A dual-app nucleoside probe reports G-quadruplex formation and ligand binding in the long terminal repeat of HIV-1 proviral genome

Abstract

We have developed a dual-app nucleoside analog, 5-selenophene-modified 2′-deoxyuridine (SedU), to probe the structure and ligand-binding properties of a G-rich segment present in the long terminal repeat (LTR) of the HIV-1 proviral DNA promoter region. The nucleoside probe is made of an environment-responsive fluorophore and X-ray crystallography phasing label (Se atom). SedU incorporated into LTR-IV sequence, fluorescently reports the formation of G-quadruplex (GQ) structure without affecting the native fold. Further, using the environment sensitivity of the probe, a fluorescence assay was designed to estimate the binding affinity of small molecule ligands to the GQ motif. An added feature of this probe system is that it would enable direct correlation of structure and recognition properties in solution and atomic level by using a combination of fluorescence and X-ray crystallography techniques.