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318. Colbran, R. J. & Brown, A. M. (2004) Calcium/calmodulin-dependent protein
kinase II and synaptic plasticity. Curr. Opin. Neurobiol. 14: 318-327.
319. Zhang, R., Khoo, M. S., Wu, Y., Yang, Y., Grueter, C. E., Ni, G., Price, E. E., Jr.,
Thiel, W., Guatimosim, S. et al. (2005) Calmodulin kinase II inhibition protects
against structural heart disease. Nat. Med. 11: 409-417.
320. Squier, T. C. & Bigelow, D. J. (2000) Protein oxidation and age-dependent altera-
tions in calcium homeostasis. Front. Biosci. 5: D504-D526.
321. Anbanandam, A., Bieber Urbauer, R. J., Bartlett, R. K., Smallwood, H. S., Squier,
T. C. & Urbauer, J. L. (2005) Mediating molecular recognition by methionine
oxidation: conformational switching by oxidation of methionine in the carboxyl-
terminal domain of calmodulin. Biochemistry 44: 9486-9496.
322. Chin, D. & Means, A. R. (1996) Methionine to glutamine substitutions in the
C-terminal domain of calmodulin impair the activation of three protein kinases.
J. Biol. Chem. 271: 30465-30471.
323. Robison, A. J., Winder, D. G., Colbran, R. J. & Bartlett, R. K. (2007) Oxidation of
calmodulin alters activation and regulation of CaMKII. Biochem. Biophys. Res.
Commun. 356: 97-101.
324. Keller, J. N., Gee, J. & Ding, Q. (2002) The proteasome in brain aging. Ageing Res.
Rev. 1: 279-293.
325. Merker, K., Stolzing, A. & Grune, T. (2001) Proteolysis, caloric restriction and
aging. Mech. Ageing Dev. 122: 595-615.
326. Friedhoff, P., von Bergen, M., Mandelkow, E. M. & Mandelkow, E. (2000) Structure
of tau protein and assembly into paired helical filaments. Biochim. Biophys. Acta
1502: 122-132.
327. Szweda, P. A., Camouse, M., Lundberg, K. C., Oberley, T. D. & Szweda, L. I. (2003)
Aging, lipofuscin formation, and free radical-mediated inhibition of cellular pro-
teolytic systems. Ageing Res. Rev. 2: 383-405.
328. Brunk, U. T., Jones, C. B. & Sohal, R. S. (1992) A novel hypothesis of lipofuscino-
genesis and cellular aging based on interactions between oxidative stress and
autophagocytosis. Mutat. Res. 275: 395-403.
329. Beregi, E., Regius, O. & Rajczy, K. (1991) Comparative study of the morphological
changes in lymphocytes of elderly individuals and centenarians. Age Ageing 20:
330. Taylor, A. & Davies, K. J. (1987) Protein oxidation and loss of protease activity
may lead to cataract formation in the aged lens. Free Radic. Biol. Med. 3:
331. Sayre, L. M., Moreira, P. I., Smith, M. A. & Perry, G. (2005) Metal ions and oxida-
tive protein modification in neurological disease. Ann. Ist. Super. Sanita 41:
332. Gaeta, A. & Hider, R. C. (2005) The crucial role of metal ions in neurodegenera-
tion: the basis for a promising therapeutic strategy. Br. J. Pharmacol. 146:
333. Jolly, R. D., Douglas, B. V., Davey, P. M. & Roiri, J. E. (1995) Lipofuscin in bovine
muscle and brain: a model for studying age pigment. Gerontology 41 Suppl 2:
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