Abstract: In this study we investigated the occurrence of Listeria monocytogenes in a dairy processing plant during two sampling campaigns in 2007 and 2008. Samples represented by semifinished and finished cheeses, swabs from the equipment and brines from the salting step, were subjected to analysis by using traditional and molecular methods, represented mainly by quantitative PCR. Comparing the results obtained by the application of the two approaches used, it became evident how traditional microbiological analysis underestimated the presence of L. monocytogenes in the dairy plant. Especially samples of the brines and the equipment swabs were positive only with qPCR. For some equipment swabs it was possible to detect a load of 10(4)-10(5)cfu/cm(2), while the modified ISO method employed gave negative results both before and after the enrichment step. The evidences collected during the first sampling year, highlighting a heavy contamination of the brines and of the equipment, lead to the implementation of specific actions that decreased the contamination in these samples during the 2008 campaign. However, no reduction in the number of L. monocytogenes positive final products was observed, suggesting that a more strict control is necessary to avoid the presence of the pathogen. All the isolates of L. monocytogenes were able to attach to abiotic surfaces, and, interestingly, considering the results obtained from their molecular characterization it became evident how strains present in the brines, were genetically connected with isolates from the equipment and from the final product, suggesting a clear route of contamination of the pathogen in the dairy plant. This study underlines the necessity to use appropriate analytical tools, such as molecular methods, to fully understand the spread and persistence of L. monocytogenes in food producing companies.
Abstract: Campylobacter-contaminated food products are currently the cause of the highest number of gastroenteritis cases in developed countries. Apart for biosafety measures at the primary production level, no other official control measures are currently in place for its control. This is partly due to the lack of quantitative data regarding the prevalence and contamination level of different food products by Campylobacter spp. that does not allow for quantitative risk assessment. PCR-based methods, applied without prior enrichment, in food samples circumvent limitations associated with the quantification of foodborne pathogens by traditional, culture-dependent methods. In this study, we report the development of a protocol, based on the amplification of the rpoB gene of Campylobacter jejuni, by quantitative PCR (qPCR), directly in food samples. The quantification limit of the protocol was determined to be in the order of 10 colony forming units (cfu)/g or ml of food sample. The optimized protocol was applied for the survey of C. jejuni in naturally contaminated poultry samples. In parallel, traditional sampling was also performed. A high percentage of samples (87%) resulted to be positive by qPCR, while no C. jejuni was detected by traditional analysis. Furthermore, important differences were observed in the detection by qPCR between samples before and after enrichment.
Abstract: In this study we investigated the microbiota of Gorgonzola rinds and maturing shelf swabs collected in 5 different maturing cellars in the Northwest part of Italy, in association with the detection and characterization of Listeria monocytogenes. Culture-dependent and -independent methods were performed in order to profile the main microbial populations present on the rinds and in the maturing shelves and species-specific PCR and Pulsed Field Gel Electrophoresis (PFGE) were used to identify and type L. monocytogenes isolates. The microflora was predominated by lactic acid bacteria and coagulase negative cocci, while enterococci and yeasts were very variable between the samples. Arthrobacter sp., Carnobacterium sp., Staphylococcus sp. and Brevibacterium linens, as bacteria, and Debaryomyces hansenii, as yeast, were detected by Denaturing Gradient Gel Electrophoresis (DGGE). Cluster analysis of the DGGE profiles clearly highlighted a cellar-specific microflora. L. monocytogenes was isolated in 11.1% of the rinds and 29.4% of the swabs and the molecular characterization of the isolates suggests a route of contamination from the maturing shelves to the rinds. No correlation was found between DGGE profiles and presence or absence of L. monocytogenes.
Abstract: The aim of this research was to study the bacterial populations involved in the production of artisanal Raschera PDO cheese (Italian Maritime Alps, northwest Italy) in order to collect preliminary knowledge on indigenous lactic acid bacteria (LAB). A total of 21 samples of Raschera PDO cheese, collected from six dairy farms located in the production area, were submitted to microbiological analysis. LAB were randomly isolated from M17 agar, MRS agar and KAA plates and identified by combining PCR 16S-23S rRNA gene spacer analysis, species-specific primers and 16S rRNA gene sequencing. Biodiversity of Lactococcus lactis subsp. lactis isolates was investigated by RAPD-PCR. LAB microflora showed the highest count values among all microbial groups targeted. They reached counts of 10(9) colony forming unit (cfu)/g in cheese samples after 3 days of salting and 15 days of ripening. Yeast population also showed considerable count values, while enterococci and coagulase-negative cocci (CNC) did not overcome 10(7)cfu/g. L. lactis subsp. lactis was the species most frequently isolated from Raschera PDO samples at all different production stages while in aged cheeses Lactobacillus paracasei was frequently isolated. RAPD-PCR highlighted that isolates of L. lactis subsp. lactis isolated from Raschera PDO were highly homogeneous.
Abstract: In this paper we describe the development of a quantitative PCR (qPCR) technique to detect, quantify and determine the vitality of Listeria monocytogenes in foods. The method was based on the amplification of the intergenic region spacer (IGS) between the 16S and 23S rRNA genes. A panel of more than 100 strains of Listeria spp. and non-Listeria was used in order to verify the specificity of the primers and Taqman probe and amplification signals were obtained only when L. monocytogenes DNA and RNA were loaded in the qPCR mix. Standard curves were constructed in several food matrices (milk, meat, soft cheese, fermented sausage, cured ham and ready-to-eat salad). The quantification limit was of 10(3)-10(4) cfu/g or ml, while for the determination of vitality it was 10(4)-10(5) cfu/g or ml. After an overnight enrichment in BHI at 37 degrees C also 10 cfu/g or ml could be detected in all the matrices used in this study. When we applied the protocol to food samples collected from the market or from small food processing plants, on a total number of 66 samples, 4 fresh cheeses from raw milk gave positive results prior to the overnight incubation, while 9 samples, of which only one represented by fresh meat and the others by cheeses from raw milk, were positive after the enrichment. Out of the 4 positive samples, only one could be quantified and it was determined to contain 4x10(3) cfu/g.
