环介导等温扩增联合横向流动试纸条快速检测创伤弧菌检测方法的建立

环介导等温扩增技术(LAMP)与横向流动试纸条(LFD)检测联合应用,建立了一种新的快速、便捷的创伤弧菌检测方法。针对创伤弧菌的外膜蛋白TolC基因设计6条特异性引物和1条异硫氰酸荧光素(FITC)标记的探针。生物素标记的LAMP扩增产物能够特异性地与FITC标记的探针杂交,杂交产物经LFD检测。优化后的扩增温度和时间为63℃反应35 min,加上细菌基因组DNA提取步骤,完成检测仅需要80 min。LAMP-LFD方法可特异性地检出创伤弧菌,对哈维氏弧菌等9种水产品常见病原菌的检测均呈阴性;对纯细菌培养物的检测灵敏度为3.7×102 CFU/mL或7.4 CFU/反应,是利用外引物建立的常规PCR检测的100倍。结果表明,该方法能够准确、快速、灵敏地检出创伤弧菌,可应用于创伤弧菌污染的水产品的检测。     

环介导等温扩增技术在食品中痢疾志贺氏菌快速检测

【目的】探讨、优化基于环介导等温扩增技术(LAMP)快速检测常规食品中感染性痢疾志贺氏菌的方法。【方法】在NCBI数据库中搜索获取志贺氏菌的特异性基因高度保守区,设计3对LAMP反应引物,建立、优化该LAMP可视化检测方法,并评价其特异性、灵敏度,同时与PCR检测方法和传统检测方法对比,进行结果统计分析。【结果】5株志贺氏菌标准菌株样品均检测为阳性,11株非志贺氏菌标准菌株样品均检测为阴性,无交叉反应。最低检验限为1.6×101 CFU/反应(或1.6×101 CFU/m L),且经比较,LAMP检测灵敏度比PCR检测高出1个数量级。通过对161份实际样品和人工污染样品进行检测,LAMP检测与传统方法检测结果具有较高的一致性。【结论】LAMP具有检测过程快速简便、检测结果稳定、可靠的特点,适用于对常规食品中感染性痢疾志贺氏菌的高效、快速检测需求。     

植物青枯病菌环介导等温扩增快速检测技术研究

为实现植物青枯病的早期诊断,需要建立一种适于田间快速便捷检测青枯病菌的方法。以细胞色素C基因为靶标设计一套特异性引物,建立了植物青枯病的LAMP检测方法。此方法最低检测极限为1 pg,可在1 h内完成,不依赖昂贵复杂的仪器,结果可经肉眼观察。利用此方法,在人工接种发病的茄子、番茄、花生、芝麻和凹头苋茎部浸出液和马铃薯病薯块茎组织液中均检测出青枯病菌的存在,尤其适用于田间疑似罹病的芝麻、花生、番茄、马铃薯和甘薯等植株的检测,且LAMP法的检出率远高于PCR法。应用LAMP技术检测青枯病菌快速高效、特异性强、灵敏度高,操作简单,适于在基层推广运用。     

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。     

环介导等温扩增技术检测动物病原研究进展

综述了环介导等温扩增技术检测病毒、细菌和寄生虫等动物病原方面的研究和应用最新进展.     

水霉菌环介导等温扩增检测方法的建立

【目的】建立一种快速简单检测水霉病病原菌的方法。【方法】针对水霉菌ITS区基因序列设计4条特异性引物,包括两条外引物和两条内引物,优化反应条件,观察检测结果。对该方法的特异性和敏感性进行研究。【结果】建立了环介导等温扩增技术检测水霉菌的方法,确定了其最适反应条件。该方法能够检测到浓度低至103个/mL的水霉菌孢子,其灵敏度是普通PCR方法的100倍。【结论】建立的检测水霉菌的LAMP技术,具有操作简便快速等特点,可用做特异性水霉及其孢子的快速鉴定。     

