Real-time fluorescent quantitative PCR非特异性扩增的研究进展

Real-time fluorescent quantitative PCR(RT-qPCR)因其高效快速、操作简便、高度敏感等优点获得广泛应用,但因其强大的放大功能而容易出现非特异性扩增的问题,尤其是荧光染料法中更加明显。文章对RT-qPCR的原理、非特异性扩增的发生因素、解决方案及该技术的应用前景进行了综述。

Application of Real-time Fluorescent Quantitative PCR in Plant

Real-time fluorescent quantitative PCR （RQ-PCR） is a detection method by adding fluorescent dye or fluorescent probe into the PCR reaction system, using fluorescent signal accumulation to monitor amplification reactions of PCR reaction process, and finally the unknown template can be quantitatively analyzed through the standard curve. So the detection level of PCR has improved from the qualitative to the quantitative. In order to provide a theoretical reference for further application, the principle, classification, advantages and disadvantages of RQ-PCR were intro- duced, and its application and progress in plants in recent years were reviewed.

TaqMan real-time fluorescent quantitative RT-PCR in detection of macrophage inflammatory protein-2γ mRNA in myocarditis murine

Objective: To study the role of macrophage inflammatory protein (MIP)-2γ in myocarditis pathogenesis in BALB/c mice. Methods: The relationship between the progression of Coxsarckie virus B3(CVB3) viral myocarditis and experimental autoimmune myocarditis and MIP-2γ mRNA expression in mouse was studied by TaqMan real-time fluorescent quantitative RT-PCR. Results: MIP-2γ mRNA expression rose on 3 to 5 d after CVB3 infection, reached peak on 7 d, and returned to normal level until 14 d, which corresponded well with the disease course. The MIP-2γ mRNA expression level rose significantly on the day 18 d after immunization with porcine cardiac myosin, which was consistent with pathological examination. Conclusion: MIP-2γ may be involved in the pathogenesis of myocarditis.

Detection of Lactobacillus acidophilus in Fermented Material by Real-time Fluorescent Quantitative PCR

The species distinctive PCR primer of Lactobacillus acidophilus （ L. acidophilus） was designed according to 16S rRNA gene sequences of conunon Lac- tobacillus species in fermented material. Bacterial genome DNA of separated L. acidophilus in fermented sample was taken as template, and L. acidophilus in fer- mented material was conducted the quantitative determination by real-time quantitative PCR （RT-PCR）. Analysis on RT-PCR results shown that contents of L. aci- dophilus in the test sample reached 1.5 billion CFU / g. Test results shown that contents of L. acidophilus in fermented material could be detected accurately by the established RT-PCR method in the test. indicating that the established RT-PCR method could be aookued to the detection of L. acidophilus in fermented material.

Application of Real-time Fluorescent Quantitative PCR in Studies on Plants

Real-Lime fluorescent quantitative PCR is a method for quantitative analysis of gene expression developed in recent years, which has been widely used in various fields such as basic scientific research, clinical diagnosis, disease study, drug research and development since its appearance. It starts relatively late in study on plants, but has already been used for analysis of gene expression in plants and gene identification of exogenous genes. The principles or advantages and dis- advantages of real-time fluorescent quantitative PCR, or its potential problems and condition optimizations in tests were introduced in this study, and then the appli- cation and prospect of real-time fluorescent quantitative PCR in study on plants were also been discussed.

Establishment of a Real-time Fluorescent Quantitative PCR Assay for Detection of Genetically Modified Maize Line MON88017

In order to improve the standardized technical systems of quantitative analyses for genetically modified organisms （GMOs） and products, ensure bio-safety and reduce ecological risk in China, a real-time fluorescent quantitative PCR assay was established for detection of genetically modified maize line MON88017. The established method was evaluated based on the specificity, sensitivity, accuracy and measurement uncertainty. The results showed that the established method had strong specificity in detection of genetically modified maize line MON88017. 1.50% MON88017 sample was detected with 29 replica- tions. The average measured value （ 1. 541% ） was close to the actual value （ 1.50% ） and the relative deviation was 2.70%. The variation coefficient of the measured value was 0.110 g ; the recovery was 100.00% and the measurement uncertainty was 0. 096. The limit of detection for genetically modified maize line MON88017 with the established method was 5 copies at the 97.5% confidence level. Thus, the real-time fluorescent quantitative PCR assay established in this study exhibited high specificity, accuracy and sensitivity, which could provide technical support for the safety supervision of genetically modified organ- isms and products in China.

