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Items: 1 to 20 of 362

1.

Peroxiredoxins: a historical overview and speculative preview of novel mechanisms and emerging concepts in cell signaling.

Rhee SG, Chae HZ, Kim K.

Free Radic Biol Med. 2005 Jun 15;38(12):1543-52. Epub 2005 Mar 24. Review.

PMID:
15917183
2.

Reduction of cysteine sulfinic acid by sulfiredoxin is specific to 2-cys peroxiredoxins.

Woo HA, Jeong W, Chang TS, Park KJ, Park SJ, Yang JS, Rhee SG.

J Biol Chem. 2005 Feb 4;280(5):3125-8. Epub 2004 Dec 8.

3.

Inactivation of human peroxiredoxin I during catalysis as the result of the oxidation of the catalytic site cysteine to cysteine-sulfinic acid.

Yang KS, Kang SW, Woo HA, Hwang SC, Chae HZ, Kim K, Rhee SG.

J Biol Chem. 2002 Oct 11;277(41):38029-36. Epub 2002 Aug 2.

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Kinetics of peroxiredoxins and their role in the decomposition of peroxynitrite.

Trujillo M, Ferrer-Sueta G, Thomson L, Flohé L, Radi R.

Subcell Biochem. 2007;44:83-113. Review.

PMID:
18084891
7.

Molecular mechanism of the reduction of cysteine sulfinic acid of peroxiredoxin to cysteine by mammalian sulfiredoxin.

Jeong W, Park SJ, Chang TS, Lee DY, Rhee SG.

J Biol Chem. 2006 May 19;281(20):14400-7. Epub 2006 Mar 24.

8.

Identification of a new type of mammalian peroxiredoxin that forms an intramolecular disulfide as a reaction intermediate.

Seo MS, Kang SW, Kim K, Baines IC, Lee TH, Rhee SG.

J Biol Chem. 2000 Jul 7;275(27):20346-54.

9.

Cyclophilin a binds to peroxiredoxins and activates its peroxidase activity.

Lee SP, Hwang YS, Kim YJ, Kwon KS, Kim HJ, Kim K, Chae HZ.

J Biol Chem. 2001 Aug 10;276(32):29826-32. Epub 2001 Jun 4.

10.

Mitochondria of Saccharomyces cerevisiae contain one-conserved cysteine type peroxiredoxin with thioredoxin peroxidase activity.

Pedrajas JR, Miranda-Vizuete A, Javanmardy N, Gustafsson JA, Spyrou G.

J Biol Chem. 2000 May 26;275(21):16296-301.

11.

Peroxiredoxins in the lung with emphasis on peroxiredoxin VI.

Schremmer B, Manevich Y, Feinstein SI, Fisher AB.

Subcell Biochem. 2007;44:317-44. Review.

PMID:
18084901
12.

ATP-dependent modulation and autophosphorylation of rapeseed 2-Cys peroxiredoxin.

Aran M, Caporaletti D, Senn AM, Tellez de Iñon MT, Girotti MR, Llera AS, Wolosiuk RA.

FEBS J. 2008 Apr;275(7):1450-63. doi: 10.1111/j.1742-4658.2008.06299.x. Epub 2008 Feb 14.

13.

Glutaredoxin-dependent peroxiredoxin from poplar: protein-protein interaction and catalytic mechanism.

Rouhier N, Gelhaye E, Jacquot JP.

J Biol Chem. 2002 Apr 19;277(16):13609-14. Epub 2002 Feb 6.

14.

Activity assay of mammalian 2-cys peroxiredoxins using yeast thioredoxin reductase system.

Kim JA, Park S, Kim K, Rhee SG, Kang SW.

Anal Biochem. 2005 Mar 15;338(2):216-23.

PMID:
15745741
15.

The Arabidopsis thaliana sulfiredoxin is a plastidic cysteine-sulfinic acid reductase involved in the photooxidative stress response.

Rey P, Bécuwe N, Barrault MB, Rumeau D, Havaux M, Biteau B, Toledano MB.

Plant J. 2007 Feb;49(3):505-14. Epub 2007 Jan 1.

16.

The function of peroxiredoxins in plant organelle redox metabolism.

Dietz KJ, Jacob S, Oelze ML, Laxa M, Tognetti V, de Miranda SM, Baier M, Finkemeier I.

J Exp Bot. 2006;57(8):1697-709. Epub 2006 Apr 10. Review.

PMID:
16606633
17.

Reversing the inactivation of peroxiredoxins caused by cysteine sulfinic acid formation.

Woo HA, Chae HZ, Hwang SC, Yang KS, Kang SW, Kim K, Rhee SG.

Science. 2003 Apr 25;300(5619):653-6.

18.

ATP-dependent reduction of cysteine-sulphinic acid by S. cerevisiae sulphiredoxin.

Biteau B, Labarre J, Toledano MB.

Nature. 2003 Oct 30;425(6961):980-4.

PMID:
14586471
19.

An antioxidant redox system in the nucleus of wheat seed cells suffering oxidative stress.

Pulido P, Cazalis R, Cejudo FJ.

Plant J. 2009 Jan;57(1):132-45. doi: 10.1111/j.1365-313X.2008.03675.x. Epub 2008 Oct 7.

20.

Crystal structure of an archaeal peroxiredoxin from the aerobic hyperthermophilic crenarchaeon Aeropyrum pernix K1.

Mizohata E, Sakai H, Fusatomi E, Terada T, Murayama K, Shirouzu M, Yokoyama S.

J Mol Biol. 2005 Nov 25;354(2):317-29. Epub 2005 Sep 22.

PMID:
16214169

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