A real-time PCR for Detection of Pathogenic Yersinia enterocolitica in food combined with an Universal Internal Amplification Control System

Summary:  A real-time PCR system with an internal amplification control was developed for detection of pathogenic Yersinia) enterocolitica in food samples. The chromosomally encoded ail gene was chosen as PCR target. Sequences of plasmid pUC19 served as target for the internal amplification control. The method was validated in combination with sample enrichment in PSB and TSB broth using different food matrices spiked with Y. enterocolitica and naturally contaminated slaughterhouse samples. The results of the real-time PCR with internal control were verified by the cultural method according to EN ISO 10273:2003. The sensitivity of the real-time PCR with internal control is about 5 genome copies per reaction. Artificial contamination of food samples resulted in a detection level of 5 cfu per 25 g Y. enterocolitica in food samples. 100% of porcine tonsils and about 22% meat from pig heads were contaminated. The screening of samples by PCR prior to cultural analysis allows focusing on positive samples in routine analysis. This could result in a higher detection rate by cultural analysis.

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Zusammenfassung:  Für den Nachweis von pathogenen Yersinia enterocolitica wurde ein real-time PCR System mit interner Amplifikationskontrolle entwickelt. Das Nachweissystem für pathogene Y. enterocolitica basiert auf dem chromosomal kodierten ail-Gen. Als Zielsequenz der internen Amplifikationskontrolle dient eine Sequenz aus dem Plasmid pUC19. Zur Validierung der Methode wurden sowohl natürlich kontaminierte Proben aus einem Schlachthof als auch künstlich kontaminierte Proben verschiedener Lebensmittelmatrices verwendet. Die Anreicherung der Proben vor der molekularbiologischen Untersuchung erfolgte parallel in Tryptikase Soja-Bouillon (TSB) und in Pepton-Sorbit-Gallensalz-Bouillon (PSB). Die Ergebnisse der molekularbiologischen Untersuchungen wurden anschlie?end kulturell in Anlehnung an das Standardverfahren nach EN ISO 10273:2003 verifiziert. Die real-time PCR mit interner Amplifikationskontrolle weist eine Sensitivit?t von 5 Genomkopien pro Reaktionsansatz auf. Die Nachweisgrenze des Verfahrens, bestimmt anhand künstlich kontaminierter Proben, betr?gt etwa 5 KbE Y. enterocolitica pro 25 g Lebensmittel. Von den natürlich kontaminierten Proben aus einem Schlachthof waren die Tonsillen vom Schwein zu 100% mit pathogenen Y. enterocolitica kontaminiert, Schweinefleischabschnitte aus dem Kopfbereich wiesen einen Kontaminationsgrad von 22% auf. Ein Screening von Proben durch PCR erlaubt in der Routineanalytik die Fokussierung der kulturellen Analyse auf positive Proben. Dies k?nnte zu einer h?heren Nachweisrate durch das kulturelle Verfahren führen.

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Received: March 5. 2008; accepted: March 14. 2008     

Detection of Pathogenic Yersinia enterocolitica in Meat using Real-Time PCR

Yersinia enterocolitica is an important zoonosis, which can cause disease in humans and animals. The culture methods available for detection of Y. enterocolitica in food samples are time-consuming and seldom successful. Using DNA-based methods, like PCR, this pathogen can be detected more rapidly and with greater sensitivity. The aim of this study was to establish a rapid and accurate real-time PCR method to detect pathogenic Y. enterocolitica in pork. The chromosomal ail−gene, which is only present in pathogenic Y. enterocolitica strains, was used as DNA target for the 5' nuclease PCR assay. The probe was labelled at the 5' end with the fluorescent reporter dye (FAM) and at the 3' end with the quencher dye (TAMRA). A 2-step protocol with 45 cycles was used in a multicolour real-time PCR detection system. A Ct value over 40 indicated a negative result. The DNA extraction procedure for the natural samples was rapid and simply. This qualitative real-time PCR method was shown to be specific and sensitive. Detection rate of ail-positive Y. enterocolitica in 200 pig tonsils was 88 % and 35 % with PCR and culture methods, respectively. When 100 raw pork samples were studied, 7 were positive with PCR and all were culture negative.     

