CNRS UMR 5234, Microbiologie Fondamentale et Pathogénicité, Université de Bordeaux, France.
FEBS Lett. 2019 Dec;593(24):3419-3448. doi: 10.1002/1873-3468.13690. Epub 2019 Dec 12.
Incoming adenoviruses seize control of cytosolic transport mechanisms to relocate their genome from the cell periphery to specialized sites in the nucleoplasm. The nucleus is the site for viral gene expression, genome replication, and the production of progeny for the next round of infection. By taking control of the cell, adenoviruses also suppress cell-autonomous immunity responses. To succeed in their production cycle, adenoviruses rely on well-coordinated steps, facilitated by interactions between viral proteins and cellular factors. Interactions between virus and host can impose remarkable morphological changes in the infected cell. Imaging adenoviruses has tremendously influenced how we delineate individual steps in the viral life cycle, because it allowed the development of specific optical markers to label these morphological changes in space and time. As technology advances, innovative imaging techniques and novel tools for specimen labeling keep uncovering previously unseen facets of adenovirus biology emphasizing why imaging adenoviruses is as attractive today as it was in the past. This review will summarize past achievements and present developments in adenovirus imaging centered on fluorescence microscopy approaches.
进入的腺病毒会夺取细胞质运输机制的控制权,将其基因组从细胞边缘转移到核质中的专门部位。细胞核是病毒基因表达、基因组复制和产生下一代感染所需的后代的场所。通过控制细胞,腺病毒还会抑制细胞自主免疫反应。为了成功完成其生产周期,腺病毒依赖于协调良好的步骤,这得益于病毒蛋白和细胞因子之间的相互作用。病毒和宿主之间的相互作用会使受感染的细胞发生显著的形态变化。对腺病毒进行成像极大地影响了我们如何描述病毒生命周期中的各个步骤,因为它允许开发特定的光学标记物来标记这些形态变化在空间和时间上的位置。随着技术的进步,创新的成像技术和用于标本标记的新工具不断揭示腺病毒生物学中以前看不见的方面,这强调了为什么对腺病毒进行成像在今天和过去一样具有吸引力。这篇综述将围绕荧光显微镜方法,总结腺病毒成像的过去成就和现在的发展。
