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通过复杂序列的单个DNA分子直接测量电传输。

Direct measurement of electrical transport through single DNA molecules of complex sequence.

作者信息

Cohen Hezy, Nogues Claude, Naaman Ron, Porath Danny

机构信息

Physical Chemistry Department, Hebrew University, Jerusalem 91904, Israel.

出版信息

Proc Natl Acad Sci U S A. 2005 Aug 16;102(33):11589-93. doi: 10.1073/pnas.0505272102. Epub 2005 Aug 8.

DOI:10.1073/pnas.0505272102
PMID:16087871
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1188002/
Abstract

Seemingly contradicting results raised a debate over the ability of DNA to transport charge and the nature of the conduction mechanisms through it. We developed an experimental approach for measuring current through DNA molecules, chemically connected on both ends to a metal substrate and to a gold nanoparticle, by using a conductive atomic force microscope. Many samples could be made because of the experimental approach adopted here, which enabled us to obtain reproducible results with various samples, conditions, and measurement methods. We present multi-leveled evidence for charge transport through 26-bp-long dsDNA of a complex sequence, characterized by S-shaped current-voltage curves that show currents >220 nA at 2 V. This significant observation implies that a coherent or band transport mechanism takes over for bias potentials leading to high currents (>1 nA).

摘要

看似相互矛盾的结果引发了一场关于DNA传导电荷能力以及通过DNA的传导机制本质的争论。我们开发了一种实验方法,通过使用导电原子力显微镜来测量穿过DNA分子的电流,该DNA分子两端通过化学方式连接到金属基底和金纳米颗粒上。由于采用了这里的实验方法,可以制备许多样品,这使我们能够在各种样品、条件和测量方法下获得可重复的结果。我们提供了多层次的证据,证明电荷通过一个复杂序列的26个碱基对长的双链DNA进行传输,其特征是S形电流-电压曲线,在2V时显示电流>220nA。这一重要发现意味着,对于导致高电流(>1nA)的偏置电位,一种相干或能带传输机制起主导作用。

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