Assessment of adenovirus,hepatitis A virus and rotavirus presence in environmental samples in Florianopolis,South Brazil

Aims: To assess the presence of human adenovirus (HAdV), hepatitis A (HAV) virus and rotavirus A (RV‐A) in environmental samples from the Southern region of Brazil and to provide viral contamination data for further epidemiological studies and governmental actions. Methods and Results: Water samples from various sources (seawater, lagoon brackish water, urban wastewater, drinking water sources‐with and without chlorination and water derived from a polluted creek) and oysters of two growing areas were analysed by enzymatic amplification (nested PCR and RT‐PCR), quantification of HAdV genome (qPCR) and viral viability assay by integrated cell culture‐PCR (ICC‐PCR). From June 2007 to May 2008 in a total of 84 water samples, 54 (64·2%) were positive for HAdV, 16 (19%) for RV‐A and 7 (8·3%) for HAV. Viability assays showed nonpositive samples for HAV; though, infectious viruses were confirmed for RV‐A (12·5%) and HAdV (88·8%). Oyster samples by PCR were positive for HAdV (87·5%) and RV‐A (8·3%), but none for HAV. Quantitative PCR in oysters showed means loads in genomic copies (gc) of 9·1 × 10⁴ gc g^?1 (oyster farm south) and 1·5 × 10⁵ gc g^?1 (oyster farm north) and in waters ranging from 2·16 × 10⁶ (lagoon water) to 1·33 × 10⁷ gc l^?1 (untreated drinking water). Conclusions: This study has shown a widespread distribution of the analysed viruses in this particular region with high loads of HAdV in the environment which suggests the relevance of evaluating these viruses as positive indicators of viral contamination of water. Significance and Impact of the Study: The environmental approach in this study provides data concerning the prevalence, viability and quantification of enteric viruses in environmental waters and oysters in the South region of Brazil and has indicated that their presence might pose a risk to population in contact with the environmental samples searched.     

Quantitative detection of sapoviruses in wastewater and river water in Japan

Aims:  To detect sapoviruses at a wastewater treatment plant (WWTP) and in a river in Japan, quantitatively. Methods and Results:  Influent and effluent samples at a WWTP and river water samples were collected monthly for 1 year. The water samples were subjected to virus concentration using an HA electronegative filter, followed by quantification of sapoviruses using real‐time PCR. The concentration of sapoviruses in influent ranged from 2·8 × 10³ to 1·3 × 10⁵ copies per litre, showing a higher value in winter. Seven (58%) of 12 effluent samples were positive for sapoviruses, as were 23 (64%) of 36 river water samples collected from three sites along the Tamagawa River. Conclusions:  Sapoviruses were abundant in the influent even in the nonepidemic period, suggesting that sporadic and asymptomatic infections occur throughout the year. Increasing concentration of sapoviruses was discharged into the river during the epidemic period winter. Significance and Impact of the Study:  This is the first study demonstrating the quantitative detection of sapoviruses in aquatic environments.     

Quantification of Lawsonia intracellularis in porcine faeces by real‐time PCR

Aim: To develop and to validate a method for the quantification of Lawsonia intracellularis in porcine faeces by real‐time PCR. Methods and Results: A real‐time PCR including a calibrator based on plasmid DNA for quantification by means of ΔΔCt method was evaluated. The parameters specificity, detection limit, quantification limit, linearity, range, repeatability, precision and recovery were validated. The detection limit of the agent was 1 copy per reaction, and quantification was reliable between 10¹ and 10⁷ copies per μl reaction volume. The linearity calculated by logistic regression revealed a slope of ?3·329 reflecting an efficiency of 99·7% for the assay. Moreover, it was shown that storage of samples and repetition of tests including DNA isolation by same or other investigators did not influence the outcome. Conclusion: The quantification method described herein revealed consistent results for the quantitation of L. intracellularis in porcine faeces samples. Significance and Impact of the Study: In contrast to common PCR in combination with gel electrophoresis, this validated quantification method based on real‐time PCR enhances a reliable quantification and is even more sensitive.     

