Preliminary characterization of lactic acid bacteria isolated from Zlatar cheese

AIMS: Isolation, characterization and identification of lactic acid bacteria (LAB) from artisanal Zlatar cheese during the ripening process and selection of strains with good technological characteristics. METHODS AND RESULTS: Characterization of LAB was performed based on morphological, physiological and biochemical assays, as well as, by determining proteolytic activity and plasmid profile. rep-polymerase chain reaction (PCR) analysis and 16S rDNA sequencing were used for the identification of LAB. PCR analysis was performed with specific primers for detection of the gene encoding nisin production. Strains Lactobacillus paracasei subsp. paracasei, Lactobacillus plantarum, Lactobacillus brevis, Lactococcus lactis subsp. lactis, Enterococcus faecium and Enterococcus faecalis were the main groups present in the Zlatar cheese during ripening. CONCLUSIONS: Temporal changes in the species were observed during the Zlatar cheese ripening. Mesophilic lactobacilli are predominant microflora in Zlatar cheese. SIGNIFICANCE AND IMPACT OF THE STUDY: In this study we determined that Zlatar cheese up to 30 days old could be used as a source of strains for the preparation of potential starter cultures in the process of industrial cheese production. As the Serbian food market is adjusting to European Union regulations, the standardization of Zlatar cheese production by using starter culture(s) based on autochtonous well-characterized LAB will enable the industrial production of this popular cheese in the future.     

Antimicrobial susceptibility of lactic acid bacteria isolated from a cheese environment

In the production of the Spanish traditional blue-veined Cabrales cheese, lactic acid bacteria strains free of antibiotic resistance that have a transferrable capacity are necessary as components of a specific starter. To select for these bacteria, the minimum inhibitory concentration (MIC) of 12 antibiotics and 2 mixtures (containing beta-lactamase inhibitor and penicillin) were determined by microbroth and agar dilution techniques in 146 strains belonging to the genera Lactococcus, Enterococcus, Lactobacillus, and Leuconostoc. The antibiotic-resistance profiles of Lactococcus and Enterococcus species were different from those of Lactobacillus and Leuconostoc, but clear genus- or species-associated patterns were not observed. Cefoxitin and metronidazole were not effective against bacteria of these genera. The MICs of beta-lactam antibiotics for lactobacilli and leuconostoc isolates were higher than those for lactococci and enterococci, but no strain was clinically resistant. All lactobacilli and leuconostoc isolates were resistant to high levels of vancomycin, a type of resistance not seen among the tested members of the genera Lactococcus and Enterococcus. The majority of the observed resistance appeared to be either intrinsic or nonspecific, although some strains of Lactococcus lactis, Enterococcus spp., and Lactobacillus spp. were resistant to antibiotics, such as chloramphenicol, erythromycin, clindamycin, or tetracycline.     

Antilisterial activity of lactic acid bacteria isolated from rigouta, a traditional Tunisian cheese

AIMS: Screening for lactic acid bacteria (LAB) producing bacteriocins and other antimicrobial compounds is of a great significance for the dairy industry to improve food safety. METHODS AND RESULTS: Six-hundred strains of LAB isolated from 'rigouta', a Tunisian fermented cheese, were tested for antilisterial activity. Eight bacteriocinogenic strains were selected and analysed. Seven of these strains were identified as Lactococcus lactis and produced nisin Z as demonstrated by mass spectrometry analysis of the purified antibacterial compound. Polymerase chain reaction experiments using nisin gene-specific primers confirmed the presence of nisin operon. Plasmid profiles analysis suggests the presence of, at least, three different strains in this group. MMT05, the eighth strain of this antilisterial collection was identified, at molecular level, as Enterococcus faecalis. The purified bacteriocin produced by this strain showed a molecular mass of 10 201.33 +/- 0.85 Da. This new member of class III bacteriocins was termed enterocin MMT05. CONCLUSIONS: Seven lactococcal strains producing nisin Z were selected and could be useful as bio-preservative starter cultures. Additional experiments are needed to evaluate the promising strain MMT05 as bio-preservative as Enterococci could exert detrimental or beneficial role in foods. SIGNIFICANCE AND IMPACT OF THE STUDY: Only a few antibacterial strains isolated from traditional African dairy products were described. The new eight strains described herein contribute to the knowledge of this poorly studied environment and constitute promising strains for fermented food safety.     

