MCU based real-time temperature control system for universal microfluidic PCR chip |
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Authors: | Dawoon Han You-Cheol Jang Sung-Nam Oh Rohit Chand Ki-Tae Lim Kab-Il Kim Yong-Sang Kim |
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Affiliation: | 1. School of Electronic and Electrical Engineering, Sungkyunkwan University, Suwon, Gyeonggi, 440-746, Korea 2. Department of Research and Development, STATSChipPac, Icheon, Gyeonggi, 467-734, Korea 3. Department of Electrical Engineering, Myongji University, Yongin, Gyeonggi, 449-728, Korea
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Abstract: | The analysis of genetic materials in the post-human genome project era has become an ever-expanding branch of research and thus routinely employed in majority of biochemical laboratories. Most of the diagnostic research area emphasizes on polymerase chain reaction for detecting pathogenic organisms. However, the conventional polymerase chain reaction requires expensive and sophisticated thermal cycler and is not handy owing to its large dimensions. Therefore, we fabricated a continuous-flow polymerase chain reaction chip on a PDMS based microfluidic platform to ease the hardship of the conventional system. Temperature being the most crucial factor in polymerase chain reaction, was monitored and regulated by thermostatic action using an on-line computer system. Indium tin oxide coated glass platform was used for heating as it is transparent and has good thermal conductivity under the influence of DC bias. The heating circuit used an ATMega 128 MCU to control the temperature. As a result, a precise and quick heating environment was maintained on the microfluidic chip to amplify the target DNA. We successfully amplified Lambda phage and Escherichia coli DNA on our chip to prove the practicality of the device. |
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