Detection of Pathogenic Yersinia enterocolitica in Meat using Real-Time PCR

Yersinia enterocolitica is an important zoonosis, which can cause disease in humans and animals. The culture methods available for detection of Y. enterocolitica in food samples are time-consuming and seldom successful. Using DNA-based methods, like PCR, this pathogen can be detected more rapidly and with greater sensitivity. The aim of this study was to establish a rapid and accurate real-time PCR method to detect pathogenic Y. enterocolitica in pork. The chromosomal ail−gene, which is only present in pathogenic Y. enterocolitica strains, was used as DNA target for the 5' nuclease PCR assay. The probe was labelled at the 5' end with the fluorescent reporter dye (FAM) and at the 3' end with the quencher dye (TAMRA). A 2-step protocol with 45 cycles was used in a multicolour real-time PCR detection system. A Ct value over 40 indicated a negative result. The DNA extraction procedure for the natural samples was rapid and simply. This qualitative real-time PCR method was shown to be specific and sensitive. Detection rate of ail-positive Y. enterocolitica in 200 pig tonsils was 88 % and 35 % with PCR and culture methods, respectively. When 100 raw pork samples were studied, 7 were positive with PCR and all were culture negative. Received: January 30, 2007; Received in revised form: February 27, 2007; Accepted: February 28, 2007.     

Salmonella real-time PCR-Nachweis

Salmonella belongs to the most important bacterial pathogens worldwide causing disease in humans and animals mainly by the oral uptake of contaminated food. Consequently, detection methodologies for Salmonella from food items are meaningful for routine laboratories. Here, we describe two different real-time PCR based methods for the detection of Salmonella in food. The procedure begins with a cultural pre-enrichment in buffered peptone water for 18–24 hours at 37 °C followed by a selective enrichment step in Rappaport-Vassiliadis medium for at least six hours at 42 °C. Next, the microbial DNA is extracted and finally Salmonella-DNA is specifically detected by the real-time PCR. Both methods differ in the Salmonella target gene sequence. One assay amplifies a 285-bp-DNA-Fragment of the invA-gene, and the other a 95-bp-DNA-Fragment of the ttrC/ttrA-gene. An internal amplification control indicates the correct carrying out of the PCR. The duration of both detection methods is between 24 and 28 hours.     

Development of a multiplex and semi-nested PCR assay for detection of Yersinia enterocolitica and Aeromonas hydrophila in raw milk

Single-locus (sl), multiplex (m), and semi-nested (sn) polymerase chain reaction (PCR) procedures were developed for the detection of Yersinia enterocolitica and Aeromonas hydrophila in raw milk samples. Two oligonucleotide primers for each pathogen were used in PCR, to detect the yst gene of Y. enterocolitica and aer gene of A. hydrophila. The amplified fragment size was 145 base-pair (bp) for yst gene, and 209 bp for the aer gene. The performance of the systems were evaluated with seeded milk samples, and naturally contaminated raw milk samples. PCR results were compared with conventional cultural procedures. The limits of detection of slPCR and mPCR assays were approximately 10² cfu ml⁻¹ (0·5 cfu/PCR reaction mixture) for both pathogens in seeded raw milk. When studied with naturally contaminated raw milk samples, detection rates obtained by PCR and cultural methods were 53% and 36% for Y. enterocolitica and were 23% and 14% for A. hydrophila, respectively. These results indicate that the direct PCR analysis of raw milk can be used as a rapid and specific diagnostic method for both pathogens.     

In-house validation of a real-time PCR method for rapid detection of<Emphasis Type="Italic"> Salmonella</Emphasis> ssp. in food products