Comparison of culture and PCR for the detection of Brucella melitensis in blood and lymphoid tissues of serologically positive and negative slaughtered sheep

Aims: To compare the culture and PCR methods for detection of Brucella melitensis in blood and lymphoid tissue samples obtained from slaughtered sheep (n = 162) testing positive/negative in serological tests (Rose Bengal test and serum agglutination test). Methods and Results: Of 162 sheep examined, 45 were positive and 117 negative in serological tests. A PCR assay based on a pair of Br. melitensis‐specific primers was used to detect DNA in blood and lymphoid tissue. Brucella melitensis was isolated from 1·2% (2/162) and 17·2% (28/162) of the blood and lymphoid tissue samples respectively. Positive PCR products with a molecular size of 731 bp were obtained from 27·7% (45/162) of blood and 29·0% (47/162) of lymphoid tissue samples. Conclusions: The species‐specific PCR assay detected a higher number of Br. melitensis DNA both from serologically positive (P < 0·01 in blood PCR, P < 0·001 in tissue PCR) and serologically negative (P < 0·001 in both blood PCR and tissue PCR) sheep compared with classical bacteriological culture methods. Significance and Impact of the Study: The results emphasize the importance of using more than one type of diagnostic technique for the detection of animals positive for brucellosis, especially with epidemiological purposes.     

Development and evaluation of a point-of-care test with a combination of EZ-Fast DNA extraction and real-time PCR and LAMP detection: evaluation using blood samples containing the bovine leukaemia DNA

Along with progress in globalization of society, the spread of infectious diseases has accelerated worldwide. The deployment of highly sensitive genetic tests is essential for early diagnosis and early containment of potential outbreaks and epidemics, as well as routine surveillance, although tedious and expensive nucleic acid extraction steps represent a major drawback. Here we developed a simple and rapid DNA extraction method, named as an EZ-Fast kit, applicable to the field setting. The kit does not require advanced laboratory equipment or expensive DNA extraction kits and achieves crude DNA extraction within 10 min at extremely low cost and can easily be performed in field settings. When combined with real-time PCR and LAMP analyses, the performance of the POCT, using 183 bovine blood samples, was similar to that of the existing DNA extraction method: 92·5% (135/146) (real-time PCR) and 93·7% (133/142) (LAMP) diagnostic sensitivities, and 100% diagnostic specificities. The developed POCT provides a powerful tool to facilitate on-site diagnosis in a field setting.     

Multiplex PCR assay for simultaneous detection and differentiation of Mycobacterium tuberculosis, Mycobacterium avium complexes and other Mycobacterial species directly from clinical specimens

Aims: Polymerase chain reaction (PCR) is the most rapid and sensitive method for diagnosing mycobacterial infections and identifying the aetiological Mycobacterial species in order to administer the appropriate therapy and for better patient management. Methods and Results: Two hundred and thirty‐five samples from 145 clinically suspected cases of tuberculosis were processed for the detection of Mycobacterial infections by ZN (Ziehl Neelsen) smear examination, L‐J & BACTEC^TM MGIT‐960 culture and multiplex PCR tests. The multiplex PCR comprised of genus‐specific primers targeting hsp65 gene, Mycobacterium tuberculosis complex‐specific primer targeting cfp10 (Rv3875, esxB) region and Mycobacterium avium complex‐specific primer pairs targeting 16S–23S Internal Transcribed Spacer sequences. The multiplex PCR developed had an analytical sensitivity of 10 fg (3–4 cells) of mycobacterial DNA. The multiplex PCR test showed the highest (77·24%) detection rate, while ZN smear examination had the lowest (20%) detection rate, which was bettered by L‐J culture (34·4%) and BACTEC^TM MGIT‐960 culture (50·34%) methods. The mean isolation time for M. tuberculosis was 19·03 days in L‐J culture and 8·7 days in BACTEC^TM MGIT‐960 culture. Using the multiplex PCR, we could establish M. tuberculosis + M. avium co‐infection in 1·3% HIV‐negative and 2·9% HIV‐positive patients. The multiplex PCR was also highly useful in diagnosing mycobacteraemia in 38·09% HIV‐positive and 15·38% HIV‐negative cases. Conclusions: The developed in‐house multiplex PCR could identify and differentiate the M. tuberculosis and M. avium complexes from other Mycobacterial species directly from clinical specimens. Significance and Impact of the Study: The triplex PCR developed by us could be used to detect and differentiate M. tuberculosis, M. avium and other mycobacteria in a single reaction tube.     

