Dynamic light scattering measurements of the diffusion of probes in filamentous actin solutions

Abstract

The diffusion coefficients of monodisperse polystyrene latex spheres in solutions of polymerized actin were measured using dynamic light scattering. Four different probes with radii R, ranging from 50 to 500 nm, were separately used in actin solutions with concentrations c, ranging from 1.5 to 21 μM, which had been polymerized with either 1 mM MgCl₂, 1mM CaCl₂, or 100 mM KCl. Under all conditions, and at four different scattering angles in the range of 30°–90°, the measured average diffusion coefficients D of the probes were systematically smaller for samples of increased actin concentration or of increased probe radius. Control experiments indicated that the probes did not bind to the actin. These data for Mg²⁺‐ and Ca²⁺ ‐polymerized actin agree and were found to be quite well summarized by the scaling relation D/D₀ = exp[–αR^δC^ν], where D₀ is the measured diffusion coefficient of the probes in water (and, as also measured, in the starting actin solutions prior to polymerization with added salt), with values of δ = 0.73 ± 0.05, ν = 1.08 ± 0.09, and α = (1.1 ± 0.6) × 10⁻³ (with c in μM and R in nm). Data for KCl‐polymerized actin show much more restricted diffusivities of the probes at comparable actin concentrations. Inhomogeneities in the solution are reflected in the “effective polydispersity” of the probe diffusion coefficients, which depend on local microviscosity differences.