Author:
Liu Zhaosheng,Fu Xiaoqing,Chen Yaoyao,Sun Yanhong,Zhang Meiling,Han Xiaoyu,Zhao Xiaonan,Zhou Jienan
Abstract
ObjectiveTo understand the molecular characteristics and genetic variation of hemagglutinin (HA) and neuraminidase (NA) genes of H9N2 subtype avian influenza virus (AIV) in the external environment of Yunnan Province, and to provide evidence for the prevention and control of H9N2 subtype AIV in this area.ResultsThe HA and NA genes of 20 isolates belonged to Y280-like sub-branch. The nucleotide and amino acid homology of HA gene were 88.46%-99.81% and 89.08% -99.61%, respectively. The nucleotide and amino acid homology of NA gene were 88.85%-100% and 90.09%-100%, respectively. The HA protein cleavage site of 20 isolates was PSRSSRGLF, which was consistent with the molecular characteristics of low pathogenic avian influenza virus. The 226 th and 228 th positions of the receptor binding site are all L and G, which have the ability to bind to the mammalian sialic acid α-2,6 sialic acid receptor; HA protein had 7-8 glycosylation sites, and the main variation was the deletion of one site at 218 and the addition of one glycosylation site at 313 and 491. The main antigenic sites were G90E, S/T145D, D/N153G, A/S/F168N/E, T200R, N/D201G/T mutations. The NA protein neck of 20 isolates lacked 3 amino acids (TEI), which had the molecular characteristics of highly pathogenic avian influenza. NA protein had 6-8 glycosylation sites. The main variation was that two isolates increased a new glycosylation site NPTQ at the 2nd position, and one isolate increased a new glycosylation site NTTI at the 67th position. All isolates lost one site at the 402nd position, and some isolates lost at the 83rd and 365th positions. The amino acids at the active site and key site of NA protease were not mutated, and the isolates did not produce resistance to neuraminidase inhibitors.ConclusionThe HA and NA genes of H9N2 subtype avian influenza virus in Yunnan Province have evolved continuously, but they still belong to the Y280 branch of the Eurasian lineage. Mutations in key sites may cause increased infectivity and transmission. The monitoring of H9N2 subtype avian influenza virus should be strengthened to prevent it from breaking the interspecies barrier and spreading to humans and lower mammals, so as to prevent the outbreak of H9N2 subtype avian influenza.
Publisher
Cold Spring Harbor Laboratory