Fiber-optic fluorometric sensing of polymerase chain reaction-amplified DNA using an immobilized DNA capture protein.

A fiber-optic assay for amplified DNA products has been developed. Modifications of the DNA capture strategy described previously by Kemp et al. [Proc. Natl. Acad. Sci. USA 86, 2423-2427 (1989)] were made that allowed selective binding of DNA labeled during the amplification process to the sensing surface of fused silica fibers. The gene for a chimeric protein composed of the IgG-binding beta 2 subdomain of streptococcal protein G fused with the DNA binding domain of yeast GCN4 was constructed, and this PG/GCN4 protein was overexpressed in Escherichia coli. The purified protein was noncovalently bound to IgG-modified fibers utilizing strong and specific interactions between the protein G beta 2 domain and goat IgG that had been covalently immobilized on the fiber surface. Nanomolar concentrations of amplified DNA labeled with the fluorophore tetramethylrhodamine and the AP-1 consensus nucleotide sequence recognized by GCN4 (5'-ATGACTCAT) were rapidly and selectively bound within the evanescent zone of multimode laser-illuminated fibers. Signal from unincorporated fluorescent PCR primer was negligible. Individual fibers could be used for multiple sequential assays, since the fluorescent double-stranded DNA was rapidly and completely stripped from their surfaces with high salt solutions, leaving the IgG-PG/GCN4 DNA binding complex intact to accept another PCR sample.