AIM: To develop a real-time PCR for detecting hepatitis B virus-(HBV) DNA based on TaqMan technology using a new MGB probe.METHODS: Plasmid containing the sequence of X gene (1414-1744 nt) was constructed as HBV-DNA s...AIM: To develop a real-time PCR for detecting hepatitis B virus-(HBV) DNA based on TaqMan technology using a new MGB probe.METHODS: Plasmid containing the sequence of X gene (1414-1744 nt) was constructed as HBV-DNA standard for quantitative analysis. A TaqMan-MGB probe between primers for amplification was designed to detect PCR products. The interested sequence contained in the plasmid and in clinical specimens was quantitatively measured.RESULTS: The detection limit of the assay for HBV DNA was 1 genome equivalent per reaction. A linear standard curve was obtained between 100 and 109 DNA copies/reaction (r>0.990). None of the negative control samples showed false-positive reactions in duplicate. HBV DNA was detected in 100% (50/50) of HBV patients with HbeAg, and in 72.0% (36/50) with HBsAg, HBeAb and HBcAb. The coefficient of variation for both intra- and inter-experimental variability demonstrated high reproducibility and accuracy.CONCLUSION: Real-time PCR based on TaqMan-MGB probe technology is an excellent method for detection of HBV DNA.展开更多
目的建立TaqMan-MGB探针检测CYP2C19基因*2、*3和*17三个多态性位点的方法。方法针对CYP2C19基因*2、*3和*17位点设计合成相应引物及双标记探针。选取2021年3月至2022年6月贵州省人民医院心内科门诊已知基因型的剩余全血样本42例,覆盖...目的建立TaqMan-MGB探针检测CYP2C19基因*2、*3和*17三个多态性位点的方法。方法针对CYP2C19基因*2、*3和*17位点设计合成相应引物及双标记探针。选取2021年3月至2022年6月贵州省人民医院心内科门诊已知基因型的剩余全血样本42例,覆盖每个位点的每个基因型各10例,提取DNA进行聚合酶链反应(PCR)检测,产物进行电泳和Sanger法测序分析。加样1、10、100、800 ng DNA,进行PCR检测以评价灵敏度。每个位点的每个基因型5例,每周1次对其检测,连续3周,以评价重复性。结果设计的引物扩增出目的基因片段,电泳显示明亮的单一的DNA条带;90个基因型的PCR结果与测序结果完全一致(P>0.05);不同加样量PCR法均可准确判读基因型,所有基因型在1 ng水平的Ct值均<34。同一基因型3次重复检测的结果一致。结论本研究成功建立了TaqMan-MGB探针检测CYP2C19基因*2、*3和*17三个多态性位点的方法,具有快速、准确、灵敏、简便的特点。展开更多
以小麦印度腥黑穗病菌9个菌株和黑麦草腥黑穗病菌5个菌株及其近似种或相关种:稻粒黑粉菌、狼尾草腥黑粉菌、狗尾草腥黑粉菌、苏玛特腥黑粉菌、狐尾草腥黑粉菌、小麦网腥黑穗病菌和小麦矮化腥黑穗病菌共9种22个菌株为研究对象,通过序列...以小麦印度腥黑穗病菌9个菌株和黑麦草腥黑穗病菌5个菌株及其近似种或相关种:稻粒黑粉菌、狼尾草腥黑粉菌、狗尾草腥黑粉菌、苏玛特腥黑粉菌、狐尾草腥黑粉菌、小麦网腥黑穗病菌和小麦矮化腥黑穗病菌共9种22个菌株为研究对象,通过序列比对分析,设计了检测小麦印度腥黑穗病菌及黑麦草腥黑穗病菌的TaqM an MGB实时荧光PCR引物和探针,优化了反应条件,筛选出特异性探针,分别建立了小麦印度腥黑穗病菌和黑麦草腥黑穗病菌实时荧光单重PCR和实时荧光双重PCR检测方法,其中实时荧光双重PCR检测方法实现了在同一PCR管中仅用5μL的反应体系,进行1次PCR反应就能特异性检测出小麦印度腥黑穗病菌或黑麦草腥黑穗病菌。本研究所建立的检测方法特异性强、结果可靠、检测速度快、成本明显降低,在实际应用中具有推广价值。展开更多
文摘AIM: To develop a real-time PCR for detecting hepatitis B virus-(HBV) DNA based on TaqMan technology using a new MGB probe.METHODS: Plasmid containing the sequence of X gene (1414-1744 nt) was constructed as HBV-DNA standard for quantitative analysis. A TaqMan-MGB probe between primers for amplification was designed to detect PCR products. The interested sequence contained in the plasmid and in clinical specimens was quantitatively measured.RESULTS: The detection limit of the assay for HBV DNA was 1 genome equivalent per reaction. A linear standard curve was obtained between 100 and 109 DNA copies/reaction (r>0.990). None of the negative control samples showed false-positive reactions in duplicate. HBV DNA was detected in 100% (50/50) of HBV patients with HbeAg, and in 72.0% (36/50) with HBsAg, HBeAb and HBcAb. The coefficient of variation for both intra- and inter-experimental variability demonstrated high reproducibility and accuracy.CONCLUSION: Real-time PCR based on TaqMan-MGB probe technology is an excellent method for detection of HBV DNA.
文摘目的建立TaqMan-MGB探针检测CYP2C19基因*2、*3和*17三个多态性位点的方法。方法针对CYP2C19基因*2、*3和*17位点设计合成相应引物及双标记探针。选取2021年3月至2022年6月贵州省人民医院心内科门诊已知基因型的剩余全血样本42例,覆盖每个位点的每个基因型各10例,提取DNA进行聚合酶链反应(PCR)检测,产物进行电泳和Sanger法测序分析。加样1、10、100、800 ng DNA,进行PCR检测以评价灵敏度。每个位点的每个基因型5例,每周1次对其检测,连续3周,以评价重复性。结果设计的引物扩增出目的基因片段,电泳显示明亮的单一的DNA条带;90个基因型的PCR结果与测序结果完全一致(P>0.05);不同加样量PCR法均可准确判读基因型,所有基因型在1 ng水平的Ct值均<34。同一基因型3次重复检测的结果一致。结论本研究成功建立了TaqMan-MGB探针检测CYP2C19基因*2、*3和*17三个多态性位点的方法,具有快速、准确、灵敏、简便的特点。
文摘以小麦印度腥黑穗病菌9个菌株和黑麦草腥黑穗病菌5个菌株及其近似种或相关种:稻粒黑粉菌、狼尾草腥黑粉菌、狗尾草腥黑粉菌、苏玛特腥黑粉菌、狐尾草腥黑粉菌、小麦网腥黑穗病菌和小麦矮化腥黑穗病菌共9种22个菌株为研究对象,通过序列比对分析,设计了检测小麦印度腥黑穗病菌及黑麦草腥黑穗病菌的TaqM an MGB实时荧光PCR引物和探针,优化了反应条件,筛选出特异性探针,分别建立了小麦印度腥黑穗病菌和黑麦草腥黑穗病菌实时荧光单重PCR和实时荧光双重PCR检测方法,其中实时荧光双重PCR检测方法实现了在同一PCR管中仅用5μL的反应体系,进行1次PCR反应就能特异性检测出小麦印度腥黑穗病菌或黑麦草腥黑穗病菌。本研究所建立的检测方法特异性强、结果可靠、检测速度快、成本明显降低,在实际应用中具有推广价值。