Return to search

Polimorfismo do gene MSTN e do SNP BIEC2-808543 e sua rela??o com crescimento de potros da ra?a brasileiro de hipismo / Polymorphism of MSTN gene and SNP BEC2-808543 and its relation to growth of Brasileiro de Hipismo foals

Submitted by Sandra Pereira (srpereira@ufrrj.br) on 2017-01-25T15:40:39Z
No. of bitstreams: 1
2015 - ?rica Cristina Xisto da Costa.pdf: 2608729 bytes, checksum: a906abcd8f725dc6509fedcf8de9e08c (MD5) / Made available in DSpace on 2017-01-25T15:40:39Z (GMT). No. of bitstreams: 1
2015 - ?rica Cristina Xisto da Costa.pdf: 2608729 bytes, checksum: a906abcd8f725dc6509fedcf8de9e08c (MD5)
Previous issue date: 2015-07-31 / Coordena??o de Aperfei?oamento de Pessoal de N?vel Superior - CAPES / The gene encoding myostatin (MSTN), located on chromosome 18 (ECA 18) and the SNP
BIEC2-808543 located in the intergenic region, which precedes the gene encoding the protein
similar to the nuclear corepressor receptor dependent binder (LCORL), located on chromosome
3 (ACE 3) in horses, both positioned in regions that are associated with conformational traits
of these animals. In view of this, we aimed to identify if the variations described in MSTN and
LCORL loci exist in the study population; and to identify the effects of these polymorphisms
on the growth profiles of these animals. For this purpose, the characteristics measured were
weight, height at withers and hip height of foals at different ages, belonging to the Coudelaria
e Campo de Instru??o de Rinc?o do Ex?rcito Brasileiro. Nonlinear mixed models were adjusted
resulting from the combination of six nonlinear simple models, Brody (1945), Gompertz
(Winsor, 1932), Logistics (Ratkowski, 1983), Von Bertalanffy (1957), generalized Michaelis-
Menten (Lopez et al., 2000) and Richards (1959) associated with four types of variance
functions for each model, homogeneous, exponential, asymptotic and staggered. The
polymorphism described in the promoter region of the MSTN gene was not found in the studied
population, in which there has been only the T allele, however the BIEC2-808543
polymorphism, located in the region prior to the LCORL gene is significantly associated (P <0,
05) to the characteristics evaluated, in which the animals who presented the genotype TT were
smaller and lighter when compared to the other genotypes. There was no significant difference
between animals with CT and CC genotype. The model that best describes the growth curve for
body mass variance is the model of Brody (1945) associated with the scaled variance for the
variable height at the withers the model that best fit was the Von Bertalanffy (1957) (adjusted
without polymorphism effect in b) parameter associated with the asymptotic variance and the
characteristic hip height the model that best described was that of Brody (1945) associated with
the asymptotic variance, explaining that the nonlinear mixed models are indeed promising to
describe equine growth curves, for the simple models did not differ much among themselves
what defined in fact the selection of the model was the variance, being for body mass staggered
variance and the height at the withers and on the back, the asymptotic variance. This
polymorphism can be used as molecular markers for early selection of foals as to the
characteristics evaluated / O gene que codifica a miostatina (MSTN), localizado no cromossomo 18 (ECA 18) e o SNP
BIEC2-808543 localizado na regi?o interg?nica que antecede o gene que codifica a prote?na
semelhante a correpressor de receptor nuclear dependente de ligante (LCORL), localizado no
cromossomo 3 (ECA 3) de cavalos, ambos posicionados em regi?es que est?o associadas ?s
caracter?sticas conformacionais destes animais. Diante disto, objetivamos identificar se as
varia??es descritas nos loci MSTN e LCORL, existem na popula??o em estudo; al?m de verificar
os efeitos desses polimorfismos sobre os perfis de crescimento desses animais. Com este intuito
foram mensuradas as caracter?sticas massa corporal, altura na cernelha e altura na garupa de
potros em diversas faixas et?rias, pertencentes ? Coudelaria e Campo de Instru??o de Rinc?o
do Ex?rcito Brasileiro. Foram ajustados modelos n?o lineares mistos que resultaram da
combina??o de seis modelos n?o lineares simples, Brody (1945), Gompertz (Winsor, 1932),
Log?stico (Ratkowski, 1983), Von Bertalanffy (1957), Michaelis-Menten generalizado (L?pez
et al., 2000) e Richards (1959), associados a quatro tipos de fun??es de vari?ncia para cada
modelo, homog?nea, exponencial, assint?tica e escalonada. O polimorfismo descrito na regi?o
promotora do gene MSTN n?o foi encontrado na popula??o estudada, na qual observa-se apenas
o alelo T, entretanto o polimorfismo BIEC2-808543, localizado na regi?o que antecede o gene
LCORL, est? significativamente associado (P<0,05) ?s caracter?sticas avaliadas, sendo os
animais que apresentaram o gen?tipo TT menores e mais leves quando comparado com os
demais gen?tipos. N?o foi observada diferen?a significativa entre os animais com gen?tipo TC
e CC. O modelo que melhor descreve a curva de crescimento para a vari?vel massa corporal ?
