Fachbereich Veterinärmedizin



    The Marek's disease virus (MDV) protein encoded by the UL17 ortholog is essential for virus growth (2009)

    Zeitschriftenartikel / wissenschaftlicher Beitrag
    Chbab, Najat
    Chabanne-Vautherot, Danièle
    Francineau, Annick
    Osterrieder, Nikolaus
    Denesvre, Caroline
    Vautherot, Jean-François
    Veterinary Research; 40(4) — S. 28
    ISSN: 0928-4249
    DOI: 10.1051/vetres/2009012
    Pubmed: 19284966
    Institut für Virologie

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    Abstract / Zusammenfassung

    Marek's disease virus type 1 (MDV-1) shows a strict dependency on the direct cell-to-cell spread for its propagation in cell culture. As MDV-1 shows an impaired nuclear egress in cell culture, we wished to address the characterization of capsid/tegument genes which may intervene in the maturation of intranuclear capsids. Orthologs of UL17 are present in all herpesviruses and, in all reported case, were shown to be essential for viral growth, playing a role in capsid maturation and DNA packaging. As only HSV-1 and PrV UL17 proteins have been characterized so far, we wished to examine the role of MDV-1 pUL17 in virus replication. To analyze MDV-1 UL17 gene function, we created deletion mutants or point mutated the open reading frame (ORF) to interrupt its coding phase. We established that a functional ORF UL17 is indispensable for MDV-1 growth. We chose to characterize the virally encoded protein by tagging the 729 amino-acid long protein with a repeat of the HA peptide that was fused to its C-terminus. Protein pUL17 was identified in infected cell extracts as an 82 kDa protein which localized to the nucleus, colocalizing with VP5, the major capsid protein, and VP13/14, a major tegument protein. By using green fluorescent protein fusion and HA tagged proteins expressed under the cytomegalovirus IE gene enhancer/promoter (P(CMV IE)), we showed that MDV-1 pUL17 nuclear distribution in infected cells is not an intrinsic property. Although our results strongly suggest that another viral protein retains (or relocate) pUL17 to the nucleus, we report that none of the tegument protein tested so far were able to mediate pUL17 relocation to the nucleus.