用环介导等温扩增技术快速检测粪便样本中的沙门菌

目的:建立快速检测粪便样本中的沙门菌的环介导等温扩增技术(LAMP),并着重在灵敏度和特异性方面对此方法进行评价。方法:利用LAMP针对沙门菌特定基因invA(靶基因)设计的6条特异引物,通过引物特异性识别特定基因invA上的8个独立区域来快速检测沙门菌;LAMP反应过程中会产生白色沉淀焦磷酸镁,故可以通过监测浊度来判定反应结果。结果:实时浊度仪监测反应结果表明,LAMP反应在60~65℃等温条件下50 min内完成;如果在反应前添加羟基萘酚兰,蓝色阳性结果很明显区别于紫色阴性结果;LAMP的最低检出限为6.97 pg/μL,PCR为69.7pg/μL,LAMP方法的检测灵敏度是PCR的10倍,且具有良好的特异性。结论:LAMP方法用于快速检测沙门菌,具有检测过程简单、实验装置简便、反应结果肉眼可辨、灵敏度高、特异性强的特点,对非沙门菌菌株的结果呈阴性,表明引物设计有很好的特异性。对粪便样本进行检测,发现具有同样的敏感性和特异性。这表明LAMP法是潜在的和有价值的在粪便样本中直接检测沙门菌的方法,具有快速、简便、低成本的特点。LAMP法适用于快速临床诊断。     

Sensitive and rapid detection of microcystin synthetase E Gene (mcyE) by loop-mediated isothermal amplification: A new assay for detecting the potential microcystin-producing Microcystis in the aquatic ecosystem

In order to develop a new molecular technique that has the potential to assist with monitoring and management of water bodies for potential microcystin producing cyanobacterial species that occur in mixed populations in many regions of the world, we designed a new loop-mediated isothermal amplification (LAMP) assay based on microcystin biosynthesis genes. Four sets of primers were designed to recognize six distinct sequences on target the mcyE gene that encodes a protein (McyE) being responsible to catalyze the addition of d-glutamate to Adda. One set (MCYE2) was selected as the most appropriate set of primers for its rapid detection. The specificity and sensitivity of the primers in the LAMP reactions for mcyE detection were determined. Two methods, namely, monitoring of turbidity and addition of calcein to the reaction tube, were used to determine negative and positive results. The results showed that target DNA was amplified and visualized by the two detection methods within 40 min at an isothermal temperature of 61 °C. For the sensitivity of LAMP, the detection limit was 8.5 pg/μl (approximately 17 pg) DNA. The eleven microcystin producing and four non-toxic cyanobacterial strains were selected for testing of specificity. The results of the amplification were positive with all microcystin-producing strains tested and not with four non-toxic strains, which showed that the primers had good levels of specificity. For testing the application of LAMP assay in the aquatic ecosystem, seven environmental samples from ponds and lakes in Ningbo City were also analyzed using the LAMP targeting the mcyE gene as well as an ELISA assay. Compared with these results of ELISA assay, LAMP assay is satisfied. All of these validated LAMP method being fast, simple and low in cost is a potentially valuable means for potential toxic of cyanobacterial blooms detection, especially for routine monitoring purposes in future.     

单管可视化环介导等温扩增技术快速检测恶性疟原虫

目的:建立一种基于环介导等温核酸扩增技术(Loop-mediated Isothermal Amplification,LAMP)的恶性疟原虫高灵敏可视化闭管检测方法。方法:针对恶性疟原虫核糖体DNA的序列保守区设计LAMP引物,通过优化LAMP体系中的Mg2+、甜菜碱浓度和反应温度等因素,建立环介导等温扩增法;并结合蜡封反应管对产物进行检测,检测结果可直接通过肉眼观察SYBR Green I荧光显色进行判定。结果:本方法可检测到70个拷贝/管的恶性疟原虫核酸片段,并具有高特异性,可区分检测常见的血液病毒。该法具有如下优点:1、整个反应恒温进行,无需热循环仪;2、闭管检测,极大降低了扩增产物交叉污染的风险;3、检测速度快,整个检测过程只需30 min。结论:该法的建立为恶性疟原虫的现场快速筛检提供了一种简便、高灵敏、高特异的工具。     

Development of a real-time PCR assay for rapid detection and quantification of Alexandrium minutum (a Dinoflagellate)