o modelo de Brody (1945) associado com a vari?ncia escalonada, para a vari?vel altura na
cernelha o modelo que melhor se ajustou foi o de Von Bertalanffy (1957) (ajustado sem efeito
de polimorfismo no par?metro b) associado com a vari?ncia assint?tica e para a caracter?stica
altura na garupa o modelo que melhor a descreveu foi o de Brody (1945) associado ? vari?ncia
assint?tica, elucidando que os modelos n?o-lineares mistos s?o de fato promissores para a
descri??o de curvas de crescimento de equinos, pois os modelos simples n?o diferiram muito
entre si o que definiu de fato a sele??o do modelo foi a vari?ncia, sendo para massa corporal a
vari?ncia escalonada e para as alturas, na cernelha e na garupa, a vari?ncia assint?tica. Este
polimorfismo pode ser utilizado como marcador molecular para sele??o precoce de potros
quanto ?s caracter?sticas avaliadas

Identiferoai:union.ndltd.org:IBICT/oai:localhost:jspui/1392
Date31 July 2015
CreatorsCosta, ?rica Cristina Xisto da
ContributorsSoares, Maria Am?lia Menck, Melo, Ana L?cia Puerro de, Vieira, Ricardo Augusto Mendon?a, Gl?ria, Leonardo Siqueira
PublisherUniversidade Federal Rural do Rio de Janeiro, Programa de P?s-Gradua??o em Zootecnia, UFRRJ, Brasil, Instituto de Zootecnia
Source SetsIBICT Brazilian ETDs
LanguagePortuguese
Detected LanguageEnglish
Typeinfo:eu-repo/semantics/publishedVersion, info:eu-repo/semantics/masterThesis
Formatapplication/pdf
Sourcereponame:Biblioteca Digital de Teses e Dissertações da UFRRJ, instname:Universidade Federal Rural do Rio de Janeiro, instacron:UFRRJ
Rightsinfo:eu-repo/semantics/openAccess
Relation6 REFER?NCIAS BIBLIOGR?FICAS ABCCH ? Associa??o Brasileira dos Criadores de Cavalo de Hipismo. Regulamento do Stud Book Brasileiro do Cavalo de Hipismo. Dispon?vel em: <http://www.brasileirodehipismo.com.br/upload/arquivos/REGULAMENTO_STUDBOOK_ FINAL_2011.pdf>. Acesso em: 29 jul. 2013. AKAIKE, H. A new look at the statistical model identification. Automatic Control, IEEE Transactions on, v.19, n.6, p.716-723, 1974. ALMEIDA, M. I. V.; MARTINS FILHO, S.; OLIVEIRA, J. E. G. Aplica??o da identidade de modelos na an?lise de dados de crescimento de eq?inos. In: Escola de Modelos de Regress?o, 2011, Fortaleza, CE. Anais.. XII Escola de Modelos de Regress?o. Fortaleza, 2011. v.01, p.1- 4, 2011. BAKHTIARI, J.; HESHMAT, G. Estimation of genetic parameters of conformation traits in Iranian Thoroughbred horses. Livestock Science, v.123, n.2, p.116-120, 2009. BARBOSA, C. G. Estudo morfom?trico na ra?a Mangalarga Marchador. Uma abordagem multivariada. 1993. Disserta??o (Mestrado em Zootecnia). Escola de Veterin?ria. Universidade Federal de Minas Gerais, Belo Horizonte. BARD, Y. Nonlinear Parameter Estimation. New York: Academic Press, Inc., v.513, 1974. BARON, E. E., LOPES, M. S., MENDON?A, D., MACHADO, A. C. SNP identification and polymorphism analysis in exon 2 of the horse myostatin gene. Animal Genetics, v.43, n.2, p.229-232, 2012. BINNS, M. M.; BOEHLER, D. A.; LAMBERT, D. H. Identification of the myostatin locus (MSTN) as having a major effect on