Self-consistent field theory of protein adsorption in a non-Gaussian polyelectrolyte brush

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    Abstract

    To describe adsorption of globular protein molecules in a polyelectrolyte brush we use the strong-stretching approximation of the Edwards self-consistent field equation, combined with corrections for a non-Gaussian brush. To describe chemical potentials in this mixture of (globular) species of widely varying sizes (ions, brush polyelectrolyte segments, globular protein molecules), we use the Boublik-Mansoori-Carnahan-Starling-Leland equation of state derived for polydisperse mixtures of spherical particles. The polyelectrolyte chain is described in this approach as a string of beads with the beads of a size related to the chain diameter. We use the one-dimensional Poisson equation to describe the electrostatic field and include the ionizable character of both the brush polyions and the protein molecules. This model explains the experimental observation of high amounts of protein adsorption in a polyacid brush for pH values above the isoelectric point of the protein as being due to charge reversal of the protein molecules upon entry in the brush. We find a distinct minimum in protein concentration near the edge of the brush. With increasing pH this barrier to protein transfer becomes larger, but much less so when we increase the ionic strength, a difference that might relate to an experimentally observed difference in the protein release rate in these two cases. A free energy analysis shows that the release of small ions from the brush and the increase of brush ionization are the two driving forces for protein adsorption in a like-charged brush
    Original languageGerman
    Article number011802
    Number of pages9
    JournalPhysical Review. E, Statistical nonlinear, and soft matter physics
    Volume73
    Issue number1
    DOIs
    Publication statusPublished - 2006

    Keywords

    • including charge regulation
    • electrical double-layer
    • grafted polymer brush
    • finite extensibility
    • free-energy
    • model
    • sedimentation
    • equilibrium
    • interfaces
    • equation

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