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PUBMED FOR HANDHELDS

Journal Abstract Search

155 related items for PubMed ID: 17637343

  • 21. The myosin start-of-power stroke state and how actin binding drives the power stroke.
    Preller M, Holmes KC.
    Cytoskeleton (Hoboken); 2013 Oct; 70(10):651-60. PubMed ID: 23852739
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  • 24. Evidence against essential roles for subdomain 1 of actin in actomyosin sliding movements.
    Siddique MS, Miyazaki T, Katayama E, Uyeda TQ, Suzuki M.
    Biochem Biophys Res Commun; 2005 Jul 01; 332(2):474-81. PubMed ID: 15910751
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  • 25. Direct real-time detection of the actin-activated power stroke within the myosin catalytic domain.
    Muretta JM, Petersen KJ, Thomas DD.
    Proc Natl Acad Sci U S A; 2013 Apr 30; 110(18):7211-6. PubMed ID: 23589853
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  • 27. Kinetics of structural changes in the relay loop and SH3 domain of myosin.
    van Duffelen M, Chrin LR, Berger CL.
    Biochem Biophys Res Commun; 2005 Apr 08; 329(2):563-72. PubMed ID: 15737623
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  • 28. Identification of dynamical correlations within the myosin motor domain by the normal mode analysis of an elastic network model.
    Zheng W, Brooks B.
    J Mol Biol; 2005 Feb 25; 346(3):745-59. PubMed ID: 15713460
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  • 29. ATP hydrolysis cycle-dependent tail motions in cytoplasmic dynein.
    Kon T, Mogami T, Ohkura R, Nishiura M, Sutoh K.
    Nat Struct Mol Biol; 2005 Jun 25; 12(6):513-9. PubMed ID: 15880123
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  • 30. Novel configuration of a myosin II transient intermediate analogue revealed by quick-freeze deep-etch replica electron microscopy.
    Kimori Y, Baba N, Katayama E.
    Biochem J; 2013 Feb 15; 450(1):23-35. PubMed ID: 23211187
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  • 33. Normal-mode-based modeling of allosteric couplings that underlie cyclic conformational transition in F(1) ATPase.
    Zheng W.
    Proteins; 2009 Aug 15; 76(3):747-62. PubMed ID: 19280602
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  • 34. ATP-dependent interplay between local and global conformational changes in the myosin motor.
    Kiani FA, Fischer S.
    Cytoskeleton (Hoboken); 2016 Nov 15; 73(11):643-651. PubMed ID: 27583666
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  • 35. Extensive conformational transitions are required to turn on ATP hydrolysis in myosin.
    Yang Y, Yu H, Cui Q.
    J Mol Biol; 2008 Sep 19; 381(5):1407-20. PubMed ID: 18619975
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  • 36. The mechanism of the reverse recovery step, phosphate release, and actin activation of Dictyostelium myosin II.
    Gyimesi M, Kintses B, Bodor A, Perczel A, Fischer S, Bagshaw CR, Málnási-Csizmadia A.
    J Biol Chem; 2008 Mar 28; 283(13):8153-63. PubMed ID: 18211892
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  • 37. Mechanistic insights into the active site and allosteric communication pathways in human nonmuscle myosin-2C.
    Chinthalapudi K, Heissler SM, Preller M, Sellers JR, Manstein DJ.
    Elife; 2017 Dec 19; 6():. PubMed ID: 29256864
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  • 38. Kinetic resolution of a conformational transition and the ATP hydrolysis step using relaxation methods with a Dictyostelium myosin II mutant containing a single tryptophan residue.
    Málnási-Csizmadia A, Pearson DS, Kovács M, Woolley RJ, Geeves MA, Bagshaw CR.
    Biochemistry; 2001 Oct 23; 40(42):12727-37. PubMed ID: 11601998
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  • 39. Analysis of nucleotide binding to Dictyostelium myosin II motor domains containing a single tryptophan near the active site.
    Kovacs M, Malnasi-Csizmadia A, Woolley RJ, Bagshaw CR.
    J Biol Chem; 2002 Aug 09; 277(32):28459-67. PubMed ID: 11971905
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  • 40. Mutations in the relay loop region result in dominant-negative inhibition of myosin II function in Dictyostelium.
    Tsiavaliaris G, Fujita-Becker S, Batra R, Levitsky DI, Kull FJ, Geeves MA, Manstein DJ.
    EMBO Rep; 2002 Nov 09; 3(11):1099-105. PubMed ID: 12393751
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