Pulsed electrical fields can be used to introduce DNA into a wide variety of animal cells 1,2. Electroporation works well with cell lines that are refractive to other techniques, such as calcium ...

At right, an example of successful serial single-cell electroporation on three consecutive days. The plasmids used: dsRed1-mito on day one, EYFP-Golgi on day two, and ECFP-vimentin on day three. To ...

Delivering nucleic acids into cells is a critical step during cell therapy product development. Electroporation allows researchers to transfect a large number of cells in a short time. However, ...

The Gene Pulser Xcell System is a flexible, modular electroporation system for transfecting every cell type from primary, suspension, and difficult-to-transfect cells, including T cells, to bacteria ...

They provide crucial technology for cell and gene therapies. Their core ExPERT ATx, sTX, GTx, and VLx tools use their proprietary technology called Flow Electroporation, which has been optimized ...

A recent study published in Engineering presents an innovative acoustofluidics-based approach for intracellular nanoparticle ...

A novel acoustofluidics method enhances intracellular nanoparticle delivery, improving biophysical research and therapeutic ...

and electroporation have limitations. They may require time-consuming processes, complex operations, or expensive equipment. Additionally, issues like low delivery efficiency and potential cell ...

Last May, MaxCyte granted Legend Biotech a nonexclusive worldwide license to use its electroporation technology to develop and commercialize cell-based therapeutic products. Before that ...

Mayo Clinic's Precision Mouse Engineering Core in Minnesota makes embryonic stem (ES) cell-based gene-targeted mice available to researchers.