Detection of Verotoxigenic Escherichia coli by Magnetic Capture-Hybridization PCR

Magnetic capture-hybridization PCR (MCH-PCR) was used for the detection of 36 verotoxigenic (verotoxin [VT]-producing) Escherichia coli (VTEC), 5 VTEC reference, and 13 non-VTEC control cultures. The detection system employs biotin-labeled probes to capture the DNA segments that contain specific regions of the genes for VT1 and VT2 by DNA-DNA hybridization. The hybrids formed were isolated by streptavidin-coated magnetic beads which were collected by a magnetic particle separator and, subsequently, amplified directly by conventional PCR. The detection system was found to be specific for VTEC: no amplification was obtained from non-VTEC controls, whereas VTEC isolates tested positive for one or two specific PCR products. With 5, 7, or 10 h of enrichment, the limits of detection were 10³, 10², and 10⁰ CFU/ml, respectively, by agarose gel electrophoresis. Southern hybridization did not seem to improve the limit of the detection. When applied to food, MCH-PCR was capable of detecting 10⁰ CFU of VTEC per g of ground beef with 15 h of nonselective enrichment. The results of MCH-PCR for pure cultures of VT1- and/or VT2-producing E. coli cells were in total agreement with toxin production as measured by a VT enzyme-linked immunosorbent assay.     

Detection of Various Variant Verotoxin Genes in Escherichia coli by Polymerase Chain Reaction

We constructed common primers for the polymerase chain reaction to detect the genes for various Verotoxins reported, that is, VT1 (or SLT-I), VT2 (or SLT-II), VT2vha, VT2vhb, SLT-IIv (or VT2vp1, VTe) and SLT-IIva (or VT2vp2). A total of 80 Verocytotoxin-producing Escherichia coli strains isolated from humans, domestic animals and meats gave a positive result by PCR with the designed common primers. Digestion by restriction endonucleases BglII and EcoT14I of the amplicon of the VT2vp2 gene gave specific bands of the expected sizes, but not of the amplicons of other VT genes, suggesting a possible method for identification of the VT2vp2 gene. Application of the PCR with the designed primers in diagnostic and epidemiological studies on VTEC infection is also discussed.     

Diagnosis of Shiga toxin producing Escherichia coli infection, contribution of genetic amplification technique

There has been no culture method of choice for detecting non-O157 Shiga toxin-producing Escherichia coli strains (STEC) because of their biochemical diversity The aim of this study was the assessment of verotoxin gene detection (VT1/VT2) within STEC PCR compared with the Vero cells cytotoxicity among O157 and non-O157 STEC serotypes. Stool cultures were performed on Tryptic Soy Broth and sorbitol MacConkey agar with cefixitime and tellurite supplements which were identified as Escherichia coli (E. coli) by BBL crystal. Further identifications were performed including verotoxin production assessment by Vero cells cytotoxicity assay, PCR for specific VT1/VT2 genotyping, and isolates were plated on blood agar and tested for enterohemolysis. Vero cells cytotoxicity assay revealed that 58 of E. coli isolates (71.6%) were STEC. In PCR, 33 (56.9%) of the 58 strains were positive for the VT2 gene, 24 (41.4%) were positive for the VT1 gene and one isolate was positive for both genes. In comparison to Vero cells cytotoxicity, the sensitivity, specificity of PCR were 100%. In comparative study between verotoxin assessment by Vero cells cytotoxicity and enterohemolytic activity, concordance positive results between both were 53 (91.4%). The most common serogroups of STEC were O157 (33%) and O26 (20%). From this study we can conclude that enterohemolysin production can be used as surrogate marker for STEC. The most rapid and promising approach for detection of STEC is by molecular method.     

