Adolescence is associated with genomically patterned consolidation of the hubs of the human brain connectome | Zendy

Kirstie Whitaker | Zendy; Petra E. Vértes | Zendy; Rafael Romero-García | Zendy; František Váša | Zendy; Michael Moutoussis | Zendy; Gita Prabhu | Zendy; Nikolaus Weiskopf | Zendy; Martina F. Callaghan | Zendy; Konrad Wagstyl | Zendy; Timothy Rittman | Zendy; Roger Tait | Zendy; Cinly Ooi | Zendy; John Suckling | Zendy; Becky Inkster | Zendy; Peter Fonagy | Zendy; Raymond J. Dolan | Zendy; Peter B. Jones | Zendy; Ian M. Goodyer | Zendy; Edward T. Bullmore | Zendy; Ian Goodyer | Zendy; Paul C. Fletcher | Zendy; Pasco Fearon | Zendy; David BernalCasas | Zendy; Eran Eldar | Zendy; Taposhri Ganguly | Zendy; Tobias U. Hauser | Zendy; Konstantinos Ioannidis | Zendy; Gemma Lewis | Zendy; Alda Mita | Zendy; Sharon Neufeld | Zendy; Ela Polek-MacDaeid | Zendy; Michelle St Clair | Zendy; Umar Toseeb | Zendy; AnneLaura van Harmelen | Zendy; GeertJan Will | Zendy; Gabriel Ziegler | Zendy; Jorge Zimbron | Zendy; Joost Haarsma | Zendy; S. Davies | Zendy; Juliet D. Griffin | Zendy; Michael G Hart | Zendy; Barry Widmer | Zendy; Ayesha Alrumaithi | Zendy; Sarah Birt | Zendy; Kalia Cleridou | Zendy; Hina Dadabhoy | Zendy; Ashlyn Firkins | Zendy; Sian Granville | Zendy; Elizabeth Harding | Zendy; Alexandra Hopkins | Zendy; Daniel Isaacs | Zendy; Janchai King | Zendy; Clare Knight | Zendy; Danae Kokorikou | Zendy; Christina Maurice | Zendy; Cleo McIntosh | Zendy; Jessica Memarzia | Zendy; Harriet L. Mills | Zendy; Ciara O’Donnell | Zendy; Sara Pantaleone | Zendy; Jennifer Scott | Zendy; Alison Stribling | Zendy; Junaid Bhatti | Zendy; Neil E. Hubbard | Zendy; Natalia Ilicheva | Zendy; Michael Kentell | Zendy; Ben Wallis | Zendy; Laura Villis | Zendy

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Adolescence is associated with genomically patterned consolidation of the hubs of the human brain connectome

Author(s) -

Kirstie Whitaker,

Petra E. Vértes,

Rafael Romero-García,

František Váša,

Michael Moutoussis,

Gita Prabhu,

Nikolaus Weiskopf,

Martina F. Callaghan,

Konrad Wagstyl,

Timothy Rittman,

Roger Tait,

Cinly Ooi,

John Suckling,

Becky Inkster,

Peter Fonagy,

Raymond J. Dolan,

Peter B. Jones,

Ian M. Goodyer,

Edward T. Bullmore,

Ian Goodyer,

Paul C. Fletcher,

Pasco Fearon,

David BernalCasas,

Eran Eldar,

Taposhri Ganguly,

Tobias U. Hauser,

Konstantinos Ioannidis,

Gemma Lewis,

Alda Mita,

Sharon Neufeld,

Ela Polek-MacDaeid,

Michelle St Clair,

Umar Toseeb,

AnneLaura van Harmelen,

GeertJan Will,

Gabriel Ziegler,

Jorge Zimbron,

Joost Haarsma,

S. Davies,

Juliet D. Griffin,

Michael G Hart,

Barry Widmer,

Ayesha Alrumaithi,

Sarah Birt,

Kalia Cleridou,

Hina Dadabhoy,

Ashlyn Firkins,

Sian Granville,

Elizabeth Harding,

Alexandra Hopkins,

Daniel Isaacs,

Janchai King,

Clare Knight,

Danae Kokorikou,

Christina Maurice,

Cleo McIntosh,

Jessica Memarzia,

Harriet L. Mills,

Ciara O’Donnell,

Sara Pantaleone,

Jennifer Scott,

Alison Stribling,

Junaid Bhatti,

Neil E. Hubbard,

Natalia Ilicheva,

Michael Kentell,

Ben Wallis,

Laura Villis

Publication year - 2016

Publication title -

proceedings of the national academy of sciences

Language(s) - English

Resource type - Journals

eISSN - 1091-6490

pISSN - 0027-8424

DOI - 10.1073/pnas.1601745113

Subject(s) - connectome , human brain , neuroscience , brain development , consolidation (business) , psychology , functional connectivity , accounting , business

How does human brain structure mature during adolescence? We used MRI to measure cortical thickness and intracortical myelination in 297 population volunteers aged 14-24 y old. We found and replicated that association cortical areas were thicker and less myelinated than primary cortical areas at 14 y. However, association cortex had faster rates of shrinkage and myelination over the course of adolescence. Age-related increases in cortical myelination were maximized approximately at the internal layer of projection neurons. Adolescent cortical myelination and shrinkage were coupled and specifically associated with a dorsoventrally patterned gene expression profile enriched for synaptic, oligodendroglial- and schizophrenia-related genes. Topologically efficient and biologically expensive hubs of the brain anatomical network had greater rates of shrinkage/myelination and were associated with overexpression of the same transcriptional profile as cortical consolidation. We conclude that normative human brain maturation involves a genetically patterned process of consolidating anatomical network hubs. We argue that developmental variation of this consolidation process may be relevant both to normal cognitive and behavioral changes and the high incidence of schizophrenia during human brain adolescence.

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