Resolving the evolution of extant and extinct ruminants with high-throughput phylogenomics

J.E. Decker; C. Pires; G.C. Conant; S.D. McKay; M.P. Heaton; J. Vilkki; C.M. Seabury; A.R. Caetano; G.S. Johnson; R.A. Brenneman; O. Hanotte; L.S. Eggert; P. Wiener; J.J. Kim; K.S. Kim; T.S. Sonstegard; C.P. Van Tassell; H.L. Neibergs; K. Chen; A. Cooper; J.C. McEwan; R. Brauning; L.L. Coutinho; M.E. Babar; G.A. Wilson; M.C. McLure; M.M. Rolf; J.W. Kim; R.D. Schnabel; J.F. Taylor

doi:10.1073/pnas.0904691106

Resolving the evolution of extant and extinct ruminants with high-throughput phylogenomics

J.E. Decker, C. Pires, G.C. Conant, S.D. McKay, M.P. Heaton, J. Vilkki, C.M. Seabury, A.R. Caetano, G.S. Johnson, R.A. Brenneman, O. Hanotte, L.S. Eggert, P. Wiener, J.J. Kim, K.S. Kim, T.S. Sonstegard, C.P. Van Tassell, H.L. Neibergs, K. Chen, A. CooperJ.C. McEwan, R. Brauning, L.L. Coutinho, M.E. Babar, G.A. Wilson, M.C. McLure, M.M. Rolf, J.W. Kim, R.D. Schnabel, J.F. Taylor

Research output: Contribution to journal › Article › peer-review

Abstract

The Pecorans (higher ruminants) are believed to have rapidly speciated in the Mid-Eocene, resulting in five distinct extant families: Antilocapridae, Giraffidae, Moschidae, Cervidae, and Bovidae. Due to the rapid radiation, the Pecoran phylogeny has proven difficult to resolve, and 11 of the 15 possible rooted phylogenies describing ancestral relationships among the Antilocapridae, Giraffidae, Cervidae, and Bovidae have each been argued as representations of the true phylogeny. Here we demonstrate that a genome-wide single nucleotide polymorphism (SNP) genotyping platform designed for one species can be used to genotype ancient DNA from an extinct species and DNA from species diverged up to 29 million years ago and that the produced genotypes can be used to resolve the phylogeny for this rapidly radiated infraorder. We used a high-throughput assay with 54,693 SNP loci developed for Bos taurus taurus to rapidly genotype 678 individuals representing 61 Pecoran species. We produced a highly resolved phylogeny for this diverse group based upon 40,843 genome-wide SNP, which is five times as many informative characters as have previously been analyzed. We also establish a method to amplify and screen genomic information from extinct species, and place Bison priscus within the Bovidae. The quality of genotype calls and the placement of samples within a well-supported phylogeny may provide an important test for validating the fidelity and integrity of ancient samples. Finally, we constructed a phylogenomic network to accurately describe the relationships between 48 cattle breeds and facilitate inferences concerning the history of domestication and breed formation

Original language	English
Pages (from-to)	18644-18649
Number of pages	6
Journal	Proceedings of the National Academy of Sciences (PNAS)
Volume	106
Issue number	44
DOIs	https://doi.org/10.1073/pnas.0904691106
Publication status	Published - Nov 2009

Keywords

cattle domestication high-throughput SNP genotyping pecoran phylogeny Animals Biological Evolution Breeding DNA/analysis/genetics Extinction, Biological Fossils Genomics/ methods Genotype Phylogeny Ruminants/ genetics

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10.1073/pnas.0904691106

Resolving the evolution of extant and extinct ruminants with high-throughput phylogenomics
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http://www.pnas.org/content/106/44/18644

Cite this

Decker, J. E., Pires, C., Conant, G. C., McKay, S. D., Heaton, M. P., Vilkki, J., Seabury, C. M., Caetano, A. R., Johnson, G. S., Brenneman, R. A., Hanotte, O., Eggert, L. S., Wiener, P., Kim, J. J., Kim, K. S., Sonstegard, T. S., Van Tassell, C. P., Neibergs, H. L., Chen, K., ... Taylor, J. F. (2009). Resolving the evolution of extant and extinct ruminants with high-throughput phylogenomics. Proceedings of the National Academy of Sciences (PNAS), 106(44), 18644-18649. https://doi.org/10.1073/pnas.0904691106