Detection of Escherichia coli serogroups O26, O103, O111 and O145 from bovine faeces using immunomagnetic separation and PCR/DNA probe techniques

AIMS: The aim of this study was to isolate Escherichia coli O26, O103, O111 and O145 from 745 samples of bovine faeces using (i) immunomagnetic separation (IMS) beads coated with antibodies to lipopolysaccharide, and slide agglutination (SA) tests and (ii) PCR and DNA probes for the detection of the Verocytotoxin (VT) genes. METHODS AND RESULTS: IMS-SA tests detected 132 isolates of presumptive E. coli O26, 112 (85%) were confirmed as serogroup O26 and 102 had the VT genes. One hundred and twenty-two strains of presumptive E. coli O103 were isolated by IMS-SA, 45 (37%) were confirmed as serogroup O103 but only one of these strains was identified as Verocytotoxin-producing E. coli (VTEC). Using the PCR/DNA probe method, 40 strains of VTEC O26 and three strains of VTEC O103 were isolated. IMS-SA identified 21 strains of presumptive E. coli O145, of which only four (19%) were confirmed as serogroup O145. VTEC of this serogroup was not detected by either IMS-SA or PCR/DNA probes. E. coli O111 was not isolated by either method. CONCLUSION: IMS beads were 2.5 times more sensitive than PCR/DNA probe methods for the detection of VTEC O26 in bovine faeces. SIGNIFICANCE AND IMPACT OF THE STUDY: IMS-SA is a sensitive method for detecting specific E. coli serogroups. However, the specificity of this method would be enhanced by the introduction of selective media and the use of tube agglutination tests for confirmation of the preliminary SA results.     

Frankia genus-specific characterization by polymerase chain reaction.

The polymerase chain reaction (PCR) is an in vitro procedure for primer-directed enzymatic amplification of specific template nucleic acid sequences. In order to determine whether a given actinomycete isolated from an actinorhiza (nodule) belongs to the genus Frankia or is a contaminant, we have developed a test based on the PCR. Primers complementary to sequences of two DNA regions corresponding to the nif genes (nifH and nifD) and the rRNA genes (16S and 23S) were specifically chosen to differentially amplify DNAs from Frankia strains but not those from other microorganisms. A series of positive and negative controls were set up by using universal or selective primers resulting in a discriminant amplification, which could be detected after agarose gel electrophoresis. In the nif region, degenerate oligonucleotide primers were used to amplify a target common to all the nitrogen-fixing microorganisms tested, while another set of primers amplified a target with a high specificity for Frankia strains. In the rRNA gene region, universal and specific primers were characterized and tested with DNAs from a wide range of microorganisms. The efficiency of this rapid and sensitive PCR assay was tested with an isolate obtained from Alnus nepalensis nodules, confirming results obtained by nodulation tests.     

Frankia genus-specific characterization by polymerase chain reaction.

The polymerase chain reaction (PCR) is an in vitro procedure for primer-directed enzymatic amplification of specific template nucleic acid sequences. In order to determine whether a given actinomycete isolated from an actinorhiza (nodule) belongs to the genus Frankia or is a contaminant, we have developed a test based on the PCR. Primers complementary to sequences of two DNA regions corresponding to the nif genes (nifH and nifD) and the rRNA genes (16S and 23S) were specifically chosen to differentially amplify DNAs from Frankia strains but not those from other microorganisms. A series of positive and negative controls were set up by using universal or selective primers resulting in a discriminant amplification, which could be detected after agarose gel electrophoresis. In the nif region, degenerate oligonucleotide primers were used to amplify a target common to all the nitrogen-fixing microorganisms tested, while another set of primers amplified a target with a high specificity for Frankia strains. In the rRNA gene region, universal and specific primers were characterized and tested with DNAs from a wide range of microorganisms. The efficiency of this rapid and sensitive PCR assay was tested with an isolate obtained from Alnus nepalensis nodules, confirming results obtained by nodulation tests.     

