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SM Best et al.
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Mechanisms of type-I- and type-II-interferon-mediated signalling
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Type I interferon as a link between innate and adaptive immunity through dendritic cell stimulation
DF Tough
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Generation of Marburg virus-like particles by co-expression of glycoprotein and matrix protein
DL Swenson et al.
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AL Hartman et al.
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J Timmins et al.
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Newcastle disease virus (NDV)-based assay demonstrates interferon-antagonist activity for the NDV V protein and the Nipah virus V, W, and C proteins
MS Park et al.
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JJ Rodriguez et al.
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The role of the Type I interferon response in the resistance of mice to filovirus infection
M Bray
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RN Harty et al.
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VE Volchkov et al.
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CF Basler et al.
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