将拓扑约束 DNA 纳米结构编程到传感器中。

Programming a topologically constrained DNA nanostructure into a sensor.

机构信息

Department of Biochemistry and Biomedical Sciences, McMaster University, 1280 Main Street West, Hamilton, Ontario, Canada L8S 4K1.

Biointerfaces Institute, McMaster University, 1280 Main Street West, Hamilton, Ontario, Canada L8S 4O3.

出版信息

Nat Commun. 2016 Jun 23;7:12074. doi: 10.1038/ncomms12074.

DOI:10.1038/ncomms12074

PMID:27337657

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4931013/

Abstract

Many rationally engineered DNA nanostructures use mechanically interlocked topologies to connect individual DNA components, and their physical connectivity is achieved through the formation of a strong linking duplex. The existence of such a structural element also poses a significant topological constraint on functions of component rings. Herein, we hypothesize and confirm that DNA catenanes with a strong linking duplex prevent component rings from acting as the template for rolling circle amplification (RCA). However, by using an RNA-containing DNA [2] catenane with a strong linking duplex, we show that a stimuli-responsive RNA-cleaving DNAzyme can linearize one component ring, and thus enable RCA, producing an ultra-sensitive biosensing system. As an example, a DNA catenane biosensor is engineered to detect the model bacterial pathogen Escherichia coli through binding of a secreted protein, with a detection limit of 10 cells ml(-1), thus establishing a new platform for further applications of mechanically interlocked DNA nanostructures.

摘要

许多经过理性设计的 DNA 纳米结构使用机械互锁拓扑结构将单个 DNA 组件连接起来，它们的物理连接性是通过形成强连接双链来实现的。这种结构元件的存在也对组件环的功能提出了重大的拓扑约束。在这里，我们假设并证实，具有强连接双链的 DNA 连环体阻止组件环作为滚环扩增（RCA）的模板。然而，通过使用具有强连接双链的包含 RNA 的 DNA [2] 连环体，我们表明，一种对刺激有反应的 RNA 切割 DNA 酶可以使一个组件环线性化，从而使 RCA 能够产生超灵敏的生物传感系统。作为一个例子，设计了一种 DNA 连环体生物传感器，通过结合一种分泌蛋白来检测模型细菌病原体大肠杆菌，检测限为 10 个细胞 ml(-1)，从而为进一步应用机械互锁 DNA 纳米结构建立了一个新平台。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1856/4931013/330b81e05f49/ncomms12074-f1.jpg

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将拓扑约束 DNA 纳米结构编程到传感器中。

Programming a topologically constrained DNA nanostructure into a sensor.

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