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Circulation, genomic characteristics, and evolutionary dynamics of class I Newcastle disease virus in China

Lijia Jia, Bilin Liang, Ke Wu, Runkun Wang, Haizhou Liu, Di Liu, Quanjiao Chen

2022Virulence19 citationsDOIOpen Access PDF

Abstract

. In addition, single nucleotide polymorphism and intra-host single nucleotide variation analyses show that HN and P genes have high mutation rates and may act as front-runners for NDV to expand their host range and enhance their virulence. This study also found that the class I NDV population has accumulated a number of mutations under positive selection and that six isolates with shortened C-terminal extensions of the HN protein are evolving toward increased virulence. These results not only enrich the research resources but also help us to better understand the dynamic evolution and mutational trends of NDV at the genomic level, which is crucial for monitoring, early warning, and controlling the outbreak of Newcastle disease.

Topics & Concepts

Newcastle diseaseBiologyViral quasispeciesContext (archaeology)GeneticsPopulationVirologyVirusViral evolutionVirulenceOutbreakGenomeGeneDemographyPaleontologySociologyVirology and Viral DiseasesAnimal Virus Infections StudiesVector-Borne Animal Diseases
Circulation, genomic characteristics, and evolutionary dynamics of class I Newcastle disease virus in China | Litcius