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Title SiO2 nanoparticles modified CPE as a biosensor for determination of i-motif DNA / Tamoxifen interaction
Type JournalPaper
Keywords I-motif DNA; Tamoxifen; Anti-cancer
Abstract Cytosine-rich DNA sequences can form a highly ordered structure known as i-motif in slightly acidic solutions. The stability of the folded i-motif structure is a good strategy to inhibit the telomerase reaction in cancer cells. The electrochemical biosensor was prepared by modifying carbon paste electrode with SiO2 nanoparticles to investigate drugs which can stabilize this structure. Tamoxifen (Tam), an antiestrogen hormonal agent for treatment of breast cancer, was chosen as the model ligand and its interaction with i-motif structure was examined. The interaction between i-motif DNA and Tam was studied in PBS buffer and [Fe(CN)6]3− through the cyclic voltammetry and square wave voltammetry methods. The oxidation peak of Tam, due to the i-motif DNA/Tam interaction, was observed after i-motif immobilized on the surface of the electrode. The i-motif formation was investigated by circular dichroism spectroscopy and the results showed that this structure can certainly be made with pH around 4.5, but its stability reduced by going to the more alkaline pH. The selectivity which was studied in the presence of complementary strand demonstrated that i-motif structure could be stabilized in acidic pH even in the presence of its complementary strand.
Researchers Zahra Bagheryan (Fourth Researcher), Reza Ojani (Third Researcher), Jahan Bakhsh Raoof (Second Researcher), Elham Heydari (First Researcher)