Your search keyword '"Bang DD"' showing total 14 results

1. Pathogen Concentration Combined Solid-Phase PCR on Supercritical Angle Fluorescence Microlens Array for Multiplexed Detection of Invasive Nontyphoidal Salmonella Serovars.

Author

Vinayaka AC, Ngo TA, Nguyen T, Bang DD, and Wolff A

Subjects

Animals, Cattle, Microscopy, Fluorescence, Salmonella enteritidis metabolism, Salmonella enteritidis pathogenicity, Salmonella typhimurium metabolism, Salmonella typhimurium pathogenicity, Polymerase Chain Reaction, Salmonella enteritidis genetics, Salmonella typhimurium genetics

Abstract

Bloodstream infections and invasive nontyphoidal Salmonellosis in particular remain a major health and economic burden worldwide. The complexity of blood matrixes along with extremely low concentration of pathogens in blood poses a great challenge for rapid and ultrasensitive detection. Sample preparation has been the critical step that should provide blood-matrix-free sample with the targeted pathogen in the highest possible concentration. In this work, we addressed this challenge by combining magnetic-bead-based pathogen concentration and solid-phase PCR (SP-PCR). The SP-PCR performed on a supercritical angle fluorescence (SAF) microlens array embedded in a microchip enabled quick and accurate detection of low levels of Salmonella enterica serovar typhimurium and enteritidis in blood samples without culture enrichment. Protein AG-magnetic beads immobilized with antisalmonella antibody could efficiently concentrate both Salmonella serovars with a capturing efficiency >95%. Higher tolerance of Phusion hot start DNA polymerase to PCR inhibitors and its compatibility with protein AG-magnetic beads allowed the integration of SP-PCR. Analysis of Salmonella -spiked blood samples with the SP-PCR resulted in a limit of detection (LoD) as low as 86 CFU/mL and 94 CFU/mL for S . typhimurium and S . enteritidis , respectively, that could be attributed to the high fluorescence collection efficiency of the SAF microlens array. These combinations reduced the duration of analysis to less than 3 h including sample preparation. This platform has the potential for wide application as a high-throughput biosensor to analyze pathogens in clinical, food, and environmental samples.

Published

2020

2. Rapid detection of Salmonella enterica in food samples by a novel approach with combination of sample concentration and direct PCR.

Author

Vinayaka AC, Ngo TA, Kant K, Engelsmann P, Dave VP, Shahbazi MA, Wolff A, and Bang DD

Subjects

Animals, Biosensing Techniques economics, Biosensing Techniques methods, Chickens, Eggs microbiology, Food Analysis economics, Humans, Immunomagnetic Separation economics, Limit of Detection, Polymerase Chain Reaction economics, Red Meat microbiology, Salmonella typhimurium genetics, Swine, Time Factors, Vegetables microbiology, Food Analysis methods, Food Contamination analysis, Immunomagnetic Separation methods, Polymerase Chain Reaction methods, Salmonella typhimurium isolation & purification

Abstract

Foodborne salmonellosis remains a major economic burden worldwide and particularly for food industries. The diverse and complexity of food matrices pose great challenges for rapid and ultra-sensitive detection of Salmonella in food samples. In this study, combination of pathogen pre-concentration with rapid molecular identification is presented to overcome these challenges. This combination enabled effective real-time PCR detection of low levels of Salmonella enterica serovar Typhimurium without culture enrichment. Anti-salmonella antibody, immobilized on protein AG-magnetic beads, could efficiently concentrate Salmonella Typhimurium with a capturing efficiency of 95%. In the direct PCR, a strong linear relationship between bacteria concentration and the number of cycles was observed with a relative PCR efficiency of ∼92% resulting in a limit of detection (LoD) of ∼2 CFU/mL. Analysis of spiked food samples that include vegetable salad, egg yolk, egg white, whole egg and minced pork meat has validated the precision of the method. A relative accuracy of 98.3% with a sensitivity of 91.6% and specificity of 100% was achieved in the Salmonella spiked food samples. The use of a Phusion hot start DNA polymerase with a high tolerance to possible PCR inhibitors allowed the integration of direct PCR, and thereby reducing the duration of analysis to less than 3 h. The Cohen's kappa index showed excellent agreement (0.88) signifying the capability of this method to overcome the food matrix effects in rapid and ultra-sensitive detection of Salmonella in food. This approach may lay a future platform for the integration into a Lab-on-a-chip system for online monitoring of foodborne pathogens., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2019

3. A novel lab-on-chip platform with integrated solid phase PCR and Supercritical Angle Fluorescence (SAF) microlens array for highly sensitive and multiplexed pathogen detection.

