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. Genetic variation is identified mainly by mapping short reads to the reference genome or by performing local assembly. 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 GenomeDenmar...
Detecting genetic variants that are highly divergent from a reference sequence remains a major chall...
The current human reference sequence (GRCh38) is a foundation for large-scale sequencing projects. H...
Detecting genetic variants that are highly divergent from a reference sequence remains a major chall...
Hundreds of thousands of human genomes are now being sequenced to characterize genetic variation and...
Here we use whole-genome de novo assembly of second-generation sequencing reads to map structural va...
Elucidating the full spectrum of genetic variations across the human population is a fundamental pur...
Building a population-specific catalogue of single nucleotide variants (SNVs), indels and structural...
The human genome reference (HGR) completion marked the genomics era beginning, yet despite its utili...
The human genome is diploid, and knowledge of the variants on each chromosome is important for the i...
International audienceThe 1000 Genomes Project aims to provide a deep characterization of human geno...
Long-read and strand-specific sequencing technologies together facilitate the de novo assembly of hi...
Detecting genetic variants that are highly divergent from a reference sequence remains a major chall...
The current human reference sequence (GRCh38) is a foundation for large-scale sequencing projects. H...
Detecting genetic variants that are highly divergent from a reference sequence remains a major chall...
Hundreds of thousands of human genomes are now being sequenced to characterize genetic variation and...
Here we use whole-genome de novo assembly of second-generation sequencing reads to map structural va...
Elucidating the full spectrum of genetic variations across the human population is a fundamental pur...
Building a population-specific catalogue of single nucleotide variants (SNVs), indels and structural...
The human genome reference (HGR) completion marked the genomics era beginning, yet despite its utili...
The human genome is diploid, and knowledge of the variants on each chromosome is important for the i...
International audienceThe 1000 Genomes Project aims to provide a deep characterization of human geno...
Long-read and strand-specific sequencing technologies together facilitate the de novo assembly of hi...
Detecting genetic variants that are highly divergent from a reference sequence remains a major chall...
The current human reference sequence (GRCh38) is a foundation for large-scale sequencing projects. H...
Detecting genetic variants that are highly divergent from a reference sequence remains a major chall...