2014-2015年伊朗伊斯法罕地区H9N2亚型禽流感基质基因与金刚烷胺耐药性的回顾性系统发育分析

M. Gholami-Ahangaran, Maziar Haj Salehi, M. Karimi-Dehkordi, S. Azizi
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摘要

背景:流感是家禽生产中的一种主要病毒性疾病,每年给家禽养殖业造成各种经济损失。禽流感病毒(AIV)易受抗原变化的影响,该病毒的基因组编码不同的蛋白质,其中一些蛋白质具有更多的生物学特性。基质(M)蛋白是这些蛋白中的一种,在病毒的免疫和发病机制中起作用。因此,对流感基因的分子特征和变化进行评估可以为进一步的基因组研究提供新的思路。因此,本研究通过测定其M基因序列,将AI H9N2菌株与世界基因库中其他参考菌株的分子特征进行比较。方法:选取4株AIV (H9N2)进行M基因序列分析。从凝胶中纯化聚合酶链反应产物并扩增M基因,对其进行测序。最后,将这些菌株与其他参考菌株的核苷酸序列通过MegAlign软件进行比对,采用Clustal W法进行分析。结果:近十年aiv的M基因序列在离子门和裂解位点等特殊区域与其他参考菌株高度相似。根据M序列,3株菌株对金刚烷胺具有抗性。表位区的这些病毒与高致病性禽流感(HPAI)香港H5N1毒株高度相似。结论:总的来说,尽管有必要对流感病毒各种基因的变化进行持续监测,但伊朗H9N2毒株中M基因的序列似乎是相对恒定的。
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A Retrospective Phylogenetic Analysis of Matrix Gene and Amantadine Resistance in Avian Influenza (H9N2 subtype) During 2014-2015 in Isfahan, Iran
Background: Influenza is a main viral disease in poultry production that causes various annual economic losses to the poultry production industry. Avian influenza virus (AIV) is susceptible to antigenic changes, and the genome of this virus codes different proteins some of which have more biological properties. The matrix (M) protein is one of these proteins that plays a role in the immunization and pathogenesis of the virus. Therefore, the evaluation of molecular characteristics and changes in the influenza gene can provide a new horizon for further genomic studies. Accordingly, in this study, the molecular characteristics of AI H9N2 strains were compared with those of other reference strains in the world gene bank by determining their M gene sequence. Methods: In this regard, 4 strains of AIV (H9N2) were selected for the analysis of the M gene sequence. The polymerase chain reaction product was sequenced after its purification from the gel and the amplification of the M gene. Finally, the nucleotide sequence of these strains and other reference strains were aligned and analyzed by MegAlign software using the Clustal W method. Results: The results indicated that the M gene sequences of AIVs belonging to the last decade were highly similar to each other and other reference strains in special regions such as the ionic gate and the cleavage site. Based on the M sequence, 3 strains appeared to be resistant to amantadine. These viruses in the epitope regions showed a high similarity to the highly pathogenic avian influenza (HPAI) Hong Kong H5N1 strain. Conclusions: In general, it seems that the sequence of the M gene in Iranian H9N2 strains belonging to the last decade is relatively constant although the continuous monitoring of changes in various genes of the influenza virus is necessary.
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