Preparation of Quantum Dot−Biotin Conjugates and Their Use in Immunochromatography Assays

Abstract

Biotinylated, highly luminescent CdSe−ZnS quantum dot (QD) conjugates were prepared and used in immunofiltration assays. Water-soluble quantum dot surfaces having a homogeneous negative charge density at basic pH were initially coated with a two-domain recombinant maltose-binding protein appended with a positively charged leucine zipper. Biotin functionalization of these electrostatically stabilized QD−protein complexes was then carried out using amine-reactive NHS biotin. These protein-coated biotin-functionalized quantum dot conjugates were incorporated into flow immunofiltration/displacement assays employing Affi-gel agarose resin for antibody immobilization, analyte capture, and immune complex formation with a second biotinylated antibody. A key component of the assay was the use of tetranitromethane-modified NeutrAvidin, used to link the biotinylated QDs to the immune complexes and facilitate their release at basic pH for subsequent quantification. This assay methodology was used to detect as little as 10 ng/mL staphylococcal enterotoxin type-B.