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Journal Abstract Search

238 related items for PubMed ID: 15326598

  • 1. Absence of kinetic thermal stabilization in a hyperthermophile rubredoxin indicated by 40 microsecond folding in the presence of irreversible denaturation.
    LeMaster DM, Tang J, Hernández G.
    Proteins; 2004 Oct 01; 57(1):118-27. PubMed ID: 15326598
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  • 4. Thermostability in rubredoxin and its relationship to mechanical rigidity.
    Rader AJ.
    Phys Biol; 2009 Dec 11; 7():16002. PubMed ID: 20009190
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  • 5. Residue cluster additivity of thermodynamic stability in the hydrophobic core of mesophile vs. hyperthermophile rubredoxins.
    LeMaster DM, Hernández G.
    Biophys Chem; 2007 Feb 11; 125(2-3):483-9. PubMed ID: 17118523
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  • 6. The unusually slow relaxation kinetics of the folding-unfolding of pyrrolidone carboxyl peptidase from a hyperthermophile, Pyrococcus furiosus.
    Kaushik JK, Ogasahara K, Yutani K.
    J Mol Biol; 2002 Mar 01; 316(4):991-1003. PubMed ID: 11884137
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  • 7. Probing the mechanism of rubredoxin thermal unfolding in the absence of salt bridges by temperature jump experiments.
    Henriques BJ, Saraiva LM, Gomes CM.
    Biochem Biophys Res Commun; 2005 Aug 05; 333(3):839-44. PubMed ID: 15975557
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  • 8. Reduced temperature dependence of collective conformational opening in a hyperthermophile rubredoxin.
    Hernández G, LeMaster DM.
    Biochemistry; 2001 Dec 04; 40(48):14384-91. PubMed ID: 11724550
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  • 9. Dispersion interactions govern the strong thermal stability of a protein.
    Vondrásek J, Kubar T, Jenney FE, Adams MW, Kozísek M, Cerný J, Sklenár V, Hobza P.
    Chemistry; 2007 Dec 04; 13(32):9022-7. PubMed ID: 17696186
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  • 12. Thermal stability of the [Fe(SCys)(4)] site in Clostridium pasteurianum rubredoxin: contributions of the local environment and Cys ligand protonation.
    Bonomi F, Burden AE, Eidsness MK, Fessas D, Iametti S, Kurtz DM, Mazzini S, Scott RA, Zeng Q.
    J Biol Inorg Chem; 2002 Apr 04; 7(4-5):427-36. PubMed ID: 11941500
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  • 14. Redox properties of mesophilic and hyperthermophilic rubredoxins as a function of pressure and temperature.
    Gillès de Pélichy LD, Smith ET.
    Biochemistry; 1999 Jun 15; 38(24):7874-80. PubMed ID: 10387028
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  • 15. Unfolding mechanism of rubredoxin from Pyrococcus furiosus.
    Cavagnero S, Zhou ZH, Adams MW, Chan SI.
    Biochemistry; 1998 Mar 10; 37(10):3377-85. PubMed ID: 9521658
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  • 16. A billion-fold range in acidity for the solvent-exposed amides of Pyrococcus furiosus rubredoxin.
    Anderson JS, Hernández G, Lemaster DM.
    Biochemistry; 2008 Jun 10; 47(23):6178-88. PubMed ID: 18479148
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  • 17. Kinetic role of electrostatic interactions in the unfolding of hyperthermophilic and mesophilic rubredoxins.
    Cavagnero S, Debe DA, Zhou ZH, Adams MW, Chan SI.
    Biochemistry; 1998 Mar 10; 37(10):3369-76. PubMed ID: 9521657
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  • 18. A neutron crystallographic analysis of a rubredoxin mutant at 1.6 A resolution.
    Chatake T, Kurihara K, Tanaka I, Tsyba I, Bau R, Jenney FE, Adams MW, Niimura N.
    Acta Crystallogr D Biol Crystallogr; 2004 Aug 10; 60(Pt 8):1364-73. PubMed ID: 15272158
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  • 19. NMR and X-ray analysis of structural additivity in metal binding site-swapped hybrids of rubredoxin.
    LeMaster DM, Anderson JS, Wang L, Guo Y, Li H, Hernández G.
    BMC Struct Biol; 2007 Dec 05; 7():81. PubMed ID: 18053245
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  • 20. Molecular dynamics study of a hyperthermophilic and a mesophilic rubredoxin.
    Grottesi A, Ceruso MA, Colosimo A, Di Nola A.
    Proteins; 2002 Feb 15; 46(3):287-94. PubMed ID: 11835504
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