Research Articles
Supercharging Gene Therapy: A Magnetic Twist on Delivering DNA
Discover how magnetic nanoparticles and oscillating fields are revolutionizing gene therapy by improving DNA delivery into difficult-to-transfect cells like HUVECs and MEFs.
Unlocking Precision Gene Therapy: The Journey of DNA-Loaded Nanoparticles
Explore the breakthrough research on locating pcDNA3.1(+) plasmids within chitosan nanoparticles for enhanced gene delivery and precision therapy.
The Key to Gene Therapy: Unlocking the Cell with a Molecular Key
How scientists are learning to speak the language of the cell membrane by amplifying hydrophobicity for gene therapy breakthroughs.
The Cellular Trojan Horse: How a Smart Crystal is Revolutionizing Gene Therapy
Discover how pH-sensitive carbonate apatite nanocrystals are transforming gene therapy by efficiently delivering genetic materials to mammalian cells.
Unlocking the Cell: How Polymer Science is Revolutionizing Gene Therapy
Explore how polyethylenimine (PEI) polymers are transforming gene therapy by safely delivering nucleic acids into cells to treat genetic diseases.
Unlocking the Cell's Vault: How pH-Responsive Peptides Are Revolutionizing Gene Therapy
Discover how de novo designed pH-responsive peptides are solving the endosomal escape problem in gene therapy, enabling more effective genetic medicines.
Gene Therapy's Troubled Teenage Year: How 2003 Forged a Safer Path Forward
Explore how 2003 became a defining year for gene therapy, forcing the field to confront its dangers and develop safety measures that led to today's revolutionary treatments.
Silencing a Cancer Gene: The Molecular Scissors Delivered by a Trojan Horse
How scientists are hacking viruses to turn off the Foxq1 genes that fuel liver cancer using lentiviral vectors and RNA interference.