Your search keyword '"Pall I. Olason"' showing total 39 results

1. Sequence variants affecting the genome-wide rate of germline microsatellite mutations

Author

Snaedis Kristmundsdottir, Hakon Jonsson, Marteinn T. Hardarson, Gunnar Palsson, Doruk Beyter, Hannes P. Eggertsson, Arnaldur Gylfason, Gardar Sveinbjornsson, Guillaume Holley, Olafur A. Stefansson, Gisli H. Halldorsson, Sigurgeir Olafsson, Gudny. A. Arnadottir, Pall I. Olason, Ogmundur Eiriksson, Gisli Masson, Unnur Thorsteinsdottir, Thorunn Rafnar, Patrick Sulem, Agnar Helgason, Daniel F. Gudbjartsson, Bjarni V. Halldorsson, and Kari Stefansson

Subjects

Science

Abstract

Abstract Microsatellites are polymorphic tracts of short tandem repeats with one to six base-pair (bp) motifs and are some of the most polymorphic variants in the genome. Using 6084 Icelandic parent-offspring trios we estimate 63.7 (95% CI: 61.9–65.4) microsatellite de novo mutations (mDNMs) per offspring per generation, excluding one bp repeats motifs (homopolymers) the estimate is 48.2 mDNMs (95% CI: 46.7–49.6). Paternal mDNMs occur at longer repeats than maternal ones, which are in turn larger with a mean size of 3.4 bp vs 3.1 bp for paternal ones. mDNMs increase by 0.97 (95% CI: 0.90–1.04) and 0.31 (95% CI: 0.25–0.37) per year of father’s and mother’s age at conception, respectively. Here, we find two independent coding variants that associate with the number of mDNMs transmitted to offspring; The minor allele of a missense variant (allele frequency (AF) = 1.9%) in MSH2, a mismatch repair gene, increases transmitted mDNMs from both parents (effect: 13.1 paternal and 7.8 maternal mDNMs). A synonymous variant (AF = 20.3%) in NEIL2, a DNA damage repair gene, increases paternally transmitted mDNMs (effect: 4.4 mDNMs). Thus, the microsatellite mutation rate in humans is in part under genetic control.

Published

2023

2. Germline variants at SOHLH2 influence multiple myeloma risk

Author

Laura Duran-Lozano, Gudmar Thorleifsson, Aitzkoa Lopez de Lapuente Portilla, Abhishek Niroula, Molly Went, Malte Thodberg, Maroulio Pertesi, Ram Ajore, Caterina Cafaro, Pall I. Olason, Lilja Stefansdottir, G. Bragi Walters, Gisli H. Halldorsson, Ingemar Turesson, Martin F. Kaiser, Niels Weinhold, Niels Abildgaard, Niels Frost Andersen, Ulf-Henrik Mellqvist, Anders Waage, Annette Juul-Vangsted, Unnur Thorsteinsdottir, Markus Hansson, Richard Houlston, Thorunn Rafnar, Kari Stefansson, and Björn Nilsson

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Multiple myeloma (MM) is caused by the uncontrolled, clonal expansion of plasma cells. While there is epidemiological evidence for inherited susceptibility, the molecular basis remains incompletely understood. We report a genome-wide association study totalling 5,320 cases and 422,289 controls from four Nordic populations, and find a novel MM risk variant at SOHLH2 at 13q13.3 (risk allele frequency = 3.5%; odds ratio = 1.38; P = 2.2 × 10−14). This gene encodes a transcription factor involved in gametogenesis that is normally only weakly expressed in plasma cells. The association is represented by 14 variants in linkage disequilibrium. Among these, rs75712673 maps to a genomic region with open chromatin in plasma cells, and upregulates SOHLH2 in this cell type. Moreover, rs75712673 influences transcriptional activity in luciferase assays, and shows a chromatin looping interaction with the SOHLH2 promoter. Our work provides novel insight into MM susceptibility.

Published

2021

3. A meta-analysis uncovers the first sequence variant conferring risk of Bell’s palsy

Author

Astros Th. Skuladottir, Gyda Bjornsdottir, Gudmar Thorleifsson, G. Bragi Walters, Muhammad Sulaman Nawaz, Kristjan Helgi Swerford Moore, Pall I. Olason, Thorgeir E. Thorgeirsson, Brynja Sigurpalsdottir, Gardar Sveinbjornsson, Hannes P. Eggertsson, Sigurdur H. Magnusson, Asmundur Oddsson, Anna Bjornsdottir, Arnor Vikingsson, Olafur A. Sveinsson, Maria G. Hrafnsdottir, Gudrun R. Sigurdardottir, Bjarni V. Halldorsson, Thomas Folkmann Hansen, Helene Paarup, Christian Erikstrup, Kaspar Nielsen, Mads Klokker, Mie Topholm Bruun, Erik Sorensen, Karina Banasik, Kristoffer S. Burgdorf, Ole Birger Pedersen, Henrik Ullum, Ingileif Jonsdottir, Hreinn Stefansson, and Kari Stefansson

Subjects

Medicine, Science

Abstract

Abstract Bell’s palsy is the most common cause of unilateral facial paralysis and is defined as an idiopathic and acute inability to control movements of the facial muscles on the affected side. While the pathogenesis remains unknown, previous studies have implicated post-viral inflammation and resulting compression of the facial nerve. Reported heritability estimates of 4–14% suggest a genetic component in the etiology and an autosomal dominant inheritance has been proposed. Here, we report findings from a meta-analysis of genome-wide association studies uncovering the first unequivocal association with Bell’s palsy (rs9357446-A; P = 6.79 × 10−23, OR = 1.23; N cases = 4714, N controls = 1,011,520). The variant also confers risk of intervertebral disc disorders (P = 2.99 × 10−11, OR = 1.04) suggesting a common pathogenesis in part or a true pleiotropy.

Published

2021

4. Sarek: A portable workflow for whole-genome sequencing analysis of germline and somatic variants [version 2; peer review: 2 approved]

Author

Maxime Garcia, Szilveszter Juhos, Malin Larsson, Pall I. Olason, Marcel Martin, Jesper Eisfeldt, Sebastian DiLorenzo, Johanna Sandgren, Teresita Díaz De Ståhl, Philip Ewels, Valtteri Wirta, Monica Nistér, Max Käller, and Björn Nystedt

Subjects

Medicine, Science

Abstract

Whole-genome sequencing (WGS) is a fundamental technology for research to advance precision medicine, but the limited availability of portable and user-friendly workflows for WGS analyses poses a major challenge for many research groups and hampers scientific progress. Here we present Sarek, an open-source workflow to detect germline variants and somatic mutations based on sequencing data from WGS, whole-exome sequencing (WES), or gene panels. Sarek features (i) easy installation, (ii) robust portability across different computer environments, (iii) comprehensive documentation, (iv) transparent and easy-to-read code, and (v) extensive quality metrics reporting. Sarek is implemented in the Nextflow workflow language and supports both Docker and Singularity containers as well as Conda environments, making it ideal for easy deployment on any POSIX-compatible computers and cloud compute environments. Sarek follows the GATK best-practice recommendations for read alignment and pre-processing, and includes a wide range of software for the identification and annotation of germline and somatic single-nucleotide variants, insertion and deletion variants, structural variants, tumour sample purity, and variations in ploidy and copy number. Sarek offers easy, efficient, and reproducible WGS analyses, and can readily be used both as a production workflow at sequencing facilities and as a powerful stand-alone tool for individual research groups. The Sarek source code, documentation and installation instructions are freely available at https://github.com/nf-core/sarek and at https://nf-co.re/sarek/.

Published

2020

5. Sarek: A portable workflow for whole-genome sequencing analysis of germline and somatic variants [version 1; peer review: 2 approved]

Author

Maxime Garcia, Szilveszter Juhos, Malin Larsson, Pall I. Olason, Marcel Martin, Jesper Eisfeldt, Sebastian DiLorenzo, Johanna Sandgren, Teresita Díaz De Ståhl, Philip Ewels, Valtteri Wirta, Monica Nistér, Max Käller, and Björn Nystedt

Subjects

Medicine, Science

Abstract

Whole-genome sequencing (WGS) is a fundamental technology for research to advance precision medicine, but the limited availability of portable and user-friendly workflows for WGS analyses poses a major challenge for many research groups and hampers scientific progress. Here we present Sarek, an open-source workflow to detect germline variants and somatic mutations based on sequencing data from WGS, whole-exome sequencing (WES), or gene panels. Sarek features (i) easy installation, (ii) robust portability across different computer environments, (iii) comprehensive documentation, (iv) transparent and easy-to-read code, and (v) extensive quality metrics reporting. Sarek is implemented in the Nextflow workflow language and supports both Docker and Singularity containers as well as Conda environments, making it ideal for easy deployment on any POSIX-compatible computers and cloud compute environments. Sarek follows the GATK best-practice recommendations for read alignment and pre-processing, and includes a wide range of software for the identification and annotation of germline and somatic single-nucleotide variants, insertion and deletion variants, structural variants, tumour sample purity, and variations in ploidy and copy number. Sarek offers easy, efficient, and reproducible WGS analyses, and can readily be used both as a production workflow at sequencing facilities and as a powerful stand-alone tool for individual research groups. The Sarek source code, documentation and installation instructions are freely available at https://github.com/nf-core/sarek and at https://nf-co.re/sarek/.

Published

2020

6. A whole-genome sequenced control population in northern Sweden reveals subregional genetic differences

Author

Daniel Svensson, Matilda Rentoft, Anna M. Dahlin, Emma Lundholm, Pall I. Olason, Andreas Sjödin, Carin Nylander, Beatrice S. Melin, Johan Trygg, Erik Johansson, and Ludmila Prokunina-Olsson

Subjects

Medicine, Science

Abstract

The number of national reference populations that are whole-genome sequenced are rapidly increasing. Partly driving this development is the fact that genetic disease studies benefit from knowing the genetic variation typical for the geographical area of interest. A whole-genome sequenced Swedish national reference population (n = 1000) has been recently published but with few samples from northern Sweden. In the present study we have whole-genome sequenced a control population (n = 300) (ACpop) from Västerbotten County, a sparsely populated region in northern Sweden previously shown to be genetically different from southern Sweden. The aggregated variant frequencies within ACpop are publicly available (DOI 10.17044/NBIS/G000005) to function as a basic resource in clinical genetics and for genetic studies. Our analysis of ACpop, representing approximately 0.11% of the population in Västerbotten, indicates the presence of a genetic substructure within the county. Furthermore, a demographic analysis showed that the population from which samples were drawn was to a large extent geographically stationary, a finding that was corroborated in the genetic analysis down to the level of municipalities. Including ACpop in the reference population when imputing unknown variants in a Västerbotten cohort resulted in a strong increase in the number of high-confidence imputed variants (up to 81% for variants with minor allele frequency < 5%). ACpop was initially designed for cancer disease studies, but the genetic structure within the cohort will be of general interest for all genetic disease studies in northern Sweden.

