单核细胞增生李斯特菌与志贺菌双重实时PCR检测技术的建立

目的 建立一种快速、特异、灵敏、准确定量的单核细胞增生(单增)李斯特菌(Listeriamonocytogenes)与志贺菌(Shigella)同步检测方法.方法 分别根据单增李斯特菌溶血素O基因hly与志贺菌侵袭性质粒抗原H基因ipaH设计合成引物和探针.构建重组质粒pGEM-T-hly与pGEM-T-ipaH,并以EcoR I单酶切使环状重组质粒线性化作为标准品.优化反应体系,分析特异性.双重荧光定量PCR对人工污染的脱脂灭菌乳进行检测.结果 成功构建了重组质粒标准品,并运用5'、3'端分别标记FAM、TAMRA的hly基因探针和5'、3'端分别标记HEX、TAMRA的ipaH基因探针成功建立了单增李斯特菌与志贺菌同步荧光定量PCR检测方法.结论 建立的方法有较强的特异性,线性范围好(105～101copies/μl,R2≥0.998),灵敏度为10 copies/PCR,同步检测人工污染脱脂灭菌乳的灵敏度为102CFU/ml.     

肝螺杆菌TaqMan MGB探针实时荧光定量PCR快速检测方法的建立及应用研究

目的 建立特异、敏感、快速检测肝螺杆菌的TaqMan MGB探针实时荧光定量PCR方法.方法 针对肝螺杆菌flaB 基因的保守区设计特异性引物和探针,建立肝螺杆菌TaqMan MGB探针实时荧光定最PCR方检测方法,验证方法的特异性、敏感性和稳定性.对2008-2011年期间采集的1081份临床样本中的肝螺杆菌进行检测,同时进行分离培养和常规PCR检测.结果 建立的TaqMan MGB探针实时荧光定量PCR方法对肝螺杆菌的检测具有高度的特异性,对幽门螺杆菌、空肠弯曲菌、泰泽氏菌、侵肺巴斯德氏菌、大肠埃希菌、铜绿假单胞菌均无交叉反应,检测的灵敏度达8.3拷贝.标准曲线显示各浓度范围内具有良好的线性关系,相关系数为0.999,斜率为-3.227,TaqManMGB探针实时荧光定量PCR效率为100％.对1081份临床样本进行检测,TaqMan MGB探针实时荧光定量PCR和常规PCR均能检出86份肝螺杆菌阳性样本,而细菌分离培养则仅检出4份阳性.结果显示,建立的TaqMan MGB探针实时荧光定量PCR方法比细菌分离培养方法更敏感,能够直接从临床样本中检出肝螺杆菌DNA,检测时间仅为2h.结论 研究建立的TaqMan MGB探针实时荧光定量PCR方法具有可靠、特异、敏感的特点,适用于肝螺杆菌的快速检测.     

多重实时荧光定量PCR检测肠出血性大肠杆菌O157:H7

目的 利用多重荧光定量PCR技术,建立一种快速、准确、特异检测肠出血性大肠杆菌O157:H7的定量方法.方法 选取肠出血性大肠杆菌O157:H7编码脂多糖基因(rfbE)和编码鞭毛抗原基因(fliC)作为检测的靶基因,设计引物和TaqMan-MGB探针,探针的5'端分别用FAM和HEX进行荧光标记,3'端标记MGB.优化PCR扩增体系,对多重实时荧光定量PCR方法的特异性、灵敏度、重复性评价,同时进行一定数量临床样本鉴定,与常规方法进行比较.结果 本研究所建立的多重实时荧光定量PCR方法可准确、特异地检测和鉴定肠出血性大肠杆菌O157:H7,能够有效甄别肠出血性大肠杆菌O157:H7与非H7菌株,其他菌株均无阳性结果;该方法的灵敏度可达到10 CFU/ml;定量检测的批间和批内变异系数均小于5%;对66例临床样本进行评价,结果显示15例肠出血性大肠杆菌O157:H7阳性,2例为肠出血性大肠杆菌O157:非H7阳性,其中16例与常规培养法结果符合,符合率达到98.49%.结论 本研究建立的检测肠出血性大肠杆菌O157:H7多重实时荧光定量PCR方法快速,结果准确、可靠,操作简便,为肠出血性大肠杆菌O157:H7的临床诊断、现场流行病学调查和食品安全监测提供了新的鉴定方法.     

