ON-DEMAND WEBINAR

Increasing the throughput of full-length 16S and RNA-Seq with Kinnex™ kits

Hear from Kinnex users

Gain insights from microbial and plant + animal researchers on how they are using the new Kinnex kits (using MAS-Seq technology/method) to push the boundaries of full-length 16S and RNA.

Register to join the conversation

Join us on Tuesday, Dec. 12 starting at 8:00 AM PST or Wednesday, Dec. 13 starting at 11:00 AM SGT to hear from distinguished speakers as they unveil the potential of Kinnex kits from PacBio. Stay for the live Q&A to have your personal research questions answered.

WEBINAR SUMMARY

Explore the transformative capabilities of Kinnex kits from PacBio, in reshaping the landscape of microbiome community profiling and RNA-Seq in plant and animal research. This webinar will guide you through the enhanced functionalities of full-length 16S rRNA and RNA-Seq, empowered by the new Kinnex kits (using MAS-Seq technology/method), which facilitate a substantial increase in the number of reads obtained from PacBio long-read sequencing platforms. Delve into detailed customer scientific studies that showcase the practical applications and influential impact of Kinnex kits in contemporary research environments.

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Presentations

Introduction to Kinnex kits for full-length 16S and RNA-Seq

15-minute talk

Jacob Brandenburg, Senior Specialist, Plant and Animal Genomics, PacBio




Kinnex full-length RNA for Plant and Animal Research: Setting a new standard in high-quality genome annotation

20-minute talk

Jeremy Schmutz, Co-Director, HudsonAlpha Genome Sequencing Center



Beyond short-read: Master microbial analysis with Zymo’s full-length 16S microbiome service

20-minute talk

Ethan Thai, Microbiome Operations and Services Manager, Zymo Research




Study of the Dynamics of Microbiome Diversity in Early-Life

20-minute talk

Chinnu Jerard, PharmD, PhD Scholar, Early Life Microbial Immunology, Telethon Kids Institute, Perth Children’s Hospital




Enabling high throughput full-length RNA and 16S sequencing with Kinnex kits

15-minute talk

Jocelyne Bruand, PhD, Senior Staff Scientist, Bioinformatics, PacBio




Hosts and Moderators 

25-minute presenter Q&A

Jeremy Wilkinson, PhD, Senior Staff Specialist, Microbial Genomics, PacBio - Host

Elizabeth Tseng, PhD, Associate Director, Product Marketing, PacBio - Q&A Moderator

Plenary talks

Scalable PacBio HiFi library prep for high-quality genome assemblies

Authors: Jacob Brandenburg, Aaron Wenger, Christine Lambert, Heather Ferrao

Jacob Brandenburg, Senior Specialist, Segment Marketing, PacBio

Long-read whole genome sequencing (WGS) for plants and animals has allowed scientists to tackle the assembly of genomes ranging in size, ploidy, and repeat content. HiFi WGS enables complete, accurate, and contiguous assemblies of even the most complex genomes. As a result, HiFi WGS has been adopted by many biodiversity genomics consortia and agriculture researchers to assemble thousands of genomes.

While HiFi WGS simplifies the bioinformatics of genome assembly, library preparation remains a common challenge, especially for scientists sequencing organisms which yield low quantities of DNA or have very large genomes that require multiple libraries for a single de novo assembly.

We describe a new workgow using the PacBio SMRTbell prep kit 3.0 that is amenable to automation while significantly reducing the time (by 50%), cost, and DNA quantity (by 40%) necessary to prepare a sequencing library. We applied the workflow to rice and fly samples and demonstrate that the assembly quality matches that of the previous, more time-consuming library prep workgows. This new workflow offers a more efficient solution for all WGS applications, regardless of organism size or complexity.

bioinformatics tools for HiFi plant pangenomes

Authors: Greg Concepcion, Michelle Vierra

Greg Concepcion, Staff Engineer, Bioinformatics, PacBio

With the increasing prevalence of high-quality assembled genomes, access to the pangenomes of species is now an achievable possibility for researchers with all research budgets. However, the tools to visualize, analyze, and extract actionable information from these pangenome datasets are still in their infancy. Using a large plant pangenome dataset, we evaluated the pangenome graph builder pipeline for building a pangenome graph of the species and use these evaluations to provide basic recommendations for how to best manipulate and visualize these pangenomic datasets with other downstream tools including the vg toolkit.

bioinformatics tools for HiFi plant pangenomes

Authors: Greg Concepcion, Michelle Vierra

Greg Concepcion, Staff Engineer, Bioinformatics, PacBio

With the increasing prevalence of high-quality assembled genomes, access to the pangenomes of species is now an achievable possibility for researchers with all research budgets. However, the tools to visualize, analyze, and extract actionable information from these pangenome datasets are still in their infancy. Using a large plant pangenome dataset, we evaluated the pangenome graph builder pipeline for building a pangenome graph of the species and use these evaluations to provide basic recommendations for how to best manipulate and visualize these pangenomic datasets with other downstream tools including the vg toolkit.

bioinformatics tools for HiFi plant pangenomes

Authors: Greg Concepcion, Michelle Vierra

Greg Concepcion, Staff Engineer, Bioinformatics, PacBio

With the increasing prevalence of high-quality assembled genomes, access to the pangenomes of species is now an achievable possibility for researchers with all research budgets. However, the tools to visualize, analyze, and extract actionable information from these pangenome datasets are still in their infancy. Using a large plant pangenome dataset, we evaluated the pangenome graph builder pipeline for building a pangenome graph of the species and use these evaluations to provide basic recommendations for how to best manipulate and visualize these pangenomic datasets with other downstream tools including the vg toolkit.

