Genetic architecture in Greenland is shaped by demography, structure and selection

Frederik Filip Stæger; Mette K. Andersen; Zilong Li; Jasmin Pernille Hjerresen; Shixu He; Cindy G. Santander; Rasmus Tanderup Jensen; Karsten Fleischer Rex; Anne Cathrine Baun Thuesen; Kristian Hanghøj; Inge Høst Seiding; Emil Jørsboe; Sara Elizabeth Stinson; Malthe Sebro Rasmussen; Renzo F. Balboa; Christina Viskum Lytken Larsen; Peter Bjerregaard; Mikkel Schubert; Jonas Meisner; Allan Linneberg; Niels Grarup; Eleftheria Zeggini; Rasmus Nielsen; Marit E. Jørgensen; Torben Hansen; Ida Moltke; Anders Albrechtsen

doi:10.1038/s41586-024-08516-4

Genetic architecture in Greenland is shaped by demography, structure and selection

Frederik Filip Stæger, Mette K. Andersen, Zilong Li, Jasmin Pernille Hjerresen, Shixu He, Cindy G. Santander, Rasmus Tanderup Jensen, Karsten Fleischer Rex, Anne Cathrine Baun Thuesen, Kristian Hanghøj, Inge Høst Seiding, Emil Jørsboe, Sara Elizabeth Stinson, Malthe Sebro Rasmussen, Renzo F. Balboa, Christina Viskum Lytken Larsen, Peter Bjerregaard, Mikkel Schubert, Jonas Meisner, Allan LinnebergNiels Grarup, Eleftheria Zeggini, Rasmus Nielsen, Marit E. Jørgensen, Torben Hansen, Ida Moltke, Anders Albrechtsen^*

^*Corresponding author for this work

Research output: Contribution to journal › Journal article › Research › peer-review

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Abstract

Greenlandic Inuit and other indigenous populations are underrepresented in genetic research^1,2, leading to inequity in healthcare opportunities. To address this, we performed analyses of sequenced or imputed genomes of 5,996 Greenlanders with extensive phenotypes. We quantified their historical population bottleneck and how it has shaped their genetic architecture to have fewer, but more common, variable sites. Consequently, we find twice as many high-impact genome-wide associations to metabolic traits in Greenland compared with Europe. We infer that the high-impact variants arose after the population split from Native Americans and thus are Arctic-specific, and show that some of them are common due to not only genetic drift but also selection. We also find that European-derived polygenic scores for metabolic traits are only half as accurate in Greenlanders as in Europeans, and that adding Arctic-specific variants improves the overall accuracy to the same level as in Europeans. Similarly, lack of representation in public genetic databases makes genetic clinical screening harder in Greenlandic Inuit, but inclusion of Greenlandic data remedies this by reducing the number of non-causal candidate variants by sixfold. Finally, we identify pronounced genetic fine structure that explains differences in prevalence of monogenic diseases in Greenland and, together with recent changes in mobility, leads to a predicted future reduction in risk for certain recessive diseases. These results illustrate how including data from Greenlanders can greatly reduce inequity in genomic-based healthcare.

Original language	English
Journal	Nature
Volume	639
Pages (from-to)	404-410
ISSN	0028-0836
DOIs	https://doi.org/10.1038/s41586-024-08516-4
Publication status	Published - 13. Mar 2025

Keywords

Arctic Regions
Demography
Europe/ethnology
Female
Genetic Drift
Genetic Testing
Genetics, Population
Genome, Human/genetics
Genome-Wide Association Study
Greenland
Humans
Inuit/genetics
Male
Multifactorial Inheritance/genetics
Phenotype
Selection, Genetic
White
White People/genetics

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10.1038/s41586-024-08516-4Licence: CC BY-NC-ND

Open Access VersionFinal published version, 8.18 MBLicence: CC BY-NC-ND

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Stæger, F. F., Andersen, M. K., Li, Z., Hjerresen, J. P., He, S., Santander, C. G., Jensen, R. T., Rex, K. F., Thuesen, A. C. B., Hanghøj, K., Seiding, I. H., Jørsboe, E., Stinson, S. E., Rasmussen, M. S., Balboa, R. F., Larsen, C. V. L., Bjerregaard, P., Schubert, M., Meisner, J., ... Albrechtsen, A. (2025). Genetic architecture in Greenland is shaped by demography, structure and selection. Nature, 639, 404-410. https://doi.org/10.1038/s41586-024-08516-4

