Universal primer PCR with DGGE for rapid detection of bacterial pathogens

A universal primer PCR (UPPCR) combined with denaturing gradient gel electrophoresis (DGGE) was evaluated as a method permitting the rapid detection of pathogens. The results show that this method is efficient at amplifying the conserved regions of bacterial 16S rRNA genes with universal primers and can detect causative bacterial pathogens rapidly. Six species of bacteria from fisheries (Pseudomonas fluorescens, Vibrio anguillarum, Aeromonas hydrophila, Vibrio fluvialis, Providencia rettgeri and Aeromonas sobria) were examined. Our results indicate that the approach we undertook can be adopted not only for axenic bacterial populations but also for mixed communities as well. Furthermore, we were able to achieve the rapid detection of multiple bacteria a single in sample. In addition, UPPCR-DGGE was shown to be better than previously reported UPPCR-single-stranded conformation polymorphism (SSCP)-based methods for the rapid detection of bacterial pathogens.     

Multiplex PCR assay for detection of four major bacterial pathogens causing rainbow trout disease

A multiplex PCR (mPCR) method was designed for the simultaneous detection of 4 major fish pathogens, Flavobacterium psychrophilum, Lactococcus garvieae, Pseudomonas aeruginosa, and P. putida. Each of the 4 pairs of oligonucleotide primers exclusively amplified the 16S rDNA gene of their targeted microorganism. The average detection limits for each organism amplified by mPCR were 2 colony-forming units (CFU) of F. psychrophilum, 3 CFU of L. garvieae, 3 CFU of P. aeruginosa, and 5 CFU of P. putida in mixed cultures. Multiplex PCR did not produce any nonspecific amplification products when tested against 28 related species of bacteria. High amounts of DNA from 1 bacterial species had a significant effect on the amplification sensitivity of the other bacterial species when these were present in lower concentrations in the multiplex reaction. The mPCR assay proved useful for the detection of the bacteria in naturally infected fish. The assay is a sensitive, specific, and reproducible diagnostic tool for the simultaneous detection of 4 pathogenic bacteria that cause disease in fish and offers a potentially useful alternative to the conventional culture-based method.     

Universal PCR primers for detection of phytopathogenic Agrobacterium strains.

Two PCR primer pairs, based on the virD2 and ipt genes, detected a wide variety of pathogenic Agrobacterium strains. The endonuclease domain of VirD2 protein, which cleaves transferred DNA (T-DNA) border sequences, is highly conserved; primer oligonucleotides specific for the endonuclease portion of virD2 detected all pathogenic strains of Agrobacterium tested. PCR primers corresponding to conserved sequences in ipt, the T-DNA-borne cytokinin synthesis gene, detected only Agrobacterium tumefaciens and distinguished it from Agrobacterium rhizogenes. The virD2 and ipt primer pairs did not interfere with each other when included in the same PCR amplification, and this permitted simultaneous detection of both genes in a single reaction. One nonpathogenic Agrobacterium radiobacter strain contained virD2 but not ipt; we speculate that this strain arose from a pathogenic progenitor through a deletion in the T-DNA. The virD2 primer pair appears to be universal for all pathogenic Agrobacterium species; used together, the primer sets reported here should allow unambiguous identification of Ti plasmid DNA in bacteria isolated from soil and plants.     

Universal ProbeLibrary based real-time PCR for rapid detection of bacterial pathogens from positive blood culture bottles

A set of real-time PCR based assays using the locked nucleic acid probes from Roche Universal ProbeLibrary were developed for rapid detection of eight bacterial species from positive blood culture bottles. Four duplex real-time PCR reactions targeting to one Gram-positive bacterium and one Gram-negative bacterium were optimized for species identification according to Gram stain results. We also included mecA-specific primers and probes in the assays to indicate the presence of methicillin resistance in the bacterial species. The analytical sensitivity was in the range of 1–10 CFU per PCR reaction mixture. The specificity and cross reactivity of the assay was validated by 28 ATCC reference strains and 77 negative blood culture specimens. No cross-reactivity was observed in these samples thus demonstrating 100 % specificity. 72 previously characterized clinical isolates were tested by the real-time PCR assay and validated the accuracy and feasibility of the real-time PCR assay. Furthermore, 55 positive blood culture samples were tested using real-time PCR and 50 (90.9 %) of them were identified as the same species as judged by biochemical analysis. In total, real-time PCR showed 98.2 % consistent to that of traditional methods. Real-time PCR can be used as a supplement for early detection of the frequently-occurred pathogens from the positive blood cultures.     

