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Journal Abstract Search

177 related items for PubMed ID: 10733980

  • 1.
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  • 3. Contribution of extracellular Glu residues to the structure and function of bacteriorhodopsin. Presence of specific cation-binding sites.
    Sanz C, Márquez M, Perálvarez A, Elouatik S, Sepulcre F, Querol E, Lazarova T, Padrós E.
    J Biol Chem; 2001 Nov 02; 276(44):40788-94. PubMed ID: 11524418
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  • 4. Glutamic acid residues of bacteriorhodopsin at the extracellular surface as determinants for conformation and dynamics as revealed by site-directed solid-state 13C NMR.
    Saitô H, Yamaguchi S, Ogawa K, Tuzi S, Márquez M, Sanz C, Padrós E.
    Biophys J; 2004 Mar 02; 86(3):1673-81. PubMed ID: 14990495
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  • 5. The proton release group of bacteriorhodopsin controls the rate of the final step of its photocycle at low pH.
    Balashov SP, Lu M, Imasheva ES, Govindjee R, Ebrey TG, Othersen B, Chen Y, Crouch RK, Menick DR.
    Biochemistry; 1999 Feb 16; 38(7):2026-39. PubMed ID: 10026285
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  • 6. In situ determination of transient pKa changes of internal amino acids of bacteriorhodopsin by using time-resolved attenuated total reflection Fourier-transform infrared spectroscopy.
    Zscherp C, Schlesinger R, Tittor J, Oesterhelt D, Heberle J.
    Proc Natl Acad Sci U S A; 1999 May 11; 96(10):5498-503. PubMed ID: 10318912
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  • 7. Time-resolved FT-IR spectroscopic investigation of the pH-dependent proton transfer reactions in the E194Q mutant of bacteriorhodopsin.
    Zscherp C, Schlesinger R, Heberle J.
    Biochem Biophys Res Commun; 2001 Apr 27; 283(1):57-63. PubMed ID: 11322767
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  • 8. Opening the Schiff base moiety of bacteriorhodopsin by mutation of the four extracellular Glu side chains.
    Sanz C, Lazarova T, Sepulcre F, González-Moreno R, Bourdelande JL, Querol E, Padrós E.
    FEBS Lett; 1999 Jul 30; 456(1):191-5. PubMed ID: 10452556
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  • 10. The effect of triple glutamic mutations E9Q/E194Q/E204Q on the structural stability of bacteriorhodopsin.
    Lazarova T, Mlynarczyk K, Filipek S, Kolinski M, Wassenaar TA, Querol E, Renugopalakrishnan V, Viswanathan S, Padrós E.
    FEBS J; 2014 Feb 30; 281(4):1181-95. PubMed ID: 24341610
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  • 12. Glutamic acid 204 is the terminal proton release group at the extracellular surface of bacteriorhodopsin.
    Brown LS, Sasaki J, Kandori H, Maeda A, Needleman R, Lanyi JK.
    J Biol Chem; 1995 Nov 10; 270(45):27122-6. PubMed ID: 7592966
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  • 14. Time-resolved Fourier transform infrared spectroscopy of the bacteriorhodopsin mutant Tyr-185-->Phe: Asp-96 reprotonates during O formation; Asp-85 and Asp-212 deprotonate during O decay.
    Bousché O, Sonar S, Krebs MP, Khorana HG, Rothschild KJ.
    Photochem Photobiol; 1992 Dec 10; 56(6):1085-95. PubMed ID: 1337213
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  • 15. Proton uptake and release are rate-limiting steps in the photocycle of the bacteriorhodopsin mutant E204Q.
    Misra S, Govindjee R, Ebrey TG, Chen N, Ma JX, Crouch RK.
    Biochemistry; 1997 Apr 22; 36(16):4875-83. PubMed ID: 9125508
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  • 16. Interaction between Asp-85 and the proton-releasing group in bacteriorhodopsin. A study of an O-like photocycle intermediate.
    Gat Y, Friedman N, Sheves M, Ottolenghi M.
    Biochemistry; 1997 Apr 08; 36(14):4135-48. PubMed ID: 9100007
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  • 18. Connectivity of the retinal Schiff base to Asp85 and Asp96 during the bacteriorhodopsin photocycle: the local-access model.
    Brown LS, Dioumaev AK, Needleman R, Lanyi JK.
    Biophys J; 1998 Sep 08; 75(3):1455-65. PubMed ID: 9726947
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  • 19. Complete identification of C = O stretching vibrational bands of protonated aspartic acid residues in the difference infrared spectra of M and N intermediates versus bacteriorhodopsin.
    Sasaki J, Lanyi JK, Needleman R, Yoshizawa T, Maeda A.
    Biochemistry; 1994 Mar 22; 33(11):3178-84. PubMed ID: 8136352
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