The marine dinoflagellate genus Alexandrium includes a number of species which produce neurotoxins responsible for paralytic shellfish poisoning (PSP), which in humans may cause muscular paralysis, neurological symptoms, and, in extreme cases, death. A. minutum is the most widespread toxic PSP species in the western Mediterranean basin. The monitoring of coastal waters for the presence of harmful algae also normally involves microscopic examinations of phytoplankton populations. These procedures are time consuming and require a great deal of taxonomic experience, thus limiting the number of specimens that can be analyzed. Because of the genetic diversity of different genera and species, molecular tools may also help to detect the presence of target microorganisms in marine field samples. In this study, we developed a real-time PCR-based assay for rapid detection of all toxic species of the Alexandrium genus in both fixative-preserved environmental samples and cultures. Moreover, we developed a real-time quantitative PCR assay for the quantification of A. minutum cells in seawater samples. Alexandrium genus-specific primers were designed on the 5.8S rDNA region. Primer specificity was confirmed by using BLAST and by amplification of a representative sample of the DNA of other dinoflagellates and diatoms. Using a standard curve constructed with a plasmid containing the ITS1-5.8S-ITS2 A. minutum sequence and cultured A. minutum cells, we determined the absolute number of 5.8S rDNA copies per cell. Consequently, after quantification of 5.8S rDNA copies in samples containing A. minutum cells, we were also able to estimate the number of cells. Several fixed A. minutum bloom sea samples from Arenys Harbor (Catalan Coast, Spain) were analyzed using this method, and quantification results were compared with standard microscopy counting methods. The two methods gave comparable results, confirming that real-time PCR could be a valid, fast alternative procedure for the detection and quantification of target phytoplankton species during coastal water monitoring.     

Detection of periodontal pathogen Porphyromonas gingivalis by loop-mediated isothermal amplification method

A method for nucleic acid amplification, loop-mediated isothermal amplification (LAMP) was employed to develop a rapid and simple detection system for periodontal pathogen, Porphyromonas gingivalis. A set of six primers was designed by targeting the 16S ribosomal RNA gene. By the detection system, target DNA was amplified and visualized on agarose gel within 30 min under isothermal condition at 64 degrees C with a detection limit of 20 cells of P. gingivalis. Without gel electrophoresis, the LAMP amplicon was directly visualized in the reaction tube by addition of SYBR Green I for a naked-eye inspection. The LAMP reaction was also assessed by white turbidity of magnesium pyrophosphate (a by-product of LAMP) in the tube. Detection limits of these naked-eye inspections were 20 cells and 200 cells, respectively. Although false-positive DNA amplification was observed from more than 10(7) cells of Porphyromonas endodontalis, no amplification was observed in other five related oral pathogens. Further, quantitative detection of P. gingivalis was accomplished by a real-time monitoring of the LAMP reaction using SYBR Green I with linearity over a range of 10(2)-10(6) cells. The real-time LAMP was then applied to clinical samples of dental plaque and demonstrated almost identical results to the conventional real-time PCR with an advantage of rapidity. These findings indicate the potential usefulness of LAMP for detecting and quantifying P. gingivalis, especially in its rapidity and simplicity.     

水产品中创伤弧菌DNA环介导恒温扩增快速检测方法的建立及初步应用

创伤弧菌是一种重要的食源性致病菌,主要存在于河口和海洋环境中,严重危害水产养殖业的发展和人类健康。建立快速、准确、易操作的检测方法对防控创伤弧菌的传染,保障水产养殖业发展和增强食品安全意义重大。基于创伤弧菌vvHA基因,利用一种新型的核酸扩增技术-环介导恒温扩增(loop-mediated isothermal amplification,LAMP),建立了创伤弧菌LAMP快速检测方法。对11种共46株细菌进行扩增,仅创伤弧菌为LAMP阳性结果,说明LAMP方法具有高度特异性。灵敏度试验结果表明,对创伤弧菌纯培养菌的检测灵敏度为15CFU/ml,对污染食品中创伤弧菌的检测灵敏度为24CFU/g。此法40~60min内即可完成检测,检验检疫实践证明:LAMP方法操作简便、特异性强、灵敏度高且成本低廉,具有良好的应用前景。     

