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Journal Abstract Search

273 related items for PubMed ID: 9454592

  • 21.
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  • 23. Sequence-specific rates of interaction of target peptides with the molecular chaperones DnaK and DnaJ.
    Pierpaoli EV, Gisler SM, Christen P.
    Biochemistry; 1998 Nov 24; 37(47):16741-8. PubMed ID: 9843444
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  • 24. Kinetic characterization of the ATPase cycle of the molecular chaperone Hsc66 from Escherichia coli.
    Silberg JJ, Vickery LE.
    J Biol Chem; 2000 Mar 17; 275(11):7779-86. PubMed ID: 10713091
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  • 25. Thermodynamic and structural analysis of the folding/unfolding transitions of the Escherichia coli molecular chaperone DnaK.
    Montgomery D, Jordan R, McMacken R, Freire E.
    J Mol Biol; 1993 Jul 20; 232(2):680-92. PubMed ID: 8102181
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  • 28. Structural dynamics of the DnaK-peptide complex.
    Popp S, Packschies L, Radzwill N, Vogel KP, Steinhoff HJ, Reinstein J.
    J Mol Biol; 2005 Apr 15; 347(5):1039-52. PubMed ID: 15784262
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  • 29. Investigation of the interaction between DnaK and DnaJ by surface plasmon resonance spectroscopy.
    Mayer MP, Laufen T, Paal K, McCarty JS, Bukau B.
    J Mol Biol; 1999 Jun 18; 289(4):1131-44. PubMed ID: 10369787
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  • 30. Studies on the mechanism of catalysis of iron-sulfur cluster transfer from IscU[2Fe2S] by HscA/HscB chaperones.
    Bonomi F, Iametti S, Morleo A, Ta D, Vickery LE.
    Biochemistry; 2008 Dec 02; 47(48):12795-801. PubMed ID: 18986169
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  • 31. The heat-sensitive Escherichia coli grpE280 phenotype: impaired interaction of GrpE(G122D) with DnaK.
    Grimshaw JP, Siegenthaler RK, Züger S, Schönfeld HJ, Z'graggen BR, Christen P.
    J Mol Biol; 2005 Nov 04; 353(4):888-96. PubMed ID: 16198374
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  • 32. Functional properties of the molecular chaperone DnaK from Thermus thermophilus.
    Klostermeier D, Seidel R, Reinstein J.
    J Mol Biol; 1998 Jun 19; 279(4):841-53. PubMed ID: 9642065
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  • 33. Real time kinetics of the DnaK/DnaJ/GrpE molecular chaperone machine action.
    Banecki B, Zylicz M.
    J Biol Chem; 1996 Mar 15; 271(11):6137-43. PubMed ID: 8626401
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  • 34. Kinetics of nucleoside triphosphate cleavage and phosphate release steps by associated rabbit skeletal actomyosin, measured using a novel fluorescent probe for phosphate.
    White HD, Belknap B, Webb MR.
    Biochemistry; 1997 Sep 30; 36(39):11828-36. PubMed ID: 9305974
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  • 35. Visualization of a slow, ATP-induced structural transition in the bacterial molecular chaperone DnaK.
    Farr CD, Slepenkov SV, Witt SN.
    J Biol Chem; 1998 Apr 17; 273(16):9744-8. PubMed ID: 9545310
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  • 36. The Agrobacterium tumefaciens DnaK: ATPase cycle, oligomeric state and chaperone properties.
    Boshoff A, Stephens LL, Blatch GL.
    Int J Biochem Cell Biol; 2008 Apr 17; 40(4):804-12. PubMed ID: 18061511
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  • 37. A two-site kinetic mechanism for ATP binding and hydrolysis by E. coli Rep helicase dimer bound to a single-stranded oligodeoxynucleotide.
    Hsieh J, Moore KJ, Lohman TM.
    J Mol Biol; 1999 Apr 30; 288(2):255-74. PubMed ID: 10329141
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  • 38. Kinetic mechanisms of the nucleotide cofactor binding to the strong and weak nucleotide-binding site of the Escherichia coli PriA helicase. 2.
    Lucius AL, Jezewska MJ, Roychowdhury A, Bujalowski W.
    Biochemistry; 2006 Jun 13; 45(23):7217-36. PubMed ID: 16752912
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  • 39. The rate-determining step on the recA protein-catalyzed ssDNA-dependent ATP hydrolysis reaction pathway.
    Stole E, Bryant FR.
    Biochemistry; 1997 Mar 25; 36(12):3483-90. PubMed ID: 9131997
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  • 40. Physical interactions between members of the DnaK chaperone machinery: characterization of the DnaK.GrpE complex.
    Reid KL, Fink AL.
    Cell Stress Chaperones; 1996 Jun 25; 1(2):127-37. PubMed ID: 9222598
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