Projects per year
Abstract
Identifying drivers of viral diversity is key to understanding the evolutionary as well as epidemiological dynamics of the COVID-19 pandemic. Using rich viral genomic data sets, we show that periods of steadily rising diversity have been punctuated by sudden, enormous increases followed by similarly abrupt collapses of diversity. We introduce a mechanistic model of saltational evolution with epistasis and demonstrate that these features parsimoniously account for the observed temporal dynamics of inter-genomic diversity. Our results provide support for recent proposals that saltational evolution may be a signature feature of SARS-CoV-2, allowing the pathogen to more readily evolve highly transmissible variants. These findings lend theoretical support to a heightened awareness of biological contexts where increased diversification may occur. They also underline the power of pathogen genomics and other surveillance streams in clarifying the phylodynamics of emerging and endemic infections. In public health terms, our results further underline the importance of equitable distribution of up-to-date vaccines.
Original language | English |
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Article number | e1010896 |
Journal | PLOS Computational Biology |
Volume | 19 |
Issue number | 2 |
Number of pages | 24 |
ISSN | 1553-734X |
DOIs | |
Publication status | Published - 15 Feb 2023 |
Projects
- 1 Active
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Carlsberg PandemiX: A Quantitative study of historical and contemporary pandemics
Simonsen, L., Andreasen, V., Berrig, C., Wijhe, M. V., Qvesel, A. G., Thorn, A. V., Ørskov, S., Ingholt, M. M., Krogfelt, K. A., Nielsen, B. F., Poder, S. K., Mannov Christiansen, C., Pedersen, A. G., Sneppen, K., Fischer, T. K., Pedersen, R. K. & Eilersen, A. T.
01/04/2020 → 30/09/2024
Project: Research