Multiplex real-time PCR for exhaustive detection of diarrhoeagenic Escherichia coli

Aims:  The source and routes of diarrhoeagenic Escherichia coli (DEC) have not been clarified because it is difficult to detect these organisms in samples with numerous coliform bacteria. We have developed multiplex real-time PCR assays for exhaustive detection of DEC.
Methods and Results:  Primers and TaqMan probes were designed to amplify and quantify one gene ( eae , stx1 , stx2 , elt , est , virB , aggR , astA, and afaB ) from each of seven pathotypes of DEC, in duplex or triplex reactions under the same PCR cycling conditions. Specificity was confirmed using 860 strains including 88 DEC strains. The fluorescence threshold cycle and DNA concentrations correlated with decision coefficients of more than 0·99. Subsequently, meat samples and enrichment broths were spiked with DEC and the assays used to detect the genes. The detection limits varied from 7·1 × 10² to 1·1 × 10⁴ CFU ml⁻¹, depending on the target genes. All meat samples spiked with a variety of DEC (more than 10 CFU 10 g⁻¹) were found to be positive by the method.
Conclusions:  The present system allows for the efficient and simultaneous determination of various DEC pathotypes.
Significance and Impact of the Study:  This system makes epidemiological investigations for DEC sensitive and quick, and is a useful tool to clarify the source and routes of DEC.     

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.     

Comparison of primers for the detection of pathogenic Escherichia coli using real-time PCR

AIMS: To evaluate PCR primers for the detection of pathogenic Escherichia coli in a real-time PCR assay and determine their utility in produce irrigation water testing. METHODS AND RESULTS: Three previously published PCR primer sets and one set designed for this study were tested for their ability to produce amplification products for several pathogenic E. coli serotypes from whole cells as template. Two of the previously published primer sets were chosen for real-time PCR detection limit determination. The coneaeA and PEH detection limit of E. coli O157:H7 was 10(0) and 10(1) CFU rxn(-1) in sterile water respectively. To detect E. coli O157:H7 in sprout irrigation water, the water required dilution due to PCR inhibitors. The detection limit of the coneaeA and PEH was 10(1) and between 10(2) and 10(3) CFU rxn(-1) in diluted sprout irrigation water respectively. CONCLUSIONS: The primer set coneaeA was able to produce an amplification product from each E. coli serotype, except O128:H7 and most sensitive for real-time PCR detection of pathogenic E. coli in diluted sprout irrigation water. SIGNIFICANCE AND IMPACT OF THE STUDY: The necessity of a dissociation analysis to distinguish positive samples from those with fluorescence of random dsDNA generation for real-time PCR in a complex background was established.     

A dynamic model for determining the middle of Escherichia coli.

Proper placement of the division septum is an essential part of bacterial cell division. In Escherichia coli, this process depends crucially on the proteins MinC, MinD, and MinE. The detailed mechanism by which these proteins determine the correct position of the division plane is currently unknown, but observed pole-to-pole oscillations of the corresponding distributions are thought to be of functional importance. Here, a theoretical approach toward an explanation of this dynamical behavior is reported. Emphasizing generic properties of the protein dynamics, two features are found to be sufficient for generating oscillations: first, a tendency of membrane bound MinD to cluster; and second, attachment to and detachment from the cell wall, which depends on the amount of molecules already attached. The model is in qualitative agreement with the presently existing experimental results and further tests of the underlying model assumptions are suggested. Finally, based on the analysis of the model a simple mechanism is proposed on how these proteins might initiate septal growth. In addition, to ensure correct positioning of the septum, the MinCDE complex could therefore also play an important role in cell cycle control.     

Development of a set of multiplex PCR assays for the simultaneous identification of enterotoxigenic, enteropathogenic, enterohemorrhagic and enteroinvasive Escherichia coli

Diarrheagenic E. coli comprise a diverse group of microorganisms responsible for gastrointestinal diseases in humans. On the basis of their virulence traits they are distinguished from the non-pathogenic E. coli and classified in several categories. Molecular methods represent the most reliable techniques for distinguishing pathogenic from non-pathogenic E. coli and characterising their pathogenic features. In this paper we report the development of a set of three multiplex PCR assays for the simultaneous and rapid identification of diarrheagenic E. coli belonging to ETEC, EPEC, EHEC and EIEC groups. Assay 1 utilizes primer pairs specific for genes coding for ST and LT toxins of ETEC, and for the E. coli beta-glucuronidase (uidA); assay 2 detects the presence of the eae and bfpA genes of EPEC, and assay 3 recognizes stx1 and stx2 of EHEC, and ial of EIEC. This technique has been validated on 190 E. coli isolated in Angola, Italy and Mozambique from feces of children with diarrhea. Results obtained with the set of multiplex PCR demonstrated 100% accordance with those obtained for the same isolates by PCR on single target genes. The proposed set of multiplex PCRs is the first reported assay that allows the simultaneous characterization of the four categories of diarrheagenic E. coli.     

