International audienceAbstractMotivationNew long read sequencers promise to transform sequencing and genome assembly by producing reads tens of kilobases long. However, their high error rate significantly complicates assembly and requires expensive correction steps to layout the reads using standard assembly engines.ResultsWe present an original and efficient spectral algorithm to layout the uncorrected nanopore reads, and its seamless integration into a straightforward overlap/layout/consensus (OLC) assembly scheme. The method is shown to assemble Oxford Nanopore reads from several bacterial genomes into good quality (∼99% identity to the reference) genome-sized contigs, while yielding more fragmented assemblies from the eukaryotic microbe...
AbstractThe revolution of genome sequencing is continuing after the successful second-generation seq...
Sequencing technologies have evolved dramatically since the first two bacterial genomes were publish...
Complete genome sequences of organisms are the foundation of understanding biological functions. Hig...
International audienceAbstractMotivationNew long read sequencers promise to transform sequencing and...
We report the sequencing and assembly of a reference genome for the human GM12878 Utah/Ceph cell lin...
Abstract Background Short-read sequencing technologies have made microbial genome sequencing cheap a...
High quality reference genome sequences are the core of modern genomics. Oxford Nanopore Technologie...
BackgroundEmerging long reads sequencing technology has greatly changed the landscape of whole-genom...
Improved DNA sequencing methods have transformed the field of genomics over the last decade. This ha...
Monitoring the progress of DNA molecules through a membrane pore has been postulated as a method for...
Oxford Nanopore sequencing can be used to achieve complete bacterial genomes. However, the error rat...
Background: Owing to the complexity of the assembly problem, we do not yet have complete genome sequ...
BackgroundEmerging long reads sequencing technology has greatly changed the landscape of whole-genom...
Third generation sequencing technologies provide the opportunity to improve genome assemblies by gen...
Abstract Metagenomic sequencing has allowed for the recovery of previously unexplored microbial geno...
AbstractThe revolution of genome sequencing is continuing after the successful second-generation seq...
Sequencing technologies have evolved dramatically since the first two bacterial genomes were publish...
Complete genome sequences of organisms are the foundation of understanding biological functions. Hig...
International audienceAbstractMotivationNew long read sequencers promise to transform sequencing and...
We report the sequencing and assembly of a reference genome for the human GM12878 Utah/Ceph cell lin...
Abstract Background Short-read sequencing technologies have made microbial genome sequencing cheap a...
High quality reference genome sequences are the core of modern genomics. Oxford Nanopore Technologie...
BackgroundEmerging long reads sequencing technology has greatly changed the landscape of whole-genom...
Improved DNA sequencing methods have transformed the field of genomics over the last decade. This ha...
Monitoring the progress of DNA molecules through a membrane pore has been postulated as a method for...
Oxford Nanopore sequencing can be used to achieve complete bacterial genomes. However, the error rat...
Background: Owing to the complexity of the assembly problem, we do not yet have complete genome sequ...
BackgroundEmerging long reads sequencing technology has greatly changed the landscape of whole-genom...
Third generation sequencing technologies provide the opportunity to improve genome assemblies by gen...
Abstract Metagenomic sequencing has allowed for the recovery of previously unexplored microbial geno...
AbstractThe revolution of genome sequencing is continuing after the successful second-generation seq...
Sequencing technologies have evolved dramatically since the first two bacterial genomes were publish...
Complete genome sequences of organisms are the foundation of understanding biological functions. Hig...