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유전 및 육종 : 단형질 개체모형을 이용한 한우 육종가 추정프로그램 개발
구양모 ( Yang Mo Koo ),김정일 ( Jung Il Kim ),송치은 ( Chi Eun Song ),이기환 ( Ki Hwan Lee ),신재영 ( Jae Young Shin ),장현기 ( Hyun Gi Jang ),최태정 ( Tae Jeong Choi ),김시동 ( Di Dong Kim ),박병호 ( Byoung Ho Park ),조광현 ( Kwa 한국동물자원과학회(구 한국축산학회) 2013 한국축산학회지 Vol.55 No.5
Estimate breeding value can be used as single trait animal model was developed directly using the Fortran language program. The program is based on data computed by using the indirect method repeatedly. The program develops a common algorithm and imprves efficiency. Algorithm efficiency was compared between the two programs. Estimated using the solution is easy to farm and brand the service, pedigree data base was associated with the development of an improved system. The existing program that uses the single trait animal model and the comparative analysis of efficiency is weak because the estimation of the solution and the conventional algorithm programmed through regular formulation involve many repetition; therefore, the newly developed algorithm was conducted to improve speed by reducing the repetition. Single trait animal model was used to analyze Gauss-Seidel iteration method, and the aforesaid two algorithms were compared thorough the mixed model equation which is used the most commonly in estimating the current breeding value by applying the procedures such as the preparation of information necessary for modelling, removal of duplicative data, verifying the parent information of based population in the pedigree data, and assigning sequential numbers, etc. The existing conventional algorithm is the method for reading and recording the data by utilizing the successive repetitive sentences, while new algorithm is the method for directly generating the left hand side for estimation based on effect. Two programs were developed to ensure the accurate evaluation. BLUPF90 and MTDFREML were compared using the estimated solution. In relation to the pearson and spearman correlation, the estimated breeding value correlation coefficients were highest among all traits over 99.5%. Depending on the breeding value of the high correlation in Model Ⅰ and Model Ⅱ, accurate evaluation can be found. The number of iteration to convergence was 2,568 in Model Ⅰ and 1,038 in Model Ⅱ. The speed of solving was 256.008 seconds in Model Ⅰ and 235.729 seconds in Model Ⅱ. Model Ⅱ had a speed of approximately 10% more than Model Ⅰ. Therefore, it is considered to be much more effective to analyze large data through the improved algorithm than the existing method. If the corresponding program is systemized and utilized for the consulting of farm and industrial services, it would make contribution to the early selection of individual, shorten the generation, and cultivation of superior groups, and help develop the Hanwoo industry further through the improvement of breeding value based enhancement, ultimately paving the way for the country to evolve into an advanced livestock country.
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이승수 ( Seung Soo Lee ),이승환 ( Seung Hwan Lee ),최태정 ( Tae Jeong Choi ),최연호 ( Yun Ho Choy ),조광현 ( Kwang Hyun Cho ),최유림 ( You Lin Choi ),조용민 ( Yong Min Cho ),김내수 ( Nae Soo Kim ),이중재 ( Jung Jae Lee ) 한국동물자원과학회(구 한국축산학회) 2013 한국축산학회지 Vol.55 No.1
본 연구는 농협 한우개량사업소 후대검정우 552두의 도체중, 배최장근단면적, 등지방두께 및 근내지방도를 측정한 후 고밀도 SNP 패널(777K)을 사용하여 유전체 혈연 행렬(Genetic Relationship Matrix, GRM)을 추정하고 GBLUP(Genomic Best Linear Unbiased Prediction) 방법으로 GEBV(Genomic Estimated Breeding Value)를 구하여 교차 검증(Cross-validation) 방법으로 그 정확도를 추정함으로써 유전체 선발 기법을 한우 유전평가 체계에 적용하기 위한 기초자료로 이용하고자 수행하였다. 교차 검증 방법으로 각 형질별로 추정된 유전체 육종가의 정확도는 0.915~ 0.957로 상당히 높게 추정되었다. 대립유전자의 빈도로 계산된 유전체 혈연 행렬을 이용하여 GBLUP 방법으로 추정된 육종가 정확도의 최대 차이는 후대검정우 534두에 대하여 도체중, 배최장근 단면적, 등지방 두께 및 근내지방도 순으로 각각 9.56%, 5.78%, 5.78% 및 4.18% 정도의 수준으로 상승했고, 혈통 기록상의 모든 개체 3,674두에 대해서는 형질 별로 최대 13.54%, 6.50%, 6.50% 및 4.31% 정도의 수준으로 증가한 결과가 추정되었다. 이는 한우 보증씨수소의 선발 시스템에서 아직 표현형 자료를 생산할 수 없는 당대검정 후보축 대한 집단을 조성할 때 유전체 정보를 이용한 사전 선발을 활용하면 기존의 상대적으로 낮았던 육종가의 정확도의 상승 효과와 세대 간격의 단축으로 인하여 유전적 개량량을 증대시킬 수 있을 것으로 기대된다. 본 연구에서 genomic breeding value 추정을 위하여 조성된 집단의 경우는 후대 검정우 집단으로서 개체들 간의 혈연관계가 높으며, 이미 전통적인 BLUP 방법으로도 상당히 높은 정확도를 가진 집단을 이용하였다. 그러나, 현재 한우 집단에 대한 유전체 자료 구축 시 이용할 수 있는 정확한 자료는 후대검정우 집단 외에는 참조 집단을 조성할 수 있는 대안이 없으므로, 지속적인 유전체 검정을 위해서는 다양한 유전적 조성이 구축된 참조 집단을 구축해야 할 것으로 사료된다. 또한 유전체 검정을 통한 정확도 상승효과를 기대하기 위해서 지속적으로 참조 집단의 크기를 늘릴 필요성이 있다. This study was conducted to estimate the Genomic Estimated Breeding Value(GEBV) using Genomic Best Linear Unbiased Prediction(GBLUP) method in Hanwoo(Korean native cattle) population. The result is expected to adapt genomic selection onto the national Hanwoo evaluation system. Carcass weight(CW), eye muscle area(EMA), backfat thickness(BT), and marbling score (MS) were investigated in 552 Hanwoo progeny-tested steers at Livestock Improvement Main Center. Animals were genotyped with Illumina BovineHD BeadChip(777K SNPs). For statistical analysis, Genetic Relationship Matrix(GRM) was formulated on the basis of genotypes and the accuracy of GEBV was estimated with 10-fold Cross-validation method. The accuracies estimated with cross-validation method were between 0.915~0.957. In 534 progeny-tested steers, the maximum difference of GEBV accuracy compared to conventional EBV for CW, EMA, BT, and MS traits were 9.56%, 5.78%, 5.78%, and 4.18% respectively. In 3,674 pedigree traced bulls, maximum increased difference of GEBV for CW, EMA, BT, and MS traits were increased as 13.54%, 6.50%, 6.50%, and 4.31% respectively. This showed that the implementation of genomic pre-selection for candidate calves to test on meat production traits could improve the genetic gain by increasing accuracy and reducing generation interval in Hanwoo genetic evaluation system to select proven bulls.
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