NLF2 gene expression in the endometrium of patients with implantation failure after IVF treatment

We developed and evaluated the specificity and sensitivity of a loop-mediated isothermal amplification (LAMP) method for rapid detection of the multidrug-resistance gene cfr. A pair of outer primers and a pair of inner primers and one loop primer were specially designed for recognizing seven distinct sequences on the target cfr gene. The amplification reaction was performed within only 35 min under isothermal conditions at 63 °C in a regular water bath with visual measurement. The LAMP assay showed higher sensitivity than the conventional PCR, with a detection limit of 1 pg per tube of chicken Staphylococcus sciuri genomic DNA. The detection rate of cfr gene for 50 Staphylococcus clinical strains by LAMP assays was 16% and appeared 100% consistence with the result by PCR method. The LAMP method reported here demonstrated a potential and valuable means for detection of the multidrug-resistance gene cfr: easy, rapid, visual, specific, accurate and sensitive, especially useful for on-the-spot investigation.     

Loop-mediated isothermal amplification for the rapid detection of Salmonella

Loop-mediated isothermal amplification (LAMP) assay detected Salmonella within 60 min. The 220 strains of 39 serotypes of Salmonella subsp. enterica and 7 strains of Salmonella enterica subsp. arizonae were amplified, but not 62 strains of 23 bacterial species other than Salmonella. The sensitivity of the LAMP assay was found to be >2.2 cfu/test tube using nine serotypes. The specificity was similar to that of a PCR assay, but the sensitivity of LAMP was greater. Both fluorescence and turbidity were able to detect the products in the LAMP assay. S. enteritidis in a liquid egg sample artificially inoculated with the organism was detected by the LAMP assay at 2.8 cfu/test tube, although negative by PCR assay. These results indicate that the LAMP assay is a rapid, specific and sensitive detection method for Salmonella.     

Capture probe conjugated to paramagnetic nanoparticles for purification of Alexandrium species (Dinophyceae) DNA from environmental samples

AIMS: To develop a rapid, cost-effective and selective Alexandrium DNA extraction procedure from environmental samples in order to provide good-quality template for the downstream PCR-based detection assay. METHODS AND RESULTS: In this study, we tested a DNA extraction method based on silica-coated, superparamagnetic nanoparticles conjugated to a DNA-capture sequence (probe) complementary to a specific region of 5.8S rDNA of the genus Alexandrium. Cultured Alexandrium catenella cells were used as the harmful algal bloom species for the DNA extraction. Then, a PCR assay was performed with primers specific for the genus Alexandrium to assess the specificity and sensitivity of the nucleic acid extraction method. This method was applied to both cultured and field samples, reaching in both cases a detection limit of one A. catenella cell. CONCLUSIONS: The results suggest that the use of probe-conjugated paramagnetic nanoparticles could be effective for the specific purification of microalgal DNA in cultured or environmental samples, ensuring sensitivity and specificity of the subsequent PCR assays. SIGNIFICANCE AND IMPACT OF THE STUDY: The DNA extraction method optimized in this study represents a progress towards the rapid and efficient direct detection of Alexandrium cells in seawater monitoring. In fact, this method requires no other equipment than a magnet and a hybridization oven and, in principle, can be adapted to different toxic microalgal species and can be automated, allowing the processing of a high number of samples.     

Species and sex identification of Formosa landlocked salmon using loop-mediated isothermal amplification

Species and sex identification are among the most important parameters for conservation management. However, it is extremely difficult to perform such identification in Formosa landlocked salmon (Oncorhynchus masou formosanus). Both sexual dimorphism in landlocked dwarf form Formosa landlocked salmon and morphological difference among cherry salmon complex are minimal. We developed a simple, rapid and noninvasive method for identifying sex and species of this critically endangered species using a loop-mediated isothermal amplification (LAMP) technique. The LAMP assay showed the advantage of simple detection (evaluated by visual inspection), rapid reaction time (< 1 h), isothermal condition (less equipment required) and high efficiency (only 0.5-5 pg of DNA was required in the reaction mixture). Therefore, the method is more economical and practical than PCR. The LAMP assay can be easily performed in the field and is a valuable tool for detecting sex ratios in wild populations and identifying species in commercial imports. This is the first application of LAMP in identifying species and sex of salmonids as far as we know and clearly shows the potential application of LAMP in molecular ecology and conservation efforts.     