optimum racing distance in the Thoronghbred horse in de USA. Animal Genetics, v.41, suppl.2, p.154-158, 2010. BOMAN, A., KLEMETSDAL, G., BLICHFELDT,T., NAFSTAD, O., VAGE, D. I.M. A frame shift mutation in the coding region of the myostatin gene (MSTN) a ffects carcass conformation and fatness in Norwegian White Sheep (Ovis aries). Animal Genetics, v.40, n.4, p.418-422, 2009. BRODY, S.; RAGSDALE, A. C.; TURNER, C. W. The relation between the initial rise and the subsequent decline of milk secretion following parturition. The Journal of General Physiology, v.6, n.5, p.541-545, 1924. BRODY, S. Bioenergetics and Growth. New York: Reinhold Publ. Co. p.1-1023, 1945. BROOKS, S. A.; GABRESKI, N.; MILLER, D.; BRISBIN, A.; BROWN, H. E.; STREETER, C.; MEZEY, J.; COOK, D.; ANTCZAK, D. F. Whole-genome SNP association in the horse: Identification of a deletion in myosin V a responsible for Lavender Foal Syndrome. PLoS. Genetics, v.6, n.4, p.e1000909, 2010. BURNHAM, K.P. & ANDERSON, D. R. Multimodel inference: understanding AIC and BIC in model selection. Sociological Methods & Research v.33, n.2, p.261-304, 2004. 42 CABRAL, G.C.; ALMEIDA. F.Q.; QUIRINO, C. R.; PINTO. L. F. B.; SANTOS E. M.; CORASSA, A. Avalia??o morfom?trica de equinos da ra?a Mangalarga Marchador: Medidas Lineares. Revista Brasileira de Zootecnia, v.33, n.4, p.989-1000, 2004a. CABRAL. G.C.; ALMEIDA. F.Q.; AZEVEDO. P.C.N.; QUIRINO C. R.; SANTOS E. M.; CORASSA, A.; PINTO. L. F. B. Avalia??o Morfom?trica de Equinos da Ra?a Mangalarga Marchador: Medidas Angulares. Revista Brasileira de Zootecnia, v.33, n.6, p.1790-1797. 2004b. CAMARGO, M.X.; CHIEFFI, A. Ezoogn?sia. S?o Paulo, CPA/ Instituto de Zootecnia, 1971. 320p. COLOG. Normas para o controle dos equ?deos no Ex?rcito Brasileiro (NORCE 2013 / EB40-N-30.001). Bras?lia: Minist?rio da Defesa, 53p., 2013. DALL?OLIO, S., FONTANESI, L., COSTA, L. N., TASSINARI, M., MINIERI, L., FALASCHINI, A. Analysis of horse myostatin gene and identification of single nucleotide polymorphisms in breeds of different morphological types. Journal of Biomedicine and Biotechnology, v.2010, 2010. DALL?OLIO, S., WANG, Y., SARTORI, C., FONTANESI, L., MONTOVANI, R. Association of myostatin (MSTN) gene polymorphisms with morphological traits in the italian heavy draft horse breed. Livestock Science, v.160, p.29-36, 2014. Dias, I. M. G., Bergmann, J. A. G., Rezende, A. S. C., Castro, G. H. F. Forma??o e estrutura populacional do eq?ino Brasileiro de Hipismo. Arquivo Brasileiro de Medicina Veterin?ria e Zootecnia, Belo Horizonte, v.52, n.6, p.647-654, 2000. Dispon?vel em: <http://www.scielo.br/scielo.php?script=sci_arttext&pid=S010209352000000600016&lng=pt &nrm=iso>. Acessos em: 08 jun. 2015. http://dx.doi.org/10.1590/S0102-09352000000600016. FARIA, R.; SILVA, M. A.; BUENO, R. S.; TORRES, R.A.; LOPES, P. S.; EUCLYDES, R. F.; PEREIRA, J. C. C.; BERGMAN, J; A. G.; FRIDRICH, A. B.; FERREIRA, I. C. Avalia??o gen?tica e fenot?pica de caracter?sticas de conforma??o em potros de tr?s ra?as equinas. Revista Ceres, v.51, p.333-344, 2004. FREITAS, A.R. Curvas