Abstract
In this work we report experimental results on the molar absorptivity of cytochrome c adsorbed at different submonolayer levels onto an aluminum oxide waveguide surface. The spectra was acquired using the broadband, single-mode, integrated optical waveguide spectroscopic technique, which is an extremely sensitive tool able to reach submonolayer levels of detection required for this type of studies. For a protein surface density of 2.3 pmol/cm2 the molar absorptivity measured at 695 nm was 335 M−1 cm−1, and for a surface density of 14.6 pmol/cm2 was 720 M−1 cm−1 which is much closer to the value of cyt c dissolved in an aqueous neutral buffer (830 M−1 cm−1). Our data show a clear dependence of the protein optical properties on its surface density. The modification of the protein molar absorptivity can most likely be attributed to conformational changes of the surface-adsorbed species.
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