1. A Conserved Basic Patch and Central Kink in the Nipah Virus Phosphoprotein Multimerization Domain Are Essential for Polymerase Function.
- Author
-
Bruhn, Jessica F., Hotard, Anne L., Spiropoulou, Christina F., Lo, Michael K., and Saphire, Erica Ollmann
- Subjects
- *
NIPAH virus , *RNA replicase , *RNA polymerases , *PATHOGENIC viruses , *MEASLES virus , *PROTEIN domains - Abstract
Summary Nipah virus is a highly lethal zoonotic pathogen found in Southeast Asia that has caused human encephalitis outbreaks with 40%–70% mortality. NiV encodes its own RNA-dependent RNA polymerase within the large protein, L. Efficient polymerase activity requires the phosphoprotein, P, which tethers L to its template, the viral nucleocapsid. P is a multifunctional protein with modular domains. The central P multimerization domain is composed of a long, tetrameric coiled coil. We investigated the importance of structural features found in this domain for polymerase function using a newly constructed NiV bicistronic minigenome assay. We identified a conserved basic patch and central kink in the coiled coil that are important for polymerase function, with R555 being absolutely essential. This basic patch and central kink are conserved in the related human pathogens measles and mumps viruses, suggesting that this mechanism may be conserved. Graphical Abstract Highlights • A basic patch in the NiV phosphoprotein is essential for polymerase function • The central kink in the NiV phosphoprotein is essential for polymerase function • The basic patch and central kink are conserved in Nipah, mumps, and measles viruses The highly pathogenic Nipah virus, which caused a lethal outbreak in India in 2018, encodes its own polymerase complex. Bruhn et al. identified a basic patch essential for polymerase function in the phosphoprotein component of this complex. Interestingly, this patch is conserved across several genera within the Paramyxoviridae family. [ABSTRACT FROM AUTHOR]
- Published
- 2019
- Full Text
- View/download PDF