Development of a surface adhesion immunofluorescent technique for the rapid detection of Salmonella spp. from meat and poultry

A rapid method based on bacterial adhesion was developed for the detection of Salmonella in an enriched meat system. Minced beef samples inoculated with Salm. enteritidis (10 cfu g-1) were incubated overnight (18 h) at 37 degrees C in buffered peptone water. Salmonella enteritidis cells were isolated from the enriched meat sample by surface adhesion onto a polycarbonate membrane attached to a glass slide. The organisms attached to this polycarbonate membrane were subsequently visualized using immunofluorescent microscopy. The technique had a detection level of log10 3.5 Salmonella ml-1. The surface adhesion immunofluorescent technique correlated well with Salmonella plate counts (r2 = 0.99). Application of the rapid method to retail beef and poultry samples (n = 100) confirmed the correlation between this technique and traditional microbiological procedures. Thirty-one retail samples were reported positive for Salmonella species. No false positives or negatives were recorded for the rapid method.     

The effect of temperature, pH and medium in a surface adhesion immunofluorescent technique for detection of Listeria monocytogenes

A rapid surface adhesion-based immunofluorescence technique was used to detect Listeria monocytogenes from inoculated culture systems. The effect of culture type (pure, mixed and meat), pH (7·00, 6·40, 4·76 and 3·13), acids (citric and HCl) and temperature (25°, 30° and 37°C) on the adhesion of Listeria to the polycarbonate membrane used in this technique was determined. It was found that pH had a significant effect ( P < 0·05) with higher numbers of Listeria adhering at low pH values (4·76). Culture type was also important with significantly higher numbers of Listeria ( P < 0·05) adhering to membranes immersed in meat cultures than in pure or mixed cultures. This effect was seen at 30°C but not at 25° or 37°C. The total viable count (TVC) on the membrane was unaffected by pH but temperature had an influence with optimum adhesion occurring at 25°C. The reasons for observed differences and their implications for the surface adhesion immunofluorescent rapid method are discussed.     

Development of a surface adhesion immunofluorescent technique for the rapid isolation of Listeria monocytogenes and Listeria innocua from meat

The use of a novel surface adhesion technique to isolate Listeria monocytogenes and Listeria innocua from an enrichment meat system was developed. Minced beef samples inoculated with L. monocytogenes (10 cfu g(-1)) were incubated at 30 degrees C for 14-18 h in a suitable enrichment broth. Listeria monocytogenes cells were isolated from the enriched meat sample by surface adhesion onto a polycarbonate membrane which was attached to a glass microscope slide. The Listeria cells on the membrane were subsequently visualized using an immunofluorescent microscopy procedure. The antibody used in this technique reacts with L. monocytogenes and L. innocua. The technique was demonstrated to have a detection level of log10 3.11 cfu ml(-1). There was excellent correlation (r2 = 0.98) between the counts obtained by this surface adhesion immunofluorescent (SAIF) technique and counts obtained using traditional methods, i.e. plate counts on PALCAM. When the regression equation relating the rapid and standard methods was validated using the data from 50 retail beef mince samples, an rsd value of +/- 0.25 was obtained. No false-negative or false-positive results were recorded for L. monocytogenes or L. innocua species using the SAIF technique.     

A comparison of immunomagnetic and surface adhesion immunofluorescent techniques for the rapid detection of Listeria monocytogenes and Listeria innocua in meat

an immunomagnetic immunofluorescent method was investigated for the rapid detection of Listeria monocytogenes and Listeria innouca . This technique involved enrichment of the suspect sample at 30°C overnight. Listeria monocytogenes cells were isolated from the enriched sample using immunomagnetic separation and Listeria were subsequently visualized using an immunofluorescent microscopy technique. This technique was used in the detection of Listeria cells from pure culture, inoculated beef mince samples and naturally contaminated retail beef mince samples. A detection level of approximately 1×10³ cfu ml⁻¹ was achieved. When compared with traditional detection methods no false negatives or positives were recorded for L. monocytogenes or L. innocua . The immunomagnetic immunofluorescent technique had a detection level similar to a previously described surface adhesion immunofluorescent technique. Isolation of the Listeria cells by surface adhesion involved dipping a membrane attached to a microscope slide into the enriched sample for 10 min. This was quicker and simpler to perform than the immunomagnetic separation technique which took 2 h to carry out.     

