Back to Search
Start Over
Novel variation and de novo mutation rates in population-wide de novo assembled Danish trios
- Source :
- Besenbacher, S, Liu, S, Gonzalez-Izarzugaza, J M, Grove, J, Belling, K G, Bork-Jensen, J, Huang, S, Als, T D, Li, S, Yadav, R, Rubio García, A, Lescai, F, Demontis, D, Rao, J, Ye, W, Mailund, T, Møllegaard Friborg, R, Pedersen, C N S, Xu, R, Sun, J, Liu, H, Wang, O, Cheng, X, Flores, D, Rydza, E K, Rapacki, K, Sørensen, J D, Chmura, P J, Westergaard, D, Dworzynski, P, Sørensen, T I A, Lund, O, Hansen, T, Xu, X, Li, N, Bolund, L, Pedersen, O, Eiberg, H, Krogh, A, Børglum, A D, Brunak, S, Kristiansen, K, Schierup, M H, Wang, J, Gupta, R, Villesen, P & Rasmussen, S 2015, ' Novel variation and de novo mutation rates in population-wide de novo assembled Danish trios ', Nature Communications, vol. 6, 5969 . https://doi.org/10.1038/ncomms6969, Besenbacher, S, Liu, S, Izarzugaza, J M G, Grove, J, Belling, K, Bork-Jensen, J, Huang, S, Als, T D, Li, S, Yadav, R, Rubio-García, A, Lescai, F, Demontis, D, Rao, J, Ye, W, Mailund, T, Møllegaard Friborg, R, Pedersen, C N S, Xu, R, Sun, J, Liu, H, Wang, O, Cheng, X, Flores, D, Rydza, E, Rapacki, K, Damm Sørensen, J, Chmura, P, Westergaard, D, Dworzynski, P, Sørensen, T I A, Lund, O, Hansen, T, Xu, X, Li, N, Bolund, L, Pedersen, O, Eiberg, H, Krogh, A, Børglum, A D, Brunak, S, Kristiansen, K, Schierup, M H, Wang, J, Gupta, R, Villesen, P & Rasmussen, S 2015, ' Novel variation and de novo mutation rates in population-wide de novo assembled Danish trios ', Nature Communications, vol. 6, 5969 . https://doi.org/10.1038/ncomms6969, Besenbacher, S, Liu, S, Gonzalez-Izarzugaza, J M, Grove, J, Belling, K C, Bork-Jensen, J, Huang, S, Dam-Als, T, Li, S, Yadav, R, Yadav, R, Rubio García, A, Lescai, F, Demontis, D, Rao, J, Ye, W, Mailund, T, Friborg, R M, Pedersen, C N S, Xu, R, Sun, J, Liu, H, Wang, O, Cheng, X, Flores Santa Cruz, D, Rydza, E K, Rapacki, K, Sørensen, J D, Chmura, P J, Westergaard, D, Dworzynski, P, Sørensen, T I A, Lund, O, Hansen, T, Xu, X, Li, N, Bolund, L, Pedersen, O, Eiberg, H, Krogh, A, Børglum, A D, Brunak, S, Kristiansen, K, Schierup, M H, Jun, W, Gupta, R, Villesen, P & Rasmussen, S 2015, ' Novel variation and de novo mutation rates in population-wide de novo assembled Danish trios ', Nature Communications, vol. 6, 5969 . https://doi.org/10.1038/ncomms6969, Nature Communications, Besenbacher, S, Liu, S Y, Izarzugaza, J M G, Grove, J, Belling, K, Bork-Jensen, J, Huang, S J, Als, T D, Li, S T, Yadav, R, Rubio-Garcia, A, Lescai, F, Demontis, D, Rao, J H, Ye, W J, Mailund, T, Friborg, R M, Pedersen, C N S, Xu, R Q, Sun, J H, Liu, H, Wang, O, Cheng, X F, Flores, D, Rydza, E, Rapacki, K, Sorensen, J D, Chmura, P, Westergaard, D, Dworzynski, P, Sorensen, T I A, Lund, O, Hansen, T, Xu, X, Li, N, Bolund, L, Pedersen, O, Eiberg, H, Krogh, A, Borglum, A D, Brunak, S, Kristiansen, K, Schierup, M H, Wang, J, Gupta, R, Villesen, P & Rasmussen, S 2015, ' Novel variation and de novo mutation rates in population-wide de novo assembled Danish trios ', Nature Communications, vol. 6, 5969 . https://doi.org/10.1038/ncomms6969
- Publication Year :
- 2015
-
Abstract
- Building a population-specific catalogue of single nucleotide variants (SNVs), indels and structural variants (SVs) with frequencies, termed a national pan-genome, is critical for further advancing clinical and public health genetics in large cohorts. Here we report a Danish pan-genome obtained from sequencing 10 trios to high depth (50 × ). We report 536k novel SNVs and 283k novel short indels from mapping approaches and develop a population-wide de novo assembly approach to identify 132k novel indels larger than 10 nucleotides with low false discovery rates. We identify a higher proportion of indels and SVs than previous efforts showing the merits of high coverage and de novo assembly approaches. In addition, we use trio information to identify de novo mutations and use a probabilistic method to provide direct estimates of 1.27e−8 and 1.5e−9 per nucleotide per generation for SNVs and indels, respectively.<br />The generation of a national pan-genome, a population-specific catalogue of genetic variation, may advance the impact of clinical genetics studies. Here the Besenbacher et al. carry out deep sequencing and de novo assembly of 10 parent–child trios to generate a Danish pan-genome that provides insight into structural variation, de novo mutation rates and variant calling.
