Lactobacillus strains isolated from Danbo cheese as adjunct cultures in a cheese model system

Isolates of Non-Starter Lactic Acid Bacteria (NSLAB) from six ripened Danbo cheeses of different ages and of different brands were examined. Special emphasis was on the genus Lactobacillus with the aim of investigating their role in cheese maturation. Thirty-three isolates were typed by the PCR-based method, Randomly Amplified Polymorphic DNA (RAPD). Ten RAPD types were found and 70% of the isolates were of RAPD types found in more than one cheese. The different RAPD types were identified to species level by Temporal Temperature Gradient Gel Electrophoresis (TTGE). Most of the isolates were identified as Lactobacillus paracasei (76%), but also Lactobacillus curvatus, Lactobacillus plantarum, Lactobacillus rhamnosus and some taxa originating from the starter culture were detected. In one cheese, no lactobacilli were found.One strain of the most frequent Lactobacillus RAPD type from each of the five cheeses with a Lactobacillus flora was used as adjunct cultures in a cheese model system. Four of the five adjuncts were re-isolated during ripening. Two adjunct containing model cheeses received higher flavour scores than the control while two other were associated with off-flavours. The two model cheeses with off-flavour had a similar microflora and both were after 13 weeks of ripening dominated by a strain identified as L. plantarum.     

Variability of the species and strain phenotype composition of the non-starter lactic acid bacterial population of cheddar cheese manufactured in a commercial creamery

The non-starter lactic acid bacteria (NSLAB) present in cheddar cheese manufactured in a commercial creamery was monitored phenotypically to the strain level over a period of 12 months to examine the effects of maturity status and manufacturing practices on the composition of the population. Five Lactobacillus spp. and Leuconostoc lactis were identified among the 459 isolates selected. The predominant NSLAB, Lactobacillus paracasei and Lactobacillus brevis, were present in 59 and 31% of the cheeses examined and represented 52.7 and 25.8%, respectively, of the isolates identified. Among the NSLAB screened 71 different phenotypic profiles were identified and these included 26 biotypes of Lb. paracasei, 14 Lb. brevis, 11 Lactobacillus plantarum, 10 Lactobacillus curvatus and 7 Leuc. lactis. The average number of strains recovered from a cheese was 3.9±2.1 and ranged from 1 to 11. Although approximately 70% of the cheese samples were dominated by three or less strains the NSLAB populations were heterogeneous and the majority (61.5%) were comprised of four or more strains of one or more species. Only 30 of the biotypes were recovered from more than one population. There was no evidence for the repeated recurrence of any of the strains isolated although some of the Lb. paracasei strains were present intermittently in cheeses throughout the 12-month manufacturing period. Six Lb. brevis strains also recurred in some of the cheeses produced in a limited period during the autumn. Pronounced shifts in the species complement and strain profile occurred during maturation, while the average number of strains present in the cheese decreased with increasing maturity. Microbiological examination of the NSLAB population of cheese either produced in different vats during the same production run or manufactured in the same vat but in different production runs (vat fills) indicated that the number of strains common to paired samples from two vats or a single vat in successive production runs was only 1.7±1.4 and 1.5±1.2, respectively, and confirmed the inherent variability that exists, both within and between production runs, in the non-starter population of cheese manufactured in a commercial creamery.     

Diversity and dynamic of lactic acid bacteria strains during aging of a long ripened hard cheese produced from raw milk and undefined natural starter

