The ability to reproduce signal transduction and cellular communication in artificial cell systems is significant in synthetic protobiology. Here, we describe an artificial transmembrane signal transduction through low pH-mediated formation of the i-motif and dimerization of DNA-based artificial membrane receptors, which is coupled to the occurrence of fluorescence resonance energy transfer and the activation of G-quadruplex/hemin-mediated fluorescence amplification inside giant unilamellar vesicles. Moreover, an intercellular signal communication model is established when the extravesicular H input is replaced by coacervate microdroplets, which activate the dimerization of the artificial receptors, and subsequent fluorescence production or polymerization in giant unilamellar vesicles. This study represents a crucial step towards designing artificial signalling systems with environmental response, and provides an opportunity to establish signalling networks in protocell colonies.
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