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On symmetries in phylogenetic trees

Published 24 Feb 2016 in math.CO | (1602.07432v2)

Abstract: Billey et al. [arXiv:1507.04976] have recently discovered a surprisingly simple formula for the number $a_n(\sigma)$ of leaf-labelled rooted non-embedded binary trees (also known as phylogenetic trees) with $n\geq 1$ leaves, fixed (for the relabelling action) by a given permutation $\sigma\in\frak{S}n$. Denoting by $\lambda\vdash n$ the integer partition giving the sizes of the cycles of $\sigma$ in non-increasing order, they show by a guessing/checking approach that if $\lambda$ is a binary partition (it is known that $a_n(\sigma)=0$ otherwise), then $$ a_n(\sigma)=\prod{i=2}{\ell(\lambda)}(2(\lambda_i+\cdots+\lambda_{\ell(\lambda)})-1), $$ and they derive from it a formula and random generation procedure for tanglegrams (and more generally for tangled chains). Our main result is a combinatorial proof of the formula, which yields a simplification of the random sampler for tangled chains.

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