Abstract: The dynamics of dominant microflora throughout the manufacture and ripening processes were evaluated in three batches of traditional Castelmagno PDO cheese. Milk, curd and cheese samples, at different stages during cheesemaking, were collected and subjected to culture-dependent and -independent analysis. Traditional plating and genetic identification of lactic acid bacteria (LAB) isolates, and PCR-DGGE analysis of V1 region of 16S rRNA gene were carried out. The collected samples were also monitored by HPLC for the presence of organic acids, sugars and ketones. LAB resulted to be the prevailing microflora in all production stages although enterococci, coagulase-negative cocci and yeasts also showed considerable viable counts probably related to the presence, in the dairy samples analysed, of free short-chain fatty acids detected by HPLC. Lactococcus lactis subsp. lactis was the species most frequently isolated during Castelmagno PDO manufacture, while Lactobacillus plantarum and Lactobacillus paracasei were isolated with the highest frequencies from ripened Castelmagno PDO cheese samples. Occasionally strains of Lactobacillus delbrueckii subsp. lactis, Lactobacillus coryniformis subsp. torquens and Lactobacillus casei were isolated. The results obtained on Castelmagno PDO microflora underlines a partial correspondence between culture-dependent method and DGGE analysis. Thus, in this study, it is highlighted once more the importance to combine molecular culture-independent approaches with classical microbiological methods for the study of complex environmental communities occurring in food matrices.
Abstract: In this study, the microbial ecology of the blood sausage morcilla de Burgos, subjected to high hydrostatic pressure treatment (HPP), was studied by culture-dependent and -independent methods. Morcilla de Burgos is the most traditional and famous blood sausage in Spain. The producers are interested in extending its shelf-life in order to expand their market and to reduce losses attributed to spoilage. Sausage batter prior to stuffing and blood sausages HPP treated or not (control) were analyzed at 0, 9, 14, 21, 28 and 35 days of storage at 4 degrees C. Lactic acid bacteria, Pseudomonas spp. and aerobic mesophilic bacteria were investigated by traditional plating. PCR-denaturing gradient gel electrophoresis (DGGE) was used to analyze the DNA and the RNA extracted directly from the blood sausages, as well as bulk cells of LAB and Pseudomonas spp. The results showed that HPP improved the shelf life of morcilla de Burgos to 28 days in comparison with control samples. The populations responsible for spoilage, namely LAB, remained lower in HPP treated samples when compared with the control samples. Only at 35 days of storage they reached values of 10(8) cfu/g, leading to the spoilage of the product. Although, HPP affected the LAB population, they were able to recover the injury provoked by the treatment. Lastly, HPP seemed to affect differently LAB species detected. While Leuconostoc mesenteroides was completely inactivated by HPP, Weissella viridescens was able to recover and carry out the typical spoilage of the product. Pseudomonas spp. remained under detection level (<10(2) CFU/g) after the HPP treatment.
Abstract: The aim of this study was the microbiological characterisation of a typical Italian cheese "Robiola di Roccaverano" with Protected Designation of Origin (PDO). Fresh and ripened robiola samples were collected from four artisanal and one industrial producer. Artisanal producers used raw goat's milk and natural fermentation, whilst the industrial producer used mixed cow-goat's milk and selected starters. The microbial communities were monitored during different seasons and ripening times with PCR-DGGE and culture-dependent methods. The cluster analysis showed that the DGGE bacterial patterns were related to the different manufacturing and climatic conditions, revealing the occurrence of species associated to Robiola di Roccaverano. The DGGE profiles of yeasts were affected by ripening in summer season. Moreover, the results obtained allowed the identification of microbial species such as Lactococcus lactis subsp. lactis, Geotricum spp. and Kluyveromyces lactis that are related to the production of this typical cheese.
Abstract: In this study we investigated yeast biodiversity and dynamics during the production of a sweet wine obtained from dried grapes. Two wineries were selected in the Collio region and grapes, grape juices and wines during fermentations were analyzed by culture-dependent methods (plating on WLN medium) and culture-independent methods (PCR-DGGE). Moreover, the capability of the Saccharomyces cerevisiae starter cultures to take over the fermentation was assessed by RAPD-PCR. On WLN agar several species of non-Saccharomyces yeasts (Hanseniaspora, Metschnikowia, Pichia, Candida, Torulaspora and Debaryomyces), but also strains of S. cerevisiae, were isolated. After inoculation of the starter cultures, only colonies typical of S. cerevisiae were observed. Using PCR-DGGE, the great biodiversity of moulds on the grapes was underlined, both at the DNA and RNA level, while the yeast contribution started to become important only in the musts. Here, bands belonging to species of Candida zemplinina and Hanseniaspora uvarum were visible. Lastly, when the S. cerevisiae isolates were compared by RAPD-PCR, it was determined that only in one of the fermentations followed, the inoculated strain conducted the alcoholic fermentation. In the second fermentation, the starter culture was not able to promptly implant and other populations of S. cerevisiae could be isolated, most likely contributing to the final characteristics of the sweet wine produced.
Abstract: The components of the microflora of four Feta cheeses, produced by different Greek manufacturers, were determined by culture dependent and independent techniques. Isolates from microbiological media were first grouped by Polymerase Chain Reaction-Denaturing Gradient Gel Electrophoresis (PCR-DGGE) and then representatives of each DGGE group were sequenced for identification purposes. DNA and RNA, extracted directly from the cheese, were subjected to PCR-DGGE. Moreover, Feta cheeses were subjected to FISH analysis in order to identify viable bacterial populations. The microbial ecology, as represented by the Lactic Acid Bacteria (LAB) and yeast populations, was different for the four cheeses. The main LAB species isolated were Lactobacillus plantarum, Lactobacillus brevis, Lactobacillus coryniformis and Lactobacillus fermentum. However, some inconsistencies were observed between the results obtained with the culture dependent and the culture independent approach. In the case of the yeasts, the results obtained by PCR-DGGE compared very well with those obtained by the conventional microbiological analysis and the main species found were Kluyveromyces lactis, Pichia fermentans and C. zeylanoides. FISH analysis highlighted viable but not culturable populations of Streptococcus thermophilus and Lactococcus spp. RAPD-PCR performed on the L. plantarum isolates revealed a cheese specific distribution and a temperature dependent clustering.
Abstract: In this study two strains of Enterococcus faecium, M241 and M249, isolated from goat milk, were studied for their capability to produce antibacterial compounds. It was determined that the bacteriocins produced by both strains were active towards Listeria monocytogenes and Clostridium butyricum, and they did not have any activity with respect to other species of lactic acid bacteria. Enterocins A and B were targeted by polymerase chain reaction (PCR) and sequenced, after cloning, in both strains. The bacteriocins contained in the cell free supernatants were stable when subjected to treatments at high and low temperatures or with lipase, catalase and alpha-amylase. Whereas, the activity was lost when proteinases were used. Lastly, a co-culture experiment with L. monocytogenes in skimmed milk was performed. In the presence of the E. faecium strains, the pathogen showed a delay in the growth of about 6h and it reached a maximum counts of about 10(6) colony forming unit, two orders of magnitude low with respect to the control. This result suggests the possibility to use the strains studied as starter cultures to enhance food safety of dairy products.
