驱动DNA转运进入不对称纳米级孔隙。

Driven DNA transport into an asymmetric nanometer-scale pore.

作者信息

Henrickson S E, Misakian M, Robertson B, Kasianowicz J J

机构信息

Biotechnology Division, National Institute of Standards and Technology, Gaithersburg, Maryland 20899-8313, USA.

出版信息

Phys Rev Lett. 2000 Oct 2;85(14):3057-60. doi: 10.1103/PhysRevLett.85.3057.

DOI:10.1103/PhysRevLett.85.3057

PMID:11006002

Abstract

To understand the mechanism by which individual DNA molecules enter nanometer-scale pores, we studied the concentration and voltage dependence of polynucleotide-induced ionic-current blockades of a single alpha-hemolysin ion channel. We find that the blockade frequency is proportional to the polymer concentration, that it increases exponentially with the applied potential, and that DNA enters the pore more readily through the entrance that has the larger vestibule. We also measure the minimum value of the electrical potential that confines a modified polymer inside the pore against random diffusion and repulsive forces.

摘要

为了理解单个DNA分子进入纳米级孔隙的机制，我们研究了多核苷酸诱导的单个α-溶血素离子通道离子电流阻断的浓度和电压依赖性。我们发现阻断频率与聚合物浓度成正比，随外加电势呈指数增加，并且DNA更容易通过前庭较大的入口进入孔隙。我们还测量了将修饰聚合物限制在孔隙内以对抗随机扩散和排斥力所需的最小电势值。

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驱动DNA转运进入不对称纳米级孔隙。

Driven DNA transport into an asymmetric nanometer-scale pore.

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