丙醇异构体导致的DNA构象转变存在显著差异。

Marked Difference in the Conformational Transition of DNA Caused by Propanol Isomer.

作者信息

Ma Yue, Yoshikawa Yuko, Oana Hidehiro, Yoshikawa Kenichi

机构信息

Faculty of Life and Medical Sciences, Doshisha University, Kyotanabe 610-0394, Japan.

Department of Mechanical Engineering, The University of Tokyo, Tokyo 113-8656, Japan.

出版信息

Polymers (Basel). 2020 Jul 19;12(7):1607. doi: 10.3390/polym12071607.

DOI:10.3390/polym12071607

PMID:32707704

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7407297/

Abstract

We measured the changes in the higher-order structure of DNA molecules (λ phage DNA, 48 kbp) at different concentrations of 1- and 2-propanol through single-molecular observation. It is known that 2-propanol is usually adapted for the procedure to isolate genomic DNA from living cells/organs in contrast to 1-propanol. In the present study, it was found that with an increasing concentration of 1-propanol, DNA exhibits reentrant conformational transitions from an elongated coil to a folded globule, and then to an unfolded state. On the other hand, with 2-propanol, DNA exhibits monotonous shrinkage into a compact state. Stretching experiments under direct current (DC) electrical potential revealed that single DNA molecules intermediately shrunk by 1- and 2-propanol exhibit intrachain phase segregation, i.e., coexistence of elongated and compact parts. The characteristic effect of 1-propanol causing the reentrant transition is argued in terms of the generation of water-rich nanoclusters.

摘要

我们通过单分子观测，测量了在不同浓度的1-丙醇和2-丙醇中DNA分子（λ噬菌体DNA，48千碱基对）的高阶结构变化。众所周知，与1-丙醇相比，2-丙醇通常适用于从活细胞/器官中分离基因组DNA的操作。在本研究中，发现随着1-丙醇浓度的增加，DNA呈现出从伸长的线圈到折叠的小球，再到展开状态的折返构象转变。另一方面，对于2-丙醇，DNA呈现出单调收缩成紧密状态。直流电势下的拉伸实验表明，1-丙醇和2-丙醇使单个DNA分子中间收缩，表现出链内相分离，即伸长部分和紧密部分共存。从富水纳米团簇的产生角度讨论了1-丙醇引起折返转变的特征效应。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6416/7407297/10f7054512b7/polymers-12-01607-g001.jpg

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丙醇异构体导致的DNA构象转变存在显著差异。

Marked Difference in the Conformational Transition of DNA Caused by Propanol Isomer.

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