de Crescimento na Produ??o Animal. Revista Brasileira de Zootecnia, v.34, n.3, p.786-795, 2005. GIESECKE, K.; HAMANN, H.; SIEME, H.; DISTL, O. INHBA-associated markers as candidates for stallion fertility. Reproduction in Domestic Animals, v.45, n.2, p.342-347, 2010. GIESECKE, K.; SIEME, H.; DISTL, O. Infertility and candidate gene markers for fertility in stallions: A review. The Veterinary Journal, v.185, n.3, p.265-271, 2010. GODOI, F.N., Avalia??o cinem?tica de vari?veis relacionadas ao resultado dos saltos de potros. 2012, 149p. Tese (Doutorado em Zootecnia) ? Escola de Veterin?ria, Universidade Federal de Minas Gerais, Belo Horizonte, 2012. 43 GODOI, F.N.; BERGMANN, J. A. G.; ALMEIDA, F. Q.; SANTOS, D. C. C.; MIRANDA, A. L. S.; VASCONCELOS, F. O.; OLIVEIRA, J. E. G.; KAIPPER, R. R., ANDRADE, A. M. Morfologia de potros da ra?a Brasileiro de Hipismo. Ci?ncia Rural, v.43, n.4, p.736-742, 2013. GONZALEZ-CADAVID, N. F., TAYLOR, W. E., YARASHESKI, K., SINHA-HIKIM, I., MA, K., EZZAT, S., BHASIN, S. Organization of the human myostatin gene and expression in healthy men and HIV-infected men with muscle wasting, Proceedings of the National Academy of Sciences of the United States of America, v.95, n.25, p.14938-14943, 1998. GROBET, L., PONCELET, D., ROYO, L. J., BROUWERS, B., PIROTTIN, D., MICHAUX, C., GEORGES, M. Molecular definition of an allelic series of mutations disrupting the myostatin function and causing double-muscling in cattle, Mammalian Genome, v.9, n.3, p.210-213, 1998. GU, J.; MACHUGH, D. E.; MCGIVNEY, B. S.; PARK, S. D. E.; KATZ, L. M.; HILL, E. W. Association of sequence variants in CKM (creatine kinase, muscle) and COX4/2 (cytochrome c oxidase, subunit 4, isoform 2) genes with racing performance in Thoroughbred horses. Equine Veterinary Journal, v.42, n.38, p.569-575, 2010. GU, J.; ORR, N.; PARK, S. D. E.; KATZ, L. M.; SULIMOVA, G.; MacHUGH, D. E.; HILL, E. W. A genome scan for positive selection in Thoroughbred horses. PLoS one, v.4, n.6, p.e5767, 2009. HILL, E. W.; GU, J.; EIVERS, S. S.; FONSECA, G. R.; MCGIVNEY, B. A.; GOVINDARAJAN, P.; ORR, N.; KATZ, L. M.; MACHUGH, D. A Sequence Polymorphism in MSTN Predicts Sprinting Ability and Racing Stamina in Thoroughbred Horses. PLoS ONE, v.5, n.1, p.e8645, 2010a. HILL, E. W.; MCGIVNEY, B. A.; GU, J.; WHISTON, R.; MACHUGH, D. E. A genome-wide SNP-association study confirms a sequence variant (g.66493737C>T) in the equine myostatin (MSTN) gene as the most powerful predictor of optimum racing distance for Thoroughbred racehorses. BMC Genomics v.11, n.1, p.552-559, 2010b. HINTZ, H.F.; HINTZ, R.L.; VAN VLECK, L.D. Growth rate of thoroughbreds. Effect of age of dam, year and month of birth, and sex of foal. Journal of Animal Science, v.48, n.3, p.480- 487, 1979. HOLMTR?M, M. How do we recognize elite Show Jumpers. In: Conference on Equine Sports Medicine and Science. The elite show jumper, Sicily, Italy. Proceedings, CESMAS. p.45-56, 2000. HORVAT, S., MEDRANO, J.F. 1995. Interval mapping of high growth (hg), a major locus that increaswes weight gain in