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Analysis of Recombinant Characteristics Based on 949 PRRSV-2 Genomic Sequences Obtained from 1991 to 2021 Shows That Viral Multiplication Ability Contributes to Dominant Recombination

Xingyang Cui, Dasong Xia, Xinyi Huang, Yue Sun, Mǎng Shī, Jianqiang Zhang, Ganwu Li, Yongbo Yang, Haiwei Wang, Xuehui Cai, Tongqing An

2022Microbiology Spectrum40 citationsDOIOpen Access PDF

Abstract

Recombination is an important driver of the genetic shifts that are tightly linked to the evolution of RNA viruses. Viral recombination contributes substantially to the emergence of new variants, alterations in virulence, and pathogenesis. PRRSV is genetically diverse, partly because of extensive recombination. In this study, we analyzed interlineage recombination based on available genomic sequences of PRRSV-2 from 1991 to 2021. The study revealed the temporal and geographical distribution of recombinant PRRSVs and the recombination hot spot's location and showed that artificially constructed recombinant PRRSVs (harboring a high-frequency region) had more viral genomic copies than their parental virus, indicating that dominant recombination was shaped by a tendency to benefit viral replication. This finding will enrich our understanding of PRRSV recombination and provide new clues for an in-depth study of the recombination mechanism.

Topics & Concepts

RecombinationRecombinant DNABiologyVirologyGeneticsGenetic recombinationPorcine reproductive and respiratory syndrome virusGenomeVirusGeneAnimal Virus Infections StudiesViral gastroenteritis research and epidemiologyPlant Virus Research Studies