@article{86f7e323ba90498d97b19d08838cdf98,

title = "Genetic architecture in Greenland is shaped by demography, structure and selection",

abstract = "Greenlandic Inuit and other indigenous populations are underrepresented in genetic research1,2, leading to inequity in healthcare opportunities. To address this, we performed analyses of sequenced or imputed genomes of 5,996 Greenlanders with extensive phenotypes. We quantified their historical population bottleneck and how it has shaped their genetic architecture to have fewer, but more common, variable sites. Consequently, we find twice as many high-impact genome-wide associations to metabolic traits in Greenland compared with Europe. We infer that the high-impact variants arose after the population split from Native Americans and thus are Arctic-specific, and show that some of them are common due to not only genetic drift but also selection. We also find that European-derived polygenic scores for metabolic traits are only half as accurate in Greenlanders as in Europeans, and that adding Arctic-specific variants improves the overall accuracy to the same level as in Europeans. Similarly, lack of representation in public genetic databases makes genetic clinical screening harder in Greenlandic Inuit, but inclusion of Greenlandic data remedies this by reducing the number of non-causal candidate variants by sixfold. Finally, we identify pronounced genetic fine structure that explains differences in prevalence of monogenic diseases in Greenland and, together with recent changes in mobility, leads to a predicted future reduction in risk for certain recessive diseases. These results illustrate how including data from Greenlanders can greatly reduce inequity in genomic-based healthcare.",

keywords = "Arctic Regions, Demography, Europe/ethnology, Female, Genetic Drift, Genetic Testing, Genetics, Population, Genome, Human/genetics, Genome-Wide Association Study, Greenland, Humans, Inuit/genetics, Male, Multifactorial Inheritance/genetics, Phenotype, Selection, Genetic, White, White People/genetics",

author = "St{\ae}ger, {Frederik Filip} and Andersen, {Mette K.} and Zilong Li and Hjerresen, {Jasmin Pernille} and Shixu He and Santander, {Cindy G.} and Jensen, {Rasmus Tanderup} and Rex, {Karsten Fleischer} and Thuesen, {Anne Cathrine Baun} and Kristian Hangh{\o}j and Seiding, {Inge H{\o}st} and Emil J{\o}rsboe and Stinson, {Sara Elizabeth} and Rasmussen, {Malthe Sebro} and Balboa, {Renzo F.} and Larsen, {Christina Viskum Lytken} and Peter Bjerregaard and Mikkel Schubert and Jonas Meisner and Allan Linneberg and Niels Grarup and Eleftheria Zeggini and Rasmus Nielsen and J{\o}rgensen, {Marit E.} and Torben Hansen and Ida Moltke and Anders Albrechtsen",

year = "2025",

month = mar,

day = "13",

doi = "10.1038/s41586-024-08516-4",

language = "English",

volume = "639",

pages = "404--410",

journal = "Nature",

issn = "0028-0836",

publisher = "Nature Research",

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Stæger, FF, Andersen, MK, Li, Z, Hjerresen, JP, He, S, Santander, CG, Jensen, RT, Rex, KF, Thuesen, ACB, Hanghøj, K, Seiding, IH, Jørsboe, E, Stinson, SE, Rasmussen, MS, Balboa, RF, Larsen, CVL , Bjerregaard, P, Schubert, M, Meisner, J, Linneberg, A, Grarup, N, Zeggini, E, Nielsen, R, Jørgensen, ME, Hansen, T, Moltke, I & Albrechtsen, A 2025, 'Genetic architecture in Greenland is shaped by demography, structure and selection', Nature, vol. 639, pp. 404-410. https://doi.org/10.1038/s41586-024-08516-4

TY - JOUR

T1 - Genetic architecture in Greenland is shaped by demography, structure and selection

AU - Stæger, Frederik Filip

AU - Andersen, Mette K.

AU - Li, Zilong

AU - Hjerresen, Jasmin Pernille

AU - He, Shixu

AU - Santander, Cindy G.