mice. Genetics, v.139, n.4, p.1737-1748, 1995. JORD?O, L. P.; CAMARGO, M. X. Estudo sobre algumas medidas do cavalo Mangalarga criado na Coudelaria Paulista. Boletim da Ind?stria Animal, v.11, p.81-95, 1950. LINDHOLM-PERRY, A. K.; SEXTEN, A. K.; KUEHN, L. A.; SMITH, T. P. L.; D ANDY KING, D. A.; SHACKELFORD, S. D.; WHEELER, T. L.; FERRELL1, C. L.; JENKINS,T. G.; SNELLING, W. M.; FREETLY, H. C. Association, effects and validation of 44 polymorphisms within the NCAPG - LCORL locus located on BTA6 with feed intake, gain, meat and carcass traits in beef cattle. BMC Genetics, v.12, n.1, p.103-116, 2011. LINDHOLM-PERRY, A. K.; KUEHN, L. A.; OLIVER, W. T.; SEXTEN, A. K.; MILES, J. R.; REMPEL, L. A.; CUSHMAN, R. A.; FREETLY, H. C. Adipose and Muscle Tissue Gene Expression of Two Genes (NCAPG and LCORL) Located in a Chromosomal Region Associated with Cattle Feed Intake and Gain. PLoS ONE, v.8, n.11, p.e80882, 2013. L?PEZS, S.; FRANCE, J., GERRITS, W. J. J.; DHANOA, M. S., HUMPHRIES, D. J.; DIJKSTRA, J. A generalized Michaelis-Menten equation for the analysis of growth. Journal of Animal Science, v.78, n.7, p.1816?1828, 2000. LUSZCZYNSKI, J.; PIESZKA, M.; KOSINIAK-KAMYSZ K. Effect of horse breed and sex on growth rate and radiographic closure time of distal radial metaphyseal Growth plate. Livestock Science, v.141, n.2, p.252-258, 2011 MAKVANDI-NEJAD, S.; HOFFMAN, G. E.; ALLEN, J. J.; CHU, E., GU, E., CHANDLER, A. M., SUTTER, N. B. Four loci explain 83% of size variation in the horse. PLoS ONE, v.7, n.7, p.e39929, 2012. MAYR, E. 1963. Animal species and evolution. Cambridge, Massachusetts: Belknap Press of Harvard University Press, 1963. MARTIN-ROSSET, W. Growth and development in the equine. In: The Growing Horse: Nutrition and Prevention of Growth Disorders, Eds: V. Juliand; W. Martin-Rosset, Wageningen Academic Publishers, Wageningen, The Netherlands. v.114, p.15-50, 2005. MATIS, J. H.; HARTLEY, H. O. Stochastic compartmental analysis: model and least squares estimation from time series data. Biometrics v.27, p.77?102, 1971. MARCHITELLI, C.; SAVARESE, M. C.; CRISA, A.; NARDONE, A.; MARSAN, P.A.; VALENTIN, A. Double muscling in Marchigiana beef breed is caused by a stop codon in the third exon of myostatin gene. Mammalian Genome, v.14, n.6, p.392-395, 2003. McGIVNEY, B. A.; BROWNE, J. A.; FONSECA, R. G.; KATZ, L. M.; MACHUGH, D. E.; WHISTON, R.; HILL, E. W. MSTN genotypes in Thoroughbred horses influence skeletal muscle gene expression and racetrack performance. Animal Genetics. v.43, n.6, p.810-812, 2012. McMANUS, C.; LOUVANDINI, H; CAMPOS, V. A. L. Non-linear growth curves for weight and height in four genetic groups of horses. Ci?ncia Animal Brasileira, v.11, n.1, p.80-89, 2010. McPHERRON, A. C., LAWLER, A. M.; LEE, S. J. Regulation of skeletal muscle mass in mice by a new TGF-? superfamily member. Nature, v.387, n.6628, p.83-90, 1997. MEIRA, C. T.; FARAH, M. M.; FORTES, M. R. S.; MOORE, S. S.; PEREIRA, G. L., SILVA, J. A. V. S.; MOTA M. D. S.; CURI, R. A. A genome-wide association stud for morphometric traits in quarter horse. Journal of Equine Veterinary Science. v.34, n.8, p.1028-1031, 2014. 