Abstract
BackgroundTwo nuclear localization sequences (NLS) in influenza A virus nucleoprotein (NP) have been demonstrated to be critical for nuclear import of NP and viral ribonucleoprotein complexes. However, a deletion mutant lacking these two signals was still able to localize to the nucleus suggesting the presence of yet another (a third) potential NLS in the NP protein. In order to identify the nature of this potential NLS signal in the NP of a WS/33L influenza virus A strain, we utilized the tools of bioinformatics coupled with functional experimental analyses in the present study.ResultsComparison of the deduced aa sequence of NP of WS/33L strain with the published WS/33 NP sequences revealed that a single amino acid (aa) change (Met to Arg) at position 105 results in converting the flanking regions (between aa position 90–121, a 32-residue stretch) into two classical overlapping bipartite NLS (obpNLS). GenBank search revealed that 9 out of 500 published NP sequences contain a similar Arg at position 105 (instead of Met) with a 100% homology to the obpNLS region. Various NP-green fluorescent protein (GFP) fusion constructs with and without the signal (obpNLS-Arg105) were utilized to understand the functional nature of this signal. We analyzed the transport competency of the expressed chimeric proteins in terms of their cellular localization by confocal immunofluorescence assay. Our analysis revealed that all NP-GFP constructs containing the wild-type (R105) sequence localized predominantly to the nucleus. Constructs lacking the obpNLS or constructs with reverse mutation (R105 to M105) on the other hand exhibited predominant cytoplasmic localization pattern. Interestingly, when the 32 aa obpNLS was fused with an unrelated viral protein (rotavirus NSP6) that has been known to be cytoplasmic protein, the chimeric protein (obpNLS-NSP6) was efficiently transported into the nucleus, indicating an efficient nuclear transport function of the 32-residue obpNLS in the NP of WS/33L strain of influenza A virus.ConclusionThis report while not only establishing a new NLS in the influenza A virus strain, it also reinforces the idea that proper application of bioinformatics-coupled experimental analysis serves as a powerful tool in identifying new functional signals in proteins of interest.
Highlights
Two nuclear localization sequences (NLS) in influenza A virus nucleoprotein (NP) have been demonstrated to be critical for nuclear import of NP and viral ribonucleoprotein complexes
We report here a third novel overlapping bipartite NLS in the NP of WS/33L strain located between the non-conventional NLS (nNLS) and classical NLS (cNLS) regions identified by bioinformatic analyses
Comparative analysis of the deduced amino acid NP sequence from WS/33L The full-length orf of the NP was amplified, cloned, sequenced and the sequence submitted to the genomic database [GenBank: EU330203]
Summary
Two nuclear localization sequences (NLS) in influenza A virus nucleoprotein (NP) have been demonstrated to be critical for nuclear import of NP and viral ribonucleoprotein complexes. The primary role of NP as an RNA-binding protein and its role as a structural protein contributing towards the formation of the RNP complex within the virion is clearly evident. It is the series of events following infection that delineates the major function of NP, which mainly constitute importing of the vRNP complex into nucleus, exporting it back to cytoplasm, and preventing their reentry into nucleus [1,2,3,610]. Interaction of NP with several other viral and host proteins is critical for this nuclear import and export [1,11,12,13]
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