MOLECULAR EVOLUTION OF EUGLENOZOAN PARAXONEMAL ROD GENES par1 AND par2 COINCIDES WITH PHYLOGENETIC RECONSTRUCTION BASED ON SMALL SUBUNIT rDNA DATA1

Abstract

Emergent flagella of Euglenozoa consist of two prominent structural elements: the axoneme built by microtubules with motor proteins to enable the movement of the flagellum and a highly organized protein structure of unknown function, called the paraxonemal rod (PAR), which consists of two major proteins paralleling the axoneme of euglenid and kinetoplastid emergent flagella. These flagellar structures are considered apomorphic characters of Euglenozoa. We examined the evolution of the genes par1 and par2 encoding the two major proteins, where we could show that these proteins are encoded by two very similar genes found in kinetoplastids and euglenids. The branching pattern indicated a gene duplication before the diversification into euglenids and kinetoplastids. In the clades of the genes, subtrees of euglenid and kinetoplastid monophyla arose. Both genes showed strong genetic diversity with biased GC content at taxon rather than at gene level. We also examined phylogenies inferred from PAR genes that are well in agreement with established small subunit rDNA analyses. Both showed further separation of the euglenid subtree into primary osmotrophs and a phototrophic clade, including secondarily derived osmotrophs.