Czech J. Anim. Sci., 2009, 54(3):101-111 | DOI: 10.17221/1678-CJAS

Mitochondrial D-loop sequence variation among autochthonous horse breeds in Croatia

A. Ivanković1, J. Ramljak1, M. Konjačić1, N. Kelava1, P. Dovč2, P. Mijić3
1 Department of Animal Production and Technology, Agricultural Faculty, University of Zagreb, Zagreb, Croatia
2 Department of Animal Science, Biotechnical Faculty, University of Ljubljana, Domžale, Slovenia
3 Department of Zootechnics, Faculty of Agriculture, Osijek, Croatia

Genetic variation in three Croatian coldblood horse populations was analysed using a sequence analysis of the proximal part (nt 15 498-15 821) of the D-loop region of mtDNA. Twenty unrelated horses were chosen from the Posavina horse and the Croatian Coldblood breeds and fifteen horses from the Murinsulaner horse population. Sequencing of the proximal part of the mtDNA D-loop region revealed 26 polymorphic sites representing thirty haplotypes which were clustered into eight haplogroups. A wide variety of mitochondrial haplotypes of the analysed horse breeds were clustered into eight different haplogroups. Two haplogroups (D and F) were specific to Posavina horse, five haplogroups were shared among the Croatian Coldblood and Murinsulaner horse, the fact that can be explained by selection strategy at the beginning of the 20th century and possible gene flow between the two populations. These results indicate the presence of many ancient maternal lineages with high diversity in mtDNA. The genetic information based on mtDNA typing has a great importance for the future breed conservation strategy, especially for the critically endangered breed such as Murinsulaner horse.

Keywords: mtDNA; genetic diversity; horse; conservation genetics

Published: March 31, 2009  Show citation

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Ivanković A, Ramljak J, Konjačić M, Kelava N, Dovč P, Mijić P. Mitochondrial D-loop sequence variation among autochthonous horse breeds in Croatia. Czech J. Anim. Sci. 2009;54(3):101-111. doi: 10.17221/1678-CJAS.
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    References