Biofilm formation by Salmonella spp. and Listeria monocytogenes on plastic surface

AIMS: To investigate the biofilm formation by 122 Salmonella spp. and 48 Listeria monocytogenes strains on a plastic surface. METHODS: Quantification of biofilm formation was performed in brain heart infusion (BHI), trypcase soya broth (TSB), meat broth (MB) and 1/20 diluted trypcase soya broth (1/20-TSB) in plastic microtitre plates. RESULTS: All tested Salmonella spp. and L. monocytogenes strains produced biofilm in a suitable medium. However, the quantities of biofilm produced by Salmonella spp. were greater than those produced by tested L. monocytogenes strains. The nutrient content of the medium significantly influenced the quantity of produced biofilm. Diluted TSB was the most effective in promoting biofilm production by Salmonella spp., followed by TSB, while the least quantity of biofilm was formed in BHI and MB. L. monocytogenes produced the highest quantities of biofilm in BHI, followed by TSA, then MB, and the least quantities of biofilm were produced in 1/20-TSB. CONCLUSIONS: Salmonella spp. produces more biofilm in nutrient-poor medium, while L. monocytogenes produce more biofilm in nutrient-rich medium.     

一种能同时富集沙门氏菌、金黄色葡萄球菌和单增李斯特菌的培乔基

[目的]设计制备一种能够同时富集沙门氏菌、金黄色葡萄球菌及单增李斯特菌的复合增菌肉汤.[方法]挑选合适的添加剂进行单因素实验,确定增菌肉汤的成分及配比,采用平板计数法及三重荧光PCR技术验证肉汤的增菌效果.[结果]结果得到一种能同时富集沙门氏菌、金黄色葡萄球菌及单增李斯特菌的选择性增菌肉汤(SSL),经验证SSL可使得3种目标菌以相对一致的速度进行富集,经过37℃ 150 r/min振荡培养24 h后,菌体浓度到达10~7～10~8 CFU/mL,非目标菌生长受到抑制.应用荧光PCR扩增样品,可同时得到3种目标菌的扩增曲线.在710份实际样品检测中,无假阳性及假阴性报告.[结论]研究结果表明,SSL肉汤可用于沙门氏菌、金黄色葡萄球菌及单增李斯特菌的共增菌,可用于多重PCR检测的前增菌.     

The effect of pH and culture system on the attachment of plasmid-bearing and plasmid-cured Yersinia enterocolitica to a polycarbonate membrane in a surface adhesion immunofluorescent technique

A rapid surface adhesion based immunofluorescence technique was used to isolate and detect Yersinia enterocolitica from inoculated enriched culture systems. The pathogen was isolated by surface adhesion to a polycarbonate membrane which was mounted on a glass slide and immersed in the enriched culture for 15 min. The pathogen was detected using a fluorescent labelled (FITC) monoclonal antibody which was specific for Y. enterocolitica serotype O:3 and then viewed using fluorescent microscopy. The effect of culture type (broth, meat homogenate and minced meat) and pH (5.00, 7.00, 9.00 and 11.00) on the adhesion of plasmid-bearing and plasmid-cured Y. enterocolitica to the polycarbonate membrane in this technique was determined. The pH had a significant effect (P < 0.05) in broth and meat homogenate cultures, with enhanced attachment of Y. enterocolitica (P+ and P-) at pH 9.00 than at pH 5, 7 or 11. Culture type was also important, with differences observed in the numbers of Yersinia adhering to membranes immersed in broth, meat homogenate and minced beef. Differences in attachment were noted between plasmid-bearing and plasmid-cured Y. enterocolitica isolated from similar cultural environments. The reasons for these observed differences, and their implications for the surface adhesion immunofluorescent rapid method, are discussed.     

Response surface methodology to design a selective co-enrichment broth of Escherichia coli, Salmonella spp. and Staphylococcus aureus for simultaneous detection by multiplex PCR

Escherichia coli, Salmonella spp. and Staphylococcus aureus are frequent co-visitors of contaminated foods to cause food-borne diseases. To achieve rapid detection of three organisms by multiplex PCR, a selective co-enrichment broth was considered to design using response surface methodology (RSM) in this work. NaCl, LiCl and KSCN as selective bacterial inhibitors were selected to optimize their concentrations for a matched composition of bacterial biomass with uniform amplification of three targets. Central composite design was employed to collect the data and fit the responses. Three quadratic polynomial models were derived by computer simulation. A statistical analysis was carried out to explore the effects of the variables on the composition of bacterial biomass and PCR amplification yields. In the end, a novel broth (ESS-3 broth) of NaCl 1.60%, LiCl 0.70%, KSCN 0.10% was formulated to allow co-enrichment of the target pathogens and suppress growth of some non-target pathogens. The simultaneous detection of E. coli, Salmonella spp. and S. aureus was developed on a rapid, convenient and sensitive method consisting of selective co-enrichment in ESS-3 broth, DNA extraction with the boiling method and robust test by multiplex PCR. Our work provided broader application of RSM for the simultaneous detection of other combinations of multiple pathogens.     

