Luminescent Quantum Dot-Adaptor Protein-Antibody Conjugates for Use in Fluoroimmunoassays

Abstract

A method for the preparation and characterization of bioinorganic conjugates made with highly luminescent semiconductor CdSe–ZnS core-shell quantum dots (QDs) and antibodies for use in fluoroimmunoassays is presented. The conjugation strategy employs two routes: 1. Use of an engineered molecular adaptor protein, attached to the QDs via electrostatic/hydrophobic self-assembly, to link the inorganic fluorophore with antibodies, and 2. use of avidin, also electrostatically self-assembled onto the nanocrystal surface, which allows QD conjugation to biotinylated antibodies via avidin–biotin binding scheme. With this approach, the average number of antibodies conjugated to a single QD can be varied. In addition, we have developed a simple purification strategy based on mixed composition conjugates of the molecular adaptor and a second “inert” two-domain fusion protein that allows the use of affinity chromatography. QD/adaptor-antibody conjugates were successfully employed in fluoroimmunoassays for the detection of small molecule analytes, 2,4,6-trinitrobenzene (TNB) and hexahydro-1,3,5-trinitro-1,3,5-triazine (RDX). We also demonstrate the use of QD/avidin-antibody conjugates for fluoroimmunoassays using a model protein system.