Lowther, William | Profiles RNS

Connection

William Lowther to Oxidation-Reduction

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This is a "connection" page, showing publications William Lowther has written about Oxidation-Reduction.

William Lowther

Connection Strength

0.971

Oxidation-Reduction

Randall LM, Dalla Rizza J, Parsonage D, Santos J, Mehl RA, Lowther WT, Poole LB, Denicola A. Unraveling the effects of peroxiredoxin 2 nitration; role of C-terminal tyrosine 193. Free Radic Biol Med. 2019 09; 141:492-501.
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Score: 0.158
Bolduc JA, Nelson KJ, Haynes AC, Lee J, Reisz JA, Graff AH, Clodfelter JE, Parsonage D, Poole LB, Furdui CM, Lowther WT. Novel hyperoxidation resistance motifs in 2-Cys peroxiredoxins. J Biol Chem. 2018 07 27; 293(30):11901-11912.
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Score: 0.147
Haynes AC, Qian J, Reisz JA, Furdui CM, Lowther WT. Molecular basis for the resistance of human mitochondrial 2-Cys peroxiredoxin 3 to hyperoxidation. J Biol Chem. 2013 Oct 11; 288(41):29714-23.
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Score: 0.105
Lowther WT, Haynes AC. Reduction of cysteine sulfinic acid in eukaryotic, typical 2-Cys peroxiredoxins by sulfiredoxin. Antioxid Redox Signal. 2011 Jul 01; 15(1):99-109.
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Score: 0.087
Jönsson TJ, Murray MS, Johnson LC, Lowther WT. Reduction of cysteine sulfinic acid in peroxiredoxin by sulfiredoxin proceeds directly through a sulfinic phosphoryl ester intermediate. J Biol Chem. 2008 Aug 29; 283(35):23846-51.
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Score: 0.074
Jönsson TJ, Johnson LC, Lowther WT. Structure of the sulphiredoxin-peroxiredoxin complex reveals an essential repair embrace. Nature. 2008 Jan 03; 451(7174):98-101.
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Score: 0.071
Jönsson TJ, Lowther WT. The peroxiredoxin repair proteins. Subcell Biochem. 2007; 44:115-41.
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Score: 0.066
Brot N, Collet JF, Johnson LC, Jönsson TJ, Weissbach H, Lowther WT. The thioredoxin domain of Neisseria gonorrhoeae PilB can use electrons from DsbD to reduce downstream methionine sulfoxide reductases. J Biol Chem. 2006 Oct 27; 281(43):32668-75.
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Score: 0.065
Jönsson TJ, Murray MS, Johnson LC, Poole LB, Lowther WT. Structural basis for the retroreduction of inactivated peroxiredoxins by human sulfiredoxin. Biochemistry. 2005 Jun 21; 44(24):8634-42.
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Score: 0.060
Akter S, Fu L, Jung Y, Conte ML, Lawson JR, Lowther WT, Sun R, Liu K, Yang J, Carroll KS. Chemical proteomics reveals new targets of cysteine sulfinic acid reductase. Nat Chem Biol. 2018 11; 14(11):995-1004.
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Score: 0.037
Poynton RA, Peskin AV, Haynes AC, Lowther WT, Hampton MB, Winterbourn CC. Kinetic analysis of structural influences on the susceptibility of peroxiredoxins 2 and 3 to hyperoxidation. Biochem J. 2016 Feb 15; 473(4):411-21.
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Score: 0.031
Cunniff B, Newick K, Nelson KJ, Wozniak AN, Beuschel S, Leavitt B, Bhave A, Butnor K, Koenig A, Chouchani ET, James AM, Haynes AC, Lowther WT, Murphy MP, Shukla A, Heintz NH. Disabling Mitochondrial Peroxide Metabolism via Combinatorial Targeting of Peroxiredoxin 3 as an Effective Therapeutic Approach for Malignant Mesothelioma. PLoS One. 2015; 10(5):e0127310.
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Score: 0.030
Klomsiri C, Nelson KJ, Bechtold E, Soito L, Johnson LC, Lowther WT, Ryu SE, King SB, Furdui CM, Poole LB. Use of dimedone-based chemical probes for sulfenic acid detection evaluation of conditions affecting probe incorporation into redox-sensitive proteins. Methods Enzymol. 2010; 473:77-94.
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Score: 0.020
Cox AG, Pearson AG, Pullar JM, Jönsson TJ, Lowther WT, Winterbourn CC, Hampton MB. Mitochondrial peroxiredoxin 3 is more resilient to hyperoxidation than cytoplasmic peroxiredoxins. Biochem J. 2009 Jun 12; 421(1):51-8.
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Score: 0.020

Connection Strength

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