Recently, scientists have presented a new study on the reassembly of a parallel trimolecular G-quadruplex in the Hoogsteen mode. This G-quadruplex is created using a novel DNA-based building block called a nanotube. It is the first example of a G-quadruplex that is composed of nanotubes.

The study, published in the journal Nature Chemistry, is a breakthrough in the understanding of how nanotubes can be used to create G-quadruplexes. The researchers used a combination of DNA-hybridization and self-assembly to create the trimolecular G-quadruplex. This is an important step towards using nanotubes to develop new molecular architectures.

The findings of this study have important implications for the development of new genetic materials and nanotechnologies. The ability to construct G-quadruplexes from nanotubes could help in the development of new therapeutics, diagnostics and devices. Furthermore, this study has shown that nanotubes can be used to create G-quadruplexes with a higher degree of complexity.

This new study has opened up many possibilities in the field of nanotechnology and genetics. The use of nan

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source: Phys.org