Resolving the spatial relationship between intracellular components by dual color super resolution optical fluctuations imaging (SOFI).

Optical nanoscopy Pub Date : 2013-02-25 DOI:10.1186/2192-2853-2-2

Maria Elena Gallina, Jianmin Xu, Thomas Dertinger, Adva Aizer, Yaron Shav-Tal, Shimon Weiss

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Abstract

Background: Multi-color super-resolution (SR) imaging microscopy techniques can resolve ultrastructura relationships between- and provide co-localization information of- different proteins inside the cell or even within organelles at a higher resolution than afforded by conventional diffraction-limited imaging. While still very challenging, important SR colocalization results have been reported in recent years using STED, PALM and STORM techniques.

Results: In this work, we demonstrate dual-color Super Resolution Optical Fluctuations Imaging (SOFI) using a standard far-field fluorescence microscope and different color blinking quantum dots. We define the spatial relationship between hDcp1a, a processing body (P-body, PB) protein, and the tubulin cytoskeletal network. Our finding could open up new perspectives on the role of the cytoskeleton in PB formation and assembly. Further insights into PB internal organization are also reported and discussed.

Conclusions: Our results demonstrate the suitability and facile use of multi-color SOFI for the investigation of intracellular ultrastructures.

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通过双色超分辨率光学波动成像（SOFI）解析细胞内成分之间的空间关系。

背景：多色超分辨（SR）成像显微镜技术可以解析细胞内甚至细胞器内不同蛋白质之间的超微结构关系并提供共定位信息，其分辨率高于传统的衍射限制成像技术。虽然这项工作仍然极具挑战性，但近年来已有利用 STED、PALM 和 STORM 技术获得 SR 共定位重要结果的报道：在这项工作中，我们使用标准远场荧光显微镜和不同颜色的闪烁量子点演示了双色超分辨率光学波动成像（SOFI）。我们确定了加工体（P-body，PB）蛋白 hDcp1a 与微管蛋白细胞骨架网络之间的空间关系。我们的发现为细胞骨架在 PB 形成和组装过程中的作用开辟了新的视角。我们还报告并讨论了对PB内部组织的进一步见解：我们的研究结果证明了多色 SOFI 在细胞内超微结构研究中的适用性和简便性。

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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Optical nanoscopy

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