Webinar
Precision qPCR and dPCR in the Discovery and Development of Cell and Gene Therapies
On-Demand
As a cornerstone of genetic analysis in biological research, quantitative PCR (qPCR) and digital PCR (dPCR) are the most sensitive molecular methods to analyze nucleic acids and play a key role in the development of cell and gene therapies (CGT).
These tools are widely used during CGT development for example in biodistribution, pharmacokinetics and pharmacodynamics of the investigational lead molecule. But many samples, including tissues rich in nucleases, lipids and other inhibiting substances and target molecules that are short or contain modified bases, can be challenging to work with. For these types of samples, assay design using advanced strategies, concentration standards, spike-in controls and validated normalization is key for reliable analyses.
In this webinar, Dr. Kubista will present strategies for implementing reliable qPCR and dPCR analysis in CGT development while highlighting best practices for adhering to MIQE and dMIQE guidelines and the recently released ISO standard, ISO 20395:2019.
These tools are widely used during CGT development for example in biodistribution, pharmacokinetics and pharmacodynamics of the investigational lead molecule. But many samples, including tissues rich in nucleases, lipids and other inhibiting substances and target molecules that are short or contain modified bases, can be challenging to work with. For these types of samples, assay design using advanced strategies, concentration standards, spike-in controls and validated normalization is key for reliable analyses.
In this webinar, Dr. Kubista will present strategies for implementing reliable qPCR and dPCR analysis in CGT development while highlighting best practices for adhering to MIQE and dMIQE guidelines and the recently released ISO standard, ISO 20395:2019.
Webinar
Advances in Multiomics Screening of Microbes in Biotechnology
On-Demand
Design–build–test–learn (DBTL) cycles are commonly used in biotechnology and in natural product discovery as they provide a systemic and efficient framework for the metabolic engineering of microbes.
A novel platform that automates multiomics analyses of microbes could enable faster and better DBLT cycles for your research. In this webinar, the development and validation of the high-throughput, automated platform using model microbial organisms is described, as well as the recent work in applying the platform to cell factory and natural products engineering.
A novel platform that automates multiomics analyses of microbes could enable faster and better DBLT cycles for your research. In this webinar, the development and validation of the high-throughput, automated platform using model microbial organisms is described, as well as the recent work in applying the platform to cell factory and natural products engineering.
Webinar
The Challenges of Psilocybin Legal Licensing and Compliance
On-Demand
Join us for an exclusive webinar focused on psilocybin licensing and compliance with expert speaker Ryan Pincura, Director of Regulatory Affairs at Tendrel Group.
Webinar
The Future of Consumer Neuroscience in Food Research
On-Demand
In this webinar, our expert speaker, Dr. Michelle Niedziela, VP of Research and Innovation at HCD Research will discuss how to better evaluate and implement research methodologies in practice as well as discuss best practices and the future of the field.
Online Event
Laboratory of the Future 2023
On-Demand
Advances in automation, digitization and data modeling are changing how labs are built and run from the ground up. This free-to-attend event will provide researchers with an opportunity to hear about the technologies helping to drive digital transformation and laboratory efficiencies.
Webinar
How To Test Photovoltaic Cells Using FTIR and UV Spectroscopy Techniques
On-Demand
As the production and use of solar panels increases worldwide, there is an urgent need to find more effective and efficient photovoltaic materials testing techniques.
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