Effect of interleaflet friction on the dynamics of molecular rotors in lipid membranes

Naomi Oppenheimer, Vinny C. Suja, Howard A. Stone
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Abstract

Molecular rotors form twisted conformations upon photoexcitation, with their fluorescent relaxation time serving as a measure of viscosity. They have been used to assess membrane viscosities but yield higher values compared to other methods. Here, we show that the rotor's relaxation time is influenced by a combination of membrane viscosity and interleaflet friction. We present a theory for the relaxation time and obtain a correction factor that accounts for the discrepancy. If the membrane's viscosity is known, molecular rotors may enable the extraction of the elusive interleaflet friction.
小叶间摩擦对脂质膜中分子转子动力学的影响
分子转子在光激发下形成扭曲构象,其荧光弛豫时间可作为粘度的测量值。分子转子已被用于评估膜的粘度,但与其他方法相比,分子转子产生的粘度值更高。在这里,我们表明转子的弛豫时间受到膜粘度和小叶间摩擦力的共同影响。我们提出了弛豫时间的理论,并得到了一个校正因子,以解释差异。如果知道膜的粘度,分子转子就可以提取难以捉摸的叶间摩擦。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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