DNA forms canonical double helical structures through complementary base pairing. Owing to this unique property, DNA is widely used as a programmable nanomaterial for constructing artificially designed nanostructures via self-assembly. In a method called “DNA origami,” long single-stranded DNA is folded into a designed nanoscale shape through hybridization with many synthetic short DNA strands, called staple strands.

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Design and Application of DNA Origami Actuators

  • Yuki Suzuki

摘要

DNA forms canonical double helical structures through complementary base pairing. Owing to this unique property, DNA is widely used as a programmable nanomaterial for constructing artificially designed nanostructures via self-assembly. In a method called “DNA origami,” long single-stranded DNA is folded into a designed nanoscale shape through hybridization with many synthetic short DNA strands, called staple strands.