Evolution and Diversity of Amitochondrial Zooflagellates

. The amitochondrial flagellates comprise the Archamoebae, the Metamonada (orders: Retortamonadida, Diplomonadida, Oxymonadida) and the Parabasala. Molecular rDNA sequence comparison has shown that the diplomonads are very ancient and placed at the base of the tree, but the position of the parabasalids before or after the Euglenozoa and other mitochondriate protists is not definitively determined and such molecular data are required to place the other groups. Common cytological features such as one basal body and a basal body‐nucleus connector show that the mastigamoebids or Archamoebae are an evolutionary lineage. The metamonad grouping is heterogenous; the three orders have in common two pairs of basal bodies, no Golgi and could be poly‐ or paraphyletic. The Parabasala is an evolutionary lineage with a large set of homologous cytological characters. A biochemical study of the cytoskeletal structures such as costa, parabasal fibre, preaxostylar fibre and undulating membrane in trichomonads reveals a large diversity in the protein composition among the genera that fits with the large distance between the taxa estimated by rDNA sequencing. Molecular comparison in seven tnchomonad genera indicates that the Trichomonadinae and Tritrichomonadinae form two divergent branches, the genera Hypotrichomonas and Monocercomonas are now incorporated in the tritrichomonad branch, and Trichomitus is at the bifurcation of the two branches. This scheme is different from the classic tree but not incompatible with it.