VOL. 71 (4), 783-798, 2005  RADICALES LIBRES DE ORIGEN MITOCONDRIAL...

                            BIBLIOGRAFÍA

 (1)  HARMAN, D. (2003): The free radical theory of aging. Antioxid Redox Signal 5:
 (2)  557-561.
 (3)  BARGER, J. L.; WALFORD, R. L. y WEINDRUCH, R. (2003): The retardation of aging
 (4)  by caloric restriction: its significance in the transgenic era. Exper Gerontol.
 (5)  38: 1343-1351.
 (6)  BARJA, G. (2004): Aging in vertebrates and the effect of caloric restriction: a
 (7)  mitochondrial free radical production-DNA damage mechanism? Biological
 (8)  Rev. 79: 235-251.
 (9)  BARJA DE QUIROGA, G.; LÓPEZ-TORRES, M. y PÉREZ-CAMPO, R. (1992): Relations-
      hip between antioxidants, lipid peroxidation and aging. en: Free Radicals
(10)  and Aging (Emerit, I. y Chance, B., Eds.), pp. 109-123. Birkhäuser, Basel.
(11)  TOLMASOFF, J. M.; ONO, T. y CUTLER, R. G. (1980): Superoxide dismutase: co-
      rrelation with life-span and specific metabolic rate in primate species. PNAS
(12)  USA 77: 2777-2781.
(13)  PÉREZ-CAMPO, R.; LÓPEZ-TORRES, M.; CADENAS, S.; ROJAS, C. y BARJA, G. (1998):
(14)  The rate of free radical production as a determinant of the rate of aging:
      evidence from the comparative approach. J. Comp. Physiol. B, 168: 149-158.
      SOHAL, R. S.; SOHAL, B. H. y BRUNK, U. T. (1990): Relationship between an-
      tioxidant defenses and longevity. Mech. Ageing Dev. 53: 217-227.
      HUANG, T. T.; CARLSON, E. J.; GILLESPIE, A. M.; SHI, Y. y EPSTEIN, C. J. (2000):
      Ubiquitous overexpression of CuZn superoxide dismutase does not extend
      life span in mice. J. Gerontol. 55A: B5-B9.
      JAARSMA, D.; HAASDIJK, E. D.; GRASHORN, J. A. C.; HAWKINS, R.; VAN DUIJN, W.;
      VERSPAGET, H. W.; LONDON, J. y HOLSTEGE, J. C. (2000): Human Cu/Zn supe-
      roxide dismutase (SOD1): overexpression in mice causes mitochondrial va-
      cuolization, axonal degeneration, and premature motoneuron death and ac-
      celerates motoneuron disease in mice expressing a familial amyotrophic
      lateral sclerosis mutant SOD1. Neurobiol. Disease 7: 623-643.
      MOCKETT, R. J.; SOHAL, R. S. y ORR W. C. (1999): Overexpression of glutathio-
      ne reductase extends survival in transgenic Drosophila melanogaster under
      hyperoxia but not in normoxia. FASEB J 13: 1733-1742.
      WISPE, J. R.; WARNER, B. B.; CLARCK, J. C.; DEY, C. R.; NEUMAN, J.; GLASSER, S.
      W.; CRAPO, J. D.; CHANG, L. Y. y WHITSETT, J. A. (1992): Human Mn-superoxide
      dismutase in pulmonary epithelial cells of transgenic mice confers protection
      from oxygen injury. J. Biol. Chem. 267: 23937-23941.
      HUANG, T. T.; CARLSON, E. J., GILLESPIE, A. M.; SHI, Y. y EPSTEIN, C. J. (2000):
      Ubiquitous overexpression of Cu,Zn superoxide dismutase does not extend
      life in mice. J. Gerontol. 55A: B5-B9.
      HO, Y. S.; GARGANO, M.; CAO, J.; BRONSON, R. T.; HEIMLER, I. y HUTZ, R. J.
      (1998): Reduced fertility in female mice lacking copper-zinc superoxide dis-
      mutase. J. Biol. Chem. 273: 7765-7769.
      CARLSSON, L. M.; JONSSON, J.; EDLUND, T. y MARKLUND, S. L. (1995): Mice lac-
      king extracellular superoxide dismutase are more sensitive to hyperoxia.
      PNAS USA 92: 6264-6268.

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