UC Irvine

The fluorescence properties of indole derivatives, lysozyme and azurin were investigated in reverse micelles of detergent sodium bis[2-ethylhexl]sulfosuccinate (Aerosol OT)* in n-hexane. L-tryptophan, l-methyl-tryptophan and n-acetyl-l-tryptophanamide exhibited complex fluorescence decays in reverse micelles. Fluorescence decays were best described using Gaussian bimodal distributions of lifetimes. Increasing hydration levels in the micelles resulted in a decrease in decay heterogeneity, as indicated by a large decrease in lifetime distribution widths. Steady-state polarization and fluorescence emission measurements indicated both an increase in average polarity of the environment around the indole derivatives and an increase in the mobility of the probes with increasing hydration levels. The fluorescence decays of lysozyme and azurin in reverse micelles were also found to be very complex and were described with Gaussian lifetime distributions. Increasing water content in the micelles caused marked decreases in both center and width of the lifetime distributions for these two proteins. Steady-state polarization measurements as a function of the extent of hydration revealed an increase in the average rotational rates of the tryptophan residues in lysozyme upon increasing water content. Thus, static polarization and lifetime measurements indicate that the amount of water present in the micelle may influence the amount of structural flexibility of the polypeptide chains and the rates of interconversion between conformational substates. © 1990.