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473. Schoneich, C., Pogocki, D., Hug, G. L. & Bobrowski, K. (2003) Free radical reac-
tions of methionine in peptides: mechanisms relevant to beta-amyloid oxidation
and Alzheimer's disease. J. Am. Chem. Soc. 125: 13700-13713.
474. Cabreiro, F., Picot, C. R., Friguet, B. & Petropoulos, I. (2006) Methionine sulfox-
ide reductases: relevance to aging and protection against oxidative stress. Ann.
N. Y. Acad. Sci. 1067: 37-44.
475. Stadtman, E. R., Van Remmen, H., Richardson, A., Wehr, N. B. & Levine, R. L.
(2005) Methionine oxidation and aging. Biochim. Biophys. Acta 1703: 135-140.
476. Petropoulos, I. & Friguet, B. (2005) Protein maintenance in aging and replicative
senescence: a role for the peptide methionine sulfoxide reductases. Biochim.
Biophys. Acta 1703: 261-266.
477. Yin, D., Sun, H., Weaver, R. F. & Squier, T. C. (1999) Nonessential role for methio-
nines in the productive association between calmodulin and the plasma mem-
brane Ca-ATPase. Biochemistry 38: 13654-13660.
478. Sun, H., Gao, J., Ferrington, D. A., Biesiada, H., Williams, T. D. & Squier,
T. C. (1999) Repair of oxidized calmodulin by methionine sulfoxide reductase
restores ability to activate the plasma membrane Ca-ATPase. Biochemistry 38:
105-112.
479. Thomas, R. M., Nauseef, W. M., Iyer, S. S., Peterson, M. W., Stone, P. J. & Clark,
R. A. (1991) A cytosolic inhibitor of human neutrophil elastase and cathepsin G.
J. Leukoc. Biol. 50: 568-579.
480. Estell, D. A., Graycar, T. P. & Wells, J. A. (1985) Engineering an enzyme by site-
directed mutagenesis to be resistant to chemical oxidation. J. Biol. Chem. 260:
6518-6521.
481. Keck, R. G. (1996) The use of t-butyl hydroperoxide as a probe for methionine
oxidation in proteins. Anal. Biochem. 236: 56-62.
482. Banerjee, S. K. & Mudd, J. B. (1992) Reaction of ozone with glycophorin in solu-
tion and in lipid vesicles. Arch. Biochem. Biophys. 295: 84-89.
483. Nielsen, H. K., Loliger, J. & Hurrell, R. F. (1985) Reactions of proteins with
oxidizing lipids. 1. Analytical measurements of lipid oxidation and of amino acid
losses in a whey protein-methyl linolenate model system. Br. J. Nutr. 53: 61-73.
484. Hosako, M., Ogino, T., Omori, M. & Okada, S. (2004) Cell cycle arrest by mono-
chloramine through the oxidation of retinoblastoma protein. Free Radic. Biol.
Med. 36: 112-122.
485. Levine, R. L., Berlett, B. S., Moskovitz, J., Mosoni, L. & Stadtman, E. R. (1999)
Methionine residues may protect proteins from critical oxidative damage. Mech.
Ageing Dev. 107: 323-332.
486. Levine, R. L., Mosoni, L., Berlett, B. S. & Stadtman, E. R. (1996) Methionine
residues as endogenous antioxidants in proteins. Proc. Natl. Acad. Sci. U.S.A. 93:
15036-15040.
487. Petropoulos, I., Mary, J., Perichon, M. & Friguet, B. (2001) Rat peptide methio-
nine sulphoxide reductase: cloning of the cDNA, and down-regulation of gene
expression and enzyme activity during aging. Biochem. J. 355: 819-825.
488. Chao, C. C., Ma, Y. S. & Stadtman, E. R. (1997) Modification of protein surface
hydrophobicity and methionine oxidation by oxidative systems. Proc. Natl. Acad.
Sci. U.S.A. 94: 2969-2974.
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