牡蛎单孢子虫环介导等温扩增可视化检测方法的建立

目的:建立基于环介导等温扩增(LAMP)技术的单孢子虫可视化检测方法。方法:根据尼氏单孢子虫的小亚基核糖体RNA保守序列,设计一套特异性LAMP引物,对反应条件如温度和试剂浓度进行优化,建立检测牡蛎单孢子虫的LAMP方法。结果:所建立的方法的敏感性可达1 fg,是常规PCR方法的100倍;全部反应可在1 h内完成;可通过肉眼观察颜色,直接判定结果;对其他牡蛎常见病原体的检测结果均为阴性。结论:建立的LAMP方法简便、快速、灵敏、特异,可用于牡蛎单孢子虫感染的快速检测。     

环介导等温扩增技术在致病微生物检测中的应用

环介导等温扩增(LAMP)是一种新兴的核酸扩增方法,由于其具有高灵敏、高特异、操作简单、检测快速、价格低廉等诸多优势,现已成为分子生物学诊断技术的重要组成部分,并广泛应用于基层实验室及野外致病微生物的在快速检测致病微生物中的应用及新进展,希望能为其发展提供参考。     

环介导等温扩增技术快速检测肉中单增李斯特菌

通过建立的环介导恒温扩增（Loop-Mediated Isothermal Amplification,LAMP）方法以达到肉中单增李斯特菌快速、灵敏的检出。以特异性的hlyA毒力基因作为靶基因,与6株非单增李斯特菌进行特异性试验,同时对不同培养浓度的单增李斯特菌进行了LAMP和PCR方法的灵敏度比较,进而应用LAMP法检测人工污染肉中的单增李斯特菌。结果表明：纯培养物中单增李斯特菌LAMP检出限为8.8×100CFU/mL,其灵敏度比普通PCR高100倍;在人工污染肉中单增李斯特菌的检出限为8.8×101CFU/mL,在1h内即可完成扩增反应。LAMP方法具备快速、特异、简单、灵敏度高等优势,在食品基质中单增李斯特菌的检测方面具有较好的应用前景。     

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。     

The development of loop-mediated isothermal amplification combined with lateral flow dipstick for detection of Vibrio parahaemolyticus

Aims: The current study was aimed to develop a loop‐mediated isothermal amplification (LAMP) combined with amplicon detection by chromatographic lateral flow dipstick (LFD) assay for rapid and specific detection of Vibrio parahaemolyticus. Methods and Results: Biotinylated LAMP amplicons were produced by a set of four designed primers that recognized specifically the V. parahaemolyticus thermolabile haemolysin (tlh) gene followed by hybridization with an FITC‐labelled probe and LFD detection. The optimized time and temperature conditions for the LAMP assay were 90 min at 65°C. The LAMP–LFD method accurately identified 28 isolates of V. parahaemolyticus but did not detect 24 non‐parahaemolyticus Vibrio isolates and 35 non‐Vibrio bacterial isolates. The sensitivity of LAMP–LFD for V. parahaemolyticus detection in pure cultures was 120 CFU ml^?1. In the case of spiked shrimp samples without enrichment, the detection limit for V. parahaemolyticus was 1·8 × 10³ CFU g^?1 or equivalent to 3 CFU per reaction while that of conventional PCR was 30 CFU per reaction. Conclusions: The established LAMP–LFD assay targeting tlh gene was specific, rapid and sensitive for identification of V. parahaemolyticus. Significance and Impact of the Study: The developed LAMP–LFD assay provided a valuable tool for detection of V. parahaemolyticus and can be used effectively for identification of V. parahaemolyticus in contaminated food sample.     

Establishment and application of hyperbranched rolling circle amplification coupled with lateral flow dipstick for the sensitive detection of Karenia mikimotoi

