Biologie Moléculaire du Gène chez les Extrêmophiles, Institut Pasteur, Paris, France.
J Virol. 2013 Aug;87(15):8419-28. doi: 10.1128/JVI.01020-13. Epub 2013 May 22.
Archaeal viruses display unusually high genetic and morphological diversity. Studies of these viruses proved to be instrumental for the expansion of knowledge on viral diversity and evolution. The Sulfolobus islandicus rod-shaped virus 2 (SIRV2) is a model to study virus-host interactions in Archaea. It is a lytic virus that exploits a unique egress mechanism based on the formation of remarkable pyramidal structures on the host cell envelope. Using whole-transcriptome sequencing, we present here a global map defining host and viral gene expression during the infection cycle of SIRV2 in its hyperthermophilic host S. islandicus LAL14/1. This information was used, in combination with a yeast two-hybrid analysis of SIRV2 protein interactions, to advance current understanding of viral gene functions. As a consequence of SIRV2 infection, transcription of more than one-third of S. islandicus genes was differentially regulated. While expression of genes involved in cell division decreased, those genes playing a role in antiviral defense were activated on a large scale. Expression of genes belonging to toxin-antitoxin and clustered regularly interspaced short palindromic repeat (CRISPR)-Cas systems was specifically pronounced. The observed different degree of activation of various CRISPR-Cas systems highlights the specialized functions they perform. The information on individual gene expression and activation of antiviral defense systems is expected to aid future studies aimed at detailed understanding of the functions and interplay of these systems in vivo.
古菌病毒表现出异常高的遗传和形态多样性。对这些病毒的研究证明对扩大病毒多样性和进化的知识是有帮助的。丝状硫还原菌杆状病毒 2(SIRV2)是研究古菌中病毒-宿主相互作用的模型。它是一种裂解病毒,利用一种独特的出芽机制,在宿主细胞包膜上形成显著的金字塔结构。利用全转录组测序,我们在这里呈现了一个全面的图谱,定义了 SIRV2 在其嗜热宿主丝状硫还原菌 LAL14/1 中的感染周期中宿主和病毒基因的表达。这些信息与 SIRV2 蛋白相互作用的酵母双杂交分析相结合,有助于提高对病毒基因功能的现有认识。由于 SIRV2 的感染,超过三分之一的 S. islandicus 基因的转录被差异调节。虽然参与细胞分裂的基因表达减少,但大规模激活了参与抗病毒防御的基因。属于毒素-抗毒素和成簇规律间隔短回文重复(CRISPR)-Cas 系统的基因表达特别明显。观察到各种 CRISPR-Cas 系统的不同激活程度突出了它们执行的专门功能。关于单个基因表达和抗病毒防御系统激活的信息预计将有助于未来旨在深入了解这些系统在体内的功能和相互作用的研究。