Published

2020

7. Author Correction: Germline variants at SOHLH2 influence multiple myeloma risk

Author

Laura Duran-Lozano, Gudmar Thorleifsson, Aitzkoa Lopez de Lapuente Portilla, Abhishek Niroula, Molly Went, Malte Thodberg, Maroulio Pertesi, Ram Ajore, Caterina Cafaro, Pall I. Olason, Lilja Stefansdottir, G. Bragi Walters, Gisli H. Halldorsson, Ingemar Turesson, Martin F. Kaiser, Niels Weinhold, Niels Abildgaard, Niels Frost Andersen, Ulf-Henrik Mellqvist, Anders Waage, Annette Juul-Vangsted, Unnur Thorsteinsdottir, Markus Hansson, Richard Houlston, Thorunn Rafnar, Kari Stefansson, and Björn Nilsson

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Published

2021

8. Supplementary Material from Loss-of-Function Variants in the Tumor-Suppressor Gene PTPN14 Confer Increased Cancer Risk

Author

Kari Stefansson, Daniel F. Gudbjartsson, Thorunn Rafnar, Patrick Sulem, Jon H. Olafsson, Karl Olafsson, Tomas T. Agustsson, Unnur Thorsteinsdottir, Bjarni V. Halldorsson, Hannes P. Eggertsson, Lilja Stefansdottir, Pall I. Olason, Evgenia Mikaelsdottir, Julius Gudmundsson, Valgerdur Steinthorsdottir, Pall Melsted, Solvi Rognvaldsson, Sigrun H. Lund, Florian Zink, Sigurjon A. Gudjonsson, Run Fridriksdottir, Asmundur Oddsson, Arnaldur Gylfason, Hakon Jonsson, Snaedis Kristmundsdottir, Aslaug Jonasdottir, Asgeir Sigurdsson, Jon G. Jonasson, Rafn Benediktsson, Kavita Y. Sarin, Laufey Tryggvadottir, Arni Kjalar Kristjansson, Kristin Thorisdottir, Bardur Sigurgeirsson, Kristjan Norland, Gudmar Thorleifsson, Gardar Sveinbjornsson, Simon N. Stacey, and Thorhildur Olafsdottir

Abstract

Supplementary Methods, Supplementary Tables 1-18 and Supplementary Figures 1-5.

Published

2023

9. Data from Loss-of-Function Variants in the Tumor-Suppressor Gene PTPN14 Confer Increased Cancer Risk

Author

Kari Stefansson, Daniel F. Gudbjartsson, Thorunn Rafnar, Patrick Sulem, Jon H. Olafsson, Karl Olafsson, Tomas T. Agustsson, Unnur Thorsteinsdottir, Bjarni V. Halldorsson, Hannes P. Eggertsson, Lilja Stefansdottir, Pall I. Olason, Evgenia Mikaelsdottir, Julius Gudmundsson, Valgerdur Steinthorsdottir, Pall Melsted, Solvi Rognvaldsson, Sigrun H. Lund, Florian Zink, Sigurjon A. Gudjonsson, Run Fridriksdottir, Asmundur Oddsson, Arnaldur Gylfason, Hakon Jonsson, Snaedis Kristmundsdottir, Aslaug Jonasdottir, Asgeir Sigurdsson, Jon G. Jonasson, Rafn Benediktsson, Kavita Y. Sarin, Laufey Tryggvadottir, Arni Kjalar Kristjansson, Kristin Thorisdottir, Bardur Sigurgeirsson, Kristjan Norland, Gudmar Thorleifsson, Gardar Sveinbjornsson, Simon N. Stacey, and Thorhildur Olafsdottir

Abstract

The success of genome-wide association studies (GWAS) in identifying common, low-penetrance variant-cancer associations for the past decade is undisputed. However, discovering additional high-penetrance cancer mutations in unknown cancer predisposing genes requires detection of variant-cancer association of ultra-rare coding variants. Consequently, large-scale next-generation sequence data with associated phenotype information are needed. Here, we used genotype data on 166,281 Icelanders, of which, 49,708 were whole-genome sequenced and 408,595 individuals from the UK Biobank, of which, 41,147 were whole-exome sequenced, to test for association between loss-of-function burden in autosomal genes and basal cell carcinoma (BCC), the most common cancer in Caucasians. A total of 25,205 BCC cases and 683,058 controls were tested. Rare germline loss-of-function variants in PTPN14 conferred substantial risks of BCC (OR, 8.0; P = 1.9 × 10−12), with a quarter of carriers getting BCC before age 70 and over half in their lifetime. Furthermore, common variants at the PTPN14 locus were associated with BCC, suggesting PTPN14 as a new, high-impact BCC predisposition gene. A follow-up investigation of 24 cancers and three benign tumor types showed that PTPN14 loss-of-function variants are associated with high risk of cervical cancer (OR, 12.7, P = 1.6 × 10−4) and low age at diagnosis. Our findings, using power-increasing methods with high-quality rare variant genotypes, highlight future prospects for new discoveries on carcinogenesis.Significance:This study identifies the tumor-suppressor gene PTPN14 as a high-impact BCC predisposition gene and indicates that inactivation of PTPN14 by germline sequence variants may also lead to increased risk of cervical cancer.

Published

2023

10. Loss-of-Function Variants in the Tumor-Suppressor Gene PTPN14 Confer Increased Cancer Risk

Author

Unnur Thorsteinsdottir, Asgeir Sigurdsson, Bjarni V. Halldorsson, Asmundur Oddsson, Kari Stefansson, Tomas Thor Agustsson, Hannes P. Eggertsson, Rafn Benediktsson, Gudmar Thorleifsson, Páll Melsted, Thorunn Rafnar, Arni Kristjansson, Patrick Sulem, Lilja Stefansdottir, Karl Olafsson, Kristjan Norland, Julius Gudmundsson, Jón Ólafsson, Laufey Tryggvadottir, Kavita Y. Sarin, Solvi Rognvaldsson, Gardar Sveinbjornsson, Hakon Jonsson, Arnaldur Gylfason, Sigurjon A. Gudjonsson, Sigrun H. Lund, Kristin Thorisdottir, Daniel F. Gudbjartsson, Florian Zink, Aslaug Jonasdottir, Jon G. Jonasson, Evgenia Mikaelsdottir, Bardur Sigurgeirsson, Thorhildur Ólafsdóttir, Valgerdur Steinthorsdottir, Pall I. Olason, Snaedis Kristmundsdottir, Run Fridriksdottir, and Simon N. Stacey

Subjects

0301 basic medicine, Genetics, Cancer Research, Cancer-Predisposing Gene, Tumor suppressor gene, Cancer, Locus (genetics), Genome-wide association study, Biology, medicine.disease, medicine.disease_cause, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Oncology, 030220 oncology & carcinogenesis, Genotype, medicine, Basal cell carcinoma, Carcinogenesis

Abstract

The success of genome-wide association studies (GWAS) in identifying common, low-penetrance variant-cancer associations for the past decade is undisputed. However, discovering additional high-penetrance cancer mutations in unknown cancer predisposing genes requires detection of variant-cancer association of ultra-rare coding variants. Consequently, large-scale next-generation sequence data with associated phenotype information are needed. Here, we used genotype data on 166,281 Icelanders, of which, 49,708 were whole-genome sequenced and 408,595 individuals from the UK Biobank, of which, 41,147 were whole-exome sequenced, to test for association between loss-of-function burden in autosomal genes and basal cell carcinoma (BCC), the most common cancer in Caucasians. A total of 25,205 BCC cases and 683,058 controls were tested. Rare germline loss-of-function variants in PTPN14 conferred substantial risks of BCC (OR, 8.0; P = 1.9 × 10−12), with a quarter of carriers getting BCC before age 70 and over half in their lifetime. Furthermore, common variants at the PTPN14 locus were associated with BCC, suggesting PTPN14 as a new, high-impact BCC predisposition gene. A follow-up investigation of 24 cancers and three benign tumor types showed that PTPN14 loss-of-function variants are associated with high risk of cervical cancer (OR, 12.7, P = 1.6 × 10−4) and low age at diagnosis. Our findings, using power-increasing methods with high-quality rare variant genotypes, highlight future prospects for new discoveries on carcinogenesis. Significance: This study identifies the tumor-suppressor gene PTPN14 as a high-impact BCC predisposition gene and indicates that inactivation of PTPN14 by germline sequence variants may also lead to increased risk of cervical cancer.

Published

2021

11. A meta-analysis uncovers the first sequence variant conferring risk of Bell’s palsy

Author

Thorgeir E. Thorgeirsson, Sigurdur H. Magnusson, Helene M. Paarup, Astros Skuladottir, Erik Elgaard Sørensen, Olafur A. Sveinsson, Gardar Sveinbjornsson, Brynja D. Sigurpalsdottir, Hreinn Stefansson, Christian Erikstrup, Muhammad Sulaman Nawaz, Gyda Bjornsdottir, Maria Gudlaug Hrafnsdottir, Gudrun R. Sigurdardottir, Pall I. Olason, G. Bragi Walters, Mie Topholm Bruun, Ingileif Jonsdottir, Thomas Hansen, Gudmar Thorleifsson, Bjarni V. Halldorsson, Kristoffer Sølvsten Burgdorf, Anna Bjornsdottir, Ole Birger Pedersen, Karina Banasik, Asmundur Oddsson, Henrik Ullum, Mads Klokker, Kari Stefansson, Kaspar René Nielsen, Arnor Vikingsson, Hannes P. Eggertsson, and Kristjan H. S. Moore

Subjects

Adult, Male, Risk, Molecular biology, Movement, Science, Facial Paralysis, Facial Muscles, Diseases, Pathogenesis, Intervertebral disc disorders, Bioinformatics, Article, 03 medical and health sciences, 0302 clinical medicine, Bell's palsy, Genetics, Bell Palsy, medicine, Humans, Prospective Studies, Aged, 030304 developmental biology, Genetic association, Inflammation, 0303 health sciences, Multidisciplinary, Palsy, business.industry, Middle Aged, medicine.disease, Facial nerve, Facial Nerve, Facial muscles, medicine.anatomical_structure, Neurology, Etiology, Medicine, Female, business, 030217 neurology & neurosurgery, Neuroscience, Genome-Wide Association Study

Abstract

Bell’s palsy is the most common cause of unilateral facial paralysis and is defined as an idiopathic and acute inability to control movements of the facial muscles on the affected side. While the pathogenesis remains unknown, previous studies have implicated post-viral inflammation and resulting compression of the facial nerve. Reported heritability estimates of 4–14% suggest a genetic component in the etiology and an autosomal dominant inheritance has been proposed. Here, we report findings from a meta-analysis of genome-wide association studies uncovering the first unequivocal association with Bell’s palsy (rs9357446-A; P = 6.79 × 10−23, OR = 1.23; Ncases = 4714, Ncontrols = 1,011,520). The variant also confers risk of intervertebral disc disorders (P = 2.99 × 10−11, OR = 1.04) suggesting a common pathogenesis in part or a true pleiotropy.

