Meat tenderness genetic polymorphisms occurrence and distribution in five Zebu breeds in Mexico
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Rischkowsky, 2007
Hansen, 2004, Physiological and cellular adaptations of Zebu cattle to thermal stress, Anim Reprod Sci, 82-83, 349, 10.1016/j.anireprosci.2004.04.011
Koohmaraie, 1996, Biochemical factors regulating the toughening and tenderization process of meat, Meat Sci, 43, 193, 10.1016/0309-1740(96)00065-4
Rubensam, 1998, Influência do genotipo Bos indicus na actividade de calpastatina e na textura da carne de novilhos abatidos no sul do Brasil, Food Sci Technol, 18, 2, 10.1590/S0101-20611998000400009
Delgado, 2005, Composition and quality of Mexican and imported retail beef in Mexico, Meat Sci, 69, 465, 10.1016/j.meatsci.2004.10.003
Page, 2004, Association of markers in the bovine CAPN1 gene with meat tenderness in large crossbred populations that sample influential industry sires, J Anim Sci, 82, 3474, 10.2527/2004.82123474x
White, 2005, A new single nucleotide polymorphism in CAPN1 extends the current tenderness marker test to include cattle of Bos indicus, Bos taurus, and crossbred descent, J Anim Sci, 83, 2001, 10.2527/2005.8392001x
Van Eenennaam, 2007, Validation of commercial DNA tests for quantitative beef quality traits, J Anim Sci, 85, 891, 10.2527/jas.2006-512
Curi, 2009, Effect of single nucleotide polymorphisms of CAPN1 and CAST genes on meat traits in Nellore beef cattle (Bos indicus) and in their crosses with Bos taurus, Anim Genet, 40, 456, 10.1111/j.1365-2052.2009.01859.x
Smith, 2009, Single nucleotide polymorphisms in Brahman steers and their association with carcass and tenderness traits, Genet Mol Res, 8, 39, 10.4238/vol8-1gmr537
Pinto, 2010, Association of SNPs on CAPN 1 and CAST genes with tenderness in Nellore cattle, Genet Mol Res, 9, 1431, 10.4238/vol9-3gmr881
Tait, 2014, CAPN1, CAST, and DGAT1 genetic effects on preweaning performance, carcass quality traits, and residual variance of tenderness in a beef cattle population selected for haplotype and allele equalization, J Anim Sci, 92, 5382, 10.2527/jas.2014-8211
Tait, 2014, μ-Calpain, Calpastatin, and growth hormone receptor genetic effects on preweaning performance, carcass quality traits, and residual variance of tenderness in Angus cattle selected to increase minor haplotype and allele frequencies, J Anim Sci, 92, 456, 10.2527/jas.2013-7075
Allan, 2008, Present and future applications of DNA technologies to improve beef production, Meat Sci, 80, 79, 10.1016/j.meatsci.2008.05.023
Parra-Bracamonte, 2007, Polimorfismo en el gen de la μ-calpaína en ganado Brahman de registro de México, Arch Latinoam Prod Anim, 15, 33
Casas, 2006, Effects of Calpastatin and μ-calpain markers in beef cattle on tenderness traits, J Anim Sci, 84, 520, 10.2527/2006.843520x
Rousset, 2008, Genepop'007: A complete reimplementation of the Genepop software for Windows and Linux, Mol Ecol Resour, 8, 103, 10.1111/j.1471-8286.2007.01931.x
McDowell, 1996, Economic viability of crosses of Bos taurus and Bos indicus for dairying in warm climates, J Dairy Sci, 79, 1292, 10.3168/jds.S0022-0302(96)76484-6
Dekkers, 2002, Multifactorial genetics: The use of molecular genetics in the improvement of agricultural populations, Nat Rev Genet, 3, 22, 10.1038/nrg701
Garrick, 2011, The nature, scope and impact of genomic prediction in beef cattle in the United States, Genet Sel Evol, 43, 1, 10.1186/1297-9686-43-17