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Items: 1 to 20 of 149

1.

Nonlinear elasticity and an 8-nm working stroke of single myosin molecules in myofilaments.

Kaya M, Higuchi H.

Science. 2010 Aug 6;329(5992):686-9. doi: 10.1126/science.1191484.

2.

Visualizing myosin's power stroke in muscle contraction.

Reedy MC.

J Cell Sci. 2000 Oct;113 ( Pt 20):3551-62. Review.

3.
4.

Actomyosin interaction in striated muscle.

Cooke R.

Physiol Rev. 1997 Jul;77(3):671-97. Review.

PMID:
9234962
5.

Temperature dependence of the force-generating process in single fibres from frog skeletal muscle.

Piazzesi G, Reconditi M, Koubassova N, Decostre V, Linari M, Lucii L, Lombardi V.

J Physiol. 2003 May 15;549(Pt 1):93-106.

6.

Direct measurement for elasticity of myosin head.

Suda H, Sugimoto M, Chiba M, Uemura C.

Biochem Biophys Res Commun. 1995 Jun 6;211(1):219-25.

PMID:
7779088
7.

Elastic bending and active tilting of myosin heads during muscle contraction.

Dobbie I, Linari M, Piazzesi G, Reconditi M, Koubassova N, Ferenczi MA, Lombardi V, Irving M.

Nature. 1998 Nov 26;396(6709):383-7.

PMID:
9845077
8.

Myosin subfragment-1 is sufficient to move actin filaments in vitro.

Toyoshima YY, Kron SJ, McNally EM, Niebling KR, Toyoshima C, Spudich JA.

Nature. 1987 Aug 6-12;328(6130):536-9.

PMID:
2956522
9.
10.

Mechanical measurements of single actomyosin motor force.

Miyata H, Yoshikawa H, Hakozaki H, Suzuki N, Furuno T, Ikegami A, Kinosita K Jr, Nishizaka T, Ishiwata S.

Biophys J. 1995 Apr;68(4 Suppl):286S-289S; discussion 289S-290S.

11.

Evidence for the essential role of myosin subfragment-2 in the ATP-dependent actin-myosin sliding in muscle contraction.

Tsuchiya T, Tanaka H, Shirakawa I, Karr T, Sugi H.

Jpn J Physiol. 1998 Oct;48(5):383-7.

PMID:
9852347
12.
13.

Velocities of unloaded muscle filaments are not limited by drag forces imposed by myosin cross-bridges.

Brizendine RK, Alcala DB, Carter MS, Haldeman BD, Facemyer KC, Baker JE, Cremo CR.

Proc Natl Acad Sci U S A. 2015 Sep 8;112(36):11235-40. doi: 10.1073/pnas.1510241112.

14.

Quantized velocities at low myosin densities in an in vitro motility assay.

Uyeda TQ, Warrick HM, Kron SJ, Spudich JA.

Nature. 1991 Jul 25;352(6333):307-11.

PMID:
1852205
15.

The size and the speed of the working stroke of muscle myosin and its dependence on the force.

Piazzesi G, Lucii L, Lombardi V.

J Physiol. 2002 Nov 15;545(Pt 1):145-51.

16.

Conformation of the myosin motor during force generation in skeletal muscle.

Irving M, Piazzesi G, Lucii L, Sun YB, Harford JJ, Dobbie IM, Ferenczi MA, Reconditi M, Lombardi V.

Nat Struct Biol. 2000 Jun;7(6):482-5.

PMID:
10881196
17.

The mechanism of force generation in myosin: a disorder-to-order transition, coupled to internal structural changes.

Thomas DD, Ramachandran S, Roopnarine O, Hayden DW, Ostap EM.

Biophys J. 1995 Apr;68(4 Suppl):135S-141S.

18.

The elongation and contraction of actin bundles are induced by double-headed myosins in a motor concentration-dependent manner.

Tanaka-Takiguchi Y, Kakei T, Tanimura A, Takagi A, Honda M, Hotani H, Takiguchi K.

J Mol Biol. 2004 Aug 6;341(2):467-76.

PMID:
15276837
19.

Characterization of single actin-myosin interactions.

Finer JT, Mehta AD, Spudich JA.

Biophys J. 1995 Apr;68(4 Suppl):291S-296S; discussion 296S-297S.

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