iScience (Oct 2023)

Loss of West Nile virus genetic diversity during mosquito infection due to species-dependent population bottlenecks

  • Emily A. Fitzmeyer,
  • Emily N. Gallichotte,
  • James Weger-Lucarelli,
  • Marylee L. Kapuscinski,
  • Zaid Abdo,
  • Kyra Pyron,
  • Michael C. Young,
  • Gregory D. Ebel

Journal volume & issue
Vol. 26, no. 10
p. 107711

Abstract

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Summary: Vector competence (VC) refers to the efficiency of pathogen transmission by vectors. Each step in the infection of a mosquito vector constitutes a barrier to transmission that may impose bottlenecks on virus populations. West Nile virus (WNV) is maintained by multiple mosquito species with varying VC. However, the extent to which bottlenecks and VC are linked is poorly understood. Similarly, quantitative analyses of mosquito-imposed bottlenecks on virus populations are limited. We used molecularly barcoded WNV to quantify tissue-associated population bottlenecks in three variably competent WNV vectors. Our results confirm strong population bottlenecks during mosquito infection that are capable of dramatically reshaping virus population structure in a non-selective manner. In addition, we found that mosquitoes with differing VC uniquely shape WNV population structure: highly competent vectors are more likely to contribute to the maintenance of rare viral genotypes. These findings have important implications for arbovirus emergence and evolution.

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