AI Article Synopsis
- - A new series of near-infrared xanthene-chalcone fluorophores were developed for fluorescence imaging in live cells, showcasing benefits like low toxicity and large Stokes shifts.
- - The HCA-E fluorophore has a hydroxyl group that allows for the creation of multifunctional fluorescent probes, particularly for detecting glutathione (GSH).
- - The N-HCA-E probe exhibits "turn-on" fluorescence at 709 nm, specifically responding to GSH in lysosomes with a significant Stokes shift and high resistance to interference.
Article Abstract
A series of novel near-infrared (NIR) xanthene-chalcone fluorophores were constructed through a modular synthesis with the electron-donating xanthene moiety and the electron-withdrawing chalcone moiety. These fluorophores are convenient for fluorescence imaging in living cells, benefiting from their NIR emissions (650-710 nm), large Stokes shifts (>100 nm), moderate quantum yields and low cytotoxicity. The substituted hydroxyl group of the xanthene-chalcone fluorophore HCA-E facilitates the development of multifunctional fluorescent probes. As an example, a highly sensitive and selective probe N-HCA-E for glutathione (GSH) detection was developed based on the fluorophore HCA-E. A 4-nitrobenzenesulfonyl (4-Ns) group was introduced to cage the hydroxyl group of HCA-E, which was used as a selective recognition site for the thiol of GSH and an effective fluorescence quencher. Probe N-HCA-E revealed NIR "turn-on" fluorescence (709 nm) for endogenous and exogenous GSH detection in lysosomes with a large Stokes shift (129 nm) and high anti-interference ability.
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