Litcius/Paper detail

Temperate Conditions Limit Zika Virus Genome Replication

Blanka Tesla, Jenna S. Powers, Yvonne Barnes, Shamil Lakhani, Marissa D. Acciani, Melinda A. Brindley

2022Journal of Virology13 citationsDOIOpen Access PDF

Abstract

With half of the human population at risk, arboviral diseases represent a substantial global health burden. Zika virus, previously known to cause sporadic infections in humans, emerged in the Americas in 2015 and quickly spread worldwide. There was an urgent need to better understand the disease pathogenesis and develop therapeutics and vaccines, as well as to understand, predict, and control virus transmission. In order to efficiently predict the seasonality and geography for Zika virus transmission, we need a deeper understanding of the host-pathogen interactions and how they can be altered by environmental factors such as temperature. Identifying the step in the virus replication cycle that is inhibited under cool conditions can have implications in modeling the temperature suitability for arbovirus transmission as global environmental patterns change. Understanding the link between pathogen replication and environmental conditions can potentially be exploited to develop new vector control strategies in the future.

Topics & Concepts

Zika virusBiologyVirologyGenomePopulationVirusGeneticsEnvironmental healthGeneMedicineMosquito-borne diseases and controlViral Infections and VectorsInsect symbiosis and bacterial influences