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Detection of Porcine Stress Syndrome from Genomic DNA of Hair Follicle by PCR-RFLP in Breeding Pig  

김계웅 (공주대학교 산업과학대학 동물자원학과)
김진우 (건국대학교 축산대학 축산학과)
유재영 (건국대학교 축산대학 축산학과)
박홍양 (건국대학교 축산대학 축산학과)
Publication Information
Reproductive and Developmental Biology / v.28, no.1, 2004 , pp. 37-43 More about this Journal
Abstract
This study was carried out to investigate PSS (Porcine Stress Syndrome) with the PSE (Pale, Soft, Exudative) in 319 different pigs(Yorkshire 150; Landrace 89 and Duroc 80). The PCR-RFLP method was adapted to detect the ryanodine receptor (RYR 1) gene mutation and to estimate the genotype frequency of the RYR1 gene in breeding pig population. The DNA samples were collected from hair follicles of pigs of Yorkshire, Landrace and Duroc. After DNA amplification by PCR, the PCR products were digested by restriction enzyme, Cfo I. Primary PCR products of ryanodine receptor gene were length of 659 bp in hair follicle and their second PCR products were length of 522 bp in hair follicle. The exon region (522 bp) including point mutation ($C \arrow T; Arg \arrow Cys$) in the porcine ryanodine receptor gene, which is a causal mutation for PSS, was digested with Cfo I restriction enzyme. The RYR1 gene was classifed into three genotypes by agarose gel electrophoresis. The normal homozygous (NN) individuals showed two DNA fragments consisted of 439 and 83 bp. The mutant homozygous (nn) individuals showed only one DNA fragment 522 bp. In addition, all three fragments (522, 439 and 83 bp) were showed in heterozygous (Nn) carrier animals. The normal homozygous (NN), heterozygous (Nn) and mutant homozygous (nn) were 98.00, 2.00 and 0.00% in Yorkshire pigs, 87.64, 11.24 and 1.12% in Landrace, 100.00, 0.00 and 0.00% in Duroc, respectively. The gene frequencies of N and n were 0.990 and 0.010 in Yorkshire pigs, 0.933 and 0.067 in Landrace, 1.000 and 0.000 in Duroc, respectively.
Keywords
Porcine stress syndrome; Gemomic DNA; PSE; PCR-RFLP; Genotypes;
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1 Fujii, J., Otsu, K., Zorzato, F., Leon, S. D., Khanna, V. K., Weiler, J. E., O'brien, P. J. and MacLennan, D. H. 1991. Identification of a mutation in porcine ryanodine receptor associated with malignant hyperthermia, Science. 253: 448-451
2 Houde, A., Pommier, S. A. and Roy, R. 1993. Detection of the ryanodine receptor mutation associated with malignant hyperthermia in purebred swine population. Journal of Animal Science. 71:1414-1418
3 황의경, 김연수. 2002. PCR-RFLP 기법을 이용한 Porcine Stress Syndrome의 진단. 대한수의학회지. 42:65-71 (접수일자: 2004. 2. 4. / 채택일자: 2004. 2. 28.)
4 Vogeli, P., Bolt, R., Fries, R. and Stranzinger, G. 1994. Co-segregation of the malignant hyperthermia and the Arg615-Cys615 mutation in the skeletal muscle calcium release channel protein in five European Landrace and Pietrain pig breeds. Anima1 Genetics. 25:59-66
5 Hughes, I. P., Moran, C. and Nicholas, F. W. 1992. PCR genotyping of the ryanodine receptor gene for a putative causal mutation for malignant hyperthermia in Australian pigs. Journal of Animal Breeding and Genetics. 109:465-476   DOI
6 Fill, M., Coronado, R., Mickelson, J., Vilven, R. J., Ma, J., Jacobson, B. A. and Louis, C. F. 1990. Abnormal ryanodine receptor channels in malignant hyperthermia, Biophysical Journal. 50:471-475
7 Harbitz, I., Kristensen, T., Bosnes, M., Kran, S. and Davies, W. 1992. DNA sequence of the skeletal muscle calcium release channel cDNA and verification of the Arg615-Cys615 mutation, association with porcine malignant hyperthermia, in Norwegian Landrace pigs. Animal Genetics. 23: 395-402
8 O'Brien, P. J., Shen, H., Cory, C. R. and Zhzng, X. 1993. Use of a DNA-based test for the mutation associated with porcine stress syndrome(malignant hyperthemia) in 10,000 breeding swine. J Am. Vet. Med. Assoc. 203:842-851   PUBMED
9 박영일, 박태섭, 신영수, 이학교, 김형균, 오하식, 손창준, 한재용. 1997. PCR-RFLP 기법을 이용한 PSS 돼지 검색에 관한 연구. 한국동물유전육종학회지. 1:73-80
10 MacLennan, D. H. and Phillips, M. S. 1992. Malignant Hyperthermia. Science. 256:789-794   DOI   PUBMED
11 Simpson, S. P. and Webb, A. J. 1989. Growth and carcass performance of British Landrace pigs heterozygous at the halothane locus. Animal Production. 49:503-509   DOI
12 Webb, A. J. and Jordan, C. H. C.. 1978. Halothane sensitivity as a field test for stress susceptibility in the pig. Animal Production. 26:157-163   DOI
13 Uchihi, R., Tamaki, K., Kojima, T., Yamamoto, T. and Katsurnata, Y. 1992. Deoxyribonucleic acid (DNA) typing of human leukocyte antigen (HLA)-DQ1 from single hairs in Japanese. Journal of Forensic Sciences. 37:853-859   PUBMED
14 박영일, 한재용, 이수찬, 이일주, 박태섭, 이기영, 신영수, 이학교, 김형균, 오하식, 손창준. 1998. PSS 유전자형이 돼지의 경제형질에 미치는 효과. 한국동물유전육종학회지. 2:21-26
15 우승철. 2000 . 돼지 모근을 이용한 PSS 유전자형 결정에 관한 연구. 건국대학교 석사학위 논문
16 윤덕영. 2002. 돼지 모근을 이용한 3단계 PCR-RFLP 방법으로 돼지 스트레스 유전자 검사. 건국대학교 박사학위논문
17 Richards, B., Skoletsky, J., Shuber, A. P., Balfour, R., Stern, R. C., Dorkin, H. L., Parad, R. B., Witt, D. and Klinger, K. W. 1993. Multiplex PCR amplification from the CFTR gene using DNA prepared from buccal brushes/swabs. Hum. Mol. Genet. 2:159-163   DOI   ScienceOn