Department of Physics, Texas Tech University, Lubbock, Texas 79409 USA.
Biophys J. 1993 Jun;64(6):1869-77. doi: 10.1016/S0006-3495(93)81558-3.
Frequency-domain fluorescence intensity decays of the intramolecular excimer forming (DipyPE) in a fully hydrated dioleoyl-phosphatidylethanolamine (DOPE) suspension have been measured at the monomer (395 nm) and excimer (475 nm) emissions and at different temperatures (0-30 degrees C). A classical Birks (two-state) and a new three-state kinetics models were used to analyze the frequency-domain data. The three-state model allowed us to resolve various intramolecular dynamics parameters of DipyPE in the host DOPE suspension. Those parameters are the excimer association (K(dm)) and dissociation (K(md)) rate constants, effective concentration (C), and lateral diffusion rate (f) of the pyrene moieties in the DipyPE. In contrast, only CK(dm) and K(md) were determined based on the two-state model. We observed that K(dm) declined while C increased abruptly at approximately 12 degrees C, the known thermotropic lamellar liquid crystalline-to-inverted hexagonal (L(alpha)-H(II)) phase transition temperature of DOPE. No abrupt changes in K(md) and f were observed at all temperatures. We concluded that the rotation of the lipid acyl chains is hindered and the free volume available for the lipid terminal methyl ends is reduced as the lipid membrane enters the highly curved H(II) phase from the planar L(alpha) phase.
在完全水合的二油酰基磷脂酰乙醇胺(DOPE)悬浮液中,测量了分子内激基缔合物(DipyPE)在单体(395nm)和激基(475nm)发射时的频域荧光强度衰减,并在不同温度(0-30°C)下进行了测量。使用经典的伯克斯(两态)和新的三态动力学模型来分析频域数据。三态模型使我们能够解析 DipyPE 在 DOPE 主体悬浮液中的各种分子内动力学参数。这些参数是 DipyPE 中吡喃部分的激基缔合(K(dm))和离解(K(md))速率常数、有效浓度(C)和横向扩散速率(f)。相比之下,仅基于两态模型确定了 CK(dm)和 K(md)。我们观察到,在大约 12°C,即 DOPE 的已知热致层状液晶到反相六方(L(alpha)-H(II))相转变温度,K(dm)下降而 C 突然增加。在所有温度下,K(md)和 f 均未发生突然变化。我们得出结论,随着脂质膜从平面 L(alpha)相进入高度弯曲的 H(II)相,脂质酰基链的旋转受到阻碍,脂质末端甲基的可用自由体积减少。