Here we show that deciding whether two rooted binary phylogenetic trees on the same set of taxa permit a cherry-picking sequence, a special type of elimination order on the taxa, is NP-complete. This improves on an earlier result which proved hardness for eight or more trees. Via a known equivalence between cherry-picking sequences and temporal phylogenetic networks, our result proves that it is NP-complete to determine the existence of a temporal phylogenetic network that contains topological embeddings of both trees. The hardness result also greatly strengthens previous inapproximability results for the minimum temporal-hybridization number problem. This is the optimization version of the problem where we wish to construct a temporal phyl...
Combining a set of phylogenetic trees into a single phylogenetic network that explains all of them i...
A phylogenetic network is a directed acyclic graph that visualizes an evolutionary history containin...
We present the first fixed-parameter algorithm for constructing a tree-child phylogenetic network th...
Here we show that deciding whether two rooted binary phylogenetic trees on the same set of taxa perm...
Phylogenetic networks are a restricted class of directed acyclic graphs that model evolu-tionary his...
Abstract Background Combining a set of phylogenetic trees into a single phylogenetic network that ex...
AbstractPhylogenetic networks are a restricted class of directed acyclic graphs that model evolution...
Reticulation processes in evolution mean that the ancestral history of certain groups of present-day...
We study the problem of finding a temporal hybridization network for a set of phylogenetic trees tha...
Rooted phylogenetic networks are used to model non-treelike evolutionary histories. Such networks ar...
We study the problem of finding a temporal hybridization network containing at most k reticulations,...
To construct a phylogenetic tree or phylogenetic network for describing the evolutionary history of ...
Phylogenetic networks are leaf-labeled directed acyclic graphs that are used to describe nontreelike...
Combining a set of phylogenetic trees into a single phylogenetic network that explains all of them i...
A phylogenetic network is a directed acyclic graph that visualizes an evolutionary history containin...
We present the first fixed-parameter algorithm for constructing a tree-child phylogenetic network th...
Here we show that deciding whether two rooted binary phylogenetic trees on the same set of taxa perm...
Phylogenetic networks are a restricted class of directed acyclic graphs that model evolu-tionary his...
Abstract Background Combining a set of phylogenetic trees into a single phylogenetic network that ex...
AbstractPhylogenetic networks are a restricted class of directed acyclic graphs that model evolution...
Reticulation processes in evolution mean that the ancestral history of certain groups of present-day...
We study the problem of finding a temporal hybridization network for a set of phylogenetic trees tha...
Rooted phylogenetic networks are used to model non-treelike evolutionary histories. Such networks ar...
We study the problem of finding a temporal hybridization network containing at most k reticulations,...
To construct a phylogenetic tree or phylogenetic network for describing the evolutionary history of ...
Phylogenetic networks are leaf-labeled directed acyclic graphs that are used to describe nontreelike...
Combining a set of phylogenetic trees into a single phylogenetic network that explains all of them i...
A phylogenetic network is a directed acyclic graph that visualizes an evolutionary history containin...
We present the first fixed-parameter algorithm for constructing a tree-child phylogenetic network th...