Liu Weimin, Xu Liwei, Zhang Hongyan, You Juanjuan, Zhang Xiaoling, Sheng Ruilong, Li Huaping, Wu Shikang, Wang Pengfei
Laboratory of Organic Optoelectronic Functional Materials and Molecular Engineering, Technical Institute of Physics and Chemistry, the Chinese Academy of Sciences, Beijing, 100190, China.
Org Biomol Chem. 2009 Feb 21;7(4):660-4. doi: 10.1039/b815956d. Epub 2009 Jan 6.
Thiorhodamine-based chemodosimeter A, a disulfide linked dimer, was designed for Hg2+ recognition by virtue of the strong affinity of mercury for sulfur. Spectroscopic results reveal that chemodosimeter A exhibits real-time responses, and high sensitivity and selectivity for Hg2+ in comparison to other cations. These properties are mechanistically ascribed to the transfer from rhodamine spirolactam to the thiazoline-derived open-ring rhodamine via Hg2+ induced desulfurization. The in vitro recognition of Hg2+ in living cells pretreated with A was examined, showing that the concentration of Hg2+ that could be imaged reaches the safety limit for human beings.
基于硫代罗丹明的化学计量器A是一种二硫键连接的二聚体,因其汞与硫的强亲和力而设计用于识别Hg2+。光谱结果表明,化学计量器A表现出实时响应,并且与其他阳离子相比,对Hg2+具有高灵敏度和选择性。这些性质在机理上归因于通过Hg2+诱导的脱硫作用,罗丹明螺内酰胺向噻唑啉衍生的开环罗丹明的转变。研究了用A预处理的活细胞中Hg2+的体外识别,结果表明可成像Hg2+的浓度达到了人类安全极限。