micro-organisms tested were Lactococcus lactis subsp. lactis IFPL 60, IFPL 22 and IFPL 359, Lactobacillus casei subsp. casei IFPL 731 and Lactobacillus plantarum IFPL 3, isolated from raw goats' milk cheese. The heated cells presented lower viability and acidification capacity than unheated cells. After heat treatment at 50°C, all the test strains effected practically no reduction in pH of milk (6 h), except for Lactococcus lactis subsp. lactis IFPL 60, which reduced pH to 5·9 as compared to 4·9 attained by the unheated controls. After treatment, proteolytic, aminopeptidase and dipeptidase activities of cell-free extracts decreased to a lesser extent than the number of viable cells with acidifying ability. The results suggest that these strains, if treated at 50°C, may be suitable as extra sources of important ripening enzymes in cheese making.     

Characterization of non-starter lactic acid bacteria from Italian ewe cheeses based on phenotypic, genotypic, and cell wall protein analyses

Non-starter lactic acid bacteria (NSLAB) were isolated from 12 Italian ewe cheeses representing six different types of cheese, which in several cases were produced by different manufacturers. A total of 400 presumptive Lactobacillus isolates were obtained, and 123 isolates and 10 type strains were subjected to phenotypic, genetic, and cell wall protein characterization analyses. Phenotypically, the cheese isolates included 32% Lactobacillus plantarum isolates, 15% L. brevis isolates, 12% L. paracasei subsp. paracasei isolates, 9% L. curvatus isolates, 6% L. fermentum isolates, 6% L. casei subsp. casei isolates, 5% L. pentosus isolates, 3% L. casei subsp. pseudoplantarum isolates, and 1% L. rhamnosus isolates. Eleven percent of the isolates were not phenotypically identified. Although a randomly amplified polymorphic DNA (RAPD) analysis based on three primers and clustering by the unweighted pair group method with arithmetic average (UPGMA) was useful for partially differentiating the 10 type strains, it did not provide a species-specific DNA band or a combination of bands which permitted complete separation of all the species considered. In contrast, sodium dodecyl sulfate-polyacrylamide gel electrophoresis cell wall protein profiles clustered by UPGMA were species specific and resolved the NSLAB. The only exceptions were isolates phenotypically identified as L. plantarum and L. pentosus or as L. casei subsp. casei and L. paracasei subsp. paracasei, which were grouped together. Based on protein profiles, Italian ewe cheeses frequently contained four different species and 3 to 16 strains. In general, the cheeses produced from raw ewe milk contained a larger number of more diverse strains than the cheeses produced from pasteurized milk. The same cheese produced in different factories contained different species, as well as strains that belonged to the same species but grouped in different RAPD clusters.     

Inhibition of Listeria innocua in cheddar cheese by addition of nisin Z in liposomes or by in situ production in mixed culture

The effect of addition of purified nisin Z in liposomes to cheese milk and of in situ production of nisin Z by Lactococcus lactis subsp. lactis biovar diacetylactis UL719 in the mixed starter on the inhibition of Listeria innocua in cheddar cheese was evaluated during 6 months of ripening. A cheese mixed starter culture containing Lactococcus lactis subsp. lactis biovar diacetylactis UL719 was selected for high-level nisin Z and acid production. Experimental cheddar cheeses were produced on a pilot scale, using the selected starter culture, from milk with added L. innocua (10(5) to 10(6) CFU/ml). Liposomes with purified nisin Z were prepared from proliposome H and added to cheese milk prior to renneting to give a final concentration of 300 IU/g of cheese. The nisin Z-producing strain and nisin Z-containing liposomes did not significantly affect cheese production and gross chemical composition of the cheeses. Immediately after cheese production, 3- and 1.5-log-unit reductions in viable counts of L. innocua were obtained in cheeses with encapsulated nisin and the nisinogenic starter, respectively. After 6 months, cheeses made with encapsulated nisin contained less than 10 CFU of L. innocua per g and 90% of the initial nisin activity, compared with 10(4) CFU/g and only 12% of initial activity in cheeses made with the nisinogenic starter. This study showed that encapsulation of nisin Z in liposomes can provide a powerful tool to improve nisin stability and inhibitory action in the cheese matrix while protecting the cheese starter from the detrimental action of nisin during cheese production.     

