Esporte e Genética (SciCast #535)

 

CAMBLY

“Investir em você é sempre a melhor opção”

É isso pessoal, Carnaval acabou! Você tem a segunda chance do ano para aprender inglês e ainda tem desconto em todos os planos anuais! Tem plano saindo a partir de R$ 68 por mês com aulas de 1h de duração por semana! Porém! São cupons limitados, então corre agora e use o cupom do SciCast: SCICASTCOMECOU

*** DESCONTO NO CAMBLY e CAMBLY KIDS ***
Oferta especial para aprender inglês com nativos com cupons limitados -> SCICASTCOMECOU


Patronato do SciCast:

Sua pequena contribuição ajuda o Portal Deviante a continuar divulgando Ciência!


Contatos:

Fale conosco! E não esqueça de deixar o seu comentário na postagem desse episódio!


Expediente:

Produção Geral: Tarik Fernandes e Fernando Malta

Equipe de Gravação: Tarik Fernandes, Marcelo de Matos, Lucas Vieira, Thais Boccia, Crhisllane Vasconcelos, Yuri Motoyama.

Edição: TalknCast

Citação ABNT: Scicast #535: Esporte e Genética. Locução: Tarik Fernandes, Marcelo de Matos, Lucas Vieira, Thais Boccia, Crhisllane Vasconcelos, Yuri Motoyama. [S.l.] Portal Deviante, 14/04/2023. Podcast. Disponível em: https://www.deviante.com.br/podcasts/scicast-535

Imagem de Capa: Jânio Garcia


Referências e Indicações

Ahmetov, I.I., Fedotovskaya, O.N., 2015. Current progress in sports genomics. Adv. Clin. Chem. 70, 247–314.

Ahmetov, I., Kulemin, N., Popov, D., Naumov, V., Akimov, E., Bravy, Y., Egorova, E., Galeeva, A., Generozov, E., Kostryukova, E., Larin, A., Mustafina, L., Ospanova, E., Pavlenko, A., Starnes, L., Zmijewski, P., Alexeev, D., Vinogradova, O., Govorun, V., 2015. Genome-wide association study

identifies three novel genetic markers associated with elite endurance performance. Biol. Sport 32 (1), 3–9.

Ahmetov, I., Egorova, E.S., Gabdrakhmanova, L.J., Fedotovskaya, O.N., 2016. Genes and athletic performance: an update. Med. Sport Sci. 61, 41–54.

Ash, G.I., Scott, R.A., Deason, M., Dawson, T.A., Wolde, B., Bekele, Z., Teka, S., Pitsiladis, Y.P., 2011.

No association between ACE gene variation and endurance athlete status in Ethiopians. Med. Sci. Sports Exerc. 43 (4), 590–597. 

Bouchard, C., 2012. Genomic predictors of trainability. Exp. Physiol. 97 (3), 347–352.

 

Bouchard, C., 2015. Exercise genomics–a paradigm shift is needed: a commentary. Br. J. Sports Med. 49 (23), 1492–1496.

 

Bouchard, C., Malina, R.M., 2014. Genomics, genetics, and exercise biology. In: Tipton, C.M. (Ed.), History of Exercise Physiology. Human Kinetics, pp. 105–135.

 

Bouchard, C., An, P., Rice, T., Skinner, J.S., Wilmore, J.H., Gagnon, J., Perusse, L., Leon, A.S., Rao, D.C., Familial aggregation of VO(2max) response to exercise training: results from the HERITAGE Family Study. J. Appl. Physiol. (1985) 87 (3), 1003–1008.

 

Bouchard, C., Rankinen, T., Timmons, J.A., 2011a. Genomics and genetics in the biology of adaptation to exercise. Compr. Physiol. 1 (3), 1603–1648.

 

Bouchard, C., Sarzynski, M.A., Rice, T.K., Kraus, W.E., Church, T.S., Sung, Y.J., Rao, D.C., Rankinen, T., 2011b. Genomic predictors of the maximal O(2) uptake response to standardized exercise training programs. J. Appl. Physiol. 110 (5), 1160–1170.

