Population-based identity-by-descent mapping combined with exome sequencing to detect rare risk variants for schizophrenia

Wellcome Trust Case Control Consortium 2; Schizophrenia Working Group of the Psychiatric Genomics Consortium

doi:10.1002/ajmg.b.32716

Population-based identity-by-descent mapping combined with exome sequencing to detect rare risk variants for schizophrenia

Wellcome Trust Case Control Consortium 2, Schizophrenia Working Group of the Psychiatric Genomics Consortium

Medicine

Résultat de recherche: Article › examen par les pairs

2 Citations (Scopus)

Résumé

Genome-wide association studies (GWASs) are highly effective at identifying common risk variants for schizophrenia. Rare risk variants are also important contributors to schizophrenia etiology but, with the exception of large copy number variants, are difficult to detect with GWAS. Exome and genome sequencing, which have accelerated the study of rare variants, are expensive so alternative methods are needed to aid detection of rare variants. Here we re-analyze an Irish schizophrenia GWAS dataset (n = 3,473) by performing identity-by-descent (IBD) mapping followed by exome sequencing of individuals identified as sharing risk haplotypes to search for rare risk variants in coding regions. We identified 45 rare haplotypes (>1 cM) that were significantly more common in cases than controls. By exome sequencing 105 haplotype carriers, we investigated these haplotypes for functional coding variants that could be tested for association in independent GWAS samples. We identified one rare missense variant in PCNT but did not find statistical support for an association with schizophrenia in a replication analysis. However, IBD mapping can prioritize both individual samples and genomic regions for follow-up analysis but genome rather than exome sequencing may be more effective at detecting risk variants on rare haplotypes.

Langue d'origine	English
Pages (de-à)	223-231
Nombre de pages	9
Journal	American Journal of Medical Genetics, Part B: Neuropsychiatric Genetics
Volume	180
Numéro de publication	3
DOI	https://doi.org/10.1002/ajmg.b.32716
Statut de publication	Published - avr. 1 2019

Note bibliographique

Funding Information:
We wish to thank all patients and their support staff, and all healthy volunteers for participating in the data collection on which this manuscript is based. Recruitment, genotyping, and analysis were supported by Science Foundation Ireland grants (12/IP/1670, 12/IP/1359, and 08/IN.1/B1916), US National Institutes of Health grants (R01-MH083094 and R01-MH041953) and the Wellcome Trust Case Control Consortium 2 project grant (085475/B/08/Z). We thank EMI author Yu Qian for providing a script to convert EMI cluster files to plink format. CSHL funding was from a generous gift of The Stanley Family. We acknowledge the support of the Trinity Biobank in providing control samples for this analysis.

Funding Information:
National Institutes of Health, Grant/Award Numbers: R01-MH041953, R01-MH083094; Science Foundation Ireland, Grant/Award Numbers: 08/IN.1/B1916, 12/IP/1359, 12/ IP/1670; Wellcome Trust, Grant/Award Number: 085475/B/08/Z

Funding Information:
We wish to thank all patients and their support staff, and all healthy volunteers for participating in the data collection on which this manuscript is based. Recruitment, genotyping, and analysis were supported by Science Foundation Ireland grants (12/IP/1670, 12/IP/1359, and 08/IN.1/ B1916), US National Institutes of Health grants (R01-MH083094 and R01-MH041953) and the Wellcome Trust Case Control Consortium 2 project grant (085475/B/08/Z). We thank EMI author Yu Qian for providing a script to convert EMI cluster files to plink format. CSHL funding was from a generous gift of The Stanley Family. We acknowledge the support of the Trinity Biobank in providing control samples for this analysis.

Publisher Copyright:
© 2019 Wiley Periodicals, Inc.