Author

Hung TQ, Chin WH, Sun Y, Wolff A, and Bang DD

Subjects

Base Sequence, Biosensing Techniques instrumentation, DNA Probes chemistry, DNA Probes genetics, DNA, Bacterial genetics, Equipment Design, Fluorescence, Food Analysis instrumentation, Humans, Immobilized Nucleic Acids chemistry, Immobilized Nucleic Acids genetics, Limit of Detection, Salmonella genetics, Salmonella Infections diagnosis, Spectrometry, Fluorescence instrumentation, DNA, Bacterial analysis, Lab-On-A-Chip Devices, Oligonucleotide Array Sequence Analysis instrumentation, Polymerase Chain Reaction instrumentation, Salmonella isolation & purification, Salmonella Infections microbiology

Abstract

Solid-phase PCR (SP-PCR) has become increasingly popular for molecular diagnosis and there have been a few attempts to incorporate SP-PCR into lab-on-a-chip (LOC) devices. However, their applicability for on-line diagnosis is hindered by the lack of sensitive and portable on-chip optical detection technology. In this paper, we addressed this challenge by combining the SP-PCR with super critical angle fluorescence (SAF) microlens array embedded in a microchip. We fabricated miniaturized SAF microlens array as part of a microfluidic chamber in thermoplastic material and performed multiplexed SP-PCR directly on top of the SAF microlens array. Attribute to the high fluorescence collection efficiency of the SAF microlens array, the SP-PCR assay on the LOC platform demonstrated a high sensitivity of 1.6 copies/µL, comparable to off-chip detection using conventional laser scanner. The combination of SP-PCR and SAF microlens array allows for on-chip highly sensitive and multiplexed pathogen detection with low-cost and compact optical components. The LOC platform would be widely used as a high-throughput biosensor to analyze food, clinical and environmental samples., (Copyright © 2016 Elsevier B.V. All rights reserved.)

Published

2017

4. Direct PCR - A rapid method for multiplexed detection of different serotypes of Salmonella in enriched pork meat samples.

Author

Chin WH, Sun Y, Høgberg J, Quyen TL, Engelsmann P, Wolff A, and Bang DD

Subjects

Animals, Food Contamination, Limit of Detection, Sensitivity and Specificity, Polymerase Chain Reaction methods, Red Meat microbiology, Salmonella classification, Salmonella isolation & purification, Serotyping methods

Abstract

Salmonellosis, an infectious disease caused by Salmonella spp., is one of the most common foodborne diseases. Isolation and identification of Salmonella by conventional bacterial culture method is time consuming. In response to the demand for rapid on line or at site detection of pathogens, in this study, we developed a multiplex Direct PCR method for rapid detection of different Salmonella serotypes directly from pork meat samples without any DNA purification steps. An inhibitor-resistant Phusion Pfu DNA polymerase was used to overcome PCR inhibition. Four pairs of primers including a pair of newly designed primers targeting Salmonella spp. at subtype level were incorporated in the multiplex Direct PCR. To maximize the efficiency of the Direct PCR, the ratio between sample and dilution buffer was optimized. The sensitivity and specificity of the multiplex Direct PCR were tested using naturally contaminated pork meat samples for detecting and subtyping of Salmonella spp. Conventional bacterial culture methods were used as reference to evaluate the performance of the multiplex Direct PCR. Relative accuracy, sensitivity and specificity of 98.8%; 97.6% and 100%, respectively, were achieved by the method. Application of the multiplex Direct PCR to detect Salmonella in pork meat at slaughter reduces the time of detection from 5 to 6 days by conventional bacterial culture and serotyping methods to 14 h (including 12 h enrichment time). Furthermore, the method poses a possibility of miniaturization and integration into a point-of-need Lab-on-a-chip system for rapid online pathogen detection., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2017

5. Solid-phase PCR for rapid multiplex detection of Salmonella spp. at the subspecies level, with amplification efficiency comparable to conventional PCR.

