通过将离子强度从微摩尔浓度变化到毫摩尔浓度，纳米通道限制的TAMRA-聚吡咯染色DNA拉伸

Nanochannel-Confined TAMRA-Polypyrrole Stained DNA Stretching by Varying the Ionic Strength from Micromolar to Millimolar Concentrations.

作者信息

Lee Seonghyun, Lee Yelin, Kim Yongkyun, Wang Cong, Park Jungyul, Jung Gun Young, Chen Yenglong, Chang Rakwoo, Ikeda Shuji, Sugiyama Hiroshi, Jo Kyubong

机构信息

Department of Chemistry and Integrated Biotechnology, Sogang University, Seoul 04107, Korea.

Department of Mechanical Engineering, Sogang University, Seoul 04107, Korea.

出版信息

Polymers (Basel). 2018 Dec 22;11(1):15. doi: 10.3390/polym11010015.

DOI:10.3390/polym11010015

PMID:30959999

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6401831/

Abstract

Large DNA molecules have been utilized as a model system to investigate polymer physics. However, DNA visualization via intercalating dyes has generated equivocal results due to dye-induced structural deformation, particularly unwanted unwinding of the double helix. Thus, the contour length increases and the persistence length changes so unpredictably that there has been a controversy. In this paper, we used TAMRA-polypyrrole to stain single DNA molecules. Since this staining did not change the contour length of B-form DNA, we utilized TAMRA-polypyrrole stained DNA as a tool to measure the persistence length by changing the ionic strength. Then, we investigated DNA stretching in nanochannels by varying the ionic strength from 0.06 mM to 47 mM to evaluate several polymer physics theories proposed by Odijk, de Gennes and recent papers to deal with these regimes.

摘要

大的DNA分子已被用作研究聚合物物理学的模型系统。然而，由于染料诱导的结构变形，特别是双螺旋意外解旋，通过嵌入染料进行DNA可视化产生了模棱两可的结果。因此，轮廓长度增加且持久长度变化如此不可预测，以至于引发了一场争议。在本文中，我们使用TAMRA-聚吡咯对单个DNA分子进行染色。由于这种染色不会改变B型DNA的轮廓长度，我们将TAMRA-聚吡咯染色的DNA用作通过改变离子强度来测量持久长度的工具。然后，我们通过将离子强度从0.06 mM变化到47 mM来研究纳米通道中的DNA拉伸，以评估由奥迪克、德热纳以及近期论文提出的几种处理这些情况的聚合物物理学理论。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f097/6401831/51763c3e2427/polymers-11-00015-g001.jpg

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Nanochannel-Confined TAMRA-Polypyrrole Stained DNA Stretching by Varying the Ionic Strength from Micromolar to Millimolar Concentrations.通过将离子强度从微摩尔浓度变化到毫摩尔浓度，纳米通道限制的TAMRA-聚吡咯染色DNA拉伸

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通过将离子强度从微摩尔浓度变化到毫摩尔浓度，纳米通道限制的TAMRA-聚吡咯染色DNA拉伸

Nanochannel-Confined TAMRA-Polypyrrole Stained DNA Stretching by Varying the Ionic Strength from Micromolar to Millimolar Concentrations.

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