1. Selective recognition of c-MYC Pu22 G-quadruplex by a fluorescent probe.
- Author
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Zhai Q, Gao C, Ding J, Zhang Y, Islam B, Lan W, Hou H, Deng H, Li J, Hu Z, Mohamed HI, Xu S, Cao C, Haider SM, and Wei D
- Subjects
- Cell Line, Tumor, Cell Survival, Drug Evaluation, Preclinical, Humans, Ligands, Molecular Docking Simulation, Molecular Dynamics Simulation, Nucleic Acid Conformation, Fluorescent Dyes analysis, G-Quadruplexes, Genes, myc genetics, Molecular Probes analysis
- Abstract
Nucleic acid mimics of fluorescent proteins can be valuable tools to locate and image functional biomolecules in cells. Stacking between the internal G-quartet, formed in the mimics, and the exogenous fluorophore probes constitutes the basis for fluorescence emission. The precision of recognition depends upon probes selectively targeting the specific G-quadruplex in the mimics. However, the design of probes recognizing a G-quadruplex with high selectivity in vitro and in vivo remains a challenge. Through structure-based screening and optimization, we identified a light-up fluorescent probe, 9CI that selectively recognizes c-MYC Pu22 G-quadruplex both in vitro and ex vivo. Upon binding, the biocompatible probe emits both blue and green fluorescence with the excitation at 405 nm. With 9CI and c-MYC Pu22 G-quadruplex complex as the fluorescent response core, a DNA mimic of fluorescent proteins was constructed, which succeeded in locating a functional aptamer on the cellular periphery. The recognition mechanism analysis suggested the high selectivity and strong fluorescence response was attributed to the entire recognition process consisting of the kinetic match, dynamic interaction, and the final stacking. This study implies both the single stacking state and the dynamic recognition process are crucial for designing fluorescent probes or ligands with high selectivity for a specific G-quadruplex structure., (© The Author(s) 2019. Published by Oxford University Press on behalf of Nucleic Acids Research.)
- Published
- 2019
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