Department of Chemistry, Faculty of Science, Chulalongkorn University, Bangkok 10330, Thailand.
J Phys Chem B. 2012 Oct 11;116(40):12268-74. doi: 10.1021/jp3057652. Epub 2012 Sep 26.
Binding events of cyclodextrins (CyD's) in aqueous media are important for designing and explaining the host-guest chemistry applied in sensing and controlled release systems. A water-soluble tricationic compound (3N(+)) with three branches of phenyleneethynylene fluorescent moieties and its related amphiphilic compounds (3C(-), N(0)N(+), N(+), and 2N(+)) are employed as molecular probes in the systematic characterization of the supramolecular interactions with CyD's (α, β, and γ). The strong fluorescence enhancement, combined with induced circular dichroism (CD) signals and (1)H NMR data, is evidence of 1:1 static inclusion complexes of 3N(+)/γ-CyD and 2N(+)/γ-CyD. 3N(+) presents a structural design which can form inclusion complexation with γ-CyD with one of the highest binding constants of 3.0 × 10(4). The relatively moderate fluorescence enhancement, shift of (1)H NMR signals, and weak induced CD signals indicate fast exchange complexation of β-CyD with the amphiphilic guest molecules. The interaction with α-CyD is perceived only for N(0)N(+), the only nonbranched fluorescent guest model, via its strong fluorescence enhancement. However, the lack of (1)H NMR signal splitting and the lack of induced CD signals suggest the noninclusion mode of binding between N(0)N(+) and α-CyD.
环糊精(CyD's)在水介质中的结合事件对于设计和解释应用于传感和控制释放系统的主体-客体化学非常重要。一种水溶性三价阳离子化合物(3N(+)),具有三个分支的苯乙炔荧光部分,及其相关的两亲性化合物(3C(-),N(0)N(+),N(+)和 2N(+))被用作分子探针,用于系统表征与 CyD's(α、β和γ)的超分子相互作用。强荧光增强,结合诱导圆二色性(CD)信号和(1)H NMR 数据,证明了 3N(+)/γ-CyD 和 2N(+)/γ-CyD 的 1:1 静态包合复合物。3N(+)呈现出一种结构设计,可以与γ-CyD 形成包合络合物,其结合常数高达 3.0×10(4)。相对适中的荧光增强、(1)H NMR 信号的位移和弱诱导 CD 信号表明β-CyD 与两亲客体分子的快速交换络合。与α-CyD 的相互作用仅被非分支荧光客体模型 N(0)N(+)感知,通过其强荧光增强。然而,(1)H NMR 信号分裂的缺乏和诱导 CD 信号的缺乏表明 N(0)N(+)和α-CyD 之间的结合模式是非包含的。
