| Literature DB >> 31175514 |
K Stejskalova1, E Janova1,2, C Horecky3,4, E Horecka3,4, P Vaclavek5, Z Hubalek6, K Relling7, M Cvanova8, G D'Amico9, A D Mihalca9, D Modry2,7,10, A Knoll3,4, P Horin11,12.
Abstract
The West Nile virus (WNV) is a mosquito-borne flavivirus causing meningoencephalitis in humans and animals. Due to their particular susceptibility to WNV infection, horses serve as a sentinel species. In a population of Romanian semi-feral horses living in the Danube delta region, we have analyzed the distribution of candidate polymorphic genetic markers between anti WNV-IgG seropositive and seronegative horses. Thirty-six SNPs located in 28 immunity-related genes and 26 microsatellites located in the MHC and LY49 complex genomic regions were genotyped in 57 seropositive and 32 seronegative horses. The most significant association (pcorr < 0.0002) was found for genotypes composed of markers of the SLC11A1 and TLR4 genes. Markers of five other candidate genes (ADAM17, CXCR3, IL12A, MAVS, TNFA), along with 5 MHC class I and LY49-linked microsatellites were also associated with the WNV antibody status in this model horse population. The OAS1 gene, previously associated with WNV-induced clinical disease, was not associated with the presence of anti-WNV antibodies.Entities:
Keywords: Horse; MHC; Microsatellite; NKR; Polymorphism; Restriction fragment length polymorphism; SLC11A1; TLR4; West Nile virus
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Year: 2019 PMID: 31175514 DOI: 10.1007/s11033-019-04900-w
Source DB: PubMed Journal: Mol Biol Rep ISSN: 0301-4851 Impact factor: 2.316