Abstract: AIMS: To characterize Lactococcus garvieae strains of dairy origin and to determine their technological properties and safety for their possible use in starter culture preparation. METHODS AND RESULTS: Forty-seven L. garvieae isolates, recovered from two artisanal Italian cheeses were studied, in comparison with 12 fish isolates and the type strain of the species. Phenotypic typing revealed that the strains could be differentiated on the basis of their ecological niche of origin in lactose positive strains (all isolated from dairy sources) and lactose negative strains (all isolated from fish). Furthermore, the strains exhibited a high degree of physiological variability, showing the presence of 26 different biotypes. The strains possessed moderate acidifying and proteolytic activities and did not produce bacteriocins. A safety investigation revealed that all strains were sensitive to vancomycin and moderately resistant to kanamycin; some biotypes were tetracycline resistant. Production of biogenic amines or presence of genes encoding virulence determinants occurred in some isolates. CONCLUSIONS: The prevalence of L. garvieae in some artisanal Italian cheeses can be linked to the typicity of the products. Although in a few cases an antimicrobial resistance or a presence of virulence determinants may imply a potential hygienic risk, most of the strains showed positive properties for their possible adjunction in a starter culture preparation, to preserve the natural bacterial population responsible for the typical sensorial characteristics of the traditional raw milk cheeses. SIGNIFICANCE AND IMPACT OF THE STUDY: L. garvieae strains can be considered an important part of the microbial population associated with the natural fermentation of artisanal Italian cheeses. A deepened characterization of the strains may aid in understanding the functional and ecological significance of their presence in dairy products and in selecting new strains for the dairy industry.
Abstract: In this study we used culture-independent methods to profile bacterial populations in food products. Denaturing gradient gel electrophoresis (DGGE) and fluorescence in situ hybridization (FISH) were employed in order to identify bacterial species without the need of isolation and biochemical identification. The protocols used to extract the DNA, subsequently subjected to PCR amplification for DGGE, as well as the hybridization procedure for FISH, were optimised. Moreover, an extensive study on the primers and probes to be used for the direct detection and identification of microorganisms commonly found in food, was carried out. Meat and cheese samples, fresh or processed, were subjected to DGGE and FISH analysis and the results obtained highlighted how the processing in food industry is decreasing the bacterial biodiversity. Not only processed cheese or meat but also fermented products were dominated by only one or few species. Lactobacillus sakei, Lactobacillus curvatus and Brochothrix thermosphacta were the main species found in meat products, while in cheese(s) Lactococcus lactis, Streptococcus thermophilus and Leuconostoc spp. were repeatedly detected. The results obtained by the two culture-independent methods used always correlated well.
Abstract: In this study, we focused our investigation on two strains of Lactobacillus curvatus, L442 and LTH1174, which are able to produce bacteriocins. L. curvatus LTH1174 is widely studied for its capability to produce curvacin A, while L. curvatus L442 was isolated from traditional Greek fermented sausages and was shown to possess a strong inhibitory activity toward Listeria monocytogenes. By polymerase chain reaction, we were able to target in both strains the genes for the production of sakacin P and sakacin Q, sppA and sppQ, respectively, both encoded chromosomally. While sppA was found to be conserved when compared with other sakacin P genes, sppQ showed a deletion of about 15 nucleotides when aligned with sequences obtained from Lactobacillus sakei. This difference did not affect the activity of sakacin Q as determined by testing sensitive strains. Expression analysis highlighted that sakacin P was expressed in L. curvatus L442 but not in L. curvatus LTH1174. Curing experiments were performed on L. curvatus LTH1174 to study the effect of the megaplasmid, present in this strain. In the plasmid-cured strain, expression of the sppA gene was detected. sppQ was expressed in both plasmid-cured and wild-type L. curvatus LTH1174, although expression was higher in the plasmid-cured strain.
Abstract: Coagulase-negative catalase-positive cocci (CNCPC) play a very important role during the fermentation of sausages. In particular, they are involved in the aroma formation of the final product, because they release lipases that are able to free short-chain fatty acids that are contributing to the sensory characteristics of the fermented sausage. Few studies have been undertaken to elucidate the regulation of lipase gene expression in Staphylococcus xylosus by substrate molecules or products of lipolysis. The aim of this study was to analyze the gehM gene expression of S. xylosus DSMZ 6179 in vitro with growth media containing different concentrations of lipids and in situ during the maturation of fermented sausages. The results obtained suggest that a concentration that increases in triglycerides in the growth medium suppresses the expression of the lipase gene.
Abstract: In this paper, the ability of a commercial starter culture to perform a sausage fermentation is evaluated. Molecular analysis revealed the presence of several strains of the same species contained in the starter culture with different behavior during the fermentation, and the contribution of Lactobacillus curvatus, which was only marginally isolated during the transformation.
Abstract: A Lactobacillus sakei strain, designated as I151 and isolated from naturally fermented sausages, was found to produce the sakacin P bacteriocin which is active against Listeria monocytogenes. In this study, we performed the sequencing of the gene cluster involved in the production of the sakacin P, and we followed the expression of the sppA gene, encoding for the bacteriocin, in vitro, using Rogosa-Sharpe medium, and in situ, inoculating the strain in fermented sausages as starter culture. The results obtained underlined the high similarity (>99%) of the entire sakacin P gene cluster from the L. sakei studied here with others present in strains of L. sakei already described. Moreover, from the expression experiments, it was shown that the gene is expressed during the exponential phase and that production procedures typical of fermented sausages are not turning off the expression of the gene encoding the bacteriocin. The capability of the strain studied to produce sakacin P during production is considered an advantage for its use as starter culture to improve the safety aspect of traditional fermented sausages produced in Italy.
Abstract: The microflora of different types of fermented sausages has been defined by isolation and biochemical identification of the microorganisms commonly found in these products. It is generally agreed that the main microbial groups involved in such products are lactic acid bacteria and coagulase-negative cocci. In addition, and depending on the product, other groups may play a role, such as yeasts and enterococci. Since it appears that the types of microbial groups, or even the specific strains of a given microbial group, that dominate the fermentation, significantly affect the organoleptic profile of the final product, there is an increasing interest in the description of the microbiota that are found in different fermented sausages. More recently, new tools, based on molecular methods, allowing fast and unequivocal identification of strains, isolated from fermented sausages, became available. These methods have been successfully applied and, in general, biochemical and molecular identification compared well. However, new information comes to light when molecular methods are applied to DNA and/or RNA extracted directly from sausages. This approach eliminates problems related to traditional isolation. This review deals with the recent findings and results of the application of molecular methods, in a culture-dependent and culture-independent manner, on the study of the microflora of fermented sausages.
