Spatial Scale Influences the Distribution Of viral Diversity In the Eukaryotic Virome Of the Mosquito

Overview

Journal Virus Evol

Publisher Oxford University Press

Date 2023 Sep 18

PMID 37719779

Authors

Patricia Gil

Antoni Exbrayat

Etienne Loire

Ignace Rakotoarivony

Florian Charriat

Come Morel

Thierry Baldet

Michel Boisseau

Albane Marie

Benoit Frances

Gregory LAmbert

Mohamed Bessat

Yehia Otify

Maria Goffredo

Giuseppe Mancini

Nuria Busquets

Lotty Birnberg

Sandra Talavera

Carles Aranda

Emna Ayari

Selma Mejri

Soufien Sghaier

Amal Bennouna

Hicham El Rhaffouli

Thomas Balenghien

Ghita Chlyeh

Ouafaa Fassi Fihri

Julie Reveillaud

Yannick Simonin

Marc Eloit

Serafin Gutierrez

Affiliations

Soon will be listed here.

Abstract

Our knowledge of the diversity of eukaryotic viruses has recently undergone a massive expansion. This diversity could influence host physiology through yet unknown phenomena of potential interest to the fields of health and food production. However, the assembly processes of this diversity remain elusive in the eukaryotic viromes of terrestrial animals. This situation hinders hypothesis-driven tests of virome influence on host physiology. Here, we compare taxonomic diversity between different spatial scales in the eukaryotic virome of the mosquito . This mosquito is a vector of human pathogens worldwide. The experimental design involved sampling in five countries in Africa and Europe around the Mediterranean Sea and large mosquito numbers to ensure a thorough exploration of virus diversity. A group of viruses was found in all countries. This core group represented a relatively large and diverse fraction of the virome. However, certain core viruses were not shared by all host individuals in a given country, and their infection rates fluctuated between countries and years. Moreover, the distribution of coinfections in individual mosquitoes suggested random co-occurrence of those core viruses. Our results also suggested differences in viromes depending on geography, with viromes tending to cluster depending on the continent. Thus, our results unveil that the overlap in taxonomic diversity can decrease with spatial scale in the eukaryotic virome of . Furthermore, our results show that integrating contrasted spatial scales allows us to identify assembly patterns in the mosquito virome. Such patterns can guide future studies of virome influence on mosquito physiology.

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