 

Bray, M.S., Hagberg, J.M., Perusse, L., Rankinen, T., Roth, S.M., Wolfarth, B., Bouchard, C., 2009. The human gene map for performance and health-related fitness phenotypes: the 2006-2007 update. Med. Sci. Sports Exerc. 41 (1), 35–73.

 

Chagnon, Y.C., Allard, C., Bouchard, C., 1984. Red blood cell genetic variation in Olympic endurance athletes. J. Sports Sci. 2 (2), 121–129.

 

Couture, L., Chagnon, M., Allard, C., Bouchard, C., 1986. More on red blood cell genetic variation in Olympic athletes. Can. J. Appl. Sport Sci. 11 (1), 16–18.

 

de Garay, A.L., Levine, L., Carter, J.E.L., 1974. Genetic and Anthropological Studies of Olympic Athletes. Academic Press, New York.

 

de la Chapelle, A., Sistonen, P., Lehvaslaiho, H., Ikkala, E., Juvonen, E., 1993a. Familial erythrocytosis genetically linked to erythropoietin receptor gene. Lancet 341 (8837), 82–84.

 

de la Chapelle, A., Traskelin, A.L., Juvonen, E., 1993b. Truncated erythropoietin receptor causes dominantly inherited benign human erythrocytosis. Proc. Natl. Acad. Sci. U. S. A. 90 (10), 4495–4499.

 

Domingo, R., Sturrock, E.D., Collins, M., 2013. ACE activity and endurance performance during the South African Ironman triathlons. Int. J. Sports Med. 34 (5), 402–408.

 

Evans Robson, H., 1977. Genetic and anthropological studies of Olympic athletes. Edited by de Garay A.L., Levine, L., Carter, J.E.LBr. J. Sports Med. 11 (3), 147–148.

 

Eynon, N., Ruiz, J.R., Oliveira, J., Duarte, J.A., Birk, R., Lucia, A., 2011. Genes and elite athletes: a roadmap for future research. J. Physiol. 589 (Pt 13), 3063–3070.

 

Galton, F., 1875. The history of twins as a criterion of the relative powers of nature and nurture. Fraser’s Magazine 12, 566–576.

 

Gayagay, G., Yu, B., Hambly, B., Boston, T., Hahn, A., Celermajer, D.S., Trent, R.J., 1998. Elite endurance athletes and the ACE I allele—the role of genes in athletic performance. Hum. Genet. 103 (1), 48–50.

 

Guilherme, J.P.L.F., Tritto, A.C.C., North, K.N., Lancha Junior, A.H., Artioli, G.G., 2014. Genetics and sport performance: current challenges and directions to the future. Rev. Bras. Educ. Fı´s. Esporte 28 (1), 177–193.

 

Juvonen, E., Ikkala, E., Fyhrquist, F., Ruutu, T., 1991. Autosomal dominant erythrocytosis caused by increased sensitivity to erythropoietin. Blood 78 (11), 3066–3069.

 

Lundby, C., Robach, P., 2015. Performance enhancement: what are the physiological limits? Physiology (Bethesda) 30 (4), 282–292.

 

Pitsiladis, Y., 2011. Ethnic differences in sport performance. In: Bouchard, C., Hoffman, E.P. (Eds.),

Genetic and Molecular Aspects of Sport Performance. Blackwell Publishing Ltd., West Sussex, 121–132.

 

Pitsiladis, Y.P., Scott, R., 2005. Essay: the makings of the perfect athlete. Lancet 366 (Suppl 1), S16–S17.

Photopoulos, J. (2021). The future of sex in elite sport. Nature, 592(7852), 12-15.

 

Estudo longitudinal Framingham:  https://www.thelancet.com/journals/lancet/article/PIIS0140-6736%2813%2961752-3/fulltext 

https://www.cnnbrasil.com.br/esporte/testosterona-deixara-de-ser-pre-requisito-para-atletas-trans-nas-olimpiadas/#:~:text=A%20jogadora%20de%20futebol%20Quinn,trans%20a%20competir%20em%20Olimp%C3%ADada

https://g1.globo.com/mundo/noticia/2021/08/02/esporte-e-para-todas-as-pessoas-a-polemica-em-torno-da-primeira-atleta-transgenero-a-competir-nas-olimpiadas.ghtml