皮肤软组织感染病原菌分布及耐药性分析

目的 调查皮肤软组织感染病原菌的种类及耐药性,为临床合理使用抗菌药物提供科学依据.方法 利用WHONET 5.6对2009年1月至2011年12月皮肤软组织感染患者脓液或分泌物细菌培养及药敏试验结果进行回顾性分析.结果 共分离菌株444株,金黄色葡萄球菌(SAU)分离率居第1位,171株占38.5％;表皮葡萄球菌居第2位,54株占12.2％;铜绿假单胞菌第3位,43株占9.7％;头孢哌酮/舒巴坦、哌拉西林/他唑巴坦、阿米卡星、亚胺培南和美罗培南对革兰阴性杆菌有较好的抗菌活性(耐药率≤3.3％);金黄色葡萄球菌对青霉素和红霉素的耐药率为93.6％和65.0％,对呋喃妥因、利奈唑胺、利福平、莫西沙星和左旋氧氟沙星耐药率为0％、0％、1.4％、2.2％和9.3％,未检出万古霉素耐药株;耐甲氧西林金黄色葡萄球菌(MRSA)检出率25.7％ (44/171);MRSA和甲氧西林敏感金黄色葡萄球菌(MSSA)对氨苄西林/舒巴坦、利福平、莫西沙星三种药物的敏感性差异有统计学意义.结论 引起皮肤软组织感染病原菌以阳性球菌尤其是金黄色葡萄球菌为主,临床上应尽量根据药敏试验结果选用抗生素,合理用药.     

Mimicking GEFs: a common theme for bacterial pathogens

Small molecular weight GTPases are master regulators of eukaryotic signalling, making them prime targets for bacterial virulence factors. Here, we review the recent advances made in understanding how bacterial type III secreted effector proteins directly activate GTPase signalling cascades. Specifically we focus on the SopE/WxxxE family of effectors that functionally mimic guanine nucleotide exchange factors (GEFs): the endogenous activators of Rho-family GTPases. Recent structural and biochemical studies have provided keen insight into both the signalling potency and substrate specificity of bacterial GEFs. Additionally, these bacterial GEFs display fascinating cell biological properties that provide insight into both host cell physiology and infectious disease strategies.     

孕产妇产后感染病原菌的构成及耐药性分析

目的 了解孕产妇产后感染病原菌的分布及耐药现状,为临床抗感染治疗提供依据。方法 采用法国生物梅里埃VITEK-2全自动细菌鉴定分析仪进行鉴定和药敏试验,采用WHONET 5.6软件进行数据统计分析。结果 2012年1月至2015年12月我院产科病房孕产妇共60 229例,产后感染336例,感染主要部位为宫腔、切口、血液和尿液。主要病原菌依次为大肠埃希菌、粪肠球菌、B型链球菌和金黄色葡萄球菌。大肠埃希菌对头孢他啶、头孢吡肟、妥布霉素、阿米卡星、头孢替坦、哌拉西林/他唑巴坦、头孢哌酮/舒巴坦、亚胺培南耐药率均<15.00%;粪肠球菌和无乳链球菌对氨苄西林、青霉素耐药率为0.00%,耐甲氧西林金黄色葡萄球菌（MRSA）耐药率高达19.05%。结论 我院产科病房感染主要部位为宫腔（43.18%）,减少剖宫产率可以降低产后感染发生率,感染的主要病原菌为大肠埃希菌和粪肠球菌（63.23%）,在预防用药的选择上应选择对大肠埃希菌和粪肠球菌均有效的抗生素以减少产后感染的发生率,同时了解孕产妇产后感染病原菌的构成和耐药性,有助于临床更快速有效地治疗产后感染。     

In situ DNA amplification with magnetic primers for the electrochemical detection of food pathogens

