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Universitas Hasanuddin
Research output:Contribution to journalArticlepeer-review

1206 genomes reveal origin and movement of Aedes aegypti driving increased dengue risk

Crawford J.E.

Science

Q1
Published: 2025Citations: 7

Abstract

The emergence and global expansion of <i>Aedes aegypti</i> puts more than half of all humans at risk of arbovirus infection, but the origin of this mosquito and the impact of contemporary gene flow on arbovirus control are unclear. We sequenced 1206 genomes from 73 globally distributed locations. After evolving a preference for humans in Sahelian West Africa, the invasive subspecies <i>Ae. aegypti aegypti</i> (<i>Aaa</i>) emerged in the Americas after the Atlantic slave trade era and expanded globally. Recent back-to-Africa <i>Aaa</i> migration introduced insecticide resistance and anthropophily into regions with recent dengue outbreaks, raising concern that <i>Aaa</i> movement could increase arbovirus risk in urban Africa. These data underscore developing complexity in the fight against dengue, Zika, and chikungunya and provide a platform to further study this important mosquito vector.

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10.1126/science.ads3732

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ArbovirusSciences
ChikungunyaSciences
Dengue feverSciences
SubspeciesSciences
BiologySciences
Dengue virusSciences
Alphavirus infectionSciences
GeographySciences
GenomeSciences
AedesSciences
Gene flowSciences
Arbovirus InfectionsSciences
Aedes aegyptiSciences
EcologySciences
Yellow feverSciences
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