Biophysical probing of the binding properties of a Cu(II) complex with G-quadruplex DNA: an experimental and computational study

Telomerase inhibition through G‐quadruplex stabilization by small molecules is of great interest as a novel anticancer therapeutic strategy. Here, we show that newly synthesized Cu‐complex binds to G‐quadruplex DNA and induces changes in its stability. This biophysical interaction was investigated in vitro using spectroscopic, voltammetric and computational techniques. The binding constant for this complex to G‐quadruplex using spectroscopic and electrochemical methods is in the order of 105. The binding stoichiometry was investigated using spectroscopic techniques and corresponded to a ratio of 1: 1. Fluorescence titration results reveal that Cu‐complex is quenched in the presence of G‐quadruplex DNA. Analysis of the fluorescence emission at different temperatures shows that ΔH° > 0, ΔS° > 0 and ΔG°