用主成分分析法测量 Omicron SARS-CoV-2 病毒的突变轨迹

COVID Pub Date : 2024-04-22 DOI:10.3390/covid4040038

T. Konishi, Toa Takahashi

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摘要

自 2019 年以来，SARS-CoV-2 病毒引发了全球大流行，造成了广泛的感染和持续的变异。分析这些变异对于预测未来的影响至关重要。与流感突变不同，SARS-CoV-2 突变显示出独特的选择性模式，主要集中在尖峰蛋白和小 ORF 中。与流感突变的逐渐积累不同，SARS-CoV-2 突变导致新变种的突然出现和随后的爆发。这种现象可能归因于它们有针对性的细胞物质；流感病毒的变异是为了逃避后天免疫，而 SARS-CoV-2 则不同，它的变异似乎是针对以前未感染过的人。2021 年末出现的 Omicron 变体显示出与以往变体不同的重大变异。目前，SARS-CoV-2 的快速变异率已达到与 30 年流感变异率相当的水平。最新的变异体 JN.1 显示出明显的变化轨迹，与以前的 Omicron 变异体截然不同。

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Mutation Trajectory of Omicron SARS-CoV-2 Virus, Measured by Principal Component Analysis

Since 2019, the SARS-CoV-2 virus has caused a global pandemic, resulting in widespread infections and ongoing mutations. Analyzing these mutations is essential for predicting future impacts. Unlike influenza mutations, SARS-CoV-2 mutations displayed distinct selective patterns that were concentrated in the spike protein and small ORFs. In contrast to the gradual accumulation seen in influenza mutations, SARS-CoV-2 mutations lead to the abrupt emergence of new variants and subsequent outbreaks. This phenomenon may be attributed to their targeted cellular substances; unlike the influenza virus, which has mutated to evade acquired immunity, SARS-CoV-2 appeared to mutate to target individuals who have not been previously infected. The Omicron variant, which emerged in late 2021, demonstrates significant mutations that set it apart from previous variants. The rapid mutation rate of SARS-CoV-2 has now reached a level comparable to 30 years of influenza variation. The most recent variant, JN.1, exhibits a discernible trajectory of change distinct from previous Omicron variants.

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