Litcius/Paper detail

Contribution of Segment 3 to the Acquisition of Virulence in Contemporary H9N2 Avian Influenza Viruses

Anabel L. Clements, Joshua E. Sealy, Thomas P. Peacock, Jean-Rémy Sadeyen, Saira Hussain, Samantha Lycett, Holly Shelton, Paul Digard, Munir Iqbal

2020Journal of Virology22 citationsDOIOpen Access PDF

Abstract

Avian influenza viruses, such as H9N2, cause huge economic damage to poultry production worldwide and are additionally considered potential pandemic threats. Understanding how these viruses evolve in their natural hosts is key to effective control strategies. In the Middle East and South Asia, an older H9N2 virus strain has been replaced by a new reassortant strain with greater fitness. Here, we take representative viruses and investigate the genetic basis for this "fitness." A single mutation in the virus was responsible for greater fitness, enabling high growth of the contemporary H9N2 virus in cells, as well as in chickens. The genetic mutation that modulates this change is within the viral PA protein, a part of the virus polymerase gene that contributes to viral replication as well as to virus accessory functions-however, we find that the fitness effect is specifically due to changes in the protein polymerase activity.

Topics & Concepts

BiologyVirologyVirusH5N1 genetic structureInfluenza A virus subtype H5N1Viral replicationVirulenceViral evolutionPolymeraseStrain (injury)Influenza A virusPandemicMutationGeneGeneticsCoronavirus disease 2019 (COVID-19)GenomeInfectious disease (medical specialty)AnatomyDiseaseMedicinePathologyInfluenza Virus Research StudiesAnimal Disease Management and EpidemiologyAnimal Virus Infections Studies