In this SMRT Leiden 2020 Online Virtual Event presentation, William Rowell of PacBio shares work on using HiFi reads – which combine the length of traditional long reads with the…
In this SMRT Leiden 2020 Online Virtual Event presentation, Ana Conesa of the University of Florida shares her work on the latest updates to the Funciitonal Iso-Annot software, that includes…
In this SMRT Leiden 2020 Online Virtual Event presentation, Ivan Sovic of PacBio shares work on a new tool for improved and phased assembly of HiFi data called IPA. IPA…
In this SMRT Leiden 2020 Online Virtual Event presentation, Erwin Datema of KeyGene shares his work on using high-throughput, accurate long-read sequencing technologies, such as PacBio HiFi sequencing, to drastically…
In this SMRT Leiden 2020 Online Virtual Event presentation, Marcela Uliano da Silva of Wellcome Sanger Institute shares her work using CCS data combined with HiC reads to assemble chromosome-level…
In this SMRT Leiden 2020 Online Virtual Event presentation, Erich Jarvis of Rockefeller University shares an update on the Vertebrate Genome Project and a few exciting developments related to using…
In this SMRT Leiden 2020 Online Virtual Event presentation, Richard Kuo of The Roslin Institute shares his work on using Iso-Seq data to gain a better understanding of the biology…
Most genes in eukaryotic organisms produce alternative isoforms, broadening the diversity of proteins and non-coding RNAs encoded by the genome. In contrast to other RNA sequencing platforms that rely on…
Although PCR is a cost-effective way to enrich for genomic regions of interest for DNA sequencing, amplifying regions with extreme GC-content and long stretches of short tandem repeat (STR) sequences…
Recent advances in sequencing chemistry and software in the Sequel II System enable generating highly accurate long reads that are up to 25 kb in length with >99% accuracy. The…
In this ASHG 2020 PacBio Workshop Hagen Tilgner of Cornell University shares how he has used single-cell RNA sequencing using long reads to identify novel isoform expression in brain tissues.
In this ASHG 2020 PacBio Workshop Jonas Korlach, CSO, shares how the new PacBio Sequel IIe System makes highly accurate long-read sequencing easy and affordable so?all scientists can gain comprehensive…
Complete, high-quality microbial genomes are very valuable across a broad array of fields, from environmental studies, to human microbiome health, food pathogen surveillance, etc. Long-read sequencing enables accurate resolution of…
In this webinar we describe how current approaches to optimizing vector integrity for gene editing are insufficient and that gene editing protocols can benefit from long read sequencing at multiple…
The sequence and assembly of human genomes using long-read sequencing technologies has revolutionized our understanding of structural variation and genome organization. We compared the accuracy, continuity, and gene annotation of genome assemblies generated from either high-fidelity (HiFi) or continuous long-read (CLR) datasets from the same complete hydatidiform mole human genome. We find that the HiFi sequence data assemble an additional 10% of duplicated regions and more accurately represent the structure of tandem repeats, as validated with orthogonal analyses. As a result, an additional 5 Mbp of pericentromeric sequences are recovered in the HiFi assembly, resulting in a 2.5-fold increase in the NG50 within 1 Mbp of the centromere (HiFi 480.6 kbp, CLR 191.5 kbp). Additionally, the HiFi genome assembly was generated in significantly less time with fewer computational resources than the CLR assembly. Although the HiFi assembly has significantly improved continuity and accuracy in many complex regions of the genome, it still falls short of the assembly of centromeric DNA and the largest regions of segmental duplication using existing assemblers. Despite these shortcomings, our results suggest that HiFi may be the most effective standalone technology for de novo assembly of human genomes. © 2019 John Wiley & Sons Ltd/University College London.
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