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De novo mutations revealed by whole-exome sequencing are strongly associated with autism

Authors :
Sanders, Stephan J.
Murtha, Michael T.
Gupta, Abha R.
Murdoch, John D.
Raubeson, Melanie J.
Willsey, A. Jeremy
Ercan-Sencicek, A. Gulhan
DiLullo, Nicholas M.
Parikshak, Neelroop N.
Stein, Jason L.
Walker, Michael F.
Ober, Gordon T.
Teran, Nicole A.
Song, Youeun
El-Fishawy, Paul
Murtha, Ryan C.
Choi, Murim
Overton, John D.
Bjornson, Robert D.
Carriero, Nicholas J.
Meyer, Kyle A.
Bilguvar, Kaya
Mane, Shrikant M.
Sestan, Nenad
Lifton, Richard P.
Gunel, Murat
Roeder, Kathryn
Geschwind, Daniel H.
Devlin, Bernie
State, Matthew W.
Source :
Nature. May 10, 2012, Vol. 485 Issue 7397, p237, 6 p.
Publication Year :
2012

Abstract

Multiple studies have confirmed the contribution of rare de novo copy number variations to the risk for autism spectrum disorders (1-3). But whereas denovo single nucleotide variants have been identified in affected individuals (4), their contribution to risk has yet to be clarified. Specifically, the frequency and distribution of these mutations have not been well characterized in matched unaffected controls, and such data are vital to the interpretation of de novo coding mutations observed in probands. Here we show, using whole-exome sequencing of 928 individuals, including 200 phenotypically discordant sibling pairs, that highly disruptive (nonsense and splice-site) de novo mutations in brain-expressed genes are associated with autism spectrum disorders and carry large effects. On the basis of mutation rates in unaffected individuals, we demonstrate that multiple independent denovosingle nucleotide variants in the same gene among unrelated probands reliably identifies risk alleles, providing a clear path forward for gene discovery. Among a total of 279 identified de novo coding mutations, there is a single instance in probands, and none in siblings, in which two independent nonsense variants disrupt the same gene, SCN2A (sodium channel, voltage-gated, type II, a subunit), a result that is highly unlikely by chance.<br />We completed whole-exome sequencing in 238 families from the Simons Simplex Collection (SSC), a comprehensively phenotyped autism spectrum disorders (ASD) cohort consisting of pedigrees with two unaffected parents, an affected [...]

Details

Language :
English
ISSN :
00280836
Volume :
485
Issue :
7397
Database :
Gale General OneFile
Journal :
Nature
Publication Type :
Academic Journal
Accession number :
edsgcl.290293643
Full Text :
https://doi.org/10.1038/nature10945