Integrated genomic and fossil evidence illuminates life’s early evolution and eukaryote origin

Integrated genomic and fossil evidence illuminates life’s early evolution and eukaryote origin

Establishing a unified timescale for the early evolution of Earth and life is challenging and mired in controversy because of the paucity of fossil evidence, the difficulty of interpreting it and dispute over the deepest branching relationships in the tree of life. Surprisingly, it remains perhaps t...

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Veröffentlicht in:Nature ecology & evolution 2018-10, Vol.2 (10), p.1556-1562
Hauptverfasser: Betts, Holly C., Puttick, Mark N., Clark, James W., Williams, Tom A., Donoghue, Philip C. J., Pisani, Davide
Format: Artikel
Sprache:eng
Schlagworte:
631/181/414
631/181/735
631/181/757
631/326/26/2524
631/326/41/2529
Archaea
Archaea - genetics
Bacteria - genetics
Biological and Physical Anthropology
Biological Evolution
Biomedical and Life Sciences
Bombardment
Cyanobacteria
Ecology
Eukaryota - genetics
Eukaryotes
Evolution
Evolutionary Biology
Fossils
Genome
Life Sciences
Mitochondria
Oxidation
Paleontology
Photosynthesis
Time
Zoology
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Beschreibung
Zusammenfassung:Establishing a unified timescale for the early evolution of Earth and life is challenging and mired in controversy because of the paucity of fossil evidence, the difficulty of interpreting it and dispute over the deepest branching relationships in the tree of life. Surprisingly, it remains perhaps the only episode in the history of life where literal interpretations of the fossil record hold sway, revised with every new discovery and reinterpretation. We derive a timescale of life, combining a reappraisal of the fossil material with new molecular clock analyses. We find the last universal common ancestor of cellular life to have predated the end of late heavy bombardment (>3.9 billion years ago (Ga)). The crown clades of the two primary divisions of life, Eubacteria and Archaebacteria, emerged much later (
ISSN:2397-334X
2397-334X
DOI:10.1038/s41559-018-0644-x