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Olfactory receptor and circuit evolution promote host specialization

Author

Listed:
  • Thomas O. Auer

    (University of Lausanne)

  • Mohammed A. Khallaf

    (Max Planck Institute for Chemical Ecology)

  • Ana F. Silbering

    (University of Lausanne)

  • Giovanna Zappia

    (University of Lausanne)

  • Kaitlyn Ellis

    (University of Utah)

  • Raquel Álvarez-Ocaña

    (University of Lausanne)

  • J. Roman Arguello

    (University of Lausanne)

  • Bill S. Hansson

    (Max Planck Institute for Chemical Ecology)

  • Gregory S. X. E. Jefferis

    (MRC Laboratory of Molecular Biology)

  • Sophie J. C. Caron

    (University of Utah)

  • Markus Knaden

    (Max Planck Institute for Chemical Ecology)

  • Richard Benton

    (University of Lausanne)

Abstract

The evolution of animal behaviour is poorly understood1,2. Despite numerous correlations between interspecific divergence in behaviour and nervous system structure and function, demonstrations of the genetic basis of these behavioural differences remain rare3–5. Here we develop a neurogenetic model, Drosophila sechellia, a species that displays marked differences in behaviour compared to its close cousin Drosophila melanogaster6,7, which are linked to its extreme specialization on noni fruit (Morinda citrifolia)8–16. Using calcium imaging, we identify olfactory pathways in D. sechellia that detect volatiles emitted by the noni host. Our mutational analysis indicates roles for different olfactory receptors in long- and short-range attraction to noni, and our cross-species allele-transfer experiments demonstrate that the tuning of one of these receptors is important for species-specific host-seeking. We identify the molecular determinants of this functional change, and characterize their evolutionary origin and behavioural importance. We perform circuit tracing in the D. sechellia brain, and find that receptor adaptations are accompanied by increased sensory pooling onto interneurons as well as species-specific central projection patterns. This work reveals an accumulation of molecular, physiological and anatomical traits that are linked to behavioural divergence between species, and defines a model for investigating speciation and the evolution of the nervous system.

Suggested Citation

  • Thomas O. Auer & Mohammed A. Khallaf & Ana F. Silbering & Giovanna Zappia & Kaitlyn Ellis & Raquel Álvarez-Ocaña & J. Roman Arguello & Bill S. Hansson & Gregory S. X. E. Jefferis & Sophie J. C. Caron , 2020. "Olfactory receptor and circuit evolution promote host specialization," Nature, Nature, vol. 579(7799), pages 402-408, March.
  • Handle: RePEc:nat:nature:v:579:y:2020:i:7799:d:10.1038_s41586-020-2073-7
    DOI: 10.1038/s41586-020-2073-7
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    Citations

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    Cited by:

    1. Kaitlyn Elizabeth Ellis & Sven Bervoets & Hayley Smihula & Ishani Ganguly & Eva Vigato & Thomas O. Auer & Richard Benton & Ashok Litwin-Kumar & Sophie Jeanne Cécile Caron, 2024. "Evolution of connectivity architecture in the Drosophila mushroom body," Nature Communications, Nature, vol. 15(1), pages 1-15, December.
    2. Raquel Álvarez-Ocaña & Michael P. Shahandeh & Vijayaditya Ray & Thomas O. Auer & Nicolas Gompel & Richard Benton, 2023. "Odor-regulated oviposition behavior in an ecological specialist," Nature Communications, Nature, vol. 14(1), pages 1-15, December.
    3. Suguru Takagi & Gizem Sancer & Liliane Abuin & S. David Stupski & J. Roman Arguello & Lucia L. Prieto-Godino & David L. Stern & Steeve Cruchet & Raquel Álvarez-Ocaña & Carl F. R. Wienecke & Floris Bre, 2024. "Olfactory sensory neuron population expansions influence projection neuron adaptation and enhance odour tracking," Nature Communications, Nature, vol. 15(1), pages 1-18, December.
    4. Nan-Ji Jiang & Xinqi Dong & Daniel Veit & Bill S. Hansson & Markus Knaden, 2024. "Elevated ozone disrupts mating boundaries in drosophilid flies," Nature Communications, Nature, vol. 15(1), pages 1-8, December.

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