实时荧光PCR同时检测丙型副伤寒沙门菌和猪霍乱沙门菌方法的建立和应用

目的建立丙型副伤寒沙门菌和猪霍乱沙门菌的实时荧光PCR快速检测方法,用于沙门菌属内的分型鉴定。方法根据GenBank公布的丙型副伤寒沙门菌和猪霍乱沙门菌的保守序列,设计引物和改良分子信标探针,建立实时PCR检测方法。结果检测体系灵敏度高,纯DNA和菌液的最低检出限分别可达10fg和20CFU/反应体系;特异性好,对71株细菌的检测符合率达100%。20株沙门菌采取盲号模拟血培养标本进行血培养检测及鉴定,检出5株丙型副伤寒沙门菌和4株猪霍乱沙门菌,与试验的菌株相符。70份食品中用实时荧光PCR同时检测丙型副伤寒沙门菌和猪霍乱沙门菌均为阴性,而用传统方法分离培养未检出。结论建立的实时PCR检测方法可以快速、特异、灵敏地检测出丙型副伤寒沙门菌和猪霍乱沙门菌。     

实时荧光PCR方法快速检测空肠弯曲菌方法的建立

目的建立实时荧光PCR快速检测空肠弯曲菌的方法。方法以空肠弯曲杆菌HipO基因的保守序列为模板设计特异性引物探针,建立一种能快速检测样本中空肠弯曲杆菌的实时荧光PCR方法;对方法的特异性和敏感性进行评价,并以正常人粪便为空白样本,添加一定量空肠弯曲菌标准株菌液进行检测,以对方法的检测效果进行初步评价。结果该实时荧光PCR方法只对空肠弯曲杆菌进行特异扩增,同种属的结肠弯曲菌及其他常见食源性病原菌均不能扩增;整个检测过程只需要80min,对空肠弯曲菌菌悬液可检测至5个细菌,对加标粪便样本可检测至10-100个细菌。结论本研究建立的实时荧光PCR检测空肠弯曲菌方法不仅能实现对空弯菌的快速检测,而且还为空弯菌的快速诊断及其引起的食源性疾病的监控溯源提供有意义的参考。     

实时荧光逆转录聚合酶链反应检测人类偏肺病毒方法的建立与应用

目的 建立一种快速、准确、特异的实时荧光逆转录聚合酶链反应方法(PCR),以检测人类偏肺病毒.方法 根据Hmpv-L基因序列设计引物和探针并对实时荧光PCR反应体系进行优化,提取总RNA,通过随机引物进行反转录反应;产生的cDNA通过实时荧光PCR进行鉴定.进一步评价实时荧光反转录PCR方法的特异性、灵敏度、重复性,对180例临床样本进行检测.结果 本实验所建立的实时荧光反转录PCR方法可准确、特异地检测人类偏肺病毒;该方法的灵敏度可达到1拷贝/μl;检测的批间和批内的变异系数均小于5%.180例肺炎和支气管炎患儿痰标本中共检测出28例人类偏肺病毒阳性,阳性率为15.56%(28/180);肺炎患儿检出率为15.60%(17/109);支气管炎患儿检出率为15.49%(11/71).男性患儿检出率18.56%(18/97),女性患儿检出率12.05%(10/83).患儿年龄小于2岁者检出率22.34%(21/94),2～5岁者检出率8.70%(6/69),大于5岁者检出率5.88%(1/17).结论 本研究建立的人类偏肺病毒实时荧光逆转录PCR方法快速、准确,结果可靠,实用性强;人类偏肺病毒已成为小儿呼吸道感染的重要病原体之一.     

荧光定量PCR检测查菲埃立克体

依据查菲埃立克体16SrRNA基因序列设计特异性引物和TaqMan-MGB探针,以克隆的查菲埃立克体16SrRNA基因片段作DNA模板,建立实时荧光定量PCR检测方法。与套式PCR相比较,荧光定量PCR检测的灵敏度是其30倍;用荧光定量PCR检测其他相关立克次体和细菌DNA样本,检出结果为0;对荧光定量PCR检测重复性进行分析,变异系数(CV)批内和批间误差在0·2%~2·0%之间。结果证明本研究建立的荧光定量PCR方法具有种特异性和良好的重复性,可用于检测感染样本中的微量查菲埃立克体DNA。     

