The lack of diversity in genomic data has been an issue of growing concern. It threatens to limit the benefits from the massive investment that has been made to date to transform biomedical research, drug development, and the clinical care of patients. We spoke to Jonas Korlach, chief scientific officer of Pacific Biosciences, about the problem, how it’s being addressed, and the role advancing technology can play in gleaning greater insights from the genomes that are analyzed.
This tutorial provides an overview of the PacBio Demultiplex Barcodes analysis application in SMRT Link, followed by de novo assembly of the demultiplexed samples using HGAP4 for the Multiplexed Microbial Assembly analysis application. This tutorial covers features of SMRT Link v5.1.0.
In this presentation Fritz Sedlazeck describes his latest work to obtain comprehensive genomes leveraging long-read sequencing and linked reads.
Long-read sequencing technologies like Iso-Seq analysis present researchers with a powerful tool for probing the transcriptomes of many species. The ability to sequence transcripts from end-to-end has revealed transcription complexity on a scale that was previously impossible. This sequence rich information has also improved our ability to predict transcript functions and biotypes. Researchers can now use Iso-Seq analysis to discover transcript models in almost any species with an accuracy on par with human and mouse annotations. In this webinar, Richard Kuo discusses the core concepts behind Iso-Seq analysis and how to use it to improve or build a new transcriptome…
Targeted sequencing has proven to be an economical means of obtaining sequence information for one or more defined regions of a larger genome. However, most target enrichment methods are reliant upon some form of amplification. Amplification removes the epigenetic marks present in native DNA, and some genomic regions, such as those with extreme GC content and repetitive sequences, are recalcitrant to faithful amplification. Yet, a large number of genetic disorders are caused by expansions of repeat sequences. Furthermore, for some disorders, methylation status has been shown to be a key factor in the mechanism of disease. We have developed a…
The Sequel System, powered by Single Molecule, Real-Time (SMRT) Technology, delivers long reads, high consensus accuracy, uniform coverage and epigenetic characterization. This newly introduced platform provides higher throughput, a reduced footprint and lower sequencing project costs compared to the PacBio RS, the original long-read sequencer.
This animation depicts a process by which single molecule SMRTbells are loaded in the Zero Mode Waveguides (ZMWs) of the PacBio RS II sequencing system using the automated MagBead Station.
This tutorial provides an overview of the Circular Consensus Sequence (CCS) analysis application. The CCS algorithm is used in applications that require distinguishing closely related DNA molecules in the same sample. Applications of CCS include profiling microbial communities, resolving viral populations and accurately identifying somatic variations within heterogeneous tumor cells.
This tutorial provides an overview of the Long Amplicon Analysis (LAA) application. The LAA algorithm generates highly accurate, phased and full-length consensus sequences from long amplicons. Applications of LAA include HLA typing, alternative haplotyping, and localized de novo assemblies of targeted genes.