Abstract: Coagulase-negative cocci (CNC) ecology in naturally fermented sausages from Friuli Venezia Giulia region, in the North East of Italy, was investigated. A total of 617 CNC strains, isolated from three different plants during the fermentation process, were identified by traditional methods (biochemical tests) and molecular methods based on species specific PCR, PCR-Denaturing Gradient Gel Electrophoresis (DGGE) and sequencing of the V3 region of the 16S rRNA gene. The identification, by using biochemical tests, was not successful for 130 strains. Moreover, incongruent results were observed comparing the traditional with the molecular identifications. The same species of CNC were found in all three processing plants, but their contribution to the fermentations was different. In two plants Staphylococcus xylosus was the main species involved in fermentation process, while in the third the maturation was carried out equally by three species: S. xylosus, Staphylococcus warneri and Staphylococcus pasteuri.
Abstract: In this study, the ecology of the lactic acid bacteria (LAB) of three naturally fermented sausages produced in the Friuli-Venezia-Giulia region, in the North East of Italy, was investigated. A total of 465 strains isolated from three fermentations were identified by molecular methods and 12 different species of LAB were detected. Lactobacillus curvatus and Lactobacillus sakei were the most numerous (67 and 353 strains isolated, respectively) and they were subjected to RAPD-PCR. Clusters containing strains isolated from different plants were observed, underlining a coherent population distribution in three different fermentations. However, we also observed clusters formed by strains isolated from a specific fermentation, only. This could be explained considering the different technologies and recipes used for the production in three plants. Ingredient composition, fermentation and maturation parameters could play an important role in the selection of specific populations adapted in a specific environment.
Abstract: In this study, our purpose was to molecular characterize Lactobacillus strains isolated from naturally fermented sausages, produced in three different processing plants in continental Greece, in order to investigate the differences of strains coming from different producing areas. Three-hundred and thirty eight strains were isolated throughout the fermentation periods on MRS. They were identified by species-specific PCR and sequencing of partial 16S rRNA gene. The results obtained highlighted that the main populations involved in the fermentations studied belonged to the species Lactobacillus sakei, Lactobacillus plantarum and Lactobacillus curvatus. However, for each of the fermentations, the percentage of isolation for the three main species was different. Molecular characterization of these strains was performed by RAPD-PCR with primer M13 and cluster analysis was applied to define relations and degrees of similarities between strains. This analysis led to the understanding that some strains were plant-specific, whereas others shared a degree of homology independently of the provenience. This evidence is highlighting the capability of the strains to adapt to specific production condition, becoming the main responsible for the transformations, thereby influencing the final characteristics of the sausages.
Abstract: A multiphasic approach was used to investigate the yeast ecology in Italian fermented sausages. Culture-dependent and -independent methods were applied to identify the yeast species during the maturation process and to characterize the numerically dominant species. Plating analysis and subsequent molecular identification of the isolates highlighted the dominance of Debaryomyces hansenii, but at least other three yeast species -Candida zeylanoides, Pichia triangularis and Metschnikowia pulcherrima - contributed to the fermentation as well. Direct denaturing gradient gel electrophoresis analysis confirmed that D. hansenii was the main yeast species present and its activity was also demonstrated. No other yeasts species were detected on the direct denaturing gradient gel electrophoresis gels, whereas DNA of Penicillium farinosum, Penicillium viridicatum and Mucor racemosus were present. Molecular characterization by RAPD-PCR analysis of the D. hansenii isolates demonstrated a shift in its population from the beginning to the end of the maturation of the sausages. Strains present during the early stages of the fermentation were grouped in clusters that differed from those isolated in the final phases of the maturation, underlining the genetic differences between these two populations of D. hansenii. However, all the isolates were able to grow in the presence of 3.5% sodium chloride and at 10 degrees C, evidence that these parameters did not select the species present at the end of the maturation period.
Abstract: The aim of this paper was the technological characterization of a Lactobacillus sakei strain, able to produce the bacteriocin sakacin P, that was originally isolated from naturally fermented sausages. Experiments were conducted in situ, using MRS-based medium, and in situ, when the strain was inoculated as starter culture in real sausage fermentation. The results obtained underlined that the strain was able to grow in conditions that are commonly used in the production line, and only lactose and high concentrations of NaCl (5% w/v) reduced the capability for bacteriocin production. When inoculated in sausages, the strain showed a good performance, being able to colonize rapidly the ecosystem. A high number of isolates, capable of producing sakacin P, were already isolated after the third day of fermentation, and persisted throughout the course of the fermentation. The inoculated strain also affected other microbial colonization trends; in fact the total bacterial count and fecal enterococci showed a rapid decrease at the end of the fermentation. Moreover, during sensory evaluation, the final sausage product received high scores for the parameters of tenderness and juiciness, with medium acidity and low rancidity. Lastly, the panelists preferred the sausages produced with the L. sakei characterized in this study when compared to a fermented sausage produced with a commercial starter.
Abstract: Staphylococcus spp. ecology in fresh sausages stored at 4 degrees C for a period of 10 days was investigated. Microbiological analyses to assess the quality and safety of the products studied were carried out, and strains on MSA agar were isolated. A total of 85 strains were identified, by traditional methods, as Staphylococcus spp. and a PCR-DGGE method, together with a S. xylosus-specific PCR, were used to determine the species of the strains isolated. Almost 50% of them were recognized as S. xylosus, but strains of S. pasteuri, S. warneri, S. equorum and S. succinus, were also found. Interesting population dynamics were observed, characterized by a succession of S. pasteuri and S. warneri at 0 day, with S. xylosus at 3 days and S. equorum at 6 and 10 days. Molecular characterization of S. xylosus strains and cluster analysis highlighted the presence of six main populations in the fresh sausages studied. However, the clusters were formed by strains isolated at different days of storage, implying a homogeneous distribution of the six subpopulations throughout the period in the products followed.
Abstract: In this study, the microbial ecology of three naturally fermented sausages produced in northeast Italy was studied by culture-dependent and -independent methods. By plating analysis, the predominance of lactic acid bacteria populations was pointed out, as well as the importance of coagulase-negative cocci. Also in the case of one fermentation, the fecal enterocci reached significant counts, highlighting their contribution to the particular transformation process. Yeast counts were higher than the detection limit (> 100 CFU/g) in only one fermented sausage. Analysis of the denaturing gradient gel electrophoresis (DGGE) patterns and sequencing of the bands allowed profiling of the microbial populations present in the sausages during fermentation. The bacterial ecology was mainly characterized by the stable presence of Lactobacillus curvatus and Lactobacillus sakei, but Lactobacillus paracasei was also repeatedly detected. An important piece of evidence was the presence of Lactococcus garvieae, which clearly contributed in two fermentations. Several species of Staphylococcus were also detected. Regarding other bacterial groups, Bacillus sp., Ruminococcus sp., and Macrococcus caseolyticus were also identified at the beginning of the transformations. In addition, yeast species belonging to Debaryomyces hansenii, several Candida species, and Willopsis saturnus were observed in the DGGE gels. Finally, cluster analysis of the bacterial and yeast DGGE profiles highlighted the uniqueness of the fermentation processes studied.
