Genome-wide analyses of exonic copy number variants in a family-based study point to novel autism susceptibility genes.

Genome-wide analyses of exonic copy number variants in a family-based study point to novel autism susceptibility genes.

The genetics underlying the autism spectrum disorders (ASDs) is complex and remains poorly understood. Previous work has demonstrated an important role for structural variation in a subset of cases, but has lacked the resolution necessary to move beyond detection of large regions of potential intere...

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Main Authors: Maja Bucan, Brett S Abrahams, Kai Wang, Joseph T Glessner, Edward I Herman, Lisa I Sonnenblick, Ana I Alvarez Retuerto, Marcin Imielinski, Dexter Hadley, Jonathan P Bradfield, Cecilia Kim, Nicole B Gidaya, Ingrid Lindquist, Ted Hutman, Marian Sigman, Vlad Kustanovich, Clara M Lajonchere, Andrew Singleton, Junhyong Kim, Thomas H Wassink, William M McMahon, Thomas Owley, John A Sweeney, Hilary Coon, John I Nurnberger, Mingyao Li, Rita M Cantor, Nancy J Minshew, James S Sutcliffe, Edwin H Cook, Geraldine Dawson, Joseph D Buxbaum, Struan F A Grant, Gerard D Schellenberg, Daniel H Geschwind, Hakon Hakonarson
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2009-06-01
Series:PLoS Genetics
Online Access:https://www.ncbi.nlm.nih.gov/pmc/articles/pmid/19557195/pdf/?tool=EBI
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spelling doaj-ef6efa22e8c1433a95092439816543662021-04-21T14:31:03ZengPublic Library of Science (PLoS)PLoS Genetics1553-73901553-74042009-06-0156e100053610.1371/journal.pgen.1000536Genome-wide analyses of exonic copy number variants in a family-based study point to novel autism susceptibility genes.Maja BucanBrett S AbrahamsKai WangJoseph T GlessnerEdward I HermanLisa I SonnenblickAna I Alvarez RetuertoMarcin ImielinskiDexter HadleyJonathan P BradfieldCecilia KimNicole B GidayaIngrid LindquistTed HutmanMarian SigmanVlad KustanovichClara M LajonchereAndrew SingletonJunhyong KimThomas H WassinkWilliam M McMahonThomas OwleyJohn A SweeneyHilary CoonJohn I NurnbergerMingyao LiRita M CantorNancy J MinshewJames S SutcliffeEdwin H CookGeraldine DawsonJoseph D BuxbaumStruan F A GrantGerard D SchellenbergDaniel H GeschwindHakon HakonarsonThe genetics underlying the autism spectrum disorders (ASDs) is complex and remains poorly understood. Previous work has demonstrated an important role for structural variation in a subset of cases, but has lacked the resolution necessary to move beyond detection of large regions of potential interest to identification of individual genes. To pinpoint genes likely to contribute to ASD etiology, we performed high density genotyping in 912 multiplex families from the Autism Genetics Resource Exchange (AGRE) collection and contrasted results to those obtained for 1,488 healthy controls. Through prioritization of exonic deletions (eDels), exonic duplications (eDups), and whole gene duplication events (gDups), we identified more than 150 loci harboring rare variants in multiple unrelated probands, but no controls. Importantly, 27 of these were confirmed on examination of an independent replication cohort comprised of 859 cases and an additional 1,051 controls. Rare variants at known loci, including exonic deletions at NRXN1 and whole gene duplications encompassing UBE3A and several other genes in the 15q11-q13 region, were observed in the course of these analyses. Strong support was likewise observed for previously unreported genes such as BZRAP1, an adaptor molecule known to regulate synaptic transmission, with eDels or eDups observed in twelve unrelated cases but no controls (p = 2.3x10(-5)). Less is known about MDGA2, likewise observed to be case-specific (p = 1.3x10(-4)). But, it is notable that the encoded protein shows an unexpectedly high similarity to Contactin 4 (BLAST E-value = 3x10(-39)), which has also been linked to disease. That hundreds of distinct rare variants were each seen only once further highlights complexity in the ASDs and points to the continued need for larger cohorts.https://www.ncbi.nlm.nih.gov/pmc/articles/pmid/19557195/pdf/?tool=EBI
collection DOAJ
language English
format Article
sources DOAJ
author Maja Bucan
Brett S Abrahams
Kai Wang
Joseph T Glessner
Edward I Herman
Lisa I Sonnenblick
Ana I Alvarez Retuerto
Marcin Imielinski
Dexter Hadley
Jonathan P Bradfield
Cecilia Kim
Nicole B Gidaya
Ingrid Lindquist
Ted Hutman
Marian Sigman
Vlad Kustanovich
Clara M Lajonchere