A sensitive and selective genomagnetic assay for the electrochemical detection of food pathogens based on in situ DNA amplification with magnetic primers has been designed. The performance of the genomagnetic assay was firstly demonstrated for a DNA synthetic target by its double-hybridization with both a digoxigenin probe and a biotinylated capture probe, and further binding to streptavidin-modified magnetic beads. The DNA sandwiched target bound on the magnetic beads is then separated by using a magneto electrode based on graphite-epoxy composite. The electrochemical detection is finally achieved by an enzyme marker, anti-digoxigenin horseradish peroxidase (HRP). The novel strategy was used for the rapid and sensitive detection of polymerase chain reaction (PCR) amplified samples. Promising resultants were also achieved for the DNA amplification directly performed on magnetic beads by using a novel magnetic primer, i.e., the up PCR primer bound to magnetic beads. Moreover, the magneto DNA biosensing assay was able to detect changes at single nucleotide polymorphism (SNP) level, when stringent hybridization conditions were used. The reliability of the assay was tested for Salmonella spp., the most important pathogen affecting food safety.     

Universal COI primers for DNA barcoding amphibians

DNA barcoding is a proven tool for the rapid and unambiguous identification of species, which is essential for many activities including the vouchering tissue samples in the genome 10K initiative, genealogical reconstructions, forensics and biodiversity surveys, among many other applications. A large‐scale effort is underway to barcode all amphibian species using the universally sequenced DNA region, a partial fragment of mitochondrial cytochrome oxidase subunit I COI. This fragment is desirable because it appears to be superior to 16S for barcoding, at least for some groups of salamanders. The barcoding of amphibians is essential in part because many species are now endangered. Unfortunately, existing primers for COI often fail to achieve this goal. Herein, we report two new pairs of primers (?, ?) that in combination serve to universally amplify and sequence all three orders of Chinese amphibians as represented by 36 genera. This taxonomic diversity, which includes caecilians, salamanders and frogs, suggests that the new primer pairs will universally amplify COI for the vast majority species of amphibians.     

Invasive and adherent bacterial pathogens co-Opt host clathrin for infection

Infection by the bacterium Listeria monocytogenes depends on host cell clathrin. To determine whether this requirement is widespread, we analyzed infection models using diverse bacteria. We demonstrated that bacteria that enter cells following binding to cellular receptors (termed "zippering" bacteria) invade in a clathrin-dependent manner. In contrast, bacteria that inject effector proteins into host cells in order to gain entry (termed "triggering" bacteria) invade in a clathrin-independent manner. Strikingly, enteropathogenic Escherichia coli (EPEC) required clathrin to form actin-rich pedestals in host cells beneath adhering bacteria, even though this pathogen remains extracellular. Furthermore, clathrin accumulation preceded the actin rearrangements necessary for Listeria entry. These data provide evidence for a clathrin-based entry pathway allowing internalization of large objects (bacteria and ligand-coated beads) and used by "zippering" bacteria as part of a general mechanism to invade host mammalian cells. We also revealed a nonendocytic role for clathrin required for extracellular EPEC infections.     

Integrated minimum-set primers and unique probe design algorithms for differential detection on symptom-related pathogens

Motivation: Differential detection on symptom-related pathogens(SRP) is critical for fast identification and accurate controlagainst epidemic diseases. Conventional polymerase chain reaction(PCR) requires a large number of unique primers to amplify selectedSRP target sequences. With multiple-use primers (mu-primers),multiple targets can be amplified and detected in one PCR experimentunder standard reaction condition and reduced detection complexity.However, the time complexity of designing mu-primers with thebest heuristic method available is too vast. We have formulatedminimum-set mu-primer design problem as a set covering problem(SCP), and used modified compact genetic algorithm (MCGA) tosolve this problem optimally and efficiently. We have also proposednew strategies of primer/probe design algorithm (PDA) on combiningboth minimum-set (MS) mu-primers and unique (UniQ) probes. Designedprimer/probe set by PDA-MS/UniQ can amplify multiple genes simultaneouslyupon physical presence with minimum-set mu-primer amplification(MMA) before intended differential detection with probes-arrayhybridization (PAH) on the selected target set of SRP. Results: The proposed PDA-MS/UniQ method pursues a much smallernumber of primers set compared with conventional PCR. In thesimulation experiment for amplifying 12 669 target sequences,the performance of our method with 68% reduction on requiredmu-primers number seems to be superior to the compared heuristicapproaches in both computation efficiency and reduction percentage.Our integrated PDA-MS/UniQ method is applied to the differentialdetection on 9 plant viruses from 4 genera with MMA and PAHof 11 mu-primers instead of 18 unique ones in conventional PCRwhile amplifying overall 9 target sequences. The results ofwet lab experiments with integrated MMA-PAH system have successfullyvalidated the specificity and sensitivity of the primers/probesdesigned with our integrated PDA-MS/UniQ method. Contact: cykao{at}csie.ntu.edu.tw Supplementary information: http://www.csie.ntu.edu.tw/~cykao/pda/     