Detection of Ratoon Stunting Disease in Virus-free Seedcane via Real-time Fluorescence Quantitative PCR

This study was to develop the real-time fluorescence quantitative PCR technique for detecting the ratoon stunting disease （RSD） in virus-free seedcane seedlings. Healthy tissue culture seedlings were obtained from six plants of sugarcane ROC22, which had been confirmed RSD-positive by detecting the sugarcane juice, by employing the sugarcane seedlings production protocol. Real-time fluorescence quantitative PCR was used to detect RSD pathogens in tissue culture sam- pies. The results showed that target fragment of RSD pathogens was not found in all 10 samples in real-time fluorescence quantitative PCR, with the Ct values of 37 - 39. The healthy tissue culture sugarcane seedlings do not carry RSD pathogens, indicating that adopting healthy seedcane seedlings production technique could thoroughly get rid of RSD pathogens.

Development and Preliminary Application of SYBR Green I Real-Time Fluorescence Quantitative PCR Method for Detecting Porcine Parvovirus Virus

According to VP2 gene sequence of the porcine parvovirus virus strain NADL-2 （NC001718） available in GenBank （NC_001718）, a pair of specific primer was designed, and the target fragment of 431 bp was obtained by PCR amplification. The products were ligated with pMD18- T vector and then transformed into bacteria DH5α for recombinant plasmid extraction. After PCR identification and sequencing, recombinant plasmid was used as a standard template to establish the standard curve of SYBR Green I fluorescence quantitative PCR. Sensitivity test, specificity test and repeatability test were also determined. The results indicated that there was a good linear relationship between threshold cycle of the standard curve and template concentration, R2 =0.997 6. Tm ranged from 82.3 to 82.9 ℃, while the sensitivity was 72.1 copies/μl with good specificity and repeatability. The developed SYBR Green I real-time quantitative PCR method to detect PPV VP2 gene laid the basis for further studies on patho- oenesis, early clinical diaonosis of this virus and quantitative analysis of PPV infection.

TaqMan多重实时定量PCR快速检测3种常见食源性病原菌

建立一种可同时快速检测大肠杆菌O157:H7、单增李斯特菌和蜡样芽孢杆菌的多重实时定量PCR(qPCR)方法。依据大肠杆菌O157:H7 tir基因、单增李斯特菌mpl基因和蜡样芽孢杆菌entFM基因的保守序列分别设计特异性引物和TaqMan探针,建立多重qPCR反应体系,进行灵敏度、特异性和稳定性试验,同步检测人工染菌牛奶样品中的病原菌并与国家标准方法作对比。结果表明,建立的多重qPCR方法灵敏度高,最低检出限为12 CFU/mL;特异性强,只对3种目标菌进行PCR扩增;稳定性好,各重复性试验中Ct值的变异系数<1%;所有受污染样品阳性检出率均为100%,与国家标准方法检测结果一致,且检测周期缩短至6 h。本研究建立的TaqMan多重qPCR方法能同时快速、准确地检测乳品中的大肠杆菌O157:H7、单增李斯特菌和蜡样芽孢杆菌,为食品安全提供技术支撑。

