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Bounded rationality in C. elegans is explained by circuit-specific normalization in chemosensory pathways

Author

Listed:
  • Dror Cohen

    (Tel Aviv University
    Tel Aviv University)

  • Guy Teichman

    (Tel Aviv University
    Tel Aviv University)

  • Meshi Volovich

    (Tel Aviv University
    Tel Aviv University)

  • Yoav Zeevi

    (Tel Aviv University
    Tel Aviv University)

  • Lilach Elbaum

    (Tel Aviv University)

  • Asaf Madar

    (Tel Aviv University)

  • Kenway Louie

    (New York University)

  • Dino J. Levy

    (Tel Aviv University
    Tel Aviv University)

  • Oded Rechavi

    (Tel Aviv University
    Tel Aviv University)

Abstract

Rational choice theory assumes optimality in decision-making. Violations of a basic axiom of economic rationality known as “Independence of Irrelevant Alternatives” (IIA) have been demonstrated in both humans and animals and could stem from common neuronal constraints. Here we develop tests for IIA in the nematode Caenorhabditis elegans, an animal with only 302 neurons, using olfactory chemotaxis assays. We find that in most cases C. elegans make rational decisions. However, by probing multiple neuronal architectures using various choice sets, we show that violations of rationality arise when the circuit of olfactory sensory neurons is asymmetric. We further show that genetic manipulations of the asymmetry between the AWC neurons can make the worm irrational. Last, a context-dependent normalization-based model of value coding and gain control explains how particular neuronal constraints on information coding give rise to irrationality. Thus, we demonstrate that bounded rationality could arise due to basic neuronal constraints.

Suggested Citation

  • Dror Cohen & Guy Teichman & Meshi Volovich & Yoav Zeevi & Lilach Elbaum & Asaf Madar & Kenway Louie & Dino J. Levy & Oded Rechavi, 2019. "Bounded rationality in C. elegans is explained by circuit-specific normalization in chemosensory pathways," Nature Communications, Nature, vol. 10(1), pages 1-12, December.
    • Handle: RePEc:nat:natcom:v:10:y:2019:i:1:d:10.1038_s41467-019-11715-7
    DOI: 10.1038/s41467-019-11715-7
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    Cited by:

    1. Frølich, Emil F. & Thygesen, Uffe H., 2022. "Solving multispecies population games in continuous space and time," Theoretical Population Biology, Elsevier, vol. 146(C), pages 36-45.

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