植物MicroRNA靶向Sars-CoV-2基因组的潜力提供有效的基于MicroRNA的抗病毒治疗

Behzad Hajieghrari, Sara Rahmanian-Koshkaki
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引用次数: 0

摘要

背景:2019年,严重急性呼吸道冠状病毒II (SARS-COV-2)在中国武汉出现,迅速成为全球大流行。冠状病毒属(冠状病毒科)在人类感染的单链RNA病毒中具有最大的单链正义RNA基因组(~30 kb)。目的:为了研究活性治疗性植物源性miRNA(s),有可能在宿主细胞中摄取miRNA及其生物学作用。在这项研究中,我们从生物信息学上寻找了在3'- UTR区域内可能与Sars-CoV-2基因组相互作用并具有快速抗病毒活性的植物miRNAs。材料和方法:我们利用RNAHybrid、RNA22和STarMir miRNA/靶标预测工具搜索靶向Sars-CoV-2基因组3'-UTR侧翼区域的植物miRNA。结果:RNAHybrid算法发现63个植物mirna的杂交能小于或等于-25 kcal.mol-1。此外,RNA22和STarMir工具鉴定出植物mirna与目标RNA序列之间的8种相互作用。pvu-miR159a。通过RNA22工具和相同位置的STarMir工具预测,2和sbi-miR5387b是靶向3'-UTR序列的最有效的相互作用miRNAs。然而,pvumiR159a的GC含量。2是55%而不是sbi-miR5387b,后者是一个GC富集序列(71.43%),可能激活TLR受体。结论:在我们看来,它们是有效的植物源性miRNA候选物,在体外很有可能靶向Sars-CoV-2基因组的3'-UTR区域。因此,我们提出pvu-miR159a。2 .研究基于mirna的抗病毒疗法,在体内没有任何必要的副作用。
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Plant MicroRNA Potential in Targeting Sars-CoV-2 Genome Offering Efficient Antiviral MiRNA-Based Therapies.

Background: In 2019, severe acute respiratory coronavirus II (or SARS-COV-2) emerged in Wuhan, China, rapidly becoming a global pandemic. Coronavirus genus (Coronaviridae) has the largest single-stranded positive-sense RNA genome (~30 kb) among the human infected single-stranded RNA viruses.

Objectives: For the study of active therapeutic plant-derived miRNA(s), it may be possible to uptake the miRNAs and their biological role in the host cell. In this study, we bioinformatically searched plant miRNAs that can potentially interact with the Sars-CoV-2 genome within the 3'- UTR region and have prompt antiviral activity.

Materials and methods: We searched the plant miRNAs that target the 3'-UTR flanking region of the Sars-CoV-2 genome by employing the RNAHybrid, RNA22, and STarMir miRNA/target prediction tools.

Results: The RNAHybrid algorithm found 63 plant miRNAs having hybridization energy with less or equal to -25 kcal.mol-1. Besides, RNA22 and STarMir tools identified eight interactions between the plant miRNAs and the targeted RNA sequence. pvu-miR159a. 2 and sbi-miR5387b were predicted as the most effectively interacting miRNAs in targeting the 3'-UTR sequence, not only by the RNA22 tool but also by the STarMir tool at the same position. However, the GC content of the pvumiR159a. 2 is 55% instead of sbi-miR5387b, which is a GC enriched sequence (71.43%) that may activate TLR receptors.

Conclusion: In our opinion, they are potent plant-derived miRNA candidates that have a great chance of targeting the Sars-CoV-2 genome in the 3'-UTR region in vitro. Therefore, we propose pvu-miR159a.2 for studying antiviral miRNA-based therapies without any essential side effects in vivo.

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