Combinatorial parallel display of polypeptides using bacteriophage T7 for development of fluorescent nano-bioprobes

Application of nano-particles to diagnostic fields has attracted much attention. Biotechnology can contribute to produce useful nano-materials by engineering bacteriophage nano-particles, which are easily prepared by infecting phages to bacterial host cells. In this study, establishment of nano-bioprobes was demonstrated, based on the T7 phage display system, by constructing phage particles displaying a ligand polypeptide S-tag and a green fluorescent protein (GFP) at the same time on the surface of phage head. To achieve this purpose, two types of phage particles were tested: One displayed S-tag and GFP as a single polypeptide (tandem display), and another displayed these molecules as two different polypeptides (parallel display). Only the parallelly displayed phage could be detected with ligand blotting using S-protein and with immunoblotting using an anti-GFP antibody. S-protein-coated magnetic beads and nano-particles were successively labeled with fluorescence using the parallelly displayed phage but could not be labeled with the tandemly displayed phage. Thus, the parallel display of a ligand molecule and fluorescent protein on the head surface of bacteriophage T7 could provide a new scheme of producing fluorescent nano-bioprobes for diagnostic applications.