Kinesiogenómica: una nueva perspectiva de investigación en fisioterapia
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https://doi.org/10.33881/2011-7191.mct.10107
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Rendimiento atlético
Variación genética
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dc.title.none.fl_str_mv |
Kinesiogenómica: una nueva perspectiva de investigación en fisioterapia |
title |
Kinesiogenómica: una nueva perspectiva de investigación en fisioterapia |
spellingShingle |
Kinesiogenómica: una nueva perspectiva de investigación en fisioterapia Alfonso Mantilla, Jose Ivan Deporte Rendimiento atlético Variación genética Aptitud física |
title_short |
Kinesiogenómica: una nueva perspectiva de investigación en fisioterapia |
title_full |
Kinesiogenómica: una nueva perspectiva de investigación en fisioterapia |
title_fullStr |
Kinesiogenómica: una nueva perspectiva de investigación en fisioterapia |
title_full_unstemmed |
Kinesiogenómica: una nueva perspectiva de investigación en fisioterapia |
title_sort |
Kinesiogenómica: una nueva perspectiva de investigación en fisioterapia |
dc.creator.none.fl_str_mv |
Alfonso Mantilla, Jose Ivan Martínez Santa, Jaime Vargas, Olga Cecilia |
author |
Alfonso Mantilla, Jose Ivan |
author_facet |
Alfonso Mantilla, Jose Ivan Martínez Santa, Jaime Vargas, Olga Cecilia |
author_role |
author |
author2 |
Martínez Santa, Jaime Vargas, Olga Cecilia |
author2_role |
author author |
dc.subject.none.fl_str_mv |
Deporte Rendimiento atlético Variación genética Aptitud física |
topic |
Deporte Rendimiento atlético Variación genética Aptitud física |
publishDate |
2016 |
dc.date.none.fl_str_mv |
2016-12-09 00:00:00 2016-12-09 00:00:00 2016-12-09 2022-06-14T21:52:12Z 2022-06-14T21:52:12Z |
dc.type.none.fl_str_mv |
Artículo de revista http://purl.org/coar/resource_type/c_6501 http://purl.org/coar/resource_type/c_6501 http://purl.org/coar/version/c_970fb48d4fbd8a85 Text info:eu-repo/semantics/article Artículos Articles http://purl.org/redcol/resource_type/ARTREF info:eu-repo/semantics/publishedVersion |
format |
article |
status_str |
publishedVersion |
dc.identifier.none.fl_str_mv |
10.33881/2011-7191.mct.10107 2463-2236 2011-7191 https://repositorio.ibero.edu.co/handle/001/4462 https://doi.org/10.33881/2011-7191.mct.10107 |
identifier_str_mv |
10.33881/2011-7191.mct.10107 2463-2236 2011-7191 |
url |
https://repositorio.ibero.edu.co/handle/001/4462 https://doi.org/10.33881/2011-7191.mct.10107 |
dc.language.none.fl_str_mv |
spa |
language |
spa |
dc.relation.none.fl_str_mv |
https://revmovimientocientifico.ibero.edu.co/article/download/mct.10107/875 Núm. 1 , Año 2016 : Revista Movimiento Científico 86 1 78 10 Movimiento Científico Ahmetov, II., Druzhevskaya, A. M., Astratenkova, I. V., Popov, D. V., Vinogradova, O. L., & Rogozkin, V. A. (2010). The ACTN3 R577X polymorphism in Russian endurance athletes. Br J Sports Med, 44(9), 649-652. doi:10.1136/bjsm.2008.051540 Alfred, T., Ben-Shlomo, Y., Cooper, R., Hardy, R., Cooper, C., Deary, I. J., et al. (2011). ACTN3 genotype, athletic status, and life course physical capability: meta-analysis of the published literature and findings from nine studies. Hum Mutat, 32(9), 1008-1018. doi:10.1002/humu.21526 