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R. Espigolan, Baldi, F., Boligon, A. A., Souza, F. R. P., Júnior, G. A. Fernandes, Gordo, D. G. M., Venturini, G. C., de Camargo, G. M. F., Feitosa, F. L. B., Garcia, D. A., Tonhati, H., Chardulo, L. A. L., Oliveira, H. N., and Albuquerque, L. G., Associations between single nucleotide polymorphisms and carcass traits in Nellore cattle using high-density panels, vol. 14, pp. 11133-11144, 2015.
E. C. A. Rizzo, Neto, F. R. A., Diaz, I. D. P. S., Dias, M. M., Costa, R. B., Ventura, H. T., Oliveira, H. N., and Falcão, A. J. S., Genetic association of productive and reproductive traits with stayability in Nellore cattle: analysis using Bayesian models, vol. 14, pp. 14956-14966, 2015.
C. U. Braz, Camargo, G. M. F., Cardoso, D. F., Gil, F. M. M., Fonseca, P. D. S., Cyrillo, J. N. S. G., Mercadante, M. E. Z., Oliveira, H. N., and Tonhati, H., Polymorphisms in the GHRL gene and their associations with traits of economic interest in beef cattle, vol. 14, pp. 18188-18197, 2015.
M. V. A. Lemos, Chiaia, H. L. J., Berton, M. P., Feitosa, F. L. B., Aboujaoude, C., Venturini, G. C., Oliveira, H. N., Albuquerque, L. G., and Baldi, F., Reaction norms for the study of genotype-environment interaction for growth and indicator traits of sexual precocity in Nellore cattle, vol. 14, pp. 7151-7162, 2015.
M. M. Dias, Souza, F. R. P., Takada, L., Feitosa, F. L. B., Costa, R. B., Diaz, I. D. P. S., Cardoso, D. F., Tonussi, R. L., Baldi, F., Albuquerque, L. G., and Oliveira, H. N., Study of lipid metabolism-related genes as candidate genes of sexual precocity in Nellore cattle, vol. 14, pp. 234-243, 2015.
M. A. da Silva, Rios, A. F. L., Ramos, E. S., Lôbo, R. B., Oliveira, H. N., and de Freitas, M. A. R., Association between IGF2 and CYP21 gene polymorphisms and characteristics of economic interest in Nellore cattle, vol. 10, pp. 2140-2147, 2011.
Andréa MV, Meirelles FV, Lôbo RB, Millazzotto MP, et al. (2007). Polimorfismos SSCP e a puberdade em novilhas da raça Nelore. Magistra 19: 198-203. ANUALPEC (2009). Anuário da Pecuária Brasileira. Consultoria & Comércio, São Paulo: FNP, São Paulo. Bagnicka E, Siadkowska E, Strzalkowska N, Zelazowska B, et al. (2010). Association of polymorphisms in exons 2 and 10 of the insulin-like growth factor 2 (IGF2) gene with milk production traits in Polish Holstein-Friesian cattle. J. Dairy Res. 77: 37-42. PMid:19785908 Berkowicz EW, Magee DA, Sikora KM, Berry DP, et al. (2010). Single nucleotide polymorphisms at the imprinted bovine insulin-like growth factor 2 (IGF2) locus are associated with dairy performance in Irish Holstein-Friesian cattle. J. Dairy Res. 78: 1-8. PMid:20822563 Biase FH, Meirelles FV, Gunski R, Vozzi PA, et al. (2007). Mitochondrial DNA single nucleotide polymorphism associated with weight estimated breeding values in Nellore cattle (Bos indicus). Genet. Mol. Biol. 30: 1058-1063. Bland JM and Altman DG (1995). Multiple significance tests: the Bonferroni method. BMJ 310: 170. PMid:7833759    PMCid:2548561 Blott S, Kim JJ, Moisio S, Schmidt-Kuntzel A, et al. (2003). Molecular dissection of a quantitative trait locus: a phenylalanine-to-tyrosine substitution in the transmembrane domain of the bovine growth hormone receptor is associated with a major effect on milk yield and composition. Genetics 163: 253-266. PMid:12586713    PMCid:1462408 Caetano AR (2009). Marcadores SNP: conceitos básicos, aplicações no manejo e no melhoramento animal e perspectivas para o futuro. Rev. Bras. Zoo. 38: 64-71. Carrijo SM, Alencar MM, Toral FLB and Regitano LCA (2008). Association of PIT1 genotypes with growth traits in Canchim cattle. Sci. Agr. 65: 116-121. Curi RA, Chardulo LA, Mason MC, Arrigoni MD, et al. (2009). Effect of single nucleotide polymorphisms of CAPN1 and CAST genes on meat traits in Nellore beef cattle (Bos indicus) and in their crosses with Bos taurus. Anim. Genet. 