Toxigenic fungi isolated from roquefort cheese

To evaluate the potential for mycotoxin production by fungi contaminating blue-veined cheese, as well as by the ripening fungus,Penicillium roqueforti, the fungal flora of six of local and imported brands was determined. A total of 19 fungi were isolated from the six brands tested. Fourteen of the isolates were toxic to chicken embryos. The toxigenic fungi produced the following mycotoxins:Aspergillus fumigatus, kojic acid;A. versicolor, sterigmatocystin;Penicillium roqueforti, penicillic acid and unidentified toxic metabolites.     

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.     

Lactate metabolism by pediococci isolated from cheese

Pediococcus pentosaceus is commonly found among the adventitious microflora of Cheddar cheese. When this organism was incubated with L-(+)-lactate under anaerobic conditions, L-(+)-lactate was rapidly converted to D-(-)-lactate until racemic (DL) lactate was present. Under aerobic conditions this initial reaction was followed by a slower reaction resulting in the use of both lactate isomers and in the production of acetate and CO2. With intact cells the lactate oxidation system had an optimum pH of 5 to 6, depending on the initial lactate concentration. Cells grown anaerobically possessed lactate-oxidizing activity which increased two- to fourfold as sugar was exhausted from the medium. Aerobic growth further increased specific activities. Cheddar cheese was made with the deliberate addition of P. pentosaceus. When the resulting cheese was grated to expose a large surface area to O2, lactate was converted to acetate at a rate which depended on the density of pediococci in the cheese. The lactate oxidation system remained active in cheese which had been ripened for 6 months.     

Casein digestion by Debaryomyces hansenii isolated from cheese

To understand the possible proteolytic contribution of yeast during cheese ripening, Debaryomyces hansenii 212 was isolated from commercial blue-veined cheese and incubated in a medium containing casein. Growth and casein degradation were recognized at the cheese-ripening temperature. Proteolytic activity was found in the intracellular fraction, and the enzyme, which was attached to the cell wall, primarily acted on beta-casein. The cytosol contained more than 90% of the total proteolytic activity which was responsible for the degradation of both alpha(s)- and beta-casein. These results suggest that the contribution of yeast to cheese ripening would depend on the susceptibility to cell lysis in addition to its proteolytic activity.     

Lactate metabolism by pediococci isolated from cheese.

Pediococcus pentosaceus is commonly found among the adventitious microflora of Cheddar cheese. When this organism was incubated with L-(+)-lactate under anaerobic conditions, L-(+)-lactate was rapidly converted to D-(-)-lactate until racemic (DL) lactate was present. Under aerobic conditions this initial reaction was followed by a slower reaction resulting in the use of both lactate isomers and in the production of acetate and CO2. With intact cells the lactate oxidation system had an optimum pH of 5 to 6, depending on the initial lactate concentration. Cells grown anaerobically possessed lactate-oxidizing activity which increased two- to fourfold as sugar was exhausted from the medium. Aerobic growth further increased specific activities. Cheddar cheese was made with the deliberate addition of P. pentosaceus. When the resulting cheese was grated to expose a large surface area to O2, lactate was converted to acetate at a rate which depended on the density of pediococci in the cheese. The lactate oxidation system remained active in cheese which had been ripened for 6 months.     

Intracellular acid carboxypeptidase ofPenicillium roqueforti isolated from blue cheese

We found thatPenicillium roqueforti isolated from a commercial blue cheese produced an acid carboxypeptidase. The acid carboxypeptidase was present in mycelia and little was detected in the liquid medium. The optimum pH for benzyloxycarbonyl-Glu-Tyr was 3.6. The enzyme had the ability to liberate the carboxyterminal amino acid (leucine) of angiotensin I at pH 3.6. Furthermore, the enzyme liberated the carboxyterminal proline from benzyloxycarbonyl-Gly-Pro-Leu-Gly-Pro. The molecular weight of the enzyme determined by gel filtration on Sephadex G-200 was 155,000. The acid carboxypeptidase was inhibited by phenylmethanesulfonyl fluoride and hydrocinnamic acid.     

