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Nanotechnology 1, 2 has evolved to the increasinglyĭynamic, enabled state 3 it is today. To rudimentary switching of states and finally multistage movement,Įnvironmental triggering, and information relay, the field of DNA The recent progress in robotic DNA nanostructures, mechanics, and Robots, rotary machines, precision measurement tools, as well as electricĪnd magnetic-field directed robotic arms. Such diverse apparatuses can also serveĪs optical polarizers, sensors and capsules, autonomous cargo-sorting
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Tools at the interface with biology, for example, in therapeuticsĪnd diagnostics as dynamic logic-gated nanopills, light-, pH-, and The versatile DNA nano-objects can serve as synthetic More straightforward, and some objects can be designed automaticallyįrom the top down. The general workflow of creating DNA nanoshapes is getting more and In brief, the synthesis of the user-definedĪrtificial DNA nano-objects is based on employing DNA molecules withĬustom lengths and sequences as building materials that predictablyĪssemble together by obeying Watson–Crick base pairing rules. Programmability of the DNA nanostructures may pave the way for smart Of these applications is in synthetic biology, where the intrinsic Which applications are coming increasingly in view.
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Of functional nanostructures tailored toward the enabled state at The past decade, DNA nanotechnology has spawned a broad variety