C. Chmielewski scite author profile

C. Chmielewski

5Publications

100Citation Statements Received

51Citation Statements Given

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218

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ISCO International (United States), Michigan State University

Publications

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Liquid crystal domains and thixotropy of filamentous actin suspensions.

Kerst

Chmielewski

Livesay

et al. 1990

Proc. Natl. Acad. Sci. U.S.A.

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The thixotropic properties of filamentous actin suspensions were examined by a step-function shearing protocol. Samples of purified framentous actin were sheared at 0.2 sec' in a cone and plate rheometer. We noted a sharp stress overshoot upon the initiation of shear, indicative of a gel state, and a nearly instantaneous drop to zero stress upon cessation of shear. Stress-overshoot recovery was almost complete after 5 min of "rest" before samples were again sheared at 0.2 sec1.Overshoot recovery increased linearly with the square root of rest time, suggesting that gel-state recovery is diffusion limited. Actin suspensions subjected to oscillatory shearing at frequencies from 0.003 to 30 radians/sec confirmed the existence of a 5-min time scale in the gel, similar to that for stress-overshoot recovery. Flow of filamentous actin was visualized by polarized light observations. Actin from 6 mg/ml to 20 mg/ml showed the "polycrystalline" texture of birefringence typical for liquid crystal structure. At shear rates <1 sec', flow occurred by the relative movement of irregular, roughly ellipsoidal actin domains 40-140 ,um long; the appearance was similar to moving ice floes. At shear rates >1 sect, domains decreased in size, possibly by frictional interactions among domains. Eventually domains flow in a "river" of actin aligned by the flow. Our observations confirm our previous domain-friction model for actin rheology. The similarities between the unusual flow properties of actin and cytoplasm argue that cytoplasm also may flow as domains.Cytoplasm and suspensions of actin have unusual and complex fluid behaviors that must play a role in such phenomena as cytoplasmic streaming, amoeboid movement, movement of vesicles through the cytoplasm, and bulk flow of polymer. Both cytoplasm and actin solutions are shear thinning; their viscosity decreases with increasing shear rate (1-8). Shear thinning of actin differs from most polymer solutions in the absence of a Newtonian viscosity plateau at very low shear rates (1-4, 7). Further, cytoplasm and cytoskeletal suspensions show a constant shear stress (force) for shear rates between 0.001 and 1 sect (1, 5). Flow rate, therefore, is not fixed by the force; no flow occurs at forces less than the constant and fluid velocity is limited by inertia alone at forces higher than the constant. We (1) called this "flow indeterminacy," which, for example, helps explain the capacity of Physarum to support very rapid cytoplasmic streaming within "walls" of cytoplasm that do not shear away: High flow rates do not necessarily require large forces and a small difference in filament concentration could account for the difference between flowing and nonflowing cytoplasm. Cytoplasm and actin suspensions are also thixotropic (3, 4, 8-10)-i.e., show time-dependent decreases in viscosity at steady shear rate and subsequent recovery when the flow is discontinued (11). Thixotropy is frequently discussed in terms of gel --sol transitions familiar to biologists and has been among the most durable ...

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Elastic instability in crossflow of polymer solutions through periodic arrays of cylinders

Chmielewski

Jayaraman

1993

Journal of Non-Newtonian Fluid Mechanics

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Crossflow of elastic liquids through arrays of cylinders

Chmielewski

Petty

Jayaraman

1990

Journal of Non-Newtonian Fluid Mechanics

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A comparison of the drag coefficients of spheres translating in corn-syrup-based and polybutene-based boger fluids

Chmielewski¹,

Nichols²,

Jayaraman³

1990

Journal of Non-Newtonian Fluid Mechanics

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The effect of polymer extensibility on crossflow of polymer solutions through cylinder arrays

Chmielewski¹,

Jayaraman²

1992

Journal of Rheology

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C. Chmielewski

Liquid crystal domains and thixotropy of filamentous actin suspensions.

Elastic instability in crossflow of polymer solutions through periodic arrays of cylinders

Crossflow of elastic liquids through arrays of cylinders

A comparison of the drag coefficients of spheres translating in corn-syrup-based and polybutene-based boger fluids

The effect of polymer extensibility on crossflow of polymer solutions through cylinder arrays

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