A structural variation reference for medical and population genetics
Genome Aggregation Database Production Team; Genome Aggregation Database Consortium; Collins, Ryan L.; Brand, Harrison; Karczewski, Konrad J.; Zhao, Xuefang; Alföldi, Jessica; Francioli, Laurent; Khera, Amit V.; Lowther, Chelsea; Gauthier, Laura D.; Wang, Harold; Watts, Nicholas A.; Solomonson, Matthew; O’Donnell-Luria, Anne; Baumann, Alexander; Munshi, Ruchi; Walker, Mark; Whelan, Christopher W.; Huang, Yongqing; Brookings, Ted; Sharpe, Ted; Stone, Matthew R.; Valkanas, Elise; Fu, Jack; Tiao, Grace; Laricchia, Kristen M.; Ruano-Rubio, Valentin; Stevens, Christine; Gupta, Namrata; Cusick, Caroline; Margolin, Lauren; Armean, Irina M.; Banks, Eric; Bergelson, Louis; Cibulskis, Kristian; Connolly, Kristen M.; Covarrubias, Miguel; Cummings, Beryl; Daly, Mark J.; Donnelly, Stacey; Farjoun, Yossi; Ferriera, Steven; Gabriel, Stacey; Gentry, Jeff; Lehtimäki, Terho; Mattila, Kari M.; Suvisaari, Jaana (2020-05-27)
Genome Aggregation Database Production Team
Genome Aggregation Database Consortium
Collins, Ryan L.
Brand, Harrison
Karczewski, Konrad J.
Zhao, Xuefang
Alföldi, Jessica
Francioli, Laurent
Khera, Amit V.
Lowther, Chelsea
Gauthier, Laura D.
Wang, Harold
Watts, Nicholas A.
Solomonson, Matthew
O’Donnell-Luria, Anne
Baumann, Alexander
Munshi, Ruchi
Walker, Mark
Whelan, Christopher W.
Huang, Yongqing
Brookings, Ted
Sharpe, Ted
Stone, Matthew R.
Valkanas, Elise
Fu, Jack
Tiao, Grace
Laricchia, Kristen M.
Ruano-Rubio, Valentin
Stevens, Christine
Gupta, Namrata
Cusick, Caroline
Margolin, Lauren
Armean, Irina M.
Banks, Eric
Bergelson, Louis
Cibulskis, Kristian
Connolly, Kristen M.
Covarrubias, Miguel
Cummings, Beryl
Daly, Mark J.
Donnelly, Stacey
Farjoun, Yossi
Ferriera, Steven
Gabriel, Stacey
Gentry, Jeff
Lehtimäki, Terho
Mattila, Kari M.
Suvisaari, Jaana
27.05.2020
Julkaisun pysyvä osoite on
https://urn.fi/URN:NBN:fi:tuni-202101111172
https://urn.fi/URN:NBN:fi:tuni-202101111172
Kuvaus
Peer reviewed
Tiivistelmä
Structural variants (SVs) rearrange large segments of DNA1 and can have profound consequences in evolution and human disease2,3. As national biobanks, disease-association studies, and clinical genetic testing have grown increasingly reliant on genome sequencing, population references such as the Genome Aggregation Database (gnomAD)4 have become integral in the interpretation of single-nucleotide variants (SNVs)5. However, there are no reference maps of SVs from high-coverage genome sequencing comparable to those for SNVs. Here we present a reference of sequence-resolved SVs constructed from 14,891 genomes across diverse global populations (54% non-European) in gnomAD. We discovered a rich and complex landscape of 433,371 SVs, from which we estimate that SVs are responsible for 25–29% of all rare protein-truncating events per genome. We found strong correlations between natural selection against damaging SNVs and rare SVs that disrupt or duplicate protein-coding sequence, which suggests that genes that are highly intolerant to loss-of-function are also sensitive to increased dosage6. We also uncovered modest selection against noncoding SVs in cis-regulatory elements, although selection against protein-truncating SVs was stronger than all noncoding effects. Finally, we identified very large (over one megabase), rare SVs in 3.9% of samples, and estimate that 0.13% of individuals may carry an SV that meets the existing criteria for clinically important incidental findings7. This SV resource is freely distributed via the gnomAD browser8 and will have broad utility in population genetics, disease-association studies, and diagnostic screening.
Kokoelmat
- TUNICRIS-julkaisut [19796]