Polymorphic ring-shaped molecular clusters made of shape-variable building blocks

Keitel Cervantes-Salguero; Shogo Hamada; Shin Ichiro M. Nomura; Satoshi Murata

doi:10.3390/nano5010208

Polymorphic ring-shaped molecular clusters made of shape-variable building blocks

Keitel Cervantes-Salguero, Shogo Hamada, Shin Ichiro M. Nomura, Satoshi Murata

Research output: Contribution to journal › Article › peer-review

8 Scopus citations

Abstract

Self-assembling molecular building blocks able to dynamically change their shapes, is a concept that would offer a route to reconfigurable systems. Although simulation studies predict novel properties useful for applications in diverse fields, such kinds of building blocks, have not been implemented thus far with molecules. Here, we report shape-variable building blocks fabricated by DNA self-assembly. Blocks are movable enough to undergo shape transitions along geometrical ranges. Blocks connect to each other and assemble into polymorphic ring-shaped clusters via the stacking of DNA blunt-ends. Reconfiguration of the polymorphic clusters is achieved by the surface diffusion on mica substrate in response to a monovalent salt concentration. This work could inspire novel reconfigurable self-assembling systems for applications in molecular robotics.

Original language	English
Pages (from-to)	208-217
Number of pages	10
Journal	Nanomaterials
Volume	5
Issue number	1
DOIs	https://doi.org/10.3390/nano5010208
State	Published - 16 Feb 2015
Externally published	Yes

Keywords

DNA nanostructure
DNA origami
DNA stacking
Reconfiguration
Substrate

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10.3390/nano5010208

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title = "Polymorphic ring-shaped molecular clusters made of shape-variable building blocks",

abstract = "Self-assembling molecular building blocks able to dynamically change their shapes, is a concept that would offer a route to reconfigurable systems. Although simulation studies predict novel properties useful for applications in diverse fields, such kinds of building blocks, have not been implemented thus far with molecules. Here, we report shape-variable building blocks fabricated by DNA self-assembly. Blocks are movable enough to undergo shape transitions along geometrical ranges. Blocks connect to each other and assemble into polymorphic ring-shaped clusters via the stacking of DNA blunt-ends. Reconfiguration of the polymorphic clusters is achieved by the surface diffusion on mica substrate in response to a monovalent salt concentration. This work could inspire novel reconfigurable self-assembling systems for applications in molecular robotics.",

keywords = "DNA nanostructure, DNA origami, DNA stacking, Reconfiguration, Substrate",

author = "Keitel Cervantes-Salguero and Shogo Hamada and Nomura, {Shin Ichiro M.} and Satoshi Murata",

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AU - Cervantes-Salguero, Keitel

AU - Hamada, Shogo

AU - Nomura, Shin Ichiro M.

AU - Murata, Satoshi

PY - 2015/2/16

Y1 - 2015/2/16

N2 - Self-assembling molecular building blocks able to dynamically change their shapes, is a concept that would offer a route to reconfigurable systems. Although simulation studies predict novel properties useful for applications in diverse fields, such kinds of building blocks, have not been implemented thus far with molecules. Here, we report shape-variable building blocks fabricated by DNA self-assembly. Blocks are movable enough to undergo shape transitions along geometrical ranges. Blocks connect to each other and assemble into polymorphic ring-shaped clusters via the stacking of DNA blunt-ends. Reconfiguration of the polymorphic clusters is achieved by the surface diffusion on mica substrate in response to a monovalent salt concentration. This work could inspire novel reconfigurable self-assembling systems for applications in molecular robotics.

AB - Self-assembling molecular building blocks able to dynamically change their shapes, is a concept that would offer a route to reconfigurable systems. Although simulation studies predict novel properties useful for applications in diverse fields, such kinds of building blocks, have not been implemented thus far with molecules. Here, we report shape-variable building blocks fabricated by DNA self-assembly. Blocks are movable enough to undergo shape transitions along geometrical ranges. Blocks connect to each other and assemble into polymorphic ring-shaped clusters via the stacking of DNA blunt-ends. Reconfiguration of the polymorphic clusters is achieved by the surface diffusion on mica substrate in response to a monovalent salt concentration. This work could inspire novel reconfigurable self-assembling systems for applications in molecular robotics.

KW - DNA nanostructure

KW - DNA origami

KW - DNA stacking

KW - Reconfiguration

KW - Substrate

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U2 - 10.3390/nano5010208

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VL - 5

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JO - Nanomaterials

JF - Nanomaterials

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Polymorphic ring-shaped molecular clusters made of shape-variable building blocks

Abstract

Keywords

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