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. Brutsaert, T. D., & Parra, E. J. (2006). What makes a champion? Explaining variation in human athletic performance. Respir Physiol Neurobiol, 151(2- 3), 109-123. doi:10.1016/j.resp.2005.12.013 Brutsaert, T. D., & Parra, E. J. (2009). Nature versus nurture in determining athletic ability. Med Sport Sci, 54, 11-27. doi:10.1159/0002 35694 Callier, S. (2012). Genetic privacy in sports: clearing the hurdles. Recent Pat DNA Gene Seq, 6(3), 224-228. Collins, M., Xenophontos, S. L., Cariolou, M. A., Mokone, G. G., Hudson, D. E., Anastasiades, L., & Noakes, T. D. (2004). The ACE gene and endurance performance during the South African Ironman Triathlons. Med Sci Sports Exerc, 36(8),1314-1320. Cupeiro, R., Benito, P. J., Maffulli, N., Calderon, F. J., & Gonzalez-Lamuno, D. (2010). MCT1 genetic polymorphism influence in high intensity circuit training: a pilot study. J Sci Med Sport,13(5), 526-530. doi:10.1016/j.jsams.2009.07.004 Ehlert, T., Simon, P., & Moser, D. A. (2013). Epigenetics in sports. Sports Med, 43(2), 93-110. doi:10.1007/s40279-012-0012-y Eynon, N., Banting, L.K., Ruiz, J.R., Cieszczyk, P., Dyatlov, D. A., Maciejewska-Karlowska, A., et al. (2014). ACTN3 R577X polymorphism and team-sport performance: a study involving three European cohorts. J Sci Med Sport, 17(1), 102-106. doi:10.1016/j.jsams.2013.02.005 Eynon, N., Hanson, E. D., Lucia, A., Houweling, P. J., Garton, F., North, K. N., & Bishop, D. J. (2013). Genes for elite power and sprint performance: ACTN3 leads the way. Sports Med, 43(9), 803-817. doi:10. 1007/s40279-013-0059-4 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. doi:10.1113/jphysiol.2011.207035 Garatachea, N., & Lucia, A. (2013). Genes, physical fitness and ageing. Ageing Res Rev, 12(1), 90- 102. doi:10.1016/j.arr.2012.09.003 Gineviciene, V., Pranculis, A., Jakaitiene, A., Milasius, K., & Kucinskas, V. (2011). Genetic variation of the human ACE and ACTN3 genes and their association with functional muscle properties in Lithuanian elite athletes. Medicina (Kaunas), 47(5), 284-290. Goodman, C.A., Mayhew, D.L., & Hornberger, T.A. (2011). Recent progress toward understanding the molecular mechanisms that regulate skeletal muscle mass. Cell Signal, 23(12), 1896-1906. doi:10.1016/j. cellsig.2011.07.013 Grimaldi, K.A., Paoli, A., & Smith, G.J. (2012). Personal genetics: ¿sports utility vehicle? Recent Pat DNA Gene Seq, 6(3), 209-215. Guth, L. M., & Roth, S. M. (2013). Genetic influence on athletic performance. Curr Opin Pediatr, 25(6), 653-658. doi:10.1097/MOP.0b0 13e3283659087 Hanson, E. D., Ludlow, A. T., Sheaff, A. K., Park, J., & Roth, S. M. (2010). ACTN3 genotype does not influence muscle power. Int J Sports Med, 31(11), 834-838. doi:10.1055/s-0030-1263116 Huuskonen, A., Lappalainen, J., Oksala, N., Santtila, M., Hakkinen, K., Kyrolainen, H., & Atalay, M. (2011). Common genetic variation in the IGF1 associates with maximal force output. Med Sci Sports Exerc, 43(12), 2368-2374. doi:10.1249/MSS.0b013e3182220179 Huygens, W., Thomis, M. A., Peeters, M. W., Vlietinck, R. F., & Beunen, G. P. (2004). Determinants and upper-limit heritabilities of skeletal muscle mass and strength. Can J Appl Physiol, 29(2), 186-200. Jones, A., Montgomery, H. E., & Woods, D. R. (2002). Human performance: ¿a role for the ACE genotype? Exerc Sport Sci Rev, 30(4), 184-190. Kambouris, M., Ntalouka, F., Ziogas, G., & Maffulli, N. (2012). Predictive genomics DNA profiling for athletic performance. Recent Pat DNA Gene Seq, 6(3), 229-239. Kanherkar, R. R., Bhatia-Dey, N., & Csoka, A. B. (2014). Epigenetics across the human lifespan. Front Cell Dev Biol, 2, 49. doi:10.3389/fcell. 