45 METZGER, J.; SCHRIMPF, R.; PHILIPP, U.; DISTL, O. Expression Levels of LCORL Are Associated with Body Size in Horses. PLoS ONE, v.8, n.2, p.e56497, 2013. MOSHER, D. S., QUIGNON, P., BUSTAMANTEETAL, C. D.; Sutter, N. B.; Mellersh, C. S.; Parker, H. G.; Ostrander, E. A. Amutation in the myostatin gene increases muscle mass and enhances racing performance in heterozygote dogs. PLoS Genetics, v.3, n.5, p.e79, 2007. MOTA, M. D. S.; OLIVEIRA, H. N.; PUOLI FILHO, J. N. P. Avalia??o do crescimento em potros da ra?a Quarto de Milha. Revista Eletr?nica de Veterin?ria. v.11, n.1, p.1-10, 2010. NATIONAL RESEARCH COUNCIL - NRC. Nutrient requirements of horses. 6? ed. Rev. Washington, D.C.: National Academies Press, 2007. 341p. OOM, M. M.; FERREIRA, J. C. Estudo biom?trico do cavalo Alter. Revista Portuguesa de Ci?ncias Veterin?rias, v.83, n.482, p.101-148, 1987. PALIJAN, A.; FERNANDES, I.; VERWAY, M.; KOURELIS, M.; BASTIEN, Y.; TAVERAMENDOZA, L. E.; SACHELI, A.; BOURDEAU, V.; MADER, S.; WHITE, J. H. Liganddependent corepressor LCoR is a attenuator of progesterone-regulated gene expression. The Journal of Biological Chemistry. v.284, n.44, p.30275-30287, 2009. PAZ, C. C. P. Associa??o entre polimorfismos gen?ticos e par?metros da curva de crescimento de bovinos de corte. 2002, 120p. Tese (Doutorado em Agronomia) ? Escola Superior de Agricultura ?Luiz de Queiroz?, Universidade de S?o Paulo, Piracicaba, S?o Paulo, 2002. PEARL, R. & REED, L. J. On the mathematical theory of population growth. Metron, v.3, n.1, p.6-19, 1923. PETERSEN, J. L.; MICKELSON, J. R.; RENDAHL, A. K.; VALBERG, S. J.; ANDERSSON, L. S.; AXELSSON, J.; BAILEY, E.; BANNASCH, D.; BINNS, M. M.; BORGES, A. S.; BRAMA, P.; MACHADO, A. C.; CAPOMACCIO, S.; CAPPELLI, K.; COTHRAN, E. G.; DISTL,O.; FOX-CLIPSHAM, L.; GRAVES, K. T.; GU?RIN, G.; HAASE, B.; HASEGAWA, T.; HEMMANN, K.; HILL, E. W.; LEEB, T.; LINDGREN, G.; LOHI, H.; LOPES, M. S.; MCGIVNEY, B. A.; MIKKO, S.; ORR, N.; PENEDO, M. C. T.; PIERCY, R. J.; RAEKALLIO, M.; RIEDER, S.; ROED, K. H.; SWINBURNE, J.; TOZAKI, T.; VAUDIN, M.; WADE, C. M.; MCCUE, M. E. Genome-Wide Analysis Reveals Selection for Important Traits in Domestic Horse Breeds. PLoS one, v.9, n.1, p.e1003211, 2013. PINTO, L. F. B.; ALMEIDA, F. Q.; QUIRINO, C. R.; AZEVEDO, P. C. N.; CABRAL, G. C.; CORASSA, A. An?lise multivariada das medidas morfom?tricas de potros da ra?a Mangalarga Marchador: an?lise de componentes principais. Revista Brasileira de Zootecnia, v.34, n.2, p.589-599, 2005. PINTO, L.F.B.; ALMEIDA, F.Q.; QUIRINO, C.R.; AZEVEDO. P.C.N.; CABRAL, G.C.; SANTOS E.M.; CORASSA, A. Evaluation of the sexual dimorphism in Mangalarga Marchador horses using discriminant analysis. Livestock Science, v.119, n.1, p.161-166, 2008. REGATIERI, I. C.; MOTA, M. D. S., Melhoramento gen?tico de equinos: Aspectos Bioqu?micos. ARS VETERINARIA, Jaboticabal, SP, v.28, n.4, p.227-233, 2012. 