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Journal Abstract Search

90 related items for PubMed ID: 3307776

  • 1. Investigation of conformational changes in yeast enolase using dynamic fluorescence and steady-state quenching measurements.
    Brewer JM, Bastiaens P, Lee J.
    Biochem Biophys Res Commun; 1987 Aug 31; 147(1):329-34. PubMed ID: 3307776
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  • 2. Resolution of the fluorescence of the buried tryptophan in yeast 3-phosphoglycerate kinase using succinimide.
    Varley PG, Dryden DT, Pain RH.
    Biochim Biophys Acta; 1991 Mar 08; 1077(1):19-24. PubMed ID: 2009290
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  • 3. Yeast enolase: mechanism of activation by metal ions.
    Brewer JM.
    CRC Crit Rev Biochem; 1981 Mar 08; 11(3):209-54. PubMed ID: 7030619
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  • 4. Characterization of the tryptophan fluorescence and hydrodynamic properties of rat DNA polymerase beta.
    Kim SJ, Lewis MS, Knutson JR, Porter DK, Kumar A, Wilson SH.
    J Mol Biol; 1994 Nov 25; 244(2):224-35. PubMed ID: 7966332
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  • 5. Cadmium(II)-113 NMR studies of the mechanism of metal ion activation of yeast enolase.
    Spencer SG, Brewer JM, Ellis PD.
    J Inorg Biochem; 1985 May 25; 24(1):47-57. PubMed ID: 3891917
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  • 6. Binding of terbium (III) to yeast enolase.
    Brewer JM, Carreira LA, Irwin RM, Elliott JI.
    J Inorg Biochem; 1981 Feb 25; 14(1):33-44. PubMed ID: 6783735
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  • 7. Stopped-flow studies of changes in fluorescence of 8-anilino-1-naphthalene sulfonic acid caused by magnesium and salt binding to yeast enolase.
    Brewer JM.
    Eur J Biochem; 1976 Dec 11; 71(2):425-36. PubMed ID: 795667
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  • 8. Steady-state fluorescence and time-resolved fluorescence monitor changes in tryptophan environment in arginase from Saccharomyces cerevisiae upon removal of catalytic and structural metal ions.
    Green SM, Knutson JR, Hensley P.
    Biochemistry; 1990 Oct 02; 29(39):9159-68. PubMed ID: 2271585
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  • 9. Steady state and time-resolved fluorescence study of residual structures in an unfolded form of yeast phosphoglycerate kinase.
    Garcia P, Mérola F, Receveur V, Blandin P, Minard P, Desmadril M.
    Biochemistry; 1998 May 19; 37(20):7444-55. PubMed ID: 9585558
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  • 10. Ligand-dependent conformational equilibria of serum albumin revealed by tryptophan fluorescence quenching.
    Chadborn N, Bryant J, Bain AJ, O'Shea P.
    Biophys J; 1999 Apr 19; 76(4):2198-207. PubMed ID: 10096914
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  • 17. Steady-state kinetics and tryptophan fluorescence properties of halohydrin dehalogenase from Agrobacterium radiobacter. Roles of W139 and W249 in the active site and halide-induced conformational change.
    Tang L, van Merode AE, Lutje Spelberg JH, Fraaije MW, Janssen DB.
    Biochemistry; 2003 Dec 02; 42(47):14057-65. PubMed ID: 14636074
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  • 18. Can monomers of yeast enolase have enzymatic activity?
    Kornblatt MJ, Lange R, Balny C.
    Eur J Biochem; 1998 Feb 01; 251(3):775-80. PubMed ID: 9490051
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  • 19. An equilibrium study of the dependence of secondary and tertiary structure of creatine kinase on subunit association.
    Grossman SH.
    Biochim Biophys Acta; 1994 Nov 16; 1209(1):19-23. PubMed ID: 7947978
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  • 20. The slow folding reaction of barstar: the core tryptophan region attains tight packing before substantial secondary and tertiary structure formation and final compaction of the polypeptide chain.
    Sridevi K, Juneja J, Bhuyan AK, Krishnamoorthy G, Udgaonkar JB.
    J Mol Biol; 2000 Sep 15; 302(2):479-95. PubMed ID: 10970747
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