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Preprints, Working Papers, ... Year : 2022

Nucleotide Usage Biases Distort Inferences of the Species Tree

Rui Borges
  • Function : Author
Bastien Boussau
Gergely Szöllősi
  • Function : Author
Carolin Kosiol
  • Function : Author


Abstract Despite the importance of natural selection in species’ evolutionary history, phylogenetic methods that take into account population-level processes typically ignore selection. The assumption of neutrality is often based on the idea that selection occurs at a minority of loci in the genome and is unlikely to compromise phylogenetic inferences significantly. However, genome-wide processes like GC-bias and some variation segregating at the coding regions are known to evolve in the nearly neutral range. As we are now using genome-wide data to estimate species trees, it is natural to ask whether weak but pervasive selection is likely to blur species tree inferences. We developed a polymorphism-aware phylogenetic model tailored for measuring signatures of nucleotide usage biases to test the impact of selection in the species tree. Our analyses indicate that although the inferred relationships among species are not significantly compromised, the genetic distances are systematically underestimated in a node-height-dependent manner: that is, the deeper nodes tend to be more underestimated than the shallow ones. Such biases have implications for molecular dating. We dated the evolutionary history of 30 worldwide fruit fly populations, and we found signatures of GC-bias considerably affecting the estimated divergence times (up to 23%) in the neutral model. Our findings call for the need to account for selection when quantifying divergence or dating species evolution.

Dates and versions

hal-03861316 , version 1 (19-11-2022)



Rui Borges, Bastien Boussau, Gergely Szöllősi, Carolin Kosiol. Nucleotide Usage Biases Distort Inferences of the Species Tree. 2022. ⟨hal-03861316⟩
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