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ICALP
2005
Springer
2005
Springer
Randomized Fast Design of Short DNA Words
We consider the problem of efficiently designing sets (codes) of equal-length DNA strings (words) that satisfy certain combinatorial constraints. This problem has numerous motivations including DNA computing and DNA self-assembly. Previous work has extended results from coding theory to obtain bounds on code size for new biologically motivated constraints and has applied heuristic local search and genetic algorithm techniques for code design. This paper proposes a natural optimization formulation of the DNA code design problem in which the goal is to design n strings that satisfy a given set of constraints while minimizing the length of the strings. For multiple sets of constraints, we provide high-probability algorithms that run in time polynomial in n and any given constraint parameters, and output strings of length within a constant factor of the optimal. To the best of our knowledge, this work is the first to consider this type of optimization problem in the context of DNA code de...
Real-time TrafficCertain Combinatorial Constraints | DNA Code Design | Equal-length Dna Strings | ICALP 2005 | Theoretical Computer Science |
Related Content
| Added | 27 Jun 2010 |
| Updated | 27 Jun 2010 |
| Type | Conference |
| Year | 2005 |
| Where | ICALP |
| Authors | Ming-Yang Kao, Manan Sanghi, Robert T. Schweller |
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