Non-Viral Gene Delivery Vectors

Physical Chemical and Biomolecular
Methods for the Optimization of Cationic Lipid-Based Lipoplexes In Vitro
for the Gene Therapy Applications. - Cationic Lipid-Based Nucleic Acid Vectors. - Lipoplexes from Non-Viral Cationic Vectors: DOTAP-DOPE
Liposomes and Gemini Micelles. - Anionic/Zwitterionic Lipid-Based Gene Vectors of pDNA. - Elaboration and Physicochemical Characterization of Niosome-Based
Nioplexes for Gene Delivery Purposes. - Quantitative Intracellular Localization of Cationic Lipid-Nucleic
Acid Nanoparticles with Fluorescence Microscopy. - Targeted
Delivery of Peptide-Tagged DNA Lipoplexes to Hepatocellular Carcinoma Cells. - Lipoplexes Strengthened by Anionic
Polymers: Easy Preparation of Highly Effective siRNA Vectors Based on Cationic Lipids
and Anionic Polymers. - Polymer Based Gene Silencing: In Vitro Delivery of SiRNA. - Polyallylamine
Derivatives: Novel Non-Toxic Transfection Agents. - Biodegradable
Three-Layered Micelles and Injectable Hydrogels. - Cationic Lipid-Coated
Polyplexes ( Lipopolyplexes ) for DNA and Small RNA Delivery. - Preparation of Targeted Anionic
Lipid-Coated Polyplexes for MicroRNA Delivery. - Characterization
and Investigation of Redox-Sensitive Liposomes for Gene Delivery. - From Artificial
Amino Acids to Sequence-Defined Targeted Oligoaminoamides. - Gene Delivery
Method Using Photo-Responsive Poly(ß-Amino Ester) as Vectors. - Thermo-Responsive
Polyplex Micelles with PEG Shells and PNIPAM Layer to Protect DNA Cores for Systemic
Gene Therapy. - Application of Polyethylenimine-Grafted Silicon Nanowire
Arrays for Gene Transfection.