Pairwise compatibility graph

In graph theory, a graph ${\displaystyle G}$ is a pairwise compatibility graph (PCG) if there exists a tree ${\displaystyle T}$ and two non-negative real numbers ${\displaystyle d_{min}<d_{max}}$ such that each node ${\displaystyle u'}$ of ${\displaystyle G}$ has a one-to-one mapping with a leaf node ${\displaystyle u}$ of ${\displaystyle T}$ such that two nodes ${\displaystyle u'}$ and ${\displaystyle v'}$ are adjacent in ${\displaystyle G}$ if and only if the distance between ${\displaystyle u}$ and ${\displaystyle v}$ are in the interval ${\displaystyle [d_{min},d_{max}]}$.^[1]

Graph (b) that is pairwise compatibility graphs of the trees (a) and (c)

Graphs that are not pairwise compatibility graphs

The subclasses of PCG include graphs of at most seven vertices, cycles, forests, complete graphs, interval graphs and ladder graphs.^[1] However, there is a graph with eight vertices that is known not to be a PCG.^[2]

Relationship to phylogenetics

Pairwise compatibility graphs were first introduced by Paul Kearney, J. Ian Munro and Derek Phillips in the context of phylogeny reconstruction. When sampling from a phylogenetic tree, the task of finding nodes whose path distance lies between given lengths ${\displaystyle d_{min}<d_{max}}$  is equivalent to finding a clique in the associated PCG.^[3]

Complexity

The computational complexity of recognizing a graph as a PCG is unknown as of 2020.^[1] However, the related problem of finding for a graph ${\displaystyle G}$  and a selection of non-edge relations ${\displaystyle S}$  a PCG containing ${\displaystyle G}$  as a subgraph and with none of the edges in ${\displaystyle S}$  is known to be NP-hard.^[2]

The task of finding nodes in a tree whose paths distance lies between ${\displaystyle d_{min}}$  and ${\displaystyle d_{max}}$  is known to be solvable in polynomial time. Therefore, if the tree could be recovered from a PCG in polynomial time, then the clique problem on PCGs would be polynomial too. As of 2020, neither of these complexities is known.^[1]

References

1. Rahman, Md Saidur; Ahmed, Shareef (2020). "A survey on pairwise compatibility graphs". AKCE International Journal of Graphs and Combinatorics. 17 (3): 788–795. doi:10.1016/j.akcej.2019.12.011. S2CID 225708614.   This article incorporates text available under the CC BY 4.0 license.
2. Durocher, Stephane; Mondal, Debajyoti; Rahman, Md. Saidur (2015). "On graphs that are not PCGs". Theoretical Computer Science. 571: 78–87. doi:10.1016/j.tcs.2015.01.011. ISSN 0304-3975. S2CID 17290164.
3. Kearney, Paul; Munro, J. Ian; Phillips, Derek (2003), Efficient Generation of Uniform Samples from Phylogenetic Trees, Lecture Notes in Computer Science, vol. 2812, Berlin, Heidelberg: Springer Berlin Heidelberg, pp. 177–189, doi:10.1007/978-3-540-39763-2_14, ISBN 978-3-540-20076-5, retrieved 2022-02-13