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arxiv: 1903.07920 · v5 · pith:XCVDL4QNnew · submitted 2019-03-19 · 🧬 q-bio.PE · math.CO

Reciprocal Best Match Graphs

classification 🧬 q-bio.PE math.CO
keywords rbmgsbestreciprocaltimeco-rbmgscographscolorshere
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Reciprocal best matches play an important role in numerous applications in computational biology, in particular as the basis of many widely used tools for orthology assessment. Nevertheless, very little is known about their mathematical structure. Here, we investigate the structure of reciprocal best match graphs (RBMGs). In order to abstract from the details of measuring distances, we define reciprocal best matches here as pairwise most closely related leaves in a gene tree, arguing that conceptually this is the notion that is pragmatically approximated by distance- or similarity-based heuristics. We start by showing that a graph $G$ is an RBMG if and only if its quotient graph w.r.t.\ a certain thinness relation is an RBMG. Furthermore, it is necessary and sufficient that all connected components of $G$ are RBMGs. The main result of this contribution is a complete characterization of RBMGs with 3 colors/species that can be checked in polynomial time. For 3 colors, there are three distinct classes of trees that are related to the structure of the phylogenetic trees explaining them. We derive an approach to recognize RBMGs with an arbitrary number of colors; it remains open however, whether a polynomial-time for RBMG recognition exists. In addition, we show that RBMGs that at the same time are cographs (co-RBMGs) can be recognized in polynomial time. Co-RBMGs are characterized in terms of hierarchically colored cographs, a particular class of vertex colored cographs that is introduced here. The (least resolved) trees that explain co-RBMGs can be constructed in polynomial time.

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Cited by 2 Pith papers

Reviewed papers in the Pith corpus that reference this work. Sorted by Pith novelty score.

  1. Complexity of Modification Problems for Reciprocal Best Match Graphs

    cs.CC 2019-07 unverdicted novelty 6.0

    Deletion and editing to RBMGs are NP-hard; 2-colored editing is FPT via bicluster editing reduction; modification to hierarchically colored cographs is NP-complete.

  2. Hierarchical Colorings of Cographs

    math.CO 2019-06 unverdicted novelty 5.0

    Greedy colorings are a special case of hierarchical colorings in cographs, both using no more than χ(G) colors.