Andrew Singleton
Junhyong Kim
Thomas H Wassink
William M McMahon
Thomas Owley
John A Sweeney
Hilary Coon
John I Nurnberger
Mingyao Li
Rita M Cantor
Nancy J Minshew
James S Sutcliffe
Edwin H Cook
Geraldine Dawson
Joseph D Buxbaum
Struan F A Grant
Gerard D Schellenberg
Daniel H Geschwind
Hakon Hakonarson
spellingShingle Maja Bucan
Brett S Abrahams
Kai Wang
Joseph T Glessner
Edward I Herman
Lisa I Sonnenblick
Ana I Alvarez Retuerto
Marcin Imielinski
Dexter Hadley
Jonathan P Bradfield
Cecilia Kim
Nicole B Gidaya
Ingrid Lindquist
Ted Hutman
Marian Sigman
Vlad Kustanovich
Clara M Lajonchere
Andrew Singleton
Junhyong Kim
Thomas H Wassink
William M McMahon
Thomas Owley
John A Sweeney
Hilary Coon
John I Nurnberger
Mingyao Li
Rita M Cantor
Nancy J Minshew
James S Sutcliffe
Edwin H Cook
Geraldine Dawson
Joseph D Buxbaum
Struan F A Grant
Gerard D Schellenberg
Daniel H Geschwind
Hakon Hakonarson
Genome-wide analyses of exonic copy number variants in a family-based study point to novel autism susceptibility genes.
PLoS Genetics
author_facet Maja Bucan
Brett S Abrahams
Kai Wang
Joseph T Glessner
Edward I Herman
Lisa I Sonnenblick
Ana I Alvarez Retuerto
Marcin Imielinski
Dexter Hadley
Jonathan P Bradfield
Cecilia Kim
Nicole B Gidaya
Ingrid Lindquist
Ted Hutman
Marian Sigman
Vlad Kustanovich
Clara M Lajonchere
Andrew Singleton
Junhyong Kim
Thomas H Wassink
William M McMahon
Thomas Owley
John A Sweeney
Hilary Coon
John I Nurnberger
Mingyao Li
Rita M Cantor
Nancy J Minshew
James S Sutcliffe
Edwin H Cook
Geraldine Dawson
Joseph D Buxbaum
Struan F A Grant
Gerard D Schellenberg
Daniel H Geschwind
Hakon Hakonarson
author_sort Maja Bucan
title Genome-wide analyses of exonic copy number variants in a family-based study point to novel autism susceptibility genes.
title_short Genome-wide analyses of exonic copy number variants in a family-based study point to novel autism susceptibility genes.
title_full Genome-wide analyses of exonic copy number variants in a family-based study point to novel autism susceptibility genes.
title_fullStr Genome-wide analyses of exonic copy number variants in a family-based study point to novel autism susceptibility genes.
title_full_unstemmed Genome-wide analyses of exonic copy number variants in a family-based study point to novel autism susceptibility genes.
title_sort genome-wide analyses of exonic copy number variants in a family-based study point to novel autism susceptibility genes.
publisher Public Library of Science (PLoS)
series PLoS Genetics
issn 1553-7390
1553-7404
publishDate 2009-06-01
description The genetics underlying the autism spectrum disorders (ASDs) is complex and remains poorly understood. Previous work has demonstrated an important role for structural variation in a subset of cases, but has lacked the resolution necessary to move beyond detection of large regions of potential interest to identification of individual genes. To pinpoint genes likely to contribute to ASD etiology, we performed high density genotyping in 912 multiplex families from the Autism Genetics Resource Exchange (AGRE) collection and contrasted results to those obtained for 1,488 healthy controls. Through prioritization of exonic deletions (eDels), exonic duplications (eDups), and whole gene duplication events (gDups), we identified more than 150 loci harboring rare variants in multiple unrelated probands, but no controls. Importantly, 27 of these were confirmed on examination of an independent replication cohort comprised of 859 cases and an additional 1,051 controls. Rare variants at known loci, including exonic deletions at NRXN1 and whole gene duplications encompassing UBE3A and several other genes in the 15q11-q13 region, were observed in the course of these analyses. Strong support was likewise observed for previously unreported genes such as BZRAP1, an adaptor molecule known to regulate synaptic transmission, with eDels or eDups observed in twelve unrelated cases but no controls (p = 2.3x10(-5)). Less is known about MDGA2, likewise observed to be case-specific (p = 1.3x10(-4)). But, it is notable that the encoded protein shows an unexpectedly high similarity to Contactin 4 (BLAST E-value = 3x10(-39)), which has also been linked to disease. That hundreds of distinct rare variants were each seen only once further highlights complexity in the ASDs and points to the continued need for larger cohorts.
url https://www.ncbi.nlm.nih.gov/pmc/articles/pmid/19557195/pdf/?tool=EBI
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