The cultivation of exotic Penaeus vannamei in Thailand began on a very limited scale in the late 1990s, but a Thai government ban on the cultivation of P. monodon in freshwater areas in 2000 led many Thai shrimp farmers to shift to cultivation of P. vannamei. Alarmed by the possibility of Taura syndrome virus (TSV) introduction, the Thai Department of Fisheries required that imported stocks of P. vannamei be certified free of TSV by RT-PCR (Reverse Trasciption Polymerase Chain Reaction) testing. During the interval of allowed importation, over 150 000 broodstock shrimp were imported, 67% of these from China and Taiwan. Despite the safeguards, TSV outbreaks occurred and we confirmed the first outbreak by RT-PCR in early 2003. This resulted in a governmental ban on all shrimp broodstock imports from February 2003, but TSV outbreaks have continued, possibly due to original introductions or to the continued illegal importation of stocks. To determine the origin of the TSV in Thailand, the viral coat protein gene VP1 was amplified by RT-PCR from several shrimp specimens found positive for TSV by RT-PCR from January to November 2003. These included 7 samples from P. vannamei disease outbreaks in Thailand, 3 other non-diseased shrimp samples from Thailand and Burma and 6 samples including P. vannamei and P. japonicus from China. Comparison revealed that the Thai, Burmese and Chinese TSV types formed a clade distinct from a clade of TSV types from the Americas.
RT-PCR using a commercial kit for yellow head virus (YHV) detection in growth-retarded shrimp yielded an unusual 777 bp amplicon instead of expected amplicons of 277 bp for YHV type-1 (YHV-1) or 406 bp for YHV type-2 (YHV-2). Cloning and sequencing (GenBank EU170438) revealed approximately 80% identity to non-structural (NS) ORF1b sequences of both YHV-1 (GenBank AA083987) and YHV-2 (GenBank AF227196), indicating an atypical YHV type (A-YHV) phylogenetically equidistant from both types. An RT-PCR test specifically designed for A-YHV revealed that it was uncommon and that its occurrence in shrimp culture ponds did not correlate with growth retardation or mortality. By immunohistochemistry with YHV-specific monoclonal antibodies, the A-YHV gave positive reactions for envelope protein gp64 and capsid protein p20, but not for envelope protein gp116, even though gp116 and gp64 originate from a polyprotein of ORF3. Lack of gp116 immunoreactivity correlated with a large ORF3 deletion (GenBank EU123854) in the region of the protein targeted by an MAb against gp116. Transmission electron microscopy of A-YHV-infected shrimp revealed only unenveloped pre-virions. During manuscript revision, information received revealed that typing of YHV isolates based on sequences of ORF1b and ORF3 had yielded several geographical types, including one virulent type (YHV-1b) with an ORF3 deletion sequence that matched the sequence of A-YHV. Using these sequences and an additional A-YHV sequence (EU853170) from the ORF1b typing region, A-YHV potentially represents a recombinant between type 1b and type 5. SDS-PAGE and Western blot analysis revealed that type 1b produced a gp116 deletion protein that did not bind with the MAb or polyclonal Ab to normal gp116. Overall, the information suggested that lack of A-YHV virulence was associated with the NS gene sequence linked to ORF1b rather than the deletion in ORF3.
Monodon baculovirus (MBV) is a member of the nucleopolyhedrosis virus (NPV) group that produces polyhedral protein occlusion bodies that contain virions in epithelial cells of the hepatopancreas of the peinaeid shrimp Penaeus monodon. The major constituent protein of occlusion bodies is polyhedrin. Polyhedrin protein of MBV was extracted from the infected hepatopancreas of P. monodon post larvae by hydroforce and partially purified using Urografin gradient ultracentrifugation. A fraction at 50% Urografin was examined by electron microscopy and shown to be dominated by polyhedrin protein particles of 20-23 nm diameter. By SDS-PAGE, this fraction yielded a single protein band at a molecular weight of 58 kDa corresponding to the published size of MBV polyhedrin. This fraction was used to produce 17 monoclonal antibodies (MAb) that were specific to MBV and without cross-reactivity to other common shrimp viruses (i.e, hepatopancreatic parvovirus or HPV, yellow head virus or YHV and white spot syndrome virus or WSSV) by immunohistochemistry. These antibodies could be used to detect purified-polyhedrin with high sensitivity up to 0.2 µg/ml by dot blot immunoassay. These MAb are candidates for sensitive MBV immunodetection methods.
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