使用短接头的分子构建体提高单分子实验中的信号/噪声分辨率。
Improving signal/noise resolution in single-molecule experiments using molecular constructs with short handles.
机构信息
Departament de Física Fonamental, Facultat de Física, Universitat de Barcelona, Barcelona, Spain.
出版信息
Biophys J. 2011 Apr 6;100(7):1765-74. doi: 10.1016/j.bpj.2011.01.071.
Abstract
We investigate unfolding/folding force kinetics in DNA hairpins exhibiting two and three states with newly designed short dsDNA handles (29 bp) using optical tweezers. We show how the higher stiffness of the molecular setup moderately enhances the signal/noise ratio (SNR) in hopping experiments as compared to conventional long-handled constructs (≅700 bp). The shorter construct results in a signal of higher SNR and slower folding/unfolding kinetics, thereby facilitating the detection of otherwise fast structural transitions. A novel analysis, as far as we are aware, of the elastic properties of the molecular setup, based on high-bandwidth measurements of force fluctuations along the folded branch, reveals that the highest SNR that can be achieved with short handles is potentially limited by the marked reduction of the effective persistence length and stretch modulus of the short linker complex.
摘要
我们使用光学镊子研究了具有两个和三个状态的 DNA 发夹的展开/折叠力动力学,这些发夹具有新设计的短双链 DNA 手柄(29 bp)。我们展示了与传统的长手柄结构(≈700 bp)相比,分子结构更高的刚性如何适度提高了跳跃实验中的信号/噪声比(SNR)。较短的结构导致更高 SNR 的信号和更慢的折叠/展开动力学,从而更容易检测到其他快速的结构转变。据我们所知,一种新的分析方法基于对折叠分支上力波动的高带宽测量,揭示了短手柄可以达到的最高 SNR 可能受到短链接复合物的有效持久长度和拉伸模量显著降低的限制。
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