Active fluidization of polymer networks through molecular motors
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D. Smith | J. Käs | J. Käs | D. Smith | D. Humphrey | C. Duggan | D. Saha | D. Humphrey | C. Duggan | D. Saha | David M. Smith | David M Smith
[1] S. Saito,et al. Translational and orientational dynamics of a water cluster (H2O)108 and liquid water: Analysis of neutron scattering and depolarized light scattering , 1995 .
[2] B. Monosmith,et al. Collision-induced Raman scattering from water and aqueous solutions , 1989 .
[3] David C. Morse,et al. Viscoelasticity of concentrated isotropic solutions of semiflexible polymers. 2. Linear response , 1998 .
[4] M. Weissman. 1/f noise and other slow, nonexponential kinetics in condensed matter. , 1988 .
[5] S. Asakura,et al. Directional movement of F-actin in vitro. , 1986, Journal of molecular biology.
[6] T. Pollard,et al. Viscometric analysis of the gelation of Acanthamoeba extracts and purification of two gelation factors , 1980, The Journal of cell biology.
[7] Sastry,et al. Singularity-free interpretation of the thermodynamics of supercooled water. , 1998, Physical review. E, Statistical physics, plasmas, fluids, and related interdisciplinary topics.
[8] I. Ohmine. Liquid Water Dynamics: Collective Motions, Fluctuation, and Relaxation , 1995 .
[9] Hideki Tanaka,et al. Fluctuation, relaxations, and hydration in liquid water. Hydrogen-bond rearrangement dynamics , 1993 .
[10] Peter G. Wolynes,et al. Large local energy fluctuations in water. II. Cooperative motions and fluctuations , 1988 .
[11] S. Lowey,et al. Preparation of myosin and its subfragments from rabbit skeletal muscle. , 1982, Methods in enzymology.
[12] S. Edwards,et al. The Theory of Polymer Dynamics , 1986 .
[13] H. Stanley,et al. The relationship between liquid, supercooled and glassy water , 1998, Nature.
[14] A. Ridley,et al. Cell behaviour : control and mechanism of motility , 1999 .
[15] D E Smith,et al. Direct observation of tube-like motion of a single polymer chain. , 1994, Science.
[16] E. J. Ambrose,et al. CELL MOVEMENTS. , 1965, Endeavour.
[17] Andersen,et al. 10(6)-particle molecular-dynamics study of homogeneous nucleation of crystals in a supercooled atomic liquid. , 1990, Physical review. B, Condensed matter.
[18] J. Onuchic,et al. Theory of protein folding: the energy landscape perspective. , 1997, Annual review of physical chemistry.
[19] M. Sasai. Instabilities of hydrogen bond network in liquid water , 1990 .
[20] P. Kusalik,et al. Electrofreezing of Liquid Water: A Microscopic Perspective , 1996 .
[21] T. Pollard,et al. Human platelet myosin. II. In vitro assembly and structure of myosin filaments , 1975, The Journal of cell biology.
[22] J. Spudich,et al. Fluorescent actin filaments move on myosin fixed to a glass surface. , 1986, Proceedings of the National Academy of Sciences of the United States of America.
[23] D. Frenkel,et al. Enhancement of protein crystal nucleation by critical density fluctuations. , 1997, Science.
[24] T. Pollard,et al. Acanthamoeba myosin-II minifilaments assemble on a millisecond time scale with rate constants greater than those expected for a diffusion limited reaction. , 1990, The Journal of biological chemistry.
[25] J. E. Godfrey,et al. G-actin:preparation by gel filtration and evidence for a double stranded structure. , 1963, Biochemical and biophysical research communications.
[26] A. Ajdari,et al. Viscoelasticity of solutions of motile polymers. , 2001, Physical review letters.
[27] D H Wachsstock,et al. Cross-linker dynamics determine the mechanical properties of actin gels. , 1994, Biophysical journal.
[28] S. Leibler,et al. Self-organization of microtubules and motors , 1997, Nature.
[29] Y. Furukawa,et al. Anisotropic growth kinetics of ice crystals from water studied by molecular dynamics simulation , 1996 .
[30] D. Taylor,et al. Cytoplasmic structure and contractility in amoeboid cells. , 1979, International review of cytology.
[31] D. Wales,et al. From Topographies to Dynamics on Multidimensional Potential Energy Surfaces of Atomic Clusters , 1996, Science.
[32] E. Reisler,et al. Myosin mini filaments , 1980 .
[33] M Karplus,et al. The fundamentals of protein folding: bringing together theory and experiment. , 1999, Current opinion in structural biology.
[34] E. Reisler,et al. Myosin minifilaments. , 1980, Journal of molecular biology.
[35] P. Gennes. Reptation of a Polymer Chain in the Presence of Fixed Obstacles , 1971 .
[36] E. Sackmann,et al. Direct imaging of reptation for semiflexible actin filaments , 1994, Nature.
[37] R. Ramaswamy,et al. Long time fluctuation of liquid water: 1/f spectrum of energy fluctuation in hydrogen bond network rearrangement dynamics , 1992 .
[38] J. Klafter,et al. The random walk's guide to anomalous diffusion: a fractional dynamics approach , 2000 .
[39] F. Stillinger,et al. Packing Structures and Transitions in Liquids and Solids , 1984, Science.
[40] L. Bartell. Nucleation Rates in Freezing and Solid-State Transitions. Molecular Clusters as Model Systems , 1995 .
[41] Kenichiro Koga,et al. First-order transition in confined water between high-density liquid and low-density amorphous phases , 2000, Nature.
[42] A. C. Maggs,et al. Dynamics and rheology of actin solutions , 1996 .
[43] T. Leisner,et al. Homogeneous nucleation rates of supercooled water measured in single levitated microdroplets , 1999 .
[44] R Ezzell,et al. F-actin, a model polymer for semiflexible chains in dilute, semidilute, and liquid crystalline solutions. , 1996, Biophysical journal.
[45] M. Matsumoto,et al. A new approach to the dynamics of hydrogen bond network in liquid water , 1996 .
[46] R. Gupta,et al. Polymer and Composite Rheology , 2000 .
[47] P. Steinhardt,et al. Bond-orientational order in liquids and glasses , 1983 .