Presentations

Monday, June 12, 2022 14:15–15:45 PST

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Elizabeth Tseng, PhD

Title, credentials, PacBio

Elizabeth Tseng, PhD

Title, credentials, PacBio

Elizabeth Tseng, PhD

Title, credentials, PacBio

Elizabeth Tseng, PhD

Title, credentials, PacBio

Presentations + posters

  • Poster presentations

    # Title First Author Date/Time
    2314 Increased Diagnostic Yield With Long Read Sequencing In Patients With Undiagnosed Neurodevelopmental Disorder S. Jamuar October 26, 3:00 - 4:45 pm PDT
    2322 Long-read HiFi genome sequencing reveals a 2.7 kilobase intronic insertion in NR5A1as a cause of 46,XY disorder of sexual development G. Del Gobbo October 26, 3:00 - 4:45 pm PDT
    2354 Ultra-low DNA input with long-read sequencing identified complex chromosomal rearrangements involving NIPBL in a Cornelia de Lange syndrome patient N. Jiang October 26, 3:00 - 4:45 pm PDT
    2723 Accurate CYP2D6 star (*) allele diplotyping for long-read PacBio HiFi sequencing J. Harting October 26, 3:00 - 4:45 pm PDT
    3096 PacBio HiFi sequencing provides highly accurate CpG methylation calls without bisulfite treatment C. Saunders October 26, 3:00 - 4:45 pm PDT
    3133 Sequencing By Binding (SBB) enables a lower limit of detection for Tuberculosis resistance genes gyrA and katG C. Wike October 26, 3:00 - 4:45 pm PDT
    2269 Clinical long-read genome sequencing: Analytical performance of germline small variant detection using HiFi genome sequencing N. Hammond October 27, 3:00 - 4:45 pm PDT
    2954 De novo variant detection with HiFi reads J. Lake October 27, 3:00 - 4:45 pm PDT
    3012 High throughput workflow for human whole genome sequencing using PacBio HiFi J. Rocha October 27, 3:00 - 4:45 pm PDT
    3132 Sequencing By Binding (SBB) demonstrates superior performance in low-pass whole-human-sequencing applications KY. Chen October 27, 3:00 - 4:45 pm PDT
    2938 Closing the gap: Solving complex medically relevant regions of the human genome F. Sedlazeck October 27, 3:00 - 4:45 pm PDT
  • In-booth presentations

    # Title First Author Date/Time
    2314 Increased Diagnostic Yield With Long Read Sequencing In Patients With Undiagnosed Neurodevelopmental Disorder S. Jamuar October 26, 3:00 - 4:45 pm PDT
    2322 Long-read HiFi genome sequencing reveals a 2.7 kilobase intronic insertion in NR5A1as a cause of 46,XY disorder of sexual development G. Del Gobbo October 26, 3:00 - 4:45 pm PDT
    2354 Ultra-low DNA input with long-read sequencing identified complex chromosomal rearrangements involving NIPBL in a Cornelia de Lange syndrome patient N. Jiang October 26, 3:00 - 4:45 pm PDT
    2723 Accurate CYP2D6 star (*) allele diplotyping for long-read PacBio HiFi sequencing J. Harting October 26, 3:00 - 4:45 pm PDT
    3096 PacBio HiFi sequencing provides highly accurate CpG methylation calls without bisulfite treatment C. Saunders October 26, 3:00 - 4:45 pm PDT
    3133 Sequencing By Binding (SBB) enables a lower limit of detection for Tuberculosis resistance genes gyrA and katG C. Wike October 26, 3:00 - 4:45 pm PDT
    2269 Clinical long-read genome sequencing: Analytical performance of germline small variant detection using HiFi genome sequencing N. Hammond October 27, 3:00 - 4:45 pm PDT
    2954 De novo variant detection with HiFi reads J. Lake October 27, 3:00 - 4:45 pm PDT
    3012 High throughput workflow for human whole genome sequencing using PacBio HiFi J. Rocha October 27, 3:00 - 4:45 pm PDT
    3132 Sequencing By Binding (SBB) demonstrates superior performance in low-pass whole-human-sequencing applications KY. Chen October 27, 3:00 - 4:45 pm PDT
    2938 Closing the gap: Solving complex medically relevant regions of the human genome F. Sedlazeck October 27, 3:00 - 4:45 pm PDT

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