Efficacy of White Spot Syndrome Virus Protein VP28-Expressing Chlorella vulgaris as an Oral Vaccine for Shrimp.

The white spot syndrome virus (WSSV) is the causative agent of white spot disease, which kills shrimp within a few days of infection. Although WSSV has a mortality rate of almost 100% and poses a serious threat to the shrimp farming industry, strategies for its prevention and treatment are extremely limited. In this study, we examined the efficacy of VP28, a recombinant WSSV protein expressed in Chlorella vulgaris (C. vulgaris), as an oral shrimp vaccine. When compared with the control group, in which WSSV had a cumulative mortality of 100%, shrimp treated with 5% VP28-expressing C. vulgaris in their feed only had a 20% cumulative mortality rate 12 days after the WSSV challenge. When compared with the nonvaccinated group, the transcription of anti-lipopolysaccharide factor, C-type lectin, and prophenoloxidase genes, which are involved in shrimp defense against WSSV infection, was upregulated 29.6 fold, 15.4 fold, and 11.5 fold, respectively. These findings highlight C. vulgaris as a potential host for industrial shrimp vaccine production.

Effect of CXCL12-expressing viral hemorrhagic septicemia virus replicon particles on leukocytes migration and vaccine efficacy in olive flounder (Paralichthys olivaceus).

Viral replicon particles are single-cycle viruses defective for function(s) needed for viral replication, which allow them to be recognized as a safer form for the vaccination of animals compared to attenuated live viruses. However, deletion of genes that are critical for the induction of protective immunity can diminish the vaccine potential of viral replicon particles. Therefore, the manipulation of viral replicon particles to produce a molecular adjuvant can be a way to increase immunogenicity of vaccines based on viral replicon particles. Chemokines are a class of chemotactic cytokines that control the migration of diverse cells of vertebrates. CXC chemokine ligand 12 (CXCL12) binds to a receptor CXCR4, and CXCL12-CXCR4 signaling plays an important role in the migration of hematopoietic cells during embryogenesis and the attraction of leukocytes. In the present study, to evaluate the possible use of CXCL12 as a molecular adjuvant for an rVHSV-ΔG vaccine and to know differences between CXCL12a and CXCL12b in the adjuvant ability, we rescued VHSV replicon particles that are expressing olive flounder CXCL12a, CXCL12b, or eGFP (rVHSV-ΔG-CXCL12a, rVHSV-ΔG-CXCL12b, or rVHSV-ΔG-eGFP), and compared the ability to attract olive flounder leucocytes and to induce protection against a VHSV challenge. In the leukocytes migration assay, supernatants collected from cells infected with rVHSV-ΔG-CXCL12a and rVHSV-ΔG-CXCL12b showed significantly higher ability to attract olive flounder leukocytes than the supernatant of cells infected with rVHSV-ΔG-eGFP. Moreover, the significantly higher number of leukocytes were attracted to rVHSV-CXCL12a supernatant compared to rVHSV-CXCL12b supernatant, suggesting that CXCL12a would be more appropriate for the induction of immunity than CXCL12b in olive flounder. In the immunization experiment, olive flounder immunized with rVHSV-ΔG-CXCL12a showed significantly higher survival rate than fish immunized with rVHSV-ΔG-CXCL12b or rVHSV-ΔG-eGFP. In addition, fish immunized with rVHSV-ΔG-CXCL12a showed the highest serum neutralization activity. These results suggest the availability of CXCL12a for a molecular adjuvant of vaccines based on VHSV replicon particles.

The efficacy of Virkon-S for the control of saprolegniasis in common carp, Cyprinus carpio L.

BACKGROUND: Saprolegnia parasitica is a fish pathogen that causes severe economic losses worldwide. Virkon-S is a well-known disinfectant known to exhibit antimicrobial activities against bacteria, viruses, and fungi. In this study, we tested the anti-fungal activity of Virkon-S against S. parasitica, the major causal agent of saprolegniasis. METHODS: The lowest concentration of Virkon-S that prevented germination or the visible growth of spores and the percent spore germination were determined using potato dextrose agar plates containing different concentrations of Virkon-S. The cytotoxic effect was evaluated using the Ez-Cytox Cell Viability Assay with epithelioma papulosum cyprini (EPC) cells grown in L-15 medium and acute toxicity tests were carried out with cultured fingerlings of common carp for 96 h. Artificial infection with S. parasitica was performed by placing the fish in tanks containing zoospores of S. parasitica after descaling and wounding at three positions. The diseased fish were kept in tanks containing 2, 4, and 10 ppm of Virkon-S for 10 days to observe the treatment effect. RESULTS: The in vitro assay results showed that Virkon-S could inhibit spore germination and the resulting mycelial growth at a concentration as low as 4 ppm. No cytotoxic effect on EPC cells was observed even at a concentration as high as 100 ppm. Additionally, no acute toxicity in the common carp was observed at 10 ppm following 96 h exposure. Ten days of treatment with 4 and 10 ppm Virkon-S resulted in complete reversal of artificially-induced saprolegniasis in the common carp. DISCUSSION: This data indicates that Virkon-S can be used for the control of saprolegniasis without harmful effects in fish. However, further research on the effect in humans and food supplies is necessary.

