连续扫描微光解:一种利用单光子或双光子激发进行横向输运测量的简单激光扫描显微方法

Ignacy Gryczynski, Ulrich Kubitscheck, Oliver Heinrich, Reiner Peters
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引用次数: 0

摘要

介绍了一种在高时间和空间分辨率下测定横向扩散系数的相对简单的激光扫描显微方法。将先前开发的两种方法,连续荧光显微溶解和扫描显微溶解相结合,新方法被称为连续扫描显微溶解(连续SCAMP)。该方法的原理是简单地以线扫描模式操作商业激光扫描显微镜,同时以x–t“图像”的形式监测连续扫描线发出的荧光。荧光激发可以通过单光子或双光子吸收来实现。在前一种情况下,标准的低功率离子激光器就足够了,而对于双光子激发,可以使用飞秒脉冲钛蓝宝石激光器。在这两种情况下,激光束功率都被调节,从而引起相当程度但不过度的光漂白。评估x–t图像,以确定扫描线强度对扫描时间的依赖性。通过适当的扩散反应体系的数值模拟,根据扩散系数和光漂白速率常数来评估以这种方式获得的荧光衰减曲线。实验和理论程序的有效性通过在一个简单定义的模型系统上的测量进行了测试。结果表明,当使用单光子激发时,连续SCAMP是确定细胞膜等二维系统中横向扩散的一种特别简单和灵敏的方法。另一方面,采用双光子激发为连续SCAMP提供了通过相对简单的方法研究细胞、细胞器和类似系统内三维扩散的能力。关键词:共聚焦显微镜、连续荧光显微分析、荧光光漂白、横向扩散、双光子激发
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Continuous scanning micro-photolysis: A simple laser scanning microscopic method for lateral transport measurements employing single- or two-photon excitation

A comparatively simple laser scanning microscopic method for the determination of lateral diffusion coefficients at high temporal and spatial resolution is described. Combining two previously developed methods, continuous fluorescence microphotolysis and scanning microphotolysis, the new method is referred to as continuous scanning microphotolysis (continuous SCAMP). The principle of the method is simply to operate a commercial laser scanning microscope in the line scanning mode while monitoring the fluorescence emitted from the continuously scanned line as an x–t ‘image’. Fluorescence excitation can be effected by either single- or two-photon absorption. In the former case a standard, low power ion laser is sufficient while for two-photon excitation a femtosecond-pulsed titan sapphire laser can be employed. In both cases the laser beam power is adjusted such that a substantial but not excessive degree of photobleaching is induced. x–t images are evaluated so as to determine the dependence of the scanned line intensities on the scanning time. The fluorescence decay curves obtained in this manner are evaluated in terms of diffusion coefficients and photobleaching rate constants by numerical simulation of appropriate diffusion-reaction systems. The validity of the experimental and theoretical procedures was tested by measurements on a simple well-defined model system. The results suggested that the continuous SCAMP, when using single-photon excitation, is a particularly simple and sensitive method for determining lateral diffusion in two-dimensional systems such as cell membranes. Employing two-photon excitation, on the other hand, provides the continuous SCAMP with the capability for studying three-dimensional diffusion within cells, cell organelles and similar systems by still comparatively simple means. Keywords: confocal microscopy, continuous fluorescence microphotolysis, fluorescence photobleaching, lateral diffusion, two-photon excitation

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