Chemistry Reference
In-Depth Information
47 Domigan, N.M., Charlton, T.S., Duncan, M.W., Winterbourn, C.C., and Kettle, A.J.
Chlorination of tyrosyl residues in peptides by myeloperoxidase and human
neutrophils.
J. Biol. Chem.
1995,
270
, 16542-16548.
48 Hazen, S.l., Hsu, F.F., Mueller, D.M., Crowley, J.R., and Heinecke, J.W. Human
neutrophils employ chlorine gas as an oxidant during phagocytosis.
J. Clin. Invest.
1996,
98
, 1283-1289.
49 Fu, S., Wang, H., Davies, M., and Dean, R. Reactions of hypochlorous acid with
tyrosine and peptidyl-tyrosyl residues give dichlorinated and aldehydic products
in addition to 3-chlorotyrosine.
J. Biol. Chem.
2000,
275
, 10851-10858.
50 Kang, J.I., Jr. and Neidigh, J.W. Hypochlorous acid damages histone proteins
forming 3-chlorotyrosine and 3,5-dichlorotyrosine.
Chem. Res. Toxicol.
2008,
21
,
1028-1038.
51 Davies, M.J. and Hawkins, C.l. Hypochlorite-induced oxidation of thiols: forma-
tion of thiyl radicals and the role of sulfenyl chlorides as intermediates.
Free
Radic. Res.
2000,
33
, 719-729.
52 Nagy, P. and Ashby, M.T. Reactive sulfur species: kinetics and mechanisms of the
oxidation of cysteine by hypohalous acid to give cysteine sulfenic acid.
J. Am.
Chem. Soc.
2007,
129
, 14082-14091.
53 Ueki, H., Chapman, g., and Ashby, M.T. Reactive sulfur species: kinetics and
mechanism of the oxidation of aryl sulfinates with hypochlorous acid.
J. Phys.
Chem. A
2010,
114
, 1670-1676.
54 Pullar, J.M., Vissers, M.C.M., and Winterbourn, C.C. glutathione oxidation by
hypochlorous acid in endothelial cells produces glutathione sulfonamide as
a major product but not glutathione disulfide.
J. Biol. Chem.
2001,
276
,
22120-22125.
55 Szuchman-Sapir, A.J., Pattison, D.I., Ellis, N.A., Hawkins, C.l., Davies, M.J., and
Witting, P.K. Hypochlorous acid oxidizes methionine and tryptophan residues in
myoglobin.
Free Radic. Biol. Med.
2008,
45
, 789-798.
56 Pereira, W.E., Hoyano, y., and Summons, R.E. Chlorination studies. II. The reac-
tion of aqueous hypochlorous acid with α amino acids and dipeptides.
Biochim.
Biophys. Acta
1973,
313
, 170-180.
57 Nagy, P. and Ashby, M.T. Reactive sulfur species: kinetics and mechanism of the
oxidation of cystine by hypochlorous acid to give
N
,
N
′-dichlorocystine.
Chem.
Res. Toxicol.
2005,
18
, 919-923.
58 Raftery, M.J., yang, Z., Valenzuela, S.M., and geczy, C.l. Novel intra- and inter-
molecular sulfinamide bonds in S100A8 produced by hypochlorite oxidation.
J.
Biol. Chem.
2001,
276
, 33393-33401.
59 Winterbourn, C.C. and Brennan, S.O. Characterization of the oxidation products
of the reaction between reduced glutathione and hypochlorous acid.
Biochem. J.
1997,
326
, 87-92.
60 Peskin, A.V. and Winterbourn, C.C. Kinetics of the reactions of hypochlorous acid
and amino acid chloramines with thiols, methionine, and ascorbate.
Free Radic.
Biol. Med.
2001,
30
, 572-579.
61 Fu, x., Mueller, D.M., and Heinecke, J.W. generation of intramolecular and
intermolecular sulfenamides, sulfinamides, and sulfonamides by hypochlorous
acid: a potential pathway for oxidative cross-linking of low-density lipoprotein
by myeloperoxidase.
Biochemistry
2002,
41
, 1293-1301.
Search WWH ::
Custom Search