40: 456-462. PMid:19392828 Damiani G, Florio S, Budelli E, Bolla P, et al. (2000). HpaII PCR-RFLP within a Bov-A2 element in the promoter of the bovine CYP21 (steroid 21-hydroxylase) gene. Anim. Genet. 31: 154-155. PMid:10782233 de Souza FR, Dentillo DB, Meola J, Biase FH, et al. (2007). The polymorphism in MUC1 gene in Nelore cattle. J. Anim. Breed. Genet. 124: 42-46. PMid:17302961 DeChiara TM, Efstratiadis A and Robertson EJ (1990). A growth-deficiency phenotype in heterozygous mice carrying an insulin-like growth factor II gene disrupted by targeting. Nature 345: 78-80. PMid:2330056 Flisikowski K, Maj A, Zwierzchowski L, Adamowicz T, et al. (2005). Nucleotide sequence and variation of IGF2 gene exon 6 in Bos taurus and Bos indicus cattle. Anim. Biotechnol. 16: 203-208. PMid:16335812 Freitas MAR (2004). Seleção em Bovinos de Corte - Importância do Teste de Touros Jovens. 2° Workshop em Genética e Melhoramento na Pecuária de Corte, CD-ROM. FCAV-UNESP, Jaboticabal. Garcia JF (2006). Utilização de Marcadores Moleculares para a Seleção. 2° Simpósio Internacional de Reprodução Animal Aplicada, Londrina. Garrick DJ and Golden BL (2009). Producing and using genetic evaluations in the United States beef industry of today. J. Anim. Sci. 87: E11-E18. PMid:18849385 Goddard ME and Hayes BJ (2007). Genomic selection. J. Anim. Breed. Genet. 124: 323-330. PMid:18076469 Goodall JJ and Schmutz SM (2003). Linkage mapping of IGF2 on cattle chromosome 29. Anim. Genet. 34: 313. PMid:12873229 Goodall JJ and Schmutz SM (2007). IGF2 gene characterization and association with rib eye area in beef cattle. Anim. Genet. 38: 154-161. PMid:17403010 Lee HH (2001). CYP21 mutations and congenital adrenal hyperplasia. Clin. Genet. 59: 293-301. Lôbo RB, Bezerra LAF, Oliveira HN, Garneiro AV, et al. (2010). Avaliação Genética de Animais Jovens, Touros e Matrizes. GEMAC/FMRP/USP, Ribeirão Preto. Martins da Silva A, Rios AFL, Ramos ES, Cardoso VL, et al. (2008). IGF2/MboII polymorphism in Gir and Nelore cattle. Develop. Biol. 132: 287-291. Meuwissen TH, Hayes BJ and Goddard ME (2001). Prediction of total genetic value using genome-wide dense marker maps. Genetics 157: 1819-1829. PMid:11290733    PMCid:1461589 Moe M, Lien S, Aasmundstad T, Meuwissen TH, et al. (2009). Association between SNPs within candidate genes and compounds related to boar taint and reproduction. BMC Genet. 10: 32. PMid:19575819    PMCid:2723134 O’Dell SD and Day IN (1998). Insulin-like growth factor II (IGF-II). Int. J. Biochem. Cell Biol. 30: 767-771. Olerup O and Zetterquist H (1992). HLA-DR typing by PCR amplification with sequence-specific primers (PCR-SSP) in 2 hours: an alternative to serological DR typing in clinical practice including donor-recipient matching in cadaveric transplantation. Tissue Antigens 39: 225-235. PMid:1357775 Qun Zhao BS (2002). Genetic Markers for Genes Encoding Pit-1, GHRH-receptor, and IGF-II, and their Association with Growth and Carcass Traits in Beef Cattle. Doctoral thesis, The Ohio State University, Columbus. Regitano LCA (2005). Genética Molecular Aplicada ao Melhoramento. 42° Reunião Anual da Sociedade Brasileira de Zootecnia, Goiânia, CD-ROM. Souza FR, Mercadante ME, Fonseca LF, Ferreira LM, et al. (2010). Assessment of DGAT1 and LEP gene polymorphisms in three Nelore (Bos indicus) lines selected for growth and their relationship with growth and carcass traits. J. Anim. Sci. 88: 435-441. PMid:19820053 Suekawa Y, Aihara H, Araki M, Hosokawa D, et al. (2010). Development of breed identification markers based on a bovine 50K SNP array. Meat Sci. 85: 285-288. PMid:20374900
