用于产生甲型流感病毒突变体的反向遗传学系统,该突变体的M2蛋白羧基末端残基缺失。
Reverse genetics system for generation of an influenza A virus mutant containing a deletion of the carboxyl-terminal residue of M2 protein.
作者信息
Castrucci M R, Kawaoka Y
机构信息
Department of Virology and Molecular Biology, St. Jude Children's Research Hospital, Memphis, Tennessee 38101, USA.
出版信息
J Virol. 1995 May;69(5):2725-8. doi: 10.1128/JVI.69.5.2725-2728.1995.
Abstract
We established a reverse genetics system for the M gene of influenza A virus, using amantadine resistance as a selection criterion. Transfection of an artificial M ribonucleoprotein complex of A/Puerto Rico/8/34 (H1N1), a naturally occurring amantadine-resistant virus, and superinfection with amantadine-sensitive A/equine/Miami/1/63 (H3N8), followed by cultivation in the presence of the drug, led to the generation of a transfectant virus with the A/Puerto Rico/8/34 (H1N1) M gene. With this system, we attempted to generate a virus containing a deletion in an M-gene product (M2 protein). Viruses lacking the carboxyl-terminal Glu of M2, but not those lacking 5 or 10 carboxyl-terminal residues, were rescued in the presence of amantadine. These findings indicate that carboxyl-terminal residues of the M2 protein play an important role in influenza virus replication. The M-gene-based reverse genetics system will allow the study of different M-gene mutations to achieve a balance between attenuation and virus replication, thus facilitating the production of live vaccine strains.
摘要
我们以金刚烷胺抗性作为选择标准,建立了甲型流感病毒M基因的反向遗传学系统。转染天然存在的金刚烷胺抗性病毒A/波多黎各/8/34(H1N1)的人工M核糖核蛋白复合体,并与金刚烷胺敏感的A/马/迈阿密/1/63(H3N8)进行超感染,随后在药物存在的情况下进行培养,从而产生了带有A/波多黎各/8/34(H1N1)M基因的转染病毒。利用该系统,我们试图产生一种在M基因产物(M2蛋白)中存在缺失的病毒。在金刚烷胺存在的情况下,成功拯救出了缺少M2蛋白羧基末端Glu的病毒,但缺少5个或10个羧基末端残基的病毒未能成功拯救。这些发现表明,M2蛋白的羧基末端残基在流感病毒复制中起重要作用。基于M基因的反向遗传学系统将有助于研究不同的M基因突变,以在减毒和病毒复制之间取得平衡,从而促进活疫苗株的生产。
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