Tong Xingyu, Ye Ting, Yu Yali, Gao Longlong, Fei Yifan, Zhang Qingqing, Gao Heng, Yan Chenxiao, Shao Yong
Institute of Physical Chemistry, College of Chemistry and Life Sciences, Zhejiang Normal University, Jinhua, 321004, Zhejiang, China.
Anal Sci. 2020 Mar 10;36(3):367-372. doi: 10.2116/analsci.19P355. Epub 2019 Nov 1.
Natural sanguinarine (SG) was first used as a fluorescent probe to develop a novel ratiometric sensor for selective HSO detection. The nucleophilic addition reaction of HSO occurs at the C=N group of SG, and subsequent breakage of the conjugated π cycle leads to a decrease in the SG iminium fluorescence that is accompanied by an increase in the alkanolamine fluorescence. Therefore, a ratiometric fluorescence method with a large wavelength shift can be established for HSO detection. Furthermore, cucurbit[8]uril was used as an efficient host to encapsulate SG for an improved selectivity for HSO detection over HS. Our method benefits include little interference from other common anions and cations for HSO detection, suggesting a promising application in real sample analysis. Besides sensor development, the interaction of the natural SG with HSO was first demonstrated in this work to further get an insight into SG's pharmacology.
天然血根碱(SG)最初被用作荧光探针,以开发一种用于选择性检测HSO的新型比率传感器。HSO的亲核加成反应发生在SG的C=N基团上,随后共轭π环的断裂导致SG亚胺荧光的降低,同时链烷醇胺荧光增加。因此,可以建立一种具有大波长偏移的比率荧光法用于HSO检测。此外,葫芦[8]脲被用作一种有效的主体来包封SG,以提高对HSO检测相对于HS的选择性。我们方法的优点包括在检测HSO时其他常见阴离子和阳离子的干扰很小,这表明在实际样品分析中有广阔的应用前景。除了传感器开发,这项工作首次证明了天然SG与HSO的相互作用,以进一步深入了解SG的药理学。