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Genetic and phylogenetic uncoupling of structure and function in human transmodal cortex

Author

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  • Sofie L. Valk

    (Max Planck Institute for Human Cognitive and Brain Sciences
    FZ Jülich
    Heinrich Heine University Düsseldorf)

  • Ting Xu

    (Center for the Developing Brain, Child Mind Institute)

  • Casey Paquola

    (McGill University
    FZ Jülich)

  • Bo-yong Park

    (McGill University
    Inha University
    Institute for Basic Science)

  • Richard A. I. Bethlehem

    (Cambridge University)

  • Reinder Vos de Wael

    (McGill University)

  • Jessica Royer

    (McGill University)

  • Shahrzad Kharabian Masouleh

    (FZ Jülich
    Heinrich Heine University Düsseldorf)

  • Şeyma Bayrak

    (Max Planck Institute for Human Cognitive and Brain Sciences)

  • Peter Kochunov

    (Department of Psychiatry, University of Maryland School of Medicine)

  • B. T. Thomas Yeo

    (National University of Singapore
    National University of Singapore
    National University of Singapore
    Massachusetts General Hospital)

  • Daniel Margulies

    (Institut de Cerveau et de la Moelle epiniere)

  • Jonathan Smallwood

    (Queen’s University)

  • Simon B. Eickhoff

    (FZ Jülich
    Heinrich Heine University Düsseldorf)

  • Boris C. Bernhardt

    (McGill University)

Abstract

Brain structure scaffolds intrinsic function, supporting cognition and ultimately behavioral flexibility. However, it remains unclear how a static, genetically controlled architecture supports flexible cognition and behavior. Here, we synthesize genetic, phylogenetic and cognitive analyses to understand how the macroscale organization of structure-function coupling across the cortex can inform its role in cognition. In humans, structure-function coupling was highest in regions of unimodal cortex and lowest in transmodal cortex, a pattern that was mirrored by a reduced alignment with heritable connectivity profiles. Structure-function uncoupling in macaques had a similar spatial distribution, but we observed an increased coupling between structure and function in association cortices relative to humans. Meta-analysis suggested regions with the least genetic control (low heritable correspondence and different across primates) are linked to social-cognition and autobiographical memory. Our findings suggest that genetic and evolutionary uncoupling of structure and function in different transmodal systems may support the emergence of complex forms of cognition.

Suggested Citation

  • Sofie L. Valk & Ting Xu & Casey Paquola & Bo-yong Park & Richard A. I. Bethlehem & Reinder Vos de Wael & Jessica Royer & Shahrzad Kharabian Masouleh & Şeyma Bayrak & Peter Kochunov & B. T. Thomas Yeo , 2022. "Genetic and phylogenetic uncoupling of structure and function in human transmodal cortex," Nature Communications, Nature, vol. 13(1), pages 1-17, December.
    • Handle: RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-29886-1
    DOI: 10.1038/s41467-022-29886-1
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    References listed on IDEAS

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    Cited by:

    1. Loïc Labache & Tian Ge & B. T. Thomas Yeo & Avram J. Holmes, 2023. "Language network lateralization is reflected throughout the macroscale functional organization of cortex," Nature Communications, Nature, vol. 14(1), pages 1-13, December.
    2. Stuart Oldham & Gareth Ball, 2023. "A phylogenetically-conserved axis of thalamocortical connectivity in the human brain," Nature Communications, Nature, vol. 14(1), pages 1-14, December.
    3. Sara Larivière & Jessica Royer & Raúl Rodríguez-Cruces & Casey Paquola & Maria Eugenia Caligiuri & Antonio Gambardella & Luis Concha & Simon S. Keller & Fernando Cendes & Clarissa L. Yasuda & Leonardo, 2022. "Structural network alterations in focal and generalized epilepsy assessed in a worldwide ENIGMA study follow axes of epilepsy risk gene expression," Nature Communications, Nature, vol. 13(1), pages 1-16, December.

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