46 REISSMANN, M.; BIERWOLF, J.; BROCKMANN, G. A. Two SNPs in the SILV gene are associated in silver coat colour in ponies. Animal Genetics, v.38, n.1, p.1-6, 2007. RICHARDS, F. J. A flexible growth function for empirical use. Journal of Experimental Botany, v.10, n.2, p.290-301, 1959. RINGLER, J.E.; LAWRENCE, L.M. Comparison of Thoroughbred growth data to body weights predicted by the NRC. Journal of Equine Veterinary Science, v.28, n.2, p.97-101, 2008. ROCHA, N. S., VIEIRA, R. A. M., ABREU, M. L. C., ARAUJO, R. P., GL?RIA, L. S., TAMY, W. P., CAMISA NOVA, C. H. P.; FERNANDES, A. M. Traditional and biphasic nonlinear models to describe the growth of goat kids of specialized dairy breeds. Small Ruminant Research v.123, n.1, p.35-46, 2015. RATKOWSKI, D. A. Nonlinear regression modeling: a unified practical approach. Marcel Dekker, New York, 1983. SANGER F.; NICKLEN S.; COULSON A. R. DNA sequencing with chain-terminating inhibitors. Proceedings of the National Academy of Science of the United States of America, v.74, n.12, p.5463-5467, 1977 SANTOS, S.A.; CARVALHO, R.T.L.; COUTO, H.T.; MAZZA, M.C.M. Influ?ncia de alguns fatores ambientais sobre caracter?sticas de crescimento de cavalos Brasileiro de Hipismo at? um ano de idade. Pesquisa Agropecu?ria Brasileira, v.27, n.1, p.171-179, 1992. SANTOS, S. A.; SOUZA, G. S.; OLIVEIRA, M. R.; SERENO, J. R. Using nonlinear models to describe height growth in pantaneiro horses. Pesquisa Agropecu?ria Brasileira, v.34, n.7, p.1133-1138, 1999 SANTOS, S. A.; SOUZA, G. S.; ABREU, U. G. P.; MCMANUS C.; COMASTRI FILHO, J. A. Monitoramento do desempenho de cavalos pantaneiros por meio de curvas de crescimento. Archivos de Zootecnia, v.56, supl.1, p.647-654, 2007. SARMENTO, J.L.R.; REGAZZI, A.J.; SOUZA, W.H.; TORRES, R.A.; BREDA, F.C.; MENEZES, G.R.O. Estudo da curva de crescimento de ovinos Santa In?s. Revista Brasileira de Zootecnia, v.35, n.2, p.435-442, 2006. SCHUELKE, M., WAGNER, K. R., STOLZ, L. E. Myostatin mutation associated with gross muscle hypertrophy in achild. New England Journal of Medicine, v.350, n.26, p.2682-2688, 2004. SCHROEDER, W. Athletic performance and conformation in Hanoverian warmblood horses - population genetic and genome-wide association analyses. (tese), Hannover: University of Veterinary Medicine, 2010. SCHROEDER, W.; Klostermann, A.; Stock, K. F.; Distl, O. A genome-wide association study for quantitative trait loci of show-jumping in Hanoverian warmblood horses. Animal Genetics, v.43, n.4, p.392-400, 2011. 47 SIGNER-HASLER, H.; FLURY, C.; HAASE, B.; BURGER, D., SIMIANER, H., LEEB, T., RIEDER, S. A genome-wide association study reveals loci influencing height and other conformation traits in horses. PLoS ONE, v.7, n.5, p.e37282, 2012. SMALE, S. T. & KADONAGA, J. T. The RNA polymerase II core promoter. Annual Review Biochemistry, v.72, n.1, p.449-479, 2003. SONG, Y.; SHAN, S.; ZHANG, Y.; LIU, W.; DING, W.; REN, W.; XIA, H.; LI, X.; ZHANG, Q.; ZHAO, L.; LI, X.; YAN, J.; YING, H. Ligand-dependent corepressor acts as a novel corepressor of thyroid hormone receptor and repress hepatic lipogenesis in mice. Journal of Hepatology, v.56, n.1, p.248-254, 