Author

Chin WH, Sun Y, Høgberg J, Hung TQ, Wolff A, and Bang DD

Subjects

DNA Primers chemistry, DNA, Bacterial genetics, Humans, Polymerase Chain Reaction classification, Salmonella genetics, Salmonella Infections genetics, Salmonella Infections microbiology, DNA, Bacterial analysis, High-Throughput Nucleotide Sequencing methods, Polymerase Chain Reaction methods, Salmonella isolation & purification, Salmonella Infections diagnosis

Abstract

Solid-phase PCR (SP-PCR) has attracted considerable interest in different research fields since it allows parallel DNA amplification on the surface of a solid substrate. However, the applications of SP-PCR have been hampered by the low efficiency of the solid-phase amplification. In order to increase the yield of the solid-phase amplification, we studied various parameters including the length, the density, as well as the annealing position of the solid support primer. A dramatic increase in the signal-to-noise (S/N) ratio was observed when increasing the length of solid support primers from 45 to 80 bp. The density of the primer on the surface was found to be important for the S/N ratio of the SP-PCR, and the optimal S/N was obtained with a density of 1.49 × 10 11  molecules/mm 2 . In addition, the use of solid support primers with a short overhang at the 5' end would help improve the S/N ratio of the SP-PCR. With optimized conditions, SP-PCR can achieve amplification efficiency comparable to conventional PCR, with a limit of detection of 1.5 copies/μl (37.5 copies/reaction). These improvements will pave the way for wider applications of SP-PCR in various fields such as clinical diagnosis, high-throughput DNA sequencing, and single-nucleotide polymorphism analysis. Graphical abstract Schematic representation of solid-phase PCR.

Published

2017

6. A lab-on-a-chip device for rapid identification of avian influenza viral RNA by solid-phase PCR.

Author

Sun Y, Dhumpa R, Bang DD, Høgberg J, Handberg K, and Wolff A

Subjects

Adhesives chemistry, Animals, Glass chemistry, Influenza A Virus, H1N1 Subtype, Influenza A Virus, H5N1 Subtype, Oligonucleotide Array Sequence Analysis, Surface Properties, Time Factors, Influenza A virus, Lab-On-A-Chip Devices, Polymerase Chain Reaction instrumentation, RNA, Viral analysis, RNA, Viral genetics

Abstract

The endemic of Avian Influenza Virus (AIV) in Asia and epizootics in some European regions have caused serious economic losses. Multiplex reverse-transcriptase (RT) PCR has been developed to detect and subtype AIV. However, the number of targets that can be amplified in a single run is limited because of uncontrollable primer-primer interferences. In this paper, we describe a lab-on-a-chip device for fast AIV screening by integrating DNA microarray-based solid-phase PCR on a microfluidic chip. A simple UV cross-linking method was used to immobilize the DNA probes on unmodified glass surface, which makes it convenient to integrate microarray with microfluidics. This solid-phase RT-PCR method combined RT amplification of extracted RNA in the liquid phase and species-specific nested PCR on the solid phase. Using the developed approach, AIV viruses and their subtypes were unambiguously identified by the distinct patterns of amplification products. The whole process was reduced to less than 1 hour and the sample volume used in the microfluidic chip was at least 10 times less than in the literature. By spatially separating the primers, highly multiplexed amplification can be performed in solid-phase PCR. Moreover, multiplex PCR and sequence detection were done in one step, which greatly simplified the assay and reduced the processing time. Furthermore, by incorporating the microarray into a microchamber-based PCR chip, the sample and the reagent consumption were greatly reduced, and the problems of bubble formation and solution evaporation were effectively prevented. This microarray-based PCR microchip can be widely employed for virus detection and effective surveillance in wild avian and in poultry productions.

Published

2011

7. Comparison of multiple DNA dyes for real-time PCR: effects of dye concentration and sequence composition on DNA amplification and melting temperature.

Author

Gudnason H, Dufva M, Bang DD, and Wolff A

Subjects

Benzothiazoles, DNA analysis, Diamines, Fluorescent Dyes analysis, Nucleic Acid Denaturation, Organic Chemicals analysis, Organic Chemicals chemistry, Quinolines, Temperature, Time Factors, DNA chemistry, Fluorescent Dyes chemistry, Polymerase Chain Reaction methods

Abstract

The importance of real-time polymerase chain reaction (PCR) has increased steadily in clinical applications over the last decade. Many applications utilize SYBR Green I dye to follow the accumulation of amplicons in real time. SYBR Green I has, however, a number of limitations that include the inhibition of PCR, preferential binding to GC-rich sequences and effects on melting curve analysis. Although a few alternative dyes without some of these limitations have been recently proposed, no large-scale investigation into the properties of intercalating dyes has been performed. In this study, we investigate 15 different intercalating DNA dyes for their inhibitory effects on PCR, effects on DNA melting temperature and possible preferential binding to GC-rich sequences. Our results demonstrated that in contrast to the results of SYBR Green I, two intercalating dyes SYTO-13 and SYTO-82 do not inhibit PCR, show no preferential binding to GC rich sequences and do not influence melting temperature, T(m), even at high concentrations. In addition, SYTO-82 demonstrated a 50-fold lower detection limit in a dilution series assay. In conclusion, the properties of SYTO-82 and SYTO-13 will simplify the development of multiplex assays and increase the sensitivity of real-time PCR.

