THE MOLECULAR DYNAMICS STUDY FOR DETECTION OF SSDNA BY MONOLAYER GRAPHENE NANOPORE

机译：单层石墨烯纳米分子检测SSDNA的分子动力学研究。

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Molecular dynamics simulations are performed to provide valuable information about the translocation of four single-stranded DNAs with ten identical bases through graphene nanopore with diameter of 2 nm. The monolayer graphene nanopore is highly sensitive to ssDNA translocation events and the 10-base resolution detection can be realized by electrophoreticly threading ssDNA through graphene nanopore. Due to the similar sizes of the four nucleotides, the blockage current is unlikely to provide a distinguishable signal. However, by simply monitoring and analyzing the translocation time of poly(dA)_(10), poly(dC)_(10), poly(dG)_(10) and poly(dT)_(10) though graphene pore, each ssDNA can be identified and characterized.

机译：进行分子动力学模拟以提供有关具有十个相同碱基的四个单链DNA通过直径为2 nm的石墨烯纳米孔的易位的有价值的信息。单层石墨烯纳米孔对ssDNA易位事件高度敏感，可以通过电泳将ssDNA穿过石墨烯纳米孔来实现10碱基分辨率的检测。由于四个核苷酸的大小相似，因此阻断电流不太可能提供可区分的信号。然而，通过简单地监测和分析聚（dA）_（10），聚（dC）_（10），聚（dG）_（10）和聚（dT）_（10）通过石墨烯孔的移位时间，可以鉴定和表征每个ssDNA。

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《ASME international mechanical engineering congress and exposition》|2014年|V03AT03A046.1-V03AT03A046.4|共4页
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Wei Si; Jingjie Sha; Lei Liu; Yin Zhang; Yunfei Chen;
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THE MOLECULAR DYNAMICS STUDY FOR DETECTION OF SSDNA BY MONOLAYER GRAPHENE NANOPORE

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