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The molecular identification of Fritillaria taibaiensis and its relatives was studied by real-time PCR with a TaqMan-MGB probe. DNA was extracted from F. taibaiensis and its relatives. According to the sequence of ITS1 region, the mutation sites of F. taipaiensis and its related species were identified by MEGA7.0 software. The specific primers (a pair) and a TaqMan-MGB probe were designed by Primer Premier 6.0 software. In the Roche LightCycler 96 system, the lowest limit of detection for F. taipaiensis DNA template was 0.002 39 ng·μL-1, and the optimal Tm value range was 60 and 61 ℃. Specificity identification showed that the method had good specificity for F. taipaiensis, as it could be distinguished from other 13 different Fritillaria species including F. unibracteata. Since this method could accurately identify F. taipaiensis and its related species, it provides technical support for rational development of F. taipaiensis resources, management of Chinese medicinal market and supervision of raw materials in Chinese medicine manufacturing enterprises.
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Objective@#To establish a TaqMan-MGB probe-based real-time fluorescence RT-PCR assay for avian influenza H5N6 virus used in rapid diagnosis for suspected cases and surveillance for outer environment of live poultry markets.@*Methods@#Based on the conservative sequences of avian influenza H5N6 virus for HA and NA gene published on GenBank, specific primers and TaqMan-MGB probes were designed to develop and optimize for the dual real-time RT-PCR assay. Specificity, sensitivity, repeatability and comparison tests were carried out.@*Results@#This dual real-time RT-PCR detection can be completed within 80 minutes. There was no cross-reaction with other subtypes of influenza virus and common respiratory pathogens. The minimum detection limit could be up to 10 copies/reaction. The correlation coefficient of standard curve for the gene of H5 and N6 were 0.999 and 0.993, and the coefficients of variation for cycle threshold were range from 0.151%-0.549%and 0.213%-0.575%, respectively. The positive and negative coincidence rates of the validation test were 100%.@*Conclusions@#This TaqMan-MGB probe-based dual real-time RT-PCR for avian influenza H5N6 virus was rapid, specific and sensitive. It will have a good use in early emergency detection of suspected cases and continuous monitoring of external environment in live poultry trade market.
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Objective Developing a rapid and accurate real-time qPCR method for the detection of HCV-RNA.Methods HCV nucleotide sequence was analysed in Clustal software and primers and probe were designed in the conserved region of 5'UTR.The reaction system optimization of real-time qPCR method was used chessboard titration,pseudoviral particles were used as quantitative standard to assess the performance.New methods was compared with clinical commonly used kit of HCV-RNA and discuss the application value.Results The sensitivity of new real-time qPCR method was 50 IU/ml,coefficient variation was less than 5%.The quantitative results of this method could be traceable to national standards of GBW09151a.40 samples were determined by new methods and clinical commonly used kit of HCV-RNA,the positive concordance rate was 100 %,the negative concordance rate was 56 %.14 samples were positive by new method,but negative by Qiagen kit,illustrating that the sensitivity of new method was superior to Qiagen kit.Conclusion New TaqMan-MGB probe-based real-time qPCR method is a specific,sensitive,simple,rapid and exactly used to detection of HCV-RNA.
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Objective To develop a real-time PCR assay for the rapid identification of Clostridium(C.)difficile and its toxin. Methods TaqMan real-time PCR was developed for the rapid identification of species specific gene(tpi)of C. difficile strains and the toxins A(TcdA),B(TcdB) and truncated toxin A(TcdAT). Sensitivity,specificity and anti-interference ability of these methods were estimated,as well. Feces sampled from fifty diarrhea patients were tested by real-time PCR and compared to the results from VIDAS assay. Results The detection limits of tpi were 6×10-2 CFU/μl and 6 × 10-1 CFU/μl in the non-oxin producing and toxin producing strains,respectively. The coefficients of variability (CV) of intra-assay and inter-assay for the detection limits of tpi in the non-toxin producing strain were 2.1% and 2.3%. The CVs of intra-assay and inter-assay for the detection limit of tpi,tcdA,tcdB and tcdAT in the toxin producing strain were 3.0%and 3.4%,2.9%and 3.2%,5.3%and 5.7%,2.7%and 2.8%,respectively. No interferance was detected from other genus or species in clostridium. From 50 clinical samples,thirty-nine of them were negative and six of them were positive under the TaqMan-MGB probe technique in accordance with VIDAS. Five samples appeared positive using the TaqMan-MGB probe technique,in which 3 were dubious and 2 were negative under VIDAS. Conclusion The newly developed method was a sensitive and reliable assay for rapid identification of C. difficile and its toxin. This method could be used to screen C. difficile isolates harboring truncated toxin A to avoid misdiagnosis,clinically.
