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The C Protein Is Recruited to Measles Virus Ribonucleocapsids by the Phosphoprotein

Measles virus (MeV), like all viruses of the order , utilizes a complex consisting of genomic RNA, nucleoprotein, the RNA-dependent RNA polymerase, and a polymerase cofactor, the phosphoprotein (P), for transcription and replication. We previously showed that a recombinant MeV that does not express...

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Bibliographic Details
Published in:Journal of virology 2020-01, Vol.94 (4)
Main Authors: Pfaller, Christian K, Bloyet, Louis-Marie, Donohue, Ryan C, Huff, Amanda L, Bartemes, William P, Yousaf, Iris, Urzua, Erica, Clavière, Mathieu, Zachary, Marie, de Masson d'Autume, Valentin, Carson, Sandra, Schieferecke, Adam J, Meyer, Alyssa J, Gerlier, Denis, Cattaneo, Roberto
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Language:English
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Summary:Measles virus (MeV), like all viruses of the order , utilizes a complex consisting of genomic RNA, nucleoprotein, the RNA-dependent RNA polymerase, and a polymerase cofactor, the phosphoprotein (P), for transcription and replication. We previously showed that a recombinant MeV that does not express another viral protein, C, has severe transcription and replication deficiencies, including a steeper transcription gradient than the parental virus and generation of defective interfering RNA. This virus is attenuated and However, how the C protein operates and whether it is a component of the replication complex remained unclear. Here, we show that C associates with the ribonucleocapsid and forms a complex that can be purified by immunoprecipitation or ultracentrifugation. In the presence of detergent, the C protein is retained on purified ribonucleocapsids less efficiently than the P protein and the polymerase. The C protein is recruited to the ribonucleocapsid through its interaction with the P protein, as shown by immunofluorescence microscopy of cells expressing different combinations of viral proteins and by split luciferase complementation assays. Forty amino-terminal C protein residues are dispensable for the interaction with P, and the carboxyl-terminal half of P is sufficient for the interaction with C. Thus, the C protein, rather than being an "accessory" protein as qualified in textbooks so far, is a ribonucleocapsid-associated protein that interacts with P, thereby increasing replication accuracy and processivity of the polymerase complex. Replication of negative-strand RNA viruses relies on two components: a helical ribonucleocapsid and an RNA-dependent RNA polymerase composed of a catalytic subunit, the L protein, and a cofactor, the P protein. We show that the measles virus (MeV) C protein is an additional component of the replication complex. We provide evidence that the C protein is recruited to the ribonucleocapsid by the P protein and map the interacting segments of both C and P proteins. We conclude that the primary function of MeV C is to improve polymerase processivity and accuracy, rather than uniquely to antagonize the type I interferon response. Since most viruses of the family express C proteins, their primary function may be conserved.
ISSN:0022-538X
1098-5514
DOI:10.1128/JVI.01733-19