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Best Match Graphs

THIS IS A CORRECTED VERSION INCLUDING AN APPENDED CORRIGENDUM. Best match graphs arise naturally as the first processing intermediate in algorithms for orthology detection. Let $T$ be a phylogenetic (gene) tree $T$ and $σ$ an assignment of leaves of $T$ to species. The best match graph $(G,σ)$ is a digraph that contains an arc from $x$ to $y$ if the genes $x$ and $y$ reside in different species and $y$ is one of possibly many (evolutionary) closest relatives of $x$ compared to all other genes contained in the species $σ(y)$. Here, we characterize best match graphs and show that it can be decided in cubic time and quadratic space whether $(G,σ)$ derived from a tree in this manner. If the answer is affirmative, there is a unique least resolved tree that explains $(G,σ)$, which can also be constructed in cubic time.