An eight-month study of a population of verocytotoxigenic Escherichia coli (VTEC) in a Scottish cattle herd

AIMS: Strains of Verocytotoxin-producing Escherichia coli (VTEC) from Scottish beef cattle on the same farm were isolated during four visits over a period of eight months. Characteristics of these strains were examined to allow comparisons with strains of VTEC associated with human infection. METHODS AND RESULTS: Strains were characterized to investigate the relationship between these bovine isolates with respect to serotype, Verocytotoxin (VT) type, intimin-type, and presence or absence of the enterohaemolysin genes. VT genes were detected in 176 of 710 (25%) faecal samples tested using PCR, although only 94 (13%) VTEC strains were isolated using DNA probes on cultures. Forty-five different serotypes were detected. Commonly isolated serotypes included O128ab:H8, O26:H11 and O113:H21. VTEC O26:H11 and O113:H21 have been associated with human disease. Strains harbouring the VT2 genes were most frequently isolated during the first three visits to the farm and those with both VT1 and VT2 genes were the major type during the final visit. Of the 94 strains of non-O157 VTEC isolated, 16 (17%) had the intimin gene; nine had the gene encoding beta-intimin and seven strains had an eta/zeta-intimin gene. Forty-one (44%) of 94 strains carried enterohaemolysin genes. CONCLUSIONS: Different serotypes and certain transmissible characteristics, such as VT-type and the enterohaemolysin phenotype, appeared to be common throughout the VTEC population at different times. SIGNIFICANCE AND IMPACT OF THE STUDY: Detailed typing and subtyping strains of VTEC as described in this study may improve our understanding of the relationship between bovine VTEC and those found in the human population.     

PCR amplification on a microarray of gel-immobilized oligonucleotides: detection of bacterial toxin- and drug-resistant genes and their mutations

PCR amplification on a microarray of gel-immobilized primers (microchip) has been developed. One of a pair of PCR primers was immobilized inside a separate microchip polyacrylamide porous gel pad of 0.1 x 0.1 x 0.02 (or 0.04) micron in size and 0.2 (or 0.4) nL in volume. The amplification was carried out simultaneously both in solution covering the microchip array and inside gel pads. Each gel pad contained the immobilized forward primers, while the fluorescently labeled reverse primers, as well as all components of the amplification reaction, diffused into the gel pads from the solution. To increase the amplification efficiency, the forward primers were also added into the solution. The kinetics of amplification was measured in real time in parallel for all gel pads with a fluorescent microscope equipped with a charge-coupled device (CCD) camera. The accuracy of the amplification was assessed by using the melting curves obtained for the duplexes formed by the labeled amplification product and the gel-immobilized primers during the amplification process; alternatively, the duplexes were produced by hybridization of the extended immobilized primers with labeled oligonucleotide probes. The on-chip amplification was applied to detect the anthrax toxin genes and the plasmid-borne beta-lactamase gene responsible for bacterial ampicillin resistance. The allele-specific type of PCR amplification was used to identify the Shiga toxin gene and discriminate it from the Shiga-like one. The genomic mutations responsible for rifampicin resistance of the Mycobacterium tuberculosis strains were detected by the same type of PCR amplification of the rpoB gene fragment isolated from sputum of tuberculosis patients. The on-chip PCR amplification has been shown to be a rapid, inexpensive and powerful tool to test genes responsible for bacterial toxin production and drug resistance, as well as to reveal point nucleotide mutations.     

Detection and typing of Helicobacter pylori cagA/vacA genes by radioactive,one-step polymerase chain reaction in stool samples from children

