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Showing 1–4 of 4 results
Advanced filters: Author: Y. Rondelez Clear advanced filters

  • Complex organisms perceive their surroundings with sensory neurons that encode physical stimuli into spikes of electrical activities. Here a thermosensory chemical neuron based on DNA and enzymes has been reported, which spikes with chemical activity when exposed to cold.

    • N. Lobato-Dauzier
    • A. Baccouche
    • A. J. Genot
    Research
    Nature Chemical Engineering
    Volume: 1, P: 510-521

  • Dynamic nonlinear biochemical circuits are functionally rich; however, this nonlinear nature also makes programming them delicate and painstaking. Now a droplet microfluidic platform reveals precisely the bifurcations of two canonical systems: a bistable switch and a predator–prey oscillator, exposing optimal regions and mechanistic insights that inform the design of these systems.

    • A. J. Genot
    • A. Baccouche
    • Y. Rondelez
    Research
    Nature Chemistry
    Volume: 8, P: 760-767

  • Individual particles can be programmed to chemically communicate with their neighbours, giving rise to collective behaviours such as dynamic travelling fronts and spatial pattern creation.

    • G. Gines
    • A. S. Zadorin
    • Y. Rondelez
    Research
    Nature Nanotechnology
    Volume: 12, P: 351-359

  •  Mimicking traditional digital neural networks with DNA-encoded ‘enzymatic’ neurons overcomes issues with other chemical approaches, and could allow notable increases in miniaturization and molecular implementation of these AI models, with potential applications including DNA data storage or cancer diagnosis.

    • S. Okumura
    • G. Gines
    • A. J. Genot
    Research
    Nature
    Volume: 610, P: 496-501