The dinoflagellate Karenia mikimotoi is a noxious and harmful algal bloom (HAB)-forming microalga. Establishing a rapid, accurate, and sensitive method of detecting this harmful alga is necessary to provide warnings of imminent HABs through field monitoring. Here, an isothermal amplification technique combined with a rapid analytical method for nucleic acid-based amplified products, i.e., hyperbranched rolling circle amplification (HRCA) coupled with lateral flow dipstick (LFD), hereafter denoted as HRCA-LFD, was established to detect K. mikimotoi. The HRCA-LFD assay relied on a padlock probe (PLP) targeting DNA template and an LFD probe targeting PLP. The sequenced internal transcribed spacer of K. mikimotoi through molecular cloning was used as the target of PLP. The optimized HRCA conditions was determined to be as follows: PLP concentration, 20 pM; ligation temperature, 65 °C; ligation time, 10 min; amplification temperature, 61 °C; and amplification time, 30 min. The developed HRCA-LFD assay was specific for K. mikimotoi, displaying no cross-reactivity with other common microalgae. Sensitivity-comparison tests indicated that HRCA-LFD assay was 100-fold more sensitive than PCR, with a detection limit of 0.1 cell mL⁻¹ when used to analyze spiked field samples. The analysis with field samples also indicated that HRCA-LFD assay was suitable for samples with a target cell density range of 1–1000 cells mL⁻¹. All of these results suggested that HRCA-LFD assay is an alternative method for the sensitive and reliable detection of K. mikimotoi from marine water samples.     

环介导恒温扩增法检测肺炎链球菌的研究

目的 建立环介导恒温扩增(LAMP)检测肺炎链球菌的方法.方法 用LAMP技术扩增肺炎链球菌菌株,并应用50例临床标本采用传统培养法、PCR法、LAMP法进行检测,比较3种方法的检出率,同时检测方法特异性和灵敏度.结果 所测肺炎链球菌均获扩增产物,对其他非肺炎链球菌无交叉反应.LAMP检测灵敏度可达102 CFU/mL.50例临床标本使用LAMP法检出9例肺炎链球菌阳性(18.0％),使用传统培养法检出阳性4例(8.0％).结论 LAMP法较传统培养检测方法特异性强、灵敏度高、操作方便、快速,适合临床标本的肺炎链球菌检测.     

环介导等温扩增技术对解脲脲原体的临床检测

目的建立并优化环介导等温扩增(LAMP)技术对解脲脲原体(U.urealyticum)的检测,并应用于临床样本分析。方法针对U.urealyticum的urease基因设计LAMP引物;研究LAMP的最适温度、最佳检测时间及灵敏度和特异度;与传统PCR检测进行方法学比对。结果 LAMP技术检测U.urealyticum的最适温度和最佳时间分别是61℃和60 min,并且具有良好灵敏度和特异度,较普通PCR检测的灵敏度高出1 000倍。临床样本检测中,PCR和LAMP技术达到的灵敏度分别为25.00%和87.50%。两种方法的特异度均为100.00%。结论 LAMP与PCR相比在基层检测和大规模筛查方面有显著的优势和巨大的利用价值。     

The development of loop-mediated isothermal amplification combined with lateral flow dipstick for detection of Karlodinium veneficum

The aim of this study was to develop a loop-mediated isothermal amplification (LAMP) combined with a chromatographic lateral flow dipstick (LFD) assay to rapidly and specifically detect the Karlodinium veneficum ITS gene. Four groups of LAMP primers were specially designed to target the K. veneficum ITS gene. The LAMP-LFD detection limit was 7.4 pg/μL (approximately 6.5 cells/mL) of K. veneficum genomic DNA and was 10 times more sensitive than standard PCR. The LAMP-LFD method exhibited high specificity and accurately identified K. veneficum algal isolates, but not other algal isolates. To test the assay’s accuracy, samples from positive results were further analyzed by sequencing and phylogenetic analysis, all of which were identified as K. veneficum. Over all, the LAMP-LFD assay established in this paper can be used as a reliable and simple method to detect the K. veneficum.     

