Helicene Structure between DNA and Cyanuric Acid: The Role of Noncovalent Interactions.

The self-assembly between DNA and small organic molecules can expand the structural space of and introduce novel functionalities to DNA nanomaterials. In particular, it was demonstrated that poly(adenosine) DNA self-assembles with cyanuric acid (CA) to form a triplex helical structure. Previous molecular dynamics simulations showed that the DNA-CA assemblies adopt a novel noncovalent helicene structure that has a continuous helical hydrogen bond network. This article explores why the assemblies adopt the helicene geometry instead of an alternative planar hexameric rosette geometry. Analysis of the hydrogen bonding and stacking interaction energies indicates that constraining the system to the hexameric rosette geometry strains the hydrogen bonds without significantly improving the interaction energy. Molecular dynamics simulations for the assemblies between adenosine nucleosides and CA confirm that the formation of helicene structure is primarily driven by base-pair interactions and not because of the DNA backbone.