During the past decades, nucleic acids have been employed for the construction of versatile nanostructures with well-defined shapes and sizes. Owing to the remarkable programmability, addressability, and biocompatibility, nucleic acid… Click to show full abstract
During the past decades, nucleic acids have been employed for the construction of versatile nanostructures with well-defined shapes and sizes. Owing to the remarkable programmability, addressability, and biocompatibility, nucleic acid nanostructures are extensively applied in biomedical researches, such as bioimaging, biosensing, and drug delivery. In particular, nucleic acid nanostructures can act as promising candidates for the delivery of gene-related nucleic acid drugs based on the inherent homology. In this review, the recent progress in the design of multifunctional nucleic acid nanocarriers for gene therapy through antisense, RNA interference, gene editing, and gene expression is summarized. Furthermore, the challenges and future opportunities of nucleic acid nanotechnology in biomedical applications will be discussed.
               
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