ASJC Scopus Subject Areas

Genetics(clinical)
Psychiatry and Mental health
Cellular and Molecular Neuroscience

ODD de l’ONU

Cette action contribue à la réalisation des objectifs de développement durable suivants

Accès au document

10.1002/ajmg.b.32716

Autres fichiers et liens

Citer

Wellcome Trust Case Control Consortium 2, & Schizophrenia Working Group of the Psychiatric Genomics Consortium (2019). Population-based identity-by-descent mapping combined with exome sequencing to detect rare risk variants for schizophrenia. American Journal of Medical Genetics, Part B: Neuropsychiatric Genetics, 180(3), 223-231. https://doi.org/10.1002/ajmg.b.32716

Population-based identity-by-descent mapping combined with exome sequencing to detect rare risk variants for schizophrenia. / Wellcome Trust Case Control Consortium 2; Schizophrenia Working Group of the Psychiatric Genomics Consortium.
Dans: American Journal of Medical Genetics, Part B: Neuropsychiatric Genetics, Vol. 180, N° 3, 01.04.2019, p. 223-231.

Résultat de recherche: Article › examen par les pairs

Wellcome Trust Case Control Consortium 2 & Schizophrenia Working Group of the Psychiatric Genomics Consortium 2019, 'Population-based identity-by-descent mapping combined with exome sequencing to detect rare risk variants for schizophrenia', American Journal of Medical Genetics, Part B: Neuropsychiatric Genetics, vol. 180, n° 3, pp. 223-231. https://doi.org/10.1002/ajmg.b.32716

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title = "Population-based identity-by-descent mapping combined with exome sequencing to detect rare risk variants for schizophrenia",

abstract = "Genome-wide association studies (GWASs) are highly effective at identifying common risk variants for schizophrenia. Rare risk variants are also important contributors to schizophrenia etiology but, with the exception of large copy number variants, are difficult to detect with GWAS. Exome and genome sequencing, which have accelerated the study of rare variants, are expensive so alternative methods are needed to aid detection of rare variants. Here we re-analyze an Irish schizophrenia GWAS dataset (n = 3,473) by performing identity-by-descent (IBD) mapping followed by exome sequencing of individuals identified as sharing risk haplotypes to search for rare risk variants in coding regions. We identified 45 rare haplotypes (>1 cM) that were significantly more common in cases than controls. By exome sequencing 105 haplotype carriers, we investigated these haplotypes for functional coding variants that could be tested for association in independent GWAS samples. We identified one rare missense variant in PCNT but did not find statistical support for an association with schizophrenia in a replication analysis. However, IBD mapping can prioritize both individual samples and genomic regions for follow-up analysis but genome rather than exome sequencing may be more effective at detecting risk variants on rare haplotypes.",

author = "{Wellcome Trust Case Control Consortium 2} and {Schizophrenia Working Group of the Psychiatric Genomics Consortium} and Denise Harold and Siobhan Connolly and Riley, {Brien P.} and Kendler, {Kenneth S.} and McCarthy, {Shane E.} and McCombie, {William R.} and Alex Richards and Owen, {Michael J.} and O'Donovan, {Michael C.} and Walters, {James T.R.} and Peter Donnelly and Lesley Bates and Ines Barroso and Blackwell, {Jenefer M.} and Elvira Bramon and Brown, {Matthew A.} and Casas, {Juan P.} and Aiden Corvin and Panos Deloukas and Audrey Duncanson and Janusz Jankowski and Markus, {Hugh S.} and Mathew, {Christopher G.} and Palmer, {Colin N.A.} and Robert Plomin and Anna Rautanen and Sawcer, {Stephen J.} and Trembath, {Richard C.} and Viswanathan, {Ananth C.} and Wood, {Nicholas W.} and Spencer, {Chris C.A.} and Gavin Band and C{\'e}line Bellenguez and Colin Freeman and Garrett Hellenthal and Eleni Giannoulatou and Lucinda Hopkins and Matti Pirinen and Richard Pearson and Amy Strange and Zhan Su and Damjan Vukcevic and Cordelia Langford and Hunt, {Sarah E.} and Sarah Edkins and Rhian Gwilliam and Hannah Blackburn and Bumpstead, {Suzannah J.} and Serge Dronov and Sandra Meier",

