利用固态纳米孔重新捕获和捕获单个分子。

Recapturing and trapping single molecules with a solid-state nanopore.

作者信息

Gershow Marc, Golovchenko J A

出版信息

Nat Nanotechnol. 2007 Dec;2(12):775-9. doi: 10.1038/nnano.2007.381. Epub 2007 Dec 2.

DOI:10.1038/nnano.2007.381

PMID:18654430

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3174059/

Abstract

The development of solid-state nanopores, inspired by their biological counterparts, shows great potential for the study of single macromolecules. Applications such as DNA sequencing and the exploration of protein folding require control of the dynamics of the molecule's interaction with the pore, but DNA capture by a solid-state nanopore is not well understood. By recapturing individual molecules soon after they pass through a nanopore, we reveal the mechanism by which double-stranded DNA enters the pore. The observed recapture rates and times agree with solutions of a drift-diffusion model. Electric forces draw DNA to the pore over micrometer-scale distances, and upon arrival at the pore, molecules begin translocation almost immediately. Repeated translocation of the same molecule improves measurement accuracy, offers a way to probe the chemical transformations and internal dynamics of macromolecules on sub-millisecond time and sub-micrometre length scales, and demonstrates the ability to trap, study and manipulate individual macromolecules in solution.

摘要

受生物对应物启发而发展起来的固态纳米孔，在单一大分子研究方面显示出巨大潜力。诸如DNA测序和蛋白质折叠探索等应用需要控制分子与孔相互作用的动力学，但固态纳米孔对DNA的捕获情况尚未得到充分理解。通过在单个分子穿过纳米孔后不久重新捕获它们，我们揭示了双链DNA进入孔的机制。观察到的重新捕获率和时间与漂移扩散模型的解一致。电力在微米级距离上把DNA吸引到孔处，分子到达孔时几乎立即开始转运。同一分子的重复转运提高了测量精度，提供了一种在亚毫秒时间和亚微米长度尺度上探测大分子化学转变和内部动力学的方法，并证明了在溶液中捕获、研究和操纵单个大分子的能力。

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Solid-state nanopores.固态纳米孔

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