Sequence-Independent Logical Regulation of the Assembly and Disassembly of DNA Polyhedra.

Controlling the self-assembly of DNA nanostructures using rationally designed logic gates is a major goal of dynamic DNA nanotechnology, which could facilitate the development of biomedicine, molecular computation, et al. In previous works, the regulations mostly relied on either toehold-mediated strand displacement or stimuli-driven conformational switch, requiring elaborately-designed or specific DNA sequences. Herein, we reported a facile, base-sequence-independent strategy for logically controlling DNA self-assembly through external molecules. The INHIBIT and XOR logic controls over the assembly/disassembly of DNA polyhedra were realized through cystamine (Cyst) and ethylenediamine (EN) respectively, which were further integrated into a half subtractor circuit thanks to the sharing of the same inputs. Our work provides a sequence-independent strategy in logically controlling DNA self-assembly, which may open up new possibilities for dynamic DNA nanotechnology.