The aim of this study was to explore diversity and dynamic of indigenous LAB strains associated with a long ripened hard cheese produced from raw milk and undefined natural starter such as PDO Grana Padano cheese. Samples of milk, curd, natural whey culture and cheeses (2nd, 6th, 9th and 13th months of ripening) were collected from 6 cheese factories in northern Italy. DNA was extracted from each sample and from 194 LAB isolates. tRNA^Ala-23S rDNA-RFLP was applied to identify isolates. Strain diversity was assessed by (GTG)5 rep-PCR and RAPD(P1)-PCR. Finally, culture-independent LH-PCR (V1–V2 16S-rDNA), was considered to explore structure and dynamic of the microbiota. Grana Padano LAB were represented mainly by Lactobacillus rhamnosus, Lactobacillus casei, Lactobacillus paracasei, Lactobacillus delbrueckii, Lactobacillus helveticus and Pediococcus acidilactici, while the structure and dynamic of microbiota at different localities was specific. The strength of this work is to have focused the study on isolates coming from more than one cheese factories rather than a high number of isolates from one unique production. We provided a valuable insight into inter and intraspecies diversity of typical LAB strains during ripening of traditional PDO Grana Padano, contributing to the understanding of specific microbial ecosystem of this cheese.     

Role of the microbial population on the flavor of the soft-bodied cheese Torta del Casar

The purpose of this work was to investigate the influence of the spontaneous microbial population on the flavor of Torta del Casar cheese. A total of 16 batches of cheeses with different microbial qualities were used. Their physicochemical and microbial characteristics were evaluated during ripening and then related with the volatile compounds, taste, and flavor properties of the finished cheeses. Acids were the most abundant volatile compounds, followed by alcohols and carbonyls. The amount of acetic acid and several alcohols were linked to cheeses with higher counts of lactic acid bacteria (LAB), whereas Enterobacteriaceae counts were associated with semivolatile fatty acids. The gram-positive catalase-positive cocci counts were correlated with esters and methyl ketones. Although the role of the LAB in the flavor development of Torta del Casar is the most relevant, other microbial groups are necessary to impart the flavor of the cheese and to minimize the possible off-flavor derived from excessive concentrations of LAB metabolites, such as acetic acid.     

Characterization of autochthonal yeasts isolated from Spanish soft raw ewe milk protected designation of origin cheeses for technological application

The yeasts involved in the ripening process of artisanal soft raw ewe milk Protected Designation of Origin (PDO) Torta del Casar and Queso de la Serena cheeses produced in Extremadura, Spain, were isolated throughout their ripening process, strain typed, and characterized for some important technological properties. A total of 508 yeast isolates were obtained and identified by inter-single sequence repeat anchored PCR amplification analysis and subsequent sequencing of the internal transcribed spacer ITS1/ITS2 5.8S rRNA. A total of 19 yeast species representing 8 genera were identified. Debaryomyces hansenii, Pichia kudriavzevii, Kluyveromyces lactis, and Yarrowia lipolytica were the predominant species. We selected 157 isolates, by genotyping and origin, for technological characterization. The evaluation of yeast isolates' growth under stress conditions of cheese ripening showed that 87 presented better performance. Among them, 71 isolates were not able to catabolize tyrosine to produce a brown pigment. Principal component analysis of the biochemical features of these isolates showed that 9 strains stood out, 3 K. lactis strains (2287, 2725, and 1507), 2 Pichia jadinii (1731 and 433), 2 Yarrowia alimentaria (1204 and 2150), Y. lipolytica 2495 and P. kudriavzevii 373. These strains displayed strong extracellular proteolytic activity on skim milk agar as well as an adequate enzymatic profile (strong aminopeptidase and weak protease activity), suggesting their great potential for cheese proteolysis. Extracellular lipolytic activity was mainly restricted to Yarrowia spp. isolates and weakly present in P. kudriavzevii 373 and K. lactis 2725, although enzymatic characterization by API-ZYM (bioMérieux SA) evidenced that all may contribute, at least in part, to the lipolysis process. Moreover, these strains were able to assimilate lactose, galactose, and glucose at NaCl concentrations higher than that usually found in cheese. However, lactate and citrate assimilation were limited to Y. lipolytica 2495, P. kudriavzevii 373, and P. jadinii 433, and may contribute to the alkalinizing process relevant to biochemical processes that take place in the last stages of ripening. By contrast, K. lactis strains showed acidifying capacity and β-galactosidase activity and may take part in the initial stages of ripening, together with lactic acid bacteria. Thus, considering the technological characteristics studied, the 9 selected strains presented biochemical features well suited to their potential use as adjunct cultures, alone or in combination with autochthonous starter bacteria in the cheesemaking process, to overcome the heterogeneity of these PDO cheeses, preserving their unique sensory characteristics.     

