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1 Miyazaki, H, "Strenuous endurance training in humans reduces oxidative stress following exhausting exercise" 84 : 1-6, 2001
2 de Garay, A, "Single gene systems fo blood. In Genetic and Anthropological Studies of Olympic Athletes" Academic Press Inc. 165-187, 1974
3 Phillips, S.M, "Progressive effect of endurance training on metabolic adaptations in working skeletal muscle" 270 : E265-272, 1996
4 Urso, M.L, "Oxidative stress,exercise,and antioxidant supplementation" 189 : 41-54, 2003
5 Finaud, J, "Oxidative stress : relationship with exercise and training" 36 : 327-358, 2006
6 Collins, A.R, "Oxidative damage to DNA: do we have a reliable biomarker?" 104 : 465-469, 1996
7 Hartmann, A, "Oxidative DNA damage in exercise" Amsterdam, Netherlands: Elsevier, Elsevier Science B.V 195-217, 2000
8 Cave, A.C, "NADPH oxidases in cardiovascular health and disease" 8 : 691-728, 2006
9 Park, J.Y, "NADPH oxidase p22phox gene variants are associated with systemic oxidative stress biomarker responses to exercise training" 99 : 1905-1911, 2005
10 Stanger, O, "NADH/NADPH oxidase p22 phox C242T polymorphism and lipid peroxidation in coronary artery disease" 21 : 718-722, 2001
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26 Davies, K.J, "Biochemical adaptation of mitochondria, muscle, and whole-animal respiration to endurance training" 209 : 539-554, 1981
27 Bejma, J, "Aging and acute exercise enhance free radical generation in rat skeletal muscle" 87 : 465-470, 1999
28 Jeppesen, T.D, "Aerobic training is safe and improves exercise capacity in patients with mitochondrial myopathy" 129 : 3402-3412, 2006
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30 Singh, N.P, "A simple technique for quantitation of low levels of DNA damage in individual cells" 175 : 184-191, 1988