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新型冠状病毒的遗传变异与进化

Genetic Variation and Evolution of the 2019 Novel Coronavirus.

机构信息

BioMolecular Lab, Barletta, Italy,

Technical College of Health, Sulaimani Polytechnic University, KGR, Sulaimani, Iraq.

出版信息

Public Health Genomics. 2021;24(1-2):54-66. doi: 10.1159/000513530. Epub 2021 Jan 6.

DOI:10.1159/000513530
PMID:33406522
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7900485/
Abstract

INTRODUCTION

SARS-CoV-2 is a new type of coronavirus causing a pandemic severe acute respiratory syndrome (SARS-2). Coronaviruses are very diverting genetically and mutate so often periodically. The natural selection of viral mutations may cause host infection selectivity and infectivity.

METHODS

This study was aimed to indicate the diversity between human and animal coronaviruses through finding the rate of mutation in each of the spike, nucleocapsid, envelope, and membrane proteins.

RESULTS

The mutation rate is abundant in all 4 structural proteins. The most number of statistically significant amino acid mutations were found in spike receptor-binding domain (RBD) which may be because it is responsible for a corresponding receptor binding in a broad range of hosts and host selectivity to infect. Among 17 previously known amino acids which are important for binding of spike to angiotensin-converting enzyme 2 (ACE2) receptor, all of them are conservative among human coronaviruses, but only 3 of them significantly are mutated in animal coronaviruses. A single amino acid aspartate-454, that causes dissociation of the RBD of the spike and ACE2, and F486 which gives the strength of binding with ACE2 remain intact in all coronaviruses.

DISCUSSION/CONCLUSION: Observations of this study provided evidence of the genetic diversity and rapid evolution of SARS-CoV-2 as well as other human and animal coronaviruses.

摘要

简介

SARS-CoV-2 是一种新型冠状病毒,可引起大流行的严重急性呼吸系统综合征(SARS-2)。冠状病毒在基因上非常多样化,经常周期性地发生突变。病毒突变的自然选择可能导致宿主感染的选择性和传染性。

方法

本研究旨在通过发现刺突、核衣壳、包膜和膜蛋白中每种蛋白的突变率,指出人类和动物冠状病毒之间的多样性。

结果

所有 4 种结构蛋白的突变率都很高。在刺突受体结合域(RBD)中发现了最多数量的具有统计学意义的氨基酸突变,这可能是因为它负责与广泛的宿主结合,并且具有宿主选择性以感染。在 17 个以前已知的与刺突结合血管紧张素转换酶 2(ACE2)受体有关的氨基酸中,所有这些氨基酸在人类冠状病毒中都是保守的,但只有 3 个在动物冠状病毒中发生了显著突变。一个单一的天冬氨酸-454 导致刺突和 ACE2 的 RBD 解离,而赋予与 ACE2 结合强度的 F486 在所有冠状病毒中都保持完整。

讨论/结论:本研究的观察结果提供了 SARS-CoV-2 以及其他人类和动物冠状病毒遗传多样性和快速进化的证据。