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SODA
2008
ACM

Dimension augmentation and combinatorial criteria for efficient error-resistant DNA self-assembly

14 years 1 months ago
Dimension augmentation and combinatorial criteria for efficient error-resistant DNA self-assembly
DNA self-assembly has emerged as a rich and promising primitive for nano-technology. Experimental and analytical evidence indicates that such systems are prone to errors, and accordingly, several error-correction mechanisms have been proposed for the tile model of selfassembly. These error-correction mechanisms suffer either from high resolution loss or a large increase in the number of tile-types. In this paper, we propose dimension augmented proof-reading, a technique that uses the third dimension to do error-correction in two dimensional self-assembling systems. This involves no resolution loss in the two dimensions of interest, results in a smaller increase in the number of tile-types than previous techniques, and appears to have the same errorcorrection properties. Error-correcting systems need to be analyzed in the kinetic Tile Assembly Model; such analysis involves complicated Markov Chains and is cumbersome. In this paper, we also present a set of completely combinatorial crit...
Ho-Lin Chen, Ashish Goel, Chris Luhrs
Added 30 Oct 2010
Updated 30 Oct 2010
Type Conference
Year 2008
Where SODA
Authors Ho-Lin Chen, Ashish Goel, Chris Luhrs
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