Published

2007

8. Towards a portable microchip system with integrated thermal control and polymer waveguides for real-time PCR.

Author

Wang Z, Sekulovic A, Kutter JP, Bang DD, and Wolff A

Subjects

Bacterial Outer Membrane Proteins genetics, Campylobacter jejuni genetics, Campylobacter jejuni isolation & purification, Carbocyanines analysis, Carrier Proteins genetics, DNA biosynthesis, DNA, Bacterial analysis, DNA, Bacterial biosynthesis, Miniaturization, Optics and Photonics, Organic Chemicals analysis, Polymers chemistry, DNA analysis, Electrophoresis, Microchip instrumentation, Polymerase Chain Reaction instrumentation, Polymerase Chain Reaction methods

Abstract

A novel real-time PCR microchip platform with integrated thermal system and polymer waveguides has been developed. The integrated polymer optical system for real-time monitoring of PCR was fabricated in the same SU-8 layer as the PCR chamber, without additional masking steps. Two suitable DNA binding dyes, SYTOX Orange and TO-PRO-3, were selected and tested for the real-time PCR processes. As a model, cadF gene of Campylobacter jejuni has been amplified on the microchip. Using the integrated optical system of the real-time PCR microchip, the measured cycle threshold values of the real-time PCR performed with a dilution series of C. jejuni DNA template (2 to 200 pg/microL) could be quantitatively detected and compared with a conventional post-PCR analysis (DNA gel electrophoresis). The presented approach provided reliable real-time quantitative information of the PCR amplification of the targeted gene. With the integrated optical system, the reaction dynamics at any location inside the micro reaction chamber can easily be monitored.

Published

2006

9. Use of culture, PCR analysis, and DNA microarrays for detection of Campylobacter jejuni and Campylobacter coli from chicken feces.

Author

Keramas G, Bang DD, Lund M, Madsen M, Bunkenborg H, Telleman P, and Christensen CB

Subjects

Animals, Base Sequence, Campylobacter coli genetics, Campylobacter jejuni genetics, Chickens, DNA Primers, Feces microbiology, Polymerase Chain Reaction methods, Specimen Handling methods, Specimen Handling veterinary, Campylobacter coli isolation & purification, Campylobacter jejuni isolation & purification, Oligonucleotide Array Sequence Analysis, Polymerase Chain Reaction veterinary

Abstract

A DNA microarray for detection of Campylobacter spp. was recently developed and applied to detect Campylobacter spp. directly from chicken feces. Sixty-five pooled chicken cloacal swab samples from 650 individual broiler chickens were included in the study. The results of Campylobacter sp. detection obtained with DNA microarrays were compared to those obtained by conventional culture and gel electrophoresis. By conventional culture, 60% of the samples were positive for either Campylobacter jejuni or Campylobacter coli. By PCR and capillary electrophoresis, 95% of the samples were positive for Campylobacter spp., whereas with DNA microarrays all samples were positive for Campylobacter spp. By application of DNA microarray analysis, the isolates in 4 samples (6%) could not be identified to the species level, whereas by PCR-capillary electrophoresis, the isolates in 12 samples (19%) remained unidentified. Interestingly, PCR-capillary electrophoresis analysis revealed that two (3%) of the samples were positive for both C. jejuni and C. coli, while DNA microarray analysis revealed that nine (14%) of the samples were positive for both species. Of 65 samples, 2 samples were identified to contain C. coli by conventional culture but were positive for C. jejuni by both PCR-capillary electrophoresis and DNA microarray analysis. The discrepancy between the methods is discussed.

