Nucleic acid, as a carrier of genetic information, has been widely employed as a building block for the construction of versatile nanostructures with pre-designed sizes and shapes through complementary base pairing. With excellent programmability, addressability, and biocompatibility, nucleic acid nanostructures are extensively applied in biomedical researches, such as bio-imaging, bio-sensing, and drug delivery. Notably, the original gene-encoding capability of the nucleic acids themselves has been utilized in these structurally well-defined nanostructures. In this review, we will summarize the recent progress in the design of double-stranded DNA and mRNA-encoded nanostructures for various biological applications, such as gene regulation, gene expression, and mRNA transcription. Furthermore, the challenges and future opportunities of genetically encoded nucleic acid nanostructures in biomedical applications will be discussed.
Keywords: drug delivery; gene encoding; gene therapy; nucleic acid nanostructure; self-assembly.
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