2014.00049 Kim, H., Song, K. H., & Kim, C. H. (2014). The ACTN3 R577X variant in sprint and strength performance. J Exerc Nutrition Biochem, 18(4), 347-353. doi:10.5717/jenb.2014.18.4.347 Lek, M., Quinlan, K.G., & North, K.N. (2010). The evolution of skeletal muscle performance: gene duplication and divergence of human sarcomeric alpha-actinins. Bioessays, 32(1), 17-25. doi:10.1002/bies. 200900110 Lippi, G., Longo, U. G., & Maffulli, N. (2010). Genetics and sports. Br Med Bull, 93, 27-47. doi:10.1093/bmb/ldp007 Lucia, A., Moran, M., Zihong, H., & Ruiz, J. R. (2010). Elite athletes: ¿are the genes the champions? Int J Sports Physiol Perform, 5(1), 98-102. Ma, F., Yang, Y., Li, X., Zhou, F., Gao, C., Li, M., & Gao, L. (2013). The association of sport performance with ACE and ACTN3 genetic polymorphisms: a systematic review and meta-analysis. PLoS One, 8(1), e54685. doi:10.1371/journal.pone.0054685 Maffulli, N., Margiotti, K., Longo, U.G., Loppini, M., Fazio, V. M., & Denaro, V. (2013). The genetics of sports injuries and athletic performance. Muscles Ligaments Tendons J, 3(3), 173-189. Mattson, M. P. (2012). Evolutionary aspects of human exercise—born to run purposefully. Ageing Res Rev, 11(3), 347-352. doi:10.1016/j.arr. 2012.01.007 Pereira, A., Costa, A.M., Leitao, J.C., Monteiro, A.M., Izquierdo, M., Silva, A.J., et al. (2013). The influence of ACE ID and ACTN3 R577X polymorphisms on lower-extremity function in older women in response to high-speed power training. BMC Geriatr, 13, 131. doi:10.1186/1471- 2318-13-131 Pescatello, L.S., Devaney, J.M., Hubal, M.J., Thompson, P.D., & Hoffman, E.P. (2013). Highlights from the functional single nucleotide polymorphisms associated with human muscle size and strength or FAMuSS study. Biomed Res Int, 2013, 643575. doi:10.1155/2013/ 643575 Pitsiladis, Y., Wang, G., Wolfarth, B., Scott, R., Fuku, N., Mikami, E., et al. (2013). Genomics of elite sporting performance: what little we know and necessary advances. Br J Sports Med, 47(9), 550-555. doi:10.1136/ bjsports-2013-092400 Pokrywka, A., Kaliszewski, P., Majorczyk, E., & Zembron-Lacny, A. (2013). Genes in sport and doping. Biol Sport, 30(3), 155-161. doi:10. 5604/20831862.1059606 Puthucheary, Z., Skipworth, J. R., Rawal, J., Loosemore, M., Van Someren, K., & Montgomery, H. E. (2011a). Genetic influences in sport and physical performance. Sports Med, 41(10), 845-859. doi:10.2165/ 11593200-000000000-00000 Puthucheary, Z., Skipworth, J.R., Rawal, J., Loosemore, M., Van Someren, K., & Montgomery, H. E. (2011b). The ACE gene and human performance: 12 years on. Sports Med, 41(6), 433-448. doi:10.2165/ 11588720-000000000-00000 Robles, R. G., Ramírez, P. A. A., & Velásquez, S. P. P. (2012). Epigenética: definición, bases moleculares e implicaciones en la salud y en la evolución humana. Revista