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References

  • 1
    Falconer, D.S. and Mackay, T.F.C. (1996) Introduction to Quantitative Genetics, 4th edn., Longman, London, England. p 464.
  • 2
    Weir, B.S. (1996) Genetic Data Analysis, Methods for Discrete Genetic Population Data, Sinauer Associates, Sunderland, Massachusetts.
  • 3
    Visscher, P.M., Hill, W.G. and Wray, N.R. (2008) Heritability in the genomics era- concepts and misconceptions. Nat. Rev. Genet. 9, 255-266.
  • 4
    Saastamoinen, M.T. and Barrey, E. (2000) Genetics of conformation, locomotion and physiological traits. In: The Genetics of The Horse, Eds: A.T. Bowling and A. Ruvinsky, CABI Publishing, Wallingford. pp 473-498.
  • 5
    Hill, W.G., Goddard, E. and Visscher, P.M. (2008) Data and theory point to mainly additive genetic variance for complex traits. PLoS Genet. 4, e1000008.
  • 6
    Roff, D.A. (2001) The threshold model as a general purpose normalizing transformation. Heredity 86, 404-411.
  • 7
    Ricard, A., Bruns, E. and Cunningham, E.P. (2000) Genetics of performance traits. In: The Genetics of The Horse, Eds: A.T. Bowling and A. Ruvinsky, CABI Publishing, Wallingford. pp 411-438.
  • 8
    Lykken, S., Olsen, H.F., Dolvik, N.I., Grøndahl, A.M., Røed, K.H. and Klemetsdal, G. (2014) Heritability estimates of tarsocrural osteochondrosis and palmar/plantar first phalanx osteochrondral fragments in Standardbred trotters. Equine Vet. J. 46, 32-37.
  • 9
    Distl, O. (2013) The genetics of equine osteochondrosis. Vet. J. 197, 13-18.
  • 10
    Ellersieck, M.R., Lock, W.E., Vogt, D.W. and Aipperspach, R. (1985) Genetic evaluation of cutting scores in horses. Equine Vet. Sci. 5, 287-289.
  • 11
    Makvandi-Nejad, S., Hoffman, G.E., Allen, J.J., Chu, E., Gu, E., Chandler, A.M., Loredo, A.I., Bellone, R.R., Mezey, J.G., Brooks, S.A. and Sutter, N.B. (2012) Four loci explain 83% of size variation in the horse. PLoS ONE 7, e39929.
  • 12
    Signer-Hasler, H., Flury, C., Haase, B., Burger, D., Simianer, H., Leeb, T. and Rieder, S. (2012) A genome-wide association study reveals loci influencing height and other conformation traits in horses. PLoS ONE 7, e37282.
  • 13
    Tetens, J., Widmann, P., Kühn, C. and Thaller, G. (2013) A genome-wide association study indicates LCORL/NCAPG as a candidate locus for withers height in German Warmblood horses. Anim. Genet. 44, 467-471.
  • 14
    Hill, E.W., McGivney, B.A., Gu, J., Whiston, R. and MacHugh, D.E. (2010) A genome-wide SNP-association study confirms a sequence variant (g.66493737C>T) in the equine myostatin (MSTN) gene as the most powerful predictor of optimum racing distance for Thoroughbred racehorses. BMC Genomics 11, 552.
  • 15
    Binns, M.M., Boehler, D.A. and Lambert, D.H. (2010) Identification of the myostatin locus (MSTN) as having a major effect on optimum racing distance in the Thoroughbred horse in the USA. Anim. Genet. 41, Suppl. 2, 154-158.
  • 16
    Tozaki, T., Miyake, T., Kakoi, H., Gawahara, H., Sugita, S., Hasegawa, T., Ishida, N., Hirota, K. and Nakano, Y. (2010) A genome-wide association study for racing performances in Thoroughbreds clarifies a candidate region near the MSTN gene. Anim. Genet. 41, Suppl. 2, 28-35.
  • 17
    Andersson, L.S., Larhammar, M., Memic, F., Wootz, H., Schwochow, D., Rubin, C.J., Patra, K., Arnason, T., Wellbring, L., Hjälm, G., Imsland, F., Petersen, J.L., McCue, M.E., Mickelson, J.R., Cothran, G., Ahituv, N., Roepstorff, L., Mikko, S., Vallstedt, A., Lindgren, G., Andersson, L. and Kullander, K. (2012) Mutations in DMRT3 affect locomotion in horses and spinal circuit function in mice. Nature 488, 642-646.