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Whole genome sequencing of clinical specimens reveals the genomic diversity of porcine reproductive and respiratory syndrome viruses emerging in China.

Jiabao XingZezhong ZhengXinyu CaoZhiyuan WangZhiying XuHan GaoJing LiuSijia XuJinsen LinShengnan ChenHeng WangGuihong ZhangYankuo Sun
Published in: Transboundary and emerging diseases (2022)
The Porcine reproductive and respiratory syndrome virus (PRRSV), a single (+) RNA virus, is characterized by high genome variability and constant evolution. Owing to increasingly complex mutations, there is a growing difficulty in accessing the whole genome. Additionally, there is limited knowledge on PRRSV intra-host nucleotide variants, which may reflect the complex viral-host dynamics. Here, we performed next-generation sequencing on four clinical lung tissues to reveal the genomic diversity and highlight virus-host interactions. The complete genomes of the HN0713 and GDYJ1224 strains shared 90.7% and 91.3% homology with the lineage 1 strain NADC30, respectively, while the GDGZ0408 and GDHY0425 strains shared 92.0% and 91.6% homology with the JXA1 strain, respectively. Recombination analysis showed that the ORF5-7 genes of the GDGZ0408 and GDHY0425 strains, whose complete genomes belong to lineage 8.7 based on the phylogenetic tree, are both recombined with lineage 3 strains. Furthermore, nsp3, nsp10-12, ORF2 genes and a part of the 3'-UTR of the GDHY0425 strain were provided by the lineage 5.1 strain. Two lineage 1 strains (GDYJ1224 and HN0713) were produced by a recombination of lineages 8.7 and 1. Additionally, the lineage 3 strain was associated with the recombinant HN0713 strain. We determined the intra-host single nucleotide variant frequencies and found more than 200 sites at a frequency of >1% in all samples. GDGZ0408 with parts of the nsp9 and nsp10 genes of HP-PRRSV lineage 8.7 presented more genetically diverse populations than others, indicating that lineage 8.7 might drive robust intra-host single nucleotide variants (iSNVs). Moreover, in the iSNV pools, nsp2 and ORF2a presented the highest mutation dynamic. Overall, this study provided evidence for the alarmingly increasing recombination and ever-changing evolutionary dynamics of PRRSV, and revealed the potential causes of vaccine escape, providing a novel insight into the nucleotide variant population in clinical samples.
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