应用单一和双重荧光定量PCR法快速检测军团菌

目的 建立单一和双重荧光定量PCR方法分别和同时进行军团菌属及嗜肺军团菌的检测.方法 利用军团菌属16 S rRNA基因和嗜肺军团菌mip基因设计引物和探针,两条基因探针分别标记FAM和HEX,并将相关反应体系和条件进行优化.分别应用单一基因探针(单一荧光定量PCR)和双重基因探针(双重荧光定量PCR)对嗜肺军团菌、非嗜肺军团菌及非军团菌进行检测,并验证两种方法的特异度、敏感度.应用双重荧光定量PCR检测空调水样滤膜样品和DNA提取样品,比较两者结果的一致性.结果 针对军团菌属及嗜肺军团菌,应用荧光定量PCR,16 S rRNA基因和mip基因均能较好的检出,16S rRNA和mip的最低检出限分别为8和10个拷贝.经优化得到了最佳反应体系.单一荧光定量PCR方法所检的8株嗜肺军用菌及4株非嗜肺军团菌16 S rRNA基因均为阳性,嗜肺军团菌mip基因阳性,非嗜肺军团菌mip基因阴性.双重荧光定量PCR方法所检的23株嗜肺军团菌中有2株为假阴性,9株非嗜肺军团菌和非军团菌属中有1株为假阳性.49份空调水样滤膜直接检测和提取DNA后检测的结果一致,其中26份水样军团菌阳性,20份为嗜肺军团菌,6份为非嗜肺军团菌;1份弗朗西斯菌检测HEX阳性(假阳性),占实际培养分离的1/26.结论 单一及双重荧光定量PCR法特异、快速、敏感,一次同时检测嗜肺与非嗜肺军团菌,满足对空调和环境水样军团菌监测的要求.     

应用单一和双重荧光定量PCR法快速检测军团菌

目的 建立单一和双重荧光定量PCR方法分别和同时进行军团菌属及嗜肺军团菌的检测.方法 利用军团菌属16 S rRNA基因和嗜肺军团菌mip基因设计引物和探针,两条基因探针分别标记FAM和HEX,并将相关反应体系和条件进行优化.分别应用单一基因探针(单一荧光定量PCR)和双重基因探针(双重荧光定量PCR)对嗜肺军团菌、非嗜肺军团菌及非军团菌进行检测,并验证两种方法的特异度、敏感度.应用双重荧光定量PCR检测空调水样滤膜样品和DNA提取样品,比较两者结果的一致性.结果 针对军团菌属及嗜肺军团菌,应用荧光定量PCR,16 S rRNA基因和mip基因均能较好的检出,16S rRNA和mip的最低检出限分别为8和10个拷贝.经优化得到了最佳反应体系.单一荧光定量PCR方法所检的8株嗜肺军用菌及4株非嗜肺军团菌16 S rRNA基因均为阳性,嗜肺军团菌mip基因阳性,非嗜肺军团菌mip基因阴性.双重荧光定量PCR方法所检的23株嗜肺军团菌中有2株为假阴性,9株非嗜肺军团菌和非军团菌属中有1株为假阳性.49份空调水样滤膜直接检测和提取DNA后检测的结果一致,其中26份水样军团菌阳性,20份为嗜肺军团菌,6份为非嗜肺军团菌;1份弗朗西斯菌检测HEX阳性(假阳性),占实际培养分离的1/26.结论 单一及双重荧光定量PCR法特异、快速、敏感,一次同时检测嗜肺与非嗜肺军团菌,满足对空调和环境水样军团菌监测的要求.     

肾移植后BK病毒感染者实时荧光定量PCR检测

背景：对于BK病毒感染、BK病毒相关性肾病的认识缺乏规范的实验室诊断程序和标准化的无创性检验方法。 目的：建立肾移植后患者尿液和外周血BK病毒感染负荷实时荧光定量PCR检测方法。 方法：针对BK病毒基因组,自主设计特异性引物BKV-F和BKV-R,Taqman荧光探针BKV-P,Taqman荧光探针BKV-P的5’端标记有荧光基团,在除5’端外的任意一个位置上标记有淬灭基团;然后处理待测样本,进行PCR反应。 结果与结论：将检测阳性的扩增产物进行基因测序,测序结果经BLAST比对后证实为BK病毒基因序列;利用上述方法对56份样本进行检测,其中,20份BK病毒血清样本及20份BK病毒尿液样本检测均为阳性,有S型扩增曲线。动态范围测定显示在103~1010 copies/mL之间标准曲线具有良好的相关性。5份健康人尿液样本,5份血液样本及6份临床常见的其他病原体血液样本检测均为阴性,无S型扩增曲线。结果表明该方法可进行定性、定量检测,特异性好,反应快速,一般30 min即可得到反应结果,并且成本低、假阳性少。     

Detection of Listeria monocytogenes in food using a combined enrichment/real-time PCR method targeting the prfA gene

