Partial homology relations - satisfiability in terms of di-cographs

Nikolai Nøjgaard*, Nadia El-Mabrouk, Daniel Merkle, Nicolas Wieseke, Marc Hellmuth

*Corresponding author for this work

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Abstract

Directed cographs (di-cographs) play a crucial role in the reconstruction of evolutionary histories of genes based on homology relations which are binary relations between genes. A variety of methods based on pairwise sequence comparisons can be used to infer such homology relations (e.g. orthology, paralogy, xenology). They are satisfiable if the relations can be explained by an event-labeled gene tree, i.e., they can simultaneously co-exist in an evolutionary history of the underlying genes. Every gene tree is equivalently interpreted as a so-called cotree that entirely encodes the structure of a di-cograph. Thus, satisfiable homology relations must necessarily form a di-cograph. The inferred homology relations might not cover each pair of genes and thus, provide only partial knowledge on the full set of homology relations. Moreover, for particular pairs of genes, it might be known with a high degree of certainty that they are not orthologs (resp. paralogs, xenologs) which yields forbidden pairs of genes. Motivated by this observation, we characterize (partial) satisfiable homology relations with or without forbidden gene pairs, provide a quadratic-time algorithm for their recognition and for the computation of a cotree that explains the given relations.

Original languageEnglish
Title of host publicationComputing and Combinatorics : 24th International Conference, COCOON 2018, Proceedings
EditorsDaming Zhu, Lusheng Wang
Volume10976
PublisherSpringer
Publication date2018
Pages403-415
ISBN (Print)978-3-319-94775-4
ISBN (Electronic)978-3-319-94776-1
DOIs
Publication statusPublished - 2018
Event24th International Conference on Computing and Combinatorics Conference, COCOON 2018 - Qing Dao, China
Duration: 2. Jul 20184. Jul 2018

Conference

Conference24th International Conference on Computing and Combinatorics Conference, COCOON 2018
Country/TerritoryChina
CityQing Dao
Period02/07/201804/07/2018
SeriesLecture Notes in Computer Science
Volume10976
ISSN0302-9743

Keywords

  • Directed cographs
  • Forbidden relations
  • Homology
  • Orthology
  • Paralogy
  • Partial relations
  • Recognition algorithm
  • Xenology

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