Genome wide association test to identity QTL for dressing percentage in Hanwoo
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Lee, Seung Hwan
(Hanwoo Experiment Station, NIAS, RDA)
Lim, Dajeong (Animal Genome & Bioinformatics Division, NIAS, RDA) Dang, Chang Gwan (Hanwoo Experiment Station, NIAS, RDA) Chang, Sun Sik (Hanwoo Experiment Station, NIAS, RDA) Kim, Hyeong Cheul (Hanwoo Experiment Station, NIAS, RDA) Jeon, Gi Jun (Hanwoo Experiment Station, NIAS, RDA) Yeon, Seong Hum (Hanwoo Experiment Station, NIAS, RDA) Jang, Gul Won (Animal Genome & Bioinformatics Division, NIAS, RDA) Park, Eung Woo (Animal Genome & Bioinformatics Division, NIAS, RDA) Oh, Jae Don (Animal Genome & Bioinformatics Division, NIAS, RDA) Lee, Hak Kyo (Animal Genome & Bioinformatics Division, NIAS, RDA) Lee, Jun Heon (Department of Biotechnology, Hankyung National University) Kang, Hee Sul (Hanwoo Experiment Station, NIAS, RDA) Yoon, Duhak (Department of Animal Science & Biotechnology, Chungnam National University) |
1 | Georges M. 1995. Mapping quantitative trait loci controlling milk production in dairy cattle by exploiting progeny testing. Genetics 139:907-920. |
2 | Aulchenko YS, de Koning DJ, Haley C. 2007. Genomewide rapid association using mixed model and regression: A fast and simple method for genomewide pedigree-based quantitative trait loci association analysis. Genetics 177:577-585. DOI ScienceOn |
3 | Barendse W, Reverter A, Bunch RJ, Harrison BE, Barris W, Thomas MB. 2007. A Validated whole-genome association study of efficient food conversion in cattle. Genetics 176:1893-1905. DOI ScienceOn |
4 | Dekker JCM, Hospital F. 2002. The use of molecular genetics in the improvement of agricultural populations. Nature Review Genetics 3:22-32 DOI ScienceOn |
5 | Fernando RL, Grossman M. 1989. Marker assisted selection using best linear unbiased prediction. Genetic Selection Evolution 21:467-477. DOI |
6 | Hayes BJ, Pryce J, Chamberlain AJ, Verbyla K, Goddard ME. 2009. Accuracy of genomic breeding values in multi-breed dairy cattle populations. Genetic Selection Evolution 41:1-9. DOI ScienceOn |
7 | Kolbehdari D, Wang Z, Grant JR, Murdoch B, Prasad A, Xiu Z, Marques E, Stothard P, Moore SS. 2008. A wholegenome scan to map quantitative trait loci for conformation and functional traits in Canadian Holstein Bulls. Journal of Dairy Science 91:2844-2856. DOI ScienceOn |
8 | Hu ER, Reecy JM. 2007. AnimalQTLdb: A Livestock QTL Database Tool Set for Positional QTL Information Mining and Beyond. Nucleic Acids Research 35:D604-D609. DOI ScienceOn |
9 | Karim L, et al 2011. Variants modulating the expression of a chromosome domain encompassing PLAG1 influence bovine stature. Nature Genetics 43:405-413. DOI ScienceOn |
10 | Kim Y, Ryu JW, Kim JB, Kim CY, Lee C. 2010. Genome-wide association study reveals five nucleotide sequence variants for carcass traits in beef cattle. Animal Genetic doi:10.1111/ j.1365-2052.2010.02156.x DOI ScienceOn |
11 | Li A, Mo D, Zhao X, Jiang W, Cong P, He Z, Xiao S, Liu X, Chen Y. 2013. Comparison of the longissimus muscle proteome between obese and lean pigs at 180 days. Mammaliau Genome 24:72-79. DOI ScienceOn |
12 | Miller SA, Dykes DD, Polesky HF. 1988. A simple salting out procedure for extracting DNA from human nucleated cells. Nucleic Acids Research 16(3):1215. DOI ScienceOn |
13 | Muller M, Kersten S. 2003. Nutrigenomics: goals and strategies. Nature Review Genetics 4:315-322. DOI ScienceOn |
14 | Nishmura S, Watanabe T, Mizoshita K, Tatsuda K, Fujita T, Watanabe N, Sugimoto Y, Takasuga A. 2012. Genome-wide association study indentified three major QTL for carcass weight including the PLAG1-CHCHD7 QTN for stature in Japanese Black cattle. BMC Genetics 13:40. |
15 | Meuwissen THE, Goddard ME. (2001). Prediction of identity by descent probabilities from marker-haplotypes. Genetic Selection Evolution 33:605-634. DOI ScienceOn |
16 | Grapes L, Dekkers JC, Rothschild MF, Fernando RL. 2004. Comparing linkage disequilibrium-based methods for fine mapping quantitative trait loci. Genetics 166:1561-1570. DOI ScienceOn |
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