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A microfluidic optimal experimental design platform for forward design of cell-free genetic networks

Author

Listed:
  • Bob Sluijs

    (Radboud University)

  • Roel J. M. Maas

    (Radboud University)

  • Ardjan J. Linden

    (Eindhoven University of Technology
    Eindhoven University of Technology
    Eindhoven University of Technology)

  • Tom F. A. Greef

    (Radboud University
    Eindhoven University of Technology
    Eindhoven University of Technology
    Eindhoven University of Technology)

  • Wilhelm T. S. Huck

    (Radboud University)

Abstract

Cell-free protein synthesis has been widely used as a “breadboard” for design of synthetic genetic networks. However, due to a severe lack of modularity, forward engineering of genetic networks remains challenging. Here, we demonstrate how a combination of optimal experimental design and microfluidics allows us to devise dynamic cell-free gene expression experiments providing maximum information content for subsequent non-linear model identification. Importantly, we reveal that applying this methodology to a library of genetic circuits, that share common elements, further increases the information content of the data resulting in higher accuracy of model parameters. To show modularity of model parameters, we design a pulse decoder and bistable switch, and predict their behaviour both qualitatively and quantitatively. Finally, we update the parameter database and indicate that network topology affects parameter estimation accuracy. Utilizing our methodology provides us with more accurate model parameters, a necessity for forward engineering of complex genetic networks.

Suggested Citation

  • Bob Sluijs & Roel J. M. Maas & Ardjan J. Linden & Tom F. A. Greef & Wilhelm T. S. Huck, 2022. "A microfluidic optimal experimental design platform for forward design of cell-free genetic networks," Nature Communications, Nature, vol. 13(1), pages 1-11, December.
    • Handle: RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-31306-3
    DOI: 10.1038/s41467-022-31306-3
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    References listed on IDEAS

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