DNA通过孔隙运输的机制。

Murugappan Muthukumar
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引用次数: 135

摘要

像DNA这样的带电大分子通过狭窄的孔隙进行运输是生命的一个基本过程。当聚合物分子被迫通过孔隙时,它们的运输受到伴随其构象变化的熵障的控制。在过去的十年里,单分子电生理学实验取得了令人兴奋的结果。具体来说,单链DNA/RNA通过α -溶血素孔和双链DNA通过固态纳米孔的通道已经被研究。通过将这些结果与聚合物运输的熵势垒理论和大分子模拟相结合,人们对DNA通过孔隙运输的机制有了更深入的了解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Mechanism of DNA transport through pores.

The transport of electrically charged macromolecules such as DNA through narrow pores is a fundamental process in life. When polymer molecules are forced to navigate through pores, their transport is controlled by entropic barriers that accompany their conformational changes. During the past decade, exciting results have emerged from single-molecule electrophysiology experiments. Specifically, the passage of single-stranded DNA/RNA through alpha-hemolysin pores and double-stranded DNA through solid-state nanopores has been investigated. By a combination of these results with the entropic barrier theory of polymer transport and macromolecular simulations, an understanding of the mechanism of DNA transport through pores has emerged.

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