Department of Chemistry, Graduate School of Science, Kobe University, Kobe, Japan.
Anal Bioanal Chem. 2012 Aug;404(3):785-92. doi: 10.1007/s00216-012-6199-9. Epub 2012 Jun 29.
The previously introduced technique of potential-modulated fluorescence (PMF) spectroscopy was used to study the potential-induced fluorescence change of some different dyes at the polarized 1,2-dichloroethane (DCE)/water (W) interface. A zwitterionic dye (POLARIC 488PPS) showed a PMF response similar to that for the previously studied dye (di-4-ANEPPS) with the same ionic state, and the PMF response was likewise explained by the potential-dependent reorientation of the dye at the DCE/W interface. Though a monocationic dye (POLARIC 488PM) showed no distinct PMF signal, a dicationic dye (di-2-ANEPEQ) showed two relatively weak but detectable PMF signals at lower and higher potential. It has thus been found that the ionic state of a potential-sensitive dye strongly influences the potential-induced reorientation of the dye at the interface and consequently its PMF response. These results support the reorientation/solvatochromic mechanism proposed for "slow" dyes but do not necessarily exclude the electrochromic mechanism proposed for "fast" dyes. PMF spectroscopy would provide useful information on the design of slow dyes for the measurement of the resting potential of cell membranes.
先前介绍的调制势能荧光(PMF)光谱技术被用于研究不同染料在极化的 1,2-二氯乙烷(DCE)/水(W)界面处的诱导势能荧光变化。一种两性离子染料(POLARIC 488PPS)表现出与先前研究的具有相同离子态的染料(di-4-ANEPPS)相似的 PMF 响应,并且 PMF 响应同样可以用染料在 DCE/W 界面处的势能依赖性重取向来解释。尽管一种单阳离子染料(POLARIC 488PM)没有明显的 PMF 信号,但一种二阳离子染料(di-2-ANEPEQ)在较低和较高电势下显示出两个相对较弱但可检测到的 PMF 信号。因此,已经发现,对电势敏感的染料的离子状态强烈影响染料在界面处的诱导重取向,进而影响其 PMF 响应。这些结果支持了针对“慢”染料提出的重取向/溶剂化变色机制,但不一定排除了针对“快”染料提出的电变色机制。PMF 光谱技术将为设计用于测量细胞膜静息电位的慢染料提供有用信息。
