Role of SARS-CoV-2 mutations in the evolution of the COVID-19 pandemic - 30/04/24
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Summary |
Objectives |
The SARS-CoV-2 pandemic and large-scale genomic surveillance provided an exceptional opportunity to analyze mutations that appeared over three years in viral genomes. Here we studied mutations and their epidemic consequences for SARS-CoV-2 genomes from our center.
Methods |
We analyzed 61,397 SARS-CoV-2 genomes we sequenced from respiratory samples for genomic surveillance. Mutations frequencies were calculated using Nextclade, Microsoft Excel, and an in-house Python script.
Results |
A total of 22,225 nucleotide mutations were identified, 220 (1.0%) being each at the root of ≥836 genomes, classifying mutations as ‘hyperfertile’. Two seeded the European pandemic: P323L in RNA polymerase, associated with an increased mutation rate, and D614G in spike that improved fitness. Most ‘hyperfertile’ mutations occurred in areas not predicted with increased virulence. Their mean number was 8±6 (0–22) per 1000 nucleotides per gene. They were 3.7-times more frequent in accessory than informational genes (13.8 versus 3.7/1000 nucleotides). Particularly, they were 4.1-times more frequent in ORF8 than in the RNA polymerase gene. Interestingly, stop codons were present in 97 positions, almost only in accessory genes, including ORF8 (21/100 codons).
Conclusions |
most ‘hyperfertile’ mutations did not predict emergence of a new epidemic, and some were stop codons indicating the existence of so-named ‘non-virulence’ genes.
Le texte complet de cet article est disponible en PDF.Highlights |
• | Mutations and their epidemic consequences for 61,397 SARS genomes were studied. |
• | Among 22,225 nucleotide mutations, 220 (1.0%) were classified as ‘hyperfertile’. |
• | These latter were 3.7-times more frequent in accessory than informational genes. |
• | Stop codons were present almost only in accessory genes including ORF8. |
• | Most ‘hyperfertile’ mutations did not predict emergence of a new epidemic. |
Keywords : SARS-CoV-2, COVID-19, Genome, Mutations, Evolution, Next-generation sequencing
Plan
Vol 88 - N° 5
Article 106150- mai 2024 Retour au numéro
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