A real-time polymerase chain reaction (PCR) method for Salmonella ssp. detection in food samples has been developed and validated in-house. The specificity of the assay was confirmed by tests with 295 different Salmonella strains, including four strains of Salmonella bongori. When tested with extracted Salmonella DNA the lowest detected amount was found to be 5 fg, which is equivalent to approximately one genome copy. The detection limit was further determined by artificial contamination of minced meat with S. Typhimurium cells and of pastry with S. enteritidis using the most probable number approach for cell dose dilutions. It was calculated that even one colony forming unit of Salmonella was still detectable in 25 g food after enrichment culture for 18 h. An additional PCR system for internal positive control, which was included in each reaction and detected in parallel via another reporter fluorescence dye, has no negative impact on the sensitivity of the assay. The method was evaluated with 1,293 naturally contaminated food samples and compared to the conventional cultural method. Of 55 positive PCR samples, 45 were confirmed by the cultural method. The statistical comparison revealed a correlation of 99.2% for specificity, of 100% for sensitivity and of 99.2% for trueness. The results of the comparative analysis and the advantages of the real-time PCR method for detection of Salmonella ssp. under routine laboratory conditions are discussed.     

Validation of a Duplex Real-Time PCR for the Detection of Salmonella spp. in Different Food Products

A 5′ nuclease duplex real-time polymerase chain reaction (PCR) assay was developed and validated with various food products for the specific and fast detection of Salmonella spp. in food. The assay used previously published primers in combination with a newly developed probe targeting the invA gene. An internal amplification control, which is coamplified in a duplex PCR, was included in the assay. The analysis of 1,934 natural food samples with real-time PCR and the cultural method in parallel resulted in a relative accuracy of 100% and 99.84% respectively, depending on the enrichment procedure in which buffered peptone water and selective enrichment in Rappaport–Vassiliadis (RV) broth were employed. The duplex real-time PCR assay has proven to be a specific, sensitive and fast screening method for Salmonella spp. in food. The overall analysis time of the PCR method was approximately 28 h, in contrast to 4 to 5 days with conventional Salmonella diagnostics. The developed assay has been shown to be a reliable diagnostic tool for use in routine analysis. It has been validated thoroughly and has become an official method in Germany for the detection of Salmonella spp. in food.     

Development of a real-time PCR assay for detection and quantification of enterotoxigenic members of Bacillus cereus group in food samples

A highly sensitive real-time PCR (qPCR) procedure, targeting the phosphatidylcholine-specific phospholipase C gene (pc-plc), was developed for specific detection and quantification of strains belonging to Bacillus cereus group. The target region was selected based on the enterotoxigenic profiles of 75 Bacillus strains. The inclusivity and exclusivity of the RTi-PCR assay were assessed with 59 isolates of the B. cereus group, 16 other Bacillus spp., and 4 non-Bacillus strains. The assay was also used to construct calibration curves for different food matrices, and it had a wide quantification range of 6 log units using both serial dilutions of purified DNA and calibrated cell suspensions of B. cereus CECT 148^T. The detection limit for B. cereus in artificially contaminated liquid egg and reconstituted infant formula was about 3 CFU per reaction or 60 CFU/ml of food, with a relative accuracy of 86.27% to 116.12% in artificially contaminated liquid egg. Naturally contaminated food samples were tested for the presence of B. cereus with the standard method, a conventional PCR and the new developed RTi-PCR assay. Results showed that the new developed RTi-PCR assay is very suitable for detection and quantification of strains of B. cereus group in food samples without an enrichment step.     

Detection and prevalence of pathogenic Yersinia enterocolitica in refrigerated and frozen dairy products by duplex PCR and dot hybridization targeting the virF and ail genes

Pathogenic Yersinia enterocolitica is involved in yersiniosis through expression of chromosome-borne or plasmid-borne virulence factors. Yersinia enterocolitica is a cold-tolerant pathogen frequently isolated from refrigerated or frozen foods. However, little attention has been focused on the prevalence of pathogenic Y. enterocolitica in refrigerated or frozen dairy samples in China. In this study, we developed a new duplex PCR targeting the plasmid-borne virF gene and chromosome-borne ail gene for detection of pathogenic Y. enterocolitica isolates. We established a detection limit for the duplex PCR of 6.5 × 10² cfu/mL in artificially contaminated dairy samples. In addition, the duplex PCR could detect directly 4.5 to 5.7 cfu of Y. enterocolitica in 5 mL of brain heart infusion broth after 6 h of enrichment at 28°C. A newly developed dot hybridization assay further confirmed specificity of the duplex PCR for detection of virulent Y. enterocolitica. Furthermore, 13 Y. enterocolitica and 5 pathogenic strains, from 88 commercial frozen or refrigerated dairy products, were detected successfully by the China National Standard method (GB/T4789.8-2008) and the duplex PCR, respectively. Finally, biotypes and serotypes of pathogenic Y. enterocolitica strains were further characterized. The duplex PCR developed here is reliable for large-scale screening, routine monitoring, and risk assessment of pathogenic Y. enterocolitica in refrigerated or frozen dairy products.     

