Title :
Unicyclic networks: compatibility and enumeration
Author :
Semple, C. ; Steel, M.
Author_Institution :
Dept. of Math. & Stat., Canterbury Univ., Christchurch
Abstract :
Graphs obtained from a binary leaf labeled ("phylogenetic") tree by adding an edge so as to introduce a cycle provide a useful representation of hybrid evolution in molecular evolutionary biology. This class of graphs (which we call "unicyclic networks") also has some attractive combinatorial properties, which we present. We characterize when a set of binary phylogenetic trees is displayed by a unicyclic network in terms of tree rearrangement operations. This leads to a triple-wise compatibility theorem and a simple, fast algorithm to determine 1-cycle compatibility. We also use generating function techniques to provide closed-form expressions that enumerate unicyclic networks with specified or unspecified cycle length, and we provide an extension to enumerate a class of multicyclic networks
Keywords :
biology computing; evolution (biological); genetics; molecular biophysics; trees (mathematics); 1-cycle compatibility; binary leaf labeled tree; binary phylogenetic trees; generating function techniques; graphs; molecular evolutionary biology; multicyclic networks; tree rearrangement operations; triple-wise compatibility theorem; unicyclic networks; Bioinformatics; Biological processes; Biological system modeling; Closed-form solution; Displays; Evolution (biology); Genomics; Phylogeny; Steel; Tree graphs; Phylogenetic tree; circular orderings; compatibility; galled-trees.; generating function; Algorithms; Biological Evolution; Computer Simulation; Evolution, Molecular; Genetics, Population; Models, Genetic; Phylogeny; Recombination, Genetic; Signal Transduction;
Journal_Title :
Computational Biology and Bioinformatics, IEEE/ACM Transactions on
DOI :
10.1109/TCBB.2006.14
