Formation of higher order structures, such as G-quadruplexes and G-quadruplex based large suprastructures into long G-wires and liquid crystals is promising elements for use in healthcare for drug delivery as they are mechanically and thermally stable. In this study, we studied the structures of short 11-mer oligonucleotide 5'-GAGAG-3'(11Pu) which is observed in 3'-UTR region of c-jun protooncogene. We used Circular Dichroism, UV-thermal melting, Native Gel Electrophoresis and Atomic Force Microscopy to determine the structure of 11Pu. CD results showed that 11Pu formed a mixed G-quadruplex in the presence of Na with and without Mg, while it formed a parallel G-quadruplex in the presence of 100 mM K with or without Mg. Cation selectivity in inducing the formation of large superstructures was observed in the presence of 100 mM K with 10 mM Mg. On the contrary, 10 mM Ca did not induce the suprastructures. It was further demonstrated that Mg at low concentration induced a parallel G-quadruplex of 11Pu, whereas at 10 mM Mg induced a large suprastructure. Atomic Force Microscopy Images showed that 11Pu formed a G-wire, a liquid crystals and a crystalline lattice depending on the concentration of 11Pu and Mg. These insights may be employed to design G quadruplex-based nanowires for targeted drug delivery as well as interesting candidates for molecular nanowires.