Multiplex Targeted Sequencing Identifies Recurrently Mutated Genes in Autism Spectrum Disorders

Brian J. O’Roak; Laura Vives; Wenqing Fu; Jarrett D. Egertson; Ian B. Stanaway; Ian G. Phelps; Gemma L. Carvill; Akash Kumar; Choli Lee; Katy Ankenman; Jeff Munson; Joseph B. Hiatt; Emily H. Turner; Roie Levy; Diana R. O’Day; Niklas Krumm; Bradley P. Coe; Beth Martin; Elhanan Borenstein; Deborah A. Nickerson; Heather C. Mefford; Dan Doherty; Joshua M. Akey; Raphael Bernier; Evan E. Eichler; Jay Shendure

doi:10.1126/science.1227764

Multiplex Targeted Sequencing Identifies Recurrently Mutated Genes in Autism Spectrum Disorders

Brian J. O’Roak(University of Washington), Laura Vives(University of Washington), Wenqing Fu(University of Washington), Jarrett D. Egertson(University of Washington), Ian B. Stanaway(University of Washington), Ian G. Phelps(Seattle Children's Hospital), Gemma L. Carvill(Seattle Children's Hospital), Akash Kumar(University of Washington), Choli Lee(University of Washington), Katy Ankenman(University of Washington), Jeff Munson(University of Washington), Joseph B. Hiatt(University of Washington), Emily H. Turner(University of Washington), Roie Levy(University of Washington), Diana R. O’Day(University of Washington), Niklas Krumm(University of Washington), Bradley P. Coe(University of Washington), Beth Martin(University of Washington), Elhanan Borenstein(Santa Fe Institute), Deborah A. Nickerson(University of Washington), Heather C. Mefford(Seattle Children's Hospital), Dan Doherty(Seattle Children's Hospital), Joshua M. Akey(University of Washington), Raphael Bernier(University of Washington), Evan E. Eichler(Howard Hughes Medical Institute), Jay Shendure(University of Washington)

Science

November 16, 2012

10.1126/science.1227764

Cited by 1,290Open Access

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Abstract

Exome sequencing studies of autism spectrum disorders (ASDs) have identified many de novo mutations but few recurrently disrupted genes. We therefore developed a modified molecular inversion probe method enabling ultra-low-cost candidate gene resequencing in very large cohorts. To demonstrate the power of this approach, we captured and sequenced 44 candidate genes in 2446 ASD probands. We discovered 27 de novo events in 16 genes, 59% of which are predicted to truncate proteins or disrupt splicing. We estimate that recurrent disruptive mutations in six genes-CHD8, DYRK1A, GRIN2B, TBR1, PTEN, and TBL1XR1-may contribute to 1% of sporadic ASDs. Our data support associations between specific genes and reciprocal subphenotypes (CHD8-macrocephaly and DYRK1A-microcephaly) and replicate the importance of a β-catenin-chromatin-remodeling network to ASD etiology.

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