Modeling DNA Translocation Kinetics in Nanopores with Selectivity

机译：选择性纳米孔中的DNA易位动力学建模

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The development in nanotechnology has made fabrication of solid-state nanopores with 20nm diameter possible. These nanopores have found a variety of applications, with the foremost one being sensing of the biological molecules. To achieve molecular sensing, a major requirement of these solid state nanopores is molecular selectivity. This paper focuses on modeling the DNA translocation in functionalized nanopore with application on gene sequencing.

机译：纳米技术的显影使得具有20nm直径的固态纳米孔的制造。这些纳米孔已经发现了各种应用，最重要的是一种感测生物分子。为了实现分子感测，这些固态纳米孔的主要要求是分子选择性。本文重点介绍在官能化纳米孔中模拟DNA易位，应用于基因测序。

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《ASME Global Congress on Nanoengineering for Medicine and Biology》|2010年||共2页
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Abhijit Ramachandran; Qingjiang Guo; Samir Iqbal; Yaling Liu;
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1. Modeling and Estimating Simulated DNA Nanopore Translocation Signals [J] . Wanzhi Qiu, Nguyen T.C., Skafidas E. Sensors Journal, IEEE . 2013,第4期

机译：建模和估计模拟的DNA纳米孔易位信号
2. Measuring and modeling the kinetics of individual DNA-DNA polymerase complexes on a nanopore [J] . Wang H., Hurt N., Dunbar W.B. ACS nano . 2013,第5期

机译：测量和建模纳米孔上单个DNA-DNA聚合酶复合物的动力学
3. An electro-hydrodynamics-based model for the ionic conductivity of solid-state nanopores during DNA translocation [J] . Luan B., Stolovitzky G. Nanotechnology . 2013,第19期

机译：基于电流体动力学的DNA移位过程中固态纳米孔的离子电导率模型
4. Modeling DNA Translocation Kinetics in Nanopores with Selectivity [C] . Abhijit Ramachandran, Qingjiang Guo, Samir Iqbal, First global congress on nanoengineering for medicine and biology 2010 . 2010

机译：选择性建模纳米孔中的DNA转运动力学。
5. Molecular modelling of DNA translocation in bio-functionalized nanopores with applications in gene sequencing. [D] . Ramachandran, Abhijit. 2009

机译：生物功能化纳米孔中DNA易位的分子模型及其在基因测序中的应用。
6. Microscopic Kinetics of DNA Translocation through Synthetic Nanopores [O] . Aleksij Aksimentiev, Jiunn B. Heng, Gregory Timp, 2004

机译：通过合成纳米孔的DNA移位的微观动力学。
7. Translocation Kinetics of DNA through Nanopores Interfaced with Agarose Gel [O] . Waugh Matthew J., Tabard-Cossa Vincent 2014

机译：DNA通过琼脂糖凝胶介导的纳米孔的移位动力学。

Modeling DNA Translocation Kinetics in Nanopores with Selectivity

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