Hindered diffusion in agarose gels: test of effective medium model.

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Hindered diffusion in agarose gels: test of effective medium model.

E M Johnson, D A Berk, R K Jain and W M Deen

Department of Chemical Engineering, Massachusetts Institute of Technology, Cambridge 02139, USA.

ABSTRACT

The diffusivities of uncharged macromolecules in gels (D) aretypically lower than in free solution (D infinity), becauseof a combination of hydrodynamic and steric factors. To examinethese factors, we measured D and D infinity for dilute solutionsof several fluorescein-labeled macromolecules, using an image-basedfluorescence recovery after photobleaching technique. Test macromoleculeswith Stokes-Einstein radii (rs) of 2.1-6.2 nm, including threeglobular proteins (bovine serum albumin, ovalbumin, lactalbumin)and four narrow fractions of Ficoll, were studied in agarosegels with agarose volume fractions (phi) of 0.038-0.073. Thegels were characterized by measuring the hydraulic permeabilityof supported agarose membranes, allowing calculation of theDarcy permeability (kappa) for each gel sample. It was foundthat kappa, which is a measure of the intrinsic hydraulic conductanceof the gel, decreased by an order of magnitude as phi was increasedover the range indicated. The diffusivity ratio D/D infinity,which varied from 0.20 to 0.63, decreased with increases inrs or phi. Thus as expected, diffusional hindrances were themost severe for large macromolecules and/or relatively concentratedgels. According to a recently proposed theory for hindered diffusionthrough fibrous media, the diffusivity ratio is given by theproduct of a hydrodynamic factor (F) and a steric factor (S).The functional form is D/D infinity = F(rs/k1/2) S(f), wheref = [(rs+rf)/rf]2 phi and rf is the fiber radius. Values ofD/D infinity calculated from this effective medium theory, withoutuse of adjustable parameters, were in much better agreementwith the measured values than were predictions based on otherapproaches. The strengths and limitations of the effective mediumtheory for predicting diffusivities in gels are discussed.

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