Exhaustive isolation of diarrhoeagenic Escherichia coli by a colony hybridization method using hydrophobic grid-membrane filters in combination with multiplex real-time PCR

Aims: The present study aimed to develop a colony hybridization method for the exhaustive detection and isolation of diarrhoeagenic Escherichia coli (DEC) from samples containing numerous coliform bacteria. Methods and Results: Digoxigenin‐labelled DNA probes were designed to detect seven pathotypes of DEC based on type‐specific genes. A total of 615 meat, food and faeces samples identified as DEC‐positive by multiple real‐time PCR for the virulence genes (eae, stx, elt, est, virB, aggR, afaB and astA) were analysed by a colony hybridization method, which involved filtering enrichment cultures through hydrophobic grid‐membrane filters. DEC were isolated from 72·5% (446/615) of samples by the colony hybridization method but were only detected in 26·3% (162/615) of samples by a conventional culture method. The hybridization method was particularly effective for isolating low‐level contaminants, such as enterotoxigenic and Shiga toxin‐producing E. coli, which were isolated from 51·8% (58/112) of samples identified as positive by PCR for the enterotoxin genes, in contrast to only 4·5% (5/112) of samples analysed by the conventional method. Conclusions: The developed colony hybridization system allows for the efficient and simultaneous isolation of all DEC pathotypes. Significance and Impact of the Study:  The colony hybridization system described here permits the sensitive isolation of DEC and represents a suitable tool for ecological investigations of DEC.     

A combined RT‐PCR and dot‐blot hybridization method reveals the coexistence of SJNNV and RGNNV betanodavirus genotypes in wild meagre (Argyrosomus regius)

Aims: To detect the possible coexistence of striped jack nervous necrosis virus (SJNNV) and red‐spotted grouper nervous necrosis virus (RGNNV) genotypes in a single fish, a methodology based on the combination of PCR amplification and blot hybridization has been developed and applied in this study. Methods and Results: The degenerate primers designed for the PCR procedure target the T4 region within the capsid gene, resulting in the amplification of both genotypes. The subsequent hybridization of these amplification products with two different specific digoxigenin‐labelled probes resulted in the identification of both genotypes separately. The application of the RT‐PCR protocol to analyse blood samples from asymptomatic wild meagre (Argyrosomus regius) specimens has shown a 46·87% of viral nervous necrosis virus carriers. The combination of RT‐PCR and blot hybridization increases the detection rate up to 90·62%, and, in addition, it has shown the coexistence of both genotypes in 18 out of the 32 specimens analysed (56·25%). Conclusions: This study reports the coexistence of betanodaviruses belonging to two different genotypes (SJNNV and RGNNV) in wild fish specimens. Significance and Impact of the Study: This is the first report demonstrating the presence of SJNNV and RGNNV genotypes in the same specimen. This study also demonstrates a carrier state in this fish species for the first time.     

Determination of antimicrobial resistance and virulence gene signatures in surface water isolates of Escherichia coli

Aims: To determine the occurrence of Escherichia coli harbouring virulence markers of shiga‐ or entero‐toxins and resistance to antimicrobials in surface waters. Methods and Results: Surface water samples were collected at six locations of the river Gomti. E. coli isolates (n = 90) were characterized for their pathogenic potential using polymerase chain reaction to detect virulence genes as well as their sensitivity to antimicrobial agents using disc diffusion methods. In this study, 57·8% of E. coli isolates exhibited resistance to three or more antimicrobial agents. Sensitivity to cephotaxime, gentamicin and norfloxacin was observed in 7·8%, 48·9% and 77·8% of isolates, respectively. Both stx1 and stx2 genes were present in 15·6% of isolates while remaining isolates had either stx1 (17·8%) or stx2 (6·7%). The stx1 gene (33·3%) was more prevalent than stx2 (22·2%). The results indicate that the LT1 and ST1 genes were positive in 21·2% of isolates. Conclusions: The presence of multi‐drug resistance and virulence genes in E. coli isolated from surface water being used for domestic and recreational purposes may result in waterborne outbreaks. Significance and Impact of the Study: The data will be useful in monitoring surface waters for forecasting and management of waterborne outbreaks.     

