2007
DOI: 10.1093/molbev/msm096
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Evidence for a Gram-positive, Eubacterial Root of the Tree of Life

Abstract: Directed indels, insertions, and deletions within paralogous genes, have the potential to root the tree of life. Here we apply a newly developed rooting algorithm, top-down rooting, to indels found in informational and operational gene sets, introduce new computational tools for indel analyses, and present evidence (P < .01) that the root of the tree of life is not present in its traditional location, between the Eubacteria and the Archaebacteria. Using indels contained in the dihydroorotate dehydrogenase/urop… Show more

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Cited by 50 publications
(49 citation statements)
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“…These results imply that the mitochondrion was acquired before the radiation of known eukaryotes; therefore, the observation that the mitochondrion descends from an endosymbiotic member of the alphaproteobacteria 64,88 provides strong evidence that the origin of eukaryotes postdates the origin of that bacterial group 2,89 . A relatively late origin of eukaryotes compared to Bacteria is consistent with the best evidence from the geological record and with either the three-domains or eocyte tree rooted on the bacterial stem or within the Bacteria [5][6][7][8][9][10][11] . Moreover, if all eukaryotes have both mitochondria and a nucleus, then we can no longer be sure which structure arose first during evolution: in other words, the host cell that acquired the mitochondrion need not have already possessed a nucleus.…”
Section: The Origin Of Eukaryotes In Light Of Other Datasupporting
confidence: 69%
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“…These results imply that the mitochondrion was acquired before the radiation of known eukaryotes; therefore, the observation that the mitochondrion descends from an endosymbiotic member of the alphaproteobacteria 64,88 provides strong evidence that the origin of eukaryotes postdates the origin of that bacterial group 2,89 . A relatively late origin of eukaryotes compared to Bacteria is consistent with the best evidence from the geological record and with either the three-domains or eocyte tree rooted on the bacterial stem or within the Bacteria [5][6][7][8][9][10][11] . Moreover, if all eukaryotes have both mitochondria and a nucleus, then we can no longer be sure which structure arose first during evolution: in other words, the host cell that acquired the mitochondrion need not have already possessed a nucleus.…”
Section: The Origin Of Eukaryotes In Light Of Other Datasupporting
confidence: 69%
“…However, this record is very incomplete and subject to deep and sometimes heated controversy. The first fossil that is indisputably eukaryotic is of a bangiophyte red alga dated to between 1.2 billion and 720 million years ago 75 , but earlier microfossils with a possible eukaryotic origin are found in rocks dated to approximately 1.8 billion depicting the relationships between Archaea and the eukaryotic nuclear lineage, consistent with recent analyses of core genes using new methods [47][48][49] and rooted using the Bacteria as the outgroup [5][6][7][8][9][10][11] . The phylogenetic position of Korarchaeum was not consistently resolved in these different analyses and hence is depicted as part of a polytomy.…”
Section: The Origin Of Eukaryotes In Light Of Other Datasupporting
confidence: 68%
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“…The small indel in PyrD has been polarized using several different outgroups to reach contradictory conclusions that are not mutually compatible [2,5]. The best outgroup is probably HisA, which implies the Gram-negatives and Actinobacteria are derived.…”
Section: The Mreb Hsp70 Indel Is Inconclusivementioning
confidence: 99%