Published

2004

10. Removal of PCR inhibitors using dielectrophoresis as a selective filter in a microsystem.

Author

Perch-Nielsen IR, Bang DD, Poulsen CR, El-Ali J, and Wolff A

Subjects

Animals, Cattle, Electrophoresis instrumentation, Hemoglobins isolation & purification, Hemoglobins pharmacology, Heparin isolation & purification, Heparin pharmacology, Microchemistry instrumentation, Microchemistry methods, Ribosomal Proteins genetics, Saccharomyces cerevisiae chemistry, Saccharomyces cerevisiae cytology, Saccharomyces cerevisiae genetics, Electrophoresis methods, Polymerase Chain Reaction methods

Abstract

Diagnostic PCR has been used to analyse a wide range of biological materials. Conventional PCR consists of several steps such as sample preparation, template purification, and PCR amplification. PCR is often inhibited by contamination of DNA templates. To increase the sensitivity of the PCR, the removal of PCR inhibitors in sample preparation steps is essential and several methods have been published. The methods are either chemical or based on filtering. Conventional ways of filtering include mechanical filters or washing e.g. by centrifugation. Another way of filtering is the use of electric fields. It has been shown that a cell will experience a force when an inhomogeneous electric field is applied. The effect is called dielectrophoresis (DEP). The resulting force depends on the difference between the internal properties of the cell and the surrounding fluid. DEP has been applied to manipulate cells in many microstructures. In this study, we used DEP as a selective filter for holding cells in a microsystem while the PCR inhibitors were flushed out of the system. Haemoglobin and heparin - natural components of blood - were selected as PCR inhibitors, since the inhibitory effects of these components to PCR have been well documented. The usefulness of DEP in a microsystem to withhold baker's yeast (Saccharomyces cerevisiae) cells while the PCR inhibitors haemoglobin and heparin are removed will be presented and factors that influence the effect of DEP in the microsystem will be discussed. This is the first time dielectrophoresis has been used as a selective filter for removing PCR inhibitors in a microsystem.

Published

2003

11. PCR detection of seven virulence and toxin genes of Campylobacter jejuni and Campylobacter coli isolates from Danish pigs and cattle and cytolethal distending toxin production of the isolates.

Author

Bang DD, Nielsen EM, Scheutz F, Pedersen K, Handberg K, and Madsen M

Subjects

Animals, Bacterial Toxins genetics, Campylobacter coli genetics, Campylobacter jejuni genetics, Chick Embryo, Chlorocebus aethiops, Electrophoresis, Agar Gel, Polymorphism, Restriction Fragment Length, Tumor Cells, Cultured, Vero Cells, Virulence genetics, Campylobacter genetics, Cattle microbiology, Genes, Bacterial, Polymerase Chain Reaction methods, Swine microbiology

Abstract

Aims: To study the prevalence of seven virulence and toxin genes, and cytolethal distending toxin (CDT) production of Campylobacter jejuni and C. coli isolates from Danish pigs and cattle., Methods and Results: The presence of the cadF, ceuE, virB11, flaA, cdtA, cdtB, cdtC and the cdt gene cluster among 40 C. jejuni and C. coli isolates was detected by polymerase chain reaction. The CDT production of the isolates was determined on Vero, colon 205 and chicken embryo cells. The cadF, flaA, ceuE and cdtB genes were detected from 100% of the isolates. The cdtA and cdtC genes were found in 95.0 and 90.0% of the isolates, respectively. The cdt gene cluster was detected in 82.5% isolates. Only 7.5% of the isolates were positive for virB11. Ninety-five per cent of the isolates produced CDT in Vero and colon 205 cell assays, and 90% of the isolates produced CDT in chicken embryo cell assays., Conclusions: High prevalence of the cadF, ceuE, flaA and cdtB genes was found. Data of the prevalence of cdt genes was consistent with the CDT titres produced by the isolates. Campylobacter coli from pigs produced high CDT titres., Significance and Impact of the Study: The high prevalence of seven virulence and toxin genes demonstrated that these putative pathogenic determinants are widespread among Campylobacter isolates from pigs and cattle. Campylobacter coli isolates from pigs produced much higher CDT titres compared with C. coli isolates from other sources suggesting that C. coli may be particularly adapted to or associated with this species.

