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Free Radical Biology & Medicine
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February 22, 2001
Kinetics of the reactions of hypochlorous acid and amino acid chloramines with thiols, methionine, and ascorbate
A V Peskin, C C Winterbourn
The Journal of Biological Chemistry
|
June 24, 1994
Superoxide-dependent hydroxylation by myeloperoxidase
A J Kettle, C C Winterbourn
Archives of Biochemistry and Biophysics
|
November 15, 1984
Chelated iron-catalyzed OH. formation from paraquat radicals and H2O2: mechanism of formate oxidation
H C Sutton, C C Winterbourn
Biochimica Et Biophysica Acta
|
February 10, 1970
Lipid composition of human red cells of different ages
C C Winterbourn, R D Batt
Cancer Chemotherapy and Pharmacology
|
January 1, 1989
Microsomal lipid peroxidation induced by adriamycin, epirubicin, daunorubicin and mitoxantrone: a comparative study
G F Vile, C C Winterbourn
The Biochemical Journal
|
March 1, 1988
Susceptibilities of lactoferrin and transferrin to myeloperoxidase-dependent loss of iron-binding capacity
C C Winterbourn, A L Molloy
Archives of Biochemistry and Biophysics
|
March 1, 1991
Oxidative damage to fibronectin. II. The effect of H2O2 and the hydroxyl radical
M C Vissers, C C Winterbourn
Free Radical Biology & Medicine
|
June 11, 2017
Corrigendum to "Assay of superoxide dismutase activity in a plate assay using WST-1" [Free Radic. Biol. Med. 103 (2017) 188-191]
A V Peskin, C C Winterbourn
The Journal of Biological Chemistry
|
April 25, 1992
Oxidation of hydroquinone by myeloperoxidase. Mechanism of stimulation by benzoquinone
A J Kettle, C C Winterbourn
FEBS Letters
|
May 4, 1987
Iron binding to microsomes and liposomes in relation to lipid peroxidation
G F Vile, C C Winterbourn
Page
of 20
Search research articles
Search
Showing results (51-60 of 194) with videos related to
Sort By:
Page
of 20
Free Radical Biology & Medicine
|
February 22, 2001
Kinetics of the reactions of hypochlorous acid and amino acid chloramines with thiols, methionine, and ascorbate
A V Peskin, C C Winterbourn
The Journal of Biological Chemistry
|
June 24, 1994
Superoxide-dependent hydroxylation by myeloperoxidase
A J Kettle, C C Winterbourn
Archives of Biochemistry and Biophysics
|
November 15, 1984
Chelated iron-catalyzed OH. formation from paraquat radicals and H2O2: mechanism of formate oxidation
H C Sutton, C C Winterbourn
Biochimica Et Biophysica Acta
|
February 10, 1970
Lipid composition of human red cells of different ages
C C Winterbourn, R D Batt
Cancer Chemotherapy and Pharmacology
|
January 1, 1989
Microsomal lipid peroxidation induced by adriamycin, epirubicin, daunorubicin and mitoxantrone: a comparative study
G F Vile, C C Winterbourn
The Biochemical Journal
|
March 1, 1988
Susceptibilities of lactoferrin and transferrin to myeloperoxidase-dependent loss of iron-binding capacity
C C Winterbourn, A L Molloy
Archives of Biochemistry and Biophysics
|
March 1, 1991
Oxidative damage to fibronectin. II. The effect of H2O2 and the hydroxyl radical
M C Vissers, C C Winterbourn
Free Radical Biology & Medicine
|
June 11, 2017
Corrigendum to "Assay of superoxide dismutase activity in a plate assay using WST-1" [Free Radic. Biol. Med. 103 (2017) 188-191]
A V Peskin, C C Winterbourn
The Journal of Biological Chemistry
|
April 25, 1992
Oxidation of hydroquinone by myeloperoxidase. Mechanism of stimulation by benzoquinone
A J Kettle, C C Winterbourn
FEBS Letters
|
May 4, 1987
Iron binding to microsomes and liposomes in relation to lipid peroxidation
G F Vile, C C Winterbourn
Page
of 20