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1 parasite and the earliest branching clade of eukaryota.
2 the other domains of life-Archaebacteria and Eukaryota.
3 one of the most common DNA-binding motifs in Eukaryota.
4 Z homologues from the Bacteria, Archaea, and Eukaryota.
5 nce against transposable elements across the Eukaryota.
6 viruses, bacteria, archae, mitochondria, and eukaryota.
7 ee kingdoms of life: Eubacteria, Archaea and Eukaryota.
8 d DNA break repair in Archaea, Bacteria, and Eukaryota.
9 s the domains of life: Bacteria, Archaea and Eukaryota.
10 thologs for over 1800 genomes, including 226 Eukaryota, 1447 Bacteria, 113 Archaea and 21 Viruses.
11  in the late 1950s, is widely distributed in eukaryota and eubacteria.
12              Their coding genes exist in all eukaryota and in several prokaryota.
13 e major superkingdoms (Bacteria, Archaea and Eukaryota) and documented conserved and specific DBD occ
14 three domains of life (Bacteria, Archaea and Eukaryota), and used phylogenies to polarize amino acid
15 le-proteome FFP trees (i) Archaea, Bacteria, Eukaryota, and a random sequence outgroup are clearly se
16 r phylogenies were introduced after Archaea, Eukaryota, and Bacteria had diverged from one another.
17  regulation for all three divisions of life: Eukaryota, Archaea and Bacteria.
18 tely 99.9% of databased COX I sequences from Eukaryota, Archaea, and Bacteria.
19  one gene supported the tree where Gram+ and Eukaryota define one clade.
20 s supported the one where Gramminus sign and Eukaryota form a clade, and one gene supported the tree
21 three domains of life (Archaea, Bacteria and Eukaryota:Fungi) in soil samples taken from the forest e
22  genes significantly supported the (Archaea, Eukaryota) (Gram+, Gramminus sign) topology, two genes s
23 le proteins of multiple organisms, including Eukaryota, Homo sapiens, Viridiplantae, Gram-positive Ba
24 he common ancestor of Archaea, Bacteria, and Eukaryota, illustrating its essential role in the metabo
25 l protein in a common ancestor of archea and eukaryota, making it a particularly ancient protein stru
26 ly shows high conservation, with examples in eukaryota (plants and eukaryotic algae), archaea, and ba
27  molecules present in the archaea (RadA) and eukaryota (Rad51) are more closely related to each other
28  phylogenetic domains (Archaea, Bacteria and Eukaryota) show that TAP families are mostly taxon-speci
29 in one of the earliest-diverging lineages of Eukaryota, that represented by the parasitic protist Tri
30 ains are widespread in archaea, bacteria and eukaryota, the mechanism of signal transduction has been
31 tree of life, covering Bacteria, Archaea and Eukaryota, we review TF abundance with respect to the nu

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