Grass Carp Reovirus Replication Research Articles

Inhibition of the replication of grass carp reovirus in CIK cells with plasmid-transcribed shRNAs

Two DNA constructs targeting the grass carp reovirus (GCRV) RNA dependent RNA polymerase (RdRp) gene and outer capsid protein (OCP) gene that were each 64 bp in length were synthesized chemically and cloned into pSilencer2.1-U6 neo plasmid, named pSi-RdRp1286 and pSi-OCP117, respectively. After transfection of pSi-RdRp1286 and pSi-OCP117 plasmids into CIK cells, the inhibition of GCRV replication in the cells were detected by observing cytopathic effect (CPE), quantitating virus titers (TCID 50/mL) and real-time quantitative RT-PCR analysis of viral RdRp and OCP genes. Five days after the cells were challenged with GCRV, both pSi-RdRp1286 and pSi-OCP117 reduced the viral titers by 5.47 lgTCID 50/mL and 4.37 lgTCID 50/mL, respectively. Compared to the positive control, CPE induced by GCRV in transfected cells was delayed and significantly less. Furthermore, the real-time quantitative RT-PCR analysis of the viral RdRp gene and OCP gene showed that the targeted gene expression were reduced by 89% and 73%, respectively. These results proved that the plasmid-transcribed shRNAs could inhibit effectively GCRV replication in CIK cells. These shRNAs provide potential tools for inhibiting GCRV infection and replication both in vitro and in vivo.

Expression and identification of inclusion forming-related domain of NS80 nonstructural protein of grass carp reovirus

Grass carp reovirus (GCRV), a double stranded RNA virus that infects aquatic animals, often with disastrous effects, belongs to the genus Aquareovirus and family Reoviridea. Similar to other reoviruses, genome replication of GCRV in infected cells occurs in cytoplasmic inclusion bodies, also called viral factories. Sequences analysis revealed the nonstructural protein NS80, encoded by GCRV segment 4, has a high similarity with μNS in MRV(Mammalian orthoreoviruses), which may be associated with viral factory formation. To understand the function of the μNS80 protein in virus replication, the initial expression and identification of the immunogenicity of the GCRV NS80 protein inclusion forming-related region(335–742) was investigated in this study. It is shown that the over-expressed fusion protein was produced by inducing with IPTG at 28°C. In addition, serum specific rabbit antibody was obtained by using super purified recombinant NS80(335–742) protein as antigen. Moreover, the expressed protein was able to bind to anti-his-tag monoclonal antibody (mouse) and NS80(335–742) specific rabbit antibody. Further western blot analysis indicates that the antiserum could detect NS80 or NS80C protein expression in GCRV infected cells. This data provides a foundation for further investigation of the role of NS80 in viral inclusion formation and virion assembly.