Third generation sequencing technologies provide the opportunity to improve genome assemblies by generating long reads spanning most repeat sequences. However, current analysis methods require substantial amounts of sequence data and computational resources to overcome the high error rates. Furthermore, they can only perform analysis after sequencing has completed, resulting in either over-sequencing, or in a low quality assembly due to under-sequencing. Here we present npScarf, which can scaffold and complete short read assemblies while the long read sequencing run is in progress. It reports assembly metrics in real-time so the sequencing run can be terminated once an assembly of sufficient quality is obtained. In assembling four bacterial...
Background. Next generation sequencing platforms can generate shorter reads, deeper coverage, and hi...
De novo genome assembly is cornerstone to modern genomics studies. It is also a useful method for st...
A streaming assembly pipeline utilising real-time Oxford Nanopore Technology (ONT) sequencing data i...
AbstractThe revolution of genome sequencing is continuing after the successful second-generation seq...
High quality reference genome sequences are the core of modern genomics. Oxford Nanopore Technologie...
Abstract Background Short-read sequencing technologies have made microbial genome sequencing cheap a...
BackgroundEmerging long reads sequencing technology has greatly changed the landscape of whole-genom...
International audienceAbstractMotivationNew long read sequencers promise to transform sequencing and...
The recent advent of massively parallel sequencing technologies has drastically reduced the cost of ...
Recent advances in third-generation sequencing technologies are currently offering unprecedented pos...
One of the most significant advances in biology has been the ability to sequence the DNA of organism...
While recently developed short-read sequencing technologies may dramatically reduce the sequencing c...
The revolution of genome sequencing is continuing after the successful second-generation sequencing ...
A streaming assembly pipeline utilising real-time Oxford Nanopore Technology (ONT) sequencing data i...
Abstract Background Although single molecule sequencing is still improving, the lengths of the gener...
Background. Next generation sequencing platforms can generate shorter reads, deeper coverage, and hi...
De novo genome assembly is cornerstone to modern genomics studies. It is also a useful method for st...
A streaming assembly pipeline utilising real-time Oxford Nanopore Technology (ONT) sequencing data i...
AbstractThe revolution of genome sequencing is continuing after the successful second-generation seq...
High quality reference genome sequences are the core of modern genomics. Oxford Nanopore Technologie...
Abstract Background Short-read sequencing technologies have made microbial genome sequencing cheap a...
BackgroundEmerging long reads sequencing technology has greatly changed the landscape of whole-genom...
International audienceAbstractMotivationNew long read sequencers promise to transform sequencing and...
The recent advent of massively parallel sequencing technologies has drastically reduced the cost of ...
Recent advances in third-generation sequencing technologies are currently offering unprecedented pos...
One of the most significant advances in biology has been the ability to sequence the DNA of organism...
While recently developed short-read sequencing technologies may dramatically reduce the sequencing c...
The revolution of genome sequencing is continuing after the successful second-generation sequencing ...
A streaming assembly pipeline utilising real-time Oxford Nanopore Technology (ONT) sequencing data i...
Abstract Background Although single molecule sequencing is still improving, the lengths of the gener...
Background. Next generation sequencing platforms can generate shorter reads, deeper coverage, and hi...
De novo genome assembly is cornerstone to modern genomics studies. It is also a useful method for st...
A streaming assembly pipeline utilising real-time Oxford Nanopore Technology (ONT) sequencing data i...