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Histiona
Multigene Eukaryote Phylogeny Reveals the Likely Protozoan Ancestors of Opis- Thokonts (Animals, Fungi, Choanozoans) and Amoebozoa
Protist Phylogeny and the High-Level Classification of Protozoa
The Revised Classification of Eukaryotes
Mitochondrial DNA
Mitocogs: Clusters of Orthologous Genes from Mitochondria and Implications for the Evolution of Eukaryotes Sivakumar Kannan, Igor B Rogozin and Eugene V Koonin*
Phylogenomic Analyses Support the Monophyly of Excavata and Resolve Relationships Among Eukaryotic ‘‘Supergroups’’
Systema Naturae. the Classification of Living Organisms
Ophirina Amphinema N. Gen., N. Sp., a New Deeply Branching Discobid
Multi-Gene Phylogenetic Analysis of the Supergroup Excavata
The Revised Classification of Eukaryotes
Kingdom Chromista and Its Eight Phyla: a New Synthesis Emphasising Periplastid Protein Targeting, Cytoskeletal and Periplastid Evolution, and Ancient Divergences
Supplementary Information for New Organelles
Ja Iitf 2005 Adl001.Pdf
Missing Genes, Multiple Orfs, and C-To-U Type RNA Editing in Acrasis Kona (Heterolobosea, Excavata) Mitochondrial DNA
Oxymonads Are Closely Related to the Excavate Taxon Trimastix
Supplementary Data for Dating Alphaproteobacteria Evolution With
Evidence for the Heterolobosea from Phylogenetic Analysis of Genes Encoding Glyceraldehyde-3-Phosphate Dehydrogenase
Multigene Phylogeny Resolves Deep Branching of Amoebozoa
Top View
Distribution and Phylogeny of EFL and EF-1A in Euglenozoa Suggest Ancestral Co-Occurrence Followed by Differential Loss
Revisions to the Classification, Nomenclature, and Diversity of Eukaryotes
Phylogenomic Analyses Support the Monophyly of Excavata and Resolve Relationships Among Eukaryotic ‘‘Supergroups’’
Figure S1. Phylogenomic Reconstruction Of
Molecular Evolution of the Eukaryotic Translation Elongation Factor, Efl
Jeu12691 Am.Pdf