Abstract Background Third-generation sequencing technologies have advanced the progress of the biological research by generating reads that are substantially longer than second-generation sequencing technologies. However, their notorious high error rate impedes straightforward data analysis and limits their application. A handful of error correction methods for these error-prone long reads have been developed to date. The output data quality is very important for downstream analysis, whereas computing resources could limit the utility of some computing-intense tools. There is a lack of standardized assessments for these long-read error-correction methods. Results Here, we present a comparative performance assessment of ten state-of-the-art ...
IEEE The latest sequencing technologies such as the Pacific Biosciences (PacBio) and Oxford Nanopore...
13th European Conference on Computational Biology (ECCB), Strasbourg, FRANCE, SEP 07-10, 2014Interna...
Error correction is the canonical first step in long-read sequencing data analysis. Current self-cor...
Error Correction is important for most next-generation sequencing applications because highly accura...
International audienceMotivation: New long read sequencing technologies, like PacBio SMRT and Oxford...
Third generation sequencing platforms produce longer reads with higher error rates than second gener...
International audienceMotivation: Nanopore long-read sequencing technology offers promising alternat...
International audienceThird generation of sequencing technologies yield long but very noisy reads. I...
Background: Third generation sequencing platforms produce longer reads with higher error rates than ...
International audienceNowadays, several long read sequencing technologies are available and long rea...
Abstract Background The third generation PacBio SMRT long reads can effectively address the read len...
Abstract Background Long read sequencing is changing the landscape of genomic research, especially d...
International audienceMotivation: PacBio single molecule real-time sequencing is a third-generation ...
National audienceHigh-throughput DNA and RNA sequencing has become a routine experiment in molecular...
Motivation: PacBio Single Molecule, Real Time sequencing is a third generation sequencing technique ...
IEEE The latest sequencing technologies such as the Pacific Biosciences (PacBio) and Oxford Nanopore...
13th European Conference on Computational Biology (ECCB), Strasbourg, FRANCE, SEP 07-10, 2014Interna...
Error correction is the canonical first step in long-read sequencing data analysis. Current self-cor...
Error Correction is important for most next-generation sequencing applications because highly accura...
International audienceMotivation: New long read sequencing technologies, like PacBio SMRT and Oxford...
Third generation sequencing platforms produce longer reads with higher error rates than second gener...
International audienceMotivation: Nanopore long-read sequencing technology offers promising alternat...
International audienceThird generation of sequencing technologies yield long but very noisy reads. I...
Background: Third generation sequencing platforms produce longer reads with higher error rates than ...
International audienceNowadays, several long read sequencing technologies are available and long rea...
Abstract Background The third generation PacBio SMRT long reads can effectively address the read len...
Abstract Background Long read sequencing is changing the landscape of genomic research, especially d...
International audienceMotivation: PacBio single molecule real-time sequencing is a third-generation ...
National audienceHigh-throughput DNA and RNA sequencing has become a routine experiment in molecular...
Motivation: PacBio Single Molecule, Real Time sequencing is a third generation sequencing technique ...
IEEE The latest sequencing technologies such as the Pacific Biosciences (PacBio) and Oxford Nanopore...
13th European Conference on Computational Biology (ECCB), Strasbourg, FRANCE, SEP 07-10, 2014Interna...
Error correction is the canonical first step in long-read sequencing data analysis. Current self-cor...