Exome sequencing of Finnish isolates enhances rare-variant association power

被引:0
|
作者
Adam E. Locke
Karyn Meltz Steinberg
Charleston W. K. Chiang
Susan K. Service
Aki S. Havulinna
Laurel Stell
Matti Pirinen
Haley J. Abel
Colby C. Chiang
Robert S. Fulton
Anne U. Jackson
Chul Joo Kang
Krishna L. Kanchi
Daniel C. Koboldt
David E. Larson
Joanne Nelson
Thomas J. Nicholas
Arto Pietilä
Vasily Ramensky
Debashree Ray
Laura J. Scott
Heather M. Stringham
Jagadish Vangipurapu
Ryan Welch
Pranav Yajnik
Xianyong Yin
Johan G. Eriksson
Mika Ala-Korpela
Marjo-Riitta Järvelin
Minna Männikkö
Hannele Laivuori
Susan K. Dutcher
Nathan O. Stitziel
Richard K. Wilson
Ira M. Hall
Chiara Sabatti
Aarno Palotie
Veikko Salomaa
Markku Laakso
Samuli Ripatti
Michael Boehnke
Nelson B. Freimer
机构
[1] Washington University School of Medicine,Department of Medicine
[2] Washington University School of Medicine,McDonnell Genome Institute
[3] University of Michigan School of Public Health,Department of Biostatistics and Center for Statistical Genetics
[4] Washington University School of Medicine,Department of Pediatrics
[5] University of California Los Angeles,Center for Neurobehavioral Genetics, Jane and Terry Semel Institute for Neuroscience and Human Behavior
[6] University of Southern California,Center for Genetic Epidemiology, Department of Preventive Medicine, Keck School of Medicine
[7] University of Southern California,Quantitative and Computational Biology Section, Department of Biological Sciences
[8] University of Helsinki,Institute for Molecular Medicine Finland (FIMM)
[9] National Institute for Health and Welfare,Department of Biomedical Data Science
[10] Stanford University,Department of Public Health
[11] University of Helsinki,Helsinki Institute for Information Technology HIIT and Department of Mathematics and Statistics
[12] University of Helsinki,Department of Genetics
[13] Washington University School of Medicine,The Institute for Genomic Medicine
[14] Nationwide Children’s Hospital,Department of Pediatrics
[15] The Ohio State University College of Medicine,USTAR Center for Genetic Discovery and Department of Human Genetics
[16] University of Utah,Departments of Epidemiology and Biostatistics, Bloomberg School of Public Health
[17] Federal State Institution “National Medical Research Center for Preventive Medicine” of the Ministry of Healthcare of the Russian Federation,Institute of Clinical Medicine, Internal Medicine
[18] Johns Hopkins University,Department of Public Health Solutions
[19] University of Eastern Finland,Department of General Practice and Primary Health Care
[20] National Institute for Health and Welfare,Systems Epidemiology
[21] Folkhälsan Research Center,Computational Medicine, Faculty of Medicine
[22] University of Helsinki,NMR Metabolomics Laboratory, School of Pharmacy
[23] Helsinki and Helsinki University Hospital,Population Health Science, Bristol Medical School
[24] Baker Heart and Diabetes Institute,Department of Epidemiology and Preventive Medicine
[25] University of Oulu and Biocenter Oulu,Biocenter Oulu
[26] University of Oulu,Center for Life Course Health Research, Faculty of Medicine
[27] University of Eastern Finland,Unit of Primary Health Care
[28] University of Bristol,Department of Epidemiology and Biostatistics, MRC
[29] Medical Research Council Integrative Epidemiology Unit at the University of Bristol,PHE Centre for Environment and Health, School of Public Health
[30] School of Public Health and Preventive Medicine,Department of Life Sciences, College of Health and Life Sciences
[31] Faculty of Medicine,Northern Finland Birth Cohorts, Faculty of Medicine
[32] Nursing and Health Sciences,Medical and Clinical Genetics
[33] The Alfred Hospital,Department of Obstetrics and Gynecology
[34] Monash University,Cardiovascular Division, Department of Medicine
[35] University of Oulu,Department of Statistics
[36] University of Oulu,Analytical and Translational Genetics Unit (ATGU), Psychiatric & Neurodevelopmental Genetics Unit, Departments of Psychiatry and Neurology
[37] Oulu University Hospital,Department of Medicine
[38] Imperial College London,undefined
[39] Brunel University London,undefined
[40] University of Oulu,undefined
[41] University of Helsinki and Helsinki University Hospital,undefined
[42] Tampere University Hospital and University of Tampere,undefined
[43] Faculty of Medicine and Health Technology,undefined
[44] Washington University School of Medicine,undefined
[45] Stanford University,undefined
[46] Massachusetts General Hospital,undefined
[47] Broad Institute of MIT and Harvard,undefined
[48] Kuopio University Hospital,undefined
来源
Nature | 2019年 / 572卷
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摘要
Exome-sequencing studies have generally been underpowered to identify deleterious alleles with a large effect on complex traits as such alleles are mostly rare. Because the population of northern and eastern Finland has expanded considerably and in isolation following a series of bottlenecks, individuals of these populations have numerous deleterious alleles at a relatively high frequency. Here, using exome sequencing of nearly 20,000 individuals from these regions, we investigate the role of rare coding variants in clinically relevant quantitative cardiometabolic traits. Exome-wide association studies for 64 quantitative traits identified 26 newly associated deleterious alleles. Of these 26 alleles, 19 are either unique to or more than 20 times more frequent in Finnish individuals than in other Europeans and show geographical clustering comparable to Mendelian disease mutations that are characteristic of the Finnish population. We estimate that sequencing studies of populations without this unique history would require hundreds of thousands to millions of participants to achieve comparable association power.
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页码:323 / 328
页数:5
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