Selected article for: "antiviral mechanism and inhibitory effect"
Author: Myra Hosmillo; Jia Lu; Michael R. McAllaster; James B. Eaglesham; Xinjie Wang; Edward Emmott; Patricia Domingues; Yasmin Chaudhry; Timothy J Fitzmaurice; Matthew K.H. Tung; Marc Panas; Gerald McInerney; Nicholas Locker; Craig B. Willen; Ian Goodfellow
Title: Noroviruses subvert the core stress granule component G3BP1 to promote viral VPg-dependent translation
  • Document date: 2019_3_8
    • ID: d0q5lhf4_40
    Snippet: numerous studies have suggested that many, if not all, viruses must interact in some 411 manner with stress granules as there is growing evidence that the formation of 412 cytoplasmic stress granules is part of the antiviral defence mechanism (Reviewed in 413 (McCormick and Khaperskyy, 2017) . Some viruses interact with stress granules to 414 promote viral replication (Cristea et al., 2010; Kim et al., 2016; Panas et al., 2014; 415 2012) whereas .....
    Document: numerous studies have suggested that many, if not all, viruses must interact in some 411 manner with stress granules as there is growing evidence that the formation of 412 cytoplasmic stress granules is part of the antiviral defence mechanism (Reviewed in 413 (McCormick and Khaperskyy, 2017) . Some viruses interact with stress granules to 414 promote viral replication (Cristea et al., 2010; Kim et al., 2016; Panas et al., 2014; 415 2012) whereas some do so to counteract the inhibitory effect of stress granules on 416 the translation of viral RNA (Panas et al., 2015; White et al., 2007) . 417

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