Published

2021

12. Large-scale comparison of immunoassay- and aptamer-based plasma proteomics through genetics and disease

Author

Grimur Hjorleifsson Eldjarn, Egil Ferkingstad, Sigrun H. Lund, Hannes Helgason, Olafur Th. Magnusson, Thorunn A. Olafsdottir, Bjarni V. Halldorsson, Pall I. Olason, Florian Zink, Sigurjon A. Gudjonsson, Gardar Sveinbjornsson, Magnus I. Magnusson, Agnar Helgason, Asmundur Oddsson, Gisli H. Halldorsson, Magnus K. Magnusson, Saedis Saevarsdottir, Thjodbjorg Eiriksdottir, Gisli Masson, Hreinn Stefansson, Ingileif Jonsdottir, Hilma Holm, Thorunn Rafnar, Pall Melsted, Jona Saemundsdottir, Gudmundur L. Norddahl, Gudmar Thorleifsson, Magnus O. Ulfarsson, Daniel F. Gudbjartsson, Unnur Thorsteinsdottir, Patrick Sulem, and Kari Stefansson

Abstract

The authors have withdrawn this manuscript because this paper was posted prematurely in advance of a UK Biobank Pharma Proteomics Project consortium effort. Therefore, the authors do not wish this work to be cited as reference for the project. If you have any questions, please contact the corresponding author

Published

2022

13. Multiomics analysis of rheumatoid arthritis yields sequence variants that have large effects on risk of the seropositive subset

Author

Saedis, Saevarsdottir, Lilja, Stefansdottir, Patrick, Sulem, Gudmar, Thorleifsson, Egil, Ferkingstad, Gudrun, Rutsdottir, Bente, Glintborg, Helga, Westerlind, Gerdur, Grondal, Isabella C, Loft, Signe Bek, Sorensen, Benedicte A, Lie, Mikael, Brink, Lisbeth, Ärlestig, Asgeir Orn, Arnthorsson, Eva, Baecklund, Karina, Banasik, Steffen, Bank, Lena I, Bjorkman, Torkell, Ellingsen, Christian, Erikstrup, Oleksandr, Frei, Inger, Gjertsson, Daniel F, Gudbjartsson, Sigurjon A, Gudjonsson, Gisli H, Halldorsson, Oliver, Hendricks, Jan, Hillert, Estrid, Hogdall, Søren, Jacobsen, Dorte Vendelbo, Jensen, Helgi, Jonsson, Alf, Kastbom, Ingrid, Kockum, Salome, Kristensen, Helga, Kristjansdottir, Margit H, Larsen, Asta, Linauskas, Ellen-Margrethe, Hauge, Anne G, Loft, Bjorn R, Ludviksson, Sigrun H, Lund, Thorsteinn, Markusson, Gisli, Masson, Pall, Melsted, Kristjan H S, Moore, Heidi, Munk, Kaspar R, Nielsen, Gudmundur L, Norddahl, Asmundur, Oddsson, Thorunn A, Olafsdottir, Pall I, Olason, Tomas, Olsson, Sisse Rye, Ostrowski, Kim, Hørslev-Petersen, Solvi, Rognvaldsson, Helga, Sanner, Gilad N, Silberberg, Hreinn, Stefansson, Erik, Sørensen, Inge J, Sørensen, Carl, Turesson, Thomas, Bergman, Lars, Alfredsson, Tore K, Kvien, Søren, Brunak, Kristján, Steinsson, Vibeke, Andersen, Ole A, Andreassen, Solbritt, Rantapää-Dahlqvist, Merete Lund, Hetland, Lars, Klareskog, Johan, Askling, Leonid, Padyukov, Ole Bv, Pedersen, Unnur, Thorsteinsdottir, Ingileif, Jonsdottir, and Kari, Stefansson

Subjects

Proteomics, rheumatoid arthritis, autoantibodies, Janus Kinases/genetics, Immunology, polymorphism, genetic, General Biochemistry, Genetics and Molecular Biology, polymorphism, Protein Tyrosine Phosphatase, Non-Receptor Type 22/genetics, Arthritis, Rheumatoid, Rheumatology, genetic, Immunology and Allergy, Humans, Genetic Predisposition to Disease, Medicinsk genetik, Rheumatology and Autoimmunity, Janus Kinases, Reumatologi och inflammation, Genetic Predisposition to Disease/genetics, Biochemistry and Molecular Biology, Interferon-alpha, Protein Tyrosine Phosphatase, Non-Receptor Type 22, Arthritis, Rheumatoid/genetics, STAT Transcription Factors/genetics, STAT Transcription Factors, Signal Transduction/genetics, Medical Genetics, Biokemi och molekylärbiologi, Genome-Wide Association Study, Signal Transduction

Abstract

Objectives To find causal genes for rheumatoid arthritis (RA) and its seropositive (RF and/or ACPA positive) and seronegative subsets. Methods We performed a genome-wide association study (GWAS) of 31 313 RA cases (68% seropositive) and similar to 1 million controls from Northwestern Europe. We searched for causal genes outside the HLA-locus through effect on coding, mRNA expression in several tissues and/or levels of plasma proteins (SomaScan) and did network analysis (Qiagen). Results We found 25 sequence variants for RA overall, 33 for seropositive and 2 for seronegative RA, altogether 37 sequence variants at 34 non-HLA loci, of which 15 are novel. Genomic, transcriptomic and proteomic analysis of these yielded 25 causal genes in seropositive RA and additional two overall. Most encode proteins in the network of interferon-alpha/beta and IL-12/23 that signal through the JAK/STAT-pathway. Highlighting those with largest effect on seropositive RA, a rare missense variant in STAT4 (rs140675301-A) that is independent of reported non-coding STAT4-variants, increases the risk of seropositive RA 2.27-fold (p=2.1x10(-9)), more than the rs2476601-A missense variant in PTPN22 (OR=1.59, p=1.3x10(-160)). STAT4 rs140675301-A replaces hydrophilic glutamic acid with hydrophobic valine (Glu128Val) in a conserved, surface-exposed loop. A stop-mutation (rs76428106-C) in FLT3 increases seropositive RA risk (OR=1.35, p=6.6x10(-11)). Independent missense variants in TYK2 (rs34536443-C, rs12720356-C, rs35018800-A, latter two novel) associate with decreased risk of seropositive RA (ORs=0.63-0.87, p=10(-9)-10(-27)) and decreased plasma levels of interferon-alpha/beta receptor 1 that signals through TYK2/JAK1/STAT4. Conclusion Sequence variants pointing to causal genes in the JAK/STAT pathway have largest effect on seropositive RA, while associations with seronegative RA remain scarce. Funding Agencies|NORDFORSK [90825]; Swedish Research Council [2018-02803]; Swedish innovation Agency (Vinnova); Innovationsfonden; The Research Council of Norway; Region Stockholm-Karolinska Institutet; Region Vasterbotten (ALF); Danish Rheumatism Association [R194-A6956, A1923, A3037, A3570]; Swedish Brain Foundation; Nils and Bibbi Jensens Foundation; Knut and Alice Wallenberg Foundation; Margaretha af Ugglas Foundation; South-Eastern Heath Region of Norway; Health Research Fund of Central Denmark Region; Region of Southern Denmark; A.P. Moller Foundation for the Advancement of Medical Science; Colitis-Crohn Foreningen; Novo Nordisk Foundation [NNF15OC0016932]; Aase og Ejnar Danielsens Fond; Beckett-Fonden; Augustinus Fonden; Knud and Edith Eriksens Mindefond; Laege Sofus Carl Emil Friis and Hustru Olga Doris Friis Legat; Psoriasis Forskningsfonden; University of Aarhus; Region of Southern Denmarks PhD Fund [12/7725]; Department of Rheumatology, Frederiksberg Hospital; Research Council of Norway [229624, 223273]; South East and Western Norway Health Authorities; ERC AdG project SELECTionPREDISPOSED; Stiftelsen Kristian Gerhard Jebsen; Trond Mohn Foundation; Novo Nordisk Foundation; University of Bergen

Published

2022

14. The sequences of 150,119 genomes in the UK biobank

Author

Jona Saemundsdottir, Arnaldur Gylfason, Hreinn Stefansson, Steinunn Snorradottir, Gudmar Thorleifsson, Brynjar O. Jensson, Sverrir T. Sverrisson, Gisli Masson, Brynjar Sigurdsson, Olafur Th Magnusson, Agnar Helgason, Unnur Styrkarsdottir, Olafur A. Stefansson, Sigurjon A. Gudjonsson, Hannes Hauswedell, Pall I. Olason, Margret Asgeirsdottir, Páll Melsted, Droplaug N Magnusdottir, Marteinn T. Hardarson, Asmundur Oddsson, Gisli H. Halldorsson, Kristjan Norland, Hannes P. Eggertsson, Thorunn Rafnar, Kari Stefansson, Hilma Holm, Unnur Thorsteinsdottir, Emilia Sobech, Doruk Beyter, Ogmundur Eiriksson, Kristjan H. S. Moore, Brynja D. Sigurpalsdottir, Gunnar Th. Sigurdsson, Ingileif Jonsdottir, Guillaume Holley, Snaedis Kristmundsdottir, Kari Kristinsson, Bjarni V. Halldorsson, Gunnar K. Pálsson, Magnus O. Ulfarsson, Frosti Jonsson, Daniel F. Gudbjartsson, Vinicius Tragante, Patrick Sulem, Florian Zink, Gardar Sveinbjornsson, and Hakon Jonsson

Subjects

Whole genome sequencing, education.field_of_study, Haplotype, Population, Single-nucleotide polymorphism, Computational biology, Biology, Indel, education, Genome, Imputation (genetics), Exome sequencing

Abstract

We describe the analysis of whole genome sequences (WGS) of 150,119 individuals from the UK biobank (UKB). This constitutes a set of high quality variants, including 585,040,410 SNPs, representing 7.0% of all possible human SNPs, and 58,707,036 indels. The large set of variants allows us to characterize selection based on sequence variation within a population through a Depletion Rank (DR) score for windows along the genome. DR analysis shows that coding exons represent a small fraction of regions in the genome subject to strong sequence conservation. We define three cohorts within the UKB, a large British Irish cohort (XBI) and smaller African (XAF) and South Asian (XSA) cohorts. A haplotype reference panel is provided that allows reliable imputation of most variants carried by three or more sequenced individuals. We identified 895,055 structural variants and 2,536,688 microsatellites, groups of variants typically excluded from large scale WGS studies. Using this formidable new resource, we provide several examples of trait associations for rare variants with large effects not found previously through studies based on exome sequencing and/or imputation.

Published

2021

15. The sequences of 150,119 genomes in the UK Biobank

Author

Bjarni V, Halldorsson, Hannes P, Eggertsson, Kristjan H S, Moore, Hannes, Hauswedell, Ogmundur, Eiriksson, Magnus O, Ulfarsson, Gunnar, Palsson, Marteinn T, Hardarson, Asmundur, Oddsson, Brynjar O, Jensson, Snaedis, Kristmundsdottir, Brynja D, Sigurpalsdottir, Olafur A, Stefansson, Doruk, Beyter, Guillaume, Holley, Vinicius, Tragante, Arnaldur, Gylfason, Pall I, Olason, Florian, Zink, Margret, Asgeirsdottir, Sverrir T, Sverrisson, Brynjar, Sigurdsson, Sigurjon A, Gudjonsson, Gunnar T, Sigurdsson, Gisli H, Halldorsson, Gardar, Sveinbjornsson, Kristjan, Norland, Unnur, Styrkarsdottir, Droplaug N, Magnusdottir, Steinunn, Snorradottir, Kari, Kristinsson, Emilia, Sobech, Helgi, Jonsson, Arni J, Geirsson, Isleifur, Olafsson, Palmi, Jonsson, Ole Birger, Pedersen, Christian, Erikstrup, Søren, Brunak, Sisse Rye, Ostrowski, Gudmar, Thorleifsson, Frosti, Jonsson, Pall, Melsted, Ingileif, Jonsdottir, Thorunn, Rafnar, Hilma, Holm, Hreinn, Stefansson, Jona, Saemundsdottir, Daniel F, Gudbjartsson, Olafur T, Magnusson, Gisli, Masson, Unnur, Thorsteinsdottir, Agnar, Helgason, Hakon, Jonsson, Patrick, Sulem, and Thomas, Werge

