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W4318755613 endingPage "3568" @default.
W4318755613 startingPage "3561" @default.
W4318755613 abstract "During developmental processes and wound healing, activation of living cells occurs with spatiotemporal precision and leads to rapid release of soluble molecular signals, allowing communication and coordination between neighbors. Nonliving systems capable of similar responsive release hold great promise for information transfer in materials and site-specific drug delivery. One nonliving system that offers a tunable platform for programming release is synthetic cells. Encased in a lipid bilayer structure, synthetic cells can be outfitted with molecular conduits that span the bilayer and lead to material exchange. While previous work expressing membrane pore proteins in synthetic cells demonstrated content exchange, user-defined control over release has remained elusive. In mammalian cells, connexon nanopore structures drive content release and have garnered significant interest since they can direct material exchange through intercellular contacts. Here, we focus on connexon nanopores and present activated release of material from synthetic cells in a light-sensitive fashion. To do this, we re-engineer connexon nanopores to assemble after post-translational processing by a protease. By encapsulating proteases in light-sensitive liposomes, we show that assembly of nanopores can be triggered by illumination, resulting in rapid release of molecules encapsulated within synthetic cells. Controlling connexon nanopore activity provides an opportunity for initiating communication with extracellular signals and for transferring molecular agents to the cytoplasm of living cells in a rapid, light-guided manner." @default.
W4318755613 created "2023-02-02" @default.
W4318755613 creator A5047319105 @default.
W4318755613 creator A5052724583 @default.
W4318755613 creator A5064825362 @default.
W4318755613 creator A5065692675 @default.
W4318755613 date "2023-02-01" @default.
W4318755613 modified "2023-10-14" @default.
W4318755613 title "Light-Activated Assembly of Connexon Nanopores in Synthetic Cells" @default.
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W4318755613 doi "https://doi.org/10.1021/jacs.2c12491" @default.
W4318755613 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36724060" @default.
W4318755613 hasPublicationYear "2023" @default.
W4318755613 type Work @default.
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