猪细小病毒TaqMan荧光定量PCR检测方法的建立及应用

旨在建立一种猪细小病毒(PPV)快速准确PCR检测方法,根据PPV VP2基因的保守序列设计并合成1对特异性引物和1条特异性探针,建立了可检测PPV的TaqMan荧光定量PCR检测方法。建立的检测方法敏感性高,最低可检测8.76×10^(1)copies/μL的PPV VP2基因标准品;特异性试验结果显示,该方法检测猪流行性腹泻病毒、猪圆环病毒2型、伪狂犬病病毒、猪繁殖与呼吸综合征病毒均无交叉反应;重复性试验组内与组间变异系数均低于2%,重复性良好。用该方法检测102份临床样本,检出阳性样本16份,阳性检出率为15.69%,将检测出的阳性样本进行PCR扩增并测序,证实检测样品中确实存在PPV。该方法敏感性高、特异性强,适用于PPV的定量检测及猪细小病毒病的流行病学调查。

基于TaqMan探针的Real-timePCR定量检测空肠弯曲杆菌

空肠弯曲杆菌 (Campylobacterjejuni ,C .jijuni)被认为是人类主要食源性病原菌之一。由于空肠弯曲杆菌特殊的生长条件和容易进入不可培养但存活的状态 (Viablebutnonculturable ,VNC) ,所以传统的生化鉴定结果并不一定可靠 ,并且是一项费时而繁琐的工作。核酸检测方法的出现为空肠弯曲杆菌的检测带来了方便。在本文基于LightCycler为平台 ,建立一种基于TaqMan探针的Real_timePCR方法来定量检测空肠弯曲杆菌。用该方法检测时 ,发现所有空肠弯曲杆菌 (11株 )都呈阳性 ,所有其它弯曲菌 (3株 )和其它菌株 (5株 )都是阴性。整个检测过程 6 0min内可以完成 ,检测限度为5CFU ,标准曲线的相关系数为 0 .988。结果表明荧光定量PCR方法既为空肠弯曲杆菌提供了一种特异、敏感、快速和简洁的定量检测方法 ,又为研究空肠弯曲杆菌致病机理提供了一种重要方法。

鸭坦布苏病毒TaqMan探针实时荧光定量PCR检测方法的建立

为了建立一种有效、快速、准确的鸭坦布苏病毒(DTMUV)TaqMan探针实时荧光定量PCR(qPCR)检测方法,本试验针对NCBI发布的DTMUV E基因保守序列设计特异性引物和探针,建立qPCR反应体系。通过制备的标准质粒建立标准曲线,评估该方法的特异性、敏感性和重复性,并使用该方法对临床样本进行检测。结果显示,所建立的标准曲线相关系数为0.999 5,有良好的线性关系;该方法可特异检测DTMUV;对标准质粒的最低检测限为2.72×10^(2) copies/μL,是普通PCR的100倍;CT值组内变异系数为0.97%~1.32%,组间变异系数为1.24%~1.79%;人工感染DTMUV的20份鸭胚成纤维细胞样本以及12份人工攻毒2 d的雏鸭脾脏组织样本和12份泄殖腔棉拭子样本阳性率为100%(44/44);疑似感染的12份活鸭泄殖腔棉拭子阳性率为25.00%(3/12),14份病死鸭脾脏组织样本阳性率为28.57%(4/14)。结果表明,本试验建立的TaqMan探针qPCR方法有良好的敏感性、准确性和重复性,能特异检测DTMUV,适用于临床快速检测,为DTMUV的分子流行病学调查和临床疾病诊断提供了技术支撑。

基于LNA-TaqMan探针实时荧光定量PCR检测技术的药用黄精掺伪研究

目的:建立一种快速、灵敏、有效的实时荧光定量聚合酶链式反应(PCR)方法,用于检测湖北黄精掺伪药用黄精。方法:基于锁核酸(LNA)-TaqMan探针实时荧光定量PCR技术,利用不同基原药用黄精样品的叶绿体DNA中trnC-petN基因序列差异,根据常见混伪品湖北黄精特异性差异位点设计筛选探针引物,并对引物及LNA-TaqMan探针的特异性进行验证。根据扩增曲线临界循环数(Ct)值的差值计算湖北黄精掺伪比例。结果:基于LNA-TaqMan探针能够特异性地检测出湖北黄精并确定掺伪比例,在湖北黄精掺伪1%时,仍可稳定检出。结论:该方法简便准确、稳定可靠,可以用于药用黄精掺伪湖北黄精定量检测。

