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Naphthyridine-Based Electron Push-Pull-Type Amine-Reactive Fluorescent Probe for Sensing Amines and Proteins in Aqueous Media.

Tomohiro UmenoLisa MuroiYuto KayamaKazuteru UsuiKoichi HamadaAkihiro MizutaniSatoru Karasawa
Published in: Bioconjugate chemistry (2023)
In bioengineering, fluorescent amine-reactive probes are invaluable for the detection of amine species. In particular, targeting probes for lysine, which has a free amino group in amino acids, are a valid method for protein detection. For this purpose, many fluorescent "turn-on type" probes with amine reactivity have been developed; however, they require improvements. In the typical florescence probes, BODIPY and NBD analogs have small Stokes shifts based on absorption and emission and lability in an aqueous environment, respectively. In this study, a new class of fluorescent probes, 1,8-Nap-F , based on the electron push-pull-type 1,8-naphthyridine framework, was designed and investigated as an amine-reactive probe. Generally, electron push-pull-type fluorophores exhibit a large Stokes shift at the expense of fluorescent enhancement in aqueous media; thus, there is a trade-off between possessing a large Stokes shift and intense emission. However, 1,8-Nap-F reacts with primary amines, yielding emissive amine products with a large Stokes shift (>70 nm) without fluorescence quenching and side products, even in an aqueous environment, thereby overcoming the disadvantages of electron push-pull-type fluorophores and lability in aqueous conditions. By applying the specific features of 1,8-Nap-F , we achieved selective lysine detection and fluorescence bioimaging, such as endoplasmic reticulum-selective protein labeling and organelle staining, in living cells by utilizing amine-substituted derivatives.
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