利用网络中心性和分子对接方法研究刺突蛋白突变对贝宁SARS-CoV-2毒力的影响

Q. Thai, Phuoc-Hai Huynh, Huyen Nguyen Thi Thuong, Quoc-Dang Quan
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摘要

COVID-19大流行正在持续并在全球蔓延,这意味着感染和死亡人数持续增加。SARS-CoV-2在Spike基因中不断快速储存突变以适应宿主细胞。刺突基因编码的刺突蛋白直接与人细胞表面的hACE2相互作用。在这里,我们使用网络中心性和分子对接方法,检测了对刺突蛋白有积极影响的关键突变。基于网络中心性,我们证明了Spike基因的A23403G (D614G)突变是网络的中心,这意味着该突变对病毒具有积极影响。此外,通过分析穗蛋白与hACE2的相互作用,我们发现突变发生在RBD区,是通过改变该复合物的静电能来实现的。值得注意的是,突变N440K、L452R、T478K、E484K、Q493R和Q498R由于侧链转变为正电荷而增加了Spike-hACE2复合物的结合自由能。Eta、Delta和Omicron变体存在于这些突变中的一个或多个突变中,导致比武汉变异更高的结合自由能和结合亲和力,表明与hACE2的相互作用更强。一般来说,突刺蛋白上出现的突变倾向于使其表面带正电,以便于与hACE2受体的负表面相互作用。
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Investigating the impact of spike protein mutations on SARS-CoV-2 virulence in benin using network centrality and molecular docking approaches
The COVID-19 pandemic is ongoing and spreading around the world, which means a continuous increase in the number of infections and death. SARS-CoV-2 constantly rapidly stored mutation in the Spike gene to adapt with the host cell. The Spike gene encoded spike protein directly interacts with hACE2 on the human cell surface. Herein, using the network centrality and molecular docking approaches, we detected key mutations that positively affect spike protein. Based on network centrality, we demonstrate that the A23403G (D614G) mutation in the Spike gene is the center of a network which means this mutation has a positive effect on the virus. In addition, analyzing the interaction of spike protein with hACE2, we highlighted that the mutation appeared in the RBD region by changing the electrostatic energy of the complex. Remarkably, mutations N440K, L452R, T478K, E484K, Q493R, and Q498R increased binding free energy of Spike-hACE2 complex due to the change of the side chain into a positive charge. The Eta, Delta, and Omicron variants existed in one or more of these mutations resulting in higher binding free energy and binding affinity than the Wuhan variant indicating sounder interaction with hACE2. In general, mutations appearing on the spike protein tended to cause the surface to become positively charged in order to interact easily with the negative surface of the hACE2 receptor.
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