On-Strand Knoevenagel Insertion of a Hemicyanine Molecular Rotor Loop Residue for Turn-On Fluorescence Detection of Pb-Induced G-Quadruplex Rigidity.

Ryan E Johnson, Abigail J Van Riesen, Richard A Manderville

Bioconjugate chemistry 2021 Oct 20

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We demonstrate the ability to distinguish Pb2+ from K+ within the central cavity of the antiparallel G-quadruplex (GQ) DNA produced by the thrombin binding aptamer (TBA) using an internal molecular rotor fluorescent probe. An indole-aldehyde containing an acyclic N-glycol group was first employed in the on-strand Knoevenagel condensation with five different heterocyclic quaternary cationic acceptors to assess the molecular rotor character of the resulting cyanine-styryl dyes within duplex DNA. An indole-pyridinium (4PI) nucleobase surrogate displayed the greatest turn-on emission response to duplex formation and was thus inserted into the loop residues of TBA to monitor GQ-folding in the presence of Pb2+ versus K+. TBA-4PI exhibits turn-on emission upon Pb2+-binding with a brightness (ε·Φfl) of 9000 cm-1 M-1 compared to K+-binding (ε·Φfl ∼ 2000 cm-1 M-1) due to Pb2+-induced GQ rigidity with 4PI-G-tetrad stacking interactions. The Pb2+-bound TBA-4PI GQ also provides energy-transfer (ET) fluorescence with a diagnostic excitation at 310 nm for distinguishing Pb2+ from K+ within the antiparallel GQ. The TBA-4PI GQ affords the desired turn-on fluorescence response for detecting Pb2+ ions with an apparent dissociation constant (Kd) of 63 nM and a limit of detection (LOD) of 19 nM in an aqueous buffer. It can also distinguish Pb2+ (230 nM) from K+ (1.5 mM, 6500-fold excess) in an antiparallel GQ recognition motif without topology twitching.

Citation

Ryan E Johnson, Abigail J Van Riesen, Richard A Manderville. On-Strand Knoevenagel Insertion of a Hemicyanine Molecular Rotor Loop Residue for Turn-On Fluorescence Detection of Pb-Induced G-Quadruplex Rigidity. Bioconjugate chemistry. 2021 Oct 20;32(10):2224-2232