Journal of Animal and Veterinary Advances
Year:
2009
Volume:
8
Issue:
8
Page No.
1609 - 1615
References
Abe, T., J. Saburi, H. Hasebe, T. Nakagawa and T. Kawamura
et al., 2008. Bovine QTL analysis for growth, carcass and meat quality traits in an F
2 population from a cross between Japanese Black and Limousin. J. Anim. Sci., 86: 2821-2832.
CrossRef | PubMed | Direct Link | Alexander, L.J.T.W.G., W.M. Snelling and M.D. Macneil, 2007. Quantitative trait loci with additive effects on growth and carcass traits in a Wagyu-Limousin F
2 population. Amim. Genet., 38: 413-416.
CrossRef | PubMed | Direct Link | Artaza, J.N., S. Bhasin, T.R. Magee, S. Reisz-Rorsasaz and R. Shen
et al., 2005. Myostatin inhibits myogenesis and promotes adipogenesis in C3H 10T(1/2) mesenchymal multipotent cells. Endocrinology, 146: 3547-3557.
CrossRef | PubMed | Direct Link | Casas, E., J.W. Keele, S.D. Shackelford, M. Koohmaraie and T.S. Sonstegard
et al., 1998. Association of the muscle hypertropht locus with carcass traits in beef cattle 1, 2. J. Anim. Sci., 76: 468-473.
PubMed | Casas, E., R.T. Stone, J.W. Keele, S.D. Shackelford, S.M. Kappes and M. Koohmaraie, 2001. A comprehensive search for quantitative trait loci affecting growth and carcass composition of cattle segregating alternative forms of the myostatin gene 1, 2. J. Anim. Sci., 79: 854-860.
PubMed | Direct Link | Derynck, R., J.A. Jarrett, E. Chen, D.H. Eaton and J.R. Bell
et al., 1985. Human transforming growth factor-β complementary DNA sequence and expression in normal and transformed cells. Nature, 316: 701-705.
PubMed | Dunner, S., M.E. Miranda, Y. Amigues, J. Canon and M. Georges
et al., 2003. Haplotype diversity of the myostatin gene among beef cattle breeds. Genet. Sel. Evol., 35: 103-118.
CrossRef | PubMed | Feldman, B.J., R.S. Streeper, R.V. Jr. Farese and K.R. Yamamoto, 2006. Myostatin modulates adipogenesis to generagte adipocytes with favorable metabolic effect. Proc. Nat. Acad. Sci. USA., 103: 15675-15680.
CrossRef | PubMed | Direct Link | Grobet, L., D. Poncelet, L.J. Royo, B. Brouers and D. Pirottin
et al., 1998. Molecular definition of an allelic series of mutations disrupting the myostatin function and causing double-muscling in cattle. Mamm. Genome, 9: 210-213.
PubMed | Direct Link | Grobet, L., L.J.R. Martin, D. Poncelet, D. Pirottin and B. Brouwers
et al., 1997. A deletion in the bovine myostatin gene causes the double-muscled phenotype in cattle. Nat. Genet., 17: 71-74.
CrossRef | PubMed | Direct Link | Hanset, R., J.B.W. King and J.D. McKay, 1982. Muscular hypertrophy as a racial characteristic: The case of the belgian blue breed. Curr. Topics Vet. Med. Anim. Sci., 16: 437-449.
Hocquette, J.F., P. Bas, D. Bauchart, M. Vermorel and Y. Geay, 1999. Fat partitioning and biochemical characteristics of fatty tissues in relation to plasma metabolites and hormones in normal and double-muscled young growing bulls. Comp. Biochem. Physiol., Part A Mol. Integr. Physiol., 122: 127-138.
CrossRef | PubMed | Kambadur, R., M. Sharma, T.P.L. Smith and J.J. Bass, 1997. Mutations in
Myostatin (
GDF8) in double-muscled belgian blue and piedmontese cattle. Genome Res., 7: 910-915.
PubMed | Direct Link | Lee, S.J. and A.C. McPherron, 2001. Regulation of myostatin activity and muscle growth. Proc. Natl. Acad. Sci. USA., 98: 9306-9311.
CrossRef | PubMed | Direct Link | McPherron, A.C. and S.J. Lee, 1997. Double muscling in cattle due to mutations in the myostatin gene. Proc. Nat. Acad. Sci. USA., 94: 12457-12461.
PubMed | Direct Link | McPherron, A.C., A.M. Lawler and S.J. Lee, 1997. Regulation of skeletal muscle mass in mice by a new TGF-β superfamily member. Nature, 387: 83-90.
CrossRef | PubMed | Direct Link | Namikawa, K., 1992. Breeding History of Japanese Beef Cattle and Preservation of Genetic Resources as Economic Farm Animals: Wagyu. 2nd Edn., Wagyu Registry Association, Kyoto, Japan.
Rebbapragada, A., H. Benchabane, J.L. Wrana, A.J. Celestle and L. Attisano, 2003. Myostatin signals through a transforming growth factor β-like signaling pathway to block adipogenesis. Mol. Cell. Biol., 23: 7230-7242.
CrossRef | PubMed | Sellick, G.S., W.S. Pitchford, C.A. Morris, N.G. Cullen, A.M. Crawford, H.W. Raadsma and C.D. Bottema, 2007. Effect of myostatin F94L on carcass yield in cattle. Anim. Genet., 38: 440-446.
CrossRef | PubMed | Thies, R.S., T. Chen, M.V. Davies, K.N. Tomkinson, A.A. Pearson, Q.A. Shakey and N.M. Wolfman, 2001. GDF-8 propeptide binds to GDF-8 and antagonizes biological activity by inhibiting GDF-8 receptor binding. Growth Factors, 18: 251-259.
PubMed | Thiessen, R.B., W.C. Rollins, B.W. King and F. Mennissier, 1982. A comparison of mormal and heterozugous animals for double-muscling in British breeds of cattle. Curr. Topics Vet. Med. Anim. Sci., 16: 54-55.
Yang, J.Z., T. Ratovitski, J.P. Brady, M.B. Solomon, K.D. Wells and R.J. Wall, 2001. Expression of myostatin pro domain results in muscular transgenic mice. Mol. Reprod. Dev., 60: 351-361.
CrossRef | PubMed | Direct Link |