Cloning and Characterisation of a Δ-prfA Listeria monocytogenes Strain Containing an Artificial Single Copy Genomic Internal Amplification Control (IAC) for Use as Internal Sample Process Control (ISPC)

Conventional internal amplification controls (IAC) are DNA-based controls which monitor the amplification reaction of real-time PCR in food pathogen detection. Food pathogen detection using real-time PCR, however, includes necessarily sample preparation and DNA isolation/purification. This modular structure leads to an analytical chain. To cover the whole analytical chain, the concept of the IAC has to be extended to internal sample process controls (ISPCs) which include supporting pre-analytical steps. One concept for such ISPCs is the use of recombinant bacterial cells comprising a deleted target and an artificial competitive target instead, which are derived from the actual target strain. In this work, we present an ISPC for the molecular detection of Listeria monocytogenes. A Δ-prfA L. monocytogenes EGDe strain was cloned with a pPL2 phage insertion vector to include a single copy artificial DNA target, resulting in a fluorescence signal not interfering with the respective signal of the L. monocytogenes EGDe wild-type strain during real-time PCR. The recombinant strain was confirmed and characterized with conventional and real-time PCR including sequencing. Microbiological examination revealed a distinct phenotype pattern on selective plate media which enables discrimination of Δ-prfA L. monocytogenes EGDe from wild-type L. monocytogenes EGDe and Listeria innocua. The ISPC was applied in an examination of artificially contaminated ultra high temperature-treated milk to demonstrate its analytical suitability. The resulting corrected recovery values of the ISPC as obtained by the whole molecular quantification procedure correspond to the respective values determined for the actual target strain (P ≤ 0.05).     

Validation of a Diagnostic PCR Method for Routine Analysis of Salmonella spp. in Animal Feed Samples

As a part of a validation study, a comparative study of a PCR method and the standard culture-based method NMKL-71, for detection of Salmonella, was performed according to the validation protocol from the Nordic validation organ for validation of alternative microbiological methods (NordVal) on 250 artificially or naturally contaminated animal feed samples. The PCR method is based on culture enrichment in buffered peptone water followed by PCR using the DNA polymerase Tth and an internal amplification control. No significant difference was found between the two methods. The relative accuracy, relative sensitivity and relative specificity were found to be 96.0, 97.3, and 98.8%, respectively. PCR inhibition was observed for rape seed samples. For the acidified feed samples, more Salmonella-positive samples were found with the PCR method compared to the NMKL method. This study focuses on the growing demand for validated diagnostic PCR methods for routine analysis of animal feed and food samples to assure safety in the food production chain.     

A New Real-Time PCR Assay for the Specific Detection of Salmonella spp. Targeting the bipA Gene

A straightforward real-time polymerase chain reaction (PCR)-based assay was designed and evaluated for the detection of Salmonella spp. in food and water samples. This new assay is based on the specific detection of the bipA gene of Salmonella, which encodes a protein of the guanosine triphosphate (GTP)-binding elongation family that displays global modulating properties, by regulating a wide variety of downstream processes. The new method correctly identified all 48 Salmonella strains used in the inclusivity test, and did not detect all 30 non-Salmonella species tested. The method was evaluated by analyzing 120 diverse food and water samples enriched in buffered peptone water. The bipA-based real-time PCR assay showed 100% efficiency, sensitivity, and specificity compared to the invA-based method previously published, which was developed as a part of a European project for the standardization of PCR methods in food microbiology. The assay includes an independent internal amplification control (IAC) in each reaction to control false negative results.     