Identification of Microbiota Present on the Surface of Taleggio Cheese Using PCR–DGGE and RAPD–PCR

Abstract: Microbial DNA from 9 batches of Taleggio PDO cheese sampled at various times during ripening, brines, swabs of wooden shelves used for cheese dry‐salting, and 13 commercial cheeses were analyzed by denaturing gradient gel electrophoresis (PCR‐DGGE) and/or random amplification of polymorphic DNA (RAPD‐PCR). Sequencing allowed the detection of 12 genera, 27 species, and 2 unclassified bacteria. Molecular analysis allowed for the detection of microorganisms not previously associated with Taleggio such as Lactobacillus paracasei, Carnobacterium maltaromaticum, Bacillus licheniformis, Corynebacterium variabile, Psychrobacter cibarius, and Staphylococcus carnosus. For the first time Massilia spp. was detected in a dairy ecosystem. Practical Application: Indigenous species and strains of bacteria identified by this study could be used for the selection of dairy cultures to be employed routinely by manufacturers to control the Taleggio cheese production. The new cultures may give the bases for driving dairy processes and, consequently, control the typical flavor resulting from metabolic actions of environmental microorganisms.     

Phenotypic and PCR-based characterization of the microflora in Präst cheese during ripening

Microbiological sampling of Präst cheese from three cheese factories was done during ripening. The evolution of total bacterial counts, lactococci, lactobacilli, enterococci presumptive leuconostoc and pediococci was investigated after 30, 90, 180 and 270 days of ripening. Isolates (140) of non-starter lactic acid bacteria (NSLAB) from 12 Präst cheeses after 90, 180 and 270 days of ripening were examined. The isolates were tested by physiological and biochemical assays, species-specific PCR and 16S rDNA sequencing. The predominant NSLAB species was Lactobacillus paracasei. The development and evolution of the NSLAB microflora in Präst varied according to dairy plant and ripening time.     

Proteolytic and other hydrolytic enzyme activities in non-starter lactic acid bacteria (NSLAB) isolated from cheddar cheese manufactured in the United Kingdom

The populations of non-starter lactic acid bacteria (NSLAB) in a selection of 15 good-quality UK-manufactured Cheddar cheeses that had been matured for 6-9 months ranged from 10⁵ to 10⁷ bacteria g⁻¹. Fifteen different species of lactic acid bacteria were identified using commercially-available identification systems. The species isolated most frequently were Lactobacillus paracasei subsp. paracasei and Lb. plantarum; 10 other species were isolated from two or more cheeses and three species were recovered from only a single cheese. There were marked differences in the NSLAB populations of the cheeses produced by different UK manufacturers, and differences were also apparent in the populations of two cheeses produced on different occasions at the same creamery. Forty-one isolates, selected to include all the species identified and the dominant strains present in cheeses produced at several different creameries, were screened for activities of 34 proteolytic, five glycoside hydrolase and five esterolytic enzymes. All the NSLAB possessed a wide range of hydrolytic enzymes and therefore had the potential to contribute at some stage to the development of cheese flavour during the maturation and ripening period. Inter-species and strain differences in enzyme profiles and levels of activity were apparent and were determinants for the non-random selection of NSLAB for use as adjunct cultures in subsequent cheese-making trials. The breakdown of diagnostic substrates was indicative of the presence of multiple proteinase, tripeptidase, dipeptidase (including prolinase- and prolidase-like), dipeptidyl peptidase, prolyl, proline, aspartyl, pyroglutamyl (pyrrolidone-carboxyl) and general aminopeptidase activities.     