note = "Funding Information: We wish to thank all patients and their support staff, and all healthy volunteers for participating in the data collection on which this manuscript is based. Recruitment, genotyping, and analysis were supported by Science Foundation Ireland grants (12/IP/1670, 12/IP/1359, and 08/IN.1/B1916), US National Institutes of Health grants (R01-MH083094 and R01-MH041953) and the Wellcome Trust Case Control Consortium 2 project grant (085475/B/08/Z). We thank EMI author Yu Qian for providing a script to convert EMI cluster files to plink format. CSHL funding was from a generous gift of The Stanley Family. We acknowledge the support of the Trinity Biobank in providing control samples for this analysis. Funding Information: National Institutes of Health, Grant/Award Numbers: R01-MH041953, R01-MH083094; Science Foundation Ireland, Grant/Award Numbers: 08/IN.1/B1916, 12/IP/1359, 12/ IP/1670; Wellcome Trust, Grant/Award Number: 085475/B/08/Z Funding Information: We wish to thank all patients and their support staff, and all healthy volunteers for participating in the data collection on which this manuscript is based. Recruitment, genotyping, and analysis were supported by Science Foundation Ireland grants (12/IP/1670, 12/IP/1359, and 08/IN.1/ B1916), US National Institutes of Health grants (R01-MH083094 and R01-MH041953) and the Wellcome Trust Case Control Consortium 2 project grant (085475/B/08/Z). We thank EMI author Yu Qian for providing a script to convert EMI cluster files to plink format. CSHL funding was from a generous gift of The Stanley Family. We acknowledge the support of the Trinity Biobank in providing control samples for this analysis. Publisher Copyright: {\textcopyright} 2019 Wiley Periodicals, Inc.",

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T1 - Population-based identity-by-descent mapping combined with exome sequencing to detect rare risk variants for schizophrenia

AU - Wellcome Trust Case Control Consortium 2

AU - Schizophrenia Working Group of the Psychiatric Genomics Consortium

AU - Harold, Denise

AU - Connolly, Siobhan

AU - Riley, Brien P.

AU - Kendler, Kenneth S.

AU - McCarthy, Shane E.

AU - McCombie, William R.

AU - Richards, Alex

AU - Owen, Michael J.

AU - O'Donovan, Michael C.

AU - Walters, James T.R.

AU - Donnelly, Peter

AU - Bates, Lesley

AU - Barroso, Ines

AU - Blackwell, Jenefer M.

AU - Bramon, Elvira

AU - Brown, Matthew A.

AU - Casas, Juan P.

AU - Corvin, Aiden

AU - Deloukas, Panos

AU - Duncanson, Audrey

AU - Jankowski, Janusz

AU - Markus, Hugh S.

AU - Mathew, Christopher G.

AU - Palmer, Colin N.A.

AU - Plomin, Robert

AU - Rautanen, Anna

AU - Sawcer, Stephen J.

AU - Trembath, Richard C.

AU - Viswanathan, Ananth C.

AU - Wood, Nicholas W.

AU - Spencer, Chris C.A.

AU - Band, Gavin

AU - Bellenguez, Céline

AU - Freeman, Colin

AU - Hellenthal, Garrett

AU - Giannoulatou, Eleni

AU - Hopkins, Lucinda

AU - Pirinen, Matti

AU - Pearson, Richard

AU - Strange, Amy

AU - Su, Zhan

AU - Vukcevic, Damjan

AU - Langford, Cordelia

AU - Hunt, Sarah E.

AU - Edkins, Sarah

AU - Gwilliam, Rhian

AU - Blackburn, Hannah

AU - Bumpstead, Suzannah J.

