A design and feasibility study of reactions comprising DNA molecular machine that walks autonomously by using a restriction enzyme

Hiroyuki Sekiguchi; Ken Komiya; Daisuke Kiga; Masayuki Yamamura

doi:10.1007/s11047-008-9077-9

A design and feasibility study of reactions comprising DNA molecular machine that walks autonomously by using a restriction enzyme

Hiroyuki Sekiguchi, Ken Komiya, Daisuke Kiga, Masayuki Yamamura^*

^*Corresponding author for this work

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

1 Citation (Scopus)

Abstract

In this paper, we propose an autonomous molecular walking machine using DNA. This molecular machine follows a track of DNA equipped with many single-strand DNA stators arranged in a certain pattern. The molecular machine achieves autonomous walk by using a restriction enzyme as source of power. With a proposed machine we can control its moving direction and we can easily extend walking patterns in two or three dimensions. Combination of multiple legs and ssDNA stators can control the walking pattern. We designed and performed a series of feasibility study with computer simulation and molecular biology experiments.

Original language	English
Pages (from-to)	303-315
Number of pages	13
Journal	Natural Computing
Volume	7
Issue number	3
DOIs	https://doi.org/10.1007/s11047-008-9077-9
Publication status	Published - 2008 Sept 1
Externally published	Yes

Keywords

DNA computing
DNA molecular machine
DNA walker
DNA walking machine
Nanorobotics
Nanotechnology

ASJC Scopus subject areas

Computer Science Applications

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10.1007/s11047-008-9077-9

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abstract = "In this paper, we propose an autonomous molecular walking machine using DNA. This molecular machine follows a track of DNA equipped with many single-strand DNA stators arranged in a certain pattern. The molecular machine achieves autonomous walk by using a restriction enzyme as source of power. With a proposed machine we can control its moving direction and we can easily extend walking patterns in two or three dimensions. Combination of multiple legs and ssDNA stators can control the walking pattern. We designed and performed a series of feasibility study with computer simulation and molecular biology experiments.",

keywords = "DNA computing, DNA molecular machine, DNA walker, DNA walking machine, Nanorobotics, Nanotechnology",

author = "Hiroyuki Sekiguchi and Ken Komiya and Daisuke Kiga and Masayuki Yamamura",

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AU - Sekiguchi, Hiroyuki

AU - Komiya, Ken

AU - Kiga, Daisuke

AU - Yamamura, Masayuki

PY - 2008/9/1

Y1 - 2008/9/1

N2 - In this paper, we propose an autonomous molecular walking machine using DNA. This molecular machine follows a track of DNA equipped with many single-strand DNA stators arranged in a certain pattern. The molecular machine achieves autonomous walk by using a restriction enzyme as source of power. With a proposed machine we can control its moving direction and we can easily extend walking patterns in two or three dimensions. Combination of multiple legs and ssDNA stators can control the walking pattern. We designed and performed a series of feasibility study with computer simulation and molecular biology experiments.

AB - In this paper, we propose an autonomous molecular walking machine using DNA. This molecular machine follows a track of DNA equipped with many single-strand DNA stators arranged in a certain pattern. The molecular machine achieves autonomous walk by using a restriction enzyme as source of power. With a proposed machine we can control its moving direction and we can easily extend walking patterns in two or three dimensions. Combination of multiple legs and ssDNA stators can control the walking pattern. We designed and performed a series of feasibility study with computer simulation and molecular biology experiments.

KW - DNA computing

KW - DNA molecular machine

KW - DNA walker

KW - DNA walking machine

KW - Nanorobotics

KW - Nanotechnology

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A design and feasibility study of reactions comprising DNA molecular machine that walks autonomously by using a restriction enzyme

Abstract

Keywords

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