嵌段共聚物胶束化作为 DNA 折纸的保护策略。

Block Copolymer Micellization as a Protection Strategy for DNA Origami.

机构信息

Center for Advancing Electronics Dresden (cfaed), Technische Universität Dresden, 01062, Dresden, Germany.

Department of Bioengineering, University of Tokyo, Japan.

出版信息

Angew Chem Int Ed Engl. 2017 May 8;56(20):5460-5464. doi: 10.1002/anie.201608873. Epub 2017 Mar 15.

DOI:10.1002/anie.201608873

PMID:28295864

Abstract

DNA nanotechnology enables the synthesis of nanometer-sized objects that can be site-specifically functionalized with a large variety of materials. For these reasons, DNA-based devices such as DNA origami are being considered for applications in molecular biology and nanomedicine. However, many DNA structures need a higher ionic strength than that of common cell culture buffers or bodily fluids to maintain their integrity and can be degraded quickly by nucleases. To overcome these deficiencies, we coated several different DNA origami structures with a cationic poly(ethylene glycol)-polylysine block copolymer, which electrostatically covered the DNA nanostructures to form DNA origami polyplex micelles (DOPMs). This straightforward, cost-effective, and robust route to protect DNA-based structures could therefore enable applications in biology and nanomedicine where unprotected DNA origami would be degraded.

摘要

DNA 纳米技术使合成纳米级物体成为可能，这些物体可以通过各种材料进行特定位置的功能化。由于这些原因，基于 DNA 的设备，如 DNA 折纸，正被考虑应用于分子生物学和纳米医学。然而，许多 DNA 结构需要比普通细胞培养缓冲液或体液更高的离子强度来维持其完整性，并且容易被核酸酶快速降解。为了克服这些缺陷，我们用阳离子聚（乙二醇）-聚赖氨酸嵌段共聚物对几种不同的 DNA 折纸结构进行了涂层，该共聚物通过静电作用覆盖 DNA 纳米结构，形成 DNA 折纸多聚物胶束（DOPM）。这种简单、经济高效且稳健的保护基于 DNA 的结构的方法，因此可以在生物学和纳米医学中得到应用，在这些领域中，未保护的 DNA 折纸会被降解。

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嵌段共聚物胶束化作为 DNA 折纸的保护策略。

Block Copolymer Micellization as a Protection Strategy for DNA Origami.

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