Microbial dynamics during the ripening of a mixed cow and goat milk cheese manufactured using frozen goat milk curd

To overcome the seasonal shortage of goat milk in mixed milk cheese manufacture, pasteurized goat milk curd and high-pressure-treated raw goat milk curd manufactured in the spring were held at −24°C for 4 mo, thawed, and mixed with fresh cow milk curd for the manufacture of experimental cheeses. Control cheeses were made from a mixture of pasteurized cow and goat milk. The microbiota of experimental and control cheeses was studied using culture-dependent and culture-independent techniques. Bacterial enumeration by classical methods showed lactic acid bacteria to be the dominant population in both control and experimental cheeses. In total, 681 isolates were grouped by partial amplified rDNA restriction analysis (ARDRA) into 4 groups and identified by 16S rRNA gene sequencing as Lactococcus lactis ssp. lactis (563 isolates), Leuconostoc pseudomesenteroides (72 isolates), Lactobacillus spp. (34 isolates), and Lc. lactis ssp. cremoris (12 isolates). Temporal temperature gradient gel electrophoresis (TTGE) analysis of cheese showed (1) the predominance of Lc. lactis in all cheeses; (2) the presence of Leu. pseudomesenteroides population in all cheeses from d 15 onward; (3) the presence of a Lactobacillus plantarum population in control cheese until d 15 and in experimental cheeses throughout the ripening period. Due to the most diverse and complete set of peptidases present in the genus Lactobacillus, the prevalence of this population in experimental cheeses could give rise to differences in cheese flavor between experimental and control cheeses.     

Technological characterization of the natural lactic acid bacteria of artisanal Turkish White Pickled cheese

The aim of this study was to characterize the lactic acid bacteria (LAB) isolated from White Pickled cheeses produced with traditional methods; and to improve the quality of cheesemaking with a selection of bacterial cultures from artisanal White cheeses. LAB were isolated and identified from 30 White Pickled cheese samples collected from various cities in Turkey. Also, the numbers of several microbial groups (total aerobic mesophilic bacteria, LAB, enterococci, coliforms, moulds and yeasts) of cheese samples were enumerated. Lactobacilli, lactococci and enterococci were the most abundant microbial groups. The numbers of Enterococcus and Lactobacillus isolates were higher than those of the other LAB. Enterococcus faecalis (24.43%), Enterococcus faecium (17.61%) and Lactobacillus fermentum (19.88%) isolates were the most frequently isolated species. Lactococcus strains showed the highest acidifying activity, followed by Enterococcus and Lactobacillus strains. Proteolytic activity of Enterococcus faecalis strains was higher than that of the other enterococci species, except Enterococcus avium strains. Within lactobacilli strains, the highest mean proteolytic activity was that of Lactobacillus bifermentans, Lactobacillus brevis and Lactobacillus casei strains.     

Microbiota characterization of a Belgian protected designation of origin cheese,Herve cheese,using metagenomic analysis

