Litcius/Paper detail

Artificial receptor-mediated phototransduction toward protocellular subcompartmentalization and signaling-encoded logic gates

He Li, Yue Yan, Jing Chen, Ke Shi, Chuwen Song, Yanglimin Ji, Liyan Jia, Jianming Li, Yan Qiao, Yiyang Lin

2023Science Advances25 citationsDOIOpen Access PDF

Abstract

Engineering artificial cellular systems capable of perceiving and transmitting external signals across membranes to activate downstream targets and coordinate protocellular responses is key to build cell-cell communications and protolife. Here, we report a synthetic photoreceptor-mediated signaling pathway with the integration of light harvesting, photo-to-chemical energy conversion, signal transmission, and amplification in synthetic cells, which ultimately resulted in protocell subcompartmentalization. Key to our design is a ruthenium-bipyridine complex that acts as a membrane-anchored photoreceptor to convert visible light into chemical information and transduce signals across the lipid membrane via flip-flop motion. By coupling receptor-mediated phototransduction with biological recognition and enzymatic cascade reactions, we further develop protocell signaling-encoded Boolean logic gates. Our results illustrate a minimal cell model to mimic the photoreceptor cells that can transduce the energy of light into intracellular responses and pave the way to modular control over the flow of information for complex metabolic and signaling pathways.

Topics & Concepts

Visual phototransductionProtocellSignal transductionSynthetic biologyCell biologyBiologyChemistryMembraneRetinaNeuroscienceComputational biologyBiochemistryPhotoreceptor and optogenetics researchPhotosynthetic Processes and MechanismsPhotochromic and Fluorescence Chemistry