Simultaneous Quantification for Hepatitis B Virus and Hepatitis C Virus Using Real-time PCR Lab-on-a-chip

J. Chien, D.S. Lee, W.P. Chou, P.Y. Wang, C.R. Yang, M.H. Wu, C. Tsai, T.L. Chang, Y.W. Lee, Y.T. Cheng, P. Chen
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引用次数: 3

Abstract

The current real-time PCR (polymerase chain reaction) platforms, which can detect and quantify several target DNA simultaneously, are equipped with discrete optics and detectors for different fluorescence wavelengths. However, the optical loss, due to the different lengths of the channels for several dyes, lowers the performance of fluorescence detection. Especially on the PCR platforms of lab-on-a-chip system, for the dispersion of the fluorescence in the micro fluidic channels, the received fluorescence is much lower than the emitted. To enhance the received intensity on the detection system is therefore a critical issue. The proposed fluorescence detection system, composing of an ultra-sensitive spectrometer, can provide continuous wavelength detection and can be employed for multiple DNA quantification and genotyping in a single reaction. For the tests to the genotyping ability, the melting temperatures of B type HBV and C type HBV can be distinguished by the difference of 1.1degC.The test results in this research show the same degree of sensitivity for DNA quantification and reproducibility within five intra assay samples as compared with a commercial one
实时荧光定量PCR检测乙肝病毒和丙肝病毒
目前的实时PCR (polymerase chain reaction,聚合酶链反应)平台采用离散光学器件和不同荧光波长的检测器,可以同时检测和定量多个目标DNA。然而,由于不同染料的通道长度不同,光学损耗降低了荧光检测的性能。特别是在芯片实验室系统的PCR平台上,由于荧光在微流控通道中的分散,接收到的荧光远低于发射的荧光。因此,提高探测系统的接收强度是一个关键问题。该荧光检测系统由一个超灵敏光谱仪组成,可提供连续波长检测,可在一次反应中进行多个DNA定量和基因分型。对于基因分型能力的测试,B型HBV和C型HBV的熔化温度可以区分为1.1℃的差异。本研究的测试结果表明,与商业样品相比,5个检测样品的DNA定量灵敏度和可重复性相同
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