Author: Karimi, Elham; Azari, Hanieh; Yari, Maryam; Tahmasebi, Ahmad; Hassani Azad, Mehdi; Mousavi, Pegah
Title: Interplay between SARSâ€CoVâ€2â€derived miRNAs, immune system, vitamin D pathway and respiratory system Cord-id: kylf7u2h Document date: 2021_6_22
ID: kylf7u2h
Snippet: The new coronavirus pandemic started in China in 2019. The intensity of the disease can range from mild to severe, leading to death in many cases. Despite extensive research in this area, the exact molecular nature of virus is not fully recognized; however, according to pieces of evidence, one of the mechanisms of virus pathogenesis is through the function of viral miRNAs. So, we hypothesized that SARSâ€CoVâ€2 pathogenesis may be due to targeting important genes in the host with its miRNAs, wh
Document: The new coronavirus pandemic started in China in 2019. The intensity of the disease can range from mild to severe, leading to death in many cases. Despite extensive research in this area, the exact molecular nature of virus is not fully recognized; however, according to pieces of evidence, one of the mechanisms of virus pathogenesis is through the function of viral miRNAs. So, we hypothesized that SARSâ€CoVâ€2 pathogenesis may be due to targeting important genes in the host with its miRNAs, which involved in the respiratory system, immune pathways and vitamin D pathways, thus possibly contributing to disease progression and virus survival. Potential miRNA precursors and mature miRNA were predicted and confirmed based on the virus genome. The next step was to predict and identify their target genes and perform functional enrichment analysis to recognize the biological processes connected with these genes in the three pathways mentioned above through several comprehensive databases. Finally, cisâ€acting regulatory elements in 5′ regulatory regions were analysed, and the analysis of available RNAseq data determined the expression level of genes. We revealed that thirtyâ€nine mature miRNAs could theoretically derive from the SARSâ€CoVâ€2 genome. Functional enrichment analysis elucidated three highlighted pathways involved in SARSâ€CoVâ€2 pathogenesis: vitamin D, immune system and respiratory system. Our finding highlighted genes' involvement in three crucial molecular pathways and may help develop new therapeutic targets related to SARSâ€CoVâ€2.
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