In this paper we propose a computational method for programming spatial organisation of DNA at the centimetre scale, by means of DNA strand displacement ...

In this paper we propose a com- putational method for programming spatial organisation of DNA at the centimetre scale, by means of DNA strand displacement ...

DNA self-assembly is a powerful technology for controlling matter at the nanometre to micron scale, with potential applications in high-precision ...

We use this method to analyse the spatiotemporal dynamics of an autocatalytic system, a predator-prey oscillator and a two-species consensus network. We find ...

Computational design of reaction-diffusion patterns using DNA-based chemical reaction networks. Neil Dalchau, Georg Seelig, Andrew Phillips. International ...

Mar 27, 2020 · We introduce a programmable DNA embedded hydrogel that produces tunable patterns at the centimeter length scale.

Sep 14, 2022 · (a) Reaction–diffusion processes are used to pattern initially uniform DNA condensates and construct DNA-based artificial cells featuring ...

May 11, 2020 · 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 ...

Inspired by natural pattern formation, several methods for designing artificial chemical reaction-diffusion systems have been proposed. DNA is a suitable ...

Mar 13, 2019 · An arsenal of tools for designing DNA circuits to implement various CRNs has been developed by DNA nanotechnologists, including software to ...