© 2020, The Author(s). 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,...
Genomic structural variants (SVs) are abundant in humans, differing from other forms of variation in...
Structural variations (SV) can lead to DNA rearrangements and frequently cause diseases such as neur...
Structural variation (SV) represents a major source of differences between individual human genomes ...
Structural variants (SVs) rearrange large segments of DNA1 and can have profound consequences in evo...
Structural variants (SVs) rearrange large segments of DNA1 and can have profound consequences in evo...
A key goal of whole-genome sequencing for studies of human genetics is to interrogate all forms of v...
Structural variants are implicated in numerous diseases and make up the majority of varying nucleoti...
A key goal of whole-genome sequencing for studies of human genetics is to interrogate all forms of v...
Genomic structural variants (SVs) are abundant in humans, differing from other forms of variation in...
Abstract Background Several genomes have now been seq...
Genomic structural variants (SVs) are abundant in humans, differing from other forms of variation in...
Structural variations (SV) can lead to DNA rearrangements and frequently cause diseases such as neur...
Structural variation (SV) represents a major source of differences between individual human genomes ...
Structural variants (SVs) rearrange large segments of DNA1 and can have profound consequences in evo...
Structural variants (SVs) rearrange large segments of DNA1 and can have profound consequences in evo...
A key goal of whole-genome sequencing for studies of human genetics is to interrogate all forms of v...
Structural variants are implicated in numerous diseases and make up the majority of varying nucleoti...
A key goal of whole-genome sequencing for studies of human genetics is to interrogate all forms of v...
Genomic structural variants (SVs) are abundant in humans, differing from other forms of variation in...
Abstract Background Several genomes have now been seq...
Genomic structural variants (SVs) are abundant in humans, differing from other forms of variation in...
Structural variations (SV) can lead to DNA rearrangements and frequently cause diseases such as neur...
Structural variation (SV) represents a major source of differences between individual human genomes ...