Herve cheese is a Belgian soft cheese with a washed rind, and is made from raw or pasteurized milk. The specific microbiota of this cheese has never previously been fully explored and the use of raw or pasteurized milk in addition to starters is assumed to affect the microbiota of the rind and the heart. The aim of the study was to analyze the bacterial microbiota of Herve cheese using classical microbiology and a metagenomic approach based on 16S ribosomal DNA pyrosequencing. Using classical microbiology, the total counts of bacteria were comparable for the 11 samples of tested raw and pasteurized milk cheeses, reaching almost 8 log cfu/g. Using the metagenomic approach, 207 different phylotypes were identified. The rind of both the raw and pasteurized milk cheeses was found to be highly diversified. However, 96.3 and 97.9% of the total microbiota of the raw milk and pasteurized cheese rind, respectively, were composed of species present in both types of cheese, such as Corynebacterium casei, Psychrobacter spp., Lactococcus lactis ssp. cremoris, Staphylococcus equorum, Vagococcus salmoninarum, and other species present at levels below 5%. Brevibacterium linens were present at low levels (0.5 and 1.6%, respectively) on the rind of both the raw and the pasteurized milk cheeses, even though this bacterium had been inoculated during the manufacturing process. Interestingly, Psychroflexus casei, also described as giving a red smear to Raclette-type cheese, was identified in small proportions in the composition of the rind of both the raw and pasteurized milk cheeses (0.17 and 0.5%, respectively). In the heart of the cheeses, the common species of bacteria reached more than 99%. The main species identified were Lactococcus lactis ssp. cremoris, Psychrobacter spp., and Staphylococcus equorum ssp. equorum. Interestingly, 93 phylotypes were present only in the raw milk cheeses and 29 only in the pasteurized milk cheeses, showing the high diversity of the microbiota. Corynebacterium casei and Enterococcus faecalis were more prevalent in the raw milk cheeses, whereas Psychrobacter celer was present in the pasteurized milk cheeses. However, this specific microbiota represented a low proportion of the cheese microbiota. This study demonstrated that Herve cheese microbiota is rich and that pasteurized milk cheeses are microbiologically very close to raw milk cheeses, probably due to the similar manufacturing process. The characterization of the microbiota of this particular protected designation of origin cheese was useful in enabling us to gain a better knowledge of the bacteria responsible for the character of this cheese.     

Hot topic: Geographical distribution and strain diversity of Lactobacillus wasatchensis isolated from cheese with unwanted gas formation

Lactobacillus wasatchensis, an obligate heterofermentative nonstarter lactic acid bacteria (NSLAB) implicated in causing gas defects in aged cheeses, was originally isolated from an aged Cheddar produced in Logan, Utah. To determine the geographical distribution of this organism, we isolated slow-growing NSLAB from cheeses collected in different regions of the United States, Australia, New Zealand, and Ireland. Seven of the cheeses showed significant gas defects and 12 did not. Nonstarter lactic acid bacteria were isolated from these cheeses on de Man, Rogosa, and Sharpe medium supplemented with ribose, a preferred substrate for Lb. wasatchensis. Identification was confirmed with 16S rRNA gene sequencing and the API50CH (bioMérieux, Marcy l'Etoile, France) carbohydrate panel. Isolates were also compared with one another by using repetitive element sequence-based PCR (rep-PCR). Lactobacillus wasatchensis was isolated only from cheeses demonstrating late-gas development and was found in samples from 6 of the 7 cheeses. This supports laboratory evidence that this organism is a causative agent of late gas production defects. The rep-PCR analysis produced distinct genetic fingerprints for isolates from each cheese, indicating that Lb. wasatchensis is found in several regions across the United States and is not a local phenomenon.     

Diversity and assessment of potential risk factors of Gram-negative isolates associated with French cheeses

The goal of this study was to identify at the species level a large collection of Gram-negative dairy bacteria isolated from milks or semi-hard and soft, smear-ripened cheeses (cheese core or surface samples) from different regions of France. The isolates were then assessed for two risk factors, antibiotic resistance and volatile and non-volatile biogenic amine production in vitro. In total, 173 Gram-negative isolates were identified by rrs and/or rpoB gene sequencing. A large biodiversity was observed with nearly half of all Gram-negative isolates belonging to the Enterobacteriaceae family. Overall, 26 different genera represented by 68 species including potential new species were identified among the studied Gram-negative isolates for both surface and milk or cheese core samples. The most frequently isolated genera corresponded to Pseudomonas, Proteus, Psychrobacter, Halomonas and Serratia and represented almost 54% of the dairy collection. After Pseudomonas, Chryseobacterium, Enterobacter and Stenotrophomonas were the most frequently isolated genera found in cheese core and milk samples while Proteus, Psychrobacter, Halomonas and Serratia were the most frequently isolated genera among surface samples. Antibiotic resistance profiles indicated that resistances to the aminosid, imipemen and quinolon were relatively low while more than half of all tested isolates were resistant to antibiotics belonging to the monobactam, cephem, fosfomycin, colistin, phenicol, sulfamid and some from the penam families. Thirty-six% of isolates were negative for in vitro biogenic amine production. Among biogenic amine-producers, cadaverine was the most frequently produced followed by isoamylamine, histamine and putrescine. Only low levels (<75 mg/l) of tyramine were detected in vitro.     

