Supramolecular Assembly of Single-Tail ssDNA-Amphiphiles through π-π Interactions

In this work, we demonstrate the formation of supramolecular architectures from the assembly of single-tail single stranded DNA (ssDNA)-amphiphiles. Short ssDNA sequences of 10 nucleotides that were either unstructured or formed G-quadruplex secondary structures were conjugated to a single 4-(hexadecyloxy)benzamide tail, either directly or through a polycarbon (C-12) spacer. Conjugation of the ssDNA to the tail did not interfere with the G-quadruplex secondary structure of the ssDNA sequence. The ssDNA-amphiphiles self-assembled into ellipsoidal micelles, vesicles, nanotapes, and nanotubes. These nanotubes appeared to be formed by the rolling up of nanotapes. The increase of the hydrophobic block of the ssDNA-amphiphiles through the addition of a C-12 spacer led to an increase in wall thickness and nanotube diameter. The presence of pi-pi interactions, through the benzoic group, was verified via X-ray diffraction (XRD) and played a critical role in the formation of the different nanostructures. In contrast, ssDNA-amphiphiles with a single heptadecanoic acid tail self-assembled only into ellipsoidal micelles.

Automated summary

In this work, supramolecular architectures were formed from the assembly of single-tail single stranded DNA (ssDNA)-amphiphiles. The ssDNA-amphiphiles self-assembled into various nanostructures, and the increase of the hydrophobic block led to changes in the structure.