Fusion of flagellin 2 with bivalent white spot syndrome virus vaccine increases survival in freshwater shrimp.

Despite large economic losses attributable to white spot syndrome virus (WSSV), an infectious pathogen of penaeid shrimp and other crustaceans worldwide, no efficient vaccines or antiviral agents to control the virus are available at present. Here, we designed and constructed baculovirus-based vaccines delivering genes encoding the WSSV envelope proteins, VP28 and VP19. To enhance the immunogenicity of the baculovirus-based vaccine, we fused a Salmonella typhimurium flagellin 2 (FL2) gene with VP28 or VP19 gene. Both vaccine constructs elicited similar high titlers of anti-WSSV IgG after oral immunization in mice. The protective effect of oral vaccines upon WSSV challenge was observed in Macrobrachium nipponense. Bivalent vaccine displaying WSSV envelope proteins, VP19 and VP28, led to enhanced more than 10% survival protection against WSSV infection, compared to monovalent vaccine containing WSSV envelope protein, VP19 or VP28. Furthermore, a baculovirus-based WSSV vaccine fused with FL2 gene, Ac-VP28-ie1VP19FL2, efficiently protected mice against WSSV challenge (89.5% survival rate). In support of the efficacy of FL2 in our vaccine, we verified FL2 enhanced survival rate and induced the NF-κB gene in Palaemon paucidens. The collective results strongly suggest that our recombinant baculoviral system displaying WSSV envelope protein and delivering FL2-fused WSSV envelope gene effectively induced protective responses, supporting the utility of a potential new oral DNA vaccine against WSSV.

Protective efficacy of a human endogenous retrovirus envelope-coated, nonreplicable, baculovirus-based hemagglutin vaccine against pandemic influenza H1N1 2009.

Despite the advantages of DNA vaccines, overcoming their lower efficacy relative to that of conventional vaccines remains a challenge. Here, we constructed a human endogenous retrovirus (HERV) envelope-coated, nonreplicable, baculovirus-based HA vaccine against swine influenza A/California/04/2009(H1N1) hemagglutin (HA) (AcHERV-sH1N1-HA) as an alternative to conventional vaccines and evaluated its efficacy in two strains of mice, BALB/c and C57BL/6. A commercially available, killed virus vaccine was used as a positive control. Mice were intramuscularly administered AcHERV-sH1N1-HA or the commercial vaccine and subsequently given two booster injections. Compared with the commercial vaccine, AcHERV-sH1N1-HA induced significantly higher levels of cellular immune responses in both BALB/c and C57BL/6 mice. Unlike cellular immune responses, humoral immune responses depended on the strain of mice. Following immunization with AcHERV-sH1N1-HA, C57BL/6 mice showed HA-specific IgG titers 10- to 100-fold lower than those of BALB/c mice. In line with the different levels of humoral immune responses, the survival of immunized mice after intranasal challenge with sH1N1 virus (A/California/04/2009) depended on the strain. After challenge with 10-times the median lethal dose (MLD50) of sH1N1 virus, 100% of BALB/c mice immunized with the commercial vaccine or AcHERV-sH1N1-HA survived. In contrast, C57BL/6 mice immunized with AcHERV-sH1N1-HA or the commercial vaccine showed 60% and 70% survival respectively, after challenge with sH1N1 virus. In all mice, virus titers and results of histological analyses of lung tissues were consistent with the survival data. Our results indicate the importance of humoral immune response as a major defense system against influenza viral infection. Moreover, the complete survival of BALB/c mice immunized with AcHERV-sH1N1-HA after challenge with sH1N1 virus suggests the potential of baculoviral vector-based vaccines to achieve an efficacy comparable to that of killed virus vaccines.

Development of two quantitative real-time PCR diagnostic kits for HPV isolates from Korea.

