T7 ejectosome assembly: A story unfolds.

Bacteriophage Pub Date : 2016-02-18 eCollection Date: 2016-01-01 DOI:10.1080/21597081.2015.1128513
Sebastian Leptihn, Julia Gottschalk, Andreas Kuhn
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引用次数: 20

Abstract

T7 phage DNA is transported from the capsid into the host cytoplasm across the cell wall by an ejectosome comprised of the viral proteins gp14, gp15 and gp16. Prior to infection, these proteins form the so-called internal core in the mature virion. Gp16 was shown to associate with pure phospholipid bilayers while gp15 bound to DNA. A complex of both proteins appears as spiral-like rods in electron micrographs. It was also shown that the proteins gp15 and gp16 have the propensity to regain their full structure after thermal unfolding. From these observations it was concluded that (partial) unfolding of the proteins occurs during the translocation through the narrow portal of the phage capsid. After leaving the phage head, the proteins refold to form the ejectosome channel across the periplasm of the host. In this work, we analyzed the structure of gp15 and gp16 in presence of lipids and their stability toward chemical denaturants. A model to explain how the ejectosome might assemble in the host cell is discussed.

Abstract Image

Abstract Image

Abstract Image

T7弹射体组装:一个故事展开。
T7噬菌体DNA通过由病毒蛋白gp14、gp15和gp16组成的喷射体从衣壳穿过细胞壁进入宿主细胞质。在感染之前,这些蛋白质在成熟的病毒粒子中形成所谓的内部核心。结果显示,Gp16与纯磷脂双分子层结合,而gp15与DNA结合。这两种蛋白质的复合体在电子显微镜下呈螺旋状。研究还表明,gp15和gp16蛋白在热展开后具有恢复其完整结构的倾向。从这些观察结果可以得出结论,蛋白质的(部分)展开发生在通过噬菌体衣壳狭窄入口的转运过程中。离开噬菌体头后,蛋白质重新折叠形成穿过宿主外周质的喷射体通道。在这项工作中,我们分析了gp15和gp16在脂质存在下的结构及其对化学变性剂的稳定性。讨论了一个解释喷射体如何在宿主细胞中组装的模型。
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