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title = "Resolving the evolution of extant and extinct ruminants with high-throughput phylogenomics",

abstract = "The Pecorans (higher ruminants) are believed to have rapidly speciated in the Mid-Eocene, resulting in five distinct extant families: Antilocapridae, Giraffidae, Moschidae, Cervidae, and Bovidae. Due to the rapid radiation, the Pecoran phylogeny has proven difficult to resolve, and 11 of the 15 possible rooted phylogenies describing ancestral relationships among the Antilocapridae, Giraffidae, Cervidae, and Bovidae have each been argued as representations of the true phylogeny. Here we demonstrate that a genome-wide single nucleotide polymorphism (SNP) genotyping platform designed for one species can be used to genotype ancient DNA from an extinct species and DNA from species diverged up to 29 million years ago and that the produced genotypes can be used to resolve the phylogeny for this rapidly radiated infraorder. We used a high-throughput assay with 54,693 SNP loci developed for Bos taurus taurus to rapidly genotype 678 individuals representing 61 Pecoran species. We produced a highly resolved phylogeny for this diverse group based upon 40,843 genome-wide SNP, which is five times as many informative characters as have previously been analyzed. We also establish a method to amplify and screen genomic information from extinct species, and place Bison priscus within the Bovidae. The quality of genotype calls and the placement of samples within a well-supported phylogeny may provide an important test for validating the fidelity and integrity of ancient samples. Finally, we constructed a phylogenomic network to accurately describe the relationships between 48 cattle breeds and facilitate inferences concerning the history of domestication and breed formation",

keywords = "cattle domestication high-throughput SNP genotyping pecoran phylogeny Animals Biological Evolution Breeding DNA/analysis/genetics Extinction, Biological Fossils Genomics/ methods Genotype Phylogeny Ruminants/ genetics",

author = "J.E. Decker and C. Pires and G.C. Conant and S.D. McKay and M.P. Heaton and J. Vilkki and C.M. Seabury and A.R. Caetano and G.S. Johnson and R.A. Brenneman and O. Hanotte and L.S. Eggert and P. Wiener and J.J. Kim and K.S. Kim and T.S. Sonstegard and {Van Tassell}, C.P. and H.L. Neibergs and K. Chen and A. Cooper and J.C. McEwan and R. Brauning and L.L. Coutinho and M.E. Babar and G.A. Wilson and M.C. McLure and M.M. Rolf and J.W. Kim and R.D. Schnabel and J.F. Taylor",

note = "Refereed. Published (s4454) Prog. 1 Proj. Author allocation: 4;4;4;4;4;4;4;4;4;4;4;4;1;4;4;4;4;4;4;4;4;4;4;4;4;4;4;4;4;4",

year = "2009",

month = nov,

doi = "10.1073/pnas.0904691106",

language = "English",

volume = "106",

pages = "18644--18649",

journal = "Proceedings of the National Academy of Sciences (PNAS)",

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Decker, JE, Pires, C, Conant, GC, McKay, SD, Heaton, MP, Vilkki, J, Seabury, CM, Caetano, AR, Johnson, GS, Brenneman, RA, Hanotte, O, Eggert, LS, Wiener, P, Kim, JJ, Kim, KS, Sonstegard, TS, Van Tassell, CP, Neibergs, HL, Chen, K, Cooper, A, McEwan, JC, Brauning, R, Coutinho, LL, Babar, ME, Wilson, GA, McLure, MC, Rolf, MM, Kim, JW, Schnabel, RD & Taylor, JF 2009, 'Resolving the evolution of extant and extinct ruminants with high-throughput phylogenomics', Proceedings of the National Academy of Sciences (PNAS), vol. 106, no. 44, pp. 18644-18649. https://doi.org/10.1073/pnas.0904691106

TY - JOUR

T1 - Resolving the evolution of extant and extinct ruminants with high-throughput phylogenomics

AU - Decker, J.E.

AU - Pires, C.

AU - Conant, G.C.

AU - McKay, S.D.

AU - Heaton, M.P.

AU - Vilkki, J.

AU - Seabury, C.M.

AU - Caetano, A.R.

AU - Johnson, G.S.

AU - Brenneman, R.A.

AU - Hanotte, O.

AU - Eggert, L.S.

AU - Wiener, P.

AU - Kim, J.J.

AU - Kim, K.S.

AU - Sonstegard, T.S.

