A bioinspired design principle for DNA nanomotors: Mechanics-mediated symmetry breaking and experimental demonstration

ChengJ.; SreelathaS.; LohI.Y.; LiuM.; WangZ.

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A bioinspired design principle for DNA nanomotors: Mechanics-mediated symmetry breaking and experimental demonstration

机译：DNA纳米马达的生物启发设计原理：力学介导的对称性破坏和实验证明

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DNA nanotechnology is a powerful tool to fabricate nanoscale motors, but the DNA nanomotors to date are largely limited to the simplistic burn-the-bridge design principle that prevents re-use of a fabricated motor-track system and is unseen in biological nanomotors. Here we propose and experimentally demonstrate a scheme to implement a conceptually new design principle by which a symmetric bipedal nanomotor autonomously gains a direction not by damaging the traversed track but by fine-tuning the motor's size.

机译：DNA纳米技术是制造纳米级电动机的强大工具，但迄今为止，DNA纳米电动机在很大程度上局限于简化的桥烧式设计原理，该原理可防止重复使用已制成的电动机跟踪系统，这在生物纳米电动机中尚不可见。在这里，我们提出并通过实验演示了一种方案，该方案用于实施概念上新的设计原理，通过该方案，对称的双足纳米电动机不会通过损坏横越的轨道而是通过微调电动机的尺寸来自主获得方向。

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《Methods: A Companion to Methods in Enzymology》 |2014年第2期|共7页
作者
ChengJ.; SreelathaS.; LohI.Y.; LiuM.; WangZ.;
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原文格式 PDF
正文语种 eng
中图分类生物化学;
关键词
Azobenzene; DNA nanotechnology; Molecular motor;

机译：偶氮苯DNA纳米技术分子马达;

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1. A bioinspired design principle for DNA nanomotors: Mechanics-mediated symmetry breaking and experimental demonstration [J] . ChengJ., SreelathaS., LohI.Y., Methods: A Companion to Methods in Enzymology . 2014,第2期

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A bioinspired design principle for DNA nanomotors: Mechanics-mediated symmetry breaking and experimental demonstration

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