Fate of Mycobacterium avium subsp. paratuberculosis in Swiss hard and semihard cheese manufactured from raw milk

Raw milk was artificially contaminated with declumped cells of Mycobacterium avium subsp. paratuberculosis at a concentration of 10(4) to 10(5) CFU/ml and was used to manufacture model hard (Swiss Emmentaler) and semihard (Swiss Tisliter) cheese. Two different strains of M. avium subsp. paratuberculosis were tested, and for each strain, two model hard and semihard cheeses were produced. The survival of M. avium subsp. paratuberculosis cells was monitored over a ripening period of 120 days by plating out homogenized cheese samples onto 7H10-PANTA agar. In both the hard and the semihard cheeses, counts decreased steadily but slowly during cheese ripening. Nevertheless, viable cells could still be detected in 120-day cheese. D values were calculated at 27.8 days for hard and 45.5 days for semihard cheese. The most important factors responsible for the death of M. avium subsp. paratuberculosis in cheese were the temperatures applied during cheese manufacture and the low pH at the early stages of cheese ripening. Since the ripening period for these raw milk cheeses lasts at least 90 to 120 days, the D values found indicate that 10(3) to 10(4) cells of M. avium subsp. paratuberculosis per g will be inactivated.     

Antibacterial activities of nisin Z encapsulated in liposomes or produced in situ by mixed culture during cheddar cheese ripening

This study investigated both the activity of nisin Z, either encapsulated in liposomes or produced in situ by a mixed starter, against Listeria innocua, Lactococcus spp., and Lactobacillus casei subsp. casei and the distribution of nisin Z in a Cheddar cheese matrix. Nisin Z molecules were visualized using gold-labeled anti-nisin Z monoclonal antibodies and transmission electron microscopy (immune-TEM). Experimental Cheddar cheeses were made using a nisinogenic mixed starter culture, containing Lactococcus lactis subsp. lactis biovar diacetylactis UL 719 as the nisin producer and two nisin-tolerant lactococcal strains and L. casei subsp. casei as secondary flora, and ripened at 7 degrees C for 6 months. In some trials, L. innocua was added to cheese milk at 10(5) to 10(6) CFU/ml. In 6-month-old cheeses, 90% of the initial activity of encapsulated nisin (280 +/- 14 IU/g) was recovered, in contrast to only 12% for initial nisin activity produced in situ by the nisinogenic starter (300 +/- 15 IU/g). During ripening, immune-TEM observations showed that encapsulated nisin was located mainly at the fat/casein interface and/or embedded in whey pockets while nisin produced by biovar diacetylactis UL 719 was uniformly distributed in the fresh cheese matrix but concentrated in the fat area as the cheeses aged. Cell membrane in lactococci appeared to be the main nisin target, while in L. casei subsp. casei and L. innocua, nisin was more commonly observed in the cytoplasm. Cell wall disruption and digestion and lysis vesicle formation were common observations among strains exposed to nisin. Immune-TEM observations suggest several modes of action for nisin Z, which may be genus and/or species specific and may include intracellular target-specific activity. It was concluded that nisin-containing liposomes can provide a powerful tool to improve nisin stability and availability in the cheese matrix.     

Diversity among lactococci isolated from ewes' raw milk and cheese

P. GAYA, M. BABÍN, M. MEDINA and M. NUÑEZ.1999.The technological and genetic characteristics of lactococci present in ewes' raw milk and 1-d-old ewes' raw milk cheeses sampled over a 1-year period were investigated. The proportion of lactic acid bacteria isolates from milk samples able to decrease milk pH by more than 1·25 units after 6 h incubation at 30 °C reached 14·5% in spring vs 10·7% in summer, 8·3% in autumn and 3·0% in winter. In 1-d-old cheese samples, the proportion of lactic acid bacteria able to lower milk pH by more than 1·25 units increased up to 32·3% in spring vs 23·4% in summer, 8·0% in autumn and 10·3% in winter. Fast acid-producing lactic acid bacteria mainly belonged to the genus Lactococcus . Using polymerase chain reaction protocols, fast acid-producing lactococci were grouped as 61  Lactococcus lactis subsp. lactis , 13  L. lactis subsp. cremoris and 14  L. lactis subsp. lactis biovar diacetylactis. Randomly amplified polymorphic DNA (RAPD) fingerprinting of fast acid-producing lactococci, using two primers, resulted in 21 different RAPD patterns for L. lactis subsp. lactis isolates, nine RAPD patterns for L. lactis subsp. cremoris isolates and three RAPD patterns for L. lactis subsp. lactis biovar diacetylactis isolates. Up to 19 different RAPD patterns were found for L. lactis isolates from cheeses made in a particular month.     

