Association between Yearling Weight and Calpastatin and Calpain Loci Polymorphism in Iranian Zel Sheep
محورهای موضوعی : CamelE. Dehnavi 1 , M. Ahani Azari 2 , S. Hasani 3 , M.R. Nassiry 4 , M. Mohajer 5 , A.R. Khan Ahmadi 6 , L. Shahmohamadi 7 , S. Yousefi 8
1 - Department of Animal Science, Gorgan University of Agricultural Science and Natural Resources, Gorgan, Iran
2 - Department of Animal Science, Gorgan University of Agricultural Science and Natural Resources, Gorgan, Iran
3 - Department of Animal Science, Gorgan University of Agricultural Science and Natural Resources, Gorgan, Iran
4 - Department of Animal Science, Ferdowsi University of Mashhad,Mashhad, Iran
5 - Golestan Agriculture Jahad, Gorgan, Iran
6 - Department of Animal Science, Faculty of Agricultural and Natural Resources, GonbadUniversity, Gonbad, Iran
7 - Department of Animal Science, Gorgan University of Agricultural Science and Natural Resources, Gorgan, Iran
8 - Department of Animal Science, Gorgan University of Agricultural Science and Natural Resources, Gorgan, Iran
کلید واژه: Sheep, calpain, Calpastatin, Molecular methods, yearling weight,
چکیده مقاله :
Genotypes of Iranian Zel sheep for Calpastatin(CAST) locus were determined by polymerase chain reaction-restriction fragment length polymorphism (PCR-RFLP) and polymerase chain reaction-single strand conformation polymorphism (PCR-SSCP) methods and for Calpain(CAPN) locus by PCR-SSCP. Blood samples were collected from 200 purebred Zel sheep of Zel Breeding Station located in Golestan province in northeast of Iran. Extraction of genomic DNA was based on modified salting out method. The digestion of PCR products of CAST gene by MspI and NcoI restriction enzymes revealed two alleles M and N, with frequencies 85.5 and 14.5%, respectively. Frequencies were 75, 21 and 4% for MM, MN and NN genotypes, respectively. Alternatively, using PCR-SSCP method, four genotypes including AA, AB, BB and AC with frequencies of 71, 21, 4 and 4%, respectively, were observed in this population. Analyzing CAPN gene by the PCR-SSCP method, revealed two different conformational patterns (AA and AB) with frequencies of 69 and 31% for AA and AB, respectively. Average heterozygosity for both loci was low (0.28 and 0.25% for CAST using PCR-SSCP and PCR-RFLP, and 0.26% for CAPN).Yearling weights (YW) were analyzed by a statistical model comprising PCR-SSCP and as a result CAPN genotypes had significant effect (P<0.01) on YW. A Chi-square test confirmed Hardy-Weinberg (H-W) equilibrium for the CAST locus using PCR-SSCP method but not for PRC-RFLP method and CAPN locus. Totally, the investigated herd had little genetic diversity and different factors disturb H-W equilibrium and PCR-RFLPand PCR-SSCP might be used successfully in these studies.
Benbouza H., Jacquemin J.M., Baudin J.P. and Mergeai G. (2006). Optimization of a reliable, fast, cheap and sensitive silver staining method to detect SSR markers in polyacrylamide gels. Biotechnol. Agron. Soc. Environ. 10(2), 77-81.
Byun S.O., Zhou H. and Hickford J.G.H. (2009). Haplotypic diversity within the ovine calpastatin (CAST) gene. Mol. Biotech. 41, 133-137.
Chung H.Y., DavisM.E., Hines H.C. and Wulf D.M. (1999). Effect of the calpain proteolysis and calpain genotype on meat tenderness of Angus bulls. Research and Reviews, Special Circular. 170-99.
Collingwood K.M., Gilmour R.S., Speck P.A., Tucker G.A., Bardsley R.G. and Buttery P.J. (1992). cDNA sequence and ontogeny expression of ovine calpastatin. Pp. 66-71 inProc. 9th International ICOP Conference on Proteolysis and Protein Turnover, Williamsburg, VA.
Dinparast Djadid N., Nikmard M., Zakeri S. and Gholizadeh S. (2011). Characterization of calpastatin gene in Iranian Afshari sheep. Iranian J. Biotech. 9(2), 145-149.
Fakhr Kazemi M., Nassiry M.R., Fathi Najafi M., Eftekhari Shahroudi F. and Khosravi M. (2006). Investigation of calpastatin gene polymorphism and its relationship with growth trait in Iranian Sistani cattle.Gnet. Nov. 2(3), 35-42.
Huff-Lonergan E., Mitsuhashi T., Beekman D.D., Parrish Jr F.C., Olson D.G. and Robson R.M. (1996). Proteolysis of specific muscle structural proteins by mu-calpain at low pH and temperature is similar to degradation in postmortem bovine muscle. Anim. Sci. Pap. Rep. 21, 61-65.
Killefer J. and Koohmaraie M. (1994). Bovine skeletal muscle calpastatin: cloning, sequence analysis and steady-state mRNA expression. J. Anim. Sci. 72, 606-614.
Koohmaraie M. (1988). The role of endogenous proteases in meat tenderness. Pp. 89-100 inProc. 41st Annual Reciprocal Meat. Conf.
Mahdavi Mamaghani A., Shodja J., Pirani N. and Sheikhloo1 M.R. (2009). Investigation of calpastatin gene polymorphism and its relationship with daily gain in Iranian Ghezel sheep.J. Agric. Sci. 18(4), 163-170.
Mason I.L. (1996). A World Dictionary of Livestock Breeds, Types and Varieties. 4th Ed., C.A.B International.
Matthews H.R., Freedland R. and Miesfeld R.L. (1997). Biochemistry: A Short Course. Wileyliss, Inc.,New York.
Miller S.A., Dykes D.D. and Polesky H.F. (1988). A simple salting out procedure for extracting DNA from human nucleated cells. Nucl. Acid. Res. 16(3), 1215.
Nassiry M.R., Tahmoorespur M., Javadmanesh A. and Soltani Far S. (2006). Calpastatin polymorphism and its association with daily gain in Kurdi sheep. Iranian J. Biotech. 4(3), 188-192.
Palmer B.R., Morton J.D., Roberts N., Ilian M.A. and Bickerstaffe R. (1999). Marker-assisted selection for meat quality and the ovine calpastatin gene. Proc. NZ. Soci. Anim. Prod. 59, 266-268.
Palmer B.R., Robert N. and KentM.P. (1997). A candidate gene approach to animal quality traits. Proc. NZ. Soci. Anim. Prod. 57, 294-296.
Palmer B.R., Roberts N., Hickford J.G. and Bickerstaffe R. (1998).Rapid communication: PCR-RFLP for MspI and NcoI in the ovine calpastatin gene. J. Anim. Sci. 76, 1499-1500.
Palmer B.R., Su H.Y., Roberts N., Hickford J.G.H. and Bickerstaffe R. (2000). Single nucleotide polymorphisms in an intron of the ovine calpastatin gene.Anim. Biotechnol. 11(1), 63-67.
Yeh F.C., Yang R., Boyle T.J., Ye Z. and Xiyan J.M. (2000). POPGENE 32, Microsoft Window-based Freeware for Population Genetic Analysis, Version 1.32. Molecular Biology and Biotechnology Centre, Universityof Alberta: Edmonton, Canada.