F. R. Araujo Neto, Lôbo, R. B., Mota, M. D. S., and Oliveira, H. N., Genetic parameter estimates and response to selection for weight and testicular traits in Nelore cattle, vol. 10, pp. 3127-3140, 2011.
Albuquerque LG and Meyer K (2001a). Estimates of direct and maternal genetic effects for weights from birth to 600 days of age in Nelore cattle. J. Anim. Breed. Genet. 118: 83-92. Albuquerque LG and Meyer K (2001b). Estimates of covariance functions for growth from birth to 630 days of age in Nelore cattle. J. Anim. Sci. 79: 2776-2789. PMid:11768105 Albuquerque LG and El Faro L (2008). Comparações entre os valores genéticos para características de crescimento de bovinos da raça Nelore preditos com modelos de dimensão finita ou infinita. Rev. Bras. Zootec. 37: 238-246. Arthur PF, Renand G and Krauss D (2001). Genetic and phenotypic relationships among different measures of growth and feed efficiency in young Charolais bulls. Livest. Prod. Sci. 68: 131-139. Eler JP, Silva JA, Evans JL, Ferraz JB, et al. (2004). Additive genetic relationships between heifer pregnancy and scrotal circumference in Nellore cattle. J. Anim. Sci. 82: 2519-2527. PMid:15452919 Forni S and Albuquerque LG (2005). Estimates of genetic correlations between days to calving and reproductive and weight traits in Nelore cattle. J. Anim. Sci. 83: 1511-1515. PMid:15956458 Gianola D and Fernando RL (1986). Bayesian methods in animal breeding theory. J. Anim. Sci. 63: 217-244. Henderson CR (1986). Recent developments in variance and covariance estimation. J. Anim. Sci. 63: 208-216. Heydarpour M, Schaeffer LR and Yazdi MH (2008). Influence of population structure on estimates of direct and maternal parameters. J. Anim. Breed. Genet. 125: 89-99. PMid:18363974 Hyndman RJ (1996). Computing and graphing highest density regions. Am. Stat. 50: 120-126. Kealey CG, MacNeil MD, Tess MW, Geary TW, et al. (2006). Genetic parameter estimates for scrotal circumference and semen characteristics of Line 1 Hereford bulls. J. Anim. Sci. 84: 283-290. PMid:16424254 Krejcová H, Mielenz N, Pribyl J and Schüler L (2007). Estimation of genetic parameters for daily gains of bulls with multi-trait and random regression models. Arch. Tierzucht. 50: 37-46. Misztal I (2007). BLUPF90 family of programs. Available at []. Accessed March 12, 2007. Paneto JCC, Lemos DC, Bezerra LAF, Martins Filho R, et al. (2002). Estudo de características quantitativas de crescimento dos 120 aos 550 dias de idade em gado Nelore. Rev. Bras. Zootec. 31: 668-674. Sarreiro LC, Bergmann JAG, Quirino CR, Pineda NR, et al. (2002). Herdabilidade e correlação genética entre perímetro scrotal, libido e características seminais de touros Nelore. Arq. Bras. Med. Vet. Zootec. 