Development of species-specific primers for detection of Streptococcus mutans in mixed bacterial samples

Streptococcus mutans is the major microbial pathogen associated with dental caries in children. The objectives of this study were to design and evaluate species-specific primers for the identification of S. mutans. Validation of the best primer set, Sm479F/R, was performed using seven S. mutans reference strains, 48 ATCC non-S. mutans strains, 92 S. mutans clinical isolates, DNA samples of S. mutans-Streptococcus sobrinus or S. mutans-Streptococcus sanguinis, and mixed bacterial DNA of saliva samples from 33 18-month-old children. All of the S. mutans samples tested positive, and no PCR products were amplified from members of the other streptococci or nonstreptococci strains examined. The lowest detection level for PCR was 10(-2) ng of S. mutans DNA (c. 4.6 x 10(3) copies) in the test samples. The results of this study suggest that the Sm479F/R primer pair is highly specific and sensitive for identification of S. mutans in either purified or mixed DNA samples.     

Photonic detection of bacterial pathogens in living hosts

The study of pathogenic is often limited to ex vivo assays and cell-culture correlates. A greater understanding of infectious diseases would be facilitated by in vivo analyses. Therefore, we have developed a method for detecting bacterial pathogens in a living host and used this method to evaluate disease processes for strains of Salmonella typhimurium that differ in their virulence for mice. Three strains of Salmonella were marked with bioluminescence through transformation with a plasmid conferring constitutive expression of bacterial luciferase. Detection of photons transmitted through tissues of animals infected with bioluminescent Salmonella allowed localization of the bacteria to specific tissues. In this manner progressive infections were distinguished from those that were persistent or abortive. We observed patterns of bio-luminescence that suggested the caecum may play a pivotal role in Salmonella pathogenesis. In vivo efficacy of an antibiotic was monitored using this optical method. This study demonstrates that the real time non-invasive analyses of pathogenic events and pharmacological monitoring can be performed in vivo .     

泌尿系感染常见病原菌的分布及耐药性分析

【摘 要】 目的 探讨解放军第44医院住院患者泌尿系感染病原菌的分布及耐药性,为临床合理应用抗菌药物提供参考。方法 通过法国生物梅里埃VITEK 2 compact及ATB-Expression细菌鉴定分析仪对2012年该院收治的698例住院患者送检中段尿标本进行细菌鉴定,并用K-B法对分离病原菌进行体外药敏试验。结果 698例患者中有512例培养阳性,其中女性患者阳性率为81.5%,男性患者阳性率为19.0%,二者比较差异有统计学意义(P＜0.05)。512例阳性患者中段尿标本中共分离出病原菌536株,其中革兰阴性杆菌占68.8%,革兰阳性球菌占22.8%,真菌占8.4%。分离病原菌对常用抗菌药物呈现多重耐药性,革兰阴性杆菌对氨苄西林、哌拉西林、头孢噻吩、复方新诺明的耐药率高于60.0%,对亚胺培南、阿米卡星敏感。革兰阳性球菌对克林霉素、红霉素、青霉素的耐药率高于70.0%,对万古霉素、替考拉宁高度敏感。结论 泌尿系感染病原菌对常用抗菌药物耐药严重,及时了解泌尿系感染病原菌的分布特点及耐药性,对临床合理选用抗菌药物具有重要意义。     

'Bioluminescent' reporter phage for the detection of Category A bacterial pathogens

