Anomalous Diffusion of Proteins Due to Molecular Crowding

doi:10.1529/biophysj.104.051078

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Anomalous Diffusion of Proteins Due to Molecular Crowding

Daniel S. Banks^* and Cécile Fradin^*

^* Department of Physics and Astronomy, and Department of Biochemistry and Biomedical Sciences, McMaster University, Hamilton, Ontario, Canada

Correspondence: Address reprint requests to Cécile Fradin, E-mail: fradin{at}physics.mcmaster.ca.

We have studied the diffusion of tracer proteins in highly concentratedrandom-coil polymer and globular protein solutions imitatingthe crowded conditions encountered in cellular environments.Using fluorescence correlation spectroscopy, we measured theanomalous diffusion exponent ${alpha}$ characterizing the dependenceof the mean-square displacement of the tracer proteins on time, $<$ r²(t) $>$ $~$ t. We observed that the diffusion of proteins in dextransolutions with concentrations up to 400 g/l is subdiffusive( ${alpha}$ < 1) even at low obstacle concentration. The anomalousdiffusion exponent ${alpha}$ decreases continuously with increasing obstacleconcentration and molecular weight, but does not depend on bufferionic strength, and neither does it depend strongly on solutiontemperature. At very high random-coil polymer concentrations, ${alpha}$ reaches a limit value of ${alpha}$ _l ${approx}$ 3/4, which we take to be the signatureof a coupling between the motions of the tracer proteins andthe segments of the dextran chains. A similar, although lesspronounced, subdiffusive behavior is observed for the diffusionof streptavidin in concentrated globular protein solutions.These observations indicate that protein diffusion in the cellcytoplasm and nucleus should be anomalous as well, with consequencesfor measurements of solute diffusion coefficients in cells andfor the modeling of cellular processes relying on diffusion.

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