Viral pathogens, alongside other pathogens, have major effects on crustacean aquaculture. Hepatopancreatic parvovirus (HPV) is an emerging virus in the shrimp industry and has been detected in shrimp farms worldwide. The HPV genome has greater diversity than other shrimp viruses owing to its wide host range and geographical distribution. Therefore, developing diagnostic tools is essential to detect even small copy numbers from the target region of native HPV isolates. We have developed two easy to use quantitative real-time PCR kits, called Green Star and Dual Star, which contain all of the necessary components for real-time PCR, including HPV primers, using the primers obtained from the sequences of HPV isolates from Korea, and analyzed their specificity, efficiency, and reproducibility. These two kits could detect from 1 to 1 × 10(9) copies of cloned HPV DNA. The minimum detection limits obtained from HPV-infected shrimp were 7.74 × 10(1) and 9.06 × 10(1) copies in the Green Star and Dual Star assay kits, respectively. These kits can be used for rapid, sensitive, and efficient screening for HPV isolates from Korea before the introduction of postlarval stages into culture ponds, thereby decreasing the incidence of early development of the disease.

Complete nucleotide sequence analysis of a Korean strain of hepatopancreatic parvovirus (HPV) from Fenneropenaeus chinensis.

Hepatopancreatic parvovirus (HPV) of shrimp is distributed worldwide and the entire genome of Thailand and Indian strains (PmDNV) and one Australian strain (PmergDNV) have now been reported. The complete nucleotide sequence of a HPV strain isolated from the fleshy prawn Fenneropenaeus chinensis in Korea (FcDNV) was determined and compared to previously reported sequences. The entire genome of FcDNV contains 6,336 nucleotides, with 40% G+C content, which is the biggest of the known HPV strains. The HPV genome has three open reading frames (ORFs) with a slight overlap between the first and second ORFs. The three ORFs encode the NS2 and NS1 proteins and VP that consist of 425, 578, and 820 amino acids, respectively. Among the three proteins, the NS1 protein shows the highest sequence similarity to the NS1 protein of other known HPV strains, followed by the NS2 protein and the VP protein. Phylogenetic analyses showed that HPV can be grouped into three genotypes, as previously reported, and FcDNV can be grouped as genotype I, with HPV strains isolated in Madagascar and Tanzania. The nucleotide sequences of the noncoding regions at the 5'- and 3'-ends of the plus-strand genome showed a Y-shaped hairpin structure and simple hairpin structure, respectively.

A TaqMan real-time PCR assay for quantifying type III hepatopancreatic parvovirus infections in wild broodstocks and hatchery-reared postlarvae of Fenneropenaeus chinensis in Korea.

A highly sensitive and specific TaqMan real-time PCR was used to quantify hepatopancreatic parvovirus (HPV) type III infections in wild broodstocks and hatchery-reared postlarvae (PL) of Fenneropenaeus chinensis. Totals of 159 and 162 wild brooders from three locations were captured, and 140 and 180 PL were obtained from seven and six commercial hatcheries in 2007 and 2008, respectively. Among the three wild broodstock groups from 2007, only 1 group showed HPV infection and 3.2% of 159 brooders were positive for HPV infection. In 2008, HPV infections were observed from all three wild broodstock groups with 1.93×10(4) copies/mg tissue of pleopods. Of 162 brooders, 26.6% were positive for HPV infection. No PL from the two hatcheries collected in 2007 showed HPV infection, and PL from the rest of the five hatcheries had up to 1.74×10(6) copies/ng of DNA, and PL from three hatcheries showed HPV infections with over 1,000 copies/ng of DNA. The PL from all seven hatcheries collected in 2008 showed up to 2.10×10(5) HPV copies/ng of DNA. PL from two hatcheries showed less than 100 copies/ng of DNA, but PL from the rest of the hatcheries showed HPV infections with over 1,000 copies/ng of DNA. These results show that HPV type III is widely distributed in Korea in addition to previously reported HPV type I, and they can be effectively detected by type-specific realtime PCR.

Sequence and expression analysis of extracellular signal-regulated kinase 1 from flounder (Paralichthys olivaceous).

Extracellular signal-regulated kinases (ERKs) are a subgroup of mitogen-activated protein kinases (MAPK) that function as important intermediates in signal transduction pathways initiated by several types of cell surface receptors. We cloned a transcript of ERK1 from a cDNA library of flounder leukocytes stimulated with bacterial lipopolysaccharide and hemagglutinin lectin. Flounder ERK1 consists of 1502 nucleotides and encodes a polypeptide of 393 amino acids. Flounder ERK1 showed 90 and 89% amino acid sequence identity to ERK1 of carp and zebrafish, respectively, and over 85% to that of mammals. Multiple bands were detected by Southern blot analysis of flounder genomic DNA after digestion with various restriction enzymes, implying the presence of additional MAPK genes in flounder. Real-time PCR revealed the ubiquitous expression of flounder MAPK in all tissues with high levels of transcription in brain, gill, and fin, but not in muscle or skin. Flounder MAPK was successfully expressed in mammalian COS1 cells and phosphorylated myelin basic protein (MBP) substrate when the cells were stimulated with PMA or EGF, indicating that flounder MAPK is functional in animal cells.

