Abstract
BackgroundAutographa californica multiple nucleopolyhedrovirus (AcMNPV) vp39 is conserved in all sequenced baculovirus genomes. In previous studies, VP39 has been identified as the major capsid structure protein of baculoviruses and found to be essential for nucleocapsid assembly. The nucleocapsid composition and structure of Group I and II NPVs of the Alphabaculovirus genus are very similar. It is not clear whether the major capsid structure protein VP39 of Group I NPVs is functionally identical to or substitutable with the Group II NPV VP39. In this study, the function of Group II Spodoptera litura MNPV (SpltMNPV) VP39 in Group I AcMNPV was characterized.MethodsSequence alignment of AcMNPV VP39 and SpltMNPV VP39 was performed using Clustal X and edited with GeneDoc. To determine whether VP39 of Group I NPVs can be functionally substituted by Group II NPV VP39, a vp39-null AcMNPV (vAcvp39KO) and a vp39-pseudotyped AcMNPV (vAcSpltvp39:FLAG), in which the Group I AcMNPV vp39 coding sequence was replaced with that of SpltMNPV from Group II NPVs, were constructed via homologous recombination in Escherichia coli. Using an anti-FLAG monoclonal antibody, immunoblot analysis was performed to examine SpltMNPV VP39 expression. Fluorescence and light microscopy were used to monitor viral replication and infection. Viral growth curve analysis was performed using a fifty percent tissue culture infective dose (TCID50) endpoint dilution assay. Viral morphogenesis was detected using an electron microscope.ResultsSequence alignment indicated that the N-termini of AcMNPV VP39 and SpltMNPV VP39 are relatively conserved, whereas the C-terminus of SpltMNPV VP39 lacks the domain of amino acid residues 306–334 homologous to AcMNPV VP39. Immunoblot analysis showed that SpltMNPV VP39 was expressed in vAcSpltvp39:FLAG. Fluorescence and light microscopy showed that vAcSpltvp39:FLAG did not spread by infection. Viral growth curve analysis confirmed a defect in infectious budded virion production. Electron microscopy revealed that although masses of abnormally elongated empty capsid structures existed inside the nuclei of Sf9 cells transfected with vAcSpltvp39:FLAG, no nucleocapsids were observed.ConclusionAltogether, our results demonstrated that VP39 from SpltMNPV cannot efficiently substitute AcMNPV VP39 during nucleocapsid assembly in AcMNPV.
Highlights
Baculoviridae is a family of enveloped, rod-shaped, large, circular, double-stranded DNA viruses [1]
Viral DNA is synthesized in the virogenic stroma (VS) and packaged into capsids to form nucleocapsids, and capsid assembly seems to be independent of viral DNA packaging [5]
CmPF/Acvp39PR2 produced no PCR product in Autographa californica multiple nucleopolyhedrovirus (AcMNPV) bacmid bMON14272, but 1038, 1738, and 1438bp fragments were amplified in bAcvp39KO, respectively. These results demonstrated that the chloramphenicol resistance (Cm) gene successfully replaced the target deletion region of vp39
Summary
Baculoviridae is a family of enveloped, rod-shaped, large, circular, double-stranded DNA viruses [1] These viruses are composed of four genera: Alphabaculovirus, Betabaculovirus, Gammabaculovirus, and Deltabaculovirus [2]. The main difference between BVs and ODVs is the composition and origin of their envelopes, whereas their nucleocapsid structures appear to be similar and are composed of a nucleoprotein core and a cylindrical capsid sheath. The nucleocapsid composition and structure of Group I and II NPVs of the Alphabaculovirus genus are very similar. It is not clear whether the major capsid structure protein VP39 of Group I NPVs is functionally identical to or substitutable with the Group II NPV VP39. The function of Group II Spodoptera litura MNPV (SpltMNPV) VP39 in Group I AcMNPV was characterized
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