A bio-inspired spatial patterning circuit.
EMBC(2014)
摘要
Lateral Inhibition (LI) is a widely conserved patterning mechanism in biological systems across species. Distinct from better-known Turing patterns, LI depend on cell-cell contact rather than diffusion. We built an in silico genetic circuit model to analyze the dynamic properties of LI. The model revealed that LI amplifies differences between neighboring cells to push them into opposite states, hence forming stable 2-D patterns. Inspired by this insight, we designed and implemented an electronic circuit that recapitulates LI patterning dynamics. This biomimetic system serve as a physical model to elucidate the design principle of generating robust patterning through spatial feedback, regardless of the underlying devices being biological or electrical.
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关键词
dynamic properties,bio-inspired materials,electronic circuit,biological systems,spatial feedback,cellular biophysics,electrical devices,lateral inhibition,turing patterns,genetics,in silico genetic circuit model,biological devices,li patterning dynamics,biological techniques,physical model,networks (circuits),cell-cell contact,stable 2d patterns,biomimetic system,bioinspired spatial patterning circuit,biomimetics
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