Identification of two differentially expressed forms of progranulin mRNA in the teleost fish Paralichthys olivaceus.

Two forms of progranulin mRNA were isolated from kidney and spleen cDNA libraries of the olive flounder, Paralichthys olivaceus. The 3'-untranslated regions (3'-UTRs) of these flounder progranulin (f-pgrn) mRNAs differed in a 20-nucleotide sequence element (5'-AACTGATTACGTTCAACAAC-3') that was present in one mRNA (designated f-pgrn type II) and not in the other (designated f-pgrn type I). Both mRNA sequences contained an open reading frame encoding a 289-amino-acid polypeptide of approximately 33 kDa. Southern blot analysis of the P. olivaceus flounder genome using an f-pgrn cDNA probe and a PCR-based approach identified a single copy of f-pgrn corresponding to the type II mRNA. The expression profiles of the two types of f-pgrn mRNA differed from each other and were tissue- and condition-dependent. The type II mRNA was detected abundantly in studied tissues (gill, kidney, spleen, and intestine) of non-stimulated healthy flounders. The type I mRNA was rarely expressed in any tissues of healthy flounders, but it was continuously increased in the examined tissues of flounders after the intraperitoneal injection of lipopolysaccharide. On the other hand, the expression of type II mRNA was decreased in inverse proportion to the type I mRNA in the LSP-stimulated flounders. These results suggest that type I and type II f-pgrn mRNA are translated into different proteins with different activities in the immune system of flounder.

Molecular cloning of Kazal-type proteinase inhibitor of the shrimp Fenneropenaeus chinensis.

Proteinase inhibitors play important roles in host defence systems involving blood coagulation and pathogen digestion. We isolated and characterized a cDNA clone for a Kazal-type proteinase inhibitor (KPI) from a hemocyte cDNA library of the oriental white shrimp Fenneropenaeus chinensis. The KPI gene consists of three exons and two introns. KPI cDNA contains an open reading frame of 396 bp, a polyadenylation signal sequence AATAAA, and a poly (A) tail. KPI cDNA encodes a polypeptide of 131 amino acids with a putative signal peptide of 21 amino acids. The deduced amino acid sequence of KPI contains two homologous Kazal domains, each with six conserved cysteine residues. The mRNA of KPI is expressed in the hemocytes of healthy shrimp, and the higher expression of KPI transcript is observed in shrimp infected with the white spot syndrome virus (WSSV), suggesting a potential role for KPI in host defence mechanisms.

Identification and characterization of the prepro-vasoactive intestinal peptide gene from the teleost Paralichthys olivaceus.

The gene encoding the prepro form of a vasoactive intestinal peptide (VIP) was cloned, and its structural organization and expression profiles were determined in the teleost Paralichthys olivaceus. The prepro-VIP encodes both a VIP and a peptide-histidine-isoleucine (PHI). The VIP gene comprises six exons with two distinct peptides encoded on separate exons, i.e., PHI on exon III and VIP on exon IV. Several elements involved in cytokine-mediated activation are highly conserved in an 806-bp segment of the 5'-flanking region: cAMP responsive elements (CREs), binding sites for nuclear factor IL-6 (NF-IL-6), activating protein-1 (AP-1), stimulating protein-1 (Sp-1), two IL-6 responsive element binding proteins (IL-6 RE-BPs), and signal transducers and activators of transcription (STAT). The mRNA transcripts in normally conditioned fish are expressed in the brain, intestine, stomach, pyloric ceca, spleen, and heart, but not in the muscle, liver, head or trunk kidneys, and gill. However, prepro-VIP mRNA expression in the spleen and head kidney is significantly up- and down-regulated when exposed to an artificial bacterial challenge by Edwardsiella tarda. These results suggest that the typical features of neuropeptide VIPs are evolutionarily conserved from non-mammalian vertebrates to mammals and that the flounder VIP plays an important role in the immune system, especially inflammatory processes.

Molecular cloning and expression analysis of the STAT1 gene from olive flounder, Paralichthys olivaceus.