WSSV和IHHNV二重实时荧光PCR检测方法的建立

根据基因库中对虾白斑综合征病毒WSSV(AF369029)和传染性皮下及造血器官坏死病毒IHHNV(AF218226)基因序列,设计了WSSV和IHHNV的两对特异性引物和两条用不同荧光基团标记的TaqMan探针。对反应条件和试剂浓度进行优化,建立了能够同时检测WSSV和IHHNV的二重实时荧光PCR方法。该方法特异性好,对WSSV和IHHNV的检测敏感性分别达到2和20个模板拷贝数;此外抗干扰能力强,对WSSV和IHHNV不同模板浓度进行组合,仍可有效地同时检测这二个病毒。对保存的30份经常规PCR检测仅为WSSV或IHHNV阳性的样品进行二重实时荧光PCR检测,结果都为阳性,其中1份为WSSV和IHHNV混合感染。本研究建立的二重实时荧光PCR方法用于WSSV和IHHNV的检测具有特异、敏感、快速、定量等优点。     

A new cell for microspectrophotometry and its use in studying tRNA-Leu-CUG from Escherichia coli

tRNA_CUG^Leu is believed not to contain 4-thiouridine, but its absorption spectrum contains a peak at 338 nm of magnitude about 1% of A₂₆₀. This has been verified by carrying out serial dilutions of dissolved crystalline material, using a microspectrophotometer with a new cell requiring only 1.5 μl for a path length of 3 mm. Crystallizable tRNA^Phe and tRNA_GUA.G^Val show normal 4-thiouridine peaks of magnitude 2% of A₂₆₀, so the anomalous spectrum seems unlikely to be an artefact of the isolation procedure used for all three species.     

Evaluation of novel fluorogenic substrates for the detection of glycosidases in Escherichia coli and enterococci

AIMS: Enzyme substrates based on 4-methylumbelliferone are widely used for the detection of Escherichia coli and enterococci in water, by detection of beta-glucuronidase and beta-glucosidase activity respectively. This study aimed to synthesize and evaluate novel umbelliferone-based substrates with improved sensitivity for these two enzymes. METHODS AND RESULTS: A novel beta-glucuronide derivative based on 6-chloro-4-methylumbelliferone (CMUG) was synthesized and compared with 4-methylumbelliferyl-beta-D-glucuronide (MUG) using 42 strains of E. coli in a modified membrane lauryl sulfate broth. Over 7 h of incubation, the fluorescence generated from the hydrolysis of CMUG by E. coli was over twice that from MUG, and all of the 38 glucuronidase-positive strains generated a higher fluorescence with CMUG compared with MUG. Neither substrate caused inhibition of bacterial growth in any of the tested strains. Four beta-glucosidase substrates were also synthesized and evaluated in comparison with 4-methylumbelliferyl-beta-D-glucoside (MU-GLU) using 42 strains of enterococci in glucose azide broth. The four substrates comprised beta-glucoside derivatives of umbelliferone-3-carboxylic acid and its methyl, ethyl and benzyl esters. Glucosides of the methyl, ethyl and benzyl esters of umbelliferone-3-carboxylic acid, were found to be superior to MU-GLU for the detection of enterococci, especially after 18 h of incubation, while umbelliferone-3-carboxylic acid-beta-D-glucoside was inferior. However, the variability in detectable beta-glucosidase activity among the different strains of enterococci in short-term assays using the three carboxylate esters (7 h incubation) may compromise their use for rapid detection and enumeration of these faecal indicator bacteria. CONCLUSIONS: The beta-glucuronidase substrate CMUG appears to be a more promising detection system than the various beta-glucosidase substrates tested. SIGNIFICANCE AND IMPACT OF THE STUDY: The novel substrate CMUG showed enhanced sensitivity for the detection of beta-glucuronidase-producing bacteria such as E. coli, with a clear potential for application in rapid assays for the detection of this indicator organism in natural water and other environmental samples.     

