Author: Wodrich, Harald; Henaff, Daniel; Jammart, Baptist; Segura-Morales, Carolina; Seelmeir, Sigrid; Coux, Olivier; Ruzsics, Zsolt; Wiethoff, Christopher M.; Kremer, Eric J.
Title: A Capsid-Encoded PPxY-Motif Facilitates Adenovirus Entry Document date: 2010_3_19
ID: 1mjmttec_2
Snippet: Indirect evidence that the host's ubiquitylation machinery participates in parts of the viral entry process comes from studies using pharmacological inhibitors of the ubiquitin/proteasome system. For example, translocation of a murine coronavirus from the endosome to the cytoplasm is facilitated by the ubiquitinproteasome system [9] . Similarly, influenza viruses appear to be trapped in an endosomal compartment upon pharmacological inhibition of .....
Document: Indirect evidence that the host's ubiquitylation machinery participates in parts of the viral entry process comes from studies using pharmacological inhibitors of the ubiquitin/proteasome system. For example, translocation of a murine coronavirus from the endosome to the cytoplasm is facilitated by the ubiquitinproteasome system [9] . Similarly, influenza viruses appear to be trapped in an endosomal compartment upon pharmacological inhibition of the proteasome [10] . In contrast, blocking the proteasome increases the transduction efficiency of adenoassociated virus vectors and this correlates with ubiquitylation of capsid proteins [11, 12] . The Semliki forest and the vesicular stomatitis virus, however, do not seem to be affected by proteasome inhibition during their entry suggesting different host factor requirements [10] .
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