Physicochemical and microbiological characteristics of Kulek cheese made from raw and heat-treated milk

The effect of heat treatment and commercial starter culture utilization on the physicochemical and microbiological properties of Kulek cheese made from raw milk with or without starter culture and heated milk with starter culture were investigated during ripening. Titratable acidity (TA) was the highest in cheeses made from heated milk while total solids (TS), salt, and fat were the highest in cheeses made from raw milk. The heat treatment significantly decreased the counts of coliforms and Enterobacteriaceae in cheeses. At the beginning of the ripening period, cheeses manufactured from heated milk with starter exhibited significantly higher counts of lactococci and proteolytic organisms and lower counts of lactobacilli than the other cheeses. After the first day, raw milk cheeses without starter showed higher microbiological counts than the others. In fresh cheeses, Lactococcus was the main lactic acid bacterium, with Lc. lactis lactis being predominant. Lactobacillus plantarum and Lactobacillus paracasei paracasei dominated at the later stages of the ripening.     

SENSORIAL CHARACTERISTICS DURING RIPENING OF THE MURCIA AL VINO GOAT'S MILK CHEESE: THE EFFECT OF THE TYPE OF COAGULANT USED AND THE SIZE OF THE CHEESE

The aim of the present work was to study the sensorial characteristics of Murcia al Vino cheese made with different coagulants (animal rennet and powdered vegetable coagulant obtained from cardoon [Cynara cardunculus]) and of different weights (1 and 3 kg). The cheeses made with rennet showed less odor and taste intensities, a bit clearer color and were harder and grainier, but less creamy than the cheeses made with vegetable coagulant. The big cheeses were characterized by high wine odor, acid odor, wine taste, bitter taste, acid taste, and number, size and distribution of eyes notes. The small cheeses were distinguished by a high overall taste intensity, hardness, overall odor intensity, color, saltiness and graininess. Most of the sensorial characteristics were affected by the ripening time of the cheeses.     

Defined starter system including a bacteriocin producer for the enhancement of cheese flavour

Defined starter systems, consisting of bacteriocin-tolerant Lactococcus lactis subsp. lactis H6 alone or in combination with bacteriocin-sensitive L. lactis subsp. cremoris H1, and low amounts of a bacteriocin-producing culture, were developed and used for the manufacture of semi-hard cheese. Aminopeptidase activity and proteolysis were increased and acidification retarded in cheeses made from milk inoculated with lactococci and the bacteriocin-producing culture with respect to cheeses from milk inoculated with only lactococci. Cheeses made with a defined-strain starter system consisting of L. lactis subsp. lactis H6 and the bacteriocin-producing culture received the highest scores for flavour intensity and quality.     

Fate of Mycobacterium avium subsp. paratuberculosis in Swiss Hard and Semihard Cheese Manufactured from Raw Milk

Raw milk was artificially contaminated with declumped cells of Mycobacterium avium subsp. paratuberculosis at a concentration of 10⁴ to 10⁵ CFU/ml and was used to manufacture model hard (Swiss Emmentaler) and semihard (Swiss Tisliter) cheese. Two different strains of M. avium subsp. paratuberculosis were tested, and for each strain, two model hard and semihard cheeses were produced. The survival of M. avium subsp. paratuberculosis cells was monitored over a ripening period of 120 days by plating out homogenized cheese samples onto 7H10-PANTA agar. In both the hard and the semihard cheeses, counts decreased steadily but slowly during cheese ripening. Nevertheless, viable cells could still be detected in 120-day cheese. D values were calculated at 27.8 days for hard and 45.5 days for semihard cheese. The most important factors responsible for the death of M. avium subsp. paratuberculosis in cheese were the temperatures applied during cheese manufacture and the low pH at the early stages of cheese ripening. Since the ripening period for these raw milk cheeses lasts at least 90 to 120 days, the D values found indicate that 10³ to 10⁴ cells of M. avium subsp. paratuberculosis per g will be inactivated.     

Evaluation of amino acid-decarboxylative microbiota throughout the ripening of an Italian PDO cheese produced using different manufacturing practices

Aim:  To investigate the presence of biogenic amines (BAs) in Montasio cheese produced by using different cheese manufacturing practices.
Methods and Results:  Three batches of Montasio cheese were made in the following way: batch A using raw milk and natural milk culture, batch B with thermized milk and natural milk culture and batch C with thermized milk and natural milk culture added of a commercial starter culture. During 120 days of ripening analyses were performed for microbial counts and BA content; indeed, the potential to produce BAs was screened in lactic acid bacteria and Enterobacteriaceae isolates. At the end of ripening, the total BA contents of cheeses from batches A, B and C were 166·3, 207·3 and 29·8 mg kg⁻¹, respectively. Amino acid decarboxylase activity was widespread among isolates.
Conclusions:  The BA content of Montasio cheese from the three batches was below the threshold proposed as potentially toxic. The highest BA content was found in cheese produced using thermized milk and natural milk culture; therefore, the thermal treatment of milk was not enough by itself to reduce the counts of decarboxylase-positive bacteria in cheese. The use of selected starters guaranteed a low BA content in Montasio cheese.
Significance and Impact of the Study:  The study of the effects of some technological processes on the incidence of decarboxylative microbiota in 'protected denomination of origin' cheeses could provide useful information on the hygienic risk related to their production.     

