A novel near-infrared fluorescence probe for detecting and imaging Hg2+ in living cells

Abstract

Fluorescence imaging, as one of the important means of biological lesion analysis, is widely used in medical analysis. To improve detection specificity, near-infrared emission fluorescent probes have been developed. Sensitive and selective near-infrared (NIR) fluorescent probes for Hg²⁺ , which is a heavy metal ion harmful to human health, are urgently needed to investigate the physiological toxicity of Hg²⁺ . The NIR fluorophore based on the traditional structure of rhodamine was prepared by introducing anthocyanin functional groups, and a rhodamine spiro ring structure was constructed to recognize Hg²⁺ (CCS-Hg). The probe CCS-Hg demonstrated good selectivity and high detection sensitivity for Hg²⁺ and the most likely mechanism was verified through theoretical calculations. We applied the probe CCS-Hg in the examination of Hg²⁺ distribution in living cells by NIR fluorescence imaging. This work provides a promising molecular tool for studying the toxicological effects of mercury ions in cell.

Keywords: fluorescence imaging; fluorescent probe; mercury ion; near-infrared; theoretical calculation.