This webinar showcases the Growth Direct System; an RMM (Rapid Microbial Method) that improves on traditional membrane filtration, delivering increased accuracy, a faster time to result, enhanced data integrity compliance, and more control over the manufacturing process.
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Understand the benefits of full workflow microbiology quality control testing automation in radiopharmaceutical production
Learn about ITM’s implementation journey and considerations when evaluating the technology
Find out how the advanced optics and microcolony detection capabilities of Growth Direct® technology impact time to result (TTR).
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Most genome editing is done with viral vectors, said Shaoqin Gong, a professor of biomedical engineering and investigator at the Wisconsin Institute for Discovery at UW-Madison. “Viral vectors are attractive because they can be very efficient, but they are also associated with a number of safety concerns including undesirable immune responses,” Gong explained.
Gong’s lab coated a gene therapy payload – a version of the gene-editing tool CRISPR-Cas9 with guide RNA – with a thin polymer shell, resulting in a capsule about 25 nanometers in diameter. The surface of the nanocapsule can be decorated with functional groups such as peptides which give the nanoparticles the ability to target certain cell types.
This is a graphic description of the nanocapsule delivery system (credit: UW-Madison).
The nanocapsule stays intact outside cells only to fall apart inside the target cell when triggered by a molecule called glutathione. The freed payload then moves to the nucleus to edit the cell’s DNA. The nanocapsules are expected to reduce unplanned genetic edits due to their short lifespan inside a cell’s cytoplasm.
Furthermore, because the nanocapsules can be freeze-dried, they can be conveniently purified, stored and transported as a powder, while providing flexibility for dosage control.
“The small size, superior stability, versatility in surface modification and high-editing efficiency of the nanocapsules make them a promising platform for many types of gene therapies,” said Gong.
The team aims to further optimise the nanocapsules in ongoing research for efficient editing in the brain and the eye.
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