The structure of the influenza A virus genome

基因组 病毒 生物 甲型流感病毒 病毒学 基因 计算生物学 遗传学
作者
Bernadeta Dadonaite,Brad Gilbertson,Michael L. Knight,Sanja Trifkovic,Steven Rockman,Alain Laederach,Lorena E. Brown,Ervin Fodor,David L.V. Bauer
出处
期刊:Nature microbiology [Nature Portfolio]
卷期号:4 (11): 1781-1789 被引量:262
标识
DOI:10.1038/s41564-019-0513-7
摘要

Influenza A viruses (IAVs) constitute a major threat to human health. The IAV genome consists of eight single-stranded viral RNA segments contained in separate viral ribonucleoprotein (vRNP) complexes that are packaged together into a single virus particle. The structure of viral RNA is believed to play a role in assembling the different vRNPs into budding virions1–8 and in directing reassortment between IAVs9. Reassortment between established human IAVs and IAVs harboured in the animal reservoir can lead to the emergence of pandemic influenza strains to which there is little pre-existing immunity in the human population10,11. While previous studies have revealed the overall organization of the proteins within vRNPs, characterization of viral RNA structure using conventional structural methods is hampered by limited resolution and an inability to resolve dynamic components12,13. Here, we employ multiple high-throughput sequencing approaches to generate a global high-resolution structure of the IAV genome. We show that different IAV genome segments acquire distinct RNA conformations and form both intra- and intersegment RNA interactions inside influenza virions. We use our detailed map of IAV genome structure to provide direct evidence for how intersegment RNA interactions drive vRNP cosegregation during reassortment between different IAV strains. The work presented here is a roadmap both for the development of improved vaccine strains and for the creation of a framework to ‘risk assess’ reassortment potential to better predict the emergence of new pandemic influenza strains. A combination of secondary structure probing and RNA crosslinking sequencing approaches sheds lights on the RNA conformations and the intra- and intersegment interactions of the genome inside influenza A virions.
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