A combined enrichment/real-time PCR method for the detection of Listeria monocytogenes is presented. The method is based on a conventional PCR assay targeting the prfA gene, which has been validated and suggested as an international standard PCR method for identifying L. monocytogenes in food. This real-time PCR assay includes an internal amplification control. Inclusivity and exclusivity were 100% each when testing 100 L. monocytogenes isolates, 30 Listeria spp. isolates other than L. monocytogenes, and 29 non-Listeria isolates. The theoretical detection limit was one copy of the target gene per PCR reaction and the practical detection limit was about 5 copies per PCR. Using the combined enrichment/real-time PCR method, 7.5 CFU/25 ml of artificially contaminated raw milk, and 9, 1, and 1 CFU/15 g of artificially contaminated salmon, paté, and green-veined cheese, respectively, were detected. When analyzing 76 naturally contaminated food samples of various types and comparing the results with the ISO 11290-1 standard method, the relative accuracy was 96%, the relative specificity 100%, and the relative sensitivity, 76.9%.     

Insufficient differentiation of live and dead Campylobacter jejuni and Listeria monocytogenes cells by ethidium monoazide (EMA) compromises EMA/real-time PCR

Recently, ethidium monoazide (EMA) has been proposed as a means of reducing the real-time PCR signal originating from free DNA and dead bacterial cells by selectively entering damaged cells and blocking the DNA for PCR amplification via photoactivation. The present study investigated the effect of EMA on viable and dead bacterial cells using real-time PCR, plate count method and microscopy. The foodborne pathogens Campylobacter jejuni and Listeria monocytogenes were used as a Gram-negative and a Gram-positive model organism, respectively. EMA/real-time PCR analysis of heat-treated cultures of C. jejuni and L. monocytogenes containing 2.6x10(5) and 4x10(5) viable and 3x10(6) and 2x10(6) dead cells/ml, respectively, yielded 2x10(3) and 5.2x10(4) bacterial cell equivalents/ml after EMA treatment, thus underestimating the viable cell count in the samples. Similar results were obtained when analyzing late exponential phase cultures of C. jejuni and L. monocytogenes. Inhibition of growth by EMA was observed. It depended on the concentration of the bacterial cells present in the sample and the EMA concentration used (100-1 microg/ml). An EMA concentration at which dead cells would stain brightly and viable cells would not stain at all or would be very pale was not identified, as revealed by comparison with the results of a commercial live/dead stain. The results suggest that EMA influences not only dead but also viable cells of C. jejuni and L. monocytogenes. Thus EMA/real-time PCR is a poor indicator of cell viability.     

Detection and quantification of the iap gene of Listeria monocytogenes and Listeria innocua by a new real-time quantitative PCR assay

A real-time quantitative polymerase chain reaction (PCR) assay for direct detection and enumeration of Listeria monocytogenes and Listeria innocua was developed and applied to artificially contaminated milk samples. The iap gene present in both species was used as a target for amplification of a 175-bp (L. monocytogenes) and a 309-bp (L. innocua) fragment. To ensure that L. monocytogenes and L. innocua are specifically detectable, tests were carried out using 42 L. monocytogenes strains and 33 L. innocua strains belonging to different serovars. Specificity was also confirmed using 22 bacterial strains not belonging to the genus Listeria, including closely related bacteria. In addition to specificity, the reported assay is characterized by a wide dynamic range of quantification and a high sensitivity, as we could detect as few as six copies of the iap gene per PCR using purified DNA as template. When applied to direct detection and quantification of L. monocytogenes in milk, the more rapid real-time quantitative PCR assay was as sensitive as the traditional plate count method, but real-time quantitative PCR-derived iap gene copy numbers were one to two logs higher than colony-forming units obtained by the plate count method.     

Evaluation of real-time PCR for detection of and discrimination between Bordetella pertussis,Bordetella parapertussis,and Bordetella holmesii for clinical diagnosis

