The tangled web: Gene genealogies and the origin of eukaryotes

Accessing data from the genomes of organisms (individual genes) and analyzing these data using sophisticated alignment and phylogenetic methods led to the expectation that we would be able to paint a clear picture of the evolution of eukaryotes. Previous analyses based on morphology and ultrastructure failed to pinpoint both the sister taxon to eukaryotes and the branching order of eukaryotic lineages. However, the expectation that molecular data would provide resolution has not been met since a growing number of gene genealogies present conflicting hypotheses for the origin and diversification of eukaryotes. Instead of reconstructing a simple bifurcating tree of life, these gene genealogies have generated a complex picture of eukaryotic genomes whereby ancient lateral transfers (of individual genes or perhaps even entire genomes) has tangled the evolutionary history of eukaryotes. Resolution of these conflicting genealogies comes in recognizing that eukaryotes are chimeric, containing genetic information from multiple ancestral lineages.