Journal of Colloid and Interface Science, Vol.261, No.2, 312-319, 2003
Investigation of protein adsorption and electrochemical behavior at a gold electrode
The adsorption of two model proteins, human serum albumin and immunoglobulin G, on a gold electrode surface was investigated using I-125 radiolabeline and cyclic voltammetry (CV). I-125 radiolabeling was used to determine the extent of protein adsorption, while CV was used to ascertain the effect of the adsorbed protein layer on the electron transfer between the gold electrode and an electroactive moiety in solution, namely, K3Fe(CN)(6). The adsorbed amounts of HSA and IgG agreed well with previous results and showed approximately monolayer coverage. The amount of adsorbed protein increased when a positive potential (700 mV) was applied to the electrode, while the application of a negative potential (-800 mV) resulted in a decrease. When the solution pH was varied to alter the charge on the protein, the adsorption trends appeared to follow electrostatic interaction, namely, greater adsorption when the electrode and the protein possessed opposite charge and vice versa. The adsorbed protein layer had the effect of blocking the electron transfer. It was possible to correlate the degree of electron blocking with the amount of adsorbed protein to show that the greater the adsorption, the larger the blocking effect. Of the two proteins used, HSA proved to be more efficient at blocking the electron transfer. (C) 2003 Elsevier Science (USA). All rights reserved.
Keywords:human serum albumin;immunoglobulin G;gold;adsorption;radiolabeling;cyclic voltammetry;electron transfer