Yersinia pestis and Bacillus anthracis are Category A bacterial pathogens that are the causative agents of the plague and anthrax, respectively. Although the natural occurrence of both diseases' is now relatively rare, the possibility of terrorist groups using these pathogens as a bioweapon is real. Because of the disease's inherent communicability, rapid clinical course, and high mortality rate, it is critical that an outbreak be detected quickly. Therefore methodologies that provide rapid detection and diagnosis are essential to ensure immediate implementation of public health measures and activation of crisis management. Recombinant reporter phage may provide a rapid and specific approach for the detection of Y. pestis and B. anthracis. The Centers for Disease Control and Prevention currently use the classical phage lysis assays for the confirmed identification of these bacterial pathogens. These assays take advantage of naturally occurring phage which are specific and lytic for their bacterial hosts. After overnight growth of the cultivated bacterium in the presence of the specific phage, the formation of plaques (bacterial lysis) provides a positive identification of the bacterial target. Although these assays are robust, they suffer from three shortcomings: 1) they are laboratory based; 2) they require bacterial isolation and cultivation from the suspected sample, and 3) they take 24-36 h to complete. To address these issues, recombinant "light-tagged" reporter phage were genetically engineered by integrating the Vibrio harveyi luxAB genes into the genome of Y. pestis and B. anthracis specific phage. The resulting luxAB reporter phage were able to detect their specific target by rapidly (within minutes) and sensitively conferring a bioluminescent phenotype to recipient cells. Importantly, detection was obtained either with cultivated recipient cells or with mock-infected clinical specimens. For demonstration purposes, here we describe the method for the phage-mediated detection of a known Y. pestis isolate using a luxAB reporter phage constructed from the CDC plague diagnostic phage ΦA1122 (Figure 1). A similar method, with minor modifications (e.g. change in growth temperature and media), may be used for the detection of B. anthracis isolates using the B. anthracis reporter phage Wβ::luxAB. The method describes the phage-mediated transduction of a biolumescent phenotype to cultivated Y. pestis cells which are subsequently measured using a microplate luminometer. The major advantages of this method over the traditional phage lysis assays is the ease of use, the rapid results, and the ability to test multiple samples simultaneously in a 96-well microtiter plate format. Figure 1. Detection schematic. The phage are mixed with the sample, the phage infects the cell, luxAB are expressed, and the cell bioluminesces. Sample processing is not necessary; the phage and cells are mixed and subsequently measured for light.     

Improved template preparation for PCR-based assays for detection of food-borne bacterial pathogens

Shigella flexneri, Salmonella enterica serotype Typhimurium, and Listeria monocytogenes were applied to FTA filters, and the filters were used directly as templates to demonstrate their sensitivity and applicability in PCR-based detection assays. With pure cultures, the sensitivities of detection by FTA filter-based PCR were 30 to 50 and 200 CFU for the gram-negative enterics and Listeria, respectively. Different numbers of S. flexneri cells were used in controlled contamination experiments with several different foods (produce, beef, and apple cider). Aliquots from concentrated food washes subsequently spotted onto FTA filters and assayed by PCR gave consistently positive results and detection limits similar to those observed with pure-culture dilutions. This universal method for PCR template preparation from bacterial cells is rapid and highly sensitive and reduces interference from food-associated inhibitors of PCR. In addition, its broad applicability eliminates the need for multiple methods for analysis of food matrices.     

Multiplex detection and identification of bacterial pathogens causing potato blackleg and soft rot in Europe,using padlock probes

The objective of this study was to develop a multiplex detection and identification protocol for bacterial soft rot coliforms, namely Pectobacterium wasabiae (Pw), Pectobacterium atrosepticum (Pba) and Dickeya spp., responsible for potato blackleg and tuber soft rot. The procedures were derived from the phylogenetic relationships of these and other Enterobacteriaceae based on recA sequences. The group of Pw strains was highly homogeneous and could be distinguished from the other species. A ligation‐based method for detection of Pw was developed. Five padlock probes (PLPs) were designed, targeting recA sequences to identify the Pw, Pba or Dickeya spp., whereas a sixth probe recognised recA sequences of all soft rot coliforms including Pectobacterium carotovorum subsp. carotovorum (Pcc). Two PLP‐based applications were developed: one using real‐time PCR and one using universal microarrays. Assay sensitivity and specificity were demonstrated using 71 strains of Pw, Pcc, Pba and Dickeya spp. Both multiplex methods can be potentially used for seed testing and in ecological studies, but further validation is required.