Abstract In this paper, we study the problem of constructing perfect phylogenies for three-state characters. Our work builds on two recent results. The first result states that for three-state characters, the local condition of examining all subsets of three characters is sufficient to determine the global property of admitting a perfect phylogeny. The second result applies tools from minimal triangulation theory to the partition intersection graph to determine if a perfect phylogeny exists. Despite the wealth of combinatorial tools and algorithms stemming from the chordal graph and minimal triangulation literature, it is unclear how to use such approaches to efficiently construct a perfect phylogeny for three-state characters when the data...
The reconstruction of the evolutionary tree of a set of species based on qualitative attributes is a...
Kloks, Kratsch, and Spinrad showed how treewidth and minimum-fill, NP-hard combinatorial op...
Abstract. Kloks, Kratsch, and Spinrad showed how treewidth and min-imum-fill, NP-hard combinatorial ...
AbstractWe give a characterization of the minimal obstruction sets for the existence of a perfect ph...
Perfect phylogenies are fundamental in the study of evolutionary trees because they capture the situ...
This work is based on the paper ‘Incomplete perfect phylogeny ’ by Pe’er et al. (2000). The goal of ...
Abstract. The perfect phylogeny problem is a classic problem in com-putational biology, where we see...
The perfect phylogeny problem is a classic problem in computational biology, where we seek ...
We present a polynomial-time algorithm for determining whether a set of species, described by the ch...
The Perfect Phylogeny Problem is a classical problem in computational evolutionary biology, in which...
We present a polynomial-time algorithm for determining whether a set of species, described by the ch...
We present an algorithm for determining whether a set of species, described by the characters they e...
Abstract. The perfect phylogeny is one of the most used models in different areas of computational b...
Perfect phylogenies are fundamental in the study of evolutionary trees because they capture the situ...
Abstract. We study a problem that arises in computational biology, when wishing to reconstruct the p...
The reconstruction of the evolutionary tree of a set of species based on qualitative attributes is a...
Kloks, Kratsch, and Spinrad showed how treewidth and minimum-fill, NP-hard combinatorial op...
Abstract. Kloks, Kratsch, and Spinrad showed how treewidth and min-imum-fill, NP-hard combinatorial ...
AbstractWe give a characterization of the minimal obstruction sets for the existence of a perfect ph...
Perfect phylogenies are fundamental in the study of evolutionary trees because they capture the situ...
This work is based on the paper ‘Incomplete perfect phylogeny ’ by Pe’er et al. (2000). The goal of ...
Abstract. The perfect phylogeny problem is a classic problem in com-putational biology, where we see...
The perfect phylogeny problem is a classic problem in computational biology, where we seek ...
We present a polynomial-time algorithm for determining whether a set of species, described by the ch...
The Perfect Phylogeny Problem is a classical problem in computational evolutionary biology, in which...
We present a polynomial-time algorithm for determining whether a set of species, described by the ch...
We present an algorithm for determining whether a set of species, described by the characters they e...
Abstract. The perfect phylogeny is one of the most used models in different areas of computational b...
Perfect phylogenies are fundamental in the study of evolutionary trees because they capture the situ...
Abstract. We study a problem that arises in computational biology, when wishing to reconstruct the p...
The reconstruction of the evolutionary tree of a set of species based on qualitative attributes is a...
Kloks, Kratsch, and Spinrad showed how treewidth and minimum-fill, NP-hard combinatorial op...
Abstract. Kloks, Kratsch, and Spinrad showed how treewidth and min-imum-fill, NP-hard combinatorial ...