Development and evaluation of loop-mediated isothermal amplification assay for rapid and sensitive detection of canine parvovirus DNA directly in faecal specimens

Aims: To develop a specific and highly sensitive loop-mediated isothermal amplification (LAMP) technique for the rapid detection of canine parvovirus (CPV) DNA directly in suspected faecal samples of dogs by employing a simple method of template preparation. Methods and Results: LAMP reaction was developed by designing two sets of outer and inner primers, which target a total of six distinct regions on VP2 gene of CPV. The template DNA was prepared by a simple boiling and chilling method. Of the 140 faecal samples screened by the developed LAMP and the conventional PCR assays, 104 samples (74·28%) were found positive by LAMP, whereas 81 samples (57·85%) were found positive by PCR. The specificity of the LAMP assay was tested by cross-examination of common pathogens of dogs and further confirmed by sequencing. The detection limit of the LAMP was 0·0001 TCID(50) ml(-1) , whereas the detection limit of the PCR was 1000 TCID(50) ml(-1) . Conclusions: The developed LAMP assay detects CPV DNA in faecal specimens directly within an hour by following a simple and rapid boiling and chilling method of template preparation. The result also shows that the developed LAMP assay is specific and highly sensitive in detecting CPV. Significance and Impact of the Study: The result indicates the potential usefulness of LAMP which is a simple, rapid, specific, highly sensitive and cost-effective field-based method for direct detection of CPV from the suspected faecal samples of dogs.     

A simple and sensitive method for detection of Bacillus anthracis by loop‐mediated isothermal amplification

Aims: To develop a rapid and simple system for detection of Bacillus anthracis using a loop‐mediated isothermal amplification (LAMP) method and determine the suitability of LAMP for rapid identification of B. anthracis infection. Methods and Results: A specific LAMP assay targeting unique gene sequences in the bacterial chromosome and two virulence plasmids, pXO1 and pXO2, was designed. With this assay, it was possible to detect more than 10 fg of bacterial DNA per reaction and obtain results within 30–40 min under isothermal conditions at 63°C. No cross‐reactivity was observed among Bacillus cereus group and other Bacillus species. Furthermore, in tests using blood specimens from mice inoculated intranasally with B. anthracis spores, the sensitivity of the LAMP assay following DNA extraction methods using a Qiagen DNeasy kit or boiling protocol was examined. Samples prepared by both methods showed almost equivalent sensitivities in LAMP assay. The detection limit was 3·6 CFU per test. Conclusions: The LAMP assay is a simple, rapid and sensitive method for detecting B. anthracis. Significance and Impact of the Study: The LAMP assay combined with boiling extraction could be used as a simple diagnostic method for identification of B. anthracis infection.     

鸭瘟病毒LAMP可视化检测方法的建立

目的:建立一种快速、简便、特异性高的鸭瘟病毒(DPV)环介导等温扩增(LAMP)检测方法。方法:根据Gen Bank中DPVUI6基因的保守序列设计一套特异性引物,并对反应条件进行优化,建立DPV的LAMP可视化检测方法。结果:建立的LAMP方法对其他鸭常见病原体无扩增反应;可通过肉眼观察颜色直接判定结果;敏感性可达0.1fg,是常规PCR方法的100倍;扩增反应只须在常规水浴锅中进行,可在1 h内完成。结论:建立的DPV LAMP方法简便、快速、灵敏、特异,可用于DPV感染的快速检测。     

快速检测HBV DNA的环状介导等温DNA扩增法

环状介导等温DNA扩增（LAMP）技术是一种新的核酸扩增方法,它能够高特异性、高效、快速地进行核酸的扩增。利用LAMP法检测乙型肝炎病毒（HBV）,能够在等温条件下于1h内将少量的基因拷贝数扩增至10^9,在对65份临床标本的检测中显示了较高的特异性。与现有的PCR技术相比,LAMP法更加简便快速,且在等温条件下进行,不需要复杂的仪器设备,为临床检测乙肝病毒提供了一个快速筒便的新方法。     