A novel multiplex real-time PCR for the identification of mycobacteria associated with zoonotic tuberculosis

Background

Tuberculosis (TB) is the leading cause of death worldwide from a single infectious agent. An ability to detect the Mycobacterium tuberculosis complex (MTC) in clinical material while simultaneously differentiating its members is considered important. This allows for the gathering of epidemiological information pertaining to the prevalence, transmission and geographical distribution of the MTC, including those MTC members associated with zoonotic TB infection in humans. Also differentiating between members of the MTC provides the clinician with inherent MTC specific drug susceptibility profiles to guide appropriate chemotherapy.

Methodology/Principal Findings

The aim of this study was to develop a multiplex real-time PCR assay using novel molecular targets to identify and differentiate between the phylogenetically closely related M. bovis, M. bovis BCG and M. caprae. The lpqT gene was explored for the collective identification of M. bovis, M. bovis BCG and M. caprae, the lepA gene was targeted for the specific identification of M. caprae and a Region of Difference 1 (RD1) assay was incorporated in the test to differentiate M. bovis BCG. The multiplex real-time PCR assay was evaluated on 133 bacterial strains and was determined to be 100% specific for the members of the MTC targeted.

Conclusions/Significance

The multiplex real-time PCR assay developed in this study is the first assay described for the identification and simultaneous differentiation of M. bovis, M. bovis BCG and M. caprae in one internally controlled reaction. Future validation of this multiplex assay should demonstrate its potential in the rapid and accurate diagnosis of TB caused by these three mycobacteria. Furthermore, the developed assay may be used in conjunction with a recently described multiplex real-time PCR assay for identification of the MTC and simultaneous differentiation of M. tuberculosis, M. canettii resulting in an ability to differentiate five of the eight members of the MTC.     

Evidence for convergent evolution of CTX-M-14 ESBL in Escherichia coli and its prevalence

A total of 2440 Escherichia coli strains isolated in 2003 at the Hospital de la Santa Creu i Sant Pau were evaluated for the presence of extended-spectrum beta-lactamases. Two different nucleotide sequences that encode the same beta-lactamase, CTX-M-14, were detected when the bla(CTX-M-14)-genes of 35 E. coli isolates were analysed. Thirty-two of the 35 had the previously described sequence of the bla(CTX-M-14) (AF252622), named bla(CTX-M-14a), and the remaining three isolates showed a nucleotide sequence identical to that of the bla(CTX-M-9) gene except for one nucleotide, named bla(CTX-M-14b). Characterisation of the regions surrounding the bla(CTX-M-14a) showed the ISEcp1 and the IS903 upstream and downstream, respectively, of the bla gene, whereas the regions surrounding the bla(CTX-M-14b) contained the genetic environment described for the bla(CTX-M-9) gene, the In60. Characterisation by hybridisation showed that the bla(CTX-M-14a) was present in IncK plasmids, whereas the bla(CTX-M-14b) was found in the HI2 Inc group. The CTX-M-14 ESBL in E. coli isolates is the result of the convergence of two different genes.     

Indoxyl-beta-D-glucuronide, a novel chromogenic reagent for the specific detection and enumeration of Escherichia coli in environmental samples

About 97% of Escherichia coli strains produce beta-glucuronidase, but almost all other Enterobacteriaceae lack this enzyme. A D-glucopyranosiduronic acid (glucuronide) possessing a readily detectable beta-linked aglycone should, therefore, constitute a specific reagent for the detection of this organism. For this purpose, the title compound has been synthesized for the first time. The synthesis proceeds in eight steps from readily available D-glucuronolactone, anthranilic acid, and chloroacetic acid and can be carried out on a large scale. The compound has the predicted properties: when included in the standard membrane filter test for the analysis of water, indoxyl-beta-D-glucuronide allows specific detection of E. coli through the formation of blue colonies that are the result of rapid conversion of the liberated aglycone to indigo. The recovery of E. coli is easily measured and almost quantitative.     

