Genetic Variation Analysis on the Whole Genomic Sequence of a H9N2 Subtype Avian Influenza Virus Isolate

A Objective3 This study was to understand the genetic variation characters of the H9N2 subtype avian influenza virus isolate （A/Chicken/ Hebei/WD/98, abbreviated as WD98） by comparing with other reference strains. I-Method3 Eight complete genes were amplified by RT-PCR and sequenced. The homology and genetic evolution relationship were analyzed between these sequences and that of the seven reference strains. [Result] The whole genomic sequence of WD98 strain was 91.1% -95.8% homologous to that of seven reference strains tested. This isolate shared the highest homology （95.8%） to D/HK/Y280/97 and the lowest homology （91.1% ） to C/Pak/2/99. The HA cleavage site of the WD98 strain was R-S-S-R G, and the 226th amino acid at receptor-binding site was Gin. [ Condmion] WD98 strain belongs to mildly pathogenic avian in- fluenza virus and may not infect human. The genetic relationship is the closest between A/Chicken/Hebei/wD/98 and A/duck/HongKong/Y280/ 97, both of which belong to the sub-line of A/Chicken/Beijing/1/94 in Eurasian line. And A/Chicken/Hebei/WD/98 and A/Chicken/Beijing/1/94 are genetically distant within the same sub-line.

Sequence and phylogenetic analysis of hemagglutinin genes of H9N2 influenza viruses isolated from chicken in China from 2013 to 2015

H9N2 avian influenza virus（AIV） infection is a major problem in poultry industry worldwide. In this study, molecular characterizations and phylogenetic relationships of hemagglutinin（HA） gene sequences of H9N2 AIV of 5 Chinese isolates in 2014 recently available in Gen Bank, 3 widely used vaccine strains, and 52 novel isolates in China from 2013 to 2015 were analyzed. The homology analysis showed that the nucleotide sequences of HA gene of these recent Chinese H9N2 AIV isolates shared homologies from 94.1 to 99.9%. Phylogenetic analysis showed that all isolates belonged to AIV lineage h9.4.2.5. Fifty-six out of the 57 recent Chinese H9N2 AIV isolates had the motifs PSRSSR↓GLF at the cleavage sites within the HA protein, while one isolate PWH01 harbored LSRSSR↓GLF. Remarkably, all of the recent Chinese H9N2 AIV strains had the Q216 L substitution in the receptor binding site, which indicated that they had potential to infect humans. Most of recent Chinese H9N2 AIV isolates lost the potential N-linked glycosylation site at residues 200–202 compared with vaccine strains. This present study demonstrated that AIV lineage h9.4.2.5 was more predominant in China than other lineages as it harbored all the H9N2 AIV isolated between 2013 and 2015. Also we showed the importance of continuous surveillance of emerging H9N2 AIV in China and update of vaccine formulation accordingly in order to prevent and control H9N2 AIV.

Effects of Trypsin on Proliferation of Avian Influenza Virus H9N2 Subtype in MDCK Cells

[Objective] The study aims to determine the optimal concentration of trypsin for the proliferation of avian influenza virus （AIV） H9N2 subtype in Madin- Darby canine kidney （MDCK） cells. [Method] Three AIV H9 subtype isolates were inoculated on MDCK cells respectively. Then, DMEM containing different concentrations of trypsin as maintenance media were added to MDCK monolayer cells. The cytopathic effect （CPE） was observed once every 24 h, and the HA titer of the supematant was measured by HA assay. [Result] When the trypsin concentration was 10 -20 μg/ml in DMEM, the HA titer of virus culture reached 7 log2 （1：128）. Almost all cells were cytopathic after 96 h post inoculation with 1：1 000 or 1：10 000 dilution of AIV culture, and the virus titer reached a peak after 72 -96 h. [ Conclusion] The optimal concentration of trypsin is 10 -20 pg/ml for proliferation of AIV H9N2 subtype in MDCK cells.

The cloning of non-structural-1 (NS1) gene of H9N2 subtype of avian influenza virus in pGEX-4T-1 and pMAL-c2X plasmids and expression in <i>Escherichia coli</i>DH5<i>α</i>strain

Avian influenza is a viral contagious disease that affects poultry industry and human health. Vaccination has been considered as a preventive tool in the eradication of AI, but it causes some limitations including trade embargoes and interfering with serologic surveillance in differentiation between infected and vaccinated animals (DIVA strategy). Several distinct DIVA strategies have been presented to conquer these limitations. In this study, the open reading frame of NS1 gene of a H9N2 subtype of AI virus was amplified by polymerase chain reaction. After extraction and purification of NS1 gene from agarose gel, it was inserted into two different pGEX-4T-1 and pMAL-c2X plasmids and transferred in DH5α strain of Escherichia coli by using electroporation procedure. The E. coli colonies possessing recombinant NS1 gene were screened using PCR, restriction mapping and sequencing analysis. The expressed rNS1 protein was purified using affinity chromatography based on MBP (pMAL- c2X) and GST (pGEX-4T-1). The MBP-NS1 and GST- NS1 proteins on SDS-PAGE had bands with molecular weight of 68 and 52 kDa respectively. Western blotting with MBP-NS1 protein showed positive reaction using antisera obtained from chickens challenged with a H9N2 subtype strain. But, the most sera prepared from H9N2 vaccinated chickens were negative in WB. These findings indicated that the MBP-rNS1 protein of 26 kDa expressed by pMAL-c2X plasmid can be used in a DIVA for differentiation of AI infected and vaccinated chickens.

