Xue Hanyue, Yu Min, He Kunyi, Liu Yingnan, Cao Yuanyuan, Shui Yuhang, Li Jing, Farooq Muhammad, Wang Li
College of Food Science and Engineering, Northwest A&F University, Yangling, 712100, Shaanxi, China.
College of Food Science and Engineering, Northwest A&F University, Yangling, 712100, Shaanxi, China.
Anal Chim Acta. 2020 Aug 29;1127:39-48. doi: 10.1016/j.aca.2020.06.039. Epub 2020 Jul 8.
Herein, a novel bimodal ratiometric probe for sensitive and selective detection of biothiols (including glutathione (GSH), cysteine (Cys) and homocysteine (Hcys)) was constructed, which was based on the redox reaction between manganese dioxide nanoflakes (MnO NFs) and rhodamine (RhB) and biothiols. When MnO NFs was added into RhB solution, RhB was oxidized to a series of derivatives, accompanying with the colorimetric color changing from purple to light pink and fluorescence changing from red to green. In the presence of GSH, Cys or Hcys, they could reduce MnO NFs to Mn, thereby preventing the following oxidization of RhB and the corresponding color and fluorescence changes. The absorption intensity ratio and fluorescence intensity ratio showed good linear relationships with the concentrations of biothiols. The colorimetric detection limits for GSH, Cys and Hcys were 0.057 μM, 0.140 μM and 0.087 μM, respectively. And the fluorescence detection limits were 0.177 μM, 0.282 μM and 0.161 μM. More importantly, this probe was successfully applied to monitor the concentration of GSH/Cys/Hcys in human serum samples, with satisfactory recovery. Thus, this MnO NFs-RhB platform can potentially be a candidate for the detection of biothiols.
在此,基于二氧化锰纳米片(MnO NFs)与罗丹明(RhB)及生物硫醇之间的氧化还原反应,构建了一种用于灵敏且选择性检测生物硫醇(包括谷胱甘肽(GSH)、半胱氨酸(Cys)和高半胱氨酸(Hcys))的新型双模式比率型探针。当将MnO NFs加入RhB溶液中时,RhB被氧化为一系列衍生物,同时伴随着比色颜色从紫色变为浅粉色以及荧光从红色变为绿色。在存在GSH、Cys或Hcys的情况下,它们可将MnO NFs还原为Mn,从而防止随后RhB的氧化以及相应的颜色和荧光变化。吸收强度比和荧光强度比与生物硫醇的浓度呈现良好的线性关系。GSH、Cys和Hcys的比色检测限分别为0.057 μM、0.140 μM和0.087 μM。荧光检测限分别为0.177 μM、0.282 μM和0.161 μM。更重要的是,该探针成功应用于监测人血清样品中GSH/Cys/Hcys的浓度,回收率令人满意。因此,这个MnO NFs-RhB平台有可能成为检测生物硫醇的候选者。
