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Generation of Recombinant Rotavirus Expressing NSP3-UnaG Fusion Protein by a Simplified Reverse Genetics System.


ABSTRACT: Rotavirus is a segmented double-stranded RNA (dsRNA) virus that causes severe gastroenteritis in young children. We have established an efficient simplified rotavirus reverse genetics (RG) system that uses 11 T7 plasmids, each expressing a unique simian SA11 (+)RNA, and a cytomegalovirus support plasmid for the African swine fever virus NP868R capping enzyme. With the NP868R-based system, we generated recombinant rotavirus (rSA11/NSP3-FL-UnaG) with a genetically modified 1.5-kb segment 7 dsRNA encoding full-length nonstructural protein 3 (NSP3) fused to UnaG, a 139-amino-acid green fluorescent protein (FP). Analysis of rSA11/NSP3-FL-UnaG showed that the virus replicated efficiently and was genetically stable over 10 rounds of serial passaging. The NSP3-UnaG fusion product was well expressed in rSA11/NSP3-FL-UnaG-infected cells, reaching levels similar to NSP3 levels in wild-type recombinant SA11-infected cells. Moreover, the NSP3-UnaG protein, like functional wild-type NSP3, formed dimers in vivo Notably, the NSP3-UnaG protein was readily detected in infected cells via live-cell imaging, with intensity levels ?3-fold greater than those of the NSP1-UnaG fusion product of rSA11/NSP1-FL-UnaG. Our results indicate that FP-expressing recombinant rotaviruses can be made through manipulation of the segment 7 dsRNA without deletion or interruption of any of the 12 open reading frames (ORFs) of the virus. Because NSP3 is expressed at higher levels than NSP1 in infected cells, rotaviruses expressing NSP3-based FPs may be more sensitive tools for studying rotavirus biology than rotaviruses expressing NSP1-based FPs. This is the first report of a recombinant rotavirus containing a genetically engineered segment 7 dsRNA.IMPORTANCE Previous studies generated recombinant rotaviruses that express FPs by inserting reporter genes into the NSP1 ORF of genome segment 5. Unfortunately, NSP1 is expressed at low levels in infected cells, making viruses expressing FP-fused NSP1 less than ideal probes of rotavirus biology. Moreover, FPs were inserted into segment 5 in such a way as to compromise NSP1, an interferon antagonist affecting viral growth and pathogenesis. We have identified an alternative approach for generating rotaviruses expressing FPs, one relying on fusing the reporter gene to the NSP3 ORF of genome segment 7. This was accomplished without interrupting any of the viral ORFs, yielding recombinant viruses that likely express the complete set of functional viral proteins. Given that NSP3 is made at moderate levels in infected cells, rotaviruses encoding NSP3-based FPs should be more sensitive probes of viral infection than rotaviruses encoding NSP1-based FPs.

SUBMITTER: Philip AA 

PROVIDER: S-EPMC6880180 | biostudies-literature | 2019 Dec

REPOSITORIES: biostudies-literature

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Generation of Recombinant Rotavirus Expressing NSP3-UnaG Fusion Protein by a Simplified Reverse Genetics System.

Philip Asha A AA   Perry Jacob L JL   Eaton Heather E HE   Shmulevitz Maya M   Hyser Joseph M JM   Patton John T JT  

Journal of virology 20191126 24


Rotavirus is a segmented double-stranded RNA (dsRNA) virus that causes severe gastroenteritis in young children. We have established an efficient simplified rotavirus reverse genetics (RG) system that uses 11 T7 plasmids, each expressing a unique simian SA11 (+)RNA, and a cytomegalovirus support plasmid for the African swine fever virus NP868R capping enzyme. With the NP868R-based system, we generated recombinant rotavirus (rSA11/NSP3-FL-UnaG) with a genetically modified 1.5-kb segment 7 dsRNA e  ...[more]

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