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Using barcoded Zika virus to assess virus population structure in vitro and in Aedes aegypti mosquitoes
- Source :
- Virology. 521:138-148
- Publication Year :
- 2018
- Publisher :
- Elsevier BV, 2018.
-
Abstract
- Arboviruses such as Zika virus (ZIKV, Flaviviridae; Flavivirus) replicate in both mammalian and insect hosts where they encounter a variety of distinct host defenses. To overcome these pressures, arboviruses exist as diverse populations of distinct genomes. However, transmission between hosts and replication within hosts can involve genetic bottlenecks, during which population size and viral diversity may be significantly reduced, potentially resulting in large fitness losses. Understanding the points at which bottlenecks exist during arbovirus transmission is critical to identifying targets for preventing transmission. To study these bottleneck effects, we constructed 4 “barcoded” ZIKV clones - 2 with an 8-base-pair degenerate insertion in the 3’ UTR and 2 with 8 or 9 degenerate synonymous changes in the coding sequence, theoretically containing thousands of variants each. We passaged these viruses 3 times each in 2 mammalian and 2 mosquito cell lines and characterized selection of the “barcode” populations using deep sequencing. Additionally, the viruses were used to feed three recently field-caught populations of Aedes aegypti mosquitoes to assess bottlenecks in a natural host. The barcoded viruses replicated well in multiple cell lines in vitro and in vivo in mosquitoes and could be characterized using next-generation sequencing. The stochastic nature of mosquito transmission was clearly shown by tracking individual barcodes in Ae. aegypti mosquitoes. Barcoded viruses provide an efficient method to examine bottlenecks during virus infection.AUTHOR SUMMARYIn general, mosquito-borne viruses like ZIKV must replicate in two very different host environments: an insect and a mammalian host. RNA viruses such as ZIKV must maintain genetic diversity in order to adapt to these changing conditions. During this transmission cycle, several barriers exist which can severely restrict viral genetic diversity, causing bottlenecks in the virus population. It is critical to understand these bottlenecks during virus transmission as this will provide important insights into the selective forces shaping arbovirus evolution within and between hots. Here, we employ a set of barcoded ZIKV constructs containing a degenerate stretch of nucleotides that can be tracked using next-generation sequencing. We found that the insertion site in the genome was an important determinant of the resulting diversity of the genetic barcode. We also found that bottlenecks varied between different mosquito populations and patterns of genetic diversity were distinct among individual mosquitoes within a single population, highlighting the randomness of virus dissemination in mosquitoes. Our study characterizes a new tool for tracking bottlenecks during virus transmission in vivo and highlights the importance of both viral and host factors on the maintenance of viral diversity.
- Subjects :
- 0301 basic medicine
viruses
Population
Aedes aegypti
Genome
Arbovirus
Deep sequencing
Article
Virus
Cell Line
Zika virus
Flaviviridae
03 medical and health sciences
Aedes
Virology
medicine
Animals
education
Genetics
education.field_of_study
biology
Genetic Variation
Haplorhini
Zika Virus
biology.organism_classification
medicine.disease
Flavivirus
030104 developmental biology
Viral evolution
Subjects
Details
- ISSN :
- 00426822
- Volume :
- 521
- Database :
- OpenAIRE
- Journal :
- Virology
- Accession number :
- edsair.doi.dedup.....c419c5df52a7fe474bbecbdf878aa70e
- Full Text :
- https://doi.org/10.1016/j.virol.2018.06.004