更接近接触网站的世界:初学者的指南接近驱动的荧光探针。

Elena Poggio, Marisa Brini, Tito Calì
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引用次数: 0

摘要

为了维持细胞内稳态并协调对特定刺激的适当反应,信息必须在整个细胞中整合成一个组织良好的网络,其中细胞器是关键节点,膜接触点是主要边缘。膜接触位点是两个或多个细胞器靠近并相互作用的细胞亚域。尽管已经发现了许多细胞器间的接触,但其中大多数仍然没有完全表征,因此它们的研究是一个有吸引力的和不断扩大的研究领域。由于重大的技术进步,许多工具现在已经可用或正在快速开发,这使得选择最适合回答特定生物学问题的工具变得困难。在这里,我们区分了两种不同的实验方法来研究细胞器间接触部位。第一种方法主要依靠生物化学和电子显微镜(EM)相关方法的应用,从形态学上表征膜接触部位并识别所涉及的分子参与者。第二种方法旨在了解特定接触的功能重要性,重点关注时空细节。为此,就近驱动荧光探针是首选的实验工具,因为它们允许在不同细胞条件或不同刺激下对活细胞中的膜接触部位及其动力学进行监测和定量。在这篇综述中,我们重点介绍了这些工具,目的是突出它们的多功能性以及它们如何在膜接触研究中应用。我们将广泛地描述所有不同类型的邻近驱动荧光工具,讨论它们的优点和缺点,最终提供一些建议,以选择和应用适当的方法在个案的基础上,并获得最佳的实验结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Get Closer to the World of Contact Sites: A Beginner's Guide to Proximity-Driven Fluorescent Probes.

Get Closer to the World of Contact Sites: A Beginner's Guide to Proximity-Driven Fluorescent Probes.

Get Closer to the World of Contact Sites: A Beginner's Guide to Proximity-Driven Fluorescent Probes.

Get Closer to the World of Contact Sites: A Beginner's Guide to Proximity-Driven Fluorescent Probes.

To maintain cellular homeostasis and to coordinate the proper response to a specific stimulus, information must be integrated throughout the cell in a well-organized network, in which organelles are the crucial nodes and membrane contact sites are the main edges. Membrane contact sites are the cellular subdomains where two or more organelles come into close apposition and interact with each other. Even though many inter-organelle contacts have been identified, most of them are still not fully characterized, therefore their study is an appealing and expanding field of research. Thanks to significant technological progress, many tools are now available or are in rapid development, making it difficult to choose which one is the most suitable for answering a specific biological question. Here we distinguish two different experimental approaches for studying inter-organelle contact sites. The first one aims to morphologically characterize the sites of membrane contact and to identify the molecular players involved, relying mainly on the application of biochemical and electron microscopy (EM)-related methods. The second approach aims to understand the functional importance of a specific contact, focusing on spatio-temporal details. For this purpose, proximity-driven fluorescent probes are the experimental tools of choice, since they allow the monitoring and quantification of membrane contact sites and their dynamics in living cells under different cellular conditions or upon different stimuli. In this review, we focus on these tools with the purpose of highlighting their great versatility and how they can be applied in the study of membrane contacts. We will extensively describe all the different types of proximity-driven fluorescent tools, discussing their benefits and drawbacks, ultimately providing some suggestions to choose and apply the appropriate methods on a case-to-case basis and to obtain the best experimental outcomes.

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