Comparison of the compositional, microbiological, biochemical, and volatile profile characteristics of nine Italian ewes' milk cheeses

Nine Italian ewes’ milk cheeses were compared for compositional, microbiological, biochemical, and volatile profile characteristics. Mean values for the gross composition were rather similar among cheeses. The lowest pH values were found for cheeses that used primary starters. At the end of ripening, cheeses made from raw milk contained >6.0 log₁₀ cfu/g of nonstarter lactic acid bacteria. Several species of lactobacilli were identified, but Lactobacillus plantarum and Lactobacillus paracasei were dominant. Random amplified polymorphic DNA-PCR analysis showed the biodiversity among the strains, and in several cases a relationship with the cheese of provenance. Cheeses differed mainly for secondary proteolysis, as shown by the principal component analysis applied to reversed-phase fast protein liquid chromatography data of the pH 4.6-soluble fractions and by determination of the free AA. A total of 113 volatile components were identified in the Italian Pecorino cheeses by solid-phase microextraction coupled with gas chromatography-mass spectrometry analysis. The volatile profiles of the 9 cheeses differed significantly. Quantitatively, alcohols were the most abundant chemical class for some cheeses, whereas ketones were the most abundant for other cheeses. Esters and carboxylic acids were largely found. Specific volatile components seemed to distinguish specific cheeses.     

随机扩增多态性法分析西藏牦牛奶酪中乳酸菌的遗传多样性

目的：利用随机扩增多态性（randomly amplified polymorphic DNA,RAPD）法对西藏地区牦牛奶酪中27 株乳酸菌基因型进行同源性分析。方法：利用5 个随机引物对Mg2+浓度、dNTP用量、退火温度、模版用量/引物用量（ng/pmol）4 个条件做单因素梯度试验,建立最佳反应条件,筛选最佳引物,然后对27 株乳酸菌和4 株乳酸菌标准菌株进行随机扩增,用NTsys 2.10e软件对扩增条带进行聚类和遗传相似性系数分析,分析结果与16S rRNA测序得到的菌种鉴定结果进行对比。结果：31 株菌遗传相似系数在0.72～1.00之间,当相似性系数在0.82时,菌株被分成了8 组,菌株按照不同种属聚类,聚类结果同16S rRNA测序结果基本一致,同时成功将Lactobacillus casei和Lactobacillus paracasei两个亚种区分开。结论：RAPD技术可以较好地应用于西藏地区牦牛奶酪中乳酸菌亲缘性关系分析。     

Novel Streptococcus infantarius subsp. infantarius variants harboring lactose metabolism genes homologous to Streptococcus thermophilus

The biodiversity and growth dynamics of Lactic Acid Bacteria (LAB) in farm-house Ossau-Iraty cheeses were investigated from vat milk to 180 days of ripening in six independent batches made from six raw ewe’s milks using five typical cheese-making methods. Commercial starter S1 was used for three batches, starter S1 combined with S2 for one batch and no starter for two batches.Up to ten LAB species from five genera and up to two strains per species were identified per milk; up to eleven species from five genera and up to three strains per species were identified per cheese. Lactococcus lactis, Lactobacillus paracasei, Enterococcus faecalis, Enterococcus faecium, Enterococcus durans, and Leuconostoc mesenteroides were detected in all cheeses. Lactococci reached the highest counts irrespective of the milk and starter used. Lactococci and enterococci increased during manufacture, and mesophilic lactobacilli increased during ripening. Strain and species numbers, the percentage of isolates originating from the raw milk, maximum counts of each genus/species and time for reaching them, all varied according to whether or not a starter was used and the composition of the starter. The genotypes of strains within species varied according to the raw milk used. This generated distinct LAB microbiotas throughout manufacture and ripening that will certainly impact on the characteristics of the ripened cheeses.     

