[Use of three-dimensional fluorescence deconvolution microscopy for study of spatial distribution of secretory vesicles in living cells].

Dong-Dong Li, Xue-Bin Guo, An-Lian Qu, Tao Xu
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Abstract

A three-dimensional image of a living cell is helpful for cell secretion study. In this report, the three-dimensional fluorescence deconvolution microscopy for observing living cells was studied, because this technique can obtain a quick three-dimensional imaging with minimal fluorescence quenching and cytotoxicity for living cell observation. The property of three-dimensional point spread function (PSF) of imaging system was analyzed. The relationship between experimental and theoretical PSF was illustrated, and the theoretical PSF was proved that it could reflect the principle of imaging system with NA 1.65 objective in use. Three-dimensional deconvolution algorithm in this report was proved effective by well-defined three-dimensional specimens. Furthermore, the rat pancreatic beta cell secretory vesicles labeled by acridine orange was observed by using this technique. Results showed that the blurring induced by out-of-focus light was removed by the deconvolution algorithm effectively, under current experiment conditions (with NA 1.65 objective) the experimental PSF approximated the theoretical PSF very well, and deconvolved living cell images exhibited the spatial distribution of the secretory vesicles clearly.

[利用三维荧光反褶积显微镜研究活细胞中分泌囊泡的空间分布]。
活细胞的三维图像有助于细胞分泌的研究。本报告研究了用于观察活细胞的三维荧光反褶积显微镜,因为该技术可以获得快速的三维成像,最小的荧光猝灭和细胞毒性用于活细胞观察。分析了成像系统的三维点扩散函数(PSF)特性。说明了实验和理论光阑的关系,并证明了理论光阑能反映使用na1.65物镜的成像系统的工作原理。通过定义良好的三维样本,证明了本文三维反褶积算法的有效性。并用该方法对大鼠胰岛β细胞分泌囊泡进行了吖啶橙标记。结果表明,反卷积算法有效地消除了光离焦引起的模糊,在当前实验条件下(使用NA 1.65物镜),实验PSF与理论PSF非常接近,反卷积后的活细胞图像清晰地显示了分泌囊泡的空间分布。
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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