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Items: 1 to 20 of 68

1.

Superoxide dismutase evolution and life span regulation.

Landis GN, Tower J.

Mech Ageing Dev. 2005 Mar;126(3):365-79. Review. Erratum in: Mech Ageing Dev. 2005 Aug;126(8):907-8.

PMID:
15664623
2.

Structure-function studies on nitric oxide synthases.

Li H, Poulos TL.

J Inorg Biochem. 2005 Jan;99(1):293-305. Review.

PMID:
15598508
3.

Activation and assembly of the NADPH oxidase: a structural perspective.

Groemping Y, Rittinger K.

Biochem J. 2005 Mar 15;386(Pt 3):401-16. Review.

4.

Regulation of the NADPH-oxidase complex of phagocytic leukocytes. Recent insights from structural biology, molecular genetics, and microscopy.

Robinson JM, Ohira T, Badwey JA.

Histochem Cell Biol. 2004 Oct;122(4):293-304. Epub 2004 Sep 9. Review.

PMID:
15365846
5.

Detection of transmitter release with carbon fiber electrodes.

Bruns D.

Methods. 2004 Aug;33(4):312-21.

PMID:
15183180
6.

Superoxide dismutases: active sites that save, but a protein that kills.

Miller AF.

Curr Opin Chem Biol. 2004 Apr;8(2):162-8. Review.

PMID:
15062777
7.

Superoxide dismutases in malignant cells and human tumors.

Kinnula VL, Crapo JD.

Free Radic Biol Med. 2004 Mar 15;36(6):718-44. Review.

PMID:
14990352
8.

Discovery of superoxide reductase: an historical perspective.

Nivière V, Fontecave M.

J Biol Inorg Chem. 2004 Mar;9(2):119-23. Epub 2004 Jan 13. Review.

PMID:
14722742
9.

Peroxynitrous acid--where is the hydroxyl radical?

Kissner R, Nauser T, Kurz C, Koppenol WH.

IUBMB Life. 2003 Oct-Nov;55(10-11):567-72. Review.

PMID:
14711000
10.

Oxidative stress in cancer prone xeroderma pigmentosum fibroblasts. Real-time and single cell monitoring of superoxide and nitric oxide production with microelectrodes.

Arbault S, Sojic N, Bruce D, Amatore C, Sarasin A, Vuillaume M.

Carcinogenesis. 2004 Apr;25(4):509-15. Epub 2003 Dec 19.

11.

Mitochondrial generation of reactive oxygen species and its role in aerobic life.

Inoue M, Sato EF, Nishikawa M, Park AM, Kira Y, Imada I, Utsumi K.

Curr Med Chem. 2003 Dec;10(23):2495-505. Review.

PMID:
14529465
12.

Product formation and kinetic simulations in the pH range 1-14 account for a free-radical mechanism of peroxynitrite decomposition.

Kirsch M, Korth HG, Wensing A, Sustmann R, de Groot H.

Arch Biochem Biophys. 2003 Oct 15;418(2):133-50.

PMID:
14522585
13.

Peroxidase kinetics in coupled oxidation; an experimental and theoretical study.

CHANCE B, HIGGINS J.

Arch Biochem Biophys. 1952 Dec;41(2):432-41. No abstract available.

PMID:
13008461
14.

The mechanism of the peroxynitrite-mediated oxidation of myoglobin in the absence and presence of carbon dioxide.

Herold S, Exner M, Boccini F.

Chem Res Toxicol. 2003 Mar;16(3):390-402.

PMID:
12641440
15.

Dynamics of full fusion during vesicular exocytotic events: release of adrenaline by chromaffin cells.

Amatore C, Arbault S, Bonifas I, Bouret Y, Erard M, Guille M.

Chemphyschem. 2003 Feb 17;4(2):147-54.

PMID:
12619413
16.

Role of superoxide dismutases in oxidative damage and neurodegenerative disorders.

Maier CM, Chan PH.

Neuroscientist. 2002 Aug;8(4):323-34. Review.

PMID:
12194501
17.
18.

Life imaging of peroxynitrite in rat microglial and astroglial cells: Role of superoxide and antioxidants.

Possel H, Noack H, Keilhoff G, Wolf G.

Glia. 2002 Jun;38(4):339-50.

PMID:
12007146
19.

Reaction of peroxynitrite with carbon dioxide: intermediates and determination of the yield of CO3*- and NO2*.

Meli R, Nauser T, Latal P, Koppenol WH.

J Biol Inorg Chem. 2002 Jan;7(1-2):31-6. Epub 2001 Jul 11.

PMID:
11862538
20.

Product distribution of peroxynitrite decay as a function of pH, temperature, and concentration.

Kissner R, Koppenol WH.

J Am Chem Soc. 2002 Jan 16;124(2):234-9.

PMID:
11782175
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