Reconstructing repeat-annotated phylogenetic trees
Firas Swidan
Technion
A new problem in phylogenetic inference is presented, based on recent
biological findings indicating a strong association between reversals and
repeats. These biological findings are formalized here in a new mathematical
model, called repeat-annotated phylogenetic trees (RAPT). We show that,
under RAPT, the evolutionary process - including both the tree-topology as
well as internal node genome orders - is uniquely determined, a property
that is of major significance both in theory and in practice. Furthermore,
the repeats are employed to provide linear-time algorithms for
reconstructing both the genomic orders and the phylogeny, which are NP-hard
problems under the classical model of sorting by reversals (SBR).
This is a joint work with Michal Ziv-Ukelson and Ron Pinter.