1. Genomic Characterization and gE/gI-Deleted Strain Construction of Novel PRV Variants Isolated in Central China.
- Author
-
Ren, Jianle, Tan, Shanshan, Chen, Xinxin, Yao, Jiying, Niu, Zhihong, Wang, Ying, Ma, Lei, Gao, Xiaolong, Niu, Sheng, Liang, Libin, Li, Junping, Zhao, Yujun, and Tian, Wen-xia
- Subjects
- *
STRUCTURAL frame models , *GENETIC variation , *HYPERVARIABLE regions , *AUJESZKY'S disease virus , *MOSAIC viruses , *PROTEIN structure , *MISSENSE mutation - Abstract
Pseudorabies virus (PRV) variants have caused substantial economic losses in the swine industry in China since 2011. To surveil the genetic variation in PRV field strains, here, two novel variant strains of PRV were isolated from Shanxi Province in central China and were designated SX1910 and SX1911. To identify the genetic characteristics of the two isolates, their complete genomes were sequenced, and phylogenetic analysis and sequence alignment revealed that field PRV variants have undergone genetic variations; notably, the protein-coding sequences UL5, UL36, US1 and IE180 exhibited extensive variation and contained one or more hypervariable regions. Furthermore, we also found that the glycoproteins gB and gD of the two isolates had some novel amino acid (aa) mutations. Importantly, most of these mutations were located on the surface of the protein molecule, according to protein structure model analysis. We constructed a mutant virus of SX1911 with deletion of the gE and gI genes via CRISPR/Cas9. When tested in mice, SX1911-ΔgE/gI-vaccinated mice were protected within a comparable range to Bartha-K61-vaccinated mice. Additionally, a higher dose of inactivated Bartha-K61 protected the mice from lethal SX1911 challenge, while a lower neutralization titer, higher viral load and more severe microscopic lesions were displayed in Bartha-K61-vaccinated mice. These findings highlight the need for continuous monitoring of PRV and novel vaccine development or vaccination program design for PRV control in China. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF