Shaped DNA origami carrier nanopore translocation influenced by aptamer based surface modification

DNA origami is widely used as a translocation carrier to assist solid-state nanopore analysis, e.g., soft linear origami carrier and special-shaped origami structures. In the linear origami carriers based nanopore sensing, molecular modifications induced tiny structural and charge changes, can result in significant variations on translocation signals to facilitating single-molecule sensing. However, an understanding on the influences of surface modifications on special-shaped DNA origami structures during solid-state (SS) nanopores translocation is still far elusive. Herein, we reported a surface modification strategy using aptamer/target-binding to influence the translocation of the shaped origami ribbon carrier through SS-nanopore. Our measurements indicate that the translocation signal variations can respond to ATP/aptamer binding on the carrier surface, even to the surface modifications induced by spatial distributions and enzyme catalysis. Meanwhile, the results also suggest a possibility to identify small spatial and electronic changes on DNA origami by using SS-nanopore. We envision that the surface aptamer-binding influenced origami translocation strategy could find more applications in origami carrier assisted SS-nanopore sensing and detection.