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  • Title: Aluminum modifies the viscosity of filamentous actin solutions as measured by optical displacement microviscometry.
    Author: Arnoys EJ, Schindler M.
    Journal: Anal Biochem; 2000 Jan 01; 277(1):1-10. PubMed ID: 10610683.
    Abstract:
    A microtechnique has been developed that is capable of measuring the viscosity of filamentous actin (F-actin) solutions. This method, called optical displacement microviscometry (ODM), was utilized to determine the changes in viscosity of solutions of rabbit muscle, human platelet, and maize pollen actin when measured in the absence and presence of aluminum. Measurements demonstrated that the viscosity of the different actin solutions decreased with aluminum concentration. In contrast, increases in viscosity were observed when aluminum was added to F-actin solutions containing filamin (chicken gizzard), a protein that bundles actin filaments. Confocal fluorescence imaging of pure actin solutions in the presence of aluminum showed a disrupted actin network composed of fragmented actin filaments in the form of small aggregates. In contrast, in the presence of filamin, aluminum promoted the formation of thicker actin filaments. These measurements demonstrate that aluminum can affect actin filaments differentially depending on the presence of an actin-binding protein. In addition, a strong correlation is observed between the changes in viscosity as measured by ODM and the thickness and assembled state of bundles of actin filaments.
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