Subjects

Asia, Whole Genome Sequencing, Genome, Human, Genetic Variation, Exons, Genomics, Polymorphism, Single Nucleotide, United Kingdom, Cohort Studies, Haplotypes, INDEL Mutation, Africa, Databases, Genetic, Humans, Ireland, Conserved Sequence, Biological Specimen Banks, Microsatellite Repeats

Abstract

Detailed knowledge of how diversity in the sequence of the human genome affects phenotypic diversity depends on a comprehensive and reliable characterization of both sequences and phenotypic variation. Over the past decade, insights into this relationship have been obtained from whole-exome sequencing or whole-genome sequencing of large cohorts with rich phenotypic data

Published

2021

16. Genomic Characterization of the Barnacle Balanus improvisus Reveals Extreme Nucleotide Diversity in Coding Regions

Author

Anna Abramova, Magnus Alm Rosenblad, Anders Blomberg, Pall I. Olason, Stefania Giacomello, Björn Nystedt, and Ulrika Lind

Subjects

Barnacle, Octopamine receptor, 0106 biological sciences, 0301 basic medicine, Biofouling, Sequence assembly, Biology, 010603 evolutionary biology, 01 natural sciences, Applied Microbiology and Biotechnology, Genome, Balanus, Nucleotide diversity, 03 medical and health sciences, Receptors, Biogenic Amine, Animals, Coding region, Balanus improvisus, Genome size, Nucleotides, Thoracica, Biochemistry and Molecular Biology, biology.organism_classification, 030104 developmental biology, Evolutionary biology, Barnacle (slang), Original Article, Biokemi och molekylärbiologi, Reference genome

Abstract

Barnacles are key marine crustaceans in several habitats, and they constitute a common practical problem by causing biofouling on man-made marine constructions and ships. Despite causing considerable ecological and economic impacts, there is a surprising void of basic genomic knowledge, and a barnacle reference genome is lacking. We here set out to characterize the genome of the bay barnacle Balanus improvisus (= Amphibalanus improvisus) based on short-read whole-genome sequencing and experimental genome size estimation. We show both experimentally (DNA staining and flow cytometry) and computationally (k-mer analysis) that B. improvisus has a haploid genome size of ~ 740 Mbp. A pilot genome assembly rendered a total assembly size of ~ 600 Mbp and was highly fragmented with an N50 of only 2.2 kbp. Further assembly-based and assembly-free analyses revealed that the very limited assembly contiguity is due to the B. improvisus genome having an extremely high nucleotide diversity (π) in coding regions (average π ≈ 5% and average π in fourfold degenerate sites ≈ 20%), and an overall high repeat content (at least 40%). We also report on high variation in the α-octopamine receptor OctA (average π = 3.6%), which might increase the risk that barnacle populations evolve resistance toward antifouling agents. The genomic features described here can help in planning for a future high-quality reference genome, which is urgently needed to properly explore and understand proteins of interest in barnacle biology and marine biotechnology and for developing better antifouling strategies.

Published

2021

17. Germline variants at SOHLH2 influence multiple myeloma risk

Author

G. Bragi Walters, Niels Abildgaard, Caterina Cafaro, Gisli H. Halldorsson, Markus Hansson, Anders Waage, Ulf-Henrik Mellqvist, Richard S. Houlston, Kari Stefansson, Martin Kaiser, Gudmar Thorleifsson, Thorunn Rafnar, Annette Juul-Vangsted, Aitzkoa Lopez de Lapuente Portilla, Niels Weinhold, Laura Duran-Lozano, Abhishek Niroula, Malte Thodberg, Pall I. Olason, Molly Went, Björn Nilsson, Lilja Stefansdottir, Niels Frost Andersen, Unnur Thorsteinsdottir, Maroulio Pertesi, Ram Ajore, and Ingemar Turesson

Subjects

0301 basic medicine, Male, Linkage disequilibrium, medicine.medical_specialty, Cell type, Biology, Polymorphism, Single Nucleotide, Germline, Article, Linkage Disequilibrium, 03 medical and health sciences, 0302 clinical medicine, Gene Frequency, Internal medicine, Genetics research, medicine, Basic Helix-Loop-Helix Transcription Factors, Humans, Genetic Predisposition to Disease, Author Correction, Gene, Transcription factor, Multiple myeloma, RC254-282, Germ-Line Mutation, Aged, Genetics, Hematology, Disease genetics, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, medicine.disease, Chromatin, 030104 developmental biology, Germ Cells, Oncology, 030220 oncology & carcinogenesis, Female, Multiple Myeloma, Genome-Wide Association Study

Abstract

Multiple myeloma (MM) is caused by the uncontrolled, clonal expansion of plasma cells. While there is epidemiological evidence for inherited susceptibility, the molecular basis remains incompletely understood. We report a genome-wide association study totalling 5,320 cases and 422,289 controls from four Nordic populations, and find a novel MM risk variant at SOHLH2 at 13q13.3 (risk allele frequency = 3.5%; odds ratio = 1.38; P = 2.2 × 10−14). This gene encodes a transcription factor involved in gametogenesis that is normally only weakly expressed in plasma cells. The association is represented by 14 variants in linkage disequilibrium. Among these, rs75712673 maps to a genomic region with open chromatin in plasma cells, and upregulates SOHLH2 in this cell type. Moreover, rs75712673 influences transcriptional activity in luciferase assays, and shows a chromatin looping interaction with the SOHLH2 promoter. Our work provides novel insight into MM susceptibility.

Published

2021

18. Loss-of-Function Variants in the Tumor-Suppressor Gene

Author

Thorhildur, Olafsdottir, Simon N, Stacey, Gardar, Sveinbjornsson, Gudmar, Thorleifsson, Kristjan, Norland, Bardur, Sigurgeirsson, Kristin, Thorisdottir, Arni Kjalar, Kristjansson, Laufey, Tryggvadottir, Kavita Y, Sarin, Rafn, Benediktsson, Jon G, Jonasson, Asgeir, Sigurdsson, Aslaug, Jonasdottir, Snaedis, Kristmundsdottir, Hakon, Jonsson, Arnaldur, Gylfason, Asmundur, Oddsson, Run, Fridriksdottir, Sigurjon A, Gudjonsson, Florian, Zink, Sigrun H, Lund, Solvi, Rognvaldsson, Pall, Melsted, Valgerdur, Steinthorsdottir, Julius, Gudmundsson, Evgenia, Mikaelsdottir, Pall I, Olason, Lilja, Stefansdottir, Hannes P, Eggertsson, Bjarni V, Halldorsson, Unnur, Thorsteinsdottir, Tomas T, Agustsson, Karl, Olafsson, Jon H, Olafsson, Patrick, Sulem, Thorunn, Rafnar, Daniel F, Gudbjartsson, and Kari, Stefansson

Subjects

Male, Skin Neoplasms, Genotype, Whole Genome Sequencing, Age Factors, Iceland, Uterine Cervical Neoplasms, Penetrance, Tissue Banks, Protein Tyrosine Phosphatases, Non-Receptor, United Kingdom, Gene Frequency, Carcinoma, Basal Cell, Loss of Function Mutation, Case-Control Studies, Exome Sequencing, Odds Ratio, Humans, Female, Genes, Tumor Suppressor, Genetic Predisposition to Disease, Genetic Testing, Germ-Line Mutation, Genome-Wide Association Study

Abstract

The success of genome-wide association studies (GWAS) in identifying common, low-penetrance variant-cancer associations for the past decade is undisputed. However, discovering additional high-penetrance cancer mutations in unknown cancer predisposing genes requires detection of variant-cancer association of ultra-rare coding variants. Consequently, large-scale next-generation sequence data with associated phenotype information are needed. Here, we used genotype data on 166,281 Icelanders, of which, 49,708 were whole-genome sequenced and 408,595 individuals from the UK Biobank, of which, 41,147 were whole-exome sequenced, to test for association between loss-of-function burden in autosomal genes and basal cell carcinoma (BCC), the most common cancer in Caucasians. A total of 25,205 BCC cases and 683,058 controls were tested. Rare germline loss-of-function variants in

Published

2020

19. Sarek: A portable workflow for whole-genome sequencing analysis of germline and somatic variants

Author

Teresita Díaz de Ståhl, Maxime Garcia, Valtteri Wirta, Sebastian DiLorenzo, Björn Nystedt, Max Käller, Pall I Olason, Marcel Martin, Jesper Eisfeldt, Szilveszter Juhos, Johanna Sandgren, Philip Ewels, Malin Larsson, and Monica Nistér

Subjects

Source code, Computer science, media_common.quotation_subject, Germline variants, Computational biology, General Biochemistry, Genetics and Molecular Biology, Workflow, Software portability, Annotation, Documentation, Software, Genetics, Humans, Analysis workflow, General Pharmacology, Toxicology and Pharmaceutics, Genetik, media_common, Cancer, Whole genome sequencing, General Immunology and Microbiology, Whole Genome Sequencing, business.industry, Software Tool Article, Somatic variants, General Medicine, Articles, Identification (information), Germ Cells, business

Abstract

Whole-genome sequencing (WGS) is a fundamental technology for research to advance precision medicine, but the limited availability of portable and user-friendly workflows for WGS analyses poses a major challenge for many research groups and hampers scientific progress. Here we present Sarek, an open-source workflow to detect germline variants and somatic mutations based on sequencing data from WGS, whole-exome sequencing (WES), or gene panels. Sarek features (i) easy installation, (ii) robust portability across different computer environments, (iii) comprehensive documentation, (iv) transparent and easy-to-read code, and (v) extensive quality metrics reporting. Sarek is implemented in the Nextflow workflow language and supports both Docker and Singularity containers as well as Conda environments, making it ideal for easy deployment on any POSIX-compatible computers and cloud compute environments. Sarek follows the GATK best-practice recommendations for read alignment and pre-processing, and includes a wide range of software for the identification and annotation of germline and somatic single-nucleotide variants, insertion and deletion variants, structural variants, tumour sample purity, and variations in ploidy and copy number. Sarek offers easy, efficient, and reproducible WGS analyses, and can readily be used both as a production workflow at sequencing facilities and as a powerful stand-alone tool for individual research groups. The Sarek source code, documentation and installation instructions are freely available at https://github.com/nf-core/sarek and at https://nf-co.re/sarek/.

