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Journal Abstract Search

366 related items for PubMed ID: 23723073

  • 1. The protein effect in the structure of two ferryl-oxo intermediates at the same oxidation level in the heme copper binuclear center of cytochrome c oxidase.
    Pinakoulaki E, Daskalakis V, Ohta T, Richter OM, Budiman K, Kitagawa T, Ludwig B, Varotsis C.
    J Biol Chem; 2013 Jul 12; 288(28):20261-6. PubMed ID: 23723073
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  • 2. X-ray structures of catalytic intermediates of cytochrome c oxidase provide insights into its O2 activation and unidirectional proton-pump mechanisms.
    Shimada A, Etoh Y, Kitoh-Fujisawa R, Sasaki A, Shinzawa-Itoh K, Hiromoto T, Yamashita E, Muramoto K, Tsukihara T, Yoshikawa S.
    J Biol Chem; 2020 Apr 24; 295(17):5818-5833. PubMed ID: 32165497
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  • 3. Direct detection of Fe(IV)[double bond]O intermediates in the cytochrome aa3 oxidase from Paracoccus denitrificans/H2O2 reaction.
    Pinakoulaki E, Pfitzner U, Ludwig B, Varotsis C.
    J Biol Chem; 2003 May 23; 278(21):18761-6. PubMed ID: 12637529
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  • 7. Effective pumping proton collection facilitated by a copper site (CuB) of bovine heart cytochrome c oxidase, revealed by a newly developed time-resolved infrared system.
    Kubo M, Nakashima S, Yamaguchi S, Ogura T, Mochizuki M, Kang J, Tateno M, Shinzawa-Itoh K, Kato K, Yoshikawa S.
    J Biol Chem; 2013 Oct 18; 288(42):30259-30269. PubMed ID: 23996000
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  • 9. Observation of a novel transient ferryl complex with reduced CuB in cytochrome c oxidase.
    Zaslavsky D, Smirnova IA, Adelroth P, Brzezinski P, Gennis RB.
    Biochemistry; 1999 Feb 23; 38(8):2307-11. PubMed ID: 10029523
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  • 10. X-ray structural analyses of azide-bound cytochrome c oxidases reveal that the H-pathway is critically important for the proton-pumping activity.
    Shimada A, Hatano K, Tadehara H, Yano N, Shinzawa-Itoh K, Yamashita E, Muramoto K, Tsukihara T, Yoshikawa S.
    J Biol Chem; 2018 Sep 21; 293(38):14868-14879. PubMed ID: 30077971
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  • 11. FTIR detection of protonation/deprotonation of key carboxyl side chains caused by redox change of the Cu(A)-heme a moiety and ligand dissociation from the heme a3-Cu(B) center of bovine heart cytochrome c oxidase.
    Okuno D, Iwase T, Shinzawa-Itoh K, Yoshikawa S, Kitagawa T.
    J Am Chem Soc; 2003 Jun 18; 125(24):7209-18. PubMed ID: 12797794
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  • 13. Time-resolved generation of membrane potential by ba3 cytochrome c oxidase from Thermus thermophilus coupled to single electron injection into the O and OH states.
    Siletsky SA, Belevich I, Belevich NP, Soulimane T, Wikström M.
    Biochim Biophys Acta Bioenerg; 2017 Nov 18; 1858(11):915-926. PubMed ID: 28807731
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  • 19. Coupled transport of electrons and protons in a bacterial cytochrome c oxidase-DFT calculated properties compared to structures and spectroscopies.
    Noodleman L, Han Du WG, McRee D, Chen Y, Goh T, Götz AW.
    Phys Chem Chem Phys; 2020 Dec 07; 22(46):26652-26668. PubMed ID: 33231596
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  • 20. Synthetic models of the active site of cytochrome C oxidase: influence of tridentate or tetradentate copper chelates bearing a His--Tyr linkage mimic on dioxygen adduct formation by heme/Cu complexes.
    Liu JG, Naruta Y, Tani F.
    Chemistry; 2007 Dec 07; 13(22):6365-78. PubMed ID: 17503416
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