Published

2003

12. Evaluation of PCR for detection of Campylobacter in a national broiler surveillance programme in Denmark.

Author

Lund M, Wedderkopp A, Wainø M, Nordentoft S, Bang DD, Pedersen K, and Madsen M

Subjects

Abattoirs standards, Animals, Bacteriological Techniques methods, DNA, Bacterial analysis, Feces microbiology, Reproducibility of Results, Safety Management methods, Sensitivity and Specificity, Campylobacter isolation & purification, Chickens microbiology, Food Microbiology, Polymerase Chain Reaction methods

Abstract

Aims: To develop and evaluate a rapid and sensitive PCR method for detection of Campylobacter spp. directly from chicken faeces., Methods and Results: DNA was isolated from faecal swabs using magnetic beads followed by PCR using a prealiquoted PCR mixture, which had been stored in the freezer. The result could be obtained in <6 h. The method was evaluated on 1282 samples from the Danish surveillance programme for Campylobacter in broilers by comparing with conventional culture. The diagnostic specificity was calculated to be 0.99. The detection limits of the PCR method and of the conventional culture were compared using spiked control material. For both methods the detection limit was 36 CFU ml-1., Conclusions: It was concluded that the PCR proved useful for detection of Campylobacter in pooled cloacal swabs from broilers., Significance and Impact of the Study: By taking cloacal samples in the broiler flocks the technique can be used as an important tool for planning and directing the broiler slaughtering process. This will be a great help in minimizing the risk of contaminating Campylobacter-free flocks at the abattoir.

Published

2003

13. Identification of campylobacteria isolated from Danish broilers by phenotypic tests and species-specific PCR assays.

Author

Wainø M, Bang DD, Lund M, Nordentoft S, Andersen JS, Pedersen K, and Madsen M

Subjects

Animals, Campylobacter genetics, Campylobacter metabolism, DNA analysis, Genotype, Hippurates metabolism, Hydrolysis, Phenotype, Species Specificity, Campylobacter isolation & purification, Chickens, Polymerase Chain Reaction methods

Abstract

Aims: To validate a phenotypic Campylobacter species identification method employed to identify campylobacters in broilers by comparison with campylobacterial species identification using various species-specific PCR analyses., Methods and Results: From a collection of 2733 phenotypically identified campylobacterial cultures, 108 Campylobacter jejuni cultures and 351 campylobacterial cultures other than Camp. jejuni were subjected to various species-specific PCR assays. On the basis of the genotypic tests, it was demonstrated that Camp. jejuni and Camp. coli constituted approx. 99% of all cultures, while other species identified were Helicobacter pullorum, Camp. lari and Camp. upsaliensis. However, 29% of the 309 Camp. coli cultures identified by phenotypic tests were hippurate-variable or negative Camp. jejuni cultures, whereas some Camp. lari cultures and unspeciated campylobacter cultures belonged to H. pullorum. It was also notable that 2-6% of the cultures were, in fact, mixed cultures., Conclusions: The phenotypic identification scheme employed failed to appropriately differentiate Campylobacter species and particularly to identify the closely related species, H. pullorum., Significance and Impact of the Study: Future phenotypic test schemes should be designed to allow a more accurate differentiation of Campylobacter and related species. Preferably, the phenotypic tests should be supplemented with a genotypic strategy to disclose the true campylobacterial species diversity in broilers.

Published

2003

14. Rapid PCR using nested primers of the 16S rRNA and the hippuricase (hip O) genes to detect Campylobacter jejuni and Campylobacter coli in environmental samples.

Author

Bang DD, Wedderkopp A, Pedersen K, and Madsen M

Subjects

Animals, Chickens, DNA Primers, DNA, Bacterial analysis, Environment, Polymerase Chain Reaction standards, Poultry Diseases microbiology, Sensitivity and Specificity, Time Factors, Amidohydrolases genetics, Campylobacter coli isolation & purification, Campylobacter jejuni isolation & purification, Polymerase Chain Reaction methods, RNA, Ribosomal, 16S genetics

Abstract

Identification of sources Campylobacter infection in the poultry houses is in general problematic due to the lack of reliable methods to detect campylobacteria in environmental samples. Detection of campylobacteria in environmental samples by conventional culture methods is difficult and of limited sensitivity due to the use of selective media, the low number of bacteria in the samples and possibly also due to the presence of non-culturable or sub-lethally injured stages of the bacteria. The present paper describes a rapid PCR assay using nested primers of the 16S rRNA or the hippuricase (hip O) genes to detect Campylobacter jejuni and Campylobacter coli in environmental samples. The sensitivity of the nested PCR was determined to be 0.01 pg/PCR, corresponding to 2-3 colony forming units (cfu) per ml. The nested PCR assays were applied to detect C. jejuni and C. coli in 269 environmental samples collected from ten broiler farms. The sensitivity, specificity and the usefulness of the PCR assay for detection of C. jejuni and C. coli in environmental samples are presented and discussed.

Published

2002