Fluorescent adenine analogues with ESPT characteristic utilized for real-time detecting DNA adduct.

The 8-oxo-7,8-dihydro-2'-deoxyguanine (8-oxoG) is the representative damaged nucleoside that may increase the risk of developing diseases. Accordingly, the selective detection of 8-oxoG in DNA with minimal disturbance to the native structure is important to have an in-depth understanding of the formation mechanism and becomes an attractive tool for genomic research. To identify the DNA adduct in real-time efficiently, a series of quasi-intrinsic optical probes are performed based on the natural adenine, which has preference to form a stable base pair with 8-oxoG in the syn conformation. The calculations revealed that the A-analogues in solution could bring red-shifted absorption spectra and bright photoluminescence arisen from the additional π-conjugation by means of fluorophore modification and the ring expansion. Especially, A1 possesses large Stokes shifts and the highest fluorescence intensity in emission, which is proposed as the biosensor to monitor the optical changes in the presence and absence of the considered 8-oxoG. It is found that the fluorescence is insensitive to base pairing with thymine, while the excited state intermolecular proton transfer (ESPT) induced efficient fluorescence quenching is observed upon pairing with the 8-oxoG. To evaluate the direct usefulness of the bright adenine analogues in biological environment, we further examined the influences of linking deoxyribose on the absorption and emission, which are consistent with the experimental data. Copyright © 2022 Elsevier B.V. All rights reserved.

Citation

Lingjie Duan, Yu Zhao, Xiao Zhang, Xixi Cui, Qingtian Meng, Changzhe Zhang. Fluorescent adenine analogues with ESPT characteristic utilized for real-time detecting DNA adduct. Spectrochimica acta. Part A, Molecular and biomolecular spectroscopy. 2022 Dec 05;282:121675

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PMID: 35914355

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