2012. SOVIO, U.; BENNETT, A. J.; MILLWOOD, I. Y.; MOLITOR, J.; O?REILLY, P. F.; TIMPSON, N. J.; KAAKINEN, M.; LAITINEN, J.; HAUKKA, J.; PILLAS, D.; TZOULAKI, I.; MOLITOR, J.; HOGGART, C.; COIN, L. J. M.; WHITTAKER, J.; POUTA, A.; HARTIKAINEN, A.; FREIMER, N. B.; WIDEN, E.; PELTONEN, L.; ELLIOTT, P.; MCCARTHY, M. I.; JARVELIN, M. Genetic Determinants of Height Growth Assessed Longitudinally from Infancy to Adulthood in the Northern Finland Birth Cohort 1966. PLoS Genetics, v.5, n.3, p.e1000409, 2009. SNUSTAD, D. P.; SIMMONS, M. J. Fundamentos de gen?tica. 6. ed. Guanabara Koogan, 2013. 760p. STATISTICAL ANALYSIS SYSTEM - SAS. SAS Version 9.0. Cary, NC, USA: 2004. STINCKENS, A., LUYTEN, T., BIJTTEBIERETAL, J. Characterizationof the complete porcine MSTN gene and expression levels in pig breeds differing in muscularity, Animal Genetics, v.39, n.6, p.586-596, 2008. TETENS, J.; WIDMANN, P.; KUHN, C.; THALLER, G. A genome-wide association study indicates LCORL/NCAPG as a candidate locus for withers height in German Warmblood horses. Animal Genetics, v.44, n.4, p.467-471, 2013. THOMPSON, K.N. Skeletal growth rates of weanling and yearling Thoroughbred horses. Journal of Animal Science, v.73, n.9, p.2513-2517, 1995. TOZAKI, T., HILL, E. W.; HIROTA, K.; KAKOI, H., GAWAHARA, H.; MIYAKE, T.; SUGITA, S.; HASEGAWA, T.; ISHIDA, N.; NAKANO, Y.; KUROSAWA, M. A cohort study of racing performance in Japanese Thoroughbred racehorses using genome information on ECA18. Animal Genetics, v.43, n.1, p.42-52, 211a. TOZAKI, T., KAKOI, H., HIROTA, K., GAWAHARA, H., SATOU, F., ISHIMARU, M., NAMBO, Y. Influence of LCORL gene polymorphism on body size in Thoroughbred horses. Journal of Equine Science, v.26, n.1, p.34, 2015. TORRES, A.P.; JARDIM, W.R. Cria??o do cavalo e de outros equinos. 3. ed. S?o Paulo: Nobel, 1987. 654p. 48 VALETTE, J.P.; ROBERT, C.; DENOIX, J.M. Use of linear and nonlinear functions to describe the growth of young sport and race horses born in Normandy. Animal, v.2, n.4, p.560- 565, 2008. VELIE, B.D., J?DERKVIST, K., IMSLAND, F., VILUMA, A., ANDERSSON, L.S., MIKKO, S., ERIKSSON, S., E LINDGREN, G. Frequencies of polymorphisms in myostatin vary in Icelandic horses according to the use of the horses. Animal genetics, v.46, n.4, p.467- 468, 2015. VIEIRA, R.A.M., CAMPOS, P. R. S. S., SILVA, J. F. C., TEDESCHI, L. O., TAMY, W. P. Heterogeneity of the digestible insoluble fiber of selected forages in situ. Animal Feed Science and Technology, v.171, n.2, p.154-166, 2012. VON BERTALANFFY, L. Quantitative laws in metabolism and growth. The Quarterly Review of Biology, v.32, n.3, p.217-231, 1957. WINSOR, C. P. The Gompertz curve as a growth curve. Proceedings of the National Academy of Sciences of the United States of America, v.18, n.1, p.1-8. 1932. XU, L., BICKHART, D. M.; COLE, J. B.; SCHROEDER, S. G.; SONG, J.; TASSELL, C. P. V.; SONSTEGARD, T. S.; LIU, G. E. Genomic signatures reveal new evidences for selection of important traits in domestic cattle. Molecular Biology and Evolution, v.32, n.3, p.711-725, 2014.

Page generated in 0.0044 seconds