Background: Owing to the complexity of the assembly problem, we do not yet have complete genome sequences. The difficulty in assembling reads into finished genomes is exacerbated by sequence repeats and the inability of short reads to capture sufficient genomic information to resolve those problematic regions. In this regard, established and emerging long read technologies show great promise, but their current associated higher error rates typically require computational base correction and/or additional bioinformatics pre-processing before they can be of value. Results: We present LINKS, the Long Interval Nucleotide K-mer Scaffolder algorithm, a method that makes use of the sequence properties of nanopore sequence data and other error-cont...
Not AvailableCurrent de-novo assemblers are unable to effectively use the long-read sequencing data ...
Like a jigsaw puzzle with large pieces, a genome sequenced with long reads is easier to assemble. Ho...
Abstract Background Short read DNA sequencing technologies have revolutionized genome assembly by pr...
Abstract Background Generating high-quality de novo genome assemblies is foundational to the genomic...
Long read technologies have revolutionized de novo genome assembly by generating contigs orders of m...
Abstract Background The long-range sequencing information captured by linked reads, such as those av...
Recent advances in third-generation sequencing technologies are currently offering unprecedented pos...
Genome sequence assembly presents a fascinating and frequently-changing challenge. As DNA sequencing...
International audienceAbstractMotivationNew long read sequencers promise to transform sequencing and...
De novo genome assembly is a fundamental problem in genomics research. When assembling large genomes...
Continuity, correctness, and completeness of genome assemblies are important for many biological pro...
International audienceBackground: Long-read sequencing technologies are the ultimate solution for ge...
© 2018 Nature Publishing Group. All rights reserved. We report the sequencing and assembly of a refe...
BackgroundEmerging long reads sequencing technology has greatly changed the landscape of whole-genom...
BackgroundEmerging long reads sequencing technology has greatly changed the landscape of whole-genom...
Not AvailableCurrent de-novo assemblers are unable to effectively use the long-read sequencing data ...
Like a jigsaw puzzle with large pieces, a genome sequenced with long reads is easier to assemble. Ho...
Abstract Background Short read DNA sequencing technologies have revolutionized genome assembly by pr...
Abstract Background Generating high-quality de novo genome assemblies is foundational to the genomic...
Long read technologies have revolutionized de novo genome assembly by generating contigs orders of m...
Abstract Background The long-range sequencing information captured by linked reads, such as those av...
Recent advances in third-generation sequencing technologies are currently offering unprecedented pos...
Genome sequence assembly presents a fascinating and frequently-changing challenge. As DNA sequencing...
International audienceAbstractMotivationNew long read sequencers promise to transform sequencing and...
De novo genome assembly is a fundamental problem in genomics research. When assembling large genomes...
Continuity, correctness, and completeness of genome assemblies are important for many biological pro...
International audienceBackground: Long-read sequencing technologies are the ultimate solution for ge...
© 2018 Nature Publishing Group. All rights reserved. We report the sequencing and assembly of a refe...
BackgroundEmerging long reads sequencing technology has greatly changed the landscape of whole-genom...
BackgroundEmerging long reads sequencing technology has greatly changed the landscape of whole-genom...
Not AvailableCurrent de-novo assemblers are unable to effectively use the long-read sequencing data ...
Like a jigsaw puzzle with large pieces, a genome sequenced with long reads is easier to assemble. Ho...
Abstract Background Short read DNA sequencing technologies have revolutionized genome assembly by pr...