Close Proximity of Cholesterol Anchors in Membrane Induces the Dissociation of Amphiphilic DNA Strand from Membrane Surface

Dynamic DNA nanotechnology is appealing for membrane surface engineering due to their versatility and programmability. To modulate the dynamic interactions between the DNA functional units immobilized on membrane surface, membrane‐anchored DNA functional units often come into close proximity each other due to DNA base pairing, which also leads to the close contact of the hydrophobic anchors in membrane. However, whether the close contact of hydrophobic anchors induces the dissociation of amphiphilic DNA structures from membrane surface is not concerned. Herein, we utilized cholesterol‐labeled single‐stranded DNA (ssDNA) as a simplified amphiphilic DNA structure to investigate the stability of membrane anchored DNA strands upon the closely contact of cholesterol anchors. The close contact of cholesterol‐labeled ssDNA molecules driven by toe‐hold mediated strand displacement reaction leads to approximately 41 % membrane anchored ssDNA dissociation from membrane surface, indicating the proximal cholesterol anchors in membrane could reduce the anchoring stability of cholesterol‐modified DNA strands. This work enhances our understanding of the interactions between amphiphilic DNA and membranes, and provides valuable insights for the design of future DNA constructs intended for applications involving dynamic DNA reactions on membrane surface.