The detection and molecular typing of Helicobacter pylori virulence genes in human stool specimens by polymerase chain reaction (PCR) require an adequate amount of bacterial DNA and an appropriately adjusted PCR protocol. DNA was isolated from stool samples of 39 H. pylori-infected and nine uninfected Colombian children using the QIAamp Kit following the manufacturer's instructions but with modifications. DNA templates were amplified for the vacA s and m regions and for the cagA gene by PCR using radioactively labeled (32P) primers. The modifications in the standard Qiagen protocol of stool DNA extraction increased the final concentration of eluted total stool DNA 4.7 times (117 +/- 17 versus 22 +/- 3 ng/microl; P < 0.0001). Nevertheless, its amplification by regular PCR programs (30-40 cycles) did not generate visible signals because of the very low ratio of H. pylori DNA to other DNA. PCR for 80 cycles successfully amplified vacA in 36/39 samples (sensitivity, 92.3%) and cagA fragments in 21/39 (53.8%) fecal DNA samples. Both s and m vacA regions were amplified in 33/36 (91.7%) DNA samples. The s1m1 genotype was the most commonly isolated variant, accounting for 17/36 or 47.2% of positive samples. The s2m2 genotype was ascertained to be frequent also (14/36 or 38.9%). Almost all (94.1%) s1m1 genotypes were cagA positive. The majority of s2m2 genotypes (78.6%) were not associated with the cagA gene. Neither cagA nor vacA fragments were amplified from DNA isolates of H. pylori-uninfected children nor from DNA isolated from six gastrointestinal bacterial strains (specificity, 100%). The data suggest that the proposed modified technique of DNA extraction and PCR assay of stool samples may be an effective and reliable noninvasive tool for the detection and typing of H. pylori cagA/vacA virulence genes in infected individuals.     

Distribution of Vibrio cholerae virulence genes among different Vibrio species isolated in Sardinia, Italy

The members of the genus Vibrio include harmless aquatic strains as well as strains capable of causing epidemics of cholera. Diarrhoea caused by Vibrio cholerae is attributed to cholerae enterotoxin (CT) codified by the ctx operon and regulated by a number of virulence genes such as toxT, toxR and toxS. Fifty-two Vibrio strains were isolated from different aquatic environments in and around Sardinia and searched by PCR for the presence of ctxA, zot, ace, toxR, toxS, toxT, tcpA and vpi virulence genes in the genomes of the isolates. The toxR operon was found in 27 Vibrio alginolyticus strains out of 42 analysed, in three out of four V. cholerae non-O1 strains and in three Vibrio parahaemolyticus isolates. A positive amplification for the virulence pathogenic island (vpi) was produced by five V. alginolyticus strains. Finally, the ace expected amplification fragment was found in two V. alginolyticus isolates whereas the amplification with zot primers produced the expected fragment in one V. alginolyticus isolate. Differentiation of these strains with a PCR fingerprinting technique revealed no association between the presence of virulence genes and a particular fingerprinting pattern. Although most Vibrio species are considered non-pathogenic or only potentially harmful to humans, the finding of V. cholerae virulence genes in other members of the genus Vibrio, and the recent reports of the creation and evolution of pandemic strains of V. cholerae, may give a new perspective to the significance of these results.     

Genetic and phenotypic diversity of carbofuran-degrading bacteria isolated from agricultural soils

Thirty-seven carbofuran-degrading bacteria were isolated from agricultural soils, and their genetic and phenotypic characteristics were investigated. The isolates were able to utilize carbofuran as a sole source of carbon and energy. Analysis of the 16S rRNA gene sequence indicated that the isolates were related to members of the genera Rhodococcus, Sphingomonas, and Sphingobium, including new types of carbofuran-degrading bacteria, Bosea and Microbacterium. Among the 37 isolates, 15 different chromosomal DNA patterns were obtained by polymerase chain reaction (PCR) amplification of repetitive extragenic palindromic (REP) sequences. Five of the 15 representative isolates were able to degrade carbofuran phenol, fenoxycarb, and carbaryl, in addition to carbofuran. Ten of the 15 representative isolates had 1 to 8 plasmids. Among the 10 plasmid-containing isolates, plasmid-cured strains were obtained from 5 strains. The cured strains could not degrade carbofuran and other pesticides anymore, suggesting that the carbofuran degradative genes were on the plasmid DNAs in these strains. When analyzed with PCR amplification and dot-blot hybridization using the primers targeting for the previously reported carbofuran hydrolase gene (mcd), all of the isolates did not show any positive signals, suggesting that their carbofuran hydrolase genes had no significant sequence homology with the mcd gene.     