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Objective To develop a real-time PCR assay for the rapid identification of Clostridium(C.)difficile and its toxin. Methods TaqMan real-time PCR was developed for the rapid identification of species specific gene(tpi)of C. difficile strains and the toxins A(TcdA),B(TcdB) and truncated toxin A(TcdAT). Sensitivity,specificity and anti-interference ability of these methods were estimated,as well. Feces sampled from fifty diarrhea patients were tested by real-time PCR and compared to the results from VIDAS assay. Results The detection limits of tpi were 6×10-2 CFU/μl and 6 × 10-1 CFU/μl in the non-oxin producing and toxin producing strains,respectively. The coefficients of variability (CV) of intra-assay and inter-assay for the detection limits of tpi in the non-toxin producing strain were 2.1% and 2.3%. The CVs of intra-assay and inter-assay for the detection limit of tpi,tcdA,tcdB and tcdAT in the toxin producing strain were 3.0%and 3.4%,2.9%and 3.2%,5.3%and 5.7%,2.7%and 2.8%,respectively. No interferance was detected from other genus or species in clostridium. From 50 clinical samples,thirty-nine of them were negative and six of them were positive under the TaqMan-MGB probe technique in accordance with VIDAS. Five samples appeared positive using the TaqMan-MGB probe technique,in which 3 were dubious and 2 were negative under VIDAS. Conclusion The newly developed method was a sensitive and reliable assay for rapid identification of C. difficile and its toxin. This method could be used to screen C. difficile isolates harboring truncated toxin A to avoid misdiagnosis,clinically.
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Objective To develop a real-time fluorescence quantitative PCR method for detection of Legionella pneumophila as a tool for environmental and clinical examination. Methods A pair of degen-erated primers and one TaqMan-MGB probe were designed to test the conserved region at the macrophage in-fective potentiation (mip) gene of Legionella pneumophila. TaqMan MGB real-time quantitative PCR assay was developed with pMD-19T plasmid including mip gene of Legionella pneumophila as standard sample. The sensitivity and specificity of the real-time quantitative PCR was evaluated using the standard sample and dif-ferent strains. Results The detection limit of 0.71 copy/μl was obtained for the standard sample in a reac-tion system of 0.6μl of sense and antisense primers (20μmol/L), respectively, 0.4μl of probe (20μmol/L) and 6.0μl of DNA temple. Conditions for the PCR reactions were as follows. After an initial de-naturation at 95℃ for 20s, 40 amplification cycles were performed. Each cycle consisted of denaturation at 95℃ for 10 s, primer annealing at 50℃ for45s. The PCR Ct value of a standard strain and 12 isolates was in a scale of 13.23 and 16.04. However, the Ct values of the strains of Staphylococcus aureus, Salmonella typhimurium, Vibrio parahaemolyticus, Escherichia coli, Pseudomonas aeruginosa and Shigella sonnei were greater than 30. Conclusion The real-time quantitative PCR method has good sensitivity and specificity and the result has potentiality of applying for detecting Legionella pneumophila.
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OBJECTIVE To establish a simple,sensitive method for detecting the double mutation of the basal core promoter(BCP) of HBV.METHODS FAM fluorescence-labeled TaqMan MGB and primers driving from the region containing the double mutation of BCP were designed for the real time PCR,then the standard positive control,standard negative control and HBV DNA were amplified and detected by the real time PCR.The results of detecting the double mutation of BCP were validated by the direct-sequencing analysis of PCR products.RESULTS The double mutation of BCP of HBV could be detected by the real time PCR.The sensitivity of the method was 3?100 copy templates and as few as 1% of mutant among wild-type virus sequence were detected.CONCLUSIONS The method can be used to detect the double mutation of BCP of serum HBV DNA.