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Journal Abstract Search

274 related items for PubMed ID: 14529275

  • 21. Binding of oxidized and reduced cytochrome c2 to photosynthetic reaction centers: plasmon-waveguide resonance spectroscopy.
    Devanathan S, Salamon Z, Tollin G, Fitch J, Meyer TE, Cusanovich MA.
    Biochemistry; 2004 Dec 28; 43(51):16405-15. PubMed ID: 15610035
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  • 24. Mechanism of proton transfer inhibition by Cd(2+) binding to bacterial reaction centers: determination of the pK(A) of functionally important histidine residues.
    Paddock ML, Sagle L, Tehrani A, Beatty JT, Feher G, Okamura MY.
    Biochemistry; 2003 Aug 19; 42(32):9626-32. PubMed ID: 12911304
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  • 26. Quinone (Q(B)) binding site and protein stuctural changes in photosynthetic reaction center mutants at Pro-L209 revealed by vibrational spectroscopy.
    Nabedryk E, Breton J, Sebban P, Baciou L.
    Biochemistry; 2003 May 20; 42(19):5819-27. PubMed ID: 12741840
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  • 27. Calculating proton uptake/release and binding free energy taking into account ionization and conformation changes induced by protein-inhibitor association: application to plasmepsin, cathepsin D and endothiapepsin-pepstatin complexes.
    Alexov E.
    Proteins; 2004 Aug 15; 56(3):572-84. PubMed ID: 15229889
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  • 30. Identification of the basic residues of cytochrome f responsible for electrostatic docking interactions with plastocyanin in vitro: relevance to the electron transfer reaction in vivo.
    Soriano GM, Ponamarev MV, Piskorowski RA, Cramer WA.
    Biochemistry; 1998 Oct 27; 37(43):15120-8. PubMed ID: 9790675
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  • 31. Shift of the special pair redox potential: electrostatic energy computations of mutants of the reaction center from Rhodobacter sphaeroides.
    Muegge I, Apostolakis J, Ermler U, Fritzsch G, Lubitz W, Knapp EW.
    Biochemistry; 1996 Jun 25; 35(25):8359-70. PubMed ID: 8679594
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  • 33. Absolute and relative binding free energy calculations of the interaction of biotin and its analogs with streptavidin using molecular dynamics/free energy perturbation approaches.
    Miyamoto S, Kollman PA.
    Proteins; 1993 Jul 25; 16(3):226-45. PubMed ID: 8346190
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  • 34. Protein dynamics control the kinetics of initial electron transfer in photosynthesis.
    Wang H, Lin S, Allen JP, Williams JC, Blankert S, Laser C, Woodbury NW.
    Science; 2007 May 04; 316(5825):747-50. PubMed ID: 17478721
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  • 36. Proton-transfer reactions in reaction center of photosynthetic bacteria Rhodobacter sphaeroides.
    Kaneko Y, Hayashi S, Ohmine I.
    J Phys Chem B; 2009 Jul 02; 113(26):8993-9003. PubMed ID: 19496556
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  • 37. Interaction site for high-potential iron-sulfur protein on the tetraheme cytochrome subunit bound to the photosynthetic reaction center of Rubrivivax gelatinosus.
    Osyczka A, Nagashima KV, Shimada K, Matsuura K.
    Biochemistry; 1999 Mar 09; 38(10):2861-5. PubMed ID: 10074337
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  • 38. Energetics of quinone-dependent electron and proton transfers in Rhodobacter sphaeroides photosynthetic reaction centers.
    Zhu Z, Gunner MR.
    Biochemistry; 2005 Jan 11; 44(1):82-96. PubMed ID: 15628848
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  • 39. Dynamic docking and electron-transfer between cytochrome b5 and a suite of myoglobin surface-charge mutants. Introduction of a functional-docking algorithm for protein-protein complexes.
    Liang ZX, Kurnikov IV, Nocek JM, Mauk AG, Beratan DN, Hoffman BM.
    J Am Chem Soc; 2004 Mar 10; 126(9):2785-98. PubMed ID: 14995196
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  • 40. pH modulates the quinone position in the photosynthetic reaction center from Rhodobacter sphaeroides in the neutral and charge separated states.
    Koepke J, Krammer EM, Klingen AR, Sebban P, Ullmann GM, Fritzsch G.
    J Mol Biol; 2007 Aug 10; 371(2):396-409. PubMed ID: 17570397
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