Developments in the classification and nomenclature of arthropod-infecting large DNA viruses that contain pif genes.

Viruses of four families of arthropod-specific, large dsDNA viruses (the nuclear arthropod large DNA viruses, or NALDVs) possess homologs of genes encoding conserved components involved in the baculovirus primary infection mechanism. The presence of such homologs encoding per os infectivity factors (pif genes), along with their absence from other viruses and the occurrence of other shared characteristics, suggests a common origin for the viruses of these families. Therefore, the class Naldaviricetes was recently established, accommodating these four families.

Transcriptional Reprogramming of Autographa Californica Multiple Nucleopolyhedrovirus Chitinase and Cathepsin Genes Enhances Virulence.

The baculoviral chitinase (CHIA) and cathepsin (V-CATH) enzymes promote terminal insect host liquefaction, which aids viral progeny dissemination. Recombinant Autographa californica nucleopolyhedrovirus (AcMNPV)-derived viruses were previously generated with reprogrammed transcription by replacing the native promoter with the AcMNPV () or core protein () promoter sequences, but of both these -reprogrammed viruses lacked transcription and V-CATH enzymatic activity. Here, we report that dual / promoter reprogramming of the adjacent genes resulted in modulated temporal transcription of both genes without impacting infectious budded virus production.

Characterization of a fowl adenovirus 9 (FAdV-9) early promoter and its application in generating dual expression FAdV-9s.

The CMV immediate early promoter from the EGFP expression plasmid pEGFP-N1 was replaced with the very left end of the fowl adenovirus 9 (FAdV-9) genome (ntds 73-574) to demonstrate and delineate the promoter function of this sequence. Expression of an EGFP ORF which replaced ORF1 and ORF2 demonstrated that the native promoter can drive down stream foreign gene expression. Replacement of ORF1 and ORF2 with a bicistronic cassette, incorporating a 493 bp IRES from an Ontario strain of avian encephalomyelitis virus (AEV) separating an EGFP ORF and mCherry ORF allowed for expression of both ORFs from a recombinant FAdV.

Mature viral cathepsin is required for release of viral occlusion bodies from Autographa californica multiple nucleopolyhedrovirus-infected cells.

Baculovirus-infected larvae release progeny viral occlusion bodies (OBs) to enable cyclical virus transmission to new hosts. The alphabaculovirus chitinase and cathepsin enzymes cause terminal liquefaction of host insect cadavers, aiding OB dispersal. The mechanism of cell lysis required to release the OBs is unclear but here we show Autographa californica multiple nucleopolyhedrovirus cathepsin protease activity is required for efficient release of the host tissue-degrading chitinase and cathepsin enzymes and critical for release of progeny OBs from virus-infected cells.