Long-read sequencing has the potential to transform variant detection by reaching currently difficult-to-map regions and routinely linking together adjacent variations to enable read-based phasing. Third-generation nanopore sequence data have demonstrated a long read length, but current interpretation methods for their novel pore-based signal have unique error profiles, making accurate analysis challenging. Here, we introduce a haplotype-aware variant calling pipeline, PEPPER-Margin-DeepVariant, that produces state-of-the-art variant calling results with nanopore data. We show that our nanopore-based method outperforms the short-read-based single-nucleotide-variant identification method at the whole-genome scale and produces high-quality si...
peer reviewedBackground: Sequencing quality has improved over the last decade for long-reads, allowi...
The single-molecule accuracy of nanopore sequencing has been an area of rapid academic and commercia...
Long-read single-molecule sequencing has proven to be a powerful tool for decoding genomic and trans...
Long-read sequencing has the potential to transform variant detection by reaching currently difficul...
Nanopore sequencing, commercialized by Oxford Nanopore Technology (ONT), is a high-throughput genome...
Introduction: Whole-genome sequencing using nanopore technologies can uncover structural variants, w...
Second-generation sequencing technology and accompanying analyses resulted in a deluge of informatio...
Structural variants (SVs) are genomic rearrangements that involve at least 50 nucleotides and are kn...
Third-generation long-read technologies denote the latest progression in high throughput DNA and RNA...
Haplotypes are often critical for the interpretation of genetic laboratory observations into medical...
Whole-genome sequencing using sequencing technologies such as Illumina enables the accurate detectio...
Whole-genome sequencing (WGS) is becoming widely used in clinical medicine in diagnostic contexts an...
Despite improvements in genomics technology, the detection of structural variants (SVs) from short-r...
Abstract Long-read sequencing enables variant detection in genomic regions that are considered diffi...
Nanopore sequencing offers a portable and affordable alternative to sequencing-by-synthesis methods ...
peer reviewedBackground: Sequencing quality has improved over the last decade for long-reads, allowi...
The single-molecule accuracy of nanopore sequencing has been an area of rapid academic and commercia...
Long-read single-molecule sequencing has proven to be a powerful tool for decoding genomic and trans...
Long-read sequencing has the potential to transform variant detection by reaching currently difficul...
Nanopore sequencing, commercialized by Oxford Nanopore Technology (ONT), is a high-throughput genome...
Introduction: Whole-genome sequencing using nanopore technologies can uncover structural variants, w...
Second-generation sequencing technology and accompanying analyses resulted in a deluge of informatio...
Structural variants (SVs) are genomic rearrangements that involve at least 50 nucleotides and are kn...
Third-generation long-read technologies denote the latest progression in high throughput DNA and RNA...
Haplotypes are often critical for the interpretation of genetic laboratory observations into medical...
Whole-genome sequencing using sequencing technologies such as Illumina enables the accurate detectio...
Whole-genome sequencing (WGS) is becoming widely used in clinical medicine in diagnostic contexts an...
Despite improvements in genomics technology, the detection of structural variants (SVs) from short-r...
Abstract Long-read sequencing enables variant detection in genomic regions that are considered diffi...
Nanopore sequencing offers a portable and affordable alternative to sequencing-by-synthesis methods ...
peer reviewedBackground: Sequencing quality has improved over the last decade for long-reads, allowi...
The single-molecule accuracy of nanopore sequencing has been an area of rapid academic and commercia...
Long-read single-molecule sequencing has proven to be a powerful tool for decoding genomic and trans...