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      KCI등재 SCOPUS SCIE

      Effects of the NADPH Oxidase p22phox C242 Polymorphism on Endurance Exercise Performance and Oxidative DNA Damage in Response to Aerobic Exercise Training

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      https://www.riss.kr/link?id=A104831734

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      다국어 초록 (Multilingual Abstract)

      We examined the effects of the NADPH oxidase p22phox C242T polymorphism on endurance exercise performance and oxidative DNA damage in response to acute and chronic exercises. One hundred three subjects were recruited, among which 26 healthy subjects (...

      We examined the effects of the NADPH oxidase p22phox C242T polymorphism on endurance exercise performance and oxidative DNA damage in response to acute and chronic exercises. One hundred three subjects were recruited, among which 26 healthy subjects (CC: 12, TC: 12, and TT: 2) were studied during rest, exercise at 85% VO2max, and recovery before and after 8 weeks of treadmill running. Lymphocyte DNA damage increased significantly in response to exercise (p < 0.05). There were no significant differences in plasma MDA, SOD concentrations and lymphocyte DNA damage between CC genotype and T allele group, but significant endurance training differences were observed. Endurance training increased exercise time to exhaustion in both the CC genotype and T allele groups (p < 0.05) but no significant difference was found between groups. The results of the current study with young, healthy, Korean men are interpreted to mean that 1) the majority had the CC genotype of the NADPH oxidase p22phox C242T polymorphism (82.5%: CC, 15.5%: TC, 1.9%: TT), 2) acute exercise increased lymphocyte DNA damage, 3) endurance training significantly increased exercise time to exhaustion, and alleviated lymphocyte DNA damage, and 4) The NADPH oxidase p22phox C242T polymorphism, however, did not alter lymphocyte DNA damage or exercise performance at rest, immediately after exercise, or during recovery.

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      참고문헌 (Reference)

      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

      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

      11 Griendling, K.K, "NAD(P)H oxidase: role in cardiovascular biology and disease" 86 : 494-501, 2000

      12 Wierzba, T.H, "Lymphocyte DNA damage in rats challenged with a single bout of strenuous exercise" 57 : 115-131, 2006

      13 Adams, V, "Impact of regular physical activity on the NAD(P)H oxidase and angiotensin receptor system in patients with coronary artery disease" 111 : 555-562, 2005

      14 Dinauer, M.C, "Human neutrophil cytochrome b light chain (p22-phox). Gene structure, chromosomal location, and mutations in cytochrome-negative autosomal recessive chronic granuloma-tous disease" 86 : 1729-1737, 1990

      15 Davies, K.J, "Free radicals and tissue damage produced by exercise" 107 : 1198-1205, 1982

      16 Alessio,H.M, "Exercise-induced oxidative stress" 25 : 218-224, 1993

      17 Tanimura, Y, "Exercise-induced oxidative DNA damage and lymphocytopenia in sedentary young males" 40 : 1455-1462, 2008

      18 Shin, Y.A, "Exercise training improves the antioxidant enzyme activity with no changes of telomere length" 129 : 254-260, 2008

      19 Davies, K.J, "Exercise bioenergetics following sprint training" 215 : 260-265, 1982

      20 Taivassalo, T, "Exercise and training in mitochondrial myopathies" 37 : 2094-2101, 2005

      21 Mastaloudis, A, "Endurance exercise results in DNA damage as detected by the comet assay" 36 : 966-975, 2004

      22 Toskulkao, C, "Endurance exercise and muscle damage: relationship to lipid peroxidation and scavenging enzymes in short and long distance runners" 45 : 63-70, 1996

      23 Niess, A.M, "Effects of intensive endurance exercise on DNA damage in leucocytes" 38 : 111-115, 1998

      24 Hartmann, A, "Does physical activity induce DNA damage?" 9 : 269-272, 1994

      25 Wyche, K.E, "C242T CYBA polymorphism of the NADPH oxidase is associated with reduced respiratory burst in human neutrophils" 43 : 1246-1251, 2004

      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

      29 Whaley, M.H, "ACSM’s Guidelines for Exercise Testing and Prescript" Philadelphia, USA: Lippincott Williams and Wilkins 2006

      30 Singh, N.P, "A simple technique for quantitation of low levels of DNA damage in individual cells" 175 : 184-191, 1988

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      2023 평가예정 해외DB학술지평가 신청대상 (해외등재 학술지 평가)
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      2008-01-01 평가 SCI 등재 (등재유지) KCI등재
      2006-01-01 평가 등재학술지 유지 (등재유지) KCI등재
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      2001-01-01 평가 등재학술지 선정 (등재후보2차) KCI등재
      1998-07-01 평가 등재후보학술지 선정 (신규평가) KCI등재후보
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      기준연도 WOS-KCI 통합IF(2년) KCIF(2년) KCIF(3년)
      2016 2.77 0.19 1.85
      KCIF(4년) KCIF(5년) 중심성지수(3년) 즉시성지수
      1.37 1.11 0.379 0.03
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