Duplex real-time PCR detection of type III effector tccP and tccP2 genes in pathogenic Escherichia coli and prevalence in raw milk cheeses

Aims: To develop a duplex real‐time PCR assay targeting enterohaemorrhagic Escherichia coli (EHEC) type III effector TccP/TccP2‐encoding genes which are pivotal to EHEC‐mediated actin cytoskeleton reorganization in human intestinal epithelial cells. Methods and Results: The specificity of the assay was demonstrated with DNA from EHEC reference strains and non‐E. coli bacterial species. The detection limit was determined as five tccP or tccP2 copies per reaction. The assay was then evaluated on a large collection of 526 E. coli strains of human, animal, food and environmental origins. The results showed that tccP was restricted to a limited number of serotypes (i.e. O5:H^?, O55:H7, O125:H6 and O157:H7). The tccP2 gene was present in a higher number of serotypes including the five most frequent EHEC serotypes (i.e. O26:H11, O103:H2, O111:H8, O145:H28 and O157:H7), and a few other serotypes that caused human infections (i.e. O4:H^?, O45:H2 and O55:H7). A minority of O26:H11 and O103:H2 strains however tested negative for tccP2, though it is not known whether the lack of tccP2 affected their pathogenic potential. Real‐time PCR analysis of 400 raw milk cheeses revealed the presence of tccP and/or tccP2 genes in 19·75% of the cheese enrichment suspensions. Conclusions: A highly specific and sensitive duplex real‐time PCR method was developed for rapid and simultaneous detection of tccP and tccP2. Unpasteurized dairy products may be contaminated with E. coli strains carrying tccP and/or tccP2. Significance and Impact of the Study: The developed real‐time PCR assay represents a valuable alternative to conventional PCR tests and should be useful for characterization of the virulome of pathogenic E. coli strains.     

A quantitative real-time PCR assay for the detection of tetR of Tn10 in Escherichia coli using SYBR Green and the Opticon

Bacteria of implant infections are extremely resistant to antibiotics. One reason for this antibiotic resistance are transposons; the well-known transposon Tn10, for example, mediates tetracycline resistance to Escherichia coli. Two genes of Tn10, tetA and tetR, are essential for the mechanism of resistance. These genes encode a drug-specific efflux protein and a tetracycline repressor protein, respectively. Tn10 is also widely used in molecular biology. For example, tTA, a recombinant derivate of tetR, has been utilised for a highly efficient gene regulation system in mammalian cells. We have examined E. coli isolates from implant infections for tetracycline resistance and for the presence of tetR. A real-time PCR assay was developed for detection of tetR with SybrGreen using the Opticon PCR machine of MJ Research. This method offers a quick, sensitive, efficient, and reliable approach to the detection and quantification of genes. Clinical isolates of E. coli were examined successfully for tetracycline resistance and for the presence of tetR. The real-time PCR is effective using a variety of templates including isolated E. coli DNA, pure colonies, or liquid culture sources. Using quantified standard DNA, this assay can accurately detect as few as 15 copies. Moreover, this assay has the ability to quantify the number of tetR genes in the presence of contaminating mammalian DNA. In conclusion, the tetR real-time PCR offers new methods for detection and quantification of tetracycline-resistant bacteria and tTA in transfected cell-lines or transgenic animals.     

Rapid and sensitive detection of Escherichia coli O157:H7 in bovine faeces by a multiplex PCR

Cattle are considered the major reservoir for Escherichia coli O157:H7, one of the newly emerged foodborne human pathogens of animal origin and a leading cause of haemorrhagic colitis in humans. A sensitive test that can accurately and rapidly detect the organism in the food animal production environment is critically needed to monitor the emergence, transmission, and colonization of this pathogen in the animal reservoir. In this study, a novel multiplex polymerase chain reaction (PCR) assay was developed by using 5 sets of primers that specifically amplify segments of the eaeA, slt-I, slt-II, fliC, rfbE genes, which allowed simultaneous identification of serotype O157:H7 and its virulence factors in a single reaction. Analysis of 82 E. coli strains (49 O157:H7 and 33 non-O157:H7) demonstrated that this PCR system successfully distinguished serotype O157:H7 from other serotypes of E. coli and provided accurate profiling of the shiga-like toxins and the intimin adhesin in individual strains. This multiplex PCR assay did not cross-react with the background bacterial flora in bovine faeces and could detect a single O157:H7 organism per gram of faeces when combined with an enrichment step. Together, these results indicate that the multiplex PCR assay can be used for specific identification and profiling of E. coli O157:H7 isolates, and may be applied to rapid and sensitive detection of E. coli O157:H7 in bovine faeces when combined with an enrichment step.     

Choice of a method for determining the sensitivity of Escherichia coli to silver

Different methods (methods of discs, of stamps and of minimal inhibitory concentration determination) aimed to determine the Escherichia coli sensitivity to the action of silver on the nutrient media are studied. It is shown possible to use the method of stamps for preliminary estimation under extensive tests. It is established that the data obtained by these methods correlate between themselves with a high degree of trustworthiness and do not correlate with those data obtained in the studies of the antimicrobic action of silver in water.