通过单分子力控制对 DNA 折纸结构进行程序化折叠。

Programmed folding of DNA origami structures through single-molecule force control.

机构信息

1] National Creative Research Initiative Center for Single-Molecule Systems Biology, KAIST, Daejeon 305-701, South Korea [2] Department of Physics, KAIST, Daejeon 305-701, South Korea.

Korea Institute for Advanced Study, Seoul 130-722, South Korea.

出版信息

Nat Commun. 2014 Dec 3;5:5654. doi: 10.1038/ncomms6654.

DOI:10.1038/ncomms6654

PMID:25469474

Abstract

Despite the recent development in the design of DNA origami, its folding yet relies on thermal or chemical annealing methods. We here demonstrate mechanical folding of the DNA origami structure via a pathway that has not been accessible to thermal annealing. Using magnetic tweezers, we stretch a single scaffold DNA with mechanical tension to remove its secondary structures, followed by base pairing of the stretched DNA with staple strands. When the force is subsequently quenched, folding of the DNA nanostructure is completed through displacement between the bound staple strands. Each process in the mechanical folding is well defined and free from kinetic traps, enabling us to complete folding within 10 min. We also demonstrate parallel folding of DNA nanostructures through multiplexed manipulation of the scaffold DNAs. Our results suggest a path towards programmability of the folding pathway of DNA nanostructures.

摘要

尽管 DNA 折纸术的设计最近取得了进展，但它的折叠仍然依赖于热或化学退火方法。我们在这里通过一种热退火方法无法实现的途径展示了 DNA 折纸结构的机械折叠。我们使用磁镊拉伸单链 DNA，施加机械张力以去除其二级结构，然后拉伸的 DNA 与订书钉链碱基配对。随后当力猝灭时，通过绑定的订书钉链之间的位移完成 DNA 纳米结构的折叠。机械折叠中的每个过程都定义明确，没有动力学陷阱，使我们能够在 10 分钟内完成折叠。我们还通过支架 DNA 的多重操作演示了 DNA 纳米结构的并行折叠。我们的结果表明了一种可编程的 DNA 纳米结构折叠途径。

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通过单分子力控制对 DNA 折纸结构进行程序化折叠。

Programmed folding of DNA origami structures through single-molecule force control.

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