RNA architecture of porcine deltacoronavirus genome inside virions detected by vRIC-seq.

RNA architecture of porcine deltacoronavirus genome inside virions detected by vRIC-seq.

Publication date: Oct 14, 2024

Porcine deltacoronavirus (PDCoV) is a newly emerging and special delta coronavirus, which infect mammals such as pigs, cattle and humans, as well as chickens and birds. Exploring RNA structures in the viral genome benefits the understanding of the role of RNA in the lifecycle of viruses. In this study, vRIC-seq is employed to analyze the RNA-RNA interaction in the whole genome structure of PDCoV in virions. About 12. 87 and 13. 52 million paired reads are obtained in two biological replicates, respectively, with 17. 9% and 14. 8% of them are identified as valid chimeric reads. These are employed to predict the RNA secondary structure, which is compact and highly structured. A twisted-cyclized conformation is observed in the RNA-RNA interaction map of PDCoV for the first time. 77 multi-way junctions are evenly distributed in the PDCoV genome. Our work provides fundamental structural insights that are essential for understanding the genomic structure and function, genetic evolution, and packaging characteristics of PDCoV.

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Concepts Keywords
Chickens Animals
Deltacoronavirus Deltacoronavirus
Employed Genome, Viral
Genetic Nucleic Acid Conformation
Lifecycle RNA, Viral
RNA, Viral
Swine
Virion

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