54: 602-608. SAS Institute (2003). SAS - Statistical Analysis System. User’s Guide, Cary. Schaeffer LR (1984). Sire and cow evaluation under multiple trait models. J. Dairy Sci. 67: 1567-1580. Toelle VD and Robison OW (1985). Estimates of genetic correlations between testicular measurements and female reproductive traits in cattle. J. Anim. Sci. 60: 89-100. PMid:3972752 Van Kaam JBCHM (1997). Gibanal: Analyzing Program for Markov Chain Monte Carlo Sequences, Version 2.4. Dept. Anim. Sci., Wageningen Agric. Univ., Wageningen. Van Tassell CP and Van Vleck LD (1996). Multiple-trait Gibbs Sampler for animal models: flexible programs for bayesian and likelihood-based (co)variance component inference. J. Anim. Sci. 74: 2586-2597. PMid:8923173 Wang CS, Rutledge JJ and Gianola D (1993). Marginal inferences about variance components in a mixed linear model using Gibbs sampling. Genet. Sel. Evol. 25: 41-62. PMCid:2710359 Yokoo MJI, Albuquerque LG, Lôbo RB, Sainz RD, et al. (2007). Estimativas de parâmetros genéticos para altura do posterior, peso e circunferência escrotal em bovinos da raça Nelore. Rev. Bras. Zootec. 36: 1761-1768.
M. H. Van Melis, Oliveira, H. N., Eler, J. P., Ferraz, J. B. S., Casellas, J., and Varona, L., Additive genetic relationship of longevity with fertility and production traits in Nellore cattle based on bivariate models, vol. 9, pp. 176-187, 2010.
Albert JH and Chib S (2001). Sequential ordinal modeling with applications to survival data. Biometrics 57: 829-836. PMid:11550934   Averill T, Rekaya R and Weigel K (2006). Random regression models for male and female fertility evaluation using longitudinal binary data. J. Dairy Sci. 89: 3681-3689.   Bourdon RM and Brinks JS (1986). Scrotal circumference in yearling Hereford bulls: adjustment factors, heritabilities and genetic, environmental and phenotypic relationships with growth traits. J. Anim. Sci. 62: 958-967. PMid:3710937   Caraviello DZ, Weigel KA, Shook GE and Ruegg PL (2005). Assessment of the impact of somatic cell count on functional longevity in Holstein and Jersey cattle using survival analysis methodology. J. Dairy Sci. 88: 804-811.   Cardoso FF, Cardellino RA and Campos LT (2004). (Co) variance components and genetic parameters of post-weaning traits in Angus cattle. R. Bras. Zootec. 33: 313-319.   Cox DR (1972). Regression models and life-tables. J. R. Stat. Soc. Ser. B Stat. Methodol. 34: 187-220.   Damgaard LH and Korsgaard IR (2006). A bivariate quantitative genetic model for a linear Gaussian trait and a survival trait. Genet. Sel. Evol. 38: 45-64. PMid:16451791 PMCid:2689298   de Jong G, Vollema AR, van der Beek S and Harbers A (1999). Breeding value for functional longevity in the Netherlands. Interbull Bull. 21: 68-72.   Doyle SP, Golden BL, Green RD and Brinks JS (2000). Additive genetic parameter estimates for heifer pregnancy and subsequent reproduction in Angus females. J. Anim. Sci. 78: 2091-2098. PMid:10947093   Ducrocq V (1999). Extension of survival analysis models to discrete measures of longevity. Interbull Bull. 21: 41-48.   Ducrocq V and Casella G (1996). A Bayesian analysis of mixed survival models. Genet. Sel. Evol. 28: 505-529. PMCid:2708295   Ducrocq V, Quaas RL and Pollak EJ (1988). Length of productive life of dairy cows. 2. Variance component estimation and sire evaluation. J. Dairy Sci. 71: 3071-3079.   