Myosin motors fragment and compact membrane-bound actin filaments
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Petra Schwille | Fabian Heinemann | Zdenek Petrasek | P. Schwille | S. Vogel | Sven K Vogel | Fabian Heinemann | Z. Petrášek | Zdeněk Petrášek
[1] Toshio Yanagida,et al. Direct observation of motion of single F-actin filaments in the presence of myosin , 1984, Nature.
[2] J. Käs,et al. Molecular motor-induced instabilities and cross linkers determine biopolymer organization. , 2007, Biophysical journal.
[3] D. Taylor,et al. Myosin II transport, organization, and phosphorylation: evidence for cortical flow/solation-contraction coupling during cytokinesis and cell locomotion. , 1996, Molecular biology of the cell.
[4] D Groswasser,et al. Active gels : dynamics of patterning and self-organization , 2006 .
[5] Hiroyasu Itoh,et al. Tying a molecular knot with optical tweezers , 1999, Nature.
[6] Manuel Théry,et al. Actin Network Architecture Can Determine Myosin Motor Activity , 2012, Science.
[7] Fred C. MacKintosh,et al. Active multistage coarsening of actin networks driven by myosin motors , 2011, Proceedings of the National Academy of Sciences.
[8] D. Smith,et al. Active fluidization of polymer networks through molecular motors , 2002, Nature.
[9] G. Borisy,et al. Non-sarcomeric mode of myosin II organization in the fibroblast lamellum , 1993, The Journal of cell biology.
[10] Martin Lenz,et al. Reconstitution of contractile actomyosin bundles. , 2011, Biophysical journal.
[11] J. White,et al. Cortical flow in animal cells. , 1988, Science.
[12] J. Spudich,et al. Disruption of the Dictyostelium myosin heavy chain gene by homologous recombination. , 1987, Science.
[13] D. Burgess. Cytokinesis: New Roles for Myosin , 2005, Current Biology.
[14] J. Spudich,et al. Control of nonmuscle myosins by phosphorylation. , 1992, Annual review of biochemistry.
[15] P. Schwille,et al. Min protein patterns emerge from rapid rebinding and membrane interaction of MinE , 2011, Nature Structural &Molecular Biology.
[16] T. Mitchison,et al. Myosin is involved in postmitotic cell spreading , 1995, The Journal of cell biology.
[17] Lior Haviv,et al. A cytoskeletal demolition worker: myosin II acts as an actin depolymerization agent. , 2008, Journal of molecular biology.
[18] Yu-Li Wang,et al. Cortical Actin Turnover during Cytokinesis Requires Myosin II , 2005, Current Biology.
[19] J. Squire,et al. Three-Dimensional Structure of the M-region (Bare Zone) of Vertebrate Striated Muscle Myosin Filaments by Single-Particle Analysis , 2010, Journal of molecular biology.
[20] Salman S Rogers,et al. Precise particle tracking against a complicated background: polynomial fitting with Gaussian weight , 2007, Physical biology.
[21] E. Newsholme,et al. The contents of adenine nucleotides, phosphagens and some glycolytic intermediates in resting muscles from vertebrates and invertebrates. , 1975, The Biochemical journal.
[22] Dylan T Burnette,et al. Myosin II functions in actin-bundle turnover in neuronal growth cones , 2006, Nature Cell Biology.
[23] J. Sellers,et al. Kinetic Mechanism of Non-muscle Myosin IIB , 2003, Journal of Biological Chemistry.
[24] P. Wadsworth,et al. Myosin-II-Dependent Localization and Dynamics of F-Actin during Cytokinesis , 2005, Current Biology.
[25] J. Tinevez,et al. Polar actomyosin contractility destabilizes the position of the cytokinetic furrow , 2011, Nature.
[26] N. K. Wessells,et al. Microfilaments in Cellular and Developmental Processes , 1971, Science.
[27] Erwin Frey,et al. Polar patterns of driven filaments , 2010, Nature.
[28] E Meijering,et al. Design and validation of a tool for neurite tracing and analysis in fluorescence microscopy images , 2004, Cytometry. Part A : the journal of the International Society for Analytical Cytology.
[29] J. Sellers,et al. Polarity and velocity of sliding filaments: control of direction by actin and of speed by myosin. , 1990, Science.
[30] P. Schwille,et al. Minimal systems to study membrane-cytoskeleton interactions. , 2012, Current opinion in biotechnology.
[31] Hierarchical self-organization of cytoskeletal active networks. , 2012, Physical biology.
[32] J. Howard,et al. Mechanics of Motor Proteins and the Cytoskeleton , 2001 .
[33] E. Egelman,et al. Atomic model of a myosin filament in the relaxed state , 2005, Nature.
[34] A. Bausch,et al. Structure formation in active networks. , 2011, Nature materials.
[35] Akihiro Kusumi,et al. Three-dimensional reconstruction of the membrane skeleton at the plasma membrane interface by electron tomography , 2006, The Journal of cell biology.
[36] D. Warshaw,et al. Smooth and skeletal muscle myosin both exhibit low duty cycles at zero load in vitro. , 1993, The Journal of biological chemistry.
[37] Alba Diz-Muñoz,et al. Control of Directed Cell Migration In Vivo by Membrane-to-Cortex Attachment , 2010, PLoS biology.
[38] M. Kaya,et al. Nonlinear Elasticity and an 8-nm Working Stroke of Single Myosin Molecules in Myofilaments , 2010, Science.
[39] Takeharu Nagai,et al. Visualization of ATP levels inside single living cells with fluorescence resonance energy transfer-based genetically encoded indicators , 2009, Proceedings of the National Academy of Sciences.
[40] G. Totsukawa,et al. Role of myosin light chain phosphorylation in the regulation of cytokinesis. , 2001, Cell structure and function.
[41] Michael P. Sheetz,et al. Movement of myosin-coated beads on oriented filaments reconstituted from purified actin , 1985, Nature.
[42] T. Svitkina,et al. Myosin II filament assemblies in the active lamella of fibroblasts: their morphogenesis and role in the formation of actin filament bundles , 1995, The Journal of cell biology.