R. Friedberg scite author profile

We study a universal double-cut-and-join operation that accounts for inversions, translocations, fissions and fusions, but also produces circular intermediates which can be reabsorbed. The genomic distance, computable in linear time, is given by the number of breakpoints minus the number of cycles (b-c) in the comparison graph of the two genomes; the number of hurdles does not enter into it. Without changing the formula, we can replace generation and re-absorption of a circular intermediate by a generalized transposition, equivalent to a block interchange, with weight two. Our simple algorithm converts one multi-linear chromosome genome to another in the minimum distance.

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Frequency shifts in emission and absorption by resonant systems ot two-level atoms

Friedberg

1973

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Scalar soliton stars and black holes

1987

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R. Friedberg

Class of scalar-field soliton solutions in three space dimensions

Efficient sorting of genomic permutations by translocation, inversion and block interchange

Frequency shifts in emission and absorption by resonant systems ot two-level atoms

Scalar soliton stars and black holes

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