Phylotranscriptomics points to multiple independent origins of multicellularity and cellular differentiation in the volvocine algae

Abstract

AbstractThe volvocine algae, which include the single-celled speciesChlamydomonas reinhardtiiand the colonial speciesVolvox carteri, serve as a model in which to study the evolution of multicellularity and cellular differentiation. Studies reconstructing the evolutionary history of this group have often relied on datasets of one to a few genes for phylogenetic inference and ancestral character state reconstruction. These studies suggest that multicellularity evolved only once in the volvocine algae, that each of its three colonial families is monophyletic, and that there have been at least three independent origins of cellular differentiation in the group. We performed RNA-Seq on 55 strains representing 47 volvocine algal species and obtained similar data from curated databases on 13 additional strains. We compiled a dataset consisting of transcripts for 40 single-copy, protein-coding, nuclear genes, then subjected the predicted amino acid sequences of these genes to maximum likelihood, Bayesian inference, and coalescent-based analyses. These analyses show that multicellularity independently evolved at least twice in the volvocine algae and that the colonial family Goniaceae is not monophyletic. Our data further indicate that cellular differentiation independently arose at least four and possibly as many as six times within the group. Altogether, these results show how multicellularity and cellular differentiation are evolutionarily labile in the volvocine algae, affirming their importance for the study of major transitions in the history of life.