Abstract: Listeria monocytogenes strains, isolated from various sources (food, environment, and animals), were used to test different PCR-based methods to investigate their capability to define the strain origin. RAPD-PCR with three primers and the SAU-PCR method, in which the DNA was first digested with the Sau3A restriction endonuclease and then amplified with a primer designed on the restriction site, were carried out, and the profiles obtained were used to perform cluster analysis. Based on the cluster analysis of Listeria spp. strains, obtained from international collections, the coefficient of similarity was selected. The results obtained showed that the methods tested in the study gave different levels of differentiation between the strains tested. The RAPD protocol using the P1254 primer and the SAU-PCR gave appreciable results only for strains isolated from animals and from a food processing plant in two different periods of the year 2003. Better differentiation was observed using the RAPD-PCR with primer D8635. As a matter of fact, it was able to distinguish L. monocytogenes obtained from different species of animals, different food samples and strains from the same production plant isolated in different periods of the year. Also primer M13 gave positive results, but the coefficient of similarity to use had to be increased to 80%. On the basis of the results observed, RAPD-PCR with primers D8635 and M13 should be considered reliable tools for epidemiological investigations focusing on L. monocytogenes.
Abstract: In this paper new primers, annealing to the ITS2 region, were used to obtain a PCR product that was subsequently subjected to Temperature Gradient Gel Electrophoresis (TGGE) analysis. The PCR-TGGE method performed was able to distinguish Saccharomyces cerevisiae and S. paradoxus and distinguish between strains of S. cerevisiae. Direct analysis of S. cerevisiae and S. paradoxus ecology in musts were also performed.
Abstract: A culture-independent method for the direct detection in food of Yersinia spp. was developed in this study. It is based on the amplification of a 359 bp PCR product from the RNA polymerase beta-subunit gene (rpoB) and subsequent analysis by denaturing gradient gel electrophoresis (DGGE). Direct detection of Yersinia spp. by PCR-DGGE was carried out in ready-to-eat vegetables and the results compared with the results of the traditional, culture-dependent method. The DGGE profiles were determined to be species-specific. As a matter of fact, Yersinia enterocolitica, Yersinia intermedia, Yersinia frederiskenii and Yersinia kristensenii showed differential migrations in the gels. Moreover, Y. enterocolitica serotypes O:3, O:5 and O:9 were distinguishable, as well. Only for a limited number of traditionally isolated strains, the biochemical and molecular identification agree. In particular, an overestimation of Y. enterocolitica, as determined biochemically, was observed. Finally when the protocol was applied to 27 food samples, a good correlation was obtained when the results of traditional and direct methods were analyzed. The molecular method was able to identify Y. enterocolitica, not detected by plating analysis. However, for 4 samples, that, by plating analysis, were determined to contain Yersinia spp., no PCR product could be obtained after enrichment, probably due to low numbers of target cells, thereby not allowing the possibility to perform DGGE analysis. The protocol described here represents a reliable tool for the detection of Yersinia spp. in food, which can be used to obtain the needed results faster than with traditional culturing methods.
Abstract: A molecular biology method based on polymerase chain reaction (PCR) and denaturing gradient gel electrophoresis (DGGE) was developed to detect Clostridium spp. in cheese samples suspected of late blowing. Strains of Clostridium spp. and different Lactic Acid Bacteria species, obtained from international collections, were used to determine the experimental conditions for the PCR amplification and DGGE differentiation. DNA extracted directly from cheeses with late blowing symptoms was subjected to PCR and DGGE analysis and traditional agar plating was performed for samples pasteurized and enriched overnight. Moreover, volatile fatty acids were determined for comparison purposes. The PCR-DGGE results were in agreement with the plating performed, and only samples presenting DGGE bands migrating at the same position as Clostridium spp. bands, showed the presence of Clostridium colonies on Reinforced Clostridial Medium plates. Butyric acid contents were high (>100 mg/kg) in the cases of positive DGGE results, underlining the suitability of the protocol for the study of cheese spoilage. The sensitivity of the method is estimated to be 10(4) CFU/g.
Abstract: In this paper we describe the development of a PCR protocol to specifically detect Brettanomyces bruxellensis and B. anomalus. Primers DB90F and DB394R, targeting the D1-D2 loop of the 26S rRNA gene, were able to produce amplicons only when the DNA from these two species were used. No amplification product was obtained when DNA from other Brettanomyces spp. or wine yeasts were used as the templates. The 305-bp product was subjected to restriction enzyme analysis with DdeI to differentiate between B. bruxellensis and B. anomalus, and each species could be identified on the basis of the different restriction profiles. After optimization of the method by using strains from international collections, wine isolates were tested with the method proposed. Total agreement between traditional identification and molecular identification was observed. The protocol developed was also used for direct detection of B. bruxellensis and B. anomalus in wines suspected to be spoiled by Brettanomyces spp. Application of culture-based and molecular methods led us to the conclusion that 8 of 12 samples were spoiled by B. bruxellensis. Results based on the application of molecular methods suggested that two of the eight positive samples had been infected more recently, since specific signals were obtained at both the DNA and RNA levels.
Abstract: Saccharomyces cerevisiae strains isolated from two different wineries in central Italy were subjected to enological and molecular characterization to investigate the influence of the winery environment. One of the selected wineries is a modern, working winery, whereas the second one was abandoned since 1914 and was located in an artificial cavern. The results obtained by our analysis of the fermentation traits underline the selectivity of the winery environment (winery effect), since strains isolated from the industrial winery showed higher values for characters typically subjected to selective pressure, such as maximum capability to produce ethanol, fermentation rate and SO(2) resistance. Pulsed-field gel electrophoresis (PFGE), random amplification of polymorphic DNA (RAPD)-PCR and SAU-PCR were carried out to assesss genetic differences between the two populations studied. Only RAPD-PCR could distinguish between the two populations based on their provenience, whereas PFGE and SAU-PCR gave profiles shared between strains isolated from the industrial and former winery. Moreover, analysis of the karyotypes suggested the presence of chromosomal-length polymorphism; differences in the size and number of chromosomes between the two groups of isolates, as well as within each group, were observed.
