Maria Clara Zanellati, Chih-Hsuan Hsu, Sarah Cohen
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引用次数: 0
Abstract
Eukaryotic cells are compartmentalized into membrane-bound organelles that must coordinate their responses to stimuli. One way that organelles communicate is via membrane contact sites (MCSs), sites of close apposition between organelles used for the exchange of ions, lipids and information. In this Cell Science at a Glance article and the accompanying poster, we describe an explosion of new methods that have led to exciting progress in this area and discuss key examples of how these methods have advanced our understanding of MCSs. We discuss how diffraction-limited and super-resolution fluorescence imaging approaches have provided important insight into the biology of interorganelle communication. We also describe how the development of multiple proximity-based methods has enabled the detection of MCSs with high accuracy and precision. Finally, we assess how recent advances in electron microscopy (EM), considered the gold standard for detecting MCSs, have allowed the visualization of MCSs and associated proteins in 3D at ever greater resolution.
真核细胞被分隔成与膜结合的细胞器,这些细胞器必须协调它们对刺激的反应。细胞器交流的一种方式是通过膜接触点(MCSs),即细胞器之间用于交换离子、脂质和信息的紧密结合点。在这篇《细胞科学一瞥》(Cell Science at a Glance)文章和随附的海报中,我们介绍了在这一领域取得令人振奋进展的大量新方法,并讨论了这些方法如何促进我们对膜接触点(MCSs)的理解的关键实例。我们讨论了衍射限制和超分辨率荧光成像方法如何为细胞器间通信的生物学提供了重要的洞察力。我们还描述了多种基于邻近性的方法的发展是如何实现高精度、高准确性地检测 MCS 的。最后,我们评估了电子显微镜(EM)的最新进展(EM被认为是检测MCS的黄金标准)是如何以更高的分辨率实现MCS及相关蛋白的三维可视化的。
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