尼帕病毒TaqMan探针荧光定量PCR检测方法建立

尼帕病毒病是一种人畜共患烈性传染病,为能够快速特异检测该病毒,本研究根据尼帕病毒(NiV)N基因序列保守区设计特异性引物和探针,建立一种针对NiV的TaqMan探针荧光定量PCR(qPCR)检测方法,该方法特异性好、敏感性高、稳定性强,可鉴别NiV与其他猪病病毒,扩增效率为102%,最低检测限14.8 copies/μL,敏感性高于常规PCR 10倍,该检测方法的建立可为NiV的快速检测提供技术手段,对促进猪类养殖业的健康发展具有重要意义。

诺如病毒TaqMan荧光定量PCR检测方法的设计与优化

为设计一种快速、高灵敏度检测诺如病毒(Norovirus,NV)的方法.本文通过检索参考NCBI数据库中收录的国内典型流行的NV毒株BJSMQ的基因序列NC_039476.1,合成了NV的标准重组质粒,根据NV的ORF1基因保守序列设计一组特异性引物和荧光探针;通过正交试验进行程序及试剂反应体系的优化,设计TaqMan荧光定量PCR检测方法.结果表明该检测方法具有高灵敏度,最低检测限可达1.2 copies/μL,且在标准重组质粒浓度1.2×10^(5)~1.2×10^(0) copies/μL范围内具有较好的线性关系,其R^(2)=0.9907;该方法特异性强,在病毒的混合重组质粒样液中仅与NV病毒反应;组内和组间的重复性良好,变异系数(CV)值均小于2%;在数字PCR试验中进一步验证了该方法的可行性.本文设计的TaqMan荧光定量PCR检测方法可用于NV毒株的快速准确检测,有望成为NV诊断的有效工具.

TaqMan实时荧光定量PCR法检测对虾肝肠胞虫(EHP)步骤优化

优化虾肝肠胞虫(EHP)的TaqMan实时荧光定量PCR检测流程,目的是更准确、快速地检测出虾苗,饵料,亲虾体内携带的EHP。本研究采用酚/氯仿抽提法与水生动物病原体核酸提取试剂盒两种DNA提取方法,对等量的病原组织样本进行了对比提取。此外,还设置不同浓度的裂解液以探究其对病原组织裂解效果的影响,并设定不同裂解时间以优化裂解步骤。最后,通过调整qPCR反应的循环数,确定最佳的检测条件。结果显示,水生动物病原体试剂盒提取的DNA检出率高于酚/氯仿抽提法提取,裂解液浓度90%时检测出的EHP含量最高;裂解时间30 min时检测出的EHP含量较高;循环数在40次时足以检测出EHP。综上,优化后的检测流程为用水生动物病原体核酸提取试剂盒提取病原组织DNA,裂解液浓度90%,裂解时间30 min及qPCR检测条件的循环数控制在40次。

蝗虫微孢子TaqMan探针Real-time PCR检测新方法

蝗虫微孢子已被广泛运用于蝗虫防治。本研究采用蝗虫微孢子保守性高的小核糖体亚单位RNA为目的基因,将其克隆到pMD18-T载体上构建重组质粒,制备质粒标准品。设计一对特异性引物和TaqMan探针,并对引物浓度、探针浓度分别进行了优化,建立了蝗虫微孢子TaqMan实时荧光定量PCR检测方法。该检测方法的灵敏度达1.29×105 copies/L,各浓度质粒标准品的组内和组间重复的变异系数均小于1%。这里建立的蝗虫微孢子TaqMan探针荧光定量PCR检测方法较快速、简便和准确,适用于生产中蝗虫微孢子的快速检测。