Published

2020

20. Author Correction: Germline variants at SOHLH2 influence multiple myeloma risk

Author

Martin Kaiser, Maroulio Pertesi, Richard S. Houlston, Laura Duran-Lozano, Markus Hansson, Gisli H. Halldorsson, Anders Waage, Ulf-Henrik Mellqvist, Molly Went, Kari Stefansson, G. Bragi Walters, Annette Juul-Vangsted, Unnur Thorsteinsdottir, Björn Nilsson, Aitzkoa Lopez de Lapuente Portilla, Abhishek Niroula, Gudmar Thorleifsson, Niels Abildgaard, Ram Ajore, Ingemar Turesson, Lilja Stefansdottir, Niels Frost Andersen, Caterina Cafaro, Thorunn Rafnar, Pall I. Olason, Malte Thodberg, and Niels Weinhold

Subjects

Oncology, medicine.medical_specialty, business.industry, Published Erratum, MEDLINE, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, Hematology, medicine.disease, Germline, Internal medicine, medicine, business, Multiple myeloma, RC254-282

Published

2021

21. A geographically matched control population efficiently limits the number of candidate disease-causing variants in an unbiased whole-genome analysis

Author

Pia Osterman, Erik Johansson, Carl Wibom, Johan Trygg, Carin Nylander, Sergiu Netotea, Daniel Svensson, Andrei Chabes, Matilda Rentoft, Beatrice Melin, Olle Sjöström, Pall I. Olason, Andreas Sjödin, Kristina Cederquist, and Rickard Sjögren

Subjects

Male, Heredity, Disease, Genome, Geographical locations, Medicine and Health Sciences, Genes, Dominant, 0303 health sciences, education.field_of_study, Multidisciplinary, Geography, Matched control, 030305 genetics & heredity, Autosomal dominant trait, Genomics, Adenomas, Pedigree, Functional Genomics, Europe, Genetic Mapping, Oncology, Medicine, Medical genetics, Female, Colorectal Neoplasms, Medical Genetics, Research Article, medicine.medical_specialty, Science, Population, Computational biology, Biology, Genome Complexity, 03 medical and health sciences, medicine, Genetics, Humans, European Union, education, Alleles, 030304 developmental biology, Medicinsk genetik, Sweden, Colorectal Cancer, Evolutionary Biology, Whole Genome Sequencing, Population Biology, Genetic variants, Genetic Diseases, Inborn, Genetic Variation, Cancers and Neoplasms, Biology and Life Sciences, Computational Biology, Introns, Haplotypes, Genetic Loci, Case-Control Studies, Genetic Polymorphism, People and places, Population Genetics, Genome-Wide Association Study

Abstract

Whole-genome sequencing is a promising approach for human autosomal dominant disease studies. However, the vast number of genetic variants observed by this method constitutes a challenge when trying to identify the causal variants. This is often handled by restricting disease studies to the most damaging variants, e. g. those found in coding regions, and overlooking the remaining genetic variation. Such a biased approach explains in part why the genetic causes of many families with dominantly inherited diseases, in spite of being included in whole-genome sequencing studies, are left unsolved today. Here we explore the use of a geographically matched control population to minimize the number of candidate disease-causing variants without excluding variants based on assumptions on genomic position or functional predictions. To exemplify the benefit of the geographically matched control population we apply a typical disease variant filtering strategy in a family with an autosomal dominant form of colorectal cancer. With the use of the geographically matched control population we end up with 26 candidate variants genome wide. This is in contrast to the tens of thousands of candidates left when only making use of available public variant datasets. The effect of the local control population is dual, it (1) reduces the total number of candidate variants shared between affected individuals, and more importantly (2) increases the rate by which the number of candidate variants are reduced as additional affected family members are included in the filtering strategy. We demonstrate that the application of a geographically matched control population effectively limits the number of candidate disease-causing variants and may provide the means by which variants suitable for functional studies are identified genome wide.

Published

2019

22. Sarek: A portable workflow for whole-genome sequencing analysis of germline and somatic variants

Author

Sebastian DiLorenzo, Björn Nystedt, Szilveszter Juhos, Monica Nistér, Jesper Eisfeldt, Max Käller, Pall I Olason, Malin Larsson, Valtteri Wirta, Marcel Martin, Johanna Sandgren, Maxime Garcia, and Teresita Díaz de Ståhl

Subjects

Whole genome sequencing, Workflow, Source code, Computer science, Computer cluster, media_common.quotation_subject, Computational biology, Precision medicine, Indel, Genome, media_common

Abstract

SummaryWhole-genome sequencing (WGS) is a cornerstone of precision medicine, but portable and reproducible open-source workflows for WGS analyses of germline and somatic variants are lacking. We present Sarek, a modular, comprehensive, and easy-to-install workflow, combining a range of software for the identification and annotation of single-nucleotide variants (SNVs), insertion and deletion variants (indels), structural variants, tumor sample heterogeneity, and karyotyping from germline or paired tumor/normal samples. Sarek is implemented in a bioinformatics workflow language (Nextflow) with Docker and Singularity compatible containers, ensuring easy deployment and full reproducibility at any Linux based compute cluster or cloud computing environment. Sarek supports the human reference genomes GRCh37 and GRCh38, and can readily be used both as a core production workflow at sequencing facilities and as a powerful stand-alone tool for individual research groups.AvailabilitySource code and instructions for local installation are available at GitHub (https://github.com/SciLifeLab/Sarek) under the MIT open-source license, and we invite the research community to contribute additional functionality as a collaborative open-source development project.

Published

2018

23. De Novo Assembly of Two Swedish Genomes Reveals Missing Segments from the Human GRCh38 Reference and Improves Variant Calling of Population-Scale Sequencing Data

Author

Johan Dahlberg, Adam Ameur, Susana Häggqvist, Jessica Nordlund, Ulf Gyllensten, Ida Höijer, Marcel Martin, Huiwen Che, Francesco Vezzi, Ignas Bunikis, Pall I Olason, and Lars Feuk

Subjects

0301 basic medicine, human reference genome, lcsh:QH426-470, Sequencing data, Population, Sequence assembly, Computational biology, SMRT sequencing, Biology, de novo assembly, Genome, DISEASE, Article, 03 medical and health sciences, Genetics, Genetik, education, human whole-genome sequencing, Genetics (clinical), Genetics & Heredity, Protein coding, education.field_of_study, Science & Technology, Autosome, GENETIC-VARIATION, Chromosome, Swedish population, lcsh:Genetics, 030104 developmental biology, population sequencing, GRCh38, Life Sciences & Biomedicine, Single molecule real time sequencing, Reference genome, Personal genomics

Abstract

The current human reference sequence (GRCh38) is a foundation for large-scale sequencing projects. However, recent studies have suggested that GRCh38 may be incomplete and give a suboptimal representation of specific population groups. Here, we performed a de novo assembly of two Swedish genomes that revealed over 10 Mb of sequences absent from the human GRCh38 reference in each individual. Around 6 Mb of these novel sequences (NS) are shared with a Chinese personal genome. The NS are highly repetitive, have an elevated GC-content, and are primarily located in centromeric or telomeric regions. Up to 1 Mb of NS can be assigned to chromosome Y, and large segments are also missing from GRCh38 at chromosomes 14, 17, and 21. Inclusion of NS into the GRCh38 reference radically improves the alignment and variant calling from short-read whole-genome sequencing data at several genomic loci. A re-analysis of a Swedish population-scale sequencing project yields &gt, 75,000 putative novel single nucleotide variants (SNVs) and removes &gt, 10,000 false positive SNV calls per individual, some of which are located in protein coding regions. Our results highlight that the GRCh38 reference is not yet complete and demonstrate that personal genome assemblies from local populations can improve the analysis of short-read whole-genome sequencing data.

Published

2018

24. Genomic consequences of intensive inbreeding in an isolated wolf population

Author

Pall I. Olason, Håkan Sand, Marty Kardos, Mikael Åkesson, Øystein Flagstad, Camilla Wikenros, Petter Wabakken, Toby Fountain, Hans Ellegren, and Olof Liberg

Subjects

0301 basic medicine, Population, Single-nucleotide polymorphism, Runs of Homozygosity, Biology, Genome, Polymorphism, Single Nucleotide, Loss of heterozygosity, 03 medical and health sciences, Inbreeding depression, Animals, Inbreeding, education, Ecology, Evolution, Behavior and Systematics, Sweden, education.field_of_study, Wolves, Ecology, Norway, Chromosome, VDP::Basic biosciences: 470, VDP::Basale biofag: 470, 030104 developmental biology, Evolutionary biology

Abstract

Inbreeding (mating between relatives) is a major concern for conservation as it decreases the fitness of offspring and can increase the extinction risk of populations. While pedigrees have traditionally been used to measure individual inbreeding, molecular markers have opened up new avenues to characterize inbreeding. However, a limitation has been that small numbers of markers can only roughly measure the proportion of an individual’s genome that is identical-by-descent (IBD) due to inbreeding. We used whole-genome resequencing of 97 grey wolves (Canis lupus) from the highly inbred Scandinavian wolf population, originally founded by only two individuals, to identify IBD chromosome segments as runs of homozygosity (ROH). This gave the very high resolution required to precisely measure the realized IBD fraction of the genome as FROH. We found a striking pattern of complete or near-complete homozygosity of entire chromosomes in many individuals. The majority of individual IBD was contributed by long IBD segments (>5cM) originating from common ancestors of parents within the last ~10 generations. However, although most IBD segments were very short (

Published

2017

25. A high‐density linkage map enables a second‐generation collared flycatcher genome assembly and reveals the patterns of avian recombination rate variation and chromosomal evolution

Author

Niclas Backström, Takeshi Kawakami, Arild Husby, Carina F. Mugal, Hans Ellegren, Linnéa Smeds, Anna Qvarnström, and Pall I Olason

Subjects

Male, Genotyping Techniques, Genetic Linkage, Molecular Sequence Data, Population, Biology, Polymorphism, Single Nucleotide, Synteny, Genome, Evolution, Molecular, Songbirds, Evolutionsbiologi, Genetic linkage, Genetics, Animals, Biologiska vetenskaper, education, Zebra finch, Ecology, Evolution, Behavior and Systematics, Recombination, Genetic, recombination rate, Evolutionary Biology, education.field_of_study, Autosome, Biochemistry and Molecular Biology, Chromosome Mapping, Chromosome, Original Articles, Sequence Analysis, DNA, collared flycatcher, Biological Sciences, linkage map, Female, Finches, SNP array, Chickens, Biokemi och molekylärbiologi

Abstract

Detailed linkage and recombination rate maps are necessary to use the full potential of genome sequencing and population genomic analyses. We used a custom collared flycatcher 50 K SNP array to develop a high-density linkage map with 37 262 markers assigned to 34 linkage groups in 33 autosomes and the Z chromosome. The best-order map contained 4215 markers, with a total distance of 3132 cM and a mean genetic distance between markers of 0.12 cM. Facilitated by the array being designed to include markers from most scaffolds, we obtained a second-generation assembly of the flycatcher genome that approaches full chromosome sequences (N50 super-scaffold size 20.2 Mb and with 1.042 Gb (of 1.116 Gb) anchored to and mostly ordered and oriented along chromosomes). We found that flycatcher and zebra finch chromosomes are entirely syntenic but that inversions at mean rates of 1.5–2.0 event (6.6–7.5 Mb) per My have changed the organization within chromosomes, rates high enough for inversions to potentially have been involved with many speciation events during avian evolution. The mean recombination rate was 3.1 cM/Mb and correlated closely with chromosome size, from 2 cM/Mb for chromosomes >100 Mb to >10 cM/Mb for chromosomes

Published

2014

26. Estimation of linkage disequilibrium and interspecific gene flow in<scp>F</scp>icedulaflycatchers by a newly developed 50k single‐nucleotide polymorphism array

Author

Pall I Olason, Takeshi Kawakami, Amber M. Rice, Murielle Ålund, Hans Ellegren, Arild Husby, Niclas Backström, Reto Burri, and Anna Qvarnström

Subjects

Gene Flow, 0106 biological sciences, Linkage disequilibrium, Genotyping Techniques, Population, single-nucleotide polymorphism genotyping, Genome-wide association study, Biology, Polymorphism, Single Nucleotide, 010603 evolutionary biology, 01 natural sciences, Genome, Linkage Disequilibrium, Gene flow, 03 medical and health sciences, Resource Articles, Genetics, Animals, GWAS, Passeriformes, education, Hybridization, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, Ekologi, Whole genome sequencing, 0303 health sciences, education.field_of_study, Ecology, Biochemistry and Molecular Biology, Ficedula, collared flycatcher, Microarray Analysis, biology.organism_classification, speciation, Evolutionary biology, pied flycatcher, Biokemi och molekylärbiologi, Biotechnology, SNP array