Rapid and sensitive detection method for Karlodinium veneficum by recombinase polymerase amplification coupled with lateral flow dipstick

The dinoflagellate Karlodinium veneficum that is usually present at relatively low cell abundances is a globally-distributed harmful algal bloom-forming species, which negatively affects marine ecosystems, fisheries, and human health. Hence, an efficient detection platform for the rapid and sensitive identification of K. veneficum is highly demanded. In this study, a method referred to as recombinase polymerase amplification coupled with lateral flow dipstick (RPA-LFD) was developed for the rapid detection of K. veneficum. The primers for RPA and the detection probe for LFD were designed to specially target the internal transcribed spacer of K. veneficum by molecular cloning and multiple alignments of the related sequences. The developed RPA can gain an approximately 300 bp specific band from K. veneficum. Successful amplification for RPA could be achieved at a temperature range of 35 °C–45 °C. RPA for 30 min could produce enough products that could generate clearly visible electrophoresis bands and were adequate for subsequent LFD analysis. The RPA products can be visually detected by the naked eyes through an LFD after an automatic chromatography for 5 min at room temperature. The developed RPA-LFD was exclusively specific for K. veneficum and displayed no cross-reactivity with other algal species that are commonly distributed along the Chinese coast. In addition, the lowest detection limit of RPA-LFD was 10 ng μL⁻¹ of genomic DNA and 0.1 cell mL⁻¹, which was 100-fold sensitive than conventional PCR. In conclusion, the developed RPA-LFD assay in this study can be used as a rapid and sensitive method to monitor K. veneficum in the future.     

一种快速检测桉树焦枯病菌(Cylindrocladium scoparium)的LAMP体系的建立及应用

【目的】建立桉树焦枯病快速有效的环介导等温扩增反应LAMP,检测技术。【方法】以桉树焦枯病原菌Cylindrocladium scoparium为研究对象,利用Primer Explorer V4.0设计软件,针对C. scoparium的beta-tubulin gene特异保守区域设计了一套LAMP特异性引物组(内引物FIP/BIP,外引物F3/B3,环引物LooPF/LooPB),优化并建立了桉树焦枯病原菌的LAMP快速检测体系。【结果】LAMP反应体系为(50 μL)：Bst DNA polymerase (8 U) 1 μL;甜菜碱溶液(5 mol/L) 3.0 μL;dNTPs (2.5 mmol/L) 3.5 μL;10×Thermopol Ⅱ 2.5 μL;MgCl2 (100 mmol/L) 2 μL;FIP/BIP (40 μmol/L)各1 μL;F3/B3 (10 μmol/L)各0.5 μL;LooPF/LooPB (10 μmol/L)各1 μL;DNA模板2 μL;用ddH2O补足体积至50 μL。反应程序为：65 °C水浴锅中反应45 min,90 °C灭活5 min结束反应。特异性检测结果显示,供试的12个样本菌株LAMP产物可以采用肉眼观察、紫外灯照射、添加荧光染料SYBR Green I以及电泳检测条带4种不同的形式予以区分。DNA灵敏度检测结果显示,建立的LAMP体系检测灵敏度可达到40 μg/L,完全符合田间检测的要求。野外田间时效检测结果显示,无论是利用紫外检测还是电泳检测均可成功地检测出各地区不同生理小种的桉树焦枯病原菌C. scoparium,且检测效果明显。【结论】该LAMP检测是一项能够作为野外基层田间检测的重要技术。     

基于环介导恒温扩增技术的大肠杆菌O157:H7快速检测试剂盒的评价

【目的】评价基于环介导恒温扩增技术(LAMP)的大肠杆菌O157:H7(Escherichia coli O157:H7)快速检测试剂盒的实效性。【方法】测定快速检测试剂盒的特异性、灵敏度、重复性、保质期以及运输稳定性,并与传统方法对比检测实际样品。【结果】大肠杆菌O157:H7标准菌株样品均检测为阳性,非大肠杆菌O157:H7标准菌株样品均检测为阴性,未发现有交叉反应;试剂盒最低检验限为29 CFU;该试剂盒的特异性、灵敏度及准确度与传统方法相比具有较高的一致性;试剂盒对高菌量目标菌和阴性菌样品的检测重复率均为100%,对低菌量目标菌样品的批间检测重复率为94%。试剂盒可在4°C保存9个月以上,并且可进行变温储存72 h以上。【结论】该试剂盒特异性好,灵敏度高,重复性好,储存方便,检测结果稳定、可靠,适用于对食品中大肠杆菌O157:H7的检测需求。