B型禽偏肺病毒TaqMan实时荧光定量PCR方法的建立及应用

试验旨在开发一种特异性检测B亚型禽偏肺病毒(aMPV-B)的方法。研究参照GenBank中的aMPV-G基因序列设计一对特异性引物,建立aMPV-B TaqMan荧光定量PCR方法,优化该方法的反应条件,建立标准曲线,进行特异性、重复性和敏感性试验,并将该方法用于临床样品的检测。结果显示:建立的TaqMan荧光定量PCR方法只能检测出B亚型aMPV,其敏感性能达到1.34×10^(1) copies/µL,斜率为-3.346,截距为40.01,相关系数(R2)为1.00,循环阈值(Ct)与模板拷贝数之间呈现良好的相关性;临床样品检测结果显示,该方法检测出18份样品阳性,而普通PCR仅检测出10份阳性。综上所述,建立的aMPV-B TaqMan荧光定量PCR方法在样品检测中表现出良好的特异性和较高的敏感性,适用于临床样品的aMPV-B检测。

Primary application of a real-time quantitative polymerase chain reaction for the detection of human breast cancer related novel gene-Metadherin expression

Objective:The aim of this study was to detect the expression level of Metadherin (MTDH) in peripheral blood of the breast cancer patients by real-time fluorescence quantitative polymerase chain reaction (PCR),and to explore the relationship between expression of Metadherin gene in the patients peripheral blood and the clinic-pathological features in breast cancer. Methods:Real-time fluorescence quantitative polymerase chain reaction was employed to determine the expression level of Metadherin gene in 80 peripheral blood samples of breast cancer patients and healthy donors. Results:The expression of Metadherin gene in breast cancer patients peripheral blood were positive,in which 34 breast cancer patients were highly expressed,accounting for 55.7%,while the expression of Metadherin gene in normal females peripheral blood were negative,there was statistical significance (Ratio = 2.02±0.81,P < 0.05); Ratio of the Metadherin expression in breast cancer patients peripheral blood and the glyceraldehyde-3-phosphate dehydrogenase expression was 1.15 ± 0.36. REST software analysis showed that the expression of Metadherin gene was significantly up-regulated in breast cancer. Conclusion:The SYBR Green I quantitative real-time polymerase chain reaction method can successfully detect the expression level of Metadherin gene. Expression level of Metadherin gene in breast cancer patients peripheral blood is closely related to survival,and it maybe involved in the development of breast cancer and used as an indicator of prognosis.

Development of Quantitative Real-time Polymerase Chain Reaction for the Detection of Vibrio vulnificus Based on Hemolysin (vvhA) Coding System

Objective To establish a TaqMan real-time fluorescent quantitative PCR to detect Vibrio vulnificus based on the hemolysin gene （vvhA） coding cytolysin. Methods Primers and probes in the conserved region of the vvhA gene sequence were designed for the TaqMan real-time PCR to detect 100 bp amplicon from V. vulnificus DNA. Recombinant plasmid pMD19-vvhA100 was constructed and used as a positive control during the detection. Minimal amplification cycles （Ct value） and fluorescence intensity enhancement （ARn value） were used as observing indexes to optimize the reaction conditions of TaqMan real-time PCR. The TaqMan assay for the detection of Vbirio vulnificus was evaluated in pure culture, mice tissue which artificially contaminated Vibrio vulnificus and clinical samples. Results The established TaqMan real-time PCR showed positive results only for Vibrio vulnificus DNA and pMD19-vvhA100. The standard curve was plotted and the minimum level of the vvhA target from the recombinant plasmid DNA was 103 copies with a Ct value of 37.94±0.19, as the equivalent of 0.01 ng purified genomic DNA of Vibrio vulnificus. The results detected by TaqMan PCR were positive for the 16 clinical samples and all the specimens of peripheral blood and subcutaneous tissue of mice which were infected with Vibrio vulnificus. Conclusion TaqMan real-time PCR is a rapid, effective, and quantitative tool to detect Vibro vulnificus, and can be used in clinical laboratory diagnosis of septicemia and wound infection caused by Vibrio vulnificus.