Ciencias de la Salud, 10(1), 59-71. Rodenhiser, D.I., Andrews, J., Kennette, W., Sadikovic, B., Mendlowitz, A., Tuck, A. B., & Chambers, A. F. (2008). Epigenetic mapping and functional analysis in a breast cancer metastasis model using whole-genome promoter tiling microarrays. Breast Cancer Res, 10(4), R62. doi:10.1186/bcr2121 Roth, S. M. (2012). Critical overview of applications of genetic testing in sport talent identification. Recent Pat DNA Gene Seq, 6(3), 247-255. Ruiz, J. R., Fernandez del Valle, M., Verde, Z., Diez-Vega, I., Santiago, C., Yvert, T., . . . Lucia, A. (2011). ACTN3 R577X polymorphism does not influence explosive leg muscle power in elite volleyball players. Scand J Med Sci Sports, 21(6), e34-41. doi:10.1111/j.1600-0838.2010.01134.x Scott, R. A., Irving, R., Irwin, L., Morrison, E., Charlton, V., Austin, K., . . . Pitsiladis, Y. P. (2010). ACTN3 and ACE genotypes in elite Jamaican and US sprinters. Med Sci Sports Exerc, 42(1), 107-112. doi:10.1249/ MSS.0b013e3181ae2bc0 Tan, Q., Christiansen, L., Thomassen, M., Kruse, T. A., & Christensen, K. (2013). Twins for epigenetic studies of human aging and development. Ageing Res Rev, 12(1), 182-187. doi:10.1016/j.arr.2012.06.004 Thomis, M.A., & Aerssens, J. (2012). Genetic variation in human muscle strength—opportunities for therapeutic interventions? Curr Opin Pharmacol, 12(3), 355-362. doi:10.1016/j.coph.2012.03.003 Thomis, M.A., De Mars, G., Windelinckx, A., Peeters, M. W., Huygens, W., Aerssens, J., & Beunen, G. P. (2011). Genome-wide linkage scan for resistance to muscle fatigue. Scand J Med Sci Sports, 21(4), 580-588. doi:10.1111/j.1600-0838.2009.01082.x Thompson, P.D., Moyna, N., Seip, R., Price, T., Clarkson, P., Angelopoulos, T., . . . Hoffman, E. P. (2004). Functional polymorphisms associated with human muscle size and strength. Med Sci Sports Exerc, 36(7), 1132-1139. Trent, R. J., & Yu, B. (2009). The future of genetic research in exercise science and sports medicine. Med Sport Sci, 54, 187-195. doi:10.1159/ 000235705 Vincent, B., Windelinckx, A., Nielens, H., Ramaekers, M., Van Leemputte, M., Hespel, P., & Thomis, M. A. (2010). Protective role of alphaactinin-3 in the response to an acute eccentric exercise bout. J Appl Physiol (1985), 109(2), 564-573. doi:10.1152/japplphysiol.01007. 2009 Wang, P., Fedoruk, M.N., & Rupert, J.L. (2008). Keeping pace with ACE: ¿are ACE inhibitors and angiotensin II type 1 receptor antagonists potential doping agents? Sports Med, 38(12), 1065-1079. doi:10.2165/ 00007256-200838120-00008 Wolfarth, B., Rankinen, T., Muhlbauer, S., Scherr, J., Boulay, M. R., Perusse, L., et al. (2007). Association between a beta2-adrenergic receptor polymorphism and elite endurance performance. Metabolism, 56(12), 1649-1651. doi:10.1016/j.metabol.2007.07.006 Zhang, D., Li, S., Tan, Q., & Pang, Z. (2012). Twinbased DNA methylation analysis takes the center stage of studies of human complex diseases. J Genet Genomics, 39(11), 581-586. doi:10.1016/j.jgg.2012.07.012 |
