Author
Listed:
- Enrico Cappellini
(University of Copenhagen
University of Copenhagen)
- Frido Welker
(University of Copenhagen
Max Planck Institute for Evolutionary Anthropology)
- Luca Pandolfi
(Università degli Studi di Firenze)
- Jazmín Ramos-Madrigal
(University of Copenhagen)
- Diana Samodova
(University of Copenhagen)
- Patrick L. Rüther
(University of Copenhagen)
- Anna K. Fotakis
(University of Copenhagen)
- David Lyon
(University of Copenhagen)
- J. Víctor Moreno-Mayar
(University of Copenhagen)
- Maia Bukhsianidze
(Georgian National Museum)
- Rosa Rakownikow Jersie-Christensen
(University of Copenhagen)
- Meaghan Mackie
(University of Copenhagen
University of Copenhagen)
- Aurélien Ginolhac
(University of Luxembourg)
- Reid Ferring
(University of North Texas)
- Martha Tappen
(University of Minnesota)
- Eleftheria Palkopoulou
(Harvard Medical School)
- Marc R. Dickinson
(University of York)
- Thomas W. Stafford
(Stafford Research)
- Yvonne L. Chan
(Swedish Museum of Natural History)
- Anders Götherström
(Stockholm University)
- Senthilvel K. S. S. Nathan
(Sabah Wildlife Department)
- Peter D. Heintzman
(University of California Santa Cruz
The Arctic University of Norway (UiT))
- Joshua D. Kapp
(University of California Santa Cruz)
- Irina Kirillova
(Ice Age Museum, National Alliance of Shidlovskiy ‘Ice Age’)
- Yoshan Moodley
(University of Venda)
- Jordi Agusti
(Institució Catalana de Recerca i Estudis Avançats (ICREA)
Universitat Rovira i Virgili)
- Ralf-Dietrich Kahlke
(Senckenberg Research Station of Quaternary Palaeontology)
- Gocha Kiladze
(Tbilisi State University)
- Bienvenido Martínez-Navarro
(Institució Catalana de Recerca i Estudis Avançats (ICREA)
Universitat Rovira i Virgili
Universitat Rovira i Virgili)
- Shanlin Liu
(University of Copenhagen
BGI Shenzhen)
- Marcela Sandoval Velasco
(University of Copenhagen)
- Mikkel-Holger S. Sinding
(University of Copenhagen
Greenland Institute of Natural Resources)
- Christian D. Kelstrup
(University of Copenhagen)
- Morten E. Allentoft
(University of Copenhagen)
- Ludovic Orlando
(University of Copenhagen
Université Paul Sabatier)
- Kirsty Penkman
(University of York)
- Beth Shapiro
(University of California Santa Cruz
University of California Santa Cruz)
- Lorenzo Rook
(Università degli Studi di Firenze)
- Love Dalén
(Swedish Museum of Natural History)
- M. Thomas P. Gilbert
(University of Copenhagen
Norwegian University of Science and Technology)
- Jesper V. Olsen
(University of Copenhagen)
- David Lordkipanidze
(Georgian National Museum)
- Eske Willerslev
(University of Copenhagen
University of Cambridge
Wellcome Trust Sanger Institute
University of Southern Denmark)
Abstract
The sequencing of ancient DNA has enabled the reconstruction of speciation, migration and admixture events for extinct taxa1. However, the irreversible post-mortem degradation2 of ancient DNA has so far limited its recovery—outside permafrost areas—to specimens that are not older than approximately 0.5 million years (Myr)3. By contrast, tandem mass spectrometry has enabled the sequencing of approximately 1.5-Myr-old collagen type I4, and suggested the presence of protein residues in fossils of the Cretaceous period5—although with limited phylogenetic use6. In the absence of molecular evidence, the speciation of several extinct species of the Early and Middle Pleistocene epoch remains contentious. Here we address the phylogenetic relationships of the Eurasian Rhinocerotidae of the Pleistocene epoch7–9, using the proteome of dental enamel from a Stephanorhinus tooth that is approximately 1.77-Myr old, recovered from the archaeological site of Dmanisi (South Caucasus, Georgia)10. Molecular phylogenetic analyses place this Stephanorhinus as a sister group to the clade formed by the woolly rhinoceros (Coelodonta antiquitatis) and Merck’s rhinoceros (Stephanorhinus kirchbergensis). We show that Coelodonta evolved from an early Stephanorhinus lineage, and that this latter genus includes at least two distinct evolutionary lines. The genus Stephanorhinus is therefore currently paraphyletic, and its systematic revision is needed. We demonstrate that sequencing the proteome of Early Pleistocene dental enamel overcomes the limitations of phylogenetic inference based on ancient collagen or DNA. Our approach also provides additional information about the sex and taxonomic assignment of other specimens from Dmanisi. Our findings reveal that proteomic investigation of ancient dental enamel—which is the hardest tissue in vertebrates11, and is highly abundant in the fossil record—can push the reconstruction of molecular evolution further back into the Early Pleistocene epoch, beyond the currently known limits of ancient DNA preservation.
Suggested Citation
Enrico Cappellini & Frido Welker & Luca Pandolfi & Jazmín Ramos-Madrigal & Diana Samodova & Patrick L. Rüther & Anna K. Fotakis & David Lyon & J. Víctor Moreno-Mayar & Maia Bukhsianidze & Rosa Rakowni, 2019.
"Early Pleistocene enamel proteome from Dmanisi resolves Stephanorhinus phylogeny,"
Nature, Nature, vol. 574(7776), pages 103-107, October.
Handle:
RePEc:nat:nature:v:574:y:2019:i:7776:d:10.1038_s41586-019-1555-y
DOI: 10.1038/s41586-019-1555-y
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