Enhancement of Efficiency for Polymerase Chain Reaction Using Nanoparticle-Coated Graphene Oxide

  • 주민영 (중앙대학교 화학과 나노바이오화학 연구실) ;
  • 백승훈 (중앙대학교 화학과 나노바이오화학 연구실) ;
  • 김은주 (중앙대학교 화학과 나노바이오화학 연구실) ;
  • ;
  • 박찬영 (중앙대학교 화학과 나노바이오화학 연구실) ;
  • 박태정 (중앙대학교 화학과 나노바이오화학 연구실)
  • Published : 2016.02.17

Abstract

Polymerase chain reaction (PCR) has revolutionized genetics and become one of the most popular techniques in modern biological and medical sciences. It can be used not only as an in vitro DNA amplification method but also used in many bioassay applications. The PCR can be used to exponentially produce a large number of DNA copies from a small quantity of DNA molecules in a few hours. However, as unwanted DNA fragments are also often manufactured, the amplification efficiency of PCR is decreased. To overcome this limitation, several nanomaterials have been employed to increase the specificity of the PCR reaction. Recently, graphene has attracted a great interest for its excellent electron transfer, thermal and biocompatibility. Especially, gold nanoparticle-coated graphene oxide (GO/AuNPs) led to enhance electron and thermal transfer rate and low-charge transfer resistance. Therefore, we report the development of a demonstration for the PCR efficiency using a large-scale production of the GO and combination of gold nanoparticles. Because a thermal conductivity is an important factor for improving the PCR efficiency in different DNA polymerases and different size samples. When PCR use GO/AuNPs, the result of transmission electron microscopy and real-time quantitative PCR (qPCR) showed an enhanced PCR efficiency. We have demonstrated that GO/AuNPs would be simply outperformed for enhancing the specificity and efficiency of DNA amplification procedure.

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