AbstractConstructing evolutionary trees for species sets is a fundamental problem in biology. Unfortunately, there is no single agreed upon method for this task, and many methods are in use. Current practice dictates that trees be constructed using different methods and that the resulting trees then be compared for consensus. It has become necessary to automate this process as the number of species under consideration has grown. We study the Unrooted Maximum Agreement Subtree Problem (UMAST) and its rooted variant (RMAST). The UMAST problem is as follows: given a set A and two trees T0 and T1 leaf-labeled by the elements of A, find a maximum cardinality subset B of A such that the restrictions of T0 and T1 to B are topologically isomorphic....
In this paper we study a few important tree optimization problems with applications to computational...
An agreement supertree of a collection of unrooted phylogenetic trees {T1 , T2 , . . . , Tk} with ...
The maximum agreement subtree problem is the following. Given two rooted trees whose leaves are draw...
[[abstract]]In this paper, we solve the maximum agreement subtree problem for a set T of k rooted le...
The maximum agreement subtree approach is one method of reconciling different evolution trees for th...
AbstractWe study the computational complexity and approximation of several problems arising in the c...
[[abstract]]In this paper, we solve the maximum agreement subtree problem for a set T of k rooted, l...
Given a set of evolutionary trees on a same set of taxa, the maximum agreement subtree problem (MAST...
Given a set of evolutionary trees on a same set of taxa, the maximum agreement subtree problem (MAS...
AbstractThe aim of this paper is to give a complete picture of approximability for two tree consensu...
AbstractPhylogenetic trees are an important tool to help in the understanding of relationships betwe...
The maximum agreement subtree problem is the following. Given two rooted trees whose leaves are draw...
Given two unrooted, binary trees, T1 and T2, leaf labelled bijectively by a set of species L, theMax...
International audienceThe maximum agreement subtree method determines the consensus of a collection ...
AbstractThere are various techniques for reconstructing phylogenetic trees from data, and in this co...
In this paper we study a few important tree optimization problems with applications to computational...
An agreement supertree of a collection of unrooted phylogenetic trees {T1 , T2 , . . . , Tk} with ...
The maximum agreement subtree problem is the following. Given two rooted trees whose leaves are draw...
[[abstract]]In this paper, we solve the maximum agreement subtree problem for a set T of k rooted le...
The maximum agreement subtree approach is one method of reconciling different evolution trees for th...
AbstractWe study the computational complexity and approximation of several problems arising in the c...
[[abstract]]In this paper, we solve the maximum agreement subtree problem for a set T of k rooted, l...
Given a set of evolutionary trees on a same set of taxa, the maximum agreement subtree problem (MAST...
Given a set of evolutionary trees on a same set of taxa, the maximum agreement subtree problem (MAS...
AbstractThe aim of this paper is to give a complete picture of approximability for two tree consensu...
AbstractPhylogenetic trees are an important tool to help in the understanding of relationships betwe...
The maximum agreement subtree problem is the following. Given two rooted trees whose leaves are draw...
Given two unrooted, binary trees, T1 and T2, leaf labelled bijectively by a set of species L, theMax...
International audienceThe maximum agreement subtree method determines the consensus of a collection ...
AbstractThere are various techniques for reconstructing phylogenetic trees from data, and in this co...
In this paper we study a few important tree optimization problems with applications to computational...
An agreement supertree of a collection of unrooted phylogenetic trees {T1 , T2 , . . . , Tk} with ...
The maximum agreement subtree problem is the following. Given two rooted trees whose leaves are draw...