耐亚胺培南铜绿假单胞菌金属酶的筛选及基因型研究

目的研究重庆医科大学附属第一医院分离的29株耐亚胺培南铜绿假单胞菌中金属酶（Metallo-β-Lactamase,MBL）的基因型分布情况。方法用亚胺培南-EDTA纸片法筛选29株铜绿假单胞菌中产MBL的铜绿假单胞菌,用PCR扩增法检测29株菌中金属酶VIM和IMP基因。结果29株耐亚胺培南的铜绿假单胞菌中,亚胺培南-EDTA纸片法筛选出MBL阳性菌株5株,阳性率为17％。PCR扩增出IMP基因型有4株,阳性率为14％,均为金属酶IMP-9型,未扩增出VIM基因。以PCR法结果为判定标准,亚胺培南-EDTA纸片法敏感性100％,特异性96％。结论IMP-9型为该院分离的这29株耐亚胺培南的铜绿假单胞菌中主要MBL基因型。本实验中所用的亚胺培南一EDTA纸片法能简单有效的筛选出产MBL的铜绿假单胞菌。     

Evaluation of PCR methods for 5S-rDNA and p30 genes to detect Toxoplasma gondii in blood and other clinical samples

During the last few years the direct diagnosis of Toxoplasma gondii infection has taken advantage of PCR. The present work tested the sensitivity and specificity of PCR for rDNA and p30 genes. Using ascitic fluid from infected mice rDNA PCR detected 0.5 tachyzoite/ml, while nested p30 PCR 1 tachyzoite/ml. The rDNA amplification was positive in all clinical samples from a single immuno compromised patient (blood, urine and bronchoalveolar fluid). In the same patient nested p30 PCR was positive only in urine and bronchoalveolar lavage (BAL) fluid. The rDNA and p30 amplicons were never found in any amniotic fluids tested. These results could prove the usefulness of rDNA amplification to detect T. gondii in blood.     

Simple and rapid bioluminescent detection of two verotoxin genes using allele‐specific PCR of E. coli O157: H7

Allele‐specific PCR for E. coli O157 was conducted with primers specific to verotoxin genes, verotoxin 1 (VT1) and verotoxin 2 (VT2). VT is an important cause of haemorrhagic colitis (HC) and haemolytic uraemic syndrome (HUS) worldwide. We developed a simple, rapid bioluminescent detection method for E. coli O157. The method is based on the determination of pyrophosphoric acid (PPi) released during allele‐specific PCR. Thus, released PPi is converted to ATP by ATP sulphurylase and the concentration of ATP is determined using the firefly luciferase reaction. As a result, VT1, VT2 and DNA with VT1/VT2 were clearly identified by this method. This protocol, which does not require expensive equipment, can be utilized to monitor the PCR product rapidly. Additionally, this methodology can be used as a high‐throughput approach for measuring PCR products. Copyright © 2003 John Wiley & Sons, Ltd.     

Cloning and Sequencing of the Histidine Decarboxylase Genes of Gram-Negative, Histamine-Producing Bacteria and Their Application in Detection and Identification of These Organisms in Fish

The use of molecular tools for early and rapid detection of gram-negative histamine-producing bacteria is important for preventing the accumulation of histamine in fish products. To date, no molecular detection or identification system for gram-negative histamine-producing bacteria has been developed. A molecular method that allows the rapid detection of gram-negative histamine producers by PCR and simultaneous differentiation by single-strand conformation polymorphism (SSCP) analysis using the amplification product of the histidine decarboxylase genes (hdc) was developed. A collection of 37 strains of histamine-producing bacteria (8 reference strains from culture collections and 29 isolates from fish) and 470 strains of non-histamine-producing bacteria isolated from fish were tested. Histamine production of bacteria was determined by paper chromatography and confirmed by high-performance liquid chromatography. Among 37 strains of histamine-producing bacteria, all histidine-decarboxylating gram-negative bacteria produced a PCR product, except for a strain of Citrobacter braakii. In contrast, none of the non-histamine-producing strains (470 strains) produced an amplification product. Specificity of the amplification was further confirmed by sequencing the 0.7-kbp amplification product. A phylogenetic tree of the isolates constructed using newly determined sequences of partial hdc was similar to the phylogenetic tree generated from 16S ribosomal DNA sequences. Histamine accumulation occurred when PCR amplification of hdc was positive in all of fish samples tested and the presence of powerful histamine producers was confirmed by subsequent SSCP identification. The potential application of the PCR-SSCP method as a rapid monitoring tool is discussed.     

