Journal of Life Science (생명과학회지)

Korean Society of Life Science (한국생명과학회)
권호 표지
DOI QR코드

DOI QR Code

Physical Characteristics and Microsatellite Polymorphisms in Miryang Native Dogs

밀양지방 토종개의 형태학적 특징 및 유전적 다양성 연구

  • Cho, Byung-Wook (College of Natural Resources & Life Science, Pusan National University,Horse Science Research Center, Pusan National University) ;
  • Cho, Gil-Jae (College of Veterinarys Medicine, Kynung National University)
  • 조병욱 (부산대학교 생명자원과학대학 생명자원과학부,부산대학교 말과학연구소) ;
  • 조길재 (경북대학교 수의과대학)
  • Published : 2006.07.31
Download PDF
⟨ Previous Next ⟩

Abstract

This study was carried out to investigate the physical characteristics (height, body lenght, chest depth, head type, ear type, body color, eye type and tail type) and genetic diversity using 15 microsatellite DNA markers (PEZ 1, 5, 8, 10, 11, 12, 13, 15, 16, 17, 20, 21, FHC 2010, FHC 2054 and FHC 2079) in 44 random Miryang native dogs(6 months${\sim}$12 years old). The height, body lenght, and chest depth of Miryang native dogs were 43-55 cm(mean 49.5 cm), 45-60 cm(mean 54.3 cm), and 50-64 cm(mean 57.9 cm), respectively. Miryang native dog was medium sized. The head and eye type were reverse-triangle(100%), triangle (90.9%) and newborn moon(9.1%), respectively. Most of body color had white coat color(93.2%), light pink tongue color(100%), light black anal color(90,9%) and pink claw color(100%). The ear type showed erect ear(100%), and half-curled(56.8%), upward(34.1%), curled(9.1%) in tail type, respectively. Number of alleles observed at a single locus ranged from 2 (PEZ 21 and FHC 2010) to 14 (PEZ 13), with average number of alleles per locus of 6.13. The expected heterozygosities of 15 microsatellite loci were estimated based on gene frequencies. The highest expected heterozygosity, 0.863 was estimated in PEZ 13 locus and the lowest, 0.455 in PEZ 21 and FHC 2010 locus. And the mean expected heterozygosity of 15 microsatellite markers was calculated as 0.635. Polymorphic information content (PIC) values were ranged from 0.348 (PEZ 21 and FHC 2010) to 0.837 (PEZ 13), and the mean PIC value was calculated as 0.570. Of the 15 markers, PEZ 10, PEZ 13, PEZ 17 and FHC 2054 loci have relatively high PIC value (> 0.7) in Miryang native dog. In order to determine the efficieney of parentage control, exclusion probabilities (PE) were calculated for each allele. The highest PE 1 and PE 2 in PEZ 13 locus was caculated to 0.548 and 0.710, respectively. And the total exclusion power in PE 1 and PE 2 was calculated to 0.9895 and 0.9996, respectively. These results can give basic information for perservation and research in Miryang native dog, and phylogenetic relationships of the Korean native dog and Asian dog breeds.

밀양 토종개의 일반적인 특징을 구명할 수 있는 기초자료를 확보하고자 밀양 토종개 44두를 대상으로 형태학적 특징 및 microsatellite DNA형의 유전적 다양성의 출현빈도에 기초한 유전적인 특징을 조사한 결과 밀양 토종개의 체고는 43-55 cm(평균 49.5 cm)로서 수캐는 44-55 cm(평균 50.3 cm), 암캐는 43-52 cm(평균 48.1 cm)로 나타났고 체장은 45-60 cm(평균 54.3 cm)로서 수캐는 45-60 cm(평균 55.9 cm), 암캐는 45-57 cm(평균 52.6 cm)였다. 또한 가슴둘레는 수캐가 51-64 cm(평균 59.2 cm), 암캐는 50-62 cm(평균 56.3 cm)로 측정되었다. 머리의 형태는 정면에서 보았을 때 44두 모두에서 역삼각형 형태를 가지고 있었으며, 눈의 모양은 삼각형 형태가 40두(90.9%)였고 초승달 모양이 4두(9.1%)로 관찰되었다. 모색은 백색이 41두(93.2%), 황색이 3두(6.8%)로 나타나 두 색깔을 가지고 있었다. 혀와 발톱의 색깔은 전 두수에서 각각 연분홍색과 분홍색이 관찰되었고 항문의 색깔은 연한 흑색이 40두(90.9%), 연분홍색이 4두(9.1%)로 나타났다. 그리고 귀의 형태는 전 두수가삼각형의 곧게 서 있는 형태였으며, 꼬리의 형태는 반말린 꼬리가 25두(56.8%)로 가장 많았고 선꼬리(장대꼬리)가 15두(34.1%), 말린 꼬리가 4두(9.1%)로 나타났다. 15개의 marker로 분석한 microsatellite DNA 다형의 유전자 빈도에 기초하여 heterozygosity, PIC 그리고 PE를 분석한 결과 대립유전자의 수는 $2{\sim}14$개(평균 6.13개)로 검출되었으며 expected heterozygosity와 PIC는 각각 $0.455{\sim}0.863$ (평균 0.635), $0.348{\sim}\;0.837$(평균 0.570)으로 나타났고 PEZ 10, PEZ 13, PEZ 17, FHC 2054의 marker는 PIC 0.7이상으로 관찰되었다. PE 1은 $0.101{\sim}\;0.548$으로서 15개 marker를 조합시 0.9895, PE 2는 $0.174{\sim}\;0.710$으로서 전체 조합시 0.9996으로 나타났다.

