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Journal Abstract Search

218 related items for PubMed ID: 17140234

  • 1. Computational study of iron(II) and -(III) complexes with a simple model human H ferritin ferroxidase center.
    Bacelo DE, Binning RC.
    Inorg Chem; 2006 Dec 11; 45(25):10263-9. PubMed ID: 17140234
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  • 2. The ferroxidase reaction of ferritin reveals a diferric mu-1,2 bridging peroxide intermediate in common with other O2-activating non-heme diiron proteins.
    Moënne-Loccoz P, Krebs C, Herlihy K, Edmondson DE, Theil EC, Huynh BH, Loehr TM.
    Biochemistry; 1999 Apr 27; 38(17):5290-5. PubMed ID: 10220314
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  • 3. Direct spectroscopic and kinetic evidence for the involvement of a peroxodiferric intermediate during the ferroxidase reaction in fast ferritin mineralization.
    Pereira AS, Small W, Krebs C, Tavares P, Edmondson DE, Theil EC, Huynh BH.
    Biochemistry; 1998 Jul 14; 37(28):9871-6. PubMed ID: 9665690
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  • 7. The ferroxidase center is essential for ferritin iron loading in the presence of phosphate and minimizes side reactions that form Fe(III)-phosphate colloids.
    Hilton RJ, David Andros N, Watt RK.
    Biometals; 2012 Apr 14; 25(2):259-73. PubMed ID: 22012445
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  • 11. Reaction of O2 with a diiron protein generates a mixed-valent Fe2+/Fe3+ center and peroxide.
    Bradley JM, Svistunenko DA, Pullin J, Hill N, Stuart RK, Palenik B, Wilson MT, Hemmings AM, Moore GR, Le Brun NE.
    Proc Natl Acad Sci U S A; 2019 Feb 05; 116(6):2058-2067. PubMed ID: 30659147
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  • 12. mu-1,2-peroxo diferric complex formation in horse spleen ferritin. A mixed H/L-subunit heteropolymer.
    Zhao G, Su M, Chasteen ND.
    J Mol Biol; 2005 Sep 16; 352(2):467-77. PubMed ID: 16095616
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  • 13. Phosphate accelerates displacement of Fe(III) by Fe(II) in the ferroxidase center of Pyrococcus furiosus ferritin.
    Honarmand Ebrahimi K, Hagedoorn PL, Hagen WR.
    FEBS Lett; 2013 Jan 16; 587(2):220-5. PubMed ID: 23247211
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  • 14. Comparison between the geometric and electronic structures and reactivities of [FeNO]7 and [FeO2]8 complexes: a density functional theory study.
    Schenk G, Pau MY, Solomon EI.
    J Am Chem Soc; 2004 Jan 21; 126(2):505-15. PubMed ID: 14719948
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  • 15. The catalytic center of ferritin regulates iron storage via Fe(II)-Fe(III) displacement.
    Honarmand Ebrahimi K, Bill E, Hagedoorn PL, Hagen WR.
    Nat Chem Biol; 2012 Nov 21; 8(11):941-8. PubMed ID: 23001032
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  • 16. Ferrous binding to the multicopper oxidases Saccharomyces cerevisiae Fet3p and human ceruloplasmin: contributions to ferroxidase activity.
    Quintanar L, Gebhard M, Wang TP, Kosman DJ, Solomon EI.
    J Am Chem Soc; 2004 Jun 02; 126(21):6579-89. PubMed ID: 15161286
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  • 17. Facilitated diffusion of iron(II) and dioxygen substrates into human H-chain ferritin. A fluorescence and absorbance study employing the ferroxidase center substitution Y34W.
    Bou-Abdallah F, Zhao G, Biasiotto G, Poli M, Arosio P, Chasteen ND.
    J Am Chem Soc; 2008 Dec 31; 130(52):17801-11. PubMed ID: 19055359
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  • 19. Reaction paths of iron oxidation and hydrolysis in horse spleen and recombinant human ferritins.
    Yang X, Chen-Barrett Y, Arosio P, Chasteen ND.
    Biochemistry; 1998 Jul 07; 37(27):9743-50. PubMed ID: 9657687
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  • 20. Mineralization in ferritin: an efficient means of iron storage.
    Chasteen ND, Harrison PM.
    J Struct Biol; 1999 Jun 30; 126(3):182-94. PubMed ID: 10441528
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