The interaction of Yersinia, Listeria and Salmonella with plant cells

The results of the interaction of bacteria of the genera Yersinia, Listeria and Salmonella, pathogenic for humans and animals, with callus cultures of different plant species are presented. As revealed in this study, complicated interactions developed between bacteria and plant cells. Plant cells were shown to be highly sensitive to the action of bacteria. Yersinia, Listeria and Salmonella were found to be capable of callus damage. The influence of plant cells on bacteria was more complicated: both the stimulation of bacterial growth and its inhibition were noted, depending on the time of cultivation.     

Simultaneous quantitative detection of Listeria spp. and Listeria monocytogenes using a duplex real-time PCR-based assay

We report a duplex real-time PCR-based assay for the simultaneous quantitative detection of Listeria spp. and the food-borne pathogen Listeria monocytogenes. The targets of this single tube reaction were the 23S rDNA and hly genes of Listeria spp. and L. monocytogenes, respectively. Our assay was efficient, 100% selective (i.e., it allowed accurate simultaneous identification of 52 L. monocytogenes and 120 Listeria spp. strains through the FAM-labelled hly and the VIC-labelled 23S rDNA probes, respectively); and had a detection limit of one target molecule in 100% (23S rDNA) and 56% (hly) of the reactions. Simultaneous quantification was possible along a 5-log dynamic range, with an upper limit of 30 target molecules and R2 values > 0.995 in both cases. Our results indicate that this assay based on the amplification of the 23S rDNA gene can accurately quantify any mixture of Listeria species and simultaneously unambiguously quantify L. monocytogenes.     

Direct detection of Salmonella spp. in estuaries by using a DNA probe

A method for direct detection of Salmonella spp. in water was developed by using a commercially available DNA probe. Particulate DNA was extracted from 500- to 1,500-ml water samples collected from New York Harbor and Chesapeake Bay and used as a substrate for a salmonella-specific DNA probe in dot blot assays. The method detected salmonellae in water samples from 12 of 16 sites, including 6 sites where salmonellae could not be cultured. The specificity of the probe was evaluated, and cross-hybridization, although negligible, was used to set detection limits for the assay. Salmonella DNA bound the probe quantitatively, and from these results Salmonella DNA in the total particulate DNA in environmental samples could be estimated. The data obtained in this study indicate that Salmonella spp. often are not detected in water samples by culture methods, even when they are present in significant numbers.     

A multipathogen selective enrichment broth for simultaneous growth of Salmonella spp., Vibrio parahaemolyticus, and Vibrio cholerae

A selective enrichment broth (SVV) was formulated to allow concurrent growth of Salmonella spp., V. parahaemolyticus, and V. cholerae. Potassium tellurite and sodium citrate were added as the inhibitors, while glucose, mannitol, anhydrous sodium sulfite and sodium pyruvate were employed as the growth-promoters. When mixed in equal or varied proportions, the target pathogens in SVV had a great accumulation (10(5)-10(8) CFU/ml) and effectively inhibited the growth of competitive microflora. In the artificially contaminated samples, a high recovery of these 3 target pathogens was obtained in SVV. Finally, Salmonella spp., V. parahaemolyticus, and V. cholerae were detected from 608 suspicious food samples by SVV with real-time PCR, and no false-positive or -negative results were reported. In summary, SVV has been shown to be a suitable broth for the simultaneous detection of the 3 pathogens by multipathogen detection on a single-assay platform.     