Abstract: A quick molecular biology method based on the polymerase chain reaction (PCR) and Denaturing Gradient Gel Electrophoresis (DGGE) was developed for distinguishing strains belonging to the Saccharomyces sensu stricto group. Differentiation was obtained between S. cerevisiae, S. paradoxus and S. bayanus / S. pastorianus although no distinction was possible between S. bayanus and S. pastorianus using the amplification of the ITS regions. The ability to distinguish between different strains of the Saccharomyces sensu stricto group could allow for a better understanding of the ecology of these species on grapes as well as in musts and wines and the method developed can be useful for the quick identification of Saccharomyces sensu stricto strains from numerous isolates.
Abstract: In this study, a polyphasic approach was used to study the ecology of fresh sausages and to characterize populations of lactic acid bacteria (LAB). The microbial profile of fresh sausages was monitored from the production day to the 10th day of storage at 4 degrees C. Samples were collected on days 0, 3, 6, and 10, and culture-dependent and -independent methods of detection and identification were applied. Traditional plating and isolation of LAB strains, which were subsequently identified by molecular methods, and the application of PCR-denaturing gradient gel electrophoresis (DGGE) to DNA and RNA extracted directly from the fresh sausage samples allowed the study in detail of the changes in the bacterial and yeast populations during storage. Brochothrix thermosphacta and Lactobacillus sakei were the main populations present. In particular, B. thermosphacta was present throughout the process, as determined by both DNA and RNA analysis. Other bacterial species, mainly Staphylococcus xylosus, Leuconostoc mesenteroides, and L. curvatus, were detected by DGGE. Moreover, an uncultured bacterium and an uncultured Staphylococcus sp. were present, too. LAB strains isolated at day 0 were identified as Lactococcus lactis subsp. lactis, L. casei, and Enterococcus casseliflavus, and on day 3 a strain of Leuconostoc mesenteroides was identified. The remaining strains isolated belonged to L. sakei. Concerning the yeast ecology, only Debaryomyces hansenii was established in the fresh sausages. Capronia mansonii was initially present, but it was not detected after the first 3 days. At last, L. sakei isolates were characterized by randomly amplified polymorphic DNA PCR and repetitive DNA element PCR. The results obtained underlined how different populations took over at different steps of the process. This is believed to be the result of the selection of the particular population, possibly due to the low storage temperature employed.
Abstract: A method was developed to differentiate between Bacillus cereus, Bacillus mycoides and Bacillus thuringiensis using the polymerase chain reaction combined with a restriction endonuclease (PCR-RE) technique. This fast and simple protocol, applied to pure culture strains, was developed using the gyrB DNA sequence, as previously proposed by other authors. Strains from international collections were used to optimize the method which was then applied to the identification of strains isolated from food samples. Amplifications were specific for the B. cereus group. Only Staphylococcus aureus gave the same size PCR product, but it was easily differentiated from strains in the B. cereus group by using restriction analysis, based on digestion with the RsaI, Sau3AI and EcoRI endonucleases. Specific amplifications and good differentiations were obtained using pure strains, suggesting the possibility of using the method described to identify the B. cereus group directly in food samples.
Abstract: AIMS: Three previously published fungal specific PCR primer sets, referred to as the NS, EF and NL primer sets, were evaluated for use in compost microbial community analysis by PCR and denaturing gradient gel electrophoresis (DGGE). METHODS AND RESULTS: Primers were first evaluated based on their tolerance to PCR inhibitors. Due to its sensitivity to inhibitors, the NS primer set was determined to require a 10-fold smaller volume addition of compost DNA to PCR than the EF and NL primer sets, based on a logistic regression model for a 75% PCR success rate. Further evaluation of the EF and NL primer sets involved testing the resolution of PCR products from pure fungal cultures on DGGE. The NL primer set, which targets the more variable 28S rDNA, resulted in multiple bands for each pure culture. Thus, the EF primer set was used to monitor the microbial community during compost colonization studies, where three fungi were inoculated onto autoclaved grape pomace and rice straw compost. CONCLUSIONS: Of the three primer sets evaluated, the EF primer set was determined to be the best for PCR-DGGE of compost fungal populations; however, concerns with the EF primer set included the lack of sequence divergence in the targeted region of 18S rDNA and PCR artifacts which interfered with detection of inoculated fungi in the colonization studies. SIGNIFICANCE AND IMPACT OF THE STUDY: There are many factors related to PCR primers that need to be assessed prior to applying PCR-DGGE to fungal communities in complex environments such as compost.
Abstract: Denaturing gradient gel electrophoresis (DGGE) of PCR-amplified ribosomal DNA (rDNA) is routinely used to compare levels of diversity of microbial communities and to monitor population dynamics. While using PCR-DGGE to examine the bacteria in wine fermentations, we noted that several commonly used PCR primers for amplifying bacterial 16S rDNA also coamplified yeast, fungal, or plant DNA present in samples. Unfortunately, amplification of nonbacterial DNA can result in a masking of bacterial populations in DGGE profiles. To surmount this problem, we developed two new primer sets for specific amplification of bacterial 16S rDNA in wine fermentation samples without amplification of eukaryotic DNA. One primer set, termed WLAB1 and WLAB2, amplified lactic acid bacteria, while another, termed WBAC1 and WBAC2, amplified both lactic acid bacterial and acetic acid bacterial populations found in wine. Primer specificity and efficacy were examined with DNA isolated from numerous bacterial, yeast, and fungal species commonly found in wine and must samples. Importantly, both primer sets effectively distinguished bacterial species in wine containing mixtures of yeast and bacteria.
Abstract: Culture-dependent and -independent methods were used to examine the yeast diversity present in botrytis-affected ("botrytized") wine fermentations carried out at high ( approximately 30 degrees C) and ambient ( approximately 20 degrees C) temperatures. Fermentations at both temperatures possessed similar populations of Saccharomyces, Hanseniaspora, Pichia, Metschnikowia, Kluyveromyces, and Candida species. However, higher populations of non-Saccharomyces yeasts persisted in ambient-temperature fermentations, with Candida and, to a lesser extent, Kluyveromyces species remaining long after the fermentation was dominated by SACCHAROMYCES: In general, denaturing gradient gel electrophoresis profiles of yeast ribosomal DNA or rRNA amplified from the fermentation samples correlated well with the plating data. The direct molecular methods also revealed a Hanseniaspora osmophila population not identified in the plating analysis. rRNA analysis also indicated a large population (>10(6) cells per ml) of a nonculturable Candida strain in the high-temperature fermentation. Monoculture analysis of the Candida isolate indicated an extreme fructophilic phenotype and correlated with an increased glucose/fructose ratio in fermentations containing higher populations of CANDIDA: Analysis of wine fermentation microbial ecology by using both culture-dependent and -independent methods reveals the complexity of yeast interactions enriched during spontaneous fermentations.
