When expressed in vitro, the major capsid protein VP1 of a norovirus (NoV) can self-assemble into virus-like particles (VLPs), and its N-terminus can tolerate foreign sequences without the assembly being affected. We explored the effects of adding an N-terminal sequence to the VP1 of a GII.6 NoV strain on its cleavage and assembly. Sequences of varying lengths derived from the minor capsid protein VP2 were added to the VP1 N-terminus. Using a recombinant baculovirus expression system, the fusion proteins were expressed, and their cleavage patterns and assembly were analyzed using mass spectrometry and transmission electron microscopy, respectively. All of the fusion proteins were successfully expressed and exhi... More
When expressed in vitro, the major capsid protein VP1 of a norovirus (NoV) can self-assemble into virus-like particles (VLPs), and its N-terminus can tolerate foreign sequences without the assembly being affected. We explored the effects of adding an N-terminal sequence to the VP1 of a GII.6 NoV strain on its cleavage and assembly. Sequences of varying lengths derived from the minor capsid protein VP2 were added to the VP1 N-terminus. Using a recombinant baculovirus expression system, the fusion proteins were expressed, and their cleavage patterns and assembly were analyzed using mass spectrometry and transmission electron microscopy, respectively. All of the fusion proteins were successfully expressed and exhibited varying degrees of enzyme cleavage, most probably at the N-terminus. LC-MS results revealed that similar fragments were obtained for wild-type VP1 and fusion proteins, indicating that the cleavage sites were conserved. EM analysis indicated that VLPs of different sizes were successfully assembled for certain fusion proteins. The study data demonstrate that NoV VP1 can tolerate foreign sequences of a certain length at its N-terminus and that a conserved cleavage pattern exists, which might facilitate further investigation of the assembly and cleavage mechanisms of NoV.