Variability of bacterial biofilms of the "tina" wood vats used in the ragusano cheese-making process

Ragusano cheese is a "protected denomination of origin" cheese made in the Hyblean region of Sicily from raw milk using traditional wooden tools, without starter. To explore the Ragusano bacterial ecosystem, molecular fingerprinting was conducted at different times during the ripening and biofilms from the wooden vats called "tinas" were investigated. Raw milks collected at two farm sites, one on the mountain and one at sea level, were processed to produce Ragusano cheese. Raw milk, curd before and after cooking, curd at stretching time (cheese 0 time), and cheese samples (4 and 7 months) were analyzed by PCR-temporal temperature gel electrophoresis (PCR-TTGE) and by classical enumeration microbiology. With the use of universal primers, PCR-TTGE revealed many differences between the raw milk profiles, but also notable common bands identified as Streptococcus thermophilus, Lactobacillus lactis, Lactobacillus delbrueckii, and Enterococcus faecium. After the stretching, TTGE profiles revealed three to five dominant species only through the entire process of ripening. In the biofilms of the two tinas used, one to five species were detected, S. thermophilus being predominant in both. Biofilms from five other tinas were also analyzed by PCR-TTGE, PCR-denaturating gradient gel electrophoresis, specific PCR tests, and sequencing, confirming the predominance of lactic acid bacteria (S. thermophilus, L. lactis, and L. delbrueckii subsp. lactis) and the presence of a few high-GC-content species, like coryneform bacteria. The spontaneous acidification of raw milks before and after contact with the five tinas was followed in two independent experiments. The lag period before acidification can be up to 5 h, depending on the raw milk and the specific tina, highlighting the complexity of this natural inoculation system.     

Staphylococcus aureus, thermostable nuclease and staphylococcal enterotoxins in raw ewes' milk Manchego cheese

Growth and survival of two enterotoxigenic strains of Staphylococcus aureus were studied during manufacture and ripening of eight batches of raw ewes' milk Manchego cheese. Only 2–3 generations of Staph. aureus occurred in the vat and during pressing. The death rate of Staph. aureus (mean decrease in log cfu/g/week of ripening) from day 1 to day 60 was 0.421 in cheese made with 1% Streptococcus lactis starter and 0.404 in cheese made without starter. Thermostable nuclease was produced in the vat by growing Staph. aureus cells; it was inactivated by rennet during the first 24 h and synthesized again by surviving cells of Staph. aureus from day 1 to day 60. Staphylococcal enterotoxins A, B, C and D were not detected in any batches of cheese, even though Staph. aureus counts exceeded 10⁷ cfu/g.     

Staphylococcus aureus, thermostable nuclease and staphylococcal enterotoxins in raw ewes' milk Manchego cheese

Growth and survival of two enterotoxigenic strains of Staphylococcus aureus were studied during manufacture and ripening of eight batches of raw ewes' milk Manchego cheese. Only 2-3 generations of Staph. aureus occurred in the vat and during pressing. The death rate of Staph. aureus (mean decrease in log cfu/g/week of ripening) from day 1 to day 60 was 0.421 in cheese made with 1% Streptococcus lactis starter and 0.404 in cheese made without starter. Thermostable nuclease was produced in the vat by growing Staph. aureus cells; it was inactivated by rennet during the first 24 h and synthesized again by surviving cells of Staph. aureus from day 1 to day 60. Staphylococcal enterotoxins A, B, C and D were not detected in any batches of cheese, even though Staph. aureus counts exceeded 10(7) cfu/g.     