Abstract: A new molecular approach for the detection and identification of Listeria spp. and Listeria monocytogenes in food is presented here. The method is based on the PCR amplification of a fragment of the iap gene from the five species belonging to the genus and on the analysis of the PCR products obtained by denaturing gradient gel electrophoresis (DGGE). The protocol was first optimized by using strains from international collections. Based on the differences present in the sequences amplified, it was possible to obtain species-specific DGGE migration that allowed fast and easy identification of L. monocytogenes, L. innocua, L. welshimeri, L. seeligeri, and L. ivanovii. Moreover, for L. monocytogenes serotypes, partial differentiation was possible. The optimized protocol was used for identification of Listeria strains traditionally isolated from food and for direct detection and identification of Listeria members in food after an overnight enrichment. Identification of 48 food isolates and direct detection of Listeria spp. in 73 food samples show the potential of the method that can be used as a fast screening test to investigate the presence of Listeria spp. and L. monocytogenes in food.
Abstract: In this study, a PCR-denaturing gradient gel electrophoresis (DGGE) protocol was used to monitor the dynamic changes in the microbial population during ripening of natural fermented sausages. The method was first optimized by using control strains from international collections, and a natural sausage fermentation was studied by PCR-DGGE and traditional methods. Total microbial DNA and RNA were extracted directly from the sausages and subjected to PCR and reverse transcription-PCR, and the amplicons obtained were analyzed by DGGE. Lactic acid bacteria (LAB) were present together with other organisms, mainly members of the family Micrococcaceae and meat contaminants, such as Brochothrix thermosphacta and Enterococcus sp., during the first 3 days of fermentation. After 3 days, LAB represented the main population, which was responsible for the acidification and proteolysis that determined the characteristic organoleptic profile of the Friuli Venezia Giulia fermented sausages. The PCR-DGGE protocol for studying sausage fermentation proved to be a good tool for monitoring the process in real time, and it makes technological adjustments possible when they are required.
Abstract: A PCR-based method for the detection of Salmonella spp. in food was developed. The method, set up on typical salami from the Italian region of Marche, is sensitive and specific and shows excellent correlation with the conventional method of reference when naturally contaminated foods are analyzed. Moreover, it can be easily performed within a maximum of 12 h from food sampling, thus allowing prompt detection of Salmonella spp. in the food stocks analyzed.
Abstract: A total of 70 strains of Saccharomyces cerevisiae were isolated from different grapes from the Collio Region. Chemical parameters and mitochondrial DNA (mtDNA) restriction patterns were determined. Higher alcohols were the main parameter useful for differentiating between strains, whereas the mtDNA analysis demonstrated a high genetic variability between strains. A weak correlation was observed when the dendrograms obtained from the chemical and genetic results were compared.
Abstract: A rapid method for the identification of Lactobacillus spp. isolated from naturally fermented Italian sausages was developed. It is based on the amplification of a small fragment from the 16S rRNA gene followed by temperature gradient gel electrophoresis (TGGE). Lactobacillus sakei, L. curvatus, L. alimentarius, L. casei, L. plantarum and L. brevis, obtained from International Collections, were used to optimize the method. Thiry-nine strains of Lactobacillus spp. were isolated from naturally fermented sausages and, after traditional identification, were tested by the PCR-TGGE protocol developed. No differences were observed comparing the results obtained, apart from five strains identified as L. curvatus that showed a PCR-TGGE profile identical to L. sakei.
Abstract: For the purpose of detecting, directly in food, verotoxigenic Escherichia coli, a microplate hybridization method for the detection of PCR products from the SLT I and SLT II genes, was developed and evaluated. Two pairs of primers and two probes, specific for the SLT I gene and for the SLT II gene, were designed and tested. For the strains containing both genes, two PCR products of different molecular weights were obtained, whereas when only one gene was present only one fragment resulted from PCR. The use of the biotin-labeled probes allowed the immobilization of the PCR products in the microtiter plate wells and by this means their detection was possible using an ELISA-based technique. Forty artificially contaminated and fifty naturally contaminated food samples were analyzed by using the PCR-microplate hybridization technique developed in this study. All the artificially contaminated food samples were positive, independently of the number of cells inoculated before the enrichment step, whereas the naturally contaminated food samples were all negative.
Abstract: The development of a rapid method for the identification of Listeria spp. is described. It is based on the polymerase chain reaction amplification of a small fragment from the 16S rRNA gene followed by temperature gradient gel electrophoresis. Forty-five strains of Listeria spp. (Listeria monocytogenes, Listeria innocua, Listeria ivanovii, Listeria seeligeri, and Listeria welshimeri) were used for the optimization of the protocol. No differences were observed between the results of the identification of the strains tested using traditional methods and those obtained by polymerase chain reaction-temperature gradient gel electrophoresis analysis.
Abstract: We present a method to directly characterize the yeast diversity present in wine fermentations by employing denaturing gradient gel electrophoresis (DGGE) of polymerase chain reaction (PCR)-amplified 26S ribosomal RNA (rRNA) genes. PCR-DGGE of a portion of the 26S rRNA gene was shown to distinguish most yeast genera associated with the production of wine. With this method the microbial dynamics in several model wine fermentations were profiled. PCR-DGGE provided a qualitative assessment of the yeast diversity in these fermentations accurately identifying populations as low as 1000 cells ml(-1). PCR-DGGE represents an attractive alternative to traditional plating schemes for analysis of the microbial successions inherent in the fermentation of wine.
Abstract: A strain of Candida famata adapted to high copper concentration (1.26 mM) and a number of biochemical parameters have been tested, in order to get information on the mechanisms of metal toxicity and detoxification as well as on the metabolic responses to the treatment. The cytoplasmic levels of superoxide dismutase, peroxidase and glutathione were found significantly increased with respect to control cells, in contrast to catalase which is not affected. The activities of enolase and of triosephosphate isomerase are found to decrease as a consequence of the exposure to copper. Statistically significant differences in the content of some aminoacids are found between copper-treated and control cells.
Abstract: In view of the considerable public health risk of the enteropathogenic (EPEC) and enterohemorrhagic (EHEC) Escherichia coli, a multiplex-PCR based method was used for the amplification of the slt genes and of the eaeA gene. Three pairs of primers, different from the oligonucleotides previously used by other authors, were exploited for the amplification. Different E. coli serotypes were tested with the optimized protocol. Fifty three artificially contaminated samples and sixty naturally contaminated samples were processed with the multiplex-PCR. All the artificially contaminated samples gave positive results independently of the number of cells inoculated. On the contrary, the naturally contaminated samples were all negative. The results obtained from this experiment demonstrated that this protocol could be used for monitoring the spread of these organisms in food.
