RNA-Seq – Webinars and Online Events
Online Event
The Spatial Biology Revolution 2023
On-Demand
New for 2023, this online event will provide researchers with an opportunity to learn about how spatial biology is helping us to gain a deeper understanding of molecular biology and mechanisms of disease. Speakers will discuss advances in spatial technologies and how they are being applied to provide a more complete picture of cells and complex biological systems in areas such as cancer research and neuroscience.
Webinar
Driving Genome-Wide Consistency in Cellular Reprogramming
On-Demand
Biological variance poses challenges when using human iPSC-derived cells in vitro, leading to inconsistent experimental results and data variability.
Webinar
Spatially Encoded Pathways for Immune Tolerance in Human Health and Disease
On-Demand
In this webinar, Dr. Angelo will showcase his research into understanding the evolving spatiotemporal network behind how immune tolerance develops in cancer, pregnancy and TB.
Webinar
Cloning in the Third Dimension: Breakthroughs in 3D Biology
On-Demand
Traditional organoid culture can present challenges for the downstream analysis of single organoids. In this webinar, Dr. Allysa Stern will discuss a unique workflow that enables clonal organoid development, monitoring of iPSC differentiation over time and automated isolation of single organoids.
Dr. Scott Magness will then present a case related to his group’s work investigating tumor cell heterogeneity through clonal organoid morphology and transcriptomics. He will discuss new approaches using single organoid transcriptomics to evaluate organoids derived from single cells from gastric dysplastic tissues and how this approach might reveal new ways to investigate tumor cell heterogeneity and evasion of some cells from cancer treatments.
Dr. Scott Magness will then present a case related to his group’s work investigating tumor cell heterogeneity through clonal organoid morphology and transcriptomics. He will discuss new approaches using single organoid transcriptomics to evaluate organoids derived from single cells from gastric dysplastic tissues and how this approach might reveal new ways to investigate tumor cell heterogeneity and evasion of some cells from cancer treatments.
Online Event
Innovations in Disease Modeling 2023
On-Demand
This online symposium will explore the tools and techniques being used to study diseases in the lab. Focus will be given to cell culture, organs-on-chips and key modeling strategies, as well as how research advances are enabling researchers to elucidate the underlying biological mechanisms of disease and support diagnostic and therapeutic development.
Online Event
Applications of Gene Editing 2023
On-Demand
Modern gene editing technologies continue to transform biological research and push the boundaries of what is possible in and out of the lab. This free-to-attend event will provide industry and academic researchers with a platform to discuss some of the most exciting ways gene editing technologies are being deployed to address real-world challenges in areas spanning human health, agriculture, and climate change.
Webinar
The Most Comprehensive Insight in Cancer Genomes: New Discoveries
On-Demand
With the genetics behind cancer being both diverse and complex, there are many genomic deviations that need to be detected and analyzed to further our understanding of the disease. Using nanopore sequencing, scientists can achieve the most comprehensive insight into cancer genomes. To explore this further, this symposium will bring together experts in cancer research, where they’ll cover how they are using the technology.
The speakers will discuss detecting missing structural variants, characterizing mutation patterns and how nanopore sequencing has advanced their research.
The speakers will discuss detecting missing structural variants, characterizing mutation patterns and how nanopore sequencing has advanced their research.
Webinar
Rapid Leukemia Classification Using Nanopore Sequencing
On-Demand
Our major findings were that the neural network was able to accurately classify 11 out of 12 leukemia samples, with as little as 5 minutes of sequencing needed to accurately classify ALL.
Webinar
Re-Convolving the Compositional Landscape of Primary and Recurrent Glioblastoma Reveals Prognostic and Targetable Tissue States
On-Demand
Speaking at The Landscape of Cancer Research 2022, Osama Al Dalahmah, PhD from Colombia University, presented his talk on paving the way to new mechanistic and therapeutic discoveries in glioblastoma.
Webinar
Effective Nuclei Isolation From Tissue for Single-Nucleus Sequencing
On-Demand
In this webinar, we present a standardized workflow solution, including easy and automated nuclei extraction and isolation for reproducible single-nucleus sequencing analysis.
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