TY  - JOUR
A1  - Campbell, Kevin L.
A1  - Hofreiter, Michael
T1  - Resurrecting phenotypes from ancient DNA sequences: promises and perspectives
JF  - Canadian journal of zoology = Revue canadienne de zoologie
N2  - Anatomical changes in extinct mammalian lineages over evolutionary time, such as the loss of fingers and teeth and the rapid increase in body size that accompanied the late Miocene dispersal of the progenitors of Steller's sea cows (Hydrodamalis gigas (Zimmermann, 1780)) into North Pacific waters and the convergent development of a thick pelage and accompanying reductions in ear and tail surface area of woolly mammoths (Mammuthus primigenius (Blumenbach, 1799)) and woolly rhinoceros (Coelodonta antiquitatis (Blumenbach, 1799)), are prime examples of adaptive evolution underlying the exploitation of new habitats. It is likely, however, that biochemical specializations adopted during these evolutionary transitions were of similar or even greater biological importance. As these "living" processes do not fossilize, direct information regarding the physiological attributes of extinct species has largely remained beyond the range of scientific inquiry. However, the ability to retrieve genomic sequences from ancient DNA samples, combined with ectopic expression systems, now permit the evolutionary origins and structural and functional properties of authentic prehistoric proteins to be examined in great detail. Exponential technical advances in ancient DNA retrieval, enrichment, and sequencing will soon permit targeted generation of complete genomes from hundreds of extinct species across the last one million years that, in combination with emerging in vitro expression, genome engineering, and cell differentiation techniques, promises to herald an exciting new trajectory of evolutionary research at the interface of biochemistry, genomics, palaeontology, and cell biology.
KW  - paleophysiology
KW  - ancient DNA
KW  - extinct species
KW  - adaptation
KW  - protein structure
Y1  - 2015
U6  - https://doi.org/10.1139/cjz-2014-0337
SN  - 0008-4301
SN  - 1480-3283
VL  - 93
IS  - 9
SP  - 701
EP  - 710
PB  - NRC Research Press
CY  - Ottawa
ER  - 
TY  - JOUR
A1  - Springer, Mark S.
A1  - Signore, Anthony V.
A1  - Paijmans, Johanna L. A.
A1  - Velez-Juarbe, Jorge
A1  - Domning, Daryl P.
A1  - Bauer, Cameron E.
A1  - He, Kai
A1  - Crerar, Lorelei
A1  - Campos, Paula F.
A1  - Murphy, William J.
A1  - Meredith, Robert W.
A1  - Gatesy, John
A1  - Willerslev, Eske
A1  - MacPhee, Ross D. E.
A1  - Hofreiter, Michael
A1  - Campbell, Kevin L.
T1  - Interordinal gene capture, the phylogenetic position of Steller's sea cow based on molecular and morphological data, and the macroevolutionary history of Sirenia
JF  - Molecular phylogenetics and evolution
N2  - The recently extinct (ca. 1768) Steller's sea cow (Hydrodamalis gigas) was a large, edentulous North Pacific sirenian. The phylogenetic affinities of this taxon to other members of this clade, living and extinct, are uncertain based on previous morphological and molecular studies. We employed hybridization capture methods and second generation sequencing technology to obtain >30 kb of exon sequences from 26 nuclear genes for both H. gigas and Dugong dugon. We also obtained complete coding sequences for the tooth-related enamelin (ENAM) gene. Hybridization probes designed using dugong and manatee sequences were both highly effective in retrieving sequences from H. gigas (mean = 98.8% coverage), as were more divergent probes for regions of ENAM (99.0% coverage) that were designed exclusively from a proboscidean (African elephant) and a hyracoid (Cape hyrax). New sequences were combined with available sequences for representatives of all other afrotherian orders. We also expanded a previously published morphological matrix for living and fossil Sirenia by adding both new taxa and nine new postcranial characters. Maximum likelihood and parsimony analyses of the molecular data provide robust support for an association of H. gigas and D. dugon to the exclusion of living trichechids (manatees). Parsimony analyses of the morphological data also support the inclusion of H. gigas in Dugongidae with D. dugon and fossil dugongids. Timetree analyses based on calibration density approaches with hard- and soft-bounded constraints suggest that H. gigas and D. dugon diverged in the Oligocene and that crown sirenians last shared a common ancestor in the Eocene. The coding sequence for the ENAM gene in H. gigas does not contain frameshift mutations or stop codons, but there is a transversion mutation (AG to CG) in the acceptor splice site of intron 2. This disruption in the edentulous Steller's sea cow is consistent with previous studies that have documented inactivating mutations in tooth-specific loci of a variety of edentulous and enamelless vertebrates including birds, turtles, aardvarks, pangolins, xenarthrans, and baleen whales. Further, branch-site dN/dS analyses provide evidence for positive selection in ENAM on the stem dugongid branch where extensive tooth reduction occurred, followed by neutral evolution on the Hydrodamalis branch. Finally, we present a synthetic evolutionary tree for living and fossil sirenians showing several key innovations in the history of this clade including character state changes that parallel those that occurred in the evolutionary history of cetaceans. (C) 2015 Elsevier Inc. All rights reserved.
Y1  - 2015
U6  - https://doi.org/10.1016/j.ympev.2015.05.022
SN  - 1055-7903
SN  - 1095-9513
VL  - 91
SP  - 178
EP  - 193
PB  - Elsevier
CY  - San Diego
ER  -