Cloning and sequencing of the histidine decarboxylase genes of gram-negative,histamine-producing bacteria and their application in detection and identification of these organisms in fish

The use of molecular tools for early and rapid detection of gram-negative histamine-producing bacteria is important for preventing the accumulation of histamine in fish products. To date, no molecular detection or identification system for gram-negative histamine-producing bacteria has been developed. A molecular method that allows the rapid detection of gram-negative histamine producers by PCR and simultaneous differentiation by single-strand conformation polymorphism (SSCP) analysis using the amplification product of the histidine decarboxylase genes (hdc) was developed. A collection of 37 strains of histamine-producing bacteria (8 reference strains from culture collections and 29 isolates from fish) and 470 strains of non-histamine-producing bacteria isolated from fish were tested. Histamine production of bacteria was determined by paper chromatography and confirmed by high-performance liquid chromatography. Among 37 strains of histamine-producing bacteria, all histidine-decarboxylating gram-negative bacteria produced a PCR product, except for a strain of Citrobacter braakii. In contrast, none of the non-histamine-producing strains (470 strains) produced an amplification product. Specificity of the amplification was further confirmed by sequencing the 0.7-kbp amplification product. A phylogenetic tree of the isolates constructed using newly determined sequences of partial hdc was similar to the phylogenetic tree generated from 16S ribosomal DNA sequences. Histamine accumulation occurred when PCR amplification of hdc was positive in all of fish samples tested and the presence of powerful histamine producers was confirmed by subsequent SSCP identification. The potential application of the PCR-SSCP method as a rapid monitoring tool is discussed.     

PCR和分离培养同时检测儿童呼吸道感染的支原体

为了解广州市儿童呼吸道支原体感染情况,用一条共同的上游引物,二条特异性的下游引物建立的ＰＣＲ方法能同时扩增ＭＰ的６９１ｂｐ和ＭＧ的４３８ｂｐ粘附因子基因片段,但不会扩增其他支原体和细菌的ＤＮＡ。     

Isolation of the 5′-End of Plant Genes from Genomic DNA by TATA-Box-Based Degenerate Primers

We report a rapid and simple method for isolating the 5′-end of plant genes from genomic DNA by polymerase chain reaction (PCR) with TATA-box-based degenerate primers (TDPs). The TDPs were specially designed according to the TATA box, which is conserved in the promoter region of most plant genes. The unknown 5′-ends of several genes in different plants were isolated by PCR with gene-specific primers of the known core fragment and the TDPs. Our method does not require the arduous RNA manipulations and expensive enzyme treatments of the popular rapid amplification of cDNA ends (RACE) and its variants, and so could be a cheap practical alternative.     

Reverse transcription-PCR assay to verify gene integrity within plasmid constructs for plant transformation

We have developed a rapid and simple RT-PCR based method to check the integrity of chimeric genes within plasmid constructs for plant transformation. It exploits the Agrobacterium tumefaciens-mediated transient expression of plasmid constructs in plant tissue. Total RNA was isolated from tobacco leaves co-cultivated for 3 days with Agrobacterium tumefaciens harbouring the plant transformation vectors constructed in our laboratory. First strand cDNA synthesis with oligo(dT) primers generate a pool of cDNA that was used for PCR amplification with primers specific for each of the genes present within the constructs. PCR amplification reactions were successful for all chimeric genes tested, thus confirming their intactness and suitability to be used for stable plant transformation.