Comparison of DNA extraction methods for pathogenic Yersinia enterocolitica detection from meat food by nested PCR

The objective of this work was to compare three different methods of DNA extraction from meat food, and to determine whether these methods removed inhibitors of nested PCR for pathogenic Yersinia enterocolitica detection. The amplification of the yadA gene from the DNA obtained from a pure Y. enterocolitica culture could be carried out with all the protocols. DNA amplification from the food samples was observed with two of the three tested protocols, which gave highly sensitive amplifications (detection limit 1 CFU/ml). These protocols detected a lower limit of 0.6 fg/μl of DNA extracted from Y. enterocolitica pure culture. We concluded that these protocols were able to eliminate satisfactorily the PCR inhibitors present in the foods. The nested PCR tested could be used satisfactorily in the investigation of pathogenic Y. enterocolitica in foods in the presence of a high background of microflora.     

Multiplex Real-time PCR for the Simultaneous Detection of Salmonella spp. and Listeria monocytogenes in Food Samples

In this study, we have developed a rapid method for the simultaneous detection of Listeria monocytogenes and Salmonella spp. in foods, combining culture enrichment and a multiplex real-time polymerase chain reaction (PCR). The assay used two pre-existing primer-probe sets, labelled with different reporter dyes to enable the direct distinction of the original contaminating agent. Amplification efficiency and inclusivity/exclusivity of the combined assay was successfully assessed. The overall process included the culture enrichment based on the ISO standard, consisting of 24 h incubation in appropriate media (Half Fraser Broth for Listeria and buffered peptone water (BPW) for Salmonella), followed by a single DNA extraction of mixed enrichment aliquots, and real-time PCR detection of the hly and bipA genes of L. monocytogenes and Salmonella spp., respectively. An internal amplification control, co-amplified during the PCR run, was included in the assay to verify the results. The tool was evaluated with a variety of artificially inoculated samples of fresh products and ready to eat and cooked dishes, allowing the identification of the target pathogens down to 5 CFU/25 g of food sample. Moreover, the analysis saved a considerable amount of time compared to the ISO standard, being performed in less than 2 working days. Specificity, sensitivity and accuracy were satisfactorily tested by comparison to the standard methods ISO 11290-2:1998 and ISO 6579:2002, suggesting that the tool has a great potential as a reliable alternative for food safety assurance providing rapid detection of both pathogens in food samples.     

Salmonella real-time PCR-Nachweis

Salmonella belongs to the most important bacterial pathogens worldwide causing disease in humans and animals mainly by the oral uptake of contaminated food. Consequently, detection methodologies for Salmonella from food items are meaningful for routine laboratories. Here, we describe two different real-time PCR based methods for the detection of Salmonella in food. The procedure begins with a cultural pre-enrichment in buffered peptone water for 18–24 hours at 37 °C followed by a selective enrichment step in Rappaport-Vassiliadis medium for at least six hours at 42 °C. Next, the microbial DNA is extracted and finally Salmonella-DNA is specifically detected by the real-time PCR. Both methods differ in the Salmonella target gene sequence. One assay amplifies a 285-bp-DNA-Fragment of the invA-gene, and the other a 95-bp-DNA-Fragment of the ttrC/ttrA-gene. An internal amplification control indicates the correct carrying out of the PCR. The duration of both detection methods is between 24 and 28 hours.

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Zusammenfassung: Salmonellen z?hlen zu den bedeutendsten bakteriellen Erregern weltweit, die meist durch die Aufnahme von belasteten Lebensmitteln eine Erkrankung bei Menschen und auch Tieren verursachen k?nnen. Verfahren für den Nachweis von Salmonellen in Lebensmitteln haben daher für die diagnostischen Routinelabore eine besondere Bedeutung. Hier beschreiben wir zwei verschiedene real-time PCR basierte Verfahren zum Nachweis von Salmonellen in Lebensmitteln. Das Verfahren beginnt mit einer kulturellen Voranreichung in gepufferten Peptonwasser für 18 bis 24 h bei 37°C und darauf folgender selektiver Anreicherung in Rappaport-Vassiliadis Medium für sechs Stunden bei 42 °C. Anschlie?end erfolgt eine mikrobielle DNA-Extraktion und der Nachweis der Salmonella DNA im Extrakt mittels der realtime PCR. Beide Verfahren unterscheiden sich in der Zielsequenz der nachzuweisenden Salmonella DNA. W?hrend der eine PCR Assay ein 285-bp-DNA-Fragment des invA Gens amplifiziert, weist der zweite Assay ein 95-bp-DNA-Fragment des ttrC/ttrA-Gens von Salmonellen spezifisch nach. Eine interne Amplifikationskontrolle, die in jeder PCR-Reaktion mitgeführt wird, zeigt den funktionsrichtigen Ablauf jeder PCR-Reaktion an. Die Gesamtdauer des Nachweises betr?gt 24 bis 28 Stunden.

