In the cell surface display system, the distance of a surface-displayed molecule from the cell surface should influence its functionality due to the interference by other surface structures. For the purpose of developing this distance-variable surface display system, we utilized a long fibrous adhesin, Acinetobacter trimeric autotransporter adhesin (AtaA) of the strain Tol 5. We constructed His-tagged full-length and shorter AtaA fibers designed by N-terminal deletion and expressed them in the ΔataA mutant. Immunoelectron microscopy clearly showed that they formed fibers on the cell surface and the His-tag was displayed on the fiber tip located at fixed distances from the cell surface. N-terminal deletion of AtaA shortened the distance between the His-tag and the cell surface, as designed. Time-course analyses of the cell-to-Ni-Sepharose beads binding revealed that cells producing the longer fibers bound more rapidly to the beads. The His-tagged AtaA derivatives were also displayed on Escherichia coli cells, and a similar tendency was shown; the His-tag on the longer fiber was more functional than that on the shorter one. Thus, we developed an on-fiber display system of a functional peptide using a long trimeric autotransporter adhesin (TAA) fiber, which can vary the distance between the displayed molecule and the cell surface.
Keywords: bacterionanofiber; cell surface display; on-fiber display; trimeric autotransporter adhesin.
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