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Kinesiogenómica: una nueva perspectiva de investigación en fisioterapiaAlfonso Mantilla, Jose IvanMartínez Santa, JaimeVargas, Olga CeciliaDeporteRendimiento atléticoVariación genéticaAptitud físicaCorporación Universitaria Iberoamericana2016-12-09 00:00:002022-06-14T21:52:12Z2016-12-09 00:00:002022-06-14T21:52:12Z2016-12-09Artículo de revistahttp://purl.org/coar/resource_type/c_6501http://purl.org/coar/resource_type/c_6501http://purl.org/coar/version/c_970fb48d4fbd8a85Textinfo:eu-repo/semantics/articleArtículosArticleshttp://purl.org/redcol/resource_type/ARTREFinfo:eu-repo/semantics/publishedVersionapplication/pdf10.33881/2011-7191.mct.101072463-22362011-7191https://repositorio.ibero.edu.co/handle/001/4462https://doi.org/10.33881/2011-7191.mct.10107https://revmovimientocientifico.ibero.edu.co/article/view/mct.10107reponame:Repositorio Iberoinstname:Corporación Universitaria Iberoamericanainstacron:Corporación Universitaria Iberoamericanaspahttps://revmovimientocientifico.ibero.edu.co/article/download/mct.10107/875Núm. 1 , Año 2016 : Revista Movimiento Científico8617810Movimiento CientíficoAhmetov, II., Druzhevskaya, A. M., Astratenkova, I. V., Popov, D. V., Vinogradova, O. L., & Rogozkin, V. A. (2010). The ACTN3 R577X polymorphism in Russian endurance athletes. Br J Sports Med, 44(9), 649-652. doi:10.1136/bjsm.2008.051540Alfred, T., Ben-Shlomo, Y., Cooper, R., Hardy, R., Cooper, C., Deary, I. J., et al. (2011). ACTN3 genotype, athletic status, and life course physical capability: meta-analysis of the published literature and findings from nine studies. Hum Mutat, 32(9), 1008-1018. doi:10.1002/humu.21526Bray, 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.Brutsaert, T. D., & Parra, E. J. (2006). What makes a champion? Explaining variation in human athletic performance. Respir Physiol Neurobiol, 151(2- 3), 109-123. doi:10.1016/j.resp.2005.12.013Brutsaert, T. D., & Parra, E. J. (2009). Nature versus nurture in determining athletic ability. Med Sport Sci, 54, 11-27. doi:10.1159/0002 35694Callier, S. (2012). Genetic privacy in sports: clearing the hurdles. Recent Pat DNA Gene Seq, 6(3), 224-228.Collins, M., Xenophontos, S. L., Cariolou, M. A., Mokone, G. G., Hudson, D. E., Anastasiades, L., & Noakes, T. D. (2004). The ACE gene and endurance performance during the South African Ironman Triathlons. Med Sci Sports Exerc, 36(8),1314-1320.Cupeiro, R., Benito, P. J., Maffulli, N., Calderon, F. J., & Gonzalez-Lamuno, D. (2010). MCT1 genetic polymorphism influence in high intensity circuit training: a pilot study. J Sci Med Sport,13(5), 526-530. doi:10.1016/j.jsams.2009.07.004Ehlert, T., Simon, P., & Moser, D. A. (2013). Epigenetics in sports. Sports Med, 43(2), 93-110. doi:10.1007/s40279-012-0012-yEynon, N., Banting, L.K., Ruiz, J.R., Cieszczyk, P., Dyatlov, D. A., Maciejewska-Karlowska, A., et al. (2014). ACTN3 R577X polymorphism and team-sport performance: a study involving three European cohorts. J Sci Med Sport, 17(1), 102-106. doi:10.1016/j.jsams.2013.02.005Eynon, N., Hanson, E. D., Lucia, A., Houweling, P. J., Garton, F., North, K. N., & Bishop, D. J. (2013). Genes for elite power and sprint performance: ACTN3 leads the way. Sports Med, 43(9), 803-817. doi:10. 