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Title: A Genome Wide Survey of SNP Variation Reveals the Genetic Structure of Sheep Breeds

Author
item KIJAS, JAMES - Commonwealth Scientific And Industrial Research Organisation (CSIRO)
item TOWNLEY, DAVID - Commonwealth Scientific And Industrial Research Organisation (CSIRO)
item DALRYMPLE, BRIAN - Commonwealth Scientific And Industrial Research Organisation (CSIRO)
item Heaton, Michael - Mike
item MADDOX, JILLIAN - University Of Melbourne
item MCGRATH, ANNETTE - Australian Genome Research Facility, Ltd (AGRF)
item WILSON, PETER - Australian Genome Research Facility, Ltd (AGRF)
item INGERSOLL, ROXANN - Johns Hopkins University
item MCCULLOCH, RUSSELL - Commonwealth Scientific And Industrial Research Organisation (CSIRO)
item MCWILLIAM, SEAN - Commonwealth Scientific And Industrial Research Organisation (CSIRO)
item TANG, DAVE - Commonwealth Scientific And Industrial Research Organisation (CSIRO)
item MCEWAN, JOHN - Agresearch
item COCKETT, NOELLE - Utah State University
item ODDY, V - University Of New England
item NICHOLAS, FRANK - University Of Sydney
item RAADSMA, HERMAN - University Of Sydney

Submitted to: PLOS ONE
Publication Type: Peer Reviewed Journal
Publication Acceptance Date: 1/29/2009
Publication Date: 3/3/2009
Citation: Kijas, J.W., Townley, D., Dalrymple, B.P., Heaton, M.P., Maddox, J.F., McGrath, A., Wilson, P., Ingersoll, R.G., McCulloch, R., McWilliam, S., Tang, D., McEwan, J., Cockett, N., Oddy, V.H., Nicholas, F.W., Raadsma, H. 2009. A Genome Wide Survey of SNP Variation Reveals the Genetic Structure of Sheep Breeds. PLoS One [serial online]. 4(3):e4668. Available: http://www.plosone.org.

Interpretive Summary: The genetic structure of sheep reflects their domestication and subsequent formation into discrete breeds. Understanding genetic structure is essential for achieving genetic improvement through genome-wide association studies, genomic selection and the dissection of quantitative traits. After identifying the first genome-wide set of SNP for sheep, we report on levels of genetic variability both within and between a diverse sample of ovine populations. Then, using cluster analysis and the partitioning of genetic variation, we demonstrate sheep are characterised by weak phylogeographic structure, overlapping genetic similarity and generally low differentiation which is consistent with their short evolutionary history. The degree of population substructure was, however, sufficient to cluster individuals based on geographic origin and known breed history. Specifically, African and Asian populations clustered separately from breeds of European origin sampled from Australia, New Zealand, Europe and North America. Furthermore, we demonstrate the presence of stratification within some, but not all, ovine breeds. The results emphasize that careful documentation of genetic structure will be an essential prerequisite when mapping the genetic basis of complex traits. Furthermore, the identification of a subset of SNP able to assign individuals into broad groupings demonstrates even a small panel of markers may be suitable for applications such as traceability.

Technical Abstract: The genetic structure of sheep reflects their domestication and subsequent formation into discrete breeds. Understanding genetic structure is essential for achieving genetic improvement through genome-wide association studies, genomic selection and the dissection of quantitative traits. After identifying the first genome-wide set of SNP for sheep, we report on levels of genetic variability both within and between a diverse sample of ovine populations. Then, using cluster analysis and the partitioning of genetic variation, we demonstrate sheep are characterised by weak phylogeographic structure, overlapping genetic similarity and generally low differentiation which is consistent with their short evolutionary history. The degree of population substructure was, however, sufficient to cluster individuals based on geographic origin and known breed history. Specifically, African and Asian populations clustered separately from breeds of European origin sampled from Australia, New Zealand, Europe and North America. Furthermore, we demonstrate the presence of stratification within some, but not all, ovine breeds. The results emphasize that careful documentation of genetic structure will be an essential prerequisite when mapping the genetic basis of complex traits. Furthermore, the identification of a subset of SNP able to assign individuals into broad groupings demonstrates even a small panel of markers may be suitable for applications such as traceability.