牛病毒性腹泻病毒RT-LAMP检测方法的建立

目的:建立牛病毒性腹泻病毒(BVDv)的环介导体外等温扩增(LAMP)快速检测方法。方法:根据BVDv的5'端非编码区序列,在保守区的8个位点设计LAMP特异性引物(2对特异性引物和1对环引物),对反应条件和试剂浓度进行优化,建立恒温(63.5℃)、快速(65min)的检测方法。结果:建立的方法特异性好,检测其他对照病毒均为阴性;灵敏度高,最低可检测到1个拷贝的阳性质粒,可通过观察浑浊度或加入染料后直接判定扩增结果。结论:建立了用于检测BVDv的LAMP方法,该方法简便、快速、特异性好、灵敏度高,适合基层和现场检测。     

Loop-mediated isothermal amplification targeting the apxIVA gene for detection of Actinobacillus pleuropneumoniae

Loop-mediated isothermal amplification (LAMP) is a novel nucleic acid amplification method performed under isothermal conditions with high specificity and efficiency. We developed a diagnostic method based on LAMP for detection of Actinobacillus pleuropneumoniae . Using six specific primers targeting the apxIVA gene, the LAMP assay rapidly amplified the target gene within 30 min, requiring only a laboratory water bath for the reaction to occur. The resulting amplificon was visualized by adding SYBR Green I to the mixture. The results obtained from testing 15 A. pleuropneumoniae reference strains and other seven bacterial species strains showed that the LAMP was as specific as and 10 times more sensitive than nested PCR. Sixty-five tonsil samples were collected from 65 healthy pigs. All the samples were negative for A. pleuropneumoniae by immunomagnetic separation-based (IMS) bacterial isolation, nested PCR and LAMP, respectively. Meanwhile, 115 tonsil samples were also collected from 115 pigs with apparent respiratory problems. Twenty-two were positive by IMS bacterial isolation. All the samples that were positive by IMS bacterial isolation were also positive by nested PCR and LAMP. The LAMP assay demonstrated exceptionally higher sensitivity than nested PCR by picking up 14 additional positive cases (χ² test, P <0.0001); we concluded that LAMP was a highly sensitive and reliable method for detection of A. pleuropneumoniae infection.     

Rapid and simple detection of eight major periodontal pathogens by the loop-mediated isothermal amplification method

Loop-mediated isothermal amplification (LAMP) was applied to develop a rapid and simple detection system for eight periodontal pathogens: Aggregatibacter (Actinobacillus) actinomycetemcomitans, Campylobacter rectus, Eikenella corrodens, Fusobacterium nucleatum, Porphyromonas gingivalis, Prevotella intermedia, Treponema denticola and Tannerella forsythia. Primers were designed from the 16S ribosomal RNA gene for each pathogen, and the LAMP amplified the targets specifically and efficiently under isothermal condition at 64 degrees C. To simplify the manipulation of LAMP examination, boiled cells and intact cells suspended in phosphate-buffered saline (PBS) were tested as templates besides extracted DNA template. The detection limits were 1-10 cells per tube using extracted DNA template. However, LAMP methods using boiled cells and intact cells required 10-100 and 100-1000 cells per tube, respectively. LAMPs for A. actinomycetemcomitans, P. gingivalis and P. intermedia were then applied to clinical plaque samples, and the method demonstrated equal or higher sensitivity compared with the conventional real-time PCR method. These findings suggest the usefulness of the LAMP method for the rapid and simple microbiological diagnosis of periodontitis, and the possibility of LAMP examination without the DNA extraction step.     

用于高灵敏可视化检测松材线虫的闭管等温扩增法

建立了一种基于环介导等温核酸扩增技术(LAMP)的松材线虫高灵敏可视化闭管检测方法。针对松材线虫核糖体DNA的序列保守区域设计LAMP引物,通过优化LAMP体系中的Mg2+、甜菜碱浓度和反应温度等因素,建立了环介导等温扩增法;并结合蜡封反应管对产物进行检测,检测结果可直接通过肉眼观察SYBR Green I荧光显色进行判定。结果表明,本方法可检测到低至10拷贝/管的松材线虫核酸片段,可对单条线虫进行检测,并且具有很高的特异性,能区分检测松材线虫与拟松材线虫。由于整个反应恒温进行,无需热循环仪;闭管检测极大地降低了扩增产物交叉污染的风险;检测速度快,整个检测过程只需40 min,为松材线虫的现场快速筛检提供了一种简便、高灵敏、高特异的工具。