AU - Van Tassell, C.P.

AU - Neibergs, H.L.

AU - Chen, K.

AU - Cooper, A.

AU - McEwan, J.C.

AU - Brauning, R.

AU - Coutinho, L.L.

AU - Babar, M.E.

AU - Wilson, G.A.

AU - McLure, M.C.

AU - Rolf, M.M.

AU - Kim, J.W.

AU - Schnabel, R.D.

AU - Taylor, J.F.

N1 - Refereed. Published (s4454) Prog. 1 Proj. Author allocation: 4;4;4;4;4;4;4;4;4;4;4;4;1;4;4;4;4;4;4;4;4;4;4;4;4;4;4;4;4;4

PY - 2009/11

Y1 - 2009/11

N2 - The Pecorans (higher ruminants) are believed to have rapidly speciated in the Mid-Eocene, resulting in five distinct extant families: Antilocapridae, Giraffidae, Moschidae, Cervidae, and Bovidae. Due to the rapid radiation, the Pecoran phylogeny has proven difficult to resolve, and 11 of the 15 possible rooted phylogenies describing ancestral relationships among the Antilocapridae, Giraffidae, Cervidae, and Bovidae have each been argued as representations of the true phylogeny. Here we demonstrate that a genome-wide single nucleotide polymorphism (SNP) genotyping platform designed for one species can be used to genotype ancient DNA from an extinct species and DNA from species diverged up to 29 million years ago and that the produced genotypes can be used to resolve the phylogeny for this rapidly radiated infraorder. We used a high-throughput assay with 54,693 SNP loci developed for Bos taurus taurus to rapidly genotype 678 individuals representing 61 Pecoran species. We produced a highly resolved phylogeny for this diverse group based upon 40,843 genome-wide SNP, which is five times as many informative characters as have previously been analyzed. We also establish a method to amplify and screen genomic information from extinct species, and place Bison priscus within the Bovidae. The quality of genotype calls and the placement of samples within a well-supported phylogeny may provide an important test for validating the fidelity and integrity of ancient samples. Finally, we constructed a phylogenomic network to accurately describe the relationships between 48 cattle breeds and facilitate inferences concerning the history of domestication and breed formation

AB - The Pecorans (higher ruminants) are believed to have rapidly speciated in the Mid-Eocene, resulting in five distinct extant families: Antilocapridae, Giraffidae, Moschidae, Cervidae, and Bovidae. Due to the rapid radiation, the Pecoran phylogeny has proven difficult to resolve, and 11 of the 15 possible rooted phylogenies describing ancestral relationships among the Antilocapridae, Giraffidae, Cervidae, and Bovidae have each been argued as representations of the true phylogeny. Here we demonstrate that a genome-wide single nucleotide polymorphism (SNP) genotyping platform designed for one species can be used to genotype ancient DNA from an extinct species and DNA from species diverged up to 29 million years ago and that the produced genotypes can be used to resolve the phylogeny for this rapidly radiated infraorder. We used a high-throughput assay with 54,693 SNP loci developed for Bos taurus taurus to rapidly genotype 678 individuals representing 61 Pecoran species. We produced a highly resolved phylogeny for this diverse group based upon 40,843 genome-wide SNP, which is five times as many informative characters as have previously been analyzed. We also establish a method to amplify and screen genomic information from extinct species, and place Bison priscus within the Bovidae. The quality of genotype calls and the placement of samples within a well-supported phylogeny may provide an important test for validating the fidelity and integrity of ancient samples. Finally, we constructed a phylogenomic network to accurately describe the relationships between 48 cattle breeds and facilitate inferences concerning the history of domestication and breed formation

KW - cattle domestication high-throughput SNP genotyping pecoran phylogeny Animals Biological Evolution Breeding DNA/analysis/genetics Extinction, Biological Fossils Genomics/ methods Genotype Phylogeny Ruminants/ genetics

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U2 - 10.1073/pnas.0904691106

DO - 10.1073/pnas.0904691106

M3 - Article

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SP - 18644

EP - 18649

JO - Proceedings of the National Academy of Sciences (PNAS)

JF - Proceedings of the National Academy of Sciences (PNAS)

SN - 0027-8424

IS - 44

ER -

Resolving the evolution of extant and extinct ruminants with high-throughput phylogenomics

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Resolving the evolution of extant and extinct ruminants with high-throughput phylogenomics

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