• 한국유기농업학회지
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• 제12권2호
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• pp.197-207
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• 2004

Identification of animals has been used with an e ar tag with dummy code and blood typing has been used for paternity and individual identification in live animals. Various genetic markers are different for breeds of pig and hence, it is necessary to identity the discrete genetic marker in korean native pig. A total of 240 pigs were used to find korean native pig population specific markers that expressed in population of korean native pigs. To identify the individual traceability, 20 animals were randomly chosen and tested for a whole process from being live to slaughter stages. The candidate genetic marker used in the study were 18 DNA microsatellites which were identified in pig genome. The number of alleles of those DNA microsatellites ranged form a minimum of 3 to maximum of 6. The heterozygote frequency rang6d from 0.44 to 0.69. Effective number of alleles for each DNA microsatellotes were 2 to 4. By choosing 6 candidate genetic markers among all, the traceability of individual identification was estimated as accurate as 99.99%(p>0.0014), nearly.

• Reproductive and Developmental Biology
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• 제37권4호
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• pp.205-211
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• 2013

The swine is one of the most widespread mammalian throughout the whole world. Presently, many studies concerning microsatellites in swine, especially domestic pigs, have been carried out in order to investigate general diversity patterns among either populations or breeds. Until now, a lot of time and effort spend into a single PCR method. But simple and more rapid multiplex PCR methods have been developed. The purpose of this study is to develop a robust set of microsatellites markers (MS marker) for traceability and individual identification. Using multiplex-PCR method with 23 MS marker divided 2 set, various alleles occurring to 5 swine breed (Berkshire, Landrace, Yorkshire, Duroc and Korea native pig) used markers to determine allele frequency and heterozygosity. MS marker found 4 alleles at SW403, S0227, SWR414, SW1041 and SW1377. The most were found 10 alleles at SW1920. Heterozygosity represented the lowest value of 0.102 at SWR414 and highest value of 0.861 at SW1920. So, it was recognized appropriate allele frequency for individual identification in swine. Using multiplex-PCR method, MS markers used to determine individual identification biomarker and breed-specific marker for faster, more accurate and lower analysis cost. Based on this result, a scientific basis was established to the existing pedigree data by applying genetics additionally. Swine traceability is expected to be very useful system and be conducted nationwide in future.

• 농업생명과학연구
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• 제46권5호
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• pp.73-82
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• 2012

13종의 초위성체 마커를 이용해 분석한 대립유전자형을 $F_0$, $F_1$ 그리고 $F_2$로 세대 간 구분 하여 동일한 개체 출현확률 값을 추정한 결과 $F_2$의 무작위교배집단으로 가정한 경우 13종의 초위성체 마커는 $3.84{\times}10^{-23}$ 의 추정치를 나타내 37개의 SNP 마커를 이용할 경우와 유사한 동일개체 출현확률 추정치를 유추할 수 있었다. 본 연구에 사용한 실험축군은 2품종 상호교배로 만들어졌다. 친자감정확률 추정치를 전체집단을 대상으로 13종의 초위성체 마커와 37개의 SNP 마커를 이용하여 분석한 결과 부모를 동시에 찾을 수 있는 추정치인 $PE_{pu}$의 경우 초위성체 마커는 0.97897이고 SNP 마커는 0.99149였으며, 한쪽 부모를 찾을 수 있는 추정치인 PE의 경우 초위성체 마커는 0.99916이고 SNP 마커는 0.99949로 나타났다. 또한 가능한 후보 부모들로부터 가장 확률이 높은 부모를 찾을 추정치인 $PNE_{pp}$의 경우는 초위성체 마커와 SNP 마커 둘 다 1.00000으로 추정 되었다. 한정된 부모집단 내 한정된 대립유전자형을 통해 대량의 비육돈이 생산되는 국내의 양돈산업의 경우 DNA 마커의 특성, 분석집단의 크기, 유전자형 분석의 정확도와 비용, 분석된 자료 관리의 용이성 및 기존 분석 시스템과의 호환성 등을 고려하여 효율성과 경제성이 높은 마커를 선정해 마커 조합을 만드는 것이 필요할 것으로 사료된다.