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利用单链DNA模块自组装复杂二维形状

Self-assembly of complex two-dimensional shapes from single-stranded DNA tiles.

作者信息

Wei Bryan, Vhudzijena Michelle K, Robaszewski Joanna, Yin Peng

机构信息

Tsinghua-Peking Center for Life Sciences, School of Life Sciences, Tsinghua University;

Wyss Institute for Biologically Inspired Engineering, Harvard University.

出版信息

J Vis Exp. 2015 May 8(99):e52486. doi: 10.3791/52486.

Abstract

Current methods in DNA nano-architecture have successfully engineered a variety of 2D and 3D structures using principles of self-assembly. In this article, we describe detailed protocols on how to fabricate sophisticated 2D shapes through the self-assembly of uniquely addressable single-stranded DNA tiles which act as molecular pixels on a molecular canvas. Each single-stranded tile (SST) is a 42-nucleotide DNA strand composed of four concatenated modular domains which bind to four neighbors during self-assembly. The molecular canvas is a rectangle structure self-assembled from SSTs. A prescribed complex 2D shape is formed by selecting the constituent molecular pixels (SSTs) from a 310-pixel molecular canvas and then subjecting the corresponding strands to one-pot annealing. Due to the modular nature of the SST approach we demonstrate the scalability, versatility and robustness of this method. Compared with alternative methods, the SST method enables a wider selection of information polymers and sequences through the use of de novo designed and synthesized short DNA strands.

摘要

目前的DNA纳米结构方法已利用自组装原理成功构建了多种二维和三维结构。在本文中,我们描述了详细的实验方案,介绍如何通过独特可寻址的单链DNA瓦片的自组装来制造复杂的二维形状,这些瓦片在分子画布上充当分子像素。每个单链瓦片(SST)是一条42个核苷酸的DNA链,由四个串联的模块化结构域组成,在自组装过程中与四个相邻结构域结合。分子画布是由SST自组装而成的矩形结构。通过从310像素的分子画布中选择组成分子像素(SST),然后对相应的链进行一锅退火,形成规定的复杂二维形状。由于SST方法的模块化性质,我们证明了该方法的可扩展性、通用性和稳健性。与其他方法相比,SST方法通过使用从头设计和合成的短DNA链,能够更广泛地选择信息聚合物和序列。

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本文引用的文献

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