Identification of the core sequence elements in Penaeus stylirostris densovirus promoters.

In silico analysis of three Penaeus stylirostris densovirus (PstDNV) promoters, designated P2, P11, and P61, revealed sequence motifs including the TATA box, downstream promoter element (DPE), GC- and A-rich regions, inverted repeat, activation sequence-1 like (ASL) box, and a conserved guanosine (G) at +24. To delineate the regulatory role of these motifs on promoter activity, deletion constructs were made in a promoter assay vector, pGL3 Basic, that contains a luciferase reporter gene. Luciferase assay showed that P2 had the highest promoter activity followed by P11 and P61 in Sf9 cells. The deletions of inverted repeat, DPE, and GC-rich regions in P2 had the highest negative impact on this promoter. Deletions of DPE, G at the +24, and ASL box in P11 had the highest negative impact on this promoter activity. In P61, DPE and G at +24 are the two key regulators of transcriptional activity. Identification of the key transcriptional regulators is important in understanding the PstDNV pathogenesis in shrimp. This information is also valuable in constructing shrimp viral promoter-based vectors for protein expression in insect cell culture system as well as in shrimp.

Multiplication of Taura syndrome virus in primary hemocyte culture of shrimp (Penaeus vannamei).

The propagation of Taura syndrome virus (TSV) in primary hemocyte culture of Pacific white shrimp (Penaeus vannamei) was investigated. Purified TSV was inoculated into a 24 h old primary hemocyte culture and the development of cytopathic effects was monitored. The cell morphology started changing within 6 h post-inoculation; TSV-infected hemocytes started shrinking and granular structures began to form on the cell surface. There was a gradual loss of cell viability and, by 48 h post-inoculation, most cells detached from the bottom of the 96 well microplate. The propagation of TSV during the 48 h time course studied was measured by real-time RT-PCR. TSV copy number reached the highest level by 12 h post-inoculation and then started to decrease. Using an anti-TSV polyclonal antibody, the 55 kDa VP1 capsid protein was detected by Western blot analysis. The data suggest that shrimp primary hemocyte culture supports TSV replication and could be used as a tool for the study of host-virus interactions in TSV pathogenesis.