References
- Agerholm-Larsen, B., Nordestgaard, B.G., Tybjerg-Hansen, A. (2000). ACE gene polymorphism in cardiovascular disease meta-analyses of small and large studies in whites. Arterioscler. Thromb. Vasc. Biol., 20, 484--492.
- Collins, M., Xenophontos, S.L., Cariolou, M.A., Mokone, G.G., Hudson, D.E., Anastasiades, L., and Noakes, T.D. (2004). The ACE gene and endurance performance during the South African Ironman Triathlons. Med. Sci. Sports Exerc., 36, 13.
- Crisan, D., Carr, J. (2000). Angiotensin I-converting enzyme: Genotype and disease associations. J. Mol. Diag., 2(3), 105--115.
- Folland, J., Leach, B., Little, T., Hawker, K., Myerson, S., Montgomery, H., Jones, D. (2000). Angiotensin-converting enzyme genotype affects the response of human skeletal muscle to functional overload. Exp. Physiol., 85, 575--579.
- 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. J. Hum. Genet., 103, 48--50.
- Guo, S.V., Thompson, E.A. (1992). Performing the exact test of Hardy-Weinberg proportion for multiple alleles. Biometrics, 48, 361--372.
- Karjalainen, J., Kujala, U.M., Stolt, A., Mäntysaari, M., Viitasalo, M., Kainulainen, K., Kontula, K. (1999). Angiotensin gene M235T polymorphism predicts left ventricular hypertrophy in endurance athletes. J. Am. Coll. Cardiol., 34, 494--499.
- Mathew, J., Basheeruddin, K., Prabhakar, S. (2001). Differences in frequency of the deletion polymorphism of the angiotensin-converting enzyme gene in different ethnic groups. J. Angiology, 52(6), 375--379.
- Mayer, N.J., Forsyth, A., Kantachuvesiri, S., Mullins, J.J., Fleming, S. (2002). Association of the D allele of the angiotensin I converting enzyme polymorphism with malignant vascular injury. J. Clin. Pathol., 55(1), 29--33.
- Montgomery, H.E., Marshall, R., Hemingway, H., Myerson, S., Clarkson, P., Dollery, C., Hayward, M., Holliman, D.E., Jubb, M., World, M., Thomas, E.L., Brynes, A.E., Saeed, N., Barnard, M., Bell, J.D., Prasad, K., Rayson, M., Talmud P.J., and Humphries, S.E. (1998). Human gene for physical performance. Nature, 393, 221--222.
- Nei, M. (1978). Estimation of average heterozygosity and genetic distance from a small number of individuals. Genetics, 89, 583--590.
- Ohno, H., Kizaki, T., Suzuki, K., Hitomi, Y., Nakano, N., Sakurai, T., Ogiwara, R., Sakurai, T., Izawa, T., Noguchi, I., Nagasawa, J., Ohnuki, Y., Takemasa, T., Nukita, M., and Haga, S. (2005). Is angiotensin I-converting enzyme I/D polymorphism associated with endurance performance and/or high altitude adaptation? Adv. Exerc. Sports Physiol., 11(2), 41--54.
- Ohno, T., Kawazu, S., Tomono, S. (1996). Association analyses of the polymorphisms of angiotensin-converting enzyme and angiotensinogen genes with diabetic nephropathy in Japanese non-insulin-dependent diabetics. Metabolism, 45, 218--222.
- Park, S.D.E. (2001). Trypanotolerance in West African cattle and the population genetic effects of selection. Ph.D. thesis, University of Dublin.
- Rankinen, T., Wofarth, B., Simoneau, J. A., Maier-Lenz, D., Rauramaa, R., Rivera, M. A., Boulay, M. R., Chagnon, Y. C., Perusse, L., Keul, J., Bouchard, C. (2000). No association between the angiotensin-converting enzyme ID polymorphism and elite endurance athlete status. J. Appl. Physiol., 88, 1571--1575.
- Scanavini, D., Bernardi, F., Castoldi, E., Conconi, F. and Mazzoni, G. (2002). Increased frequency of the homozygous II ACE genotype in Italian Olympic endurance athletes. Eur. J. Hum. Gen., 10, 576--577.
- Schunkert, H., Hense, H.W., Holmer, S. R., Stender, M., Perz, S., Keil, U.,. Lorell, B.H., and Riegger, G. (1994). Association between a deletion polymorphism of the angiotensin-converting-enzyme gene and left ventricular hypertrophy. New. Eng. J. Med., 330,1634--1638.
- Šventoraitytė, J., Venskaitytė, E., Poderytė, K., Paulauskas, A. (2006). Angiotenziną konvertuojančio fermento geno polimorfizmo sąsajos su širdies ir kraujagyslių sistemos funkcijos ypatybėmis [The angiotensin-converting-enzyme gene polymorphism's association with peculiarities of cardiovascular function]. Sporto Mokslas, 46(4), 65--69 (in Lithuanian).
- Swofford, D.L., Selander, R.B. (1997). BIOSYS-2: A Computer Program for the Analysis of Allelic Variation on Population Genetic and Biochemical Systematics. Colorado State University. Champaign: Illinois Natural History survey.
- Taylor, R.R., Mamotte, C.D., Fallon, K., Van Bockxmeer, F.M. (1999). Elite athletes and the gene for angiotensin-converting enzyme. J. Appl. Physiol., 87, 1035--1037.
- Thompson, W.R., Binder-Macleod, S.A. (2006). Association of Genetic Factors with Selected Measures of Physical Performance. Phys. Ther., 86(4), 585--591.
- Tsianos, G., Sanders, J., Dhamrait, S., Humphries, S., Grant, S., Montgomery, H. (2004). The ACE gene insertion/deletion polymorphism and elite endurance swimming. Eur. J. Appl. Physiol., 92, 360--362.
- Williams, A.G., Dhamrait, S.S., Wootton, P.T.E., Day, S.H., Hawe, E., Payne, J.R., Myerson, S.G., World, M., Budgett, R., Humphries, S.E., Montgomery, H.E. (2004). Bradykinin receptor gene variant and human physical performance. J. Appl. Physiol., 96, 938--942.
- Woods, D.R., Humphries, S.E., Montgomery, H.E. (2000). The ACE I/D polymorphism and human physical performance. J. Trends Endocr. Metab., 11, 416--420.
- Yang, G., Wan, Y., Zhu, Y. (1996). Angiotensin II --- an important stress hormone. J. Biol. Sign. 5(1), 1--8.
- Zhang, B., Tanaka, H., Shono, N., Miura, S., Kiyonaga, A., Shindo, M., Saku, K. (2003). The I allele of the angiotensin-converting enzyme gene is associated with an increased percentage of slow-twitch type I fibers in human skeletal muscle. Clin. Genet., 63(2),139--144.