- Subjects :
- Mutation rate
Sequence analysis
Population
General Physics and Astronomy
Sequence assembly
Biology
Genome
Polymorphism, Single Nucleotide
General Biochemistry, Genetics and Molecular Biology
Article
Mutation Rate
SDG 3 - Good Health and Well-being
Genetics
Humans
Indel
education
education.field_of_study
Multidisciplinary
Genome, Human
food and beverages
General Chemistry
Sequence Analysis, DNA
Polymorphism, Single Nucleotide/genetics
Human genetics
Biological sciences
Sequence Analysis, DNA/methods
Genome, Human/genetics
Human genome
Algorithms
Subjects
Details
- Language :
- English
- Database :
- OpenAIRE
- Journal :
- Besenbacher, S, Liu, S, Gonzalez-Izarzugaza, J M, Grove, J, Belling, K G, Bork-Jensen, J, Huang, S, Als, T D, Li, S, Yadav, R, Rubio García, A, Lescai, F, Demontis, D, Rao, J, Ye, W, Mailund, T, Møllegaard Friborg, R, Pedersen, C N S, Xu, R, Sun, J, Liu, H, Wang, O, Cheng, X, Flores, D, Rydza, E K, Rapacki, K, Sørensen, J D, Chmura, P J, Westergaard, D, Dworzynski, P, Sørensen, T I A, Lund, O, Hansen, T, Xu, X, Li, N, Bolund, L, Pedersen, O, Eiberg, H, Krogh, A, Børglum, A D, Brunak, S, Kristiansen, K, Schierup, M H, Wang, J, Gupta, R, Villesen, P & Rasmussen, S 2015, ' Novel variation and de novo mutation rates in population-wide de novo assembled Danish trios ', Nature Communications, vol. 6, 5969 . https://doi.org/10.1038/ncomms6969, Besenbacher, S, Liu, S, Izarzugaza, J M G, Grove, J, Belling, K, Bork-Jensen, J, Huang, S, Als, T D, Li, S, Yadav, R, Rubio-García, A, Lescai, F, Demontis, D, Rao, J, Ye, W, Mailund, T, Møllegaard Friborg, R, Pedersen, C N S, Xu, R, Sun, J, Liu, H, Wang, O, Cheng, X, Flores, D, Rydza, E, Rapacki, K, Damm Sørensen, J, Chmura, P, Westergaard, D, Dworzynski, P, Sørensen, T I A, Lund, O, Hansen, T, Xu, X, Li, N, Bolund, L, Pedersen, O, Eiberg, H, Krogh, A, Børglum, A D, Brunak, S, Kristiansen, K, Schierup, M H, Wang, J, Gupta, R, Villesen, P & Rasmussen, S 2015, ' Novel variation and de novo mutation rates in population-wide de novo assembled Danish trios ', Nature Communications, vol. 6, 5969 . https://doi.org/10.1038/ncomms6969, Besenbacher, S, Liu, S, Gonzalez-Izarzugaza, J M, Grove, J, Belling, K C, Bork-Jensen, J, Huang, S, Dam-Als, T, Li, S, Yadav, R, Yadav, R, Rubio García, A, Lescai, F, Demontis, D, Rao, J, Ye, W, Mailund, T, Friborg, R M, Pedersen, C N S, Xu, R, Sun, J, Liu, H, Wang, O, Cheng, X, Flores Santa Cruz, D, Rydza, E K, Rapacki, K, Sørensen, J D, Chmura, P J, Westergaard, D, Dworzynski, P, Sørensen, T I A, Lund, O, Hansen, T, Xu, X, Li, N, Bolund, L, Pedersen, O, Eiberg, H, Krogh, A, Børglum, A D, Brunak, S, Kristiansen, K, Schierup, M H, Jun, W, Gupta, R, Villesen, P & Rasmussen, S 2015, ' Novel variation and de novo mutation rates in population-wide de novo assembled Danish trios ', Nature Communications, vol. 6, 5969 . https://doi.org/10.1038/ncomms6969, Nature Communications, Besenbacher, S, Liu, S Y, Izarzugaza, J M G, Grove, J, Belling, K, Bork-Jensen, J, Huang, S J, Als, T D, Li, S T, Yadav, R, Rubio-Garcia, A, Lescai, F, Demontis, D, Rao, J H, Ye, W J, Mailund, T, Friborg, R M, Pedersen, C N S, Xu, R Q, Sun, J H, Liu, H, Wang, O, Cheng, X F, Flores, D, Rydza, E, Rapacki, K, Sorensen, J D, Chmura, P, Westergaard, D, Dworzynski, P, Sorensen, T I A, Lund, O, Hansen, T, Xu, X, Li, N, Bolund, L, Pedersen, O, Eiberg, H, Krogh, A, Borglum, A D, Brunak, S, Kristiansen, K, Schierup, M H, Wang, J, Gupta, R, Villesen, P & Rasmussen, S 2015, ' Novel variation and de novo mutation rates in population-wide de novo assembled Danish trios ', Nature Communications, vol. 6, 5969 . https://doi.org/10.1038/ncomms6969
- Accession number :
- edsair.doi.dedup.....8475aae7efa12ed5e8e3e337954c27fd