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DNA
2007
Springer
2007
Springer
Autonomous Programmable Nanorobotic Devices Using DNAzymes
Abstract. A major challenge in nanoscience is the design of synthetic molecular devices that run autonomously and are programmable. DNA-based synthetic molecular devices have the advantage of being relatively simple to design and engineer, due to the predictable secondary structure of DNA nanostructures and the well-established biochemistry used to manipulate DNA nanostructures. We present the design of a class of DNAzyme based molecular devices that are autonomous, programmable, and further require no protein enzymes. The basic principle involved is inspired by a simple but ingenious molecular device due to Mao et al [25]. Our DNAzyme based designs include (1) a finite state automata device, DNAzyme FSA that executes finite state transitions using DNAzymes, (2) extensions to it including probabilistic automata and non-deterministic automata, (3) its application as a DNAzyme router for programmable routing of nanostructures on a 2D DNA addressable lattice, and (4) a medical-related a...
Real-time Traffic| Added | 07 Jun 2010 |
| Updated | 07 Jun 2010 |
| Type | Conference |
| Year | 2007 |
| Where | DNA |
| Authors | John H. Reif, Sudheer Sahu |
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