共振识别模型分析干扰冠状病毒RNA复制的可能性

I. Cosic, D. Cosic, I. Loncarevic
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引用次数: 0

摘要

为了能够设计COVID-19的疫苗甚至治愈方法,了解SARS-CoV-2作为单链RNA病毒如何在宿主细胞内繁殖以及哪些因素控制这种繁殖尤为重要。在这里,我们分析了冠状病毒RNA在宿主细胞内复制的过程,目的是找出这一过程的特点。为此,我们利用了共振识别模型(RRM),这是一种能够识别与特定大分子(蛋白质,DNA, RNA)功能和/或相互作用相关的参数(频率)的生物物理模型。RRM模型具有直接分析氨基酸大分子(蛋白质)和核苷酸大分子(DNA, RNA)之间相互作用的独特能力。利用RRM模型,我们确定了表征冠状病毒RNA复制两个步骤的参数,即开始复制和自身复制。这些参数可以在我们未来的研究中用于设计肽,这将能够干扰其中一个或两个过程。
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Possibility to Interfere with Coronavirus RNA Replication Analyzed by Resonant Recognition Model
To be able to design vaccine or even a cure for COVID-19, it is particularly important to understand how SARS-CoV-2, as a single stranded RNA virus, is multiplied within host cells and which factors are controlling this multiplication. Here, we have analyzed the process of coronavirus RNA replication within host cell with the aim to find out the characteristics of this process. For that purpose, we have utilized the Resonant Recognition Model (RRM), which is biophysical model capable of identifying parameters (frequencies) related to specific macromolecular (protein, DNA, RNA) functions and/or interactions. The RRM model is unique with its capability to directly analyze interactions between amino acid macromolecules (proteins) and nucleotide macromolecules (DNA, RNA). Using the RRM model, we have identified parameters that characterize two steps in coronavirus RNA replication i.e., initiation of replication and replication by itself. These parameters can be used in our future research to design peptides, that will be able to interfere with either or both of those processes.
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