Hemin as a General Static Dark Quencher for Constructing Heme Oxygenase‐1 Fluorescent Probes
Fan Chen, Baoxin Zhang, Zhenjiang Ding, Miao Zhong, Yanan Hou, Fang Zhang, Guodong Hu, Jianguo Fang
Abstract
Abstract The development of small‐molecule probes suitable for live‐cell applications remains challenging yet highly desirable. We report the first fluorescent probe, RBH, for imaging the heme oxygenase‐1 (HO‐1) activity in live cells after discovering hemin as a universal dark quencher. Hemin works via a static quenching mechanism and shows high quenching efficiency (>97 %) with fluorophores across a broad spectrum ( λ ex =400–700 nm). The favorable properties of RBH (e.g. long excitation/emission wavelengths, fast response rate and high magnitude of signal increase) enable its use for determining HO‐1 activity in complex biological samples. As HO‐1 is involved in regulating antioxidant defence, iron homeostasis and gasotransmitter carbon monoxide production, we expect RBH to be a powerful tool for dissecting its functions. Also, the discovery of hemin as a general static dark quencher provides a straightforward strategy for constructing novel fluorescent probes for diverse biological species.