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Sequencing and de novo assembly of 150 genomes from Denmark as a population reference

by Lescai, Francesco , Grosjean, Marie , Rao, Junhua , Cao, Hongzhi , Mors, Ole , Belling, Kirstine , Mailund, Thomas , Gupta, Ramneek , van Beusekom, Johan , Pedersen, Oluf , Bolund, Lars , Syed, Ali , Ye, Chen , Maretty, Lasse , Xu, Ruiqi , Friborg, Rune M. , Brunak, Søren , Lund, Ole , Sibbesen, Jonas Andreas , Eiberg, Hans , Westergaard, David , Petersen, Bent , Yadav, Rachita , Sicheritz-Pontén, Thomas , Skov, Laurits , Børglum, Anders D. , Jensen, Jacob Malte , Ye, Weijian , Hansen, Torben , Izarzugaza, Jose M. G. , Huang, Shujia , Bork-Jensen, Jette , Villesen, Palle , Chang, Yuqi , Schierup, Mikkel Heide , Hultman, Christina M. , Grove, Jakob , Als, Thomas D. , Xu, Xun , Krogh, Anders , Pedersen, Christian N. S. , Liu, Siyang , Theil Have, Christian , Matey-Hernandez, Maria Luisa , Li, Shengting , Espeseth, Thomas , Sørensen, Thorkild I. A. , Kristiansen, Karsten , Flindt, Esben , Sun, Jihua , Li, Ning , Besenbacher, Søren , Wang, Jun , Le Hellard, Stephanie , Rasmussen, Simon , Guo, Xiaosen , Løngren, Peter , Sullivan, Patrick , Halager, Anders E.

in 45 / 45/23 / 631/114/2785/2302 / 631/208/212/748 / 631/208/457/649/2157 / 631/208/514/2254 / 692/308/2056 / Adult / Alleles / Child / Chromosomes / Chromosomes, Human, Y - genetics / Denmark / Disorders / DNA sequencing / Female / Gene mapping / Gene sequencing / Genetic diversity / Genetic Variation - genetics / Genetics, Population - standards / Genome, Human - genetics / Genomes / Genomics / Genomics - standards / Genotype & phenotype / Haplotypes / Haplotypes - genetics / Humanities and Social Sciences / Humans / letter / Major histocompatibility complex / Major Histocompatibility Complex - genetics / Male / Maternal Age / Methods / multidisciplinary / Mutation / Mutation Rate / Paternal Age / Phenotypic variations / Point Mutation - genetics / Population genetics / Precision medicine / Reference Standards / Science / Sequence Analysis, DNA - standards / Y chromosomes

2017

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Sequencing and de novo assembly of 150 genomes from Denmark as a population reference

2017

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2017

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Journal Article

Sequencing and de novo assembly of 150 genomes from Denmark as a population reference

Lescai, Francesco,

Grosjean, Marie,

Rao, Junhua,

Cao, Hongzhi,

Mors, Ole,

Belling, Kirstine,

Mailund, Thomas,

Gupta, Ramneek,

van Beusekom, Johan,

Pedersen, Oluf,

Bolund, Lars,

Syed, Ali,

Ye, Chen,

Maretty, Lasse,

Xu, Ruiqi,

Friborg, Rune M.,

Brunak, Søren,

Lund, Ole,

Sibbesen, Jonas Andreas,

Eiberg, Hans,

Westergaard, David,

Petersen, Bent,

Yadav, Rachita,

Sicheritz-Pontén, Thomas,

Skov, Laurits,

Børglum, Anders D.,

Jensen, Jacob Malte,

Ye, Weijian,

Hansen, Torben,

Izarzugaza, Jose M. G.,

Huang, Shujia,

Bork-Jensen, Jette,

Villesen, Palle,

Chang, Yuqi,

Schierup, Mikkel Heide,

Hultman, Christina M.,

Grove, Jakob,

Als, Thomas D.,

Xu, Xun,

Krogh, Anders,

Pedersen, Christian N. S.,

Liu, Siyang,

Theil Have, Christian,

Matey-Hernandez, Maria Luisa,

Li, Shengting,

Espeseth, Thomas,

Sørensen, Thorkild I. A.,

Kristiansen, Karsten,

Flindt, Esben,

Sun, Jihua,

Li, Ning,

Besenbacher, Søren,

Wang, Jun,

Le Hellard, Stephanie,

Rasmussen, Simon,

Guo, Xiaosen,

Løngren, Peter,

Sullivan, Patrick,

Halager, Anders E.

2017

Overview

A report of high-depth, short-read sequencing and de novo assemblies for 150 individuals from 50 parent–offspring trios as part of establishing a population reference genome for the GenomeDenmark project. Sequencing the genome of Denmark Genome sequencing of individuals across a population is an important component of precision medicine initiatives, and can be used to characterize genetic variation and in association mapping for diseases and complex traits. Mikkel Schierup and colleagues report efforts to establish a population reference genome for the Danish population as part of the GenomeDenmark project. The authors report high-depth short-read sequencing and de novo assemblies for 150 individuals from 50 parent–offspring trios. They demonstrate that this approach provides similar quality metrics to long-read approaches and helps to resolve structural variation and complex genomic regions. This provides a cost-effective way to establish a population reference genome that will be useful for association mapping and precision medicine initiatives. Hundreds of thousands of human genomes are now being sequenced to characterize genetic variation and use this information to augment association mapping studies of complex disorders and other phenotypic traits 1 , 2 , 3 , 4 . Genetic variation is identified mainly by mapping short reads to the reference genome or by performing local assembly 2 , 5 , 6 , 7 . However, these approaches are biased against discovery of structural variants and variation in the more complex parts of the genome. Hence, large-scale de novo assembly is needed. Here we show that it is possible to construct excellent de novo assemblies from high-coverage sequencing with mate-pair libraries extending up to 20 kilobases. We report de novo assemblies of 150 individuals (50 trios) from the GenomeDenmark project. The quality of these assemblies is similar to those obtained using the more expensive long-read technology 4 , 8 , 9 , 10 , 11 , 12 , 13 . We use the assemblies to identify a rich set of structural variants including many novel insertions and demonstrate how this variant catalogue enables further deciphering of known association mapping signals. We leverage the assemblies to provide 100 completely resolved major histocompatibility complex haplotypes and to resolve major parts of the Y chromosome. Our study provides a regional reference genome that we expect will improve the power of future association mapping studies and hence pave the way for precision medicine initiatives, which now are being launched in many countries including Denmark.

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Publisher

Nature Publishing Group UK,Nature Publishing Group

Subject

/ 45/23

/ 631/114/2785/2302

/ 631/208/212/748

/ 631/208/457/649/2157

/ 631/208/514/2254

/ 692/308/2056

/ Adult