The use of a surface adhesion immunofluorescent (SAIF) method for the rapid detection of Yersinia enterocolitica serotype O:3 in meat

This study examined the attachment kinetics of Yersinia enterocolitica serotype O:3 to determine the optimum conditions for its isolation from meat enrichment systems using a novel surface adhesion technique. Minced beef was inoculated with Y. enterocolitica at an initial level of 10 cfu g⁻¹ and incubated at 25 °C in an enrichment broth. Yersinia was recovered from enriched samples on polycarbonate membranes by surface adhesion and enumerated using immunofluorescence microscopy. The surface adhesion immunofluorescence technique (SAIF) had a minimum detection limit of approximately 4·0–4·5 log₁₀ cfu ml⁻¹ and provided good correlation between the estimation of the numbers of Yersinia in the enrichment broth derived from plate counts on Yersinia Selective agar (CIN) and those determined by SAIF ( r ² ₌ 0·94; rsd ₌ ± 0·21). A derived regression equation of the SAIF count vs plate counts was used to predict Y. enterocolitica numbers in spiked meat samples stored at 0 °C for up to 20 d. The numbers as predicted by the SAIF method showed good correlation with counts derived by plating techniques ( r ² ₌ 0·78; rsd ₌ ± 0·42). The application of the SAIF technique for the rapid detection of Y. enterocolitica serotype O:3 from meat is discussed.     

Direct detection of Salmonella spp. in estuaries by using a DNA probe.

A method for direct detection of Salmonella spp. in water was developed by using a commercially available DNA probe. Particulate DNA was extracted from 500- to 1,500-ml water samples collected from New York Harbor and Chesapeake Bay and used as a substrate for a salmonella-specific DNA probe in dot blot assays. The method detected salmonellae in water samples from 12 of 16 sites, including 6 sites where salmonellae could not be cultured. The specificity of the probe was evaluated, and cross-hybridization, although negligible, was used to set detection limits for the assay. Salmonella DNA bound the probe quantitatively, and from these results Salmonella DNA in the total particulate DNA in environmental samples could be estimated. The data obtained in this study indicate that Salmonella spp. often are not detected in water samples by culture methods, even when they are present in significant numbers.     

Rapid and specific detection of Salmonella spp. in animal feed samples by PCR after culture enrichment

A PCR procedure has been developed for routine analysis of viable Salmonella spp. in feed samples. The objective was to develop a simple PCR-compatible enrichment procedure to enable DNA amplification without any sample pretreatment such as DNA extraction or cell lysis. PCR inhibition by 14 different feed samples and natural background flora was circumvented by the use of the DNA polymerase Tth. This DNA polymerase was found to exhibit a high level of resistance to PCR inhibitors present in these feed samples compared to DyNAzyme II, FastStart Taq, Platinum Taq, Pwo, rTth, Taq, and Tfl. The specificity of the Tth assay was confirmed by testing 101 Salmonella and 43 non-Salmonella strains isolated from feed and food samples. A sample preparation method based on culture enrichment in buffered peptone water and DNA amplification with Tth DNA polymerase was developed. The probability of detecting small numbers of salmonellae in feed, in the presence of natural background flora, was accurately determined and found to follow a logistic regression model. From this model, the probability of detecting 1 CFU per 25 g of feed in artificially contaminated soy samples was calculated and found to be 0.81. The PCR protocol was evaluated on 155 naturally contaminated feed samples and compared to an established culture-based method, NMKL-71. Eight percent of the samples were positive by PCR, compared with 3% with the conventional method. The reasons for the differences in sensitivity are discussed. Use of this method in the routine analysis of animal feed samples would improve safety in the food chain.     

Detection of representative enteropathogenic bacteria, Vibrio spp., pathogenic Escherichia coli, Salmonella spp., Shigella spp., and Yersinia enterocolitica, using a virulence factor gene-based oligonucleotide microarray

Rapid identification of enteropathogenic bacteria in stool samples is critical for clinical diagnosis and antimicrobial therapy. In this study, we describe the development of an approach that couples multiplex PCR with hybridization to a DNA microarray, to allow the simultaneous detection of the 10 pathogens. The microarray was synthesized with 20-mer oligonucleotide probes that were designed to be specific for virulence-factor genes of each strain. The detection limit for genomic DNA from a single strain was approximately 10 fg. In the presence of heterogeneous non-target DNA, the detection sensitivity of the array decreased to approximately 100 fg. We did not observe any non-specific hybridization. In addition, we successfully used this oligonucleotide-based DNA microarray to identify the causative agents in clinical stool samples from patients with food-borne enteritis.     

Rapid detection of Salmonella spp. by using Felix-O1 bacteriophage and high-performance liquid chromatography

A method is described whereby the presence of Salmonella spp. can be detected within 8 to 24 h of sample collection. The method depends upon the interaction of Salmonella spp. with the Salmonella-specific Felix-O1 bacteriophage. This interaction results in an increase in concentration of the bacteriophage which is detected by high-performance liquid chromatographic techniques.