Evaluation of real‐time PCR methods for quantification of Acanthamoeba in anthropogenic water and biofilms

Aims: To assess two real‐time PCR methods (the Riviere and Qvarnstrom assays) for environmental Acanthamoeba. Methods and Results: DNA extracted from Acanthamoeba castellanii taken from water and biofilms of cooling towers was analysed by the Riviere and Qvarnstrom assays. To quantify environmental Acanthamoeba, the calibration curves (DNA quantity vs cell number) were constructed with samples spiked with A. castellanii. The calibration curves for both quantitative PCR assays showed low variation (coefficient of variation of C_t≤ 5·7%) and high linearity (R² ≥ 0·99) over six orders of magnitudes with detection limit of three cells per water sample. DNA quantity determined by Qvarnstrom assay was equivalent between trophozoites and cysts (P = 0·49), whereas a significant difference was observed with Riviere assay (P < 0·0001). Riviere assay failed to detect Acanthamoeba in 21% (15/71) of the environmental samples which were positively detected by Qvarnstrom assay, while one sample (1·4%) was shown positive by Riviere assay but negative by Qvarnstrom assay. Moreover, Acanthamoeba counts by Qvarnstrom assay were greater than those by Riviere assay (P < 0·0001). Conclusions: Qvarnstrom assay performs better than Riviere assay for detection and quantification of Acanthamoeba in anthropogenic water and biofilms. Significance and Impact of the Study: Qvarnstrom assay may significantly contribute to a better knowledge about the distribution and abundance of Acanthamoeba in environments.     

Detection and characterization of Shigella species isolated from food and human stool samples in Nabeul, Tunisia, by molecular methods and culture techniques

Aims: This study was designed to isolate Shigella spp. strains from food and stool samples by a combination of PCR and culture methods and characterize their serotypes, antibiotic resistance profiles, virulence genes and pulsed‐field gel electrophoresis (PFGE) patterns to investigate possible clonal relationships amongst strains circulating. Methods and Results: Six Shigella spp. strains were isolated from 280 food samples against 16 Shigella isolates from 236 stool samples of symptomatic patients and asymptomatic food handlers during the period from January 2007 to December 2009 in Public Health Regional Laboratory of Nabeul. The detection of ipaH, ipaBCD, ial, ShET‐1 and ShET‐2 was performed by a PCR technique with specific primers. Conclusions: The use of PCR technique improved the rate of detecting Shigella in stool samples from 6·7 to 14% and in food samples from 2·1 to 8·6%. Percentage of Shigella isolates and ipaH‐specific PCR demonstrated a marked pattern of seasonality, increasing in summer and fall seasons for human and food isolates. Amongst the environmental strains, 50% of isolates were invasive. However, for the 16 clinical strains isolated, nine were found to be positive for both ial and ipaBCD gene and 11 were found to produce ShET‐1 and/or ShET‐2. XbaI PFGE analysis revealed the presence of a predominant clone amongst Shigella sonnei strains recovered from different sources circulating in Nabeul, Tunisia, throughout the years 2007–2009. Significance and Impact of the Study: This study demonstrated the existence of Shigella in food samples and dispersion of different virulence genes amongst these isolates, which appear to constitute an environmental source of epidemic spread. The clonal relationships amongst strains isolated from food elements and human stools indicate the incrimination of different kinds of foods as vehicle of transmission of Shigella, which are usually escaped from detection by traditional culture methods.     

Evaluation of methodology for detection of human adenoviruses in wastewater,drinking water,stream water and recreational waters

Aims: This study evaluates dialysis filtration and a range of PCR detection methods for identification and quantification of human adenoviruses in a range of environmental waters. Methods and Results: Adenovirus was concentrated from large volumes (50–200 l) of environmental and potable water by hollow fibre microfiltration using commercial dialysis filters. By this method, an acceptable recovery of a seeded control bacteriophage MS2 from seawater (median 95·5%, range 36–98%, n = 5), stream water (median 84·7%, range 23–94%, n = 5) and storm water (median 59·5%, range 6·3–112%, n = 5) was achieved. Adenovirus detection using integrated cell culture PCR (ICC‐PCR), direct PCR, nested PCR, real‐time quantitative PCR (qPCR) and adenovirus group F‐specific direct PCR was tested with PCR products sequenced for confirmation. Adenovirus was routinely detected from all water types by most methods, with ICC‐PCR more sensitive than direct‐nested PCR or qPCR. Group F adenovirus dominated in wastewater samples but was detected very infrequently in environmental waters. Conclusions and Implications: Human adenoviruses (HAdv) proved relatively common in environmental and potable waters when assessed using an efficient concentration method and sensitive detection method. ICC‐PCR proved most sensitive, could be used semiquantitatively and demonstrated virus infectivity but was time consuming and expensive. qPCR provided quantitative results but was c. ten‐fold less sensitive than the best methods.     