Genetic Analysis of the Entire Genome of a A/duck/Shanghai/Y20/2006 (H4N6) Avian Influenza Virus

[ Objective] This paper aimed to investigate the origin, characteristics and molecular evolution of duck derived H4N6 subtype avian influ- enza virus （DK/SH/Y20/06） and enrich the epidemiologic data of the waterfowl origin AIV. [Method] The entire genome of DK/SH/Y20/06 was amplified and subjected to genome sequencing. The molecular software was used for sequence analysis and phylogenetic tree construction of DK/ SH/Y20/06 with some other reference sequences in GenBank. [Result] The results indicated that the amino acid sequence adjacent to HA cleav- age site was PEKASR ↓ GLF, which was the typical characteristics of the LPAIV. The phylogenetic analysis indicated that the HA gene of the isolate was derived from the Eurasian lineage in the eastern hemisphere. The NA gene was at the same branch with A/rnallard/Yan chen/2005（ H4N6）, sharing 98.3% sequence identity. The PB2, PB1, NP and PA gene of this isolate had genetically close relationships with H6 subtype AIV which is epidemic in China at present. The M gene fell into the same branch with A/environment/Korea/CSM05/2004（ H3N1 ）. The NS segment had the highest similarity with A/wild duck/Korea/YS44/2004（H1N2）. The eight genes were not at the same branch and shared a low similarity with other H4N6 subtype avian influenza viruses isolated in North America. [Condusion] These data showed that DK/SH/Y20/06（H4N6） was possibly a re- combinant virus derived from H4N6 subtype, H6N2, H6N5, H3N1 and H1 N2 subtype AIV by complex gene recombination in duck.

H9N2亚型禽流感病毒A／Chicken／Gansu／2／99株基因组的分子特征

目的测定H9N2亚型禽流感病毒A/Chicken/Gansu/2/99(CK/GS/2/99)分离株的基因组序列并与参考毒株进行同源性分析,阐明该毒株的遗传变异及分子特征。方法采集发病鸡泄殖腔样品,经鸡胚尿囊腔接种分离病毒,采用RT-PCR方法对CK/GS/2/99株的8个分节段基因进行扩增,分别将其克隆到pGEM-T easy载体后进行序列测定与同源性分析。结果CK/GS/2/99株PB2、PB1、PA、HA、NP、NA、M、NS基因的开放阅读框分别由2280、2274、2151、1683、1497、1401、759、864个碱基组成,分别编码759、757、716、560、498、466、252/97、231/122个氨基酸残基。该毒株HA上HA1和HA2裂解位点序列为PARSSR↓GLF,具有典型的低致病性禽流感病毒的特征。同源性分析显示,CK/GS/2/99株与1998-2002年间大部分中国大陆分离株遗传关系较近,尤其与CK/NX/4/99和CK/HB/31/00株遗传关系密切。结论CK/GS/2/99与大部分流行于中国内陆的H9N2亚型毒株均来源于共同的祖先毒株CK/BJ/1/94,这为了解中国H9N2亚型禽流感病毒的分子流行病学提供了资料。

Characterization of hemagglutinin gene of influenza A virus subtype H9N2

OBJECTIVE: To determine the origin of human influenza A (H9N2) virus and the relationship among H9N2 strains isolated from different hosts, on the basis of molecular biology. METHODS: Viruses were passed in embryonated hen eggs, and virion RNA was extracted from allantoic fluid and reverse transcribed to synthesize cDNA. cDNA was amplified by PCR and the PCR product was purified with a purification kit. Afterwards RNA sequence analysis was performed by dideoxynucleotide chain termination and a cloning method. Finally, phylogenetic analysis of the sequencing data was performed with MegAlign (version 1.03) and Editseg (version 3.69) softwares. RESULTS: The amino acid sequences at the cleavage site between HA1 and HA2 domains of H9N2 viruses isolated in China are R-S-S-R. One pigeon strain contains seven potential glycosylation sites on the HA protein molecule, while all others have eight. There are 2 to 15 differences of amino acid sequences distributed at 24 different positions on the HA protein molecules among six H9N2 viruses. The H9N2 viruses with multiple lineages of HA genes were co-circulating in China recently. CONCLUSION: The highest possibility is that human influenza A (H9N2) virus was derived from Chicken H9N2 virus, and not derived from pigeon H9N2 virus. However, it is still unknown whether the H9N2 virus could transmit from person to person. The H9N2 viruses with multiple lineages of HA genes are co-circulating in China.

8株禽源H_(9)N_(2)亚型禽流感病毒分离鉴定及M基因的序列分析

试验旨在了解中国目前H_(9)N_(2)亚型禽流感病毒(AIV) M基因的遗传变异情况,对2019—2022年分离到的8株H_(9)N_(2)亚型AIV M基因进行测序,并对核苷酸序列、氨基酸序列一致性和分子遗传进化进行分析。结果显示:8株分离株与参考株序列一致性均在88.4%以上,8株分离株M之间的核苷酸一致性为88.0%~99.7%;XD1~XD7属于G1-like分支,XD8属于BJ94-like分支。与经典株相比,分离株产生多个增加病毒感染性的突变。XD1~XD7含有对金刚烷胺类药物抗性的31N突变,而XD8则对金刚烷胺类药物敏感。研究表明,试验结果可为AIV的M蛋白相关生物学机制提供一定参考。