Eingegangen: 18. Januar 2007     

A novel real-time polymerase chain reaction method for the qualitative detection of pistachio in food

In order to provide an appropriate method for the detection of pistachio (Pistacia vera) in food products, a novel real-time PCR was developed. The pistachio-specific primers and the TaqMan fluorogenic probe were designed to target the internal transcribed spacer between 18S ribosomal RNA and 5.8S ribosomal RNA genes. Using dilutions of the pistachio DNA, the intrinsic detection limit of the method was determined to be 0.012 pg. At specificity testing, the method was positive for 11 pistachio varieties and negative for 26 plant and animal species used in food industry. A detection limit of 0.0004% (w/w) was determined for pistachio nuts in model pastry. Practical applicability of the elaborated method was tested by the analysis of 44 food samples, out of which 7 food products were identified as containing undeclared pistachio. The developed real-time PCR may be utilized for sensitive and selective detection of pistachio in food products.     

Development and evaluation of DNA and RNA real-time assays for food analysis using the hilA gene of Salmonella enterica subspecies enterica

The objective of this study was the development of DNA and RNA real-time PCR methods for detection of food-borne Salmonella sp. as rapid alternatives to the traditional cultural method (ISO 6579, 2004) in fresh meat carcasses and processed meat samples. These PCR methods were based on the hilA sequence, with primers and hybridisation probes designed against this gene target. The primers and probes were evaluated for their efficiency and dynamic range and subsequently the specificity of the assay was tested using 106 Salmonella enterica subspecies enterica strains and 30 non-salmonellae strains. An internal amplification control (IAC) was also developed for incorporation. The optimum copy number of IAC was determined to be 500 copies per reaction. A complementary enrichment protocol was adapted from the existing standard ISO 6579:2004 and consisted of enrichment in Buffered Peptone Water (BPW) 22 ± 2 h and a second selective enrichment for 6 h in Rappaport Vassiliadis with Soya (RVS). The DNA and RNA-based real-time PCR protocols, were applied to meat samples inoculated with Salmonella enterica subspecies enterica strains, including swabs from meat carcasses and minced beef samples which were heat treated or frozen. The developed methods have the potential as useful alternatives to the standard ISO 6579:2004 method for the detection of Salmonella enterica subspecies enterica on carcass swabs and raw meat using hilA as a target. The DNA assay is a useful tool for the screening of meat samples in the abattoir within 3 days of slaughter or in a food production process and the RNA-based assay has the potential to detect viable Salmonella enterica subspecies enterica in ready-to-eat products.     

A New Validated Real-Time PCR-Based Method for the Specific and Fast Detection of Cronobacter spp. in Infant Formula

In this study, a real-time polymerase chain reaction (PCR)-based method was designed for the fast detection of Cronobacter spp. (a newly proposed genus formerly known as Enterobacter sakazakii) in infant formula. The real-time PCR was positively tested with 70 Cronobacter strains, including members of all the species of this genus, and 88 non-Cronobacter strains. This new PCR-based system was validated against the reference standard ISO/TS 22964: 2006 (ISO International Organization for Standardization 2006) using 70 food matrices including powdered infant formula, follow-up formula, and hydrolyzed cereals for infants. The detection limit of the technique was found to be of 1 cfu in 10 g of food, fulfilling the requirements of the European Commission. The time of analysis, which comprises around 3–6 days using the reference method, is considerably reduced to less than 24 h using the real-time PCR-based system hereby described, allowing food industry a faster release of the stocks for commercialization. Moreover, this method includes an internal amplification control, co-amplified during each PCR run to verify the results.