Biocomposite thin films assembled on colloidal particles by means of layer-by-layer adsorption have been suggested as drug carriers and diagnostic devices. Protamine (PRM)/dextransulfate (DXS) and protamine/bovine serum albumine (BSA) multilayers were fabricated on colloidal silica and subsequently investigated by means of fluorescence activated cell sorting (FACS) and microelectrophoresis. Fluorescein labeled polyelectrolytes were embedded at different positions in the multilayers as a marker for layer growth. FACS showed that PRM and DXS formed regular growing stable multilayers, yet adsorbed PRM can be nevertheless exchanged with PRM in solution during layer formation and also after the multilayer formation has been completed. Up to 90% of the PRM pool was available for exchange. PRM together with BSA as demonstrated by SFM did not form multilayers under the applied conditions although the zeta-potential, commonly used as an indicator for stepwise adsorption, observed characteristic alternations. The capability of bound PRM to exchange with PRM in solution is attributed to its relatively small size. The demonstrated exchange may have importance in designing multilayers with smart release features. Furthermore, FACS proved to be a rather suitable means to quantify the aggregation behavior during coating and washing. Singulets, doublets, triplets, and aggregates of higher order could be clearly resolved. The aggregation of particles coated with PRM/DXS layers was higher than that of silica particles coated with PAH/PSS layers. In the first case about 50% of all recorded events are attributed to aggregats, while the PAH/PSS coating produced only about 10% aggregates.
Colloids with graduated fluorescence intensities were fabricated by means of layer-wise adsorption of fluorescein isothiocyanate-labelled poly(allyl amine hydrochloride) (FITC-PAH) together with poly(styrene sulfonate) (PSS) on silica particles. The graduated fluorescence was adjusted by variation of the fluorescent layer number and mixing labelled PAH with unlabelled PAH in one layer. The graduation of fluorescence intensities was adjusted in a geometric progression. It was shown that a proper label content is crucial if self-quenching phenomena are involved. The approach of mixing FITC-PAH with unlabelled polyelectrolyte during adsorption was unsatisfactory since competition in adsorption occurs. The system shows excellent stability at least over a period of two years.
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