Effect of concentration and adsorption time on the formation of a large-scale origami pattern

The arrangement of DNA-based nanostructures into the desired large-scale periodic pattern with the highest possible accuracy and control is essential for the DNA application in functional biomaterials; however, formation of a DNA nanostructure pattern without utilizing the molecular interactions in...

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Veröffentlicht in:	Nuclear science and techniques 2019-07, Vol.30 (7), p.62-67, Article 111
Hauptverfasser:	Liu, Wen-Jing, Zhang, Ping, Sun, Tong, Li, Lin, Wei, Yu-Hui, Wang, Kai-Zhe, Liu, Lin, Li, Bin
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Sprache:	eng
Schlagworte:	Energy Hadrons Heavy Ions Nuclear Energy Nuclear Physics
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creator	Liu, Wen-Jing Zhang, Ping Sun, Tong Li, Lin Wei, Yu-Hui Wang, Kai-Zhe Liu, Lin Li, Bin
description	The arrangement of DNA-based nanostructures into the desired large-scale periodic pattern with the highest possible accuracy and control is essential for the DNA application in functional biomaterials; however, formation of a DNA nanostructure pattern without utilizing the molecular interactions in nanotechnology field remains difficult. In this article, we use the optimal concentration and adsorption time of origami to induce DNA origami in the form of a large-scale 2D pattern on mica without changing the origami itself. DNA origami structures can form a pattern by close packing of symmetric and electrostatic interactions between ions, which was confirmed by the atomic force microscopy images. Furthermore, we identified favorable conditions for the concentration of DNA origami and optimal adsorption time, which can enable pattern formation with DNA origami. This work provides an insight to understand the adsorption of DNA on mica and guides researches on regular DNA nanostructure pattern, which can serve as templates for pattern formation of proteins or other biomolecules.
doi_str_mv	10.1007/s41365-019-0639-6
format	Article
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subjects	Energy Hadrons Heavy Ions Nuclear Energy Nuclear Physics
title	Effect of concentration and adsorption time on the formation of a large-scale origami pattern
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