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  • Title: Towards a structural understanding of RNA synthesis by negative strand RNA viral polymerases.
    Author: Reguera J, Gerlach P, Cusack S.
    Journal: Curr Opin Struct Biol; 2016 Feb; 36():75-84. PubMed ID: 26826467.
    Abstract:
    Negative strand RNA viruses (NSVs), which may have segmented (sNSV) or non-segmented genomes (nsNSV) are responsible for numerous serious human infections such as Influenza, Measles, Rabies, Ebola, Crimean Congo Haemorrhagic Fever and Lassa Fever. Their RNA-dependent RNA polymerases transcribe and replicate the nucleoprotein coated viral genome within the context of a ribonucleoprotein particle. We review the first high resolution crystal and cryo-EM structures of representative NSV polymerases. The heterotrimeric Influenza and single-chain La Crosse orthobunyavirus polymerase structures (sNSV) show how specific recognition of both genome ends is achieved and is required for polymerase activation and how the sNSV specific 'cap-snatching' mechanism of transcription priming works. Vesicular Stomatitis Virus (nsNSV) polymerase shows a similar core architecture but has different flexibly linked C-terminal domains which perform mRNA cap synthesis. These structures pave the way for a more complete understanding of these complex, multifunctional machines which are also targets for anti-viral drug design.
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