Effects of sampling location and time,and host animal on assessment of bacterial diversity and fermentation parameters in the bovine rumen

Aims: To investigate, using culture‐independent methods, whether the ruminal bacterial structure, population and fermentation parameters differed between sampling locations and time. Methods and Results: The detectable bacteria and fermentation parameters in the digesta from five locations in the rumen of three cows at three time points were analysed. The PCR‐denaturing gradient gel electrophoresis (PCR‐DGGE) profiles were similar among digesta samples from five locations (95·4%) and three time points (93·4%) within cows; however, a lower similarity was observed for samples collected from different host animals (85·5%). Rumen pH and concentration of volatile fatty acids (VFA) were affected by time points of sampling relative to feeding. Conclusions: The detectable bacterial structure in the rumen is highly conserved among different locations and over time, while the quantity of individual bacterial species may change diurnally in response to the feeding. Significance and impact of the study: This study supplies the fundamental understanding of the microbial ecology in the rumen, which is essential for manipulation of ruminal microflora and subsequent improvement in animal production.     

Evaluation of culture, ELISA and PCR assays for the detection of Salmonella in seafood

Aims: The study evaluated the efficiency of culture, enzyme‐linked immunosorbent assay (ELISA) and polymerase chain reaction (PCR) assays for the detection of Salmonella in naturally contaminated seafood. Methods and Results: In this study, 215 seafood samples comprising fish, shrimp, crab, clam, mussel, oyster, squid, cuttlefish and octopus from fish market of Cochin (India), were compared by culture, ELISA and PCR methods. Bacteriological Analytical Manual (BAM), U.S. Food and Drug Administration (USFDA) method was followed for culture assay, and Salmonella Tek, a commercial sandwich ELISA kit, was used for ELISA assay. Salmonella‐specific PCR assay was developed for 284 bp Salmonella‐specific invA gene amplicon. PCR assay exhibited 31·6% seafood positive for Salmonella followed by ELISA (23·7%) and culture method (21·3%). There was fair to excellent agreement between culture, ELISA and PCR assays (kappa coefficient values ranging from 0·385 to 1·0) for different seafood samples. Conclusion: The investigation revealed the greater concordance between culture and ELISA methods for seafood. Among the three methods, PCR assay was most sensitive. Lower detection rate with culture and ELISA assays could be attributed to greater sensitivity of the PCR method in the detection of Salmonella in seafood. Significance and Impact of the Study: We propose the incorporation of dual tests based on different principle and procedure for the routine analysis of Salmonella in seafood.     

A real-time PCR for SARS-coronavirus incorporating target gene pre-amplification

An enhanced polymerase chain reaction (PCR) assay to detect the coronavirus associated with severe acute respiratory syndrome (SARS-CoV) was developed in which a target gene pre-amplification step preceded TaqMan real-time fluorescent PCR. Clinical samples were collected from 120 patients diagnosed as suspected or probable SARS cases and analyzed by conventional PCR followed by agarose gel electrophoresis, conventional TaqMan real-time PCR, and our enhanced TaqMan real-time PCR assays. An amplicon of the size expected from SARS-CoV was obtained from 28/120 samples using the enhanced real-time PCR method. Conventional PCR and real-time PCR alone identified fewer SARS-CoV positive cases. Results were confirmed by viral culture in 3/28 cases. The limit of detection of the enhanced real-time PCR method was 10(2)-fold higher than the standard real-time PCR assay and 10(7)-fold higher than conventional PCR methods. The increased sensitivity of the assay may help control the spread of the disease during future SARS outbreaks.     

Detection of Phytophthora nicotianae in Soil with Real-time Quantitative PCR

Phytophthora nicotianae is one of the most important soil-borne plant pathogens. A rapid, specific and sensitive real-time polymerase chain reaction (PCR) detection method for P. nicotianae was established, which used primers targeting the internal transcribed spacer (ITS) regions of rDNA genes of Phytophthora spp. Based on the nucleotide sequences of ITS2 of 15 different species of Phytophthora , the primers and probe were designed specifically to amplify DNA from P. nicotianae. With a series of 10-fold DNA dilutions extracted from P. nicotianae pure cultures, the detection limit was 10 pg/μl in conventional PCR, whereas in SYBR Green I PCR the detection limit was 0.12 fg/μl and in TaqMan PCR 1.2 fg/μl, and real-time PCR was 10⁴–10⁵ times more sensitive than conventional PCR. The simple and rapid procedures maximized the yield and quality of recovered DNA from soil and allowed the processing of many samples in a short time. The direct DNA extractions from soil were utilized to yield DNA suitable for PCR. By combining this protocol with the real-time PCR procedure it has been possible to specifically detect P. nicotianae in soil, and the degree of sensitivity was 1.0 pg/μl. The system was applied to survey soil samples from tobacco field sites in China for the presence of P. nicotianae and the analyses of naturally infested soil showed the reliability of the real-time PCR method.     