Eler JP, Silva JA, Ferraz JB, Dias F, et al. (2002). Genetic evaluation of the probability of pregnancy at 14 months for Nellore heifers. J. Anim. Sci. 80: 951-954. PMid:12002332   Eler JP, Silva JA, Evans JL, Ferraz JB, et al. (2004). Additive genetic relationships between heifer pregnancy and scrotal circumference in Nellore cattle. J. Anim. Sci. 82: 2519-2527. PMid:15452919   Eler JP, Ferraz JB, Balieiro JC, Mattos EC, et al. (2006). Genetic correlation between heifer pregnancy and scrotal circumference measured at 15 and 18 months of age in Nellore cattle. Genet. Mol. Res. 5: 569-580. PMid:17183470   Eriksson S, Näsholm A, Johansson K and Philipsson J (2002). Genetic analysis of post-weaning gain of Swedish beef cattle recorded under field conditions and at station performance testing. Livest. Prod. Sci. 76: 91-101.   Evans JL, Golden BL, Bourdon RM and Long KL (1999). Additive genetic relationships between heifer pregnancy and scrotal circumference in Hereford cattle. J. Anim. Sci. 77: 2621-2628. PMid:10521020   Forni S, Federici JF and Albuquerque LG (2007). Genetic trends in Nelore cattle selected for visual scores of conformation, precocity and musculature at weaning. R. Bras. Zootec. 36: 572-577.   Gelfand AE and Smith AFM (1990). Sampling-based approaches to calculating marginal densities. J. Am. Stat. Assoc. 85: 398-409.   González-Recio O and Alenda R (2007). Genetic relationship of discrete-time survival with fertility and production in dairy cattle using bivariate models. Genet. Sel. Evol. 39: 391-404. PMid:17612479 PMCid:2682818   González-Recio O, Chang YM, Gianola D and Weigel KA (2005). Number of inseminations to conception in Holstein cows using censored records and time-dependent covariates. J. Dairy Sci. 88: 3655-3662.   Horimoto AR, Ferraz JB, Balieiro JC and Eler JP (2007). Phenotypic and genetic correlations for body structure scores (frame) with productive traits and index for CEIP classification in Nellore beef cattle. Genet. Mol. Res. 6: 188-196. PMid:17469068   Martínez GE, Koch RM, Cundiff LV, Gregory KE, et al. (2004). Genetic parameters for six measures of length of productive life and three measures of lifetime production by 6 yr after first calving for Hereford cows. J. Anim. Sci. 82: 1912-1918. PMid:15309936   Martínez-Velázquez G, Gregory KE, Bennett GL and Van Vleck LD (2003). Genetic relationships between scrotal circumference and female reproductive traits. J. Anim. Sci. 81: 395-401. PMid:12643482   Melton BE (1995). Conception to Consumption: The Economics of Genetic Improvement. In: Proceedings of the Beef Improvement Federation, 27, Research Symposium and Annual Meeting, Sheridan, 40-47.   Moreno C, Sorensen D, García-Cortés LA, Varona L, et al. (1997). On biased inferences about variance components in the binary threshold model. Genet. Sel. Evol. 29: 145-160. PMCid:2708209   Newman S, Morris CA, Baker RL and Nicoll GB (1992). Genetic improvement of beef cattle in New Zealand: Breeding objectives. Livest. Prod. Sci. 32: 111-130.   Nguti R, Burzykowski T, Rowlands J, Renard D, et al. (2005). Joint modelling of repeated measurements and event time: application to performance traits and survival of lambs bred in sub-humid tropics. Genet. Sel. Evol. 37: 175-197. PMid:16194523 PMCid:2697229   Pereira E, Oliveira HN, Eler JP, Silva JA II V, et al. (2007). Comparison among three approaches for evaluation of sexual precocity in Nellore cattle. Animal 1: 411-418. PMid:22444339   Phocas F, Bloch C, Chapelle P, Bécherel F, et al. (1998). Developing a breeding objective for a French purebred beef cattle selection programme. Livest. Prod. Sci. 57: 49-65.   