Abstract
Genome packaging for viruses with segmented genomes is often a complex problem. This is particularly true for influenza viruses and other orthomyxoviruses, whose genome consists of multiple negative-sense RNAs encapsidated as ribonucleoprotein (RNP) complexes. To better understand the structural features of orthomyxovirus RNPs that allow them to be packaged, we determined the crystal structure of the nucleoprotein (NP) of a fish orthomyxovirus, the infectious salmon anemia virus (ISAV) (genus Isavirus). As the major protein component of the RNPs, ISAV-NP possesses a bi-lobular structure similar to the influenza virus NP. Because both RNA-free and RNA-bound ISAV NP forms stable dimers in solution, we were able to measure the NP RNA binding affinity as well as the stoichiometry using recombinant proteins and synthetic oligos. Our RNA binding analysis revealed that each ISAV-NP binds ∼12 nts of RNA, shorter than the 24–28 nts originally estimated for the influenza A virus NP based on population average. The 12-nt stoichiometry was further confirmed by results from electron microscopy and dynamic light scattering. Considering that RNPs of ISAV and the influenza viruses have similar morphologies and dimensions, our findings suggest that NP-free RNA may exist on orthomyxovirus RNPs, and selective RNP packaging may be accomplished through direct RNA-RNA interactions.
Highlights
Influenza viruses represent a serious public health concern due to their potential in causing widespread epidemics and pandemics
The genome of orthomyxoviruses consists of multiple segments of negative-sense, single-stranded RNA molecules, each packaged in the form of rod-shaped, double-helical ribonucleoprotein (RNP) complexes
Our results indicate that each infectious salmon anemia virus (ISAV)-NP binds,12-nt RNA, shorter than the 24–28 nts originally estimated for the influenza A virus based on population average
Summary
Influenza viruses represent a serious public health concern due to their potential in causing widespread epidemics and pandemics. The genomes of the influenza A and B viruses are both comprised of eight segments of negative-sense RNA [1]. These eight gene segments are encapsidated in the form of rod-shaped, doublehelical ribonucleoprotein (RNP) complexes in virions as well as in infected cells [2]. It is widely accepted that the vRNPs of the influenza A viruses are packaged into the virion, so that each particle contains eight unique segments of viral RNA (vRNA). Fluorescence in situ hybridization (FISH) analysis of single virus particles further confirmed that the eight unique RNPs are selectively incorporated into progeny virions and most virus particles contain only one copy of each of the eight RNP complexes [14]
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