PCR is increasingly being used as a diagnostic test for the detection of Bordetella pertussis and Bordetella parapertussis DNA, as it has improved sensitivity and specificity in comparison to conventional techniques. The assay described here uses the two insertion sequences IS481 and IS1001 for B. pertussis and B. parapertussis, respectively, with detection by molecular beacons. The real-time PCR for IS481 detects both B. pertussis and Bordetella holmesii, and the real-time PCR for IS1001 detects both B. parapertussis and B. holmesii. By performing both assays discrimination between B. pertussis and B. parapertussis can be obtained. The sensitivity was 1 to 10 CFU/ml for B. pertussis, 10 CFU/ml for B. parapertussis, and 10 CFU/ml for B. holmesii in both assays. The clinical sensitivity of the B. pertussis assay was not affected by duplexing with an internal control PCR. Real-time PCR, conventional PCR, and culture were performed on 57 clinical samples. Eight of the 57 (14%) were found positive by culture, 19 of 57 (33%) were found positive by conventional PCR, and 22 of 57 (39%) were found positive by real-time PCR. One sample was inhibitory. When the B. pertussis assay was compared with a clinical standard for B. pertussis infection, sensitivity was 38, 83, and 100% and specificity was 100, 97, and 97% for culture, conventional PCR, and real-time PCR, respectively. The real-time PCR designed for B. pertussis and B. parapertussis provides sensitive and specific diagnosis of B. pertussis and B. parapertussis infections and is therefore suitable for implementation in the diagnostic laboratory.     

Diagnosis of Listeria monocytogenes meningoencephalitis by real-time PCR for the hly gene

Listeria monocytogenes is a bacterial pathogen that can invade the central nervous system (CNS), causing meningoencephalitis and brain abscesses. The diagnosis of CNS listeriosis, based on the isolation of the bacteria in the cerebrospinal fluid (CSF), can be difficult because of previous antibiotic treatment and a low number of bacteria in the CSF. To improve the sensitivity of microbiological diagnosis, we have developed a real-time PCR assay for detecting and quantifying L. monocytogenes DNA in the CSF. The designed primers specifically amplify the L. monocytogenes hly gene, which encodes listeriolysin O, a pore-forming cytolysin. The PCR assay for the hly gene (PCR-hly) provides reproducible quantitative results over a wide dynamic range of concentrations and was highly sensitive while detecting a single gene copy/ml. By assaying a large panel of bacterial species, including species secreting pore-forming cytolysin, we determined the specificity of the PCR-hly, which exclusively detects the L. monocytogenes DNA. We then analyzed 214 CSF samples from patients suspected of having CNS listeriosis. PCR-hly was positive in all cases in which L. monocytogenes was isolated by culture. Positive PCR-hly of the CSF was also obtained for five additional, clinically confirmed cases of CNS listeriosis for which bacterial cultures were negative presumably due to previous treatment with antibiotics. As a complement to classical bacteriological CSF culture, our designed real-time PCR-hly assay proved to be valuable by enhancing the rapidity and the accuracy of the diagnosis of CNS infection by L. monocytogenes. In addition, the quantitative results provided may, in some instances, be useful for the follow-up of patients under treatment.     

Quantification of fungal DNA by using fluorescence resonance energy transfer and the light cycler system

The Light Cycler technique combines rapid in vitro amplification of DNA in glass capillaries with real-time species determination and quantification of DNA load. We have established a quantitative PCR protocol for two clinically important pathogens, Candida albicans and Aspergillus fumigatus. The sensitivity of the assay was comparable to those of previously described PCR protocols (5 CFU/ml). Specific detection of C. albicans and A. fumigatus could be achieved. The assay showed a high reproducibility of 96 to 99%. The assay was linear in a range between 10(1) and 10(4) Aspergillus conidia. As capillaries do not have to be reopened for post-PCR analysis, the risk of carryover contaminations could be minimized. The Light Cycler allowed quantification of the fungal loads in a limited number of clinical specimens from patients with hematological malignancies and histologically proven invasive fungal infections. Five of nine positive samples had fungal loads between 5 and 10 CFU/ml of blood, two of nine positive samples had fungal loads between 10 and 100 CFU/ml of blood, and two of nine samples had fungal loads of more than 100 CFU/ml of blood. All samples were also found to be PCR positive by PCR-enzyme-linked immunosorbent assay analysis.     

Automated extraction of genomic DNA from medically important yeast species and filamentous fungi by using the MagNA Pure LC system

A fully automated assay was established for the extraction of DNA from clinically important fungi by using the MagNA Pure LC instrument. The test was evaluated by DNA isolation from 23 species of yeast and filamentous fungi and by extractions (n = 28) of serially diluted Aspergillus fumigatus conidia (10(5) to 0 CFU/ml). Additionally, DNA from 67 clinical specimens was extracted and compared to the manual protocol. The detection limit of the MagNA Pure LC assay of 10 CFU corresponded to the sensitivity when DNA was extracted manually; in 9 of 28 runs, we could achieve a higher sensitivity of 1 CFU/ml blood, which was found to be significant (p 相似文献