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Webinar

Achieving High Non-Viral Transfection Performance for Cell Therapy Processing

On-Demand
Cell therapies often involve introduction of genetically transformed cells into a patient. Recently there has been renewed interest in non-viral gene modification for this application as an alternative to lentiviral vectors.
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Webinar

Ask Me Anything : Predatory Conferences

On-Demand
This exclusive Q&A event invites you to ask anything about the world of predatory conferences to our expert speaker.
Cell and Gene TN Ed Cal Webinar 30th November 2023
Webinar

Oligonucleotide-Based Therapeutics: Aptamers

On-Demand
This talk delves into the fascinating world of aptamers. Aptamers are short single-stranded nucleic acid oligomers, either DNA or RNA, known for their ability to form intricate three-dimensional structures. The development of aptamers relies on SELEX (systematic evolution of ligands by exponential enrichment), a process that allows researchers to fine-tune their characteristics during selection.
Webinar

Ask Me Anything: Getting Published in High-Ranking Journals

On-Demand
An incredible opportunity to ask the Chief Editor of Nature on how to get published in high-ranking journals.
The Spatial Biology Revolution 2023
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.
Oxford Nanopore
Webinar

Parent-of-Origin Genome Analysis: The Potential To Improve Genetic Testing

On-Demand
This webinar will introduce a novel method for parent-of-origin-aware genomic analysis using the long-read capabilities of nanopore sequencing and single-cell DNA template strand sequencing to assign variants to each biological parent with 99% accuracy using only a blood research sample from the child.
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