AU - Dronov, Serge

AU - Meier, Sandra

N1 - Funding Information: We wish to thank all patients and their support staff, and all healthy volunteers for participating in the data collection on which this manuscript is based. Recruitment, genotyping, and analysis were supported by Science Foundation Ireland grants (12/IP/1670, 12/IP/1359, and 08/IN.1/B1916), US National Institutes of Health grants (R01-MH083094 and R01-MH041953) and the Wellcome Trust Case Control Consortium 2 project grant (085475/B/08/Z). We thank EMI author Yu Qian for providing a script to convert EMI cluster files to plink format. CSHL funding was from a generous gift of The Stanley Family. We acknowledge the support of the Trinity Biobank in providing control samples for this analysis. Funding Information: National Institutes of Health, Grant/Award Numbers: R01-MH041953, R01-MH083094; Science Foundation Ireland, Grant/Award Numbers: 08/IN.1/B1916, 12/IP/1359, 12/ IP/1670; Wellcome Trust, Grant/Award Number: 085475/B/08/Z Funding Information: We wish to thank all patients and their support staff, and all healthy volunteers for participating in the data collection on which this manuscript is based. Recruitment, genotyping, and analysis were supported by Science Foundation Ireland grants (12/IP/1670, 12/IP/1359, and 08/IN.1/ B1916), US National Institutes of Health grants (R01-MH083094 and R01-MH041953) and the Wellcome Trust Case Control Consortium 2 project grant (085475/B/08/Z). We thank EMI author Yu Qian for providing a script to convert EMI cluster files to plink format. CSHL funding was from a generous gift of The Stanley Family. We acknowledge the support of the Trinity Biobank in providing control samples for this analysis. Publisher Copyright: © 2019 Wiley Periodicals, Inc.

PY - 2019/4/1

Y1 - 2019/4/1

N2 - Genome-wide association studies (GWASs) are highly effective at identifying common risk variants for schizophrenia. Rare risk variants are also important contributors to schizophrenia etiology but, with the exception of large copy number variants, are difficult to detect with GWAS. Exome and genome sequencing, which have accelerated the study of rare variants, are expensive so alternative methods are needed to aid detection of rare variants. Here we re-analyze an Irish schizophrenia GWAS dataset (n = 3,473) by performing identity-by-descent (IBD) mapping followed by exome sequencing of individuals identified as sharing risk haplotypes to search for rare risk variants in coding regions. We identified 45 rare haplotypes (>1 cM) that were significantly more common in cases than controls. By exome sequencing 105 haplotype carriers, we investigated these haplotypes for functional coding variants that could be tested for association in independent GWAS samples. We identified one rare missense variant in PCNT but did not find statistical support for an association with schizophrenia in a replication analysis. However, IBD mapping can prioritize both individual samples and genomic regions for follow-up analysis but genome rather than exome sequencing may be more effective at detecting risk variants on rare haplotypes.

AB - Genome-wide association studies (GWASs) are highly effective at identifying common risk variants for schizophrenia. Rare risk variants are also important contributors to schizophrenia etiology but, with the exception of large copy number variants, are difficult to detect with GWAS. Exome and genome sequencing, which have accelerated the study of rare variants, are expensive so alternative methods are needed to aid detection of rare variants. Here we re-analyze an Irish schizophrenia GWAS dataset (n = 3,473) by performing identity-by-descent (IBD) mapping followed by exome sequencing of individuals identified as sharing risk haplotypes to search for rare risk variants in coding regions. We identified 45 rare haplotypes (>1 cM) that were significantly more common in cases than controls. By exome sequencing 105 haplotype carriers, we investigated these haplotypes for functional coding variants that could be tested for association in independent GWAS samples. We identified one rare missense variant in PCNT but did not find statistical support for an association with schizophrenia in a replication analysis. However, IBD mapping can prioritize both individual samples and genomic regions for follow-up analysis but genome rather than exome sequencing may be more effective at detecting risk variants on rare haplotypes.

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Population-based identity-by-descent mapping combined with exome sequencing to detect rare risk variants for schizophrenia

Résumé

Note bibliographique

ASJC Scopus Subject Areas

ODD de l’ONU

Accès au document

Autres fichiers et liens

Empreinte numérique

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