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活细胞中单个荧光团的自动检测。

Automatic detection of single fluorophores in live cells.

作者信息

Mashanov G I, Molloy J E

机构信息

Division of Physical Biochemistry, MRC National Institute for Medical Research, NW7 1AA, London, United Kingdom.

出版信息

Biophys J. 2007 Mar 15;92(6):2199-211. doi: 10.1529/biophysj.106.081117. Epub 2007 Jan 5.

Abstract

Recent developments in light microscopy enable individual fluorophores to be observed in aqueous conditions. Biological molecules, labeled with a single fluorophore, can be localized as isolated spots of light when viewed by optical microscopy. Total internal reflection fluorescence microscopy greatly reduces background fluorescence and allows single fluorophores to be observed inside living cells. This advance in live-cell imaging means that the spatial and temporal dynamics of individual molecules can be measured directly. Because of the stochastic nature of single molecule behavior a statistically meaningful number of individual molecules must be detected and their separate trajectories in space and time stored and analyzed. Here, we describe digital image processing methods that we have devised for automatic detection and tracking of hundreds of molecules, observed simultaneously, in vitro and within living cells. Using this technique we have measured the diffusive behavior of pleckstrin homology domains bound to phosphoinositide phospholipids at the plasma membrane of live cultured mammalian cells. We found that mobility of these membrane-bound protein domains is dominated by mobility of the lipid molecule to which they are attached and is highly temperature dependent. Movement of PH domains isolated from the tail region of myosin-10 is consistent with a simple random walk, whereas, diffusion of intact PLC-delta1 shows behavior inconsistent with a simple random walk. Movement is rapid over short timescales but much slower at longer timescales. This anomalous behavior can be explained by movement being restricted to membrane regions of 0.7 microm diameter.

摘要

光学显微镜技术的最新进展使得在水性条件下能够观察到单个荧光团。用单个荧光团标记的生物分子,在光学显微镜下观察时,可以定位为孤立的亮点。全内反射荧光显微镜极大地降低了背景荧光,并允许在活细胞内观察单个荧光团。这种活细胞成像技术的进步意味着可以直接测量单个分子的空间和时间动态。由于单分子行为的随机性,必须检测具有统计学意义数量的单个分子,并存储和分析它们在空间和时间上的单独轨迹。在这里,我们描述了我们设计的数字图像处理方法,用于在体外和活细胞内同时自动检测和跟踪数百个分子。使用这项技术,我们测量了在活培养的哺乳动物细胞质膜上与磷酸肌醇磷脂结合的普列克底物蛋白同源结构域的扩散行为。我们发现,这些膜结合蛋白结构域的流动性主要由它们所附着的脂质分子的流动性决定,并且高度依赖于温度。从肌球蛋白-10尾部区域分离的PH结构域的运动与简单的随机游走一致,而完整的PLC-δ1的扩散表现出与简单随机游走不一致的行为。在短时间尺度上运动很快,但在长时间尺度上要慢得多。这种异常行为可以通过运动被限制在直径为0.7微米的膜区域来解释。

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