    1. BjØrnstad G., RØed K.H. (2002): Evaluation of factors affecting individual assignment precision using microsatellite data from horse breeds and simulated breed crosses. Animal Genetics, 33, 264-270. Go to original source... Go to PubMed...
    2. Bodó I. (1992): The minimum number of preserved populations. In: The management of global animal genetic resources. Food and Agriculture Organisation of the United Nations, Rome, Italy, 91-105.
    3. Cozzi M.C., Strillacci M.G., Valiati P., Bighignoli B., Cancedda M., Zanotti M. (2004): Mitochondrial D-loop sequence variation among Italian horse breeds. Genetics Selection Evolution, 36, 663-672. Go to original source... Go to PubMed...
    4. Dovc P., Kavar T., Sölkner H., Achmann R. (2006): Development of the Lipizzan Horse Breed. Reproduction in Domestic Animals, 41, 280-285. Go to original source... Go to PubMed...
    5. Druml T., Curik I., Baumung R., Aberle K., Distl O., Sölkner J. (2007): Individual-based assessment of population structure and admixture in Austrian, Croatian and German draught horses. Heredity, 98, 114-122. Go to original source... Go to PubMed...
    6. Excoffier L., Laval G., Schneider S. (2005): Arlequin ver. 3.0: An integrated software package for population genetics data analysis. Evolutionary Bioinformatics Online, 1, 47-50. Go to original source...
    7. FAO (2007): The State of the World's Animal Genetic Resources for Food and Agriculture. Commission on Genetic Resources for Food and Agriculture. FAO, Rome, Italy.
    8. Felsenstein J. (1993): PHILIP (Phylogeny Inference Package), Version 3.5c. Department of Genetics, University of Washington, Seattle, USA.
    9. HSC (2008): Croatian Livestock Center, Yearbook, Croatia.
    10. Hill E.W., Bradley D.G., Al-Barody M., Ertugul O., Splan R.K., Zakharov I., Cunningham E.P. (2002): History and integrity of thoroughbred dam lines revealed in equine mtDNA variation. Animal Genetics, 33, 287-294. Go to original source... Go to PubMed...
    11. Ishida N., Hasegawa T., Takeda K., Sakagami M., Onishi A., Inumaru S., Komatsu M., Mukoyama H. (1994): Polymorphic sequence in the D-loop region of equine mitochondrial DNA. Animal Genetics, 25, 215-221. Go to original source... Go to PubMed...
    12. Ishida N., Oyunsuren T., Mashima S., Mukoyama H., Saitou N. (1995): Mitochondrial DNA Sequences of Various Species of the Genus Equus with Special Reference to the Phylogenetic Relationship Between Przewalskii's Wild Horse and Domestic Horse. Journal of Molecular Evolution, 41, 180-188. Go to original source... Go to PubMed...
    13. Ivanković A., Caput P. (2004a): Exterior features of Croatian autochthonous horse breeds. Stočarstvo, 58, 15-36.
    14. Ivanković A., Caput P. (2004b): Genetic polymorphisms blood proteins of the autochthonous horse breeds in Croatia. Stočarstvo, 58, 403-412
    15. Jansen T., Forster P., Levine M.A., Oelke H., Hurles M., Renfrew C., Weber J., Olek K. (2002): Mitochondrial DNA and the origins of the domestic horse. Proceedings of the National Academy of Sciences of USA, 99, 10905-10910. Go to original source... Go to PubMed...
    16. Kavar T., Habe F., Brem G., Dovč P. (1999): Mitochondrial D-loop sequence variation among the 16 maternal lines of the Lipizzan horse breed. Animal Genetics, 30, 423-430. Go to original source... Go to PubMed...
    17. Kim K.I., Yang Y.H., Lee S.S., Park C., Ma R., Bouzat J.L., Lewin H.A. (1999): Phylogenetic relationships of Cheju horses to other horses breeds as determined by mtDNA D-loop sequence polymorphism. Animal Genetics, 30, 102-108. Go to original source... Go to PubMed...
    18. Kimura M. (1980): A simple method for estimating evolutionary rate of base substitution through comparative studies of nucleotide sequences. Journal of Molecular Evolution, 16, 111-120. Go to original source... Go to PubMed...
    19. Kumar S., Tamura K., Nei M. (2004): MEGA3: Integrated software for molecular evolutionary genetics analysis and sequence alignment. Briefings in Bioinformatics, 5, 150-163. Go to original source... Go to PubMed...
    20. Lopes M.S., Mendonça D., Cymbron T., Valera M., daCosta-Ferreira J., daCâmara Machado A. (2005): The Lusitano horse maternal lineage based on mitochondrial D-loop sequence variation. Animal Genetics, 36, 196-202. Go to original source... Go to PubMed...
    21. McGahern A.M., Edwards C.J., Bower M.A., Heffernan A., Park S.D.E., Brophy P.O., Bradley D.G., MacHugh D.E., Hill E.W. (2006): Mitochondrial DNA sequence diversity in extant Irish horse populations and in ancient horses. Animal Genetics, 37, 498-502. Go to original source... Go to PubMed...
    22. MacHugh D.E., Loftus R.T., Cunningham P., Bradley D.G. (1998): Genetic structure of seven European cattle breeds assessed using 20 microsatellite markers. Anmal Genetics, 29, 333-340. Go to original source... Go to PubMed...
    23. Mirol P.M., Peral García P., Vega-Pla J.L., Dulout F.N. (2002): Phylogenetic relationships of Argentinean Creole horses and other South American and Spanish breeds inferred from mitochondrial DNA sequences. Animal Genetics, 33, 356-363. Go to original source... Go to PubMed...
    24. Romić S. (1975): Capacity of growth and production characteristics of the Croatian coldblood horses. Praxis Veterinaria, 2, 87-99.
    25. Royo L.J., Álvarez I., Beja-Pereira A., Molina A., Fernández I., Jordana J., Gómez E., Gutiérrez J.P., Goyache F. (2005): The Origins of Iberian horses assessed via mitochondrial DNA. Journal of Heredity, 96, 663-669. Go to original source... Go to PubMed...
    26. Saitou N., Nei M. (1987): The neighbor-joining method: a new method for reconstructing phylogenetic trees. Molecular Biology and Evolution, 4, 406-425. Go to PubMed...
    27. Slatkin M. (1995): A measure of population subdivision based on microsatellite allele frequencies. Genetics, 139, 457-462. Go to original source... Go to PubMed...
    28. Thompson J.D., Higgins D.G., Gibson T.J. (1994): Clustal W: improving the sensitivity of progressive multiple sequence alignment through sequence weighting, position-specific gap penalties and weight matrix choice. Nucleic Acids Research, 22, 4673-4680. Go to original source... Go to PubMed...
    29. Toro M.A., Barragan C., Ovilo C. (2003): Estimation of genetic variability of the founder population in a conservation scheme using microsatellites. Animal Genetics, 34, 226-228. Go to original source... Go to PubMed...
    30. White P.S., Densmore L.D. (1992): Mitochondrial DNA isolation: Molecular genetic analysis of populations. A practical approach. Oxford University Press. Oxford, UK.
    31. Vil à C., Leonard J.A., Götherström A., Marklund S., Sandberg K., Lidén K., Wayne R.K., Ellegren H. (2001): Widespread origins of domestic horse lineages. Science, 291, 474-477. Go to original source... Go to PubMed...

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