Repetitive genome regions have been difficult to sequence, mainly because of the comparatively small size of the fragments used in assembly. Satellites or tandem repeats are very abundant in nematodes and offer an excellent playground to evaluate different assembly methods. Here, we compare the structure of satellites found in three different assemblies of the Caenorhabditis elegans genome: the original sequence obtained by Sanger sequencing, an assembly based on PacBio technology, and an assembly using Nanopore sequencing reads. In general, satellites were found in equivalent genomic regions, but the new long-read methods (PacBio and Nanopore) tended to result in longer assembled satellites. Important differences exist between the assembli...
Satellite DNA has been identified in varying proportions in many eukaryotic genomes. It consists of ...
The sequence and assembly of human genomes using long-read sequencing technologies has revolutionize...
International audienceBackground: Long-read sequencing is increasingly being used to determine eukar...
Repetitive genome regions have been difficult to sequence, mainly because of the comparatively small...
Repetitive genome regions have been difficult to sequence, mainly because of the comparatively small...
Repetitive genome regions have been difficult to sequence, mainly because of the comparatively small...
Background: The high density of tandem repeat sequences (satellites) in nematode genomes and the ava...
Background: The high density of tandem repeat sequences (satellites) in nematode genomes and the ava...
Background: Eukaryotic genome assembly remains a challenge in part due to the prevalence of complex ...
Highly-repetitive satellite DNA (satDNA) repeats are found in most eukaryotic genomes. SatDNAs are r...
assembly of complete genomes. This reflects an expectation that short reads will be unable to resol...
Satellite DNA has been identified in varying proportions in many eukaryotic genomes. It consists of ...
The sequence and assembly of human genomes using long-read sequencing technologies has revolutionize...
International audienceBackground: Long-read sequencing is increasingly being used to determine eukar...
Repetitive genome regions have been difficult to sequence, mainly because of the comparatively small...
Repetitive genome regions have been difficult to sequence, mainly because of the comparatively small...
Repetitive genome regions have been difficult to sequence, mainly because of the comparatively small...
Background: The high density of tandem repeat sequences (satellites) in nematode genomes and the ava...
Background: The high density of tandem repeat sequences (satellites) in nematode genomes and the ava...
Background: Eukaryotic genome assembly remains a challenge in part due to the prevalence of complex ...
Highly-repetitive satellite DNA (satDNA) repeats are found in most eukaryotic genomes. SatDNAs are r...
assembly of complete genomes. This reflects an expectation that short reads will be unable to resol...
Satellite DNA has been identified in varying proportions in many eukaryotic genomes. It consists of ...
The sequence and assembly of human genomes using long-read sequencing technologies has revolutionize...
International audienceBackground: Long-read sequencing is increasingly being used to determine eukar...