Abstract

With the access to draft genome sequence assemblies and whole-genome resequencing data from population samples, molecular ecology studies will be able to take truly genome-wide approaches. This now applies to an avian model system in ecological and evolutionary research: Old World flycatchers of the genus Ficedula, for which we recently obtained a 1.1 Gb collared flycatcher genome assembly and identified 13 million single-nucleotide polymorphism (SNP)s in population resequencing of this species and its sister species, pied flycatcher. Here, we developed a custom 50K Illumina iSelect flycatcher SNP array with markers covering 30 autosomes and the Z chromosome. Using a number of selection criteria for inclusion in the array, both genotyping success rate and polymorphism information content (mean marker heterozygosity = 0.41) were high. We used the array to assess linkage disequilibrium (LD) and hybridization in flycatchers. Linkage disequilibrium declined quickly to the background level at an average distance of 17 kb, but the extent of LD varied markedly within the genome and was more than 10-fold higher in ‘genomic islands’ of differentiation than in the rest of the genome. Genetic ancestry analysis identified 33 F1 hybrids but no later-generation hybrids from sympatric populations of collared flycatchers and pied flycatchers, contradicting earlier reports of backcrosses identified from much fewer number of markers. With an estimated divergence time as recently as

Published

2014

27. SweGen: A whole-genome map of genetic variability in a cross-section of the Swedish population

Author

Daniel Nilsson, Adam Ameur, Pall I. Olason, Pär Lundin, Jonas Hagberg, Rose-Marie Karlsson, Åsa Johansson, Sverker Lundin, Björn Nystedt, Patrik K. E. Magnusson, Johan Dahlberg, Niclas Jareborg, Andreas Kähäri, Jessada Thutkawkorapin, Johan Viklund, Inger Jonasson, Francesco Vezzi, Huiwen Che, Ulf Gyllensten, and Mats Dahlberg

Subjects

Genetics, Whole genome sequencing, medicine.medical_specialty, education.field_of_study, Population, Biology, Evolutionary biology, Genetic variation, Genetic structure, medicine, Medical genetics, Genetic variability, Sample collection, education, Genetic association

Abstract

Here we describe the SweGen dataset, a high-quality map of genetic variation in the Swedish population. This data represents a basic resource for clinical genetics laboratories as well as for sequencing-based association studies, by providing information on the frequencies of genetic variants in a cohort that is well matched to national patient cohorts. To select samples for this study, we first examined the genetic structure of the Swedish population using high-density SNP-array data from a nation-wide population based cohort of over 10,000 individuals. From this sample collection, 1,000 individuals, reflecting a cross-section of the population and capturing the main genetic structure, were selected for whole genome sequencing (WGS). Analysis pipelines were developed for automated alignment, variant calling and quality control of the sequencing data. This resulted in a whole-genome map of aggregated variant frequencies in the Swedish population that we hereby release to the scientific community.

Published

2016

28. The genomic landscape of species divergence in Ficedula flycatchers

Author

Takeshi Kawakami, Niclas Backström, Axel Künstner, Pall I Olason, Jochen B. W. Wolf, Anna Qvarnström, Hans Ellegren, Hannu Mäkinen, Severin Uebbing, Reto Burri, Linnéa Smeds, and Krystyna Nadachowska-Brzyska

Subjects

0106 biological sciences, Male, Genetic Speciation, Population, Centromere, Molecular Sequence Data, Biology, 010603 evolutionary biology, 01 natural sciences, Genome, Chromosomes, Divergence, Nucleotide diversity, Songbirds, 03 medical and health sciences, Gene Frequency, Species Specificity, Genetic algorithm, Animals, Selection, Genetic, education, Phylogeny, 030304 developmental biology, Genetics, 0303 health sciences, education.field_of_study, Multidisciplinary, Ficedula, Genetic Variation, Reproductive isolation, Biodiversity, Genomics, Telomere, biology.organism_classification, Evolutionary biology

Abstract

Unravelling the genomic landscape of divergence between lineages is key to understanding speciation. The naturally hybridizing collared flycatcher and pied flycatcher are important avian speciation models that show pre- as well as postzygotic isolation. We sequenced and assembled the 1.1-Gb flycatcher genome, physically mapped the assembly to chromosomes using a low-density linkage map and re-sequenced population samples of each species. Here we show that the genomic landscape of species differentiation is highly heterogeneous with approximately 50 'divergence islands' showing up to 50-fold higher sequence divergence than the genomic background. These non-randomly distributed islands, with between one and three regions of elevated divergence per chromosome irrespective of chromosome size, are characterized by reduced levels of nucleotide diversity, skewed allele-frequency spectra, elevated levels of linkage disequilibrium and reduced proportions of shared polymorphisms in both species, indicative of parallel episodes of selection. Proximity of divergence peaks to genomic regions resistant to sequence assembly, potentially including centromeres and telomeres, indicate that complex repeat structures may drive species divergence. A much higher background level of species divergence of the Z chromosome, and a lower proportion of shared polymorphisms, indicate that sex chromosomes and autosomes are at different stages of speciation. This study provides a roadmap to the emerging field of speciation genomics.

Published

2012

29. Detection of sharing by descent, long-range phasing and haplotype imputation

Author

Gudmar Thorleifsson, Arnaldur Gylfason, Michael L. Frigge, Pall I. Olason, Gisli Masson, Kari Stefansson, Frosti Jonsson, Daniel F. Gudbjartsson, Unnur Thorsteinsdottir, Patrick Sulem, Hreinn Stefansson, Magali Mouy, Stacy Steinberg, Andres Ingason, Pasha Zusmanovich, Thorunn Rafnar, and Augustine Kong

Subjects

Genetic Markers, Male, Linkage disequilibrium, Population, Iceland, Inheritance Patterns, Single-nucleotide polymorphism, Computational biology, Biology, Polymorphism, Single Nucleotide, Identity by descent, Article, Major Histocompatibility Complex, Genetics, Humans, education, education.field_of_study, Base Sequence, Models, Genetic, Small number, Haplotype, Genetics, Population, Haplotypes, Female, Algorithms, Gene Deletion, Imputation (genetics)

Abstract

Uncertainty about the phase of strings of single nucleotide polymorphisms (SNPs) creates complications in genetic analysis although methods have been developed for phasing population-based samples. However, these methods can only phase a small number of SNPs effectively, and become unreliable when applied to SNPs spanning many linkage disequilibrium (LD) blocks. Here we show how to phase more than one thousand SNPs simultaneously for a large fraction of the 35,528 Icelanders genotyped by Illumina chips. Moreover, haplotypes that are identical by descent (IBD) between close and distant relatives, e.g. those separated by 10 meioses or more, can often be reliably detected. This method is particularly powerful in studies of the inheritance of recurrent mutations and fine-scale recombinations in large sample sets. A further extension of the method allows us to impute long haplotypes for individuals who are not genotyped.

Published

2008

30. Linked selection and recombination rate variation drive the evolution of the genomic landscape of differentiation across the speciation continuum of Ficedula flycatchers

Author

Stein Are Sæther, Anna Qvarnström, Hans Ellegren, Ludovic Dutoit, László Zsolt Garamszegi, Carina F. Mugal, Milan Ružić, Reto Burri, Juan Moreno, Glenn-Peter Sætre, Alexander Nater, Silje Hogner, Takeshi Kawakami, Linnéa Smeds, Stanislav Bureš, Alexander Suh, Pall I. Olason, János Török, and European Research Council

Subjects

0106 biological sciences, Gene Flow, Male, Reproductive Isolation, Genotyping Techniques, Genetic Speciation, Population, Genomics, Biology, 010603 evolutionary biology, 01 natural sciences, Polymorphism, Single Nucleotide, Evolutionsbiologi, 03 medical and health sciences, Species Specificity, Genetic algorithm, Genetics, Animals, Passeriformes, Selection, Genetic, education, Genetics (clinical), 030304 developmental biology, Recombination, Genetic, 0303 health sciences, education.field_of_study, Evolutionary Biology, Genome, Research, Ficedula, Reproductive isolation, Sequence Analysis, DNA, Background selection, biology.organism_classification, Genetics, Population, Evolutionary biology, Female, Adaptation

Abstract

Speciation is a continuous process during which genetic changes gradually accumulate in the genomes of diverging species. Recent studies have documented highly heterogeneous differentiation landscapes, with distinct regions of elevated differentiation (“differentiation islands”) widespread across genomes. However, it remains unclear which processes drive the evolution of differentiation islands; how the differentiation landscape evolves as speciation advances; and ultimately, how differentiation islands are related to speciation. Here, we addressed these questions based on population genetic analyses of 200 resequenced genomes from 10 populations of four Ficedula flycatcher sister species. We show that a heterogeneous differentiation landscape starts emerging among populations within species, and differentiation islands evolve recurrently in the very same genomic regions among independent lineages. Contrary to expectations from models that interpret differentiation islands as genomic regions involved in reproductive isolation that are shielded from gene flow, patterns of sequence divergence (dxy and relative node depth) do not support a major role of gene flow in the evolution of the differentiation landscape in these species. Instead, as predicted by models of linked selection, genome-wide variation in diversity and differentiation can be explained by variation in recombination rate and the density of targets for selection. We thus conclude that the heterogeneous landscape of differentiation in Ficedula flycatchers evolves mainly as the result of background selection and selective sweeps in genomic regions of low recombination. Our results emphasize the necessity of incorporating linked selection as a null model to identify genome regions involved in adaptation and speciation.

Published

2015

31. Mitochondrial DNA variation in the Viking age population of Norway

Author

Erika Hagelberg, Pall I Olason, Anders Götherström, Maja Krzewińska, Jan Bill, Gro Bjørnstad, and Pontus Skoglund

Subjects

Genetic Markers, Mitochondrial DNA, common, Human Migration, Population, Molecular Sequence Data, DNA, Mitochondrial, General Biochemistry, Genetics and Molecular Biology, Haplogroup, Bone and Bones, Icelanders, Humans, education, Shetland, education.field_of_study, Base Sequence, Fossils, Norway, Genetic Variation, Nucleic acid amplification technique, Sequence Analysis, DNA, humanities, History, Medieval, Geography, Ancient DNA, Haplotypes, Evolutionary biology, common.group, Viking Age, Female, General Agricultural and Biological Sciences, Part I: Ancient Human Populations, Nucleic Acid Amplification Techniques, Sequence Alignment, Tooth

Abstract

The medieval Norsemen or Vikings had an important biological and cultural impact on many parts of Europe through raids, colonization and trade, from about AD 793 to 1066. To help understand the genetic affinities of the ancient Norsemen, and their genetic contribution to the gene pool of other Europeans, we analysed DNA markers in Late Iron Age skeletal remains from Norway. DNA was extracted from 80 individuals, and mitochondrial DNA polymorphisms were detected by next-generation sequencing. The sequences of 45 ancient Norwegians were verified as genuine through the identification of damage patterns characteristic of ancient DNA. The ancient Norwegians were genetically similar to previously analysed ancient Icelanders, and to present-day Shetland and Orkney Islanders, Norwegians, Swedes, Scots, English, German and French. The Viking Age population had higher frequencies of K*, U*, V* and I* haplogroups than their modern counterparts, but a lower proportion of T* and H* haplogroups. Three individuals carried haplotypes that are rare in Norway today (U5b1b1, Hg A* and an uncommon variant of H*). Our combined analyses indicate that Norse women were important agents in the overseas expansion and settlement of the Vikings, and that women from the Orkneys and Western Isles contributed to the colonization of Iceland.

