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A Particle-Level Model of Irreversible Protein Adsorption with a Postadsorption Transition

✍ Scribed by Paul R Van Tassel; Laı̈la Guemouri; Jeremy J Ramsden; Gilles Tarjus; Pascal Viot; Julian Talbot

Publisher
Elsevier Science
Year
1998
Tongue
English
Weight
204 KB
Volume
207
Category
Article
ISSN
0021-9797

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✦ Synopsis

Modeling the kinetics of protein adsorption at solid surfaces is needed to predict protein separations, design biosensors, and determine the body's initial response to foreign objects. We develop, at the particle level, a kinetic model that accounts geometrically for the surface blockage due to adsorption and postadsorption conformational (or orientational) transitions. Proteins are modeled as disk-shaped particles of diameter ␣ that adsorb irreversibly at random positions onto a surface at a rate k a c (c is the concentration of protein in the bulk solution). Adsorption occurs only where the surface is empty. Following adsorption, a particle attempts to spread (symmetrically) to a larger diameter ␤ at a rate k s . Spreading only occurs if no overlap with any previously placed particle would result. A set of equations is developed for determining the time evolution of the adsorbed protein density. These predictions are compared to new experimental data for fibronectin onto silica-titania obtained using optical waveguide lightmode spectroscopy (OWLS). We also discuss the general application of this model to experimental data.

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