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Metabolic perceptrons for neural computing in biological systems

Author

Listed:
  • Amir Pandi

    (Micalis Institute, INRA, AgroParisTech, Université Paris-Saclay)

  • Mathilde Koch

    (Micalis Institute, INRA, AgroParisTech, Université Paris-Saclay)

  • Peter L. Voyvodic

    (University of Montpellier)

  • Paul Soudier

    (Micalis Institute, INRA, AgroParisTech, Université Paris-Saclay
    Univ Evry, Université Paris-Saclay)

  • Jerome Bonnet

    (University of Montpellier)

  • Manish Kushwaha

    (Micalis Institute, INRA, AgroParisTech, Université Paris-Saclay)

  • Jean-Loup Faulon

    (Micalis Institute, INRA, AgroParisTech, Université Paris-Saclay
    Univ Evry, Université Paris-Saclay
    University of Manchester)

Abstract

Synthetic biological circuits are promising tools for developing sophisticated systems for medical, industrial, and environmental applications. So far, circuit implementations commonly rely on gene expression regulation for information processing using digital logic. Here, we present a different approach for biological computation through metabolic circuits designed by computer-aided tools, implemented in both whole-cell and cell-free systems. We first combine metabolic transducers to build an analog adder, a device that sums up the concentrations of multiple input metabolites. Next, we build a weighted adder where the contributions of the different metabolites to the sum can be adjusted. Using a computational model fitted on experimental data, we finally implement two four-input perceptrons for desired binary classification of metabolite combinations by applying model-predicted weights to the metabolic perceptron. The perceptron-mediated neural computing introduced here lays the groundwork for more advanced metabolic circuits for rapid and scalable multiplex sensing.

Suggested Citation

  • Amir Pandi & Mathilde Koch & Peter L. Voyvodic & Paul Soudier & Jerome Bonnet & Manish Kushwaha & Jean-Loup Faulon, 2019. "Metabolic perceptrons for neural computing in biological systems," Nature Communications, Nature, vol. 10(1), pages 1-13, December.
  • Handle: RePEc:nat:natcom:v:10:y:2019:i:1:d:10.1038_s41467-019-11889-0
    DOI: 10.1038/s41467-019-11889-0
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    Cited by:

    1. Léon Faure & Bastien Mollet & Wolfram Liebermeister & Jean-Loup Faulon, 2023. "A neural-mechanistic hybrid approach improving the predictive power of genome-scale metabolic models," Nature Communications, Nature, vol. 14(1), pages 1-14, December.
    2. Amir Pandi & Christoph Diehl & Ali Yazdizadeh Kharrazi & Scott A. Scholz & Elizaveta Bobkova & Léon Faure & Maren Nattermann & David Adam & Nils Chapin & Yeganeh Foroughijabbari & Charles Moritz & Nic, 2022. "A versatile active learning workflow for optimization of genetic and metabolic networks," Nature Communications, Nature, vol. 13(1), pages 1-15, December.
    3. Luna Rizik & Loai Danial & Mouna Habib & Ron Weiss & Ramez Daniel, 2022. "Synthetic neuromorphic computing in living cells," Nature Communications, Nature, vol. 13(1), pages 1-17, December.
    4. Yuanli Gao & Lei Wang & Baojun Wang, 2023. "Customizing cellular signal processing by synthetic multi-level regulatory circuits," Nature Communications, Nature, vol. 14(1), pages 1-14, December.

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