Prentice RL and Gloeckler LA (1978). Regression analysis of grouped survival data with application to breast cancer data. Biometrics 34: 57-67. PMid:630037   Reverter A, Golden BL, Bourdon RM and Brinks JS (1994). Method R variance components procedure: application on the simple breeding value model. J. Anim. Sci. 72: 2247-2253. PMid:8002443   Silva JA II V, Formigoni IB, Eler JP and Ferraz JBS (2006). Genetic relationship among stayability, scrotal circumference and post-weaning weight in Nelore cattle. Livest. Sci. 99: 51-59.   Smith BA, Brinks JS and Richardson GV (1989). Estimation of genetic parameters among reproductive and growth traits in yearling heifers. J. Anim. Sci. 67: 2886-2891. PMid:2592277   Sorensen DA, Andersen S, Gianola D and Korsgaard I (1995). Bayesian inference in threshold models using Gibbs sampling. Genet. Sel. Evol. 27: 229-249. PMCid:2708245   Speidel SE, Enns RM and Garrick DJ (2007). Weaning weight inheritance in environments classified by maternal body weight change. J. Anim. Sci. 85: 610-617. PMid:17085734   Tanner MA and Wong WH (1987). The calculation of posterior distributions by data augmentation. J. Am. Stat. Assoc. 82: 528-540.   Tarrés J, Piedrafita J and Ducrocq V (2006). Validation of an approximate approach to compute genetic correlations between longevity and linear traits. Genet. Sel. Evol. 38: 65-83. PMid:16451792 PMCid:2689299   Tutz G (1990). Sequential item response models with an ordered response. Br. J. Math. Stat. Psychol. 43: 39-55.   Tutz G (1991). Sequential models in categorical regression. Comput. Stat. Data Anal. 11: 275-295.   Van Melis MH, Eler JP, Silva JA II V and Ferraz JBS (2003). Estimate of genetic parameters in beef cattle using restricted maximun likelihood and method Â. Rev. Bras. Zootec. 32: 1624-1632.   Van Melis MH, Eler JP, Oliveira HN, Rosa GJ, et al. (2007). Study of stayability in Nellore cows using a threshold model. J. Anim. Sci. 85: 1780-1786. PMid:17371792   Vollema AR and Groen AF (1997). Genetic correlations between longevity and conformation traits in an upgrading dairy cattle population. J. Dairy Sci. 80: 3006-3014.
G. B. Veneroni, Meirelles, S. L., Grossi, D. A., Gasparin, G., Ibelli, A. M. G., Tizioto, P. C., Oliveira, H. N., Alencar, M. M., and Regitano, L. C. A., Prospecting candidate SNPs for backfat in Canchim beef cattle, vol. 9, pp. 1997-2003, 2010.
Ballard FJ, Ross M, Upton FM and Francis GL (1988). Specific binding of insulin-like growth factors 1 and 2 to the type 1 and type 2 receptors respectively. Biochem. J. 249: 721-726. PMid:2965574 PMCid:1148766   Barendse W, Bunch R, Thomas M, Armitage S, et al. (2001). The TG5 DNA marker test for marbling capacity in Australian feedlot cattle. In: Proceedings of the Beef Quality CRC Marbling Symposium, October 9-10, Coffs Harbour, 30-35. Available at []. Accessed March 9, 2003.   Boldman KG, Kriese LA, Van Vleck LD, Van Tassell CP, et al. (1995). A Manual for Use of MTDFREML. A Set of Programs to Obtain Estimates of Variances and Covariances (DRAFT). Department of Agriculture, Agricultural Research Service, Lincoln.   Buchanan FC, Fitzsimmons CJ, Van Kessel AG, Thue TD, et al. (2002). Association of a missense mutation in the bovine leptin gene with carcass fat content and leptin mRNA levels. Genet. Sel. Evol. 34: 105-116. PMid:11929627 PMCid:2705418   Buitkamp J and Semmer J (2004). A robust, low- to medium-throughput prnp genotyping system in sheep. BMC Infect. Dis. 4: 30. PMid:15345029 PMCid:517712   Casas E, White SN, Riley DG, Smith TP, et al. (2005). Assessment of single nucleotide polymorphisms in genes residing on chromosomes 14 and 29 for association with carcass composition traits in Bos indicus cattle. J. Anim. Sci. 83: 13-19. PMid:15583037   Casas E, Wheeler TL, Shackelford SD, Bennett GL, et al. (2009). Association of Single Nucleotide Polymorphisms in Candidate Genes Residing Under Quantitative Trait Loci in Beef Cattle (abstract). Plant and Animal Genome XVII Conference, Poster No. P477, January 10-14, San Diego.   