Choice of species affects phylogenetic stability of deep nodes: an empirical example in Terrabacteria

Abstract: Motivation The promise of higher phylogenetic stability through increased dataset sizes within tree of life (TOL) reconstructions has not been fulfilled. Among the many possible causes are changes in species composition (taxon sampling) that could influence phylogenetic accuracy of the methods by altering the relative weight of the evolutionary histories of each individual species. This effect would be stronger in clades that are represented by few lineages, which is common in many prokaryote… Show more

“…These approaches do not consider the different evolving rates of protein domains and, moreover, of protein domain segments. HGT and orthology determination biases are also common in bacterial phylogenies (Superson et al, 2019). With our proposed approach, we believe that several of these issues may be overcome.…”

Bacterial glycyl tRNA synthetase offers glimpses of ancestral protein topologies

“…These approaches do not consider the different evolving rates of protein domains and, moreover, of protein domain segments. HGT and orthology determination biases are also common in bacterial phylogenies (Superson et al, 2019). With our proposed approach, we believe that several of these issues may be overcome.…”

Bacterial glycyl tRNA synthetase offers glimpses of ancestral protein topologies

Testing Phylogenetic Stability with Variable Taxon Sampling