通过线扫描荧光相关光谱法精确测定膜动力学。

Accurate determination of membrane dynamics with line-scan FCS.

作者信息

Ries Jonas, Chiantia Salvatore, Schwille Petra

机构信息

Technical University of Dresden, Biotechnologisches Zentrum, Dresden, Germany.

出版信息

Biophys J. 2009 Mar 4;96(5):1999-2008. doi: 10.1016/j.bpj.2008.12.3888.

DOI:10.1016/j.bpj.2008.12.3888

PMID:19254560

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2717290/

Abstract

Here we present an efficient implementation of line-scan fluorescence correlation spectroscopy (i.e., one-dimensional spatio-temporal image correlation spectroscopy) using a commercial laser scanning microscope, which allows the accurate measurement of diffusion coefficients and concentrations in biological lipid membranes within seconds. Line-scan fluorescence correlation spectroscopy is a calibration-free technique. Therefore, it is insensitive to optical artifacts, saturation, or incorrect positioning of the laser focus. In addition, it is virtually unaffected by photobleaching. Correction schemes for residual inhomogeneities and depletion of fluorophores due to photobleaching extend the applicability of line-scan fluorescence correlation spectroscopy to more demanding systems. This technique enabled us to measure accurate diffusion coefficients and partition coefficients of fluorescent lipids in phase-separating supported bilayers of three commonly used raft-mimicking compositions. Furthermore, we probed the temperature dependence of the diffusion coefficient in several model membranes, and in human embryonic kidney cell membranes not affected by temperature-induced optical aberrations.

摘要

在此，我们展示了一种使用商用激光扫描显微镜对线扫描荧光相关光谱法（即一维时空图像相关光谱法）的高效实现方式，该方法能够在数秒内准确测量生物脂质膜中的扩散系数和浓度。线扫描荧光相关光谱法是一种无需校准的技术。因此，它对光学伪影、饱和现象或激光焦点的不正确定位不敏感。此外，它几乎不受光漂白的影响。针对由于光漂白导致的荧光团残留不均匀性和消耗的校正方案，将线扫描荧光相关光谱法的适用性扩展到了更具挑战性的系统。这项技术使我们能够测量三种常用的模拟脂筏成分的相分离支撑双层膜中荧光脂质的准确扩散系数和分配系数。此外，我们探究了几种模型膜以及不受温度诱导光学像差影响的人胚胎肾细胞膜中扩散系数的温度依赖性。

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