Investigating the Effect of Charged Components on Translocation of DNA Molecules in Track-Etched Nanopores

Dinler Ali; Kececi Kaan; Kaya Dila; Yilmaz Durdane

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Investigating the Effect of Charged Components on Translocation of DNA Molecules in Track-Etched Nanopores

机译：调查带电成分对轨迹纳米孔中DNA分子易位的影响

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摘要

To understand and improve the translocation dynamics of nanopore based sensors, we studied theoretically the translocation of DNA molecules and compared them with experimental results. In our experimental studies, we used conically shaped track-etched polymer (i.e., PET) membrane and built our model based on its physical properties. Simulations were conducted by varying the surface charges of the nanopore and the particle, particle (i.e., DNA) position and applied potential to examine the translocational behavior of DNA and its effect on current-pulse shape. Our results showed that variations in surface and DNA charge density cause conductive distortions indicating the interaction between the surface and the DNA. It also confirmed that the DNA charge density does not remain in its native form in the solution as well as the pore charge during the translocation.

机译：为了了解和改进基于纳米孔的传感器的易位动态，我们从理论上研究了DNA分子的易位，并将其与实验结果进行了比较。在我们的实验研究中，我们基于其物理性质使用圆锥形轨道蚀刻的聚合物（即，PET）膜，并建立了模型。通过改变纳米孔的表面电荷和颗粒，颗粒（即，DNA）位置和施加电位来进行模拟，以检查DNA的易位性能及其对电流脉冲形状的影响。我们的结果表明，表面和DNA电荷密度的变化导致导电扭曲，指示表面和DNA之间的相互作用。它还证实，DNA电荷密度在溶液中的天然形式并不保持在易位期间的孔电荷。

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来源
《IEEE sensors journal》 |2020年第8期|4041-4046|共6页
作者
Dinler Ali; Kececi Kaan; Kaya Dila; Yilmaz Durdane;
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作者单位

Istanbul Medeniyet Univ Dept Math TR-34700 Istanbul Turkey;

Istanbul Medeniyet Univ Dept Chem TR-34700 Istanbul Turkey;

Istanbul Medeniyet Univ Dept Chem TR-34700 Istanbul Turkey;

Istanbul Medeniyet Univ Nanosci & Nanoengn Div TR-34700 Istanbul Turkey;

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正文语种 eng
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关键词
Charge density; nanopore sensor; nanopore simulation; resistive-pulse sensing; track-etched polymer membrane;

机译：电荷密度;纳米孔传感器;纳米孔仿真;电阻脉冲感测;轨道蚀刻的聚合物膜;

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专利

1. Investigating the translocation of λ-DNA molecules through PDMS nanopores [J] . Sen Y.-H., Karnik R. Analytical and bioanalytical chemistry . 2009,第2期

机译：研究λ-DNA分子通过PDMS纳米孔的转运
2. Investigating the translocation of λ-DNA molecules through PDMS nanopores [J] . Yi-Heng Sen, Rohit Karnik Analytical and Bioanalytical Chemistry . 2009,第2期

机译：研究λ-DNA分子通过PDMS纳米孔的转运
3. Multilevel description of the DNA molecule translocation in solid-state synthetic nanopores [J] . Nosik V. L., Rudakova E. B. Crystallography reports . 2016,第4期

机译：固态合成纳米孔中DNA分子易位的多层次描述
4. SINGLE-MOLECULE DNA TRANSLOCATION THROUGH Si3N4- AND GRAPHENE SOLID-STATE NANOPORES [C] . A. Spiering, S. Knust, S. Getfert International Conference on Nanopores for Bioanalitycal Applications . 2012

机译：通过Si3N4-和石墨烯固态纳米孔的单分子DNA易位
5. Single molecule investigations of DNA looping using the tethered particle method and translocation by acto-myosin using polarized total internal reflection fluorescence microscopy. [D] . Beausang, John F. 2010

机译：使用束缚粒子方法对DNA环进行单分子研究，并使用偏振全内反射荧光显微镜通过肌动球蛋白进行易位。
6. Mechanism of How Salt-Gradient-Induced Charges Affect the Translocation of DNA Molecules through a Nanopore [O] . Yuhui He, Makusu Tsutsui, Ralph H. Scheicher, 2013

机译：盐梯度诱导的电荷如何影响DNA分子通过纳米孔易位的机制。
7. Investigating the translocation of λ-DNA molecules through PDMS nanopores [O] . Karnik, Rohit, Sen, Yi-heng 2008

机译：通过pDms纳米孔研究λ-DNa分子的易位

Investigating the Effect of Charged Components on Translocation of DNA Molecules in Track-Etched Nanopores

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