Abstract
BackgroundIn herpesviruses, UL15 homologue is a subunit of terminase complex responsible for cleavage and packaging of the viral genome into pre-assembled capsids. However, for duck enteritis virus (DEV), the causative agent of duck viral enteritis (DVE), the genomic sequence was not completely determined until most recently. There is limited information of this putative spliced gene and its encoding protein.ResultsDEV UL15 consists of two exons with a 3.5 kilobases (kb) inron and transcribes into two transcripts: the full-length UL15 and an N-terminally truncated UL15.5. The 2.9 kb UL15 transcript encodes a protein of 739 amino acids with an approximate molecular mass of 82 kiloDaltons (kDa), whereas the UL15.5 transcript is 1.3 kb in length, containing a putative 888 base pairs (bp) ORF that encodes a 32 kDa product. We also demonstrated that UL15 gene belonged to the late kinetic class as its expression was sensitive to cycloheximide and phosphonoacetic acid. UL15 is highly conserved within the Herpesviridae, and contains Walker A and B motifs homologous to the catalytic subunit of the bacteriophage terminase as revealed by sequence analysis. Phylogenetic tree constructed with the amino acid sequences of 23 herpesvirus UL15 homologues suggests a close relationship of DEV to the Mardivirus genus within the Alphaherpesvirinae. Further, the UL15 and UL15.5 proteins can be detected in the infected cell lysate but not in the sucrose density gradient-purified virion when reacting with the antiserum against UL15. Within the CEF cells, the UL15 and/or UL15.5 localize(s) in the cytoplasm at 6 h post infection (h p. i.) and mainly in the nucleus at 12 h p. i. and at 24 h p. i., while accumulate(s) in the cytoplasm in the absence of any other viral protein.ConclusionsDEV UL15 is a spliced gene that encodes two products encoded by 2.9 and 1.3 kb transcripts respectively. The UL15 is expressed late during infection. The coding sequences of DEV UL15 are very similar to those of alphaherpesviruses and most similar to the genus Mardivirus. The UL15 and/or UL15.5 accumulate(s) in the cytoplasm during early times post-infection and then are translocated to the nucleus at late times.
Highlights
In herpesviruses, UL15 homologue is a subunit of terminase complex responsible for cleavage and packaging of the viral genome into pre-assembled capsids
Duck enteritis virus (DEV), known as Anatid herpesvirus-1 (AHV-1), is an important pathogen of birds of the order Anseriformes, including ducks, geese and swans, causing the acute contagious disease duck viral enteritis (DVE) or duck plague (DP), which results in substantial mortality and reduction of egg production in domestic as well as in wild waterfowl [1,2]
UL15 is a spliced gene with two transcripts Nucleotide sequence of the putative duck enteritis virus (DEV) UL15 gene was determined, annotated and deposited in GenBank previously by our laboratory
Summary
UL15 homologue is a subunit of terminase complex responsible for cleavage and packaging of the viral genome into pre-assembled capsids. For duck enteritis virus (DEV), the causative agent of duck viral enteritis (DVE), the genomic sequence was not completely determined until most recently. Evidence from recent phylogenetic analysis of the nucleotide sequence or the predicted amino acid sequence suggests that DEV was closely related to the genus Mardivirus or Varicellovirus and might represent a single cluster within the subfamily Alphaherpesvirinae [4,5,6,7,8]. The genomic sequence of DEV was determined and analyzed recently and the presence of more than 78 different open reading frames (ORFs) was predicted [8]. A terminase-related, protein-encoding gene homologous to HSV UL15 was predicted based on the homology analysis of theses ORFs and those of their homologous counterparts from other herpesviruses. The amino acid sequence of UL15 shares homology with the large subunit of the terminase complex of bacteriophage T4, with respect to the two nucleotide-binding motifs of the ATP-binding domain known as Walker A and Walker B domains [16,17], which suggests UL15 is ATP binding as demonstrated for gp and other phage terminases [18]
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