Keywords

References

  1. Chae, Y. J., B. C. Lee and H. Lee. 1998. Paternity test in dogs by DNA analysis. Korean J. Vet. Clin. Med. 15, 274-278
  2. Cho, G. J. 2002. Microsatellite DNA polymorphism of Thoroughbred horses in Korea. Korean J. Genet. 24, 177-182
  3. Denise, S., E. Johnston, J. Halverson, K. Marshall, D. Rosenfeld, S. Mckenna, T. Sharp and J. Edwards. 2004. Power of exclusion for parentage verification and probability of match for identity in American kennel club breeds using 17 canine microsatellite markers. Anim. Genet. 35, 14-17 https://doi.org/10.1046/j.1365-2052.2003.01074.x
  4. Dimsoski, P. 2003. Development of a 17-plex microsatellite polymerase chain reaction kit for genotyping horses. Croat. Med. J. 44, 332-335
  5. Glowatzki-Mullis, M. L., C. Gaillard, G. Wigger and R. Feies. 1995. Microsatellite-based parentage control in cattle. Anim. Genet. 26, 7-12 https://doi.org/10.1111/j.1365-2052.1995.tb02612.x
  6. Ha, J. H and K. S. Kim. 1998. A review on the origin of Korean native dogs. Korean J. Anim. Sci. 40, 701-710
  7. Ha, J. H., S. E. Lee, Y. B. Tak and J. B. Kim 1998. The physical characteristics and blood proteins of Korean native dogs. Korean J. Anim. Sci. 40, 711-720
  8. Han, M. S., S. B. Hong, S. K. Choi, Y. H. Cho, H. J. Jin, K. D. Kwak and W. Kim. 2002. Population genetic data on the thirteen CODIS short tandem repeat loci in Koreans. Korean J. Genet. 24, 83-87
  9. Halverson, J. L and J. W. Edwards. 2000. Microsatellite polymorphism in dog breeds-the AKC Parent Club study. Proc. 27th ISAG Conference on Anim. Genet. p.19
  10. Yoon, D. H., H. S. Kong, J. D. Oh, J. H. Lee, B. W. Cho, J. D. Kim, K. J. Jeon, C. Y. Jo, G. J. Jeon and H. K. Lee. 2005. Establishment of an individual identification system based on microsatellite polymorphisms in Korean cattle( Hanwoo). Asian-Aust. J. Anim. Sci. 18, 762-766 https://doi.org/10.5713/ajas.2005.762
  11. Kim, K. S and C. B. Choi. 2002. Genetic structure of Korean native pig using microsatellite markers. Korean J. Genet. 24, 1-7
  12. Marshall, T. C., J. Slate, L. Kruuk and J. M. Pemberton. 1998. Statistical confidence for likelihood-based paternity inference in natural populations. Mol. Ecol. 7, 639-655 https://doi.org/10.1046/j.1365-294x.1998.00374.x
  13. Polli, M., S. Marelli, M. Zanotti and L. G. Cavalchini. 2000. Polymorphism of microsatellite loci and parentage identification in some Italian dog breeds. Proc. 27th ISAG Conference on Anim. Genet. p.45
  14. Putnova L., A. Knoll, V. Dvorak and J. Dvorak. 2003. A novel porcine microsatellite panel for the identification of individuals and parentage control in the Czech Republic. Czech J. Anim. Sci. 48, 307-314
  15. Tozaki, T., H. Kakoi, S. Mashima, K. I. Hirota, T. Hasegawa, N. Ishida, N. Miura, N. H. Choi-Miura and M. Tomita. 2001. Population Study and Validation of Paternity Testing for Thoroughbred Horses by 15 Microsatellite Loci. J. Vet. Med. Sci. 63, 1191-1197 https://doi.org/10.1292/jvms.63.1191
  16. Jeong, H. W., K. S. Kim and J. H. Ha. 1997. Analysis of phylogenic relationships among the Asian 8 dog breeds (Canis familiaris) through randomly amplified polymorphic DNA. Korean J. Genet. 19, 143-149
  17. Lim, D. J. 2001. The encyclopedia of dogs. pp.2-11. Maya. Seoul