Viral Replication 2013
DOI: 10.5772/54351
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Influenza A Virus Multiplication and the Cellular SUMOylation System

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Cited by 2 publications
(2 citation statements)
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References 157 publications
(223 reference statements)
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“…To do this, they invade the host cells and employ the biochemical mechanisms of the host cell to promote their own growth by replicating new virus proteins and genetic material and in turn attack the host. (8) For the development of a trailblazing tool against any virus, it is fundamental to understand the mode of viral infection, the intervention of which can prompt its containment. The multiplication of any virus inside the host cells comprises of numerous steps: attachment (tethering of virus to the host cell membrane), penetration (infiltration into the cell), un-coating (casting its protein coat), multiplication (virus breeding in the host cells), protein synthesis (protein forming post-genome development), assembly (coating of genetic material by protein), release (liberation of the virus) to destroy other cells of the host.…”
Section: Virus and Antiviral Agentsmentioning
confidence: 99%
“…To do this, they invade the host cells and employ the biochemical mechanisms of the host cell to promote their own growth by replicating new virus proteins and genetic material and in turn attack the host. (8) For the development of a trailblazing tool against any virus, it is fundamental to understand the mode of viral infection, the intervention of which can prompt its containment. The multiplication of any virus inside the host cells comprises of numerous steps: attachment (tethering of virus to the host cell membrane), penetration (infiltration into the cell), un-coating (casting its protein coat), multiplication (virus breeding in the host cells), protein synthesis (protein forming post-genome development), assembly (coating of genetic material by protein), release (liberation of the virus) to destroy other cells of the host.…”
Section: Virus and Antiviral Agentsmentioning
confidence: 99%
“…Because the host cellular SUMOylation system was hijacked by virus infection to modify numerous viral protein (Santos et al, 2013 ), the host cellular SUMOylation status might also be influenced by influenza virus infection. To better understand influenza virus-host interactions, we identified host cell MEK1 as a target of SUMO1, and the SUMOylation of MEK1 could be regulated by influenza A virus H5N1 infection.…”
Section: Introductionmentioning
confidence: 99%