BACKGROUND: Signal transducer and activator of transcription 1 (STAT1) is a critical component of interferon (IFN)-alpha/beta and IFN-gamma signaling. Although seven isoforms of STAT proteins have been reported from mammals, limited information is available for the STAT genes in fish. We isolated complementary DNA with high similarity to mammalian STAT1 from the olive flounder, Paralichthys olivaceus. RESULTS: A DNA fragment containing the conserved SH2 domain was amplified by RT-PCR using degenerate primers designed based on the highly conserved sequences in the SH2 domains of the zebrafish and mammalian STAT1. The complete cDNA sequence was obtained by 5' and 3' RACE. The flounder STAT1 transcript consisted of 2,909 bp that encoded a polypeptide of 749 amino acids. The overall similarity between flounder STAT1 and other STATs was very high, with the highest amino acid sequence identity to snakehead (89%). Phylogenetic analyses reveal that flounder STAT1 is in the same monophyletic group with snakehead STAT1. Quantitative real time RT-PCR and in situ hybridization revealed that STAT1 was expressed in almost all examined organs and tissues, with high expression in gill, spleen, kidney, and heart. The accumulation of STAT1 mRNA in different developmental stages, as determined by real time RT-PCR, increased with development. CONCLUSION: Recent cloning of various cytokine genes and the STAT1 gene of olive flounder here suggest that fish also use the highly specialized JAK-STAT pathway for cytokine signaling. Identification of other STAT genes will elucidate in detail the signal transduction system in this fish.

Cloning, characterization and expression analysis of the gene for a putative lipopolysaccharide-induced TNF-alpha factor of the Pacific oyster, Crassostrea gigas.

Lipopolysaccharide-induced TNF-alpha factor (LITAF) is an important transcription factor that mediates the expression of inflammatory cytokines, including TNF-alpha, in lipopolysaccharide (LPS)-induced processes. In the present study, the Pacific oyster Crassostrea gigas LITAF (Cg-LITAF) gene was cloned and characterized. The full-length Cg-LITAF cDNA consists of 906bp and encodes a polypeptide of 115 amino acids. The Cg-LITAF gene consists of three exons and two introns, with a length of approximately 1.8kb. The Cg-LITAF protein showed 34-45% amino acid sequence identity with other known LITAF sequences. Although the Cg-LITAF coding sequence (115 aa) is shorter than all previously reported LITAF genes, the LITAF domain which contains two CXXC motifs is well conserved. An in vivo expression study showed that Cg-LITAF mRNA was expressed predominantly in gills and moderately in digestive gland and labial palps of healthy oysters. The accumulation of Cg-LITAF mRNA in oyster haemocytes determined by real-time PCR showed the peak 12h after bacterial challenge. This expression pattern suggests that Cg-LITAF is a potent factor in the regulation of genes that are involved in innate defence mechanisms.

Molecular cloning and characterization of the DNA adenine methyltransferase gene in Feldmannia sp. virus.

The genome of Feldmannia sp. virus (FsV), a marine brown alga virus, contains a putative DNA adenine methyltransferase (dam) gene of 1,245 bp that encodes a polypeptide of 45.8 kDa. A BLAST search with the FsV dam gene showed high amino acid identity to two putative methyltransferase genes, ORF B29 of Feldmannia irregularis virus (FirrV, 54%) and ORF129 of Ectocarpus siliculosus virus (EsV, 36%); and a PSI BLAST search revealed similarity to the N(6)-adenine methyltransferases (MTases) of other species. Most conserved motifs of beta-class MTases were observed in the FsV dam gene. However, neither of the highly conserved sequences in motifs I (FxGxG) or IV [(S/N/D)PP(Y/F/W)] perfectly matched those in the FsV dam gene. The highly conserved DPPY consensus sequence in motif IV was NTPW in the FsV dam gene, perfectly matching the sequences in ORF B29 of FirrV and ORF129 of EsV. Therefore, the dam genes in brown algae viruses may belong to a yet undiscovered group. The FsV Dam protein expressed from the cloned FsV dam gene methylated E. coli chromosomal DNA. This is the first report showing that a virus infecting marine filamentous brown algae encodes a functional Dam protein.

Cloning and sequence analysis of the beta2-microglobulin transcript from flounder, Paralichthys olivaceous.

Beta2-microglobulin (beta2M) is a protein found free-form in the serum or on the cell surface non-covalently associated with the alpha-chain of the class I major histocompatibility (MHC-I) complex. The full-length cDNA containing beta2M was cloned from flounder, Paralichthys olivaceous. The transcript consists of 1610 nucleotides (nts), including an open reading frame (ORF) of 384 nts encoding a polypeptide of 128 amino acids. The amino acid sequence of beta2M in flounder is 59, 57, 56, and 48% conserved in catfish, rainbow trout, zebrafish, and humans