Preferential Recognition of Human Telomeric G-Quadruplex DNA by a Red-Emissive Molecular Rotor

Preferential Binding of a Red Emissive Julolidine Derivative to a Promoter G-Quadruplex

The therapeutic potential of G-quadruplexes has increased significantly with the growing understanding of their functional roles in pathogens apart from human diseases such as cancer. Here, we report the synthesis of three julolidine-based molecules and their binding to nucleic acids. Among the synthesized molecules, compound 1 exhibited red emissive fluorescence with a distinct preference for Pu22 G-quadruplex. The binding of compound 1 to Pu22 G-quadruplex, initially identified through a fluorescence-based screening, was further confirmed by UV-vis, fluorescence spectroscopy, and circular dichroism-based experiments. Thermal denaturation of compound 1 in the presence of Pu22 G-quadruplex revealed a concentration-dependent stabilization (~10.0 °C at 1 : 3 stoichiometry). Fluorescence-based experiments revealed 1 : 1 stoichiometry of the interaction and an association constant (Ka ) of 5.67×106  M-1 . CD experiments displayed that the parallel conformation of the G-quadruplex was retained on compound 1's binding and signs of higher order binding/complex formation were observed at high compound 1 to DNA ratio. Molecular docking studies revealed the dominance of stacking and van der Waals interactions in the molecular recognition which was aided by some close-distance interactions involving the quinolinium nitrogen atom.

Promoter G-Quadruplex Binding Styryl Benzothiazolium Derivative for Applications in Ligand Affinity Ranking and as Ethidium Bromide Substitute in Gel Staining

Fluorescent compounds that can preferentially interact with certain nucleic acids are of great importance in new drug discovery in a multitude of functions including fluorescence-based displacement assays and gel staining. Here, we report the discovery of an orange emissive styryl-benzothiazolium derivative (compound 4) which interacts preferentially with Pu22 G-quadruplex DNA among a pool of nucleic acid structures containing G-quadruplex, duplex, and single-stranded DNA structures as well as RNA structures. Fluorescence-based binding analysis revealed that compound 4 interacts with Pu22 G-quadruplex DNA in a 1:1 DNA to ligand binding stoichiometry. The association constant (K_a) for this interaction was found to be 1.12 (±0.15) × 10⁶ M^-1. Circular dichroism studies showed that the binding of the probe does not cause changes in the overall parallel G-quadruplex conformation; however, signs of higher-order complex formation were seen in the form of exciton splitting in the chromophore absorption region. UV-visible spectroscopy studies confirmed the stacking nature of the interaction of the fluorescent probe with the G-quadruplex which was further complemented by heat capacity measurement studies. Finally, we have shown that this fluorescent probe can be used toward G-quadruplex-based fluorescence displacement assays for ligand affinity ranking and as a substitute for ethidium bromide in gel staining.