Interaction between biomolecules and solid surfaces / Interação entre a enzima enolase e superfícies sólidas

AUTOR(ES)
DATA DE PUBLICAÇÃO

2004

RESUMO

This work aimed to compare the adsorption behavior of enolase (2-phospho-D- glycerate hydrolase) onto hydrophilic (silicon wafers and amino-terminated surfaces (APS)) and hydrophobic planar substrates (polystyrene (PS) film, TMCS). The effect of the substrate shape (planar x spherical) was also studied. The spherical substrates were glass beads, native and modified with TMCS, with hydrophilic and hydrophobic characters, respectively. The adsorption kinetics of enolase onto planar substrates (obtained by means of in situ ellipsometry) presented three distinct regions: (i) a diffusion controlled step, (ii) monolayer formation evidenced by an adsorption plateau and (iii) continuous, irreversible and asymptotic increase of the adsorbed amount with time. The early stages were described by the random sequential adsorption model (RSA), while the cooperative sequential adsorption (CSA) model described regions (ii) and (iii). The adsorption isotherms show that enolase has no preferential adhesion onto hydrophilic or hydrophobic substrates. No significant influence of ionic strength was observed on the adsorption behavior of enolase onto the planar substrates. On the other hand, atomic force microscopy (AFM) showed that at long adsorption time and low ionic strength enolase monolayer induced fibrillation of the incoming molecules. Such effect was not observed at high ionic strength. Increasing the adsorption time, aggregates appeared on the surface, suggesting multilayer formation. Small angle X-ray scattering (SAXS) measurements of enolase (c = 6.0g/L) in NaCl 0.00 1 mol/L solution yielded radius of gyration of 29 Å, confirming that aggregation was probably induced by the surface of enolase monolayer and screening effects. Contact angle measurements showed that PS surfaces became hydrophilic and silicon surfaces turned hydrophobic after the formation of the enolase biofilm. XPS measurements showed that enolase adsorption is faster onto hydrophilic silicon wafers than onto hydrophobic PS fim, corroborating with the ellipsometric measurements. The study of the influence of pH on the enolase adsorption on silicon and APS surfaces showed that was the highest pH was close to the enzyme isoelectric point. The adsorption kinetic curves of enolase onto spherical substrates (obtained by means of UV-vis spectrophotometry) showed that the adsorbed amount (F) increased as function of adsorption time and initial concentration of enolase. The highest F value was obtained on spherical substrates. The three adsorption steps, characteristic of enolase adsorption, could not be observed by means of the methodology used. The influence of ionic strength was observed only in concentrated enolase solutions (cenolase 0.5g/L). The immobilized enolase molecules kept their enzymatic activity, regardless the type of substrate.

ASSUNTO(S)

enzymes polímeros adsorção enzimas polymers microesferas atomic force miscroscopy microspheres elipsometria ellipsometry adsorption microscopia de força atômica

ACESSO AO ARTIGO

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