Next-Generation Sequencing – Webinars and Online Events
Webinar
Unlocking Genomic Insights: Real-Time Sequencing With Pocket Size Devices
For researchers in the field – from Alaska to the International Space Station – a real-time portable sequencer can lower the barrier to accessing genomic information, bringing new insights into organisms by sequencing directly in extreme environments
Webinar
New Methods for RNA Modification Detection and Structure Probing
In this webinar, you’ll hear from three experts in the field about their research into the structure, function, regulation and detection of RNA modifications.
Webinar
Unlocking the Potential of miRNA-Targeted Therapies
On-Demand
In this webinar, our expert speaker will explore the therapeutic potential of miRNA- targeting treatments, outlining cutting-edge research that is identifying new miRNA targets.
Webinar
Episode 1: Integrating PCR with Emerging Technologies
On-Demand
In our first episode of the New Frontiers in PCR Technology Series, join an exclusive Ask Me Anything with Professor Mikael Kubista. Discover how PCR is evolving with next-generation sequencing, CRISPR and microfluidics.
Webinar
Maximize Your Sample’s Full Potential for Genomic Analysis
High-quality genomics studies start with high-quality sample preparation.
This webinar will explore how you can enhance your genomics research with advanced sample preparation solutions tailored for fresh, snap-frozen, and FFPE samples.
This webinar will explore how you can enhance your genomics research with advanced sample preparation solutions tailored for fresh, snap-frozen, and FFPE samples.
Webinar
Nanopore Sequencing for Biodiversity and Conservation Studies in Latin America
On-Demand
Genomics is a powerful tool for conserving endangered species, informing researchers of taxonomy and population connectivity and helping to develop strategies for mitigating disease and the effects of climate change.
Webinar
Enhanced Microbial Profiling and Metagenomics With Nanopore Sequencing
On-Demand
In this webinar, you’ll hear from two experts about their research into microbial communities and the impact of nanopore sequencing technologies on their work.
Webinar
A Novel Perfusion Technique for Multiomics Studies on Hepatocyte Aging
On-Demand
The liver is a very good example of how tissue architecture can influence aging. Composed mainly of hepatocytes, the position of these cells is key to their role and determines changes in their metabolism and aging profile.
Researchers from the Max Planck Institute have conducted an in-depth multiomics analysis of functional and healthy hepatocytes, characterizing transcriptional, epigenetic, lipidomic and functional signatures to understand the effects of aging.
In this webinar, you’ll hear all about their research, including the novel perfusion technology for resected mouse liver that makes it easy and convenient to obtain viable hepatocytes to analyze.
Researchers from the Max Planck Institute have conducted an in-depth multiomics analysis of functional and healthy hepatocytes, characterizing transcriptional, epigenetic, lipidomic and functional signatures to understand the effects of aging.
In this webinar, you’ll hear all about their research, including the novel perfusion technology for resected mouse liver that makes it easy and convenient to obtain viable hepatocytes to analyze.
Webinar
Deciphering Cell–Cell Interactions in Liver Metastases
On-Demand
The liver is the most common metastatic site for many primary tumors. Single-cell gene and protein expression, in combination with spatial data that contextualizes relationships with other tumor cells and structures, are critical to fully understand how cells communicate in liver metastases.
Resolving the precise spatial location of each single cell allows for a comprehensive understanding of the tissue architecture for each tumor and helps identify critical cell–cell communication circuits.
This webinar will highlight approaches to generating a spatial atlas of tumors, illustrate how to integrate single-cell transcriptomics data with spatial data and explore how to track cell behavior to study cell–cell interactions in each cellular neighborhood.
Resolving the precise spatial location of each single cell allows for a comprehensive understanding of the tissue architecture for each tumor and helps identify critical cell–cell communication circuits.
This webinar will highlight approaches to generating a spatial atlas of tumors, illustrate how to integrate single-cell transcriptomics data with spatial data and explore how to track cell behavior to study cell–cell interactions in each cellular neighborhood.
Webinar
Simultaneous Profiling of the Epigenome and Transcriptome at a Single-Cell Level
On-Demand
In this webinar, you’ll learn about the insights you could gain by profiling gene expression and open chromatin from the same cell simultaneously.
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