Published

2015

32. Hyperphagia modifies FA profiles of plasma phospholipids, plasma FFA, and adipose tissue TAG

Author

Gudrun V. Skuladottir, Helgi B. Schiöth, J. O. Skarphedinsson, Pall I. Olason, Vedis H. Eriksdottir, Palmi Th. Atlason, Leifur Franzson, and Logi Jonsson

Subjects

Male, medicine.medical_specialty, Clinical chemistry, Adipose tissue, Fatty Acids, Nonesterified, Hyperphagia, Biochemistry, Melanocortin receptor, Internal medicine, medicine, Animals, Phospholipids, Triglycerides, chemistry.chemical_classification, Chemistry, Organic Chemistry, Antagonist, Cell Biology, Rats, Endocrinology, Adipose Tissue, lipids (amino acids, peptides, and proteins), Composition (visual arts), Energy Intake, Plasma ffa, Lipidology, Polyunsaturated fatty acid

Abstract

Hyperphagia was achieved by continuous intracerebroventricular infusion of a melanocortin receptor antagonist (HS024; Neosystem, Strasbourg, France) in rats. The effects of hyperphagia on FA composition and concentration of plasma phospholipids (PL), plasma FFA, and adipose tissue TAG were studied in rats for 8 d [short-term hyperphagia (STH); n = 8], or 28 d [long-term hyperphagia (LTH); n = 9]. The control rats were treated with artificial cerebrospinal fluid for 8 d (n = 8) or 28 d (n = 10). The rats were fed the same regular diet. In STH rats the plasma PL and fasting plasma FFA contained higher concentrations of saturated FA (SFA) and monounsaturated FA (MUFA), and plasma FFA contained lower n-6 PUFA than in the control rats. In LTH rats the plasma PL contained higher concentrations of SFA, MUFA, and n-3 PUFA and higher proportions of 16:1n-7 and 18:1n-9 at the expense of 18:2n-6 than in the control rats. In LTH rats the abundant dietary intake of 18:2n-6 did not enrich 18:2n-6 of the plasma PL or adipose tissue TAG. In LTH rats the fasting plasma FFA contained more than twofold higher concentrations of SFA and MUFA, and higher proportions of 16:1n-7 and 18:1n-9 at the expense of 18:2n-6 than in the control rats. This animal obesity model shows that LTH affects the FA composition and concentration of plasma PL, plasma FFA, and adipose tissue TAG, a result consistent with changes associated with increased risk of various diseases in humans. These results also demonstrate that LTH alters the FA composition of plasma PL and adipose tissue TAG in a way that does not reflect the FA composition of dietary fat.

Published

2003

33. TIDDIT, an efficient and comprehensive structural variant caller for massive parallel sequencing data

Author

Anna Lindstrand, Pall I. Olason, Jesper Eisfeldt, Francesco Vezzi, and Daniel Nilsson

Subjects

0301 basic medicine, Bioinformatics, Computational biology, 030105 genetics & heredity, General Biochemistry, Genetics and Molecular Biology, Structural variation, 03 medical and health sciences, 0302 clinical medicine, Variant calling, Medicine, General Pharmacology, Toxicology and Pharmaceutics, Whole genome sequencing, Massive parallel sequencing, General Immunology and Microbiology, Software Tool Article, business.industry, Structural variant, Articles, Genomics, General Medicine, 030104 developmental biology, Human genome, business, 030217 neurology & neurosurgery

Abstract

Reliable detection of large structural variation ( > 1000 bp) is important in both rare and common genetic disorders. Whole genome sequencing (WGS) is a technology that may be used to identify a large proportion of the genomic structural variants (SVs) in an individual in a single experiment. Even though SV callers have been extensively used in research to detect mutations, the potential usage of SV callers within routine clinical diagnostics is hindered by high computational costs, usage of non-standard output format, and limited support for the various sequencing platforms and libraries. Another well known, but not well-addressed problem is the large number of benign variants and reference errors present in the human genome that further complicates analysis. Here we present TIDDIT, a time efficient variant caller, that uses discordant read pairs as well as the depth of coverage and split reads to detect and classify a large spectrum of SVs. As part of the software suite, TIDDIT also includes a database functionality that enables filtering for rare variants and reduces the number of false positive calls and background noise. Benchmarked against five state-of-the-art SV callers, TIDDIT performs at an equal/superior level while using only 2 CPU hours per sample. Thanks to its speed, sensitivity, flexibility and ability to easily detect variants on a wide range of WGS library types, TIDDIT solves many of the problems that are currently hindering the utilization of WGS for SV calling in clinical settings.

Published

2017

34. Demographic divergence history of pied flycatcher and collared flycatcher inferred from whole-genome re-sequencing data

Author

Linnéa Smeds, Takeshi Kawakami, Pall I Olason, Hans Ellegren, Krystyna Nadachowska-Brzyska, and Reto Burri

Subjects

0106 biological sciences, Gene Flow, Cancer Research, lcsh:QH426-470, Demographic history, Genetic Speciation, Population, Biology, 010603 evolutionary biology, 01 natural sciences, Coalescent theory, Songbirds, Evolutionsbiologi, 03 medical and health sciences, Effective population size, Genetics, Animals, Selection, Genetic, education, Molecular Biology, Genetics (clinical), Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, Population Density, 0303 health sciences, education.field_of_study, Evolutionary Biology, Ecology, Population size, Genetic Variation, Bayes Theorem, Reproductive isolation, Sequence Analysis, DNA, 15. Life on land, Biological Evolution, Markov Chains, lcsh:Genetics, Evolutionary biology, Approximate Bayesian computation, Research Article

Abstract

Profound knowledge of demographic history is a prerequisite for the understanding and inference of processes involved in the evolution of population differentiation and speciation. Together with new coalescent-based methods, the recent availability of genome-wide data enables investigation of differentiation and divergence processes at unprecedented depth. We combined two powerful approaches, full Approximate Bayesian Computation analysis (ABC) and pairwise sequentially Markovian coalescent modeling (PSMC), to reconstruct the demographic history of the split between two avian speciation model species, the pied flycatcher and collared flycatcher. Using whole-genome re-sequencing data from 20 individuals, we investigated 15 demographic models including different levels and patterns of gene flow, and changes in effective population size over time. ABC provided high support for recent (mode 0.3 my, range, Author Summary Demographic processes leave specific and detectable signatures within species genomes. Analysis of patterns of variation within and between closely related species can be used to unravel their divergence history and is crucial for understanding evolutionary processes such as speciation. We applied a set of novel population-genomic tools to investigate patterns of natural variation and infer demographic history of two avian speciation model species: pied flycatcher and collared flycatcher. The analysis supported a scenario consistent with allopatric speciation with recent, postglacial secondary contact. Most likely the ancestral species persisted through one of the glacial periods of the middle Pleistocene and then split into two large descendent populations that appear to have increased in size before experiencing severe bottlenecks during expansion into their current ranges. The two species established secondary contact after the last glacial maximum. This resulted in unidirectional gene flow from pied flycatcher to collared flycatcher. The results are consistent with a scenario where pied flycatcher recolonized northern Europe more rapidly than collared flycatcher. Our study increases the knowledge about the dynamics of the speciation process and constitutes one of the first examples of the inference of complex demographic history using information from genome-wide data in non-model species.

Published

2013

35. Lessons learned from implementing a national infrastructure in Sweden for storage and analysis of next-generation sequencing data

Author

Ola Spjuth, Martin Dahlö, Pall I Olason, Samuel Lampa, and Jonas Hagberg

Subjects

Bioinformatics, Computer science, Data analysis, Health Informatics, Genomics, Review, Bioinformatik och systembiologi, DNA sequencing, Task (project management), 03 medical and health sciences, 0302 clinical medicine, High-performance computing, Exome sequencing, 030304 developmental biology, Infrastructure, 0303 health sciences, Bioinformatics and Systems Biology, business.industry, Suite, Supercomputer, Data science, Computer Science Applications, 030220 oncology & carcinogenesis, Ticket, Computer data storage, Next-generation sequencing, business

Abstract

Analyzing and storing data and results from next-generation sequencing (NGS) experiments is a challenging task, hampered by ever-increasing data volumes and frequent updates of analysis methods and tools. Storage and computation have grown beyond the capacity of personal computers and there is a need for suitable e-infrastructures for processing. Here we describe UPPNEX, an implementation of such an infrastructure, tailored to the needs of data storage and analysis of NGS data in Sweden serving various labs and multiple instruments from the major sequencing technology platforms. UPPNEX comprises resources for high-performance computing, large-scale and high-availability storage, an extensive bioinformatics software suite, up-to-date reference genomes and annotations, a support function with system and application experts as well as a web portal and support ticket system. UPPNEX applications are numerous and diverse, and include whole genome-, de novo- and exome sequencing, targeted resequencing, SNP discovery, RNASeq, and methylation analysis. There are over 300 projects that utilize UPPNEX and include large undertakings such as the sequencing of the flycatcher and Norwegian spruce. We describe the strategic decisions made when investing in hardware, setting up maintenance and support, allocating resources, and illustrate major challenges such as managing data growth. We conclude with summarizing our experiences and observations with UPPNEX to date, providing insights into the successful and less successful decisions made.

Published

2013

36. De novo CNV analysis implicates specific abnormalities of postsynaptic signalling complexes in the pathogenesis of schizophrenia

Author

Michael Conlon O'Donovan, Jyoti S. Choudhary, Rebecca Louise Wollerton, Seth G. N. Grant, Kimberly Chambert, Esperanza Fernández, Douglas M. Ruderfer, Dobril Ivanov, L N van de Lagemaat, Michael John Owen, Lyudmila Georgieva, Marija Fjodorova, George Kirov, Àlex Bayés, Pamela Sklar, Shaun Purcell, Mark O. Collins, Jennifer L. Moran, Draga Toncheva, Masashi Ikeda, Hreinn Stefansson, Pall I. Olason, Noboru H. Komiyama, Ivan Nikolov, Elliott Rees, Detelina Grozeva, Peter Holmans, Andrew Pocklington, Yvonne Böttcher, Kari Stefansson, and [ 1 ] Cardiff Univ, Dept Psychol Med & Neurol, Sch Med, MRC Ctr Neuropsychiat Genet & Genoom,Neurosci & M, Cardiff CF14 4XN, S Glam, Wales [ 2 ] Fujita Hlth Univ, Sch Med, Dept Psychiat, Toyoake, Aichi 47011, Japan [ 3 ] Massachusetts Gen Hosp, Dept Psychiat, Psychiat & Neurodev Genet Unit, Boston, MA 02114 USA [ 4 ] Harvard Univ, Sch Med, Boston, MA USA [ 5 ] Massachusetts Gen Hosp, Ctr Human Genet Res, Boston, MA 02114 USA [ 6 ] Broad Inst, Stanley Ctr Psychiat Res, Cambridge, MA USA [ 7 ] Univ Hosp Maichin Dom, Sofia, Bulgaria [ 8 ] Univ Edinburgh, Genes Cognit Program, Sch Mol & Clin Med, Edinburgh, Midlothian, Scotland [ 9 ] KU Leuven Med Sch, VIB Dept Mol & Dev Genet, Louvain, Belgium [ 10 ] deCODE Genet, Reykjavik, Iceland [ 11 ] Wellcome Trust Sanger Inst, Hinxton, Cambs, England