Rapid semi-quantitative fluorimetric determination of citrinin in fungal cultures isolated from cheese and cheese factories

A new rapid semi-quantitative fluorimetric assay for citrinin production testing in mould cultures has been developed. The chemical structure of the citrinin makes it a weak native fluorophore. This fluorescence can be strongly enhanced in an acidic environment. A standard curve where the concentration of HCl needed to show the yellow fluorescence signal of different concentrations of citrinin was established, thus providing a semi-quantitative method to prove the capacity of toxin production of fungal cultures. Two Penicillium strains from the Spanish National Collection of Type Cultures, were studied for the toxin production on YES broth at 25°C for 21 d. The culture was assayed daily for the presence/absence and quantification of citrinin by adding the HCl concentration set, and also quantified by RP-HPLC as a confirmation procedure. Experiments demonstrate that 5 d are necessary to show the presence of citrinin. As an illustration, a total of 48 strains of Penicillium isolated from cheese and cheese factories were analysed with the proposed method.     

Protease-producing psychrotrophic bacteria isolated from Antarctica

The extracellular protease production capacity of 840 bacterial strains isolated during the austral summers of 1989/90 and 1991/92 from different sources of the Antarctic ecosystem was analysed in skim-milk agar plates. Thirty-four psychrotrophic strains were selected, classified at genus level and tested from proteolytic activity by the azocasein method from the cell-free supernatant of submerged cultures. Thirty-two of the selected strains were Gram-negative bacteria and Pseudomonas was the predominant genus. Three Pseudomonas maltophilia strains showed the highest levels of proteolytic activity at 20°C. No correlation was observed between the proteolytic activity estimated by the ring of hydrolysis in skim-milk agar plates and the activity measured by the azocasein method. The results suggest that these psychrotrophic strains are potentially useful for developing a biotechnological process to produce proteases with high activity at moderate temperatures.     

Agar-degrading bacteria isolated from Antarctic macroalgae

This study describes the taxonomic diversity of pigmented, agar-degrading bacteria isolated from the surface of macroalgae collected in King George Island, Antarctica. A total of 30 pigmented, agarolytic bacteria were isolated from the surface of the Antarctic macroalgae Adenocystis utricularis, Monostroma hariotii, Iridaea cordata, and Pantoneura plocamioides. Based on the 16S rRNA data, the agarolytic isolates were affiliated to the genera Algibacter, Arthrobacter, Brachybacterium, Cellulophaga, Citricoccus, Labedella, Microbacterium, Micrococcus, Salinibacterium, Sanguibacter, and Zobellia. Isolates phylogenetically related to Cellulophaga algicola showed the highest agarase activity in culture supernatants when tested at 4 and 37 °C. This is the first investigation of pigmented agar-degrading bacteria, members of microbial communities associated with Antarctic macroalgae, and the results suggest that they represent a potential source of cold-adapted agarases of possible biotechnological interest.     

Heat resistance of Lactobacillus spp. isolated from Cheddar cheese

Mesophilic Lactobacillus spp. are the dominant organisms in mature Cheddar cheese. The heat resistance of broth grown cultures of Lactobacillus plantarum DPC1919 at temperatures between 50 and 57.5 degrees C, Lact. plantarum DPC2102 at temperatures between 48 and 56 degrees C and Lact. paracasei DPC2103 at temperatures between 50 and 67.5 degrees C was determined. The z-values for Lact. plantarum DPC1919, Lact. Plantarum DPC2102 and Lact. paracasei DPC2103 were 6.7 degrees C, 6.2 degrees C and 5.3 degrees C, respectively. Lactobacillus paracasei DPC2103 showed evidence of injury and recovery, especially at higher temperatures. Milk grown cultures of strains DPC2102 and DPC2103 showed greater heat resistance than broth grown cultures, tailing of the death curves and a nonlinear z-curve. Of the three strains, Lact. paracasei DPC2103 had the potential to survive pasteurization temperatures, whether grown in milk or broth.     

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.     

