The Impact of Divergence Time on the Nature of Population Structure: An Example from Iceland

The Icelandic population has been sampled in many disease association studies, providing a strong motivation to understand the structure of this population and its ramifications for disease gene mapping. Previous work using 40 microsatellites showed that the Icelandic population is relatively homoge...

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Main Authors:	Alkes L. Price, Agnar Helgason, Snaebjorn Palsson, Hreinn Stefansson, David St. Clair, Ole A. Andreassen, David Reich, Augustine Kong, Kari Stefansson
Language:	unknown
Published:	Harvard Dataverse 2009
Subjects:	Iceland
Online Access:	https://doi.org/10.7910/DVN/AGL574

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spelling	ftharvardunivdvn:doi:10.7910/DVN/AGL574 2023-05-15T16:46:32+02:00 The Impact of Divergence Time on the Nature of Population Structure: An Example from Iceland Alkes L. Price Agnar Helgason Snaebjorn Palsson Hreinn Stefansson David St. Clair Ole A. Andreassen David Reich Augustine Kong Kari Stefansson 2009-06-05 https://doi.org/10.7910/DVN/AGL574 unknown Harvard Dataverse https://doi.org/10.7910/DVN/AGL574 2009 ftharvardunivdvn https://doi.org/10.7910/DVN/AGL574 2020-02-16T17:01:51Z The Icelandic population has been sampled in many disease association studies, providing a strong motivation to understand the structure of this population and its ramifications for disease gene mapping. Previous work using 40 microsatellites showed that the Icelandic population is relatively homogeneous, but exhibits subtle population structure that can bias disease association statistics. Here, we show that regional geographic ancestries of individuals from Iceland can be distinguished using 292,289 autosomal single-nucleotide polymorphisms (SNPs). We further show that subpopulation differences are due to genetic drift since the settlement of Iceland 1100 years ago, and not to varying contributions from different ancestral populations. A consequence of the recent origin of Icelandic population structure is that allele frequency differences follow a null distribution devoid of outliers, so that the risk of false positive associations due to stratification is minimal. Our results highlight an important distinction between population differences attributable to recent drift and those arising from more ancient divergence, which has implications both for association studies and for efforts to detect natural selection using population differentiation. Other/Unknown Material Iceland Harvard Dataverse
institution	Open Polar
collection	Harvard Dataverse
op_collection_id	ftharvardunivdvn
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description	The Icelandic population has been sampled in many disease association studies, providing a strong motivation to understand the structure of this population and its ramifications for disease gene mapping. Previous work using 40 microsatellites showed that the Icelandic population is relatively homogeneous, but exhibits subtle population structure that can bias disease association statistics. Here, we show that regional geographic ancestries of individuals from Iceland can be distinguished using 292,289 autosomal single-nucleotide polymorphisms (SNPs). We further show that subpopulation differences are due to genetic drift since the settlement of Iceland 1100 years ago, and not to varying contributions from different ancestral populations. A consequence of the recent origin of Icelandic population structure is that allele frequency differences follow a null distribution devoid of outliers, so that the risk of false positive associations due to stratification is minimal. Our results highlight an important distinction between population differences attributable to recent drift and those arising from more ancient divergence, which has implications both for association studies and for efforts to detect natural selection using population differentiation.
author	Alkes L. Price Agnar Helgason Snaebjorn Palsson Hreinn Stefansson David St. Clair Ole A. Andreassen David Reich Augustine Kong Kari Stefansson
spellingShingle	Alkes L. Price Agnar Helgason Snaebjorn Palsson Hreinn Stefansson David St. Clair Ole A. Andreassen David Reich Augustine Kong Kari Stefansson The Impact of Divergence Time on the Nature of Population Structure: An Example from Iceland
author_facet	Alkes L. Price Agnar Helgason Snaebjorn Palsson Hreinn Stefansson David St. Clair Ole A. Andreassen David Reich Augustine Kong Kari Stefansson
author_sort	Alkes L. Price
title	The Impact of Divergence Time on the Nature of Population Structure: An Example from Iceland
title_short	The Impact of Divergence Time on the Nature of Population Structure: An Example from Iceland
title_full	The Impact of Divergence Time on the Nature of Population Structure: An Example from Iceland
title_fullStr	The Impact of Divergence Time on the Nature of Population Structure: An Example from Iceland
title_full_unstemmed	The Impact of Divergence Time on the Nature of Population Structure: An Example from Iceland
title_sort	impact of divergence time on the nature of population structure: an example from iceland
publisher	Harvard Dataverse
publishDate	2009
url	https://doi.org/10.7910/DVN/AGL574
genre	Iceland
genre_facet	Iceland
op_relation	https://doi.org/10.7910/DVN/AGL574
op_doi	https://doi.org/10.7910/DVN/AGL574
_version_	1766036630230007808

The Impact of Divergence Time on the Nature of Population Structure: An Example from Iceland

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