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“Detection of differentially expressed genes in the longissimus dorsi of Northeastern Indigenous and Large White pigs”, vol. 10, pp. 779-791, 2011.
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Fu Y, Luo N, Klein RL and Garvey WT (2005). Adiponectin promotes adipocyte differentiation, insulin sensitivity, and lipid accumulation. J. Lipid Res. 46: 1369-1379.
doi:10.1194/jlr.M400373-JLR200
PMid:15834118
Gardan D, Louveau I and Gondret F (2007). Adipocyte- and heart-type fatty acid binding proteins are both expressed in subcutaneous and intramuscular porcine (Sus scrofa) adipocytes. Comp. Biochem. Physiol. B. Biochem. Mol. Biol. 148: 14-19.
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PMid:12968695
Kadowaki T and Yamauchi T (2005). Adiponectin and adiponectin receptors. Endocr. Rev. 26: 439-451.
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Marrube G, Rozen F, Pinto GB, Pacienza N, et al. (2004). New polymorphism of FASN gene in chicken. J. Appl. Genet. 45: 453-455.
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Morris CA, Cullen NG, Glass BC, Hyndman DL, et al. (2007). Fatty acid synthase effects on bovine adipose fat and milk fat. Mamm. Genome 18: 64-74.
doi:10.1007/s00335-006-0102-y
PMid:17242864
Muñoz G, Óvilo C, Noguera JL, Sanchez A, et al. (2003). Assignment of the fatty acid synthase (FASN) gene to pig chromosome 12 by physical and linkage mapping. Anim. Genet. 34: 234-235.
doi:10.1046/j.1365-2052.2003.00987.x
PMid:12755829
Nowacka-Woszuk J, Szczerbal I, Fijak-Nowak H and Switonski M (2008). Chromosomal localization of 13 candidate genes for human obesity in the pig genome. J. Appl. Genet. 49: 373-377.
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PMid:19029685
Pfaffl MW (2001). A new mathematical model for relative quantification in real-time RT-PCR. Nucleic Acids Res. 29: e45.
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Ponsuksili S, Murani E, Walz C, Schwerin M, et al. (2007). Pre- and postnatal hepatic gene expression profiles of two pig breeds differing in body composition: insight into pathways of metabolic regulation. Physiol. Genomics 29: 267-279.
doi:10.1152/physiolgenomics.00178.2006
PMid:17264241
Price NT, Jackson VN, van der Leij FR, Cameron JM, et al. (2003). Cloning and expression of the liver and muscle isoforms of ovine carnitine palmitoyltransferase 1: residues within the N-terminus of the muscle isoform influence the kinetic properties of the enzyme. Biochem. J. 372: 871-879.
doi:10.1042/BJ20030086
PMid:12662154 PMCid:1223454
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doi:10.1159/000056970
Roy R, Ordovas L, Zaragoza P, Romero A, et al. (2006). Association of polymorphisms in the bovine FASN gene with milk-fat content. Anim. Genet. 37: 215-218.
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PMid:16734679
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Sourdioux M, Brevelet C, Delabrosse Y and Douaire M (1999). Association of fatty acid synthase gene and malic enzyme gene polymorphisms with fatness in turkeys. Poult. Sci. 78: 1651-1657.
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van der Leij FR, Takens J, van der Veen AY, Terpstra P, et al. (1997). Localization and intron usage analysis of the human CPT1B gene for muscle type carnitine palmitoyltransferase I. Biochim. Biophys. Acta 1352: 123-128.
PMid:9199240
van der Leij FR, Cox KB, Jackson VN, Huijkman NC, et al. (2002). Structural and functional genomics of the CPT1B gene for muscle-type carnitine palmitoyltransferase I in mammals. J. Biol. Chem. 277: 26994-27005.
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PMid:9545636
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doi:10.1016/S0014-5793(97)00561-9
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Zhao S, Wang J, Song X, Zhang X, et al. (2010). Impact of dietary protein on lipid metabolism-related gene expression in porcine adipose tissue. Nutr. Metab. 7: 6.
doi:10.1186/1743-7075-7-6
Zhao SH, Recknor J, Lunney JK, Nettleton D, et al. (2005). Validation of a first-generation long-oligonucleotide microarray for transcriptional profiling in the pig. Genomics 86: 618-625.
doi:10.1016/j.ygeno.2005.08.001
PMid:16216716