The bead transfection method involves binding nucleic acids onto 3-μm-diameter paramagnetic beads, treating the beads with transfection reagent, and using them as scaffolds to direct transfection to ...

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 ...

Immunotherapies against cancer, vaccines against new viruses (or old viruses in new places), and attempts to resolve pathogenic single-cell defects—all are looking to incorporate transfection ...

Gene therapy involves the transfer of genetically modified materials into a patient's cells to correct abnormal genes associated with diseases (Sun, 2017). Recent advancements in gene therapy have ...

Transfection techniques are pivotal advances in molecular biology that allow scientists to reliably introduce DNA, RNA, ribonucleoproteins (RNPs), and other molecules into cells. Several delivery ...

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 ...

Cell transfection has been a transformative tool for understanding cellular function. Accurately measuring transfection efficiency is paramount for 2D cell culture studies. However, traditional ...

If you work in a lab, whether you are researching the cutting edge of cell and gene therapy development or running a simple molecular binding screen, the chances are you have done some transfection in ...

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 ® ...

Vaccines are arguably one of the most important medical innovations in human history. When it comes to which diseases have successfully been targeted with vaccines, however, the playing field is far ...