Aptasensor for visual and fluorometric determination of lysozyme based on the inner filter effect of gold nanoparticles on CdTe quantum dots

The authors describe an aptasensor for visual and fluorescent detection of lysozyme via an inner filter effect (IFE). The assay is based on the fact that red gold nanoparticles (AuNPs) act as powerful absorbers of the green fluorescence of CdTe because of spectral overlap. If the lysozyme-binding aptamer is adsorbed onto the surface of the AuNPs, the salt-induced aggregation of AuNPs (that leads to a color change from red to blue) does not occur and the IFE remains efficient. If lysozyme is present, it will bind the aptamer and thereby prevent its adsorption on the AuNPs. As a result, the salt-triggered aggregation of the AuNPs will occur. Consequently, color will change from red to blue, and green fluorescence will pop up because the IFE is suppressed. Under optimum conditions, fluorescence is linearly related to lysozyme concentration in the 1.0 nM to 20 nM concentration range, with a 0.55 nM limit of detection. The method is perceived to be of wider applicability in that it may be used to design other visual and fluorescent assays if appropriate aptamers are available.