2009, Volume 1, Issue 1

Allelic Polymorphism of Endothelial No-Synthase (eNOS) Association with Exercise-Induced Hypoxia Adaptation



Svitlana Drozdovsk1, Victor Dosenko2, Vladimir Ilyin1, Mykhailo Filippov1, Ludmila Kuzmina1

1National University of Physical Education and Sports of Ukraine
2Bogomoletz Institute of Physiology, National Academy of Sciences of Ukraine


Author for correspondence: Svitlana Drozdovsk; National University of Physical Education and Sports of Ukraine; email: SDrozdovska[at]gmail.com

DOI: 10.2478/v10131-009-0001-1

Full text

Abstract

Background: The aim of the study is to define the possibility of usage of the gene eNOS polymorphisms as molecular-genetic markers of athletes' resistance to exercise-induced hypoxia.

Material/Methods: 127 highly qualified athletes were examined (30 persons are underwater finswimmers, 41 - rowers and 56 sportsmen who practice speed and power track and field exercises). The frequency of promotor polymorphisms and the 7th exon of the eNOS gene in athletes engaged in finswimming and throwing has been studied. The comparative analysis of the obtained data with the frequency of allel variants of the eNOS gene has been carried out in athletes engaged in speed-power sports and the individuals not going in for sports. To study the influence of polymorphisms of this gene on individual values of resistance to hypoxia, a gas analysis was conducted in the athletes practicing rowing. During the study the eNOS gene expression was examined in athletes practicing short-course underwater finswimming with apneapracticing long distance swimming with a snorkel.

Results: The findings are evidence of a possible variant of influence of polymorphism of the eNOS gene on the phenotype formation resistant to exercise-induced hypoxia.

Conclusions: In the athletes practicing underwater finswimming, the occurrence of the allelic variant of C/C T-786→C promoter polymorphism and T/T-variant in exon 7 of the gene of NO-synthase is lower than in the general population of Ukraine and in the athletes of speed and power type of sports, which may be the result of selection and be important for peculiarities of the development of resistance to exercise-induced hypoxia with different types of muscle activity.


Key words: endothelial NO-synthase, polymorphism of the eNOS gene, hypoxia of loading, finswimming, throwing


Cite this article as:

AMA:

Drozdovsk S, Dosenko V, Ilyin V et al. Allelic Polymorphism of Endothelial No-Synthase (eNOS) Association with Exercise-Induced Hypoxia Adaptation. Balt J Health Phys Activ. 2009;1. doi:10.2478/v10131-009-0001-1

APA:

Drozdovsk, S., Dosenko, V., Ilyin, V., Filippov, M., & Kuzmina, L. (2009). Allelic Polymorphism of Endothelial No-Synthase (eNOS) Association with Exercise-Induced Hypoxia Adaptation. Balt J Health Phys Activ, 1. https://doi.org/10.2478/v10131-009-0001-1

Chicago:

Drozdovsk, Svitlana, Dosenko Victor, Ilyin Vladimir, Filippov Mykhailo, Kuzmina Ludmila. 2009. "Allelic Polymorphism of Endothelial No-Synthase (eNOS) Association with Exercise-Induced Hypoxia Adaptation". Balt J Health Phys Activ 1. doi:10.2478/v10131-009-0001-1

Harvard:

Drozdovsk, S., Dosenko, V., Ilyin, V., Filippov, M., and Kuzmina, L. (2009). Allelic Polymorphism of Endothelial No-Synthase (eNOS) Association with Exercise-Induced Hypoxia Adaptation. Balt J Health Phys Activ, 1. https://doi.org/10.2478/v10131-009-0001-1

MLA:

Drozdovsk, Svitlana et al. "Allelic Polymorphism of Endothelial No-Synthase (eNOS) Association with Exercise-Induced Hypoxia Adaptation." Balt J Health Phys Activ, vol. 1, 2009. doi:10.2478/v10131-009-0001-1

Vancouver:

Drozdovsk S, Dosenko V, Ilyin V et al. Allelic Polymorphism of Endothelial No-Synthase (eNOS) Association with Exercise-Induced Hypoxia Adaptation. Balt J Health Phys Activ 2009; 1. Available from: doi:10.2478/v10131-009-0001-1