Pseudomonas syringae pv. actinidiae detection in kiwifruit plant tissue and bleeding sap

The rapid spreading of the disease during last few years highlighted the need of a quick, sensitive and reliable method for Pseudomonas syringae pv. actinidiae (Psa) detection, to find possible inoculum sources and limit the pathogen spreading. A PCR method, using new primers designed on the gene encoding a putative outer membrane protein P1, was developed to detect Psa in symptomatic and asymptomatic tissue; a nested‐PCR was also applied. Bleeding sap samples, collected in early spring from orchards with symptomatic and asymptomatic trees, were used both for PCR assays and for pathogen isolation and identification. The PCR and nested PCR methods were able to detect Psa presence at very low concentration from plant and pollen extracts; RFLP analyses with BclI on PCR and nested PCR amplicons confirmed the assay specificity, while the digestion with BfmI and AluI allowed to discriminate Psa strains isolated before 2008 from those isolated after 2008. Furthermore, the PCR and nested PCR on crude bleeding sap samples detected the presence of the pathogen in 3 and 5 of the 15 assayed samples, respectively. Direct isolation from the same samples and bacterial identification confirmed the results of molecular analysis.     

Antitumour and antimicrobial activities of endophytic streptomycetes from pharmaceutical plants in rainforest

Aims: The aim of this study was to screen antitumour and antimicrobial activities of endophytic actinomycetes isolated from pharmaceutical plants in rainforest in Yunnan province, China. Methods and Results: Antitumour activity was studied by the 3‐(4,5‐dimethylthiazol‐2‐yl)‐2,5‐diphenyltetrazolium bromide assay and antimicrobial activity was determined by agar well diffusion method. The high bioactive endophytic isolates were identified and further investigated for the presence of polyketide synthases (PKS‐I, PKS‐II) and nonribosomal peptide synthetases (NRPS) sequences by specific amplification. The molecular identification confirmed that the 41 isolates showed significant activities were members of the genus Streptomyces. Among them, 31·7% of endophytic streptomycete cultures were cytotoxic against A549 cells, 29·3% against HL‐60 cells, 85·4% against BEL‐7404 cells, 90·2% against P388D1 cells, 65·9% were active against Escherichia coli, 24·4% against Staphylococcus aureus, 31·7% against Staphylococcus epidermidis, 12·2% against Candida albicans and no strain displayed antagonistic activity against Klebsiella pneumoniae. High frequencies of positive PCR amplification were obtained for PKS‐I (34·1%), PKS‐II (63·4%) and NRPS (61·0%) biosynthetic systems. Conclusions: Many endophytic streptomycetes isolated from pharmaceutical plants in rainforest possess remarkable and diverse antitumour and antimicrobial bioactivities. Significance and Impact of the Study: These endophytic streptomycetes are precious resources obtained from rainforests, and they could be a promising source for bioactive agents.     

Detection and identification of Listeria monocytogenes in cooked sausage products and in milk by in vitro amplification of haemolysin gene fragments

Recent outbreaks of listeriosis have emphasized the urgent need for rapid and reliable detection methods for Listeria spp., especially in food. Haemolysin production is a major factor in the pathogenesis of listeriosis and the polymerase chain reaction (PCR) was used to amplify two specific DNA fragments of the α- and the β-haemolysin genes. The amplification system specifically recognized L. monocytogenes strains. The detection limit determined with pure cultures was 10 bacteria when estimated with α-haemolysin primers. In the analysis of 50 samples of cooked sausage products, bacterial colonies suspected to be Listeria spp. were isolated by conventional methods from six samples. PCR analysis identified three of six as L. monocytogenes. Subsequent serotyping showed perfect agreement with the PCR results. Since enrichment is the most time consuming step in conventional methods a PCR procedure which allows the direct detection of L. monocytogenes in milk was developed. Pasteurized milk was artificially contaminated with various levels of L. monocytogenes. The detection limit was determined to be 10 bacteria/10 ml milk and direct detection and identification of L. monocytogenes took less than two working days. These results show that this haemolysin gene amplification system is very rapid and reliable and therefore avoids cumbersome and lengthy cultivation steps.