生殖与发育生物学中的偏振光显微镜术。

Polarized light microscopy in reproductive and developmental biology.

作者信息

Koike-Tani Maki, Tani Tomomi, Mehta Shalin B, Verma Amitabh, Oldenbourg Rudolf

机构信息

Cellular Dynamics Program, Marine Biological Laboratory, Woods Hole, Massachusetts.

Physics Department, Brown University, Providence, Rhode Island.

出版信息

Mol Reprod Dev. 2015 Jul-Aug;82(7-8):548-62. doi: 10.1002/mrd.22221. Epub 2013 Aug 26.

DOI:10.1002/mrd.22221

PMID:23901032

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4979313/

Abstract

The polarized light microscope reveals orientational order in native molecular structures inside living cells, tissues, and whole organisms. It is a powerful tool used to monitor and analyze the early developmental stages of organisms that lend themselves to microscopic observations. In this article, we briefly discuss the components specific to a traditional polarizing microscope and some historically important observations on: chromosome packing in the sperm head, the first zygote division of the sea urchin, and differentiation initiated by the first asymmetric cell division in the sand dollar. We then introduce the LC-PolScope and describe its use for measuring birefringence and polarized fluorescence in living cells and tissues. Applications range from the enucleation of mouse oocytes to analyzing the polarized fluorescence of the water strider acrosome. We end with new results on the birefringence of the developing chick brain, which we analyzed between developmental stages of days 12-20.

摘要

偏振光显微镜能揭示活细胞、组织和整个生物体内部天然分子结构中的取向有序性。它是一种强大的工具，用于监测和分析适合显微镜观察的生物体早期发育阶段。在本文中，我们简要讨论传统偏光显微镜的特定组件以及一些具有历史意义的重要观察结果，包括：精子头部的染色体包装、海胆受精卵的首次分裂，以及沙钱首次不对称细胞分裂引发的分化。然后我们介绍LC - PolScope，并描述其在测量活细胞和组织中的双折射和偏振荧光方面的应用。应用范围从小鼠卵母细胞的去核到分析水黾顶体的偏振荧光。我们以对发育中鸡脑双折射的新结果作为结尾，这些结果是我们在第12 - 20天的发育阶段之间进行分析得到的。

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