A programmable reaction-diffusion system for spatiotemporal cell signaling circuit design
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Abstract
Cells self-organize molecules in space and time to generate complex behaviors, but we lack synthetic strategies for engineering spatiotemporal signaling. We present a programmable reaction-diffusion platform for designing protein oscillations, patterns, and circuits in mammalian cells using two bacterial proteins, MinD and MinE (MinDE). MinDE circuits act like “single-cell radios”, emitting frequency-barcoded fluorescence signals that can be spectrally isolated and analyzed using digital signal processing tools. We define how to genetically program these signals and modulate their dynamics using engineerable protein-protein interactions. By connecting MinDE to endogenous cellular pathways, we built circuits that broadcast frequency-barcoded single-cell kinase activity or that synthetically pattern actin polymerization. Our work establishes a new paradigm for probing and engineering cellular activities at length and timescales critical for biological function.
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- europepmc
- last seen: 2026-05-19T01:45:01.086888+00:00