Abstract
Filamentous bacteriophage display is a powerful and widely used technology for the selection of affinity ligands. However, the commonly used phagemid systems result in the production of a population of phage of which those displaying the ligand of interest represent only a small proportion. Through simple dilution and nonspecific binding effects, the presence of large numbers of ligand-free phage reduces the likelihood that weak binders will be successfully selected from a ligand library. To provide a means of avoiding such problems, we have introduced an affinity handle into the phage that permits the purification of ligand-displaying phage. The IgG binding domains ofStaphylococcus ciureus protein A (SpA) were fused to a ligand (single chain Fv[scFv]) which is displayed as a fusion with the phage surface protein ApIII. Phage-displaying SpA were separated by affinity chromatography using immobilized human IgG from non-displaying phage and the purified phage were shown to possess functional scFv. Comparisons of fusion proteins in which either the scFv or the affinity handle occupied the amino terminus of the fusion protein showed that, whereas SpA function was unaffected by position, scFv function was compromised when the scFv did not occupy the amino terminus.
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Li, Y., Cockbum, W. & Whitelam, G.C. Filamentous bacteriophage display of a bifunctional protein A::scFv fusion. Mol Biotechnol 9, 187–193 (1998). https://doi.org/10.1007/BF02915792
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DOI: https://doi.org/10.1007/BF02915792