CHARACTERIZING THE ROLE OF N TERMINUS OF INFLUENZA A NUCLEOPROTEIN FOR LOCATION AND VIRAL RNP ACTIVITY

Lin, Jared

01 June 2018

The influenza viral ribonucleoprotein complexes (vRNPs) are responsible for viral RNA synthesis. Each vRNP is comprised of one vRNA segment, the viral RNA dependent RNA polymerase complex (RdRP), and multiple copies of nucleoprotein (NP). NP serves as scaffold in formation of vRNPs, but also regulates vRNP activity. The N-terminus of NP contains a nonconventional nuclear localization signal (NLS1) essential for initial vRNP nuclear import, but also interacts with host RNA helicases to enhance viral RNA replication in the nucleus. NP contains at least one additional NLS sequence, with bioinformatics revealing a third NLS in some NP proteins. Published yeast-two hybrid results indicate that the first 20 amino acids of NP can sufficiently bind with cellular protein UAP56. Suggesting the interaction of NP-UAP56 can be a major mechanism of how NP involve in viral replication. Thus, to examine the role of the N-terminus of NP aside from its vRNP nuclear localization activity N-terminal 20 amino acid deletion mutants with or without the addition of the conventional NLS from SV-40 T-antigen were constructed, termed del20NLS-NP and del20-NP. Nuclear localization of vRNPs with these constructs was assessed by GFP expression and western blotting. All these constructs exhibit nuclear localization, consistent with NLS1 being utilized for vRNP localization but not NP localization and vRNP formation in the nucleus. Furthermore, qPCR results demonstrated decreased vRNA synthesis activity, exacerbated as the vRNA template is lengthened in both plasmids, consistent with a lack of interaction with host RNA helicases. Interestingly, del20-NP vRNP activity is less severe than del20NLS-NP, suggesting perturbations of the N-terminus disrupt vRNP activity. To narrow down the region responsible for vRNA expression defect, del10-NP was constructed. GFP expression displayed similar activity between del10-NP and WT-NP with del20-NP showing a severe defection, suggesting NP amino acids 11-20 might be the major region responsible for the vRNA synthesis defect. However, sucrose density gradient results do not support the published interaction between NP and UAP56 in 293T cells. These results support the N-terminal region, potentially amino acids 11-20 of NP, is playing the important role in efficient viral gene expression during virus replication especially as vRNA template lengthen, and that the NLS1 of NP is not essential for NP/vRNP nuclear localization in our reconstituted vRNP assay.

Influenza

Nucleoprotein

NLS

UAP56

GFP expression

viral RNA synthesis

Virology

Identification of the Minimal Domain of RNA Trihosphastase Activity in the L Protien of Rinderpest Virus and Charecterization of its Enzymatic Activities

Singh, Piyush Kumar

January 2013

Morbilliviruses belong to the family Paramyxoviridae of the Mononegavirale order of viruses. The Mononegavirale order contains viruses which contain negatively-polar, non-segmented and single stranded RNA genomes. This order contains some of most lethal pathogens known to the humankind. Ebola virus and Marburg virus are perhaps the most lethal human pathogens. Rinderpest virus, declared eradicated in 2011, was known to be the most significant cattle killer. Similarly the Canine distemper virus and Rabies virus, two topmost canine pathogens belong to this order. The L protein in the viruses of Morbillivirus genus harbours the viral RNA-dependent RNA polymerase that replicates and transcribes the viral genome and also all the mRNA capping enzymes, viz. RNA 5’ triphosphatase, guanylyltransferase, RNA (guanine-7-)methyltransferase and RNA 5’ cap-dependent (2’-oxo-)methyltransferase. Moreover this protein can act as a protein kinase that can regulate the function of P protein which serves as a switch between transcription and replication. mRNA capping is necessary for the virus for the purpose of exploiting host cellular machinery towards viral protein synthesis. The Rinderpest virus L protein serves as a model to study the capping enzymes of Morbillivirus. RNA triphosphatase (RTPase), the first enzyme of the capping cascade had earlier been located on the L protein. The RTPase minimal domain on the L protein was identified earlier by sequence homology studies done with RTPase proteins of Baculovirus and Vaccinia virus and cloned. The bacterially expressed recombinant domain was shown to possess RTPase activity. The enzymatic activity was characterized and the RTPase was found to be a metal-dependent enzyme which is highly specific to capping viral mRNA. Further characterization of the domain revealed that the domain also possesses nucleotide triphosphatase (NTPase), tripolyphosphatase and pyrophosphatase activities. Two site-directed mutants in motif-A of the domain: E1645A and E1647A were also tested and were found to be essential for the RTPase and NTPase activity. It was also recognized through these mutant studies that the active sites of RTPase and NTPase activities are partially overlapping. Earlier work done with Vesicular stomatitis virus capping enzymes showed that the Rhabdoviridae family of viruses follow unconventional capping pathway utilizing an enzyme polyribonucleotidyltransferase (PRNTase) which transfers GDP to 5’-monophosphated RNA. Characterization of the RTPase activity which converts 5’-triphosphated RNA into 5’-diphosphated RNA is an evidence for the morbilliviruses utilizing the conventional eukaryotic capping cascade. The results show that Paramyxoviridae do not follow unconventional capping pathway for the mRNA capping as has been the paradigm in the past decade.

Rinderpest Virus (RPV)

Viral Replication

Viral Transcription

Viral Structure

Viral RNA Synthesis

Morbilliviruses

Rinderpest Virus L Protein

Viral Proteins - Synthesis

Viruses - Reproduction

Viral Proteins

Viruses - RNA Capping

Viral Genome Organization

Viral RNA

L Protein

Virology