Scientists can peer into cells to get a limited view of their activity using microscopes and other tools. However, cells and ...

This research investigates how to optimize mRNA transfection in human T-cells utilizing the jetMESSENGER ® transfection reagent. By using advanced bioanalytical instruments like the Incucyte ® ...

Cancer cells have softer membranes than healthy cells. New nanoparticles exploit this physical difference to fuse selectively ...

Accurate monitoring of nanoparticle size and growth is essential to ensure scalability in the development of transfection vectors for gene delivery. This study highlights how Spatially Resolved-DLS ...

Transfection is a crucial non-viral technique for introducing DNA or RNA into cells, yet achieving high efficiency and consistency can be challenging, particularly with difficult cell types.

A single damaged protein inside one brain cell may seem insignificant. Yet new research shows how that small mistake can ...

Cell transfection is an important technique for various cell engineering applications, and researchers use various transfection methods for different purposes. Electroporation is among such techniques ...

Macromolecular-based gene delivery systems have emerged as viable alternatives to non-viral vectors for gene therapy due to their versatility, biocompatibility, and capacity to efficiently deliver ...

From protein translation to mitosis, fundamental cellular processes are multifaceted and dynamic. Researchers seeking to understand the inner workings of a cell benefit from multidisciplinary ...

That’s gene editing. On paper, it is merely the rearrangement of letters. However, the road to editing genes in hopes of a therapeutic benefit is difficult to travel. Additionally, researchers want ...