Influence of microfiltration and adjunct culture on quality of Domiati cheese

The effects of microfiltration and pasteurization processes on proteolysis, lipolysis, and flavor development in Domiati cheese during 2 mo of pickling were studied. Cultures of starter lactic acid bacteria isolated from Egyptian dairy products were evaluated in experimental Domiati cheese for flavor development capabilities. In the first trial, raw skim milk was microfiltered and then the protein:fat ratio was standardized using pasteurized cream. Pasteurized milk with same protein:fat ratio was also used in the second trial. The chemical composition of cheeses seemed to be affected by milk treatment—microfiltration or pasteurization—rather than by the culture types. The moisture content was higher and the pH was lower in pasteurized milk cheeses than in microfiltered milk cheeses at d 1 of manufacture. Chemical composition of experimental cheeses was within the legal limits for Domiati cheese in Egypt. Proteolysis and lipolysis during cheese pickling were lower in microfiltered milk cheeses compared with pasteurized milk cheeses. Highly significant variations in free amino acids, free fatty acids, and sensory evaluation were found among the cultures used in Domiati cheesemaking. The cheese made using adjunct culture containing Lactobacillus delbrueckii ssp. lactis, Lactobacillus paracasei ssp. paracasei, Lactobacillus casei, Lactobacillus plantarum, and Enterococcus faecium received high scores in flavor acceptability. Cheeses made from microfiltered milk received a higher score in body and texture compared with cheeses made from pasteurized milk.     

Anticlostridial activity of Lactobacillus isolated from semi-hard cheeses

Non-starter lactic acid bacteria grow to high numbers in semi-hard cheeses during ripening, and may suppress harmful bacteria. In this study, about 400 Lactobacillus isolates from Danish semi-hard cheeses were identified to species level using internal transcribed spacer-polymerase chain reaction (ITS-PCR) analysis. The majority of isolates belonged to the Lb. paracasei complex and were classified into approximately 135 types using pulsed field gel electrophoresis (PFGE). Lactobacillus isolates representing all the different PFGE types were screened, using an agar well diffusion assay, for antimicrobial activity against 15 single-strain Clostridium cultures. Almost half of the isolates possessed anticlostridial activity, and 10% possessed a broad and consistent activity. Nine strains were further investigated for properties of importance for use as mixed cultures in cheese and silage. The results showed that anticlostridial non-starter Lactobacillus growing in high quality semi-hard cheeses could be useful as protective adjunct cultures against the growth of Clostridium.     

Lactic acid bacteria profiles and tyramine and tryptamine contents of Turkish tulum cheeses

Tulum cheese, commonly produced in Turkey, is a traditional Turkish dairy product made from raw milk. In this research, 20 samples of tulum cheese were purchased from different markets in Isparta and Ankara (Turkey) and the populations of lactic acid bacteria (LAB) and contents of biogenic amines of Turkish tulum cheeses were investigated. The mean counts of LAB (as log10 cfu/g) were 7.22±0.67 on MRS agar, 6.93±1.77 on M17 agar, 7.28±0.72 on APT agar and 5.98±2.20 on ADA agar. Isolates of LAB obtained from 20 tulum cheeses were characterised as lactobacilli (48.5%), enterococci (32.7%), lactococci (15.8%) and streptococci (3.0%). Lactobacillus paracasei ssp. paracasei, Lactobacillus bifermentans and Enterococcus faecium predominated among the LAB in the samples of tulum cheeses; these organisms represented 30.2% of the isolates. As amino acids, tyrosine and tryptophan were determined in tulum cheeses. Tyramine and tryptamine, biogenic amines, were found at 0.00–329.00 and 0.32–40.44 mg/kg, respectively.