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COCOON
2003
Springer
2003
Springer
Genomic Distances under Deletions and Insertions
As more and more genomes are sequenced, evolutionary biologists are becoming increasingly interested in evolution at the level of whole genomes, in scenarios in which the genome evolves through insertions, deletions, and movements of genes along its chromosomes. In the mathematical model pioneered by Sankoff and others, a unichromosomal genome is represented by a signed permutation of a multi-set of genes; Hannenhalli and Pevzner showed that the edit distance between two signed permutations of the same set can be computed in polynomial time when all operations are inversions. El-Mabrouk extended that result to allow deletions and a limited form of insertions (which forbids duplications). In this paper we extend El-Mabrouk’s work to handle duplications as well as insertions and present an alternate framework for computing (near) minimal edit sequences involving insertions, deletions, and inversions. We derive an error bound for our polynomial-time distance computation under various as...
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| Added | 06 Jul 2010 |
| Updated | 06 Jul 2010 |
| Type | Conference |
| Year | 2003 |
| Where | COCOON |
| Authors | Mark Marron, Krister M. Swenson, Bernard M. E. Moret |
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