Found 4 results
Filters: Author is F. Siqueira  [Clear All Filters]
P. C. Tizioto, Meirelles, S. L., Tulio, R. R., Rosa, A. N., Alencar, M. M., Medeiros, S. R., Siqueira, F., Feijó, G. L. D., Silva, L. O. C., Júnior, R. A. A. Torres, and Regitano, L. C. A., Candidate genes for production traits in Nelore beef cattle, vol. 11, pp. 4138-4144, 2012.
Andrade PC, Grossi DA, Paz CC, Alencar MM, et al. (2008). Association of an insulin-like growth factor 1 gene microsatellite with phenotypic variation and estimated breeding values of growth traits in Canchim cattle. Anim. Genet. 39: 480-485. PMid:18637878   Bishop MD, Kappes SM, Keele JW, Stone RT, et al. (1994). A genetic linkage map for cattle. Genetics 136: 619-639. PMid:7908653 PMCid:1205813   Casas E, Shackelford SD, Keele JW, Koohmaraie M, et al. (2003). Detection of quantitative trait loci for growth and carcass composition in cattle. J. Anim. Sci. 81: 2976-2983. PMid:14677852   Cho S, Park TS, Yoon DH, Cheong HS, et al. (2008). Identification of genetic polymorphisms in FABP3 and FABP4 and putative association with back fat thickness in Korean native cattle. BMB Rep. 41: 29-34. PMid:18304447   Islam KK, Vinsky M, Crews RE, Okine E, et al. (2009). Association analyses of a SNP in the promoter of IGF1 with fat deposition and carcass merit traits in hybrid, Angus and Charolais beef cattle. Anim. Genet. 40: 766-769. PMid:19466932   Michal JJ, Zhang ZW, Gaskins CT and Jiang Z (2006). The bovine fatty acid binding protein 4 gene is significantly associated with marbling and subcutaneous fat depth in Wagyu x Limousin F2 crosses. Anim. Genet. 37: 400-402. PMid:16879357   Pereira AP, Alencar MM, Oliveira HN and Regitano LCA (2005). Association of GH and IGF-1 polymorphisms with growth traits in a synthetic beef cattle breed. Genet. Mol. Biol. 28: 230-236.   Puigserver P and Spiegelman BM (2003). Peroxisome proliferator-activated receptor-gamma coactivator 1 alpha (PGC-1 alpha): transcriptional coactivator and metabolic regulator. Endocr. Rev. 24: 78-90. PMid:12588810   Raymond M and Rousset F (1995). Genepop (version 1.2): Population genetics software for exact tests and ecumenicism. J. Hered. 86: 248-249.   Regitano LCA, Azevedo JL, Vencovsky R, Packer IU, et al. (1999). Selection for breed-specific growth hormone and IGF-1 alleles in a synthetic beef cattle cross, Canchim. Genet. Mol. Bio. 22: 531-537.   SAS Institute Inc. (2000). SAS Procedures Guide. Version 8. Cary.   Semple RK, Crowley VC, Sewter CP, Laudes M, et al. (2004). Expression of the thermogenic nuclear hormone receptor coactivator PGC-1alpha is reduced in the adipose tissue of morbidly obese subjects. Int. J. Obes. Relat. Metab. Disord. 28: 176-179. PMid:14557831   Snyder EE, Walts B, Perusse L, Chagnon YC, et al. (2004). The human obesity gene map: the 2003 update. Obes. Res. 12: 369-439. PMid:15044658   Soria LA, Corva PM, Branda SA, Villarreal EL, et al. (2009). Association of a novel polymorphism in the bovine PPARGC1A gene with growth, slaughter and meat quality traits in Brangus steers. Mol. Cell Probes 23: 304-308. PMid:19665052   Stachowiak M, Szydlowski M, Cieslak J and Switonski M (2007). SNPs in the porcine PPARGC1a gene: interbreed differences and their phenotypic effects. Cell Mol. Biol. Lett. 12: 231-239. PMid:17149556   Sun L, Yang Z, Jin F, Zhu XQ, et al. (2006). The Gly482Ser variant of the PPARGC1 gene is associated with Type 2 diabetes mellitus in northern Chinese, especially men. Diabet. Med. 23: 1085-1092. PMid:16978372   Weikard R, Kuhn C, Goldammer T, Freyer G, et al. (2005). The bovine PPARGC1A gene: molecular characterization and association of an SNP with variation of milk fat synthesis. Physiol. Genomics 21: 1-13. PMid:15781588