A biotin–hydrogel-coated quartz crystal microbalance biosensor and applications in immunoassay and peptide-displaying cell detection

A biotin-coated quartz crystal microbalance (QCM) chip was prepared by dip-coating a long-chain alkanethiol-modified crystal with precoupled dextran–biotin hydrogels. The resulting biotin chip was used to affinity-immobilize streptavidin (SAv) and was then further employed for various biosensor assays. First, the SAv chip allowed efficient on-line binding of biotinylated bovine serum albumin (bBSA), followed by a sensitive and specific response toward anti-bovine serum albumin (BSA) antibodies. Three consecutive immunoassays were reproducibly demonstrated with a single chip. The apparent binding kinetics with kon = 5.9 μM−1 h−1, koff = 10.1 h−1, and KD = 1.71 μM was readily resolved by fitting the real-time sensorgrams. Second, the capability of the SAv chip to selectively recognize recombinant Escherichia coli with flagella displaying an artificial SAv binding peptide, Strep-tag II, was demonstrated by QCM analysis and verified by scanning transmission electron microscope (STEM) image analysis with biotin-coated gold nanoparticles as the label. Finally, the affinity of the cell-displayed Strep-tag II peptide to surface-coated SAv, KD = 6.8 × 108 CFU/ml, was resolved on-line using equilibrium binding kinetics by QCM. This study presents an easy, economical, and reliable method of preparing high-performance SAv-coated biotin chips with potential for application in real-time repetitive immunoassays, on-line binding kinetics studies, and high-affinity peptide screening.