Division of Physics and Applied Physics, School of Physical and Mathematical Sciences, Nanyang Technological University, Singapore, 637371, Singapore.
Laboratoire de Biologie et de Pharmacologie Appliquée, CNRS, Ecole Normale Supérieure, Paris-Saclay, France.
Nat Commun. 2018 May 17;9(1):1959. doi: 10.1038/s41467-018-04016-y.
We investigate the self-assembly of short pieces of the Tetrahymena telomeric DNA sequence d[GTG] in physiologically relevant aqueous solution using atomic force microscopy (AFM). Wire-like structures (G-wires) of 3.0 nm height with well-defined surface periodic features were observed. Analysis of high-resolution AFM images allowed their classification based on the periodicity of these features. A major species is identified with periodic features of 4.3 nm displaying left-handed ridges or zigzag features on the molecular surface. A minor species shows primarily left-handed periodic features of 2.2 nm. In addition to 4.3 and 2.2 nm ridges, background features with periodicity of 0.9 nm are also observed. Using molecular modeling and simulation, we identify a molecular structure that can explain both the periodicity and handedness of the major G-wire species. Our results demonstrate the potential structural diversity of G-wire formation and provide valuable insight into the structure of higher-order intermolecular G-quadruplexes. Our results also demonstrate how AFM can be combined with simulation to gain insight into biomolecular structure.
我们使用原子力显微镜(AFM)研究了 Tetrahymena 端粒 DNA 序列 d[GTG]的短片段在生理相关的水溶液中的自组装。观察到具有 3.0nm 高度和明确定义的表面周期性特征的线状结构(G 线)。对高分辨率 AFM 图像的分析允许根据这些特征的周期性对其进行分类。一种主要的物质具有周期性的特征,其特征是分子表面上具有 4.3nm 的左手脊或锯齿特征。次要物质主要显示 2.2nm 的左手周期性特征。除了 4.3nm 和 2.2nm 的脊外,还观察到具有 0.9nm 周期性的背景特征。使用分子建模和模拟,我们确定了一种分子结构,可以解释主要 G 线物质的周期性和手性。我们的结果证明了 G 线形成的潜在结构多样性,并为更高阶的分子间 G-四链体结构提供了有价值的见解。我们的结果还表明,AFM 如何与模拟相结合,以深入了解生物分子结构。
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