Agricultural Journal
Year:
2013
Volume:
8
Issue:
3
Page No.
119 - 122
References
Barendse, W., B.E. Harrison, R.J. Bunch and M.B. Thomas, 2008. Variation at the Calpain 3 gene is associated with meat tenderness in zebu and composite breeds of cattle. BMC Genet., Vol. 9. 10.1186/1471-2156-9-41
Byun, S.O., Q. Fang, H. Zhou and J.G.H. Hickford, 2009. An effective method for silver-staining DNA in large numbers of polyacrylamide gels. Anal. Biochem., 385: 174-175.
CrossRef | Cafe, L.M., B.L. McIntyre, D.L. Robinson, G.H. Geesink and W. Barendse
et al., 2010. Production and processing studies on calpain-system gene markers for tenderness in Brahman cattle: 2. Objective meat quality. J. Anim. Sci., 88: 3059-3069.
CrossRef | Direct Link | Cohen, N., E. Kudryashova, I. Kramerova, L.V. Anderson and J.S. Beckmann
et al., 2006. Identification of putative
in vivo substrates of calpain 3 by comparative proteomics of overexpressing transgenic and nontransgenic mice. Proteomics, 6: 6075-6084.
CrossRef | Fabio, D.P., O. Francesco, T. Martina, C. Fabio and N. Valerio, 2011. Genomic DNA extraction from whole blood stored from 15- to 30-years at-20 °C by rapid phenol-chloroform protocol: A useful tool for genetic epidemiology studies. Mol. Cell Prob., 25: 44-48.
Hu, J., H. Zhou, A. Smyth, Y. Luo and J.G. Hickford, 2010. Polymorphism of the bovine ADRB3 gene. Mol. Biol. Rep., 37: 3389-3392.
CrossRef | Juszczuk-Kubiak, E., T. Sakowski, K. Flisikowski, K. Wicinska, J. Oprzadek and S.J. Rosochacki, 2004. Bovine mu-calpain (CAPN1) gene: New SNP within intron 14. J. Applied Genet., 45: 457-460.
Direct Link | Kinbara, K., H. Sorimachi, S. Ishiura and K. Suzuki, 1998. Skeletal muscle-specific calpain, p49: Structure and physiological function. Biochem. Pharmacol., 56: 415-420.
PubMed | King, M.C. and A.C. Wilson, 1975. Evolution at two levels in humans and chimpanzees. Sci., 188: 107-116.
Direct Link | Korstanje, R. and B. Paigen, 2002. From QTL to gene: The harvest begins. Nat. Genet., 31: 235-236.
Direct Link | Mackay, T.F., 2001. Quantitative trait loci in drosophila. Nat. Rev. Genet., 2: 11-20.
CrossRef | Pagani, F. and F.E. Baralle, 2004. Genomic variants in exons and introns: Identifying the splicing spoilers. Nat. Rev. Genet., 5: 389-396.
CrossRef | Parmley, J.L. and L.D. Hurst, 2007. How do synonymous mutations affect fitness? BioEssays, 29: 515-519.
PubMed | Pinto, L.F.B., J.B.S. Ferraz, V.B. Pedrosa, J.P. Eler and F.V. Meirelles
et al., 2011. Single nucleotide polymorphisms in CAPN and leptin genes associated with meat color and tenderness in Nellore cattle. Genet. Mol. Res., 10: 2057-2064.
Direct Link | Richard, I., O. Broux, V. Allamand, F. Fougerousse and N. Chiannilkulchai
et al., 1995. Mutations in the proteolytic enzyme calpain 3 cause limb-girdle muscular dystrophy type 2A. Cell, 81: 27-40.
CrossRef | Sorimachi, H., K. Kinbara, S. Kimura, M. Takahashi and S. Ishiura
et al., 1995. Muscle-specific calpain, p94, responsible for limb girdle muscular dystrophy type 2A, associates with connectin through IS2, a p94-specific sequence. J. Biol. Chem., 270: 31158-31162.
CrossRef | Direct Link | Sorimachi, H., S. Imajoh-Ohmi, Y. Emori, H. Kawasaki, S. Ohno, Y. Minami and K. Suzuki, 1989. Molecular cloning of a novel mammalian calcium-dependent protease distinct from both m- and mu-types. Specific expression of the mRNA in skeletal muscle. J. Biol. Chem., 264: 20106-20111.
PubMed | Direct Link | Venter, I.C., M.D. Adams, E.W. Myers, P.W. Li and R.J. Mural
et al., 2001. The sequence of the human genome. Science, 291: 1304-1351.
CrossRef | Direct Link | Zatz, M., F. de Paula, A. Starling and M. Vainzof, 2003. The 10 autosomal recessive limb-girdle muscular dystrophies. Neuromusc. Disorders, 13: 532-544.
CrossRef | Zwick, M.E., D.J. Cutler and A. Chakravarti, 2000. Patterns of genetic variation in Mendelian and complex traits. Ann. Rev. Genom. Human Genet., 1: 387-407.
CrossRef |