Academic research trends continue to drive transfection technology advancements. Researchers hope to use more biologically relevant yet hard-to-transfect cell models in addition to the standard ...

The ability to alter the genetic composition of living cells has revolutionized biology. Scientific advances, from treating genetic disorders through gene therapy to reprograming skin cells into ...

Transfection, a key genetic technology in the toolbox of many researchers, spans numerous applications—production of recombinant proteins and recombinant cell lines, drug discovery, delivery of ...

The transfection of genes and the delivery of cell membrane–impermeable biomolecules—potentially drugs—into mammalian cells are among the most important research tools in modern molecular biology. A ...

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.

Theoretical considerations suggest key variables for augmenting gene transfer. The development of new magnetic nanoparticles is leading to improvements in transfection efficiency. The recent ...