Plasmid DNA and siRNA have a large potential for use as therapeutic nucleic acids in medicine. The way to the target cell and its proper compartment is full of obstacles. Polymeric carriers help to overcome the encountered barriers. Cationic polymers can interact with the nucleic acid in a nondamaging way but still require optimization with regard to transfer efficiency and biocompatibility. Aiming at virus-like features, as viruses are the most efficient natural gene carriers, the design of bioresponsive polymers shows promising results regarding DNA and siRNA delivery. By specific chemical modifications dynamic structures are created, programmed to respond towards changing demands on the delivery pathway by cleavage of labile bonds or conformational changes, thus enhancing biocompatible gene delivery. © 2010 Springer-Verlag Berlin Heidelberg.
CITATION STYLE
Salcher, E. E., & Wagner, E. (2010). Chemically programmed polymers for targeted DNA and siRNA transfection. Topics in Current Chemistry, 296, 227–249. https://doi.org/10.1007/128_2010_69
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