Add to ORKGTens of millions of base pairs of euchromatic human genome sequence, including many protein-coding genes, have no known location in the human genome. We describe an approach for localizing the human genome's missing pieces using the patterns of genome sequence variation created by population admixture. We mapped the locations of 70 scaffolds spanning 4 million base pairs of the human genome's unplaced euchromatic sequence, including more than a dozen protein-coding genes, and identified 8 new large interchromosomal segmental duplications. We find that most of these sequences are hidden in the genome's heterochromatin, particularly its pericentromeric regions. Many cryptic, pericentromeric genes are expressed at the RNA level and have been m...
Abstract Background Previous studies have suggested t...
The largest gaps in the human genome assembly correspond to multi-megabase heterochromatic regions c...
Segmental duplications contribute significantly to the evolution, adaptation and diseaseassociated ...
Tens of millions of base pairs of euchromatic human genome sequence, including many protein-coding g...
A principal obstacle to completing maps and analyses of the human genome involves the genome’s “inac...
The extent of human genomic structural variation suggests that there must be portions of the genome ...
A 2.91-billion base pair (bp) consensus sequence of the euchromatic portion of the human genome was ...
Large structural variants (SVs) in the human genome are difficult to detect and study by conventiona...
Thesis (Ph.D.)--University of Washington, 2021Despite their importance in disease and evolution, hig...
© 2001 Nature Publishing GroupWe have placed 7,600 cytogenetically defined landmarks on the draft se...
The human genome reference (HGR) completion marked the genomics era beginning, yet despite its utili...
Many studies have demonstrated that divergence levels generated by different mutation types vary and...
The human genome is arguably the most complete mammalian reference assembly, yet more than 160 euchr...
The current human reference genome is predominantly derived from a single individual and it does not...
The primary objective of this study was to create a genome-wide high resolution map (i.e., >100 bp) ...
Abstract Background Previous studies have suggested t...
The largest gaps in the human genome assembly correspond to multi-megabase heterochromatic regions c...
Segmental duplications contribute significantly to the evolution, adaptation and diseaseassociated ...
Tens of millions of base pairs of euchromatic human genome sequence, including many protein-coding g...
A principal obstacle to completing maps and analyses of the human genome involves the genome’s “inac...
The extent of human genomic structural variation suggests that there must be portions of the genome ...
A 2.91-billion base pair (bp) consensus sequence of the euchromatic portion of the human genome was ...
Large structural variants (SVs) in the human genome are difficult to detect and study by conventiona...
Thesis (Ph.D.)--University of Washington, 2021Despite their importance in disease and evolution, hig...
© 2001 Nature Publishing GroupWe have placed 7,600 cytogenetically defined landmarks on the draft se...
The human genome reference (HGR) completion marked the genomics era beginning, yet despite its utili...
Many studies have demonstrated that divergence levels generated by different mutation types vary and...
The human genome is arguably the most complete mammalian reference assembly, yet more than 160 euchr...
The current human reference genome is predominantly derived from a single individual and it does not...
The primary objective of this study was to create a genome-wide high resolution map (i.e., >100 bp) ...
Abstract Background Previous studies have suggested t...
The largest gaps in the human genome assembly correspond to multi-megabase heterochromatic regions c...
Segmental duplications contribute significantly to the evolution, adaptation and diseaseassociated ...