Modulation of Photo-Signal Based on Molecular Recognition by Steroid Cyclophane in Liquid Assembly

K. Ariga, Daisuke Sakai, Y. Terasaka, J. Kikuchi
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引用次数: 1

Abstract

Abstract The binding of a fluorescent probe (TNS) in aqueous mixtures of a steroid cyclophane and an artificial lipid was spectrophotometrically investigated. When the content of the steroid cyclophane is dominant ([lipid]/[cyclophane] = 0.1), the fluorescent maximum of the bound TNS is 433 nm. At the [lipid]/[cyclophane] ratio of 5, the fluorescence maximum is ca. 409 nm, indicating that the host cavity provided a more hydrophobic environment. A large excess of lipid reversed the fluorescence maximum up to 426 nm, i.e., the host cavity became hydrophilic again. The change in emission maxima of the bound TNS is modulated by the hydrophobic-hydrophilic cavity conversion.
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液体组装中基于类固醇环烷分子识别的光信号调制
用分光光度法研究了荧光探针(TNS)在类固醇环烷和人工脂质水溶液中的结合。当甾体环烷含量占主导地位([脂质]/[环烷]= 0.1)时,结合的TNS荧光最大值为433 nm。在[脂质]/[环烷]比为5时,荧光最大值约为409 nm,表明寄主腔提供了更疏水的环境。大量过量的脂质逆转了荧光,最大可达426 nm,即宿主腔再次变得亲水。束缚态TNS的发射最大值变化由疏水-亲水性空腔转换调制。
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