DNA 的扭转力学受小分子嵌入的调控。

Torsional mechanics of DNA are regulated by small-molecule intercalation.

机构信息

Johns Hopkins Physical Science Oncology Center, The Johns Hopkins University, Baltimore, Maryland 21218, USA.

出版信息

J Phys Chem B. 2010 Dec 23;114(50):16929-35. doi: 10.1021/jp107541q. Epub 2010 Nov 24.

Abstract

Whether the bend and twist mechanics of DNA molecules are coupled is unclear. Here, we report the direct measurement of the resistive torque of single DNA molecules to study the effect of ethidium bromide (EtBr) intercalation and pulling force on DNA twist mechanics. DNA molecules were overwound and unwound using recently developed magnetic tweezers where the molecular resistive torque was obtained from Brownian angular fluctuations. The effect of EtBr intercalation on the twist stiffness was found to be significantly different from the effect on the bend persistence length. The twist stiffness of DNA was dramatically reduced at low intercalator concentration (<10 nM); however, it did not decrease further when the intercalator concentration was increased by 3 orders of magnitude. We also determined the dependence of EtBr intercalation on the torque applied to DNA. We propose a model for the elasticity of DNA base pairs with intercalated EtBr molecules to explain the abrupt decrease of twist stiffness at low EtBr concentration. These results indicate that the bend and twist stiffnesses of DNA are independent and can be differently affected by small-molecule binding.

摘要

DNA 分子的弯曲和扭曲力学是否耦合尚不清楚。在这里，我们报告了单链 DNA 分子的电阻扭矩的直接测量，以研究溴化乙锭 (EtBr) 嵌入和拉力对 DNA 扭转力学的影响。我们使用最近开发的磁镊对 DNA 分子进行过度缠绕和退缠绕，其中分子电阻扭矩是从布朗角波动中获得的。EtBr 嵌入对扭转硬度的影响与对弯曲持久长度的影响明显不同。在低嵌入剂浓度（<10 nM）下，DNA 的扭转硬度显著降低；然而，当嵌入剂浓度增加 3 个数量级时，它并没有进一步降低。我们还确定了 EtBr 嵌入对施加到 DNA 的扭矩的依赖性。我们提出了一个带有嵌入 EtBr 分子的 DNA 碱基对弹性的模型，以解释在低 EtBr 浓度下扭转硬度的突然下降。这些结果表明，DNA 的弯曲和扭转硬度是独立的，可以被小分子结合以不同的方式影响。

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DNA 的扭转力学受小分子嵌入的调控。

Torsional mechanics of DNA are regulated by small-molecule intercalation.

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