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奥密克戎变异株刺突蛋白突变相关效应的计算机模拟研究

An in-silico study of the mutation-associated effects on the spike protein of SARS-CoV-2, Omicron variant.

机构信息

Department of Mathematics and Natural Sciences, BRAC University, Dhaka, Bangladesh.

Rangamati General Hospital, Chattogram, Bangladesh.

出版信息

PLoS One. 2022 Apr 21;17(4):e0266844. doi: 10.1371/journal.pone.0266844. eCollection 2022.

DOI:10.1371/journal.pone.0266844
PMID:35446879
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9022835/
Abstract

The emergence of Omicron (B.1.1.529), a new Variant of Concern in the COVID-19 pandemic, while accompanied by the ongoing Delta variant infection, has once again fueled fears of a new infection wave and global health concern. In the Omicron variant, the receptor-binding domain (RBD) of its spike glycoprotein is heavily mutated, a feature critical for the transmission rate of the virus by interacting with hACE2. In this study, we used a combination of conventional and advanced neural network-based in silico approaches to predict how these mutations would affect the spike protein. The results demonstrated a decrease in the electrostatic potentials of residues corresponding to receptor recognition sites, an increase in the alkalinity of the protein, a change in hydrophobicity, variations in functional residues, and an increase in the percentage of alpha-helix structure. Moreover, several mutations were found to modulate the immunologic properties of the potential epitopes predicted from the spike protein. Our next step was to predict the structural changes of the spike and their effect on its interaction with the hACE2. The results revealed that the RBD of the Omicron variant had a higher affinity than the reference. Moreover, all-atom molecular dynamics simulations concluded that the RBD of the Omicron variant exhibits a more dispersed interaction network since mutations resulted in an increased number of hydrophobic interactions and hydrogen bonds with hACE2.

摘要

奥密克戎(B.1.1.529)的出现是 COVID-19 大流行中的一个新关注变体,伴随着持续的德尔塔变体感染,再次引发了对新感染浪潮和全球健康关注的担忧。在奥密克戎变体中,其刺突糖蛋白的受体结合域(RBD)发生了大量突变,这一特征对于病毒通过与 hACE2 相互作用的传播率至关重要。在这项研究中,我们使用了传统和基于先进神经网络的计算方法相结合,来预测这些突变将如何影响刺突蛋白。结果表明,对应受体识别位点的残基的静电势降低,蛋白的碱性增加,疏水性发生变化,功能残基发生变化,α-螺旋结构的百分比增加。此外,发现几个突变可以调节潜在表位的免疫特性,这些潜在表位是从刺突蛋白中预测出来的。我们的下一步是预测刺突的结构变化及其对与 hACE2 相互作用的影响。结果表明,奥密克戎变体的 RBD 比参考序列具有更高的亲和力。此外,全原子分子动力学模拟得出结论,奥密克戎变体的 RBD 表现出更分散的相互作用网络,因为突变导致与 hACE2 之间增加了疏水相互作用和氢键的数量。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/088b/9022835/87db32b03459/pone.0266844.g006.jpg
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