Programming Methods for DNA-Based Reaction–Diffusion Systems

Keita Abe; Satoshi Murata

doi:10.1007/s00354-020-00094-z

Programming Methods for DNA-Based Reaction–Diffusion Systems

Keita Abe, Satoshi Murata

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

1 Citation (Scopus)

Abstract

In this tutorial, recent development of pattern generation algorithms based on DNA computing will be overviewed. Natural pattern generation, especially in biological organisms, are often driven by spatio-temporal chemical reactions. Various reaction–diffusion systems have been proposed to generate artificial patterns out of DNA sequences. To program DNA reaction–diffusion systems, in addition to the design of the reaction, diffusion of each DNA species must be considered. This is realized by immobilizing or suppressing diffusion of DNA molecules in the reaction field. Here, several typical methods to build patterns by 1-D or 2-D reaction–diffusion systems are introduced and how to implement the system by DNA molecules is explained. The direction of future research and possible applications of this technology will be also discussed.

Original language	English
Pages (from-to)	379-393
Number of pages	15
Journal	New Generation Computing
Volume	38
Issue number	2
DOIs	https://doi.org/10.1007/s00354-020-00094-z
Publication status	Published - 2020 May 1
Externally published	Yes

Keywords

DNA PEN toolbox
DNA computing
Hydrogel
Reaction-Diffusion system

ASJC Scopus subject areas

Software
Theoretical Computer Science
Hardware and Architecture
Computer Networks and Communications

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10.1007/s00354-020-00094-z

Cite this

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title = "Programming Methods for DNA-Based Reaction–Diffusion Systems",

abstract = "In this tutorial, recent development of pattern generation algorithms based on DNA computing will be overviewed. Natural pattern generation, especially in biological organisms, are often driven by spatio-temporal chemical reactions. Various reaction–diffusion systems have been proposed to generate artificial patterns out of DNA sequences. To program DNA reaction–diffusion systems, in addition to the design of the reaction, diffusion of each DNA species must be considered. This is realized by immobilizing or suppressing diffusion of DNA molecules in the reaction field. Here, several typical methods to build patterns by 1-D or 2-D reaction–diffusion systems are introduced and how to implement the system by DNA molecules is explained. The direction of future research and possible applications of this technology will be also discussed.",

keywords = "DNA PEN toolbox, DNA computing, Hydrogel, Reaction-Diffusion system",

author = "Keita Abe and Satoshi Murata",

note = "Funding Information: This tutorial was supported by JSPS KAKENHI (Grants-in-Aid for Scientific Research) Grant Numbers JP19J20990, JP18K19830, JP15H01715, JP24104005, and JP20H00618. Publisher Copyright: {\textcopyright} 2020, The Author(s).",

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AU - Murata, Satoshi

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PY - 2020/5/1

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N2 - In this tutorial, recent development of pattern generation algorithms based on DNA computing will be overviewed. Natural pattern generation, especially in biological organisms, are often driven by spatio-temporal chemical reactions. Various reaction–diffusion systems have been proposed to generate artificial patterns out of DNA sequences. To program DNA reaction–diffusion systems, in addition to the design of the reaction, diffusion of each DNA species must be considered. This is realized by immobilizing or suppressing diffusion of DNA molecules in the reaction field. Here, several typical methods to build patterns by 1-D or 2-D reaction–diffusion systems are introduced and how to implement the system by DNA molecules is explained. The direction of future research and possible applications of this technology will be also discussed.

AB - In this tutorial, recent development of pattern generation algorithms based on DNA computing will be overviewed. Natural pattern generation, especially in biological organisms, are often driven by spatio-temporal chemical reactions. Various reaction–diffusion systems have been proposed to generate artificial patterns out of DNA sequences. To program DNA reaction–diffusion systems, in addition to the design of the reaction, diffusion of each DNA species must be considered. This is realized by immobilizing or suppressing diffusion of DNA molecules in the reaction field. Here, several typical methods to build patterns by 1-D or 2-D reaction–diffusion systems are introduced and how to implement the system by DNA molecules is explained. The direction of future research and possible applications of this technology will be also discussed.

KW - DNA PEN toolbox

KW - DNA computing

KW - Hydrogel

KW - Reaction-Diffusion system

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Programming Methods for DNA-Based Reaction–Diffusion Systems

Abstract

Keywords

ASJC Scopus subject areas

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