Novel fluorescence detection technique for non-contact temperature sensing in microchip PCR

Sudip Mondal, V. Venkataraman
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引用次数: 23

Abstract

DNA amplification using Polymerase Chain Reaction (PCR) in a small volume is used in Lab-on-a-chip systems involving DNA manipulation. For few microliters of volume of liquid, it becomes difficult to measure and monitor the thermal profile accurately and reproducibly, which is an essential requirement for successful amplification. Conventional temperature sensors are either not biocompatible or too large and hence positioned away from the liquid leading to calibration errors. In this work we present a fluorescence based detection technique that is completely biocompatible and measures directly the liquid temperature. PCR is demonstrated in a 3 μL silicon-glass microfabricated device using non-contact induction heating whose temperature is controlled using fluorescence feedback from SYBR green I dye molecules intercalated within sensor DNA. The performance is compared with temperature feedback using a thermocouple sensor. Melting curve followed by gel electrophoresis is used to confirm product specificity after the PCR cycles.

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微芯片PCR非接触式温度传感荧光检测新技术
DNA扩增使用聚合酶链反应(PCR)在小体积被用于实验室芯片系统涉及DNA操作。对于几微升体积的液体,很难准确和可重复地测量和监测热剖面,这是成功扩增的基本要求。传统的温度传感器要么不具有生物相容性,要么太大,因此远离液体,导致校准误差。在这项工作中,我们提出了一种基于荧光的检测技术,它是完全生物相容性的,可以直接测量液体温度。采用非接触式感应加热,在3 μL硅玻璃微加工器件上进行了PCR实验,该器件的温度由嵌入传感器DNA的SYBR绿色I染料分子的荧光反馈控制。利用热电偶传感器将其性能与温度反馈进行了比较。PCR循环后,采用熔融曲线和凝胶电泳确认产物特异性。
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