Abstract: The authors have developed an easy and rapid detection and identification system for Salmonella spp. in food. The gene inv A was selected as the target sequence. Oligonucleotides derived from conserved regions of this gene were able to exclusively prime the amplification of a 389 bp fragment when Salmonella spp. DNA was used as the template. An internal Salmonella spp. specific DNA probe was used for confirmation of the amplified polymerase chain reaction(PCR)product, by Southern blot or microplate-capture hybridization assay. In this fashion the sensitivity of the method was increased 100-fold (4.5 fg total DNA). To validate the method, a total of 75 food samples were tested. The PCR-microplate capture hybridization assay is easy to perform and much faster than traditional detection methods for Salmonella spp. in food. Hybridization in microtitre plates is more readily observed than in Southern blot and is more sensitive than conventional agarose gel electrophoresis.
Abstract: Two highly specific primers for Listeria monocytogenes were used to yield from foods such as milk, soft cheese and meat, PCR products that were cleaved with the restriction enzyme HindIII. The fragments generated allowed a distinction between two groups of L. monocytogenes serovars: serovars 1/2a and 1/2c cluster in one group and serovars 1/2b, 3b and 4b in the other subgroup. Since this procedure can be completed in 24 h, an epidemiological association between human disease and suspected sources can be rapidly confirmed at the subgroup level in the laboratory.
Abstract: A primer set of oligonucleotides (Salm 3 and Salm 4) from the invA gene of Salmonellae has been evaluated for the specific detection of Salmonella spp. by the polymerase chain reaction (PCR). This primer set amplified 33 Salmonella serovars but did not amplify 16 non-Salmonella bacteria. Moreover, after PCR amplification, it was possible to identify Salm. typhimurium by restriction enzyme analysis. The PCR-RE method developed could represent a helpful tool for detecting Salmonella spp., and for directly and rapidly identifying Salm. typhimurium in food.
Abstract: A polymerase chain reaction based test was developed for the detection of Salmonella spp. in blood specimens. After amplification of a 389 bp-polymerase chain reaction product from the invA gene, a microtiter plate hybridization assay was performed. The protocol described allowed the detection of six to seven copies of the Salmonella typhi genome, as determined by serial dilutions of DNA from S. typhi. Eighteen blood specimens from artificially infected rats and 22 blood specimens from patients were analyzed to validate the method. Considering that the most frequent Salmonella serovar isolated from blood in case of bacteremia is S. typhi, the polymerase chain reaction-microtiter plate hybridization technique could be used as a novel, rapid diagnostic method for typhoid fever, particularly when standard culture assays are negative.
Abstract: Primers of iap gene were used as a target to develop a PCR technique for detecting Listeria monocytogenes in milk and cheese. The PCR technique gives good results in the detection of Listeria monocytogenes either in artificially or naturally contaminated foodstuffs and has a high sensitivity and specificity. Application of this rapid diagnostic tool could provide further information about the spread of L. monocytogenes in milk and cheese.
Abstract: Strains (107) of L. monocytogenes were tested with a PCR-restriction enzyme analysis with two new original primers. A segment of 1395 bp containing the entire iap gene in L. monocytogenes was amplified by the PCR technique. The PCR product was cleaved with the restriction enzymes HindIII and RsaI, and the fragments generated were separated by gel electrophoresis. Two groups of serovars were obtained: one group contained serovars 1/2a and 1/2c, the other group contained serovars 1/2b, 3b and 4b. The PCR-restriction enzyme analysis method described in this paper could be a useful tool for the unambiguous division of L. monocytogenes into two serovar groups, and it could be used to study the evolution of different serotypes and groups of serotypes in foods produced in the same processing plant and processed during the same month. The RE-PCR method used can give a rapid confirm at the subgroup level in the laboratory of an epidemiological association between human disease and suspected sources of contaminated food.
Abstract: PCR-single-strand conformation polymorphism (PCR-SSCP) analysis is a convenient technique for the detection of mutations. As the mobility of single-stranded DNA is sequence-dependent it could therefore be used to determine serotype-related sequence variations in Listeria monocytogenes. Sero-specific patterns were observed in different L. monocytogenes serogroups.
Abstract: A nested PCR-based test was developed for the detection of Listeria monocytogenes in blood specimens from patients with listeriosis. Two pairs of oligonucleotide primers were designed to amplify a 1395-bp and a 453-bp fragment of the iap gene of L. monocytogenes. Amplified products were analysed with gel electrophoresis and stained with ethidium bromide. The PCR method described could be routinely used to diagnose listeriosis.
Abstract: In order to improve the diagnosis of Listeria monocytogenes infection, we have developed a polymerase chain reaction (PCR)-based assay combined with microplate capture hybridization technique. The system is based on selective amplification of L. monocytogenes with two specific primers based on the iap gene. The amplicon produced, with digoxigenin 11-dUTP incorporated during PCR, is hybridized in streptavidin-coated microtitre plates prepared with biotinylated specific DNA probe. The method involved requires approximately 6-8 h, and its high sensitivity, rapidity and simplicity should make it valuable for diagnosis and for epidemiological studies of listeriosis.
Abstract: Three primers derived from the lap gene were used to distinguish Listeria monocytogenes from L.innocua and other Listeria species. L. monocytogenes and L. innocua yielded a PCR product of 600 and 300 bp, respectively, whereas a typical pattern of three amplimers was observed with L. ivanovii, L. seeligeri and L. welshimeri.
Abstract: A combined polymerase chain reaction and restriction endonuclease (RE) enzyme assay was developed to discriminate between Campylobacter coli and Campylobacter jejuni. Amplimers of the FlaA gene obtained by PCR were digested with AluI and HinfI to distinguish C. coli from C. jejuni. With AluI digestion C. jejuni-specific bands were observed at 110, 140 and 160 bp and C. coli-specific bands at 293 and 147 bp. C. jejuni-specific bands of 349 and 109 bp were found by HinfI digestion but HinfI did not digest the FlaA amplimer of C. coli. This combined technique is fast and easy to perform, and distinguishes the two campylobacters unequivocally.
Abstract: Flagellin gene was used as target sequence to detect and distinguish C. coli and C. jejuni by a "nested PCR" technique. The method shows a high level of sensitivity and specificity. Application of this rapid diagnostic tool could provide further information about epidemiological and pathogenetic implications of each of these two microorganisms.
