Visualisation of microalgal-viral interactions by high-speed atomic force microscopy

IF 2 Q4 VIROLOGY Frontiers in virology Pub Date : 2023-03-02 DOI:10.3389/fviro.2023.1111335
Christopher T Evans, O. Payton, L. Picco, M. Allen
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Abstract

Visualization of viruses and their hosts has been paramount to their study and understanding. The direct observation of the morphological dynamics of infection is a highly desired capability and the focus of instrument development across a variety of microscopy technologies. This study demonstrates progress that has been made in exploiting the capabilities offered by HS-AFM to characterise the interactions between coccolithoviruses and their globally important coccolithophore hosts. We observe whole Emiliania huxleyi Virus capsids, transient binding to Emiliania huxleyi derived supported lipid bilayers, and host-virus binding in real-time in an environmentally relevant, aqueous environment.
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用高速原子力显微镜观察微藻与病毒的相互作用
病毒及其宿主的可视化对他们的研究和理解至关重要。直接观察感染的形态动力学是一种非常理想的能力,也是各种显微镜技术中仪器开发的重点。这项研究证明了在利用HS-AFM提供的能力来表征球石病毒与其全球重要的球石宿主之间的相互作用方面取得的进展。我们在与环境相关的水性环境中实时观察到整个艾米莉安娜·胡克斯利病毒衣壳、与艾米莉安娜·哈克斯利衍生的负载脂质双层的瞬时结合以及宿主病毒的结合。
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Frontiers in virology
Frontiers in virology
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