Persistence of Mycobacterium paratuberculosis during manufacture and ripening of cheddar cheese

Model Cheddar cheeses were prepared from pasteurized milk artificially contaminated with high 10(4) to 10(5) CFU/ml) and low (10(1) to 10(2) CFU/ml) inocula of three different Mycobacterium paratuberculosis strains. A reference strain, NCTC 8578, and two strains (806PSS and 796PSS) previously isolated from pasteurized milk for retail sale were investigated in this study. The manufactured Cheddar cheeses were similar in pH, salt, moisture, and fat composition to commercial Cheddar. The survival of M. paratuberculosis cells was monitored over a 27-week ripening period by plating homogenized cheese samples onto HEYM agar medium supplemented with the antibiotics vancomycin, amphotericin B, and nalidixic acid without a decontamination step. A concentration effect was observed in M. paratuberculosis numbers between the inoculated milk and the 1-day old cheeses for each strain. For all manufactured cheeses, a slow gradual decrease in M. paratuberculosis CFU in cheese was observed over the ripening period. In all cases where high levels (>3.6 log(10)) of M. paratuberculosis were present in 1-day cheeses, the organism was culturable after the 27-week ripening period. The D values calculated for strains 806PSS, 796PSS, and NCTC 8578 were 107, 96, and 90 days, respectively. At low levels of contamination, M. paratuberculosis was only culturable from 27-week-old cheese spiked with strain 806PSS. M. paratuberculosis was recovered from the whey fraction in 10 of the 12 manufactured cheeses. Up to 4% of the initial M. paratuberculosis load was recovered in the culture-positive whey fractions at either the high or low initial inoculum.     

Preliminary characterization of microflora of Comté cheese

The evolution of the microflora of three Comté cheeses made in duplicate with raw milk from three different sources was followed during ripening. The same starter was used with each type of milk. The comparison of the cheeses did not reveal any significant difference in the development of the microflora. Starter lactic acid bacteria ( Streptococcus thermophilus and Lactobacillus helveticus) , which are added at the beginning of manufacture, decreased quickly in the first stages of ripening supporting the hypothesis of cell autolysis. Other micro-organisms, i.e. homofermentative and heterofermentative lactobacilli ( Lact. delbrueckii ssp. lactis , Lact. paracasei ssp. paracasei , Lact. rhamnosus and Lact. fermentum ), pediococci, enterococci and propionibacteria grew in cheese from small numbers in fresh curd. The characterization of Strep. thermophilus by pulsed-field gel electrophoresis showed that wild strains were also able to grow in the curd. The values for the genome size of 11 Strep. thermophilus strains determined in this investigation were in the range of 1·8–2·3 Mbp. The potential role of starter and raw milk microflora in cheese flavour development was considered.     

Staphylococcus equorum subsp. linens,subsp. nov., a starter culture component for surface ripened semi-hard cheeses

Two staphylococcal strains, RP29T and RP33, were isolated from the main microflora of a surface ripened Swiss mountain cheese made from raw milk. These two strains were differentiated from the most closely related species Staphylococcus equorum on the basis of DNA-DNA hybridisation and phenotypic characteristics and are proposed as Staphylococcus equorum subsp. linens subsp. nov. They could be distinguished phenotypically from S. equorum by their sensitivity to all 14 tested antibiotics, especially to novobiocin, their incapability to ferment alpha-D-lactose, maltose, sucrose, D-trehalose, D-xylose, L-arabinose, salicin, D-ribose, D-raffinose, D-mannitol, and D-alanine. The GenBank accession numbers for the reference sequences of the 16S rDNA and the hsp60 gene used in this study are AF527483 and AF527484, respectively. 30 tons of a semi-hard Swiss cheese were produced with Staphylococcus equorum subsp. linens DSM 15097T as starter culture component in addition to Debaryomyces hansenii, Geotrichum candidum, Brevibacterium linens, Corynebacterium casei for surface ripened cheeses. The products were sensorically and hygienically perfect. Therefore, Staphylococcus equorum subsp. linens DSM 15097T can be proposed as starter culture component for surface ripened cheeses without any detected antibiotic resistances. The type strain of Staphylococcus equorum subsp. linens is DSM 15097T (CIP 107656T).     

Association of Yersinia enterocolitica with the manufacture of cheese and occurrence in pasteurized milk.

Raw milk in southern Ontario frequently contains Yersinia enterocolitica. The potential for transmission of this organism by cheese manufactured from unpasteurized milk was evaluated by examination of milk and cheese curd samples from cheese manufacturing plants and finished cheddar and Italian cheeses. The incidence of Y. enterocolitica was lower in cheese curd samples (9.2%) than in raw milk (18.2%). Most of the curd samples showed a positive phosphatase test, indicating production from raw milk. One curd sample yielded Y. enterocolitica after 4 weeks of storage at 4 degrees C but was negative after 8 weeks. All samples of cheddar and Italian cheeses, most of which showed a positive phosphatase test, were negative for Y. enterocolitica. One out of 265 samples (0.4%) of pasteurized fluid dairy products contained Y. enterocolitica.