Subjects

Male, Iceland, 0302 clinical medicine, Gene Frequency, Japan, AIDS-Related Complex, Gene duplication, Copy-number variation, Bulgaria, Genetics, 0303 health sciences, education.field_of_study, EHMT1, Arc (protein), 3. Good health, Psychiatry and Mental health, DLG, Female, Signal Transduction, de novo, congenital, hereditary, and neonatal diseases and abnormalities, DNA Copy Number Variations, Genotype, CNV, Population, Biology, Models, Biological, Receptors, N-Methyl-D-Aspartate, postsynaptic, Statistics, Nonparametric, 03 medical and health sciences, Cellular and Molecular Neuroscience, Geðklofi, Meta-Analysis as Topic, mental disorders, Humans, Genetic Predisposition to Disease, education, Molecular Biology, Allele frequency, 030304 developmental biology, Family Health, Psychiatric Status Rating Scales, Microarray analysis techniques, Post-Synaptic Density, Arfgengi, Microarray Analysis, schizophrenia, Case-Control Studies, Synapses, Schizophrenia, RC0321, Immediate Communication, Postsynaptic density, 030217 neurology & neurosurgery

Abstract

To access publisher's full text version of this article click on the hyperlink at the bottom of the page A small number of rare, recurrent genomic copy number variants (CNVs) are known to substantially increase susceptibility to schizophrenia. As a consequence of the low fecundity in people with schizophrenia and other neurodevelopmental phenotypes to which these CNVs contribute, CNVs with large effects on risk are likely to be rapidly removed from the population by natural selection. Accordingly, such CNVs must frequently occur as recurrent de novo mutations. In a sample of 662 schizophrenia proband-parent trios, we found that rare de novo CNV mutations were significantly more frequent in cases (5.1% all cases, 5.5% family history negative) compared with 2.2% among 2623 controls, confirming the involvement of de novo CNVs in the pathogenesis of schizophrenia. Eight de novo CNVs occurred at four known schizophrenia loci (3q29, 15q11.2, 15q13.3 and 16p11.2). De novo CNVs of known pathogenic significance in other genomic disorders were also observed, including deletion at the TAR (thrombocytopenia absent radius) region on 1q21.1 and duplication at the WBS (Williams-Beuren syndrome) region at 7q11.23. Multiple de novos spanned genes encoding members of the DLG (discs large) family of membrane-associated guanylate kinases (MAGUKs) that are components of the postsynaptic density (PSD). Two de novos also affected EHMT1, a histone methyl transferase known to directly regulate DLG family members. Using a systems biology approach and merging novel CNV and proteomics data sets, systematic analysis of synaptic protein complexes showed that, compared with control CNVs, case de novos were significantly enriched for the PSD proteome (P=1.72 × 10⁻⁶. This was largely explained by enrichment for members of the N-methyl-D-aspartate receptor (NMDAR) (P=4.24 × 10⁻⁶) and neuronal activity-regulated cytoskeleton-associated protein (ARC) (P=3.78 × 10⁻⁸) postsynaptic signalling complexes. In an analysis of 18 492 subjects (7907 cases and 10 585 controls), case CNVs were enriched for members of the NMDAR complex (P=0.0015) but not ARC (P=0.14). Our data indicate that defects in NMDAR postsynaptic signalling and, possibly, ARC complexes, which are known to be important in synaptic plasticity and cognition, play a significant role in the pathogenesis of schizophrenia. Janssen Research Foundation Stanley Medical Research Institute Merck Genome Research Foundation Herman Foundation Medical Research Council (MRC) G0800509 Centre Grants, the National Institutes of Mental Health (USA) CONTE: 2 P50 MH066392-05A1 EU (EU-GEI) EU HEALTH-2007-2.2.1-10-223423 PIAG-GA-2008-218251 241995 242498 242167 Genes to Cognition Program Wellcome Trust MRC G06706B EMBO European Commission info:eu-repo/grantAgreement/EC/FP7/218251

Published

2012

37. Expanding the range of ZNF804A variants conferring risk of psychosis

Author

Robin M. Murray, Vera Golimbet, Sven Cichon, M. Rietschel, D St Clair, Andres Ingason, Thomas Hansen, Sarah Tosato, Ole Mors, Omar Gustafsson, Ragnheidur Fossdal, J. Yoon, Olli Pietiläinen, Annette M. Hartmann, Augustine Kong, Lavinia Athanasiu, Unnur Thorsteinsdottir, Srdjan Djurovic, Tao Li, Elvira Bramon, Markus M. Nöthen, Dan Rujescu, Erik G. Jönsson, Leena Peltonen, Jan-Erik Lönnqvist, Mette Nyegaard, Annamari Tuulio-Henriksson, Hannes Petursson, Birte Glenthøj, János Réthelyi, Nelson B. Freimer, Ingrid Melle, David M. Hougaard, M. Mattheisen, Lilia I. Abramova, Stacy Steinberg, Preben Bo Mortensen, David A. Collier, Ingrid Agartz, Neil Walker, Lambertus A. Kiemeney, H.-J. Möller, Gillian Fraser, Hreinn Stefansson, Ina Giegling, Anders D. Børglum, René Breuer, Thorgeir E. Thorgeirsson, Evangelos Vassos, Gesche Jürgens, Thomas Werge, Iris H Gudjonsdottir, Pall I. Olason, Lars Terenius, Kari Stefansson, Thordur Sigmundsson, Merete Nordentoft, Yvonne Böttcher, Bent Nørgaard-Pedersen, Tiina Paunio, Rita M. Cantor, Roel A. Ophoff, Henrik B. Rasmussen, Kaleda Vg, István Bitter, Jaana Suvisaari, Timothea Toulopoulou, Mirella Ruggeri, Eric Strengman, Engilbert Sigurdsson, Muriel Walshe, Ole A. Andreassen, deCODE genetics, Reykjavik, Iceland., Educational Neuroscience, Clinical Child and Family Studies, LEARN! - Brain, learning and development, Psychiatrie & Neuropsychologie, RS: MHeNs School for Mental Health and Neuroscience, ANS - Amsterdam Neuroscience, and Adult Psychiatry

Subjects

Psychosis, Bipolar Disorder, DNA Copy Number Variations, genetics [DNA Copy Number Variations], CNV, Kruppel-Like Transcription Factors, genetics [Anxiety Disorders], Genome-wide association study, Article, 03 medical and health sciences, Cellular and Molecular Neuroscience, 0302 clinical medicine, Reference Values, mental disorders, medicine, Humans, genetics [Schizophrenia], Genetic Predisposition to Disease, ddc:610, Bipolar disorder, Molecular Biology, Molecular epidemiology Aetiology, screening and detection [NCEBP 1], 030304 developmental biology, Genetic association, Genetics, bipolar disorder, 0303 health sciences, biology, genetics [Kruppel-Like Transcription Factors], Case-control study, association, Odds ratio, medicine.disease, Anxiety Disorders, schizophrenia, Psychiatry and Mental health, Schizophrenia, ZNF804A, Case-Control Studies, ZNF804A protein, human, biology.protein, Psychology, genetics [Bipolar Disorder], 030217 neurology & neurosurgery, Zinc finger protein 804A, Genome-Wide Association Study

Abstract

A trio of genome-wide association studies recently reported sequence variants at three loci to be significantly associated with schizophrenia. No sequence polymorphism had been unequivocally (P5 × 10 8) associated with schizophrenia earlier. However, one variant, rs1344706T, had come very close. This polymorphism, located in an intron of ZNF804A, was reported to associate with schizophrenia with a P-value of 1.6 × 10 7, and with psychosis (schizophrenia plus bipolar disorder) with a P-value of 1.0 × 10 8. In this study, using 5164 schizophrenia cases and 20 709 controls, we replicated the association with schizophrenia (odds ratio OR1.08, P0.0029) and, by adding bipolar disorder patients, we also confirmed the association with psychosis (added N609, OR1.09, P0.00065). Furthermore, as it has been proposed that variants such as rs1344706Tcommon and with low relative riskmay also serve to identify regions harboring less common, higher-risk susceptibility alleles, we searched ZNF804A for large copy number variants (CNVs) in 4235 psychosis patients, 1173 patients with other psychiatric disorders and 39 481 controls. We identified two CNVs including at least part of ZNF804A in psychosis patients and no ZNF804A CNVs in controls (P0.013 for association with psychosis). In addition, we found a ZNF804A CNV in an anxiety patient (P0.0016 for association with the larger set of psychiatric disorders). © 2011 Macmillan Publishers Limited All rights reserved., link_to_OA_fulltext

Published

2011

38. A geographically matched control population efficiently limits the number of candidate disease-causing variants in an unbiased whole-genome analysis.

Author

Matilda Rentoft, Daniel Svensson, Andreas Sjödin, Pall I Olason, Olle Sjöström, Carin Nylander, Pia Osterman, Rickard Sjögren, Sergiu Netotea, Carl Wibom, Kristina Cederquist, Andrei Chabes, Johan Trygg, Beatrice S Melin, and Erik Johansson

Subjects

Medicine, Science

Abstract

Whole-genome sequencing is a promising approach for human autosomal dominant disease studies. However, the vast number of genetic variants observed by this method constitutes a challenge when trying to identify the causal variants. This is often handled by restricting disease studies to the most damaging variants, e.g. those found in coding regions, and overlooking the remaining genetic variation. Such a biased approach explains in part why the genetic causes of many families with dominantly inherited diseases, in spite of being included in whole-genome sequencing studies, are left unsolved today. Here we explore the use of a geographically matched control population to minimize the number of candidate disease-causing variants without excluding variants based on assumptions on genomic position or functional predictions. To exemplify the benefit of the geographically matched control population we apply a typical disease variant filtering strategy in a family with an autosomal dominant form of colorectal cancer. With the use of the geographically matched control population we end up with 26 candidate variants genome wide. This is in contrast to the tens of thousands of candidates left when only making use of available public variant datasets. The effect of the local control population is dual, it (1) reduces the total number of candidate variants shared between affected individuals, and more importantly (2) increases the rate by which the number of candidate variants are reduced as additional affected family members are included in the filtering strategy. We demonstrate that the application of a geographically matched control population effectively limits the number of candidate disease-causing variants and may provide the means by which variants suitable for functional studies are identified genome wide.

Published

2019

39. Demographic divergence history of pied flycatcher and collared flycatcher inferred from whole-genome re-sequencing data.

Author

Krystyna Nadachowska-Brzyska, Reto Burri, Pall I Olason, Takeshi Kawakami, Linnéa Smeds, and Hans Ellegren

Subjects

Genetics, QH426-470

Abstract

Profound knowledge of demographic history is a prerequisite for the understanding and inference of processes involved in the evolution of population differentiation and speciation. Together with new coalescent-based methods, the recent availability of genome-wide data enables investigation of differentiation and divergence processes at unprecedented depth. We combined two powerful approaches, full Approximate Bayesian Computation analysis (ABC) and pairwise sequentially Markovian coalescent modeling (PSMC), to reconstruct the demographic history of the split between two avian speciation model species, the pied flycatcher and collared flycatcher. Using whole-genome re-sequencing data from 20 individuals, we investigated 15 demographic models including different levels and patterns of gene flow, and changes in effective population size over time. ABC provided high support for recent (mode 0.3 my, range

Published

2013