Gan QF, Zhang LP, Li JY, Hou GY, et al. (2008). Association analysis of thyroglobulin gene variants with carcass and meat quality traits in beef cattle. J. Appl. Genet. 49: 251-255. PMid:18670061   Gilmour AR, Cullis BR, Welham SJ and Thompson DR (2000). ASREML Reference Manual. IACR-Rothamsted Experimental Station, Harpenden.   Hall TA (1999). BioEdit: a user-friendly biological sequence alignment editor and analysis program for Windows 95/98/ NT. Nucleic Acids Symp. Ser. 41: 95-98.   King FJ, Hu E, Harris DF, Sarraf P, et al. (1999). DEF-1, a novel Src SH3 binding protein that promotes adipogenesis in fibroblastic cell lines. Mol. Cell Biol. 19: 2330-2337. PMid:10022919 PMCid:84025   Mizoguchi Y, Watanabe T, Fujinaka K, Iwamoto E, et al. (2006). Mapping of quantitative trait loci for carcass traits in a Japanese Black (Wagyu) cattle population. Anim. Genet. 37: 51-54. PMid:16441296   Mood AM, Graybill FA and Boes DC (1974). Tests of Hypotheses. In: Introduction to the Theory of Statistics (Mood AM, Graybill FA and Boes DC, eds.). McGraw-Hill, Tokyo, 401-470.   Moore SS, Li C, Basarab J, Snelling WM, et al. (2003). Fine mapping of quantitative trait loci and assessment of positional candidate genes for backfat on bovine chromosome 14 in a commercial line of Bos taurus. J. Anim. Sci. 81: 1919-1925. PMid:12926773   Rincker CB, Pyatt NA, Berger LL and Faulkner DB (2006). Relationship among GeneSTAR marbling marker, intramuscular fat deposition, and expected progeny differences in early weaned Simmental steers. J. Anim. Sci. 84: 686-693. PMid:16478961   Schenkel FS, Miller SP, Ye X, Moore SS, et al. (2005). Association of single nucleotide polymorphisms in the leptin gene with carcass and meat quality traits of beef cattle. J. Anim. Sci. 83: 2009-2020. PMid:16100055   Sherman EL, Nkrumah JD, Murdoch BM, Li C, et al. (2008). Polymorphisms and haplotypes in the bovine neuropeptide Y, growth hormone receptor, ghrelin, insulin-like growth factor 2, and uncoupling proteins 2 and 3 genes and their associations with measures of growth, performance, feed efficiency, and carcass merit in beef cattle. J. Anim. Sci. 86: 1-16. PMid:17785604   Souren NY, Zeegers MP, Janssen RG, Steyls A, et al. (2008). Anthropometry, carbohydrate and lipid metabolism in the East Flanders Prospective Twin Survey: linkage of candidate genes using two sib-pair based variance components analyses. Twin Res. Hum. Genet. 11: 505-516. PMid:18828733   Stone RT, Kappes SM and Beattie C (1996). Two polymorphic within an 18 kb genomic clone containing the bovine ob gene. Proceedings of the 25th International Conference on Animal Genetics. Tours, France, July 21-25 (Abstracts). Anim. Genet. 27 (Suppl 2): 64.   Thompson JD, Higgins DG and Gibson TJ (1994). CLUSTAL W: improving the sensitivity of progressive multiple sequence alignment through sequence weighting, position-specific gap penalties and weight matrix choice. Nucleic Acids Res. 22: 4673-4680. PMid:7984417 PMCid:308517   Toledo-Corral CM, Roberts CK, Shaibi GQ, Lane CJ, et al. (2008). Insulin-like growth factor-I is inversely related to adiposity in overweight Latino children. J. Pediatr. Endocrinol. Metab. 21: 855-864. PMid:18924579