Coexpression Networks Implicate Human Midfetal Deep Cortical Projection Neurons in the Pathogenesis of Autism | Zendy

A. Jeremy Willsey | Zendy; Stephan Sanders | Zendy; Mingfeng Li | Zendy; Shan Dong | Zendy; Andrew T.N. Tebbenkamp | Zendy; Rebecca Muhle | Zendy; Steven K. Reilly | Zendy; Leon C. W. Lin | Zendy; Sofia Fertuzinhos | Zendy; Jeremy A. Miller | Zendy; Michael T. Murtha | Zendy; Candace Bichsel | Zendy; Wei Niu | Zendy; Justin Cotney | Zendy; A. Gulhan ErcanSencicek | Zendy; Jake Gockley | Zendy; Abha R. Gupta | Zendy; Wenqi Han | Zendy; Xin He | Zendy; Ellen J. Hoffman | Zendy; Lambertus Klei | Zendy; Jing Lei | Zendy; Wenzhong Liu | Zendy; Li Liu | Zendy; Cong Lu | Zendy; Xuming Xu | Zendy; Ying Zhu | Zendy; Shrikant Mane | Zendy; Ed S. Lein | Zendy; Liping Wei | Zendy; James P. Noonan | Zendy; Kathryn Roeder | Zendy; Bernie Devlin | Zendy; Nenad Šestan | Zendy; Matthew W. State | Zendy

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Coexpression Networks Implicate Human Midfetal Deep Cortical Projection Neurons in the Pathogenesis of Autism

Author(s) -

A. Jeremy Willsey,

Stephan Sanders,

Mingfeng Li,

Shan Dong,

Andrew T.N. Tebbenkamp,

Rebecca Muhle,

Steven K. Reilly,

Leon C. W. Lin,

Sofia Fertuzinhos,

Jeremy A. Miller,

Michael T. Murtha,

Candace Bichsel,

Wei Niu,

Justin Cotney,

A. Gulhan ErcanSencicek,

Jake Gockley,

Abha R. Gupta,

Wenqi Han,

Xin He,

Ellen J. Hoffman,

Lambertus Klei,

Jing Lei,

Wenzhong Liu,

Li Liu,

Cong Lu,

Xuming Xu,

Ying Zhu,

Shrikant Mane,

Ed S. Lein,

Liping Wei,

James P. Noonan,

Kathryn Roeder,

Bernie Devlin,

Nenad Šestan,

Matthew W. State

Publication year - 2013

Publication title -

cell

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 26.304

H-Index - 776

eISSN - 1097-4172

pISSN - 0092-8674

DOI - 10.1016/j.cell.2013.10.020

Subject(s) - biology , autism , neuroscience , pathogenesis , projection (relational algebra) , developmental psychology , immunology , psychology , algorithm , computer science

Autism spectrum disorder (ASD) is a complex developmental syndrome of unknown etiology. Recent studies employing exome- and genome-wide sequencing have identified nine high-confidence ASD (hcASD) genes. Working from the hypothesis that ASD-associated mutations in these biologically pleiotropic genes will disrupt intersecting developmental processes to contribute to a common phenotype, we have attempted to identify time periods, brain regions, and cell types in which these genes converge. We have constructed coexpression networks based on the hcASD "seed" genes, leveraging a rich expression data set encompassing multiple human brain regions across human development and into adulthood. By assessing enrichment of an independent set of probable ASD (pASD) genes, derived from the same sequencing studies, we demonstrate a key point of convergence in midfetal layer 5/6 cortical projection neurons. This approach informs when, where, and in what cell types mutations in these specific genes may be productively studied to clarify ASD pathophysiology.

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