Microfluidic device for rapid detection of cytomegalovirus (CMV) by sequence-specific hybridization of PCR-amplified CMV-DNA

M. P. Briones, K. Yamashita, S. Numata, M. Miyazaki, Y. Nakamura, H. Maeda
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引用次数: 3

Abstract

This paper reports rapid detection of human CMV by using a microfluidic device fabricated on plastic chip. The method employs post PCR product analysis by sequence-specific hybridization between amplified CMV-DNA target and complementary PNA probe in microchannel for specific detection of CMV. The PCR product solution and PNA probe solution flowed simultaneously along the microchannel forming a laminar flow at the straight channel. Hybridization of PCR amplified target DNA and fluorescently labeled peptide nucleic acid (PNA) probe occurred at the interface of the laminar flow. Secondary laminar flow, on the other hand, is formed at the curving part of the microchannel allowing separation of DNA hybrids. Hybridized DNA were detected by laser induced fluorescence microscopy. Collectively, these features allowed identification of PCR amplified CMV-DNA. Compared to the conventional pp65 antigenemia test, microfluidic device is found to be more sensitive in detecting low-level viremia
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pcr扩增CMV- dna序列特异性杂交快速检测巨细胞病毒(CMV)的微流控装置
本文报道了用塑料芯片制作的微流控装置快速检测人巨细胞病毒。该方法采用扩增后的CMV- dna靶点与互补PNA探针在微通道中进行序列特异性杂交的PCR后产物分析,特异性检测CMV。PCR产物溶液和PNA探针溶液沿微通道同时流动,在直通道处形成层流。PCR扩增的靶DNA与荧光标记的肽核酸(PNA)探针在层流界面进行杂交。另一方面,二级层流在微通道的弯曲部分形成,允许DNA杂交体分离。用激光诱导荧光显微镜检测杂交DNA。总的来说,这些特征允许鉴定PCR扩增的CMV-DNA。与传统的pp65抗原血症检测相比,微流控装置在检测低水平病毒血症方面具有更高的灵敏度
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