Genotypic heterogeneity among Lactobacillushelveticus strains isolated from natural cheese starters

A total of 23 strains of Lactobacillus helveticus isolated from natural whey starter cultures for Italian hard cheeses and three reference strains were characterized by plasmid profiling, ribotyping and random amplified polymorphic DNA (RAPD) fingerprinting. The data showed an interesting strain heterogeneity in natural cheese starters, that seemed not only strain-dependent, but also related to the source of isolates. Nineteen of the strains tested harboured extrachromosomal elements, whilst 11 different plasmid profiles were detected. Ribotyping with a variety of restriction enzymes differentiated 11 strains and in a few cases, RAPD fingerprinting allowed differentiation amongst strains that were not distinguished by the other two techniques.     

Relationships among coryneform bacteria from soil,cheese and sea fish

DNA-DNA hybridization experiments among coryneform bacteria from soil, cheese and sea fish were performed and the genome sizes of 60 of these bacteria determined. According to the D values obtained with hybridization experiments the soil arthrobacters can be divided into an Arthrobacter simplex and an A. globiformis group. The cheese and sea-fish coryneforms were found to be only remotely related to the soil arthrobacters of the A. globiformis type. The greater part of the orange cheese coryneforms are homologous to a high degree and appear to be of the Brevibacterium linens type. Low D values between the reference strains indicate that the orange cheese coryneforms are only remotely related to the non-orange ones. In spite of the morphological resemblance only a minority of the orange seafish coryneforms hybridized significantly with B. linens. The % GC of the majority of these coryneforms are in the range of 63 to 64%.     

Antiviral effects of bacteria isolated from manure

The objectives of this study were to determine the role of microbial activity in inactivation of hepatitis A virus (HAV) and to learn how the virus is inactivated. Of 31 bacterial strains isolated from animal manure, 10 efficiently inactivated HAV in fluid thioglycollate medium, with D₁₀ values (time, in days, required for a 90% reduction of virus titer) of 10 at 30°C. The D₁₀ value of the control suspension without bacteria was 35.1. Most of the 10 strains raised the pH of the medium during growth; comparisons suggested that alkalinity was not a principal antiviral property of these cultures. Cell-free filtrates of nine of these strains caused net 90% inactivation of HAV within 6 days at 37°C; the other did not. The inactivation capacity of four of the nine culture filtrates was significantly reduced by incubation with selected protease inhibitors before the virus was added. These protease inhibitors did not affect the activities of the other five culture filtrates. Fractions prepared by ultrafiltration (nominal molecular weights <1,000) from two of these cultures inactivated HAV suggesting that their mode of action was not enzymatic. Correspondence to: D.O. Cliver. mis|Department of Animal Health and Biomedical Sciences     

Lactic acid bacteria isolated from canine faeces

AIMS: Lactic acid bacteria (LAB) were isolated and sequenced from the faeces of healthy dogs. Five of these strains were selected and further characterized to clarify the potential of these strains as probiotics for canine. METHODS AND RESULTS: LAB were found in 67% (14/21) of the canine faeces samples when plated on Lactobacilli Selective Media without acetic acid. Out of 13 species identified with partial 16S rRNA gene sequencing, Lactobacillus fermentum LAB8, L. mucosae LAB12, L. rhamnosus LAB11, L. salivarius LAB9 and Weissella confusa LAB10 were selected as candidate probiotic strains based on their frequency, quantity in faeces, growth density, acid tolerance and antimicrobial activity. The minimal inhibitory concentration values of these isolates were determined for 14 antibiotics. L. salivarius LAB9, W. confusa LAB10 and L. mucosae LAB12 were viable in pH 2 for 4 h (mLBS), indicating tolerance to acidity and thus the potential to survive in gastrointestinal tract of the canine. The LAB8-LAB12 strains showed antimicrobial activity against Micrococcus luteus A1 NCIMB86166. CONCLUSIONS: Thirteen different LAB species were found from the faecal microbiota of the healthy canines. Five acid tolerant and antimicrobially active LAB strains with the capacity to grow to high densities both aerobically and anaerobically were chosen to serve as candidate probiotics. SIGNIFICANCE AND IMPACT OF THE STUDY: The selected LAB strains are among the first host-specific LAB with antimicrobial activity isolated from canines that could serve as potential probiotics for canine use.