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Developmental assembly of multi-component polymer systems through interconnected synthetic gene networks in vitro

Author

Listed:
  • Daniela Sorrentino

    (University of California at Los Angeles
    Via della Ricerca Scientifica)

  • Simona Ranallo

    (Via della Ricerca Scientifica)

  • Francesco Ricci

    (Via della Ricerca Scientifica)

  • Elisa Franco

    (University of California at Los Angeles)

Abstract

Living cells regulate the dynamics of developmental events through interconnected signaling systems that activate and deactivate inert precursors. This suggests that similarly, synthetic biomaterials could be designed to develop over time by using chemical reaction networks to regulate the availability of assembling components. Here we demonstrate how the sequential activation or deactivation of distinct DNA building blocks can be modularly coordinated to form distinct populations of self-assembling polymers using a transcriptional signaling cascade of synthetic genes. Our building blocks are DNA tiles that polymerize into nanotubes, and whose assembly can be controlled by RNA molecules produced by synthetic genes that target the tile interaction domains. To achieve different RNA production rates, we use a strategy based on promoter “nicking” and strand displacement. By changing the way the genes are cascaded and the RNA levels, we demonstrate that we can obtain spatially and temporally different outcomes in nanotube assembly, including random DNA polymers, block polymers, and as well as distinct autonomous formation and dissolution of distinct polymer populations. Our work demonstrates a way to construct autonomous supramolecular materials whose properties depend on the timing of molecular instructions for self-assembly, and can be immediately extended to a variety of other nucleic acid circuits and assemblies.

Suggested Citation

  • Daniela Sorrentino & Simona Ranallo & Francesco Ricci & Elisa Franco, 2024. "Developmental assembly of multi-component polymer systems through interconnected synthetic gene networks in vitro," Nature Communications, Nature, vol. 15(1), pages 1-13, December.
  • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-52986-z
    DOI: 10.1038/s41467-024-52986-z
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    References listed on IDEAS

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