1007/s40279-013-0059-4Eynon, 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. doi:10.1113/jphysiol.2011.207035Garatachea, N., & Lucia, A. (2013). Genes, physical fitness and ageing. Ageing Res Rev, 12(1), 90- 102. doi:10.1016/j.arr.2012.09.003Gineviciene, V., Pranculis, A., Jakaitiene, A., Milasius, K., & Kucinskas, V. (2011). Genetic variation of the human ACE and ACTN3 genes and their association with functional muscle properties in Lithuanian elite athletes. Medicina (Kaunas), 47(5), 284-290.Goodman, C.A., Mayhew, D.L., & Hornberger, T.A. (2011). Recent progress toward understanding the molecular mechanisms that regulate skeletal muscle mass. Cell Signal, 23(12), 1896-1906. doi:10.1016/j. cellsig.2011.07.013Grimaldi, K.A., Paoli, A., & Smith, G.J. (2012). Personal genetics: ¿sports utility vehicle? Recent Pat DNA Gene Seq, 6(3), 209-215.Guth, L. M., & Roth, S. M. (2013). Genetic influence on athletic performance. Curr Opin Pediatr, 25(6), 653-658. doi:10.1097/MOP.0b0 13e3283659087Hanson, E. D., Ludlow, A. T., Sheaff, A. K., Park, J., & Roth, S. M. (2010). ACTN3 genotype does not influence muscle power. Int J Sports Med, 31(11), 834-838. doi:10.1055/s-0030-1263116Huuskonen, A., Lappalainen, J., Oksala, N., Santtila, M., Hakkinen, K., Kyrolainen, H., & Atalay, M. (2011). Common genetic variation in the IGF1 associates with maximal force output. Med Sci Sports Exerc, 43(12), 2368-2374. doi:10.1249/MSS.0b013e3182220179Huygens, W., Thomis, M. A., Peeters, M. W., Vlietinck, R. F., & Beunen, G. P. (2004). Determinants and upper-limit heritabilities of skeletal muscle mass and strength. Can J Appl Physiol, 29(2), 186-200.Jones, A., Montgomery, H. E., & Woods, D. R. (2002). Human performance: ¿a role for the ACE genotype? Exerc Sport Sci Rev, 30(4), 184-190.Kambouris, M., Ntalouka, F., Ziogas, G., & Maffulli, N. (2012). Predictive genomics DNA profiling for athletic performance. Recent Pat DNA Gene Seq, 6(3), 229-239.Kanherkar, R. R., Bhatia-Dey, N., & Csoka, A. B. (2014). Epigenetics across the human lifespan. Front Cell Dev Biol, 2, 49. doi:10.3389/fcell. 2014.00049Kim, H., Song, K. H., & Kim, C. H. (2014). The ACTN3 R577X variant in sprint and strength performance. J Exerc Nutrition Biochem, 18(4), 347-353. doi:10.5717/jenb.2014.18.4.347Lek, M., Quinlan, K.G., & North, K.N. (2010). The evolution of skeletal muscle performance: gene duplication and divergence of human sarcomeric alpha-actinins. Bioessays, 32(1), 17-25. doi:10.1002/bies. 200900110Lippi, G., Longo, U. G., & Maffulli, N. (2010). Genetics and sports. Br Med Bull, 93, 27-47. doi:10.1093/bmb/ldp007Lucia, A., Moran, M., Zihong, H., & Ruiz, J. R. (2010). Elite athletes: ¿are the genes the champions? Int J Sports Physiol Perform, 5(1), 98-102.Ma, F., Yang, Y., Li, X., Zhou, F., Gao, C., Li, M., & Gao, L. (2013). The association of sport performance with ACE and ACTN3 genetic polymorphisms: a systematic review and meta-analysis. PLoS One, 8(1), e54685. doi:10.1371/journal.pone.0054685Maffulli, N., Margiotti, K., Longo, U.G., Loppini, M., Fazio, V. M., & Denaro, V. (2013). The genetics of sports injuries and athletic performance. Muscles Ligaments Tendons J, 3(3), 173-189.Mattson, M. P. (2012). Evolutionary aspects of human exercise—born to run purposefully. Ageing Res Rev, 11(3), 347-352. doi:10.1016/j.arr. 2012.01.007Pereira, A., Costa, A.M., Leitao, J.C., Monteiro, A.M., Izquierdo, M., Silva, A.J., et al. (2013). 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