AU - Jensen, Rasmus Tanderup

AU - Rex, Karsten Fleischer

AU - Thuesen, Anne Cathrine Baun

AU - Hanghøj, Kristian

AU - Seiding, Inge Høst

AU - Jørsboe, Emil

AU - Stinson, Sara Elizabeth

AU - Rasmussen, Malthe Sebro

AU - Balboa, Renzo F.

AU - Larsen, Christina Viskum Lytken

AU - Bjerregaard, Peter

AU - Schubert, Mikkel

AU - Meisner, Jonas

AU - Linneberg, Allan

AU - Grarup, Niels

AU - Zeggini, Eleftheria

AU - Nielsen, Rasmus

AU - Jørgensen, Marit E.

AU - Hansen, Torben

AU - Moltke, Ida

AU - Albrechtsen, Anders

PY - 2025/3/13

Y1 - 2025/3/13

N2 - Greenlandic Inuit and other indigenous populations are underrepresented in genetic research1,2, leading to inequity in healthcare opportunities. To address this, we performed analyses of sequenced or imputed genomes of 5,996 Greenlanders with extensive phenotypes. We quantified their historical population bottleneck and how it has shaped their genetic architecture to have fewer, but more common, variable sites. Consequently, we find twice as many high-impact genome-wide associations to metabolic traits in Greenland compared with Europe. We infer that the high-impact variants arose after the population split from Native Americans and thus are Arctic-specific, and show that some of them are common due to not only genetic drift but also selection. We also find that European-derived polygenic scores for metabolic traits are only half as accurate in Greenlanders as in Europeans, and that adding Arctic-specific variants improves the overall accuracy to the same level as in Europeans. Similarly, lack of representation in public genetic databases makes genetic clinical screening harder in Greenlandic Inuit, but inclusion of Greenlandic data remedies this by reducing the number of non-causal candidate variants by sixfold. Finally, we identify pronounced genetic fine structure that explains differences in prevalence of monogenic diseases in Greenland and, together with recent changes in mobility, leads to a predicted future reduction in risk for certain recessive diseases. These results illustrate how including data from Greenlanders can greatly reduce inequity in genomic-based healthcare.

AB - Greenlandic Inuit and other indigenous populations are underrepresented in genetic research1,2, leading to inequity in healthcare opportunities. To address this, we performed analyses of sequenced or imputed genomes of 5,996 Greenlanders with extensive phenotypes. We quantified their historical population bottleneck and how it has shaped their genetic architecture to have fewer, but more common, variable sites. Consequently, we find twice as many high-impact genome-wide associations to metabolic traits in Greenland compared with Europe. We infer that the high-impact variants arose after the population split from Native Americans and thus are Arctic-specific, and show that some of them are common due to not only genetic drift but also selection. We also find that European-derived polygenic scores for metabolic traits are only half as accurate in Greenlanders as in Europeans, and that adding Arctic-specific variants improves the overall accuracy to the same level as in Europeans. Similarly, lack of representation in public genetic databases makes genetic clinical screening harder in Greenlandic Inuit, but inclusion of Greenlandic data remedies this by reducing the number of non-causal candidate variants by sixfold. Finally, we identify pronounced genetic fine structure that explains differences in prevalence of monogenic diseases in Greenland and, together with recent changes in mobility, leads to a predicted future reduction in risk for certain recessive diseases. These results illustrate how including data from Greenlanders can greatly reduce inequity in genomic-based healthcare.

KW - Arctic Regions

KW - Demography

KW - Europe/ethnology

KW - Female

KW - Genetic Drift

KW - Genetic Testing

KW - Genetics, Population

KW - Genome, Human/genetics

KW - Genome-Wide Association Study

KW - Greenland

KW - Humans

KW - Inuit/genetics

KW - Male

KW - Multifactorial Inheritance/genetics

KW - Phenotype

KW - Selection, Genetic

KW - White

KW - White People/genetics

U2 - 10.1038/s41586-024-08516-4

DO - 10.1038/s41586-024-08516-4

M3 - Journal article

C2 - 39939757

AN - SCOPUS:85217739848

SN - 0028-0836

VL - 639

SP - 404

EP - 410

JO - Nature

JF - Nature

ER -

Genetic architecture in Greenland is shaped by demography, structure and selection

Abstract

Keywords

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