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Modeling the evolution of segment trees reveals deficiencies in current inferential methods for genomic reassortment.

Qianying LinEmma E GoldbergThomas LeitnerCarmen Molina-ParísAaron A KingEthan Obie Romero-Severson
Published in: bioRxiv : the preprint server for biology (2023)
Reassortment is an evolutionary process common in viruses with segmented genomes. These viruses can swap whole genomic segments during cellular co-infection, giving rise to new viral variants. Large-scale genome rearrangements, such as reassortment, have the potential to quickly generate new phenotypes, making the understanding of viral reassortment important to both evolutionary biology and public health research. In this paper, we argue that reassortment cannot be reliably inferred from incongruities between segment phylogenies using the established remove-and-rejoin or coalescent approaches. We instead show that reassortment must be considered in the context of a broader population process that includes the dynamics of the infected hosts. Using illustrative examples and simulation we identify four types of evolutionary events that are difficult or impossible to reconstruct with incongruence-based methods. Further, we show that these specific situations are very common and will likely occur even in small samples. Finally, we argue that existing methods can be augmented or modified to account for all the problematic situations that we identify in this paper. Robust assessment of the role of reassortment in viral evolution is difficult, and we hope to provide conceptual clarity on some important methodological issues that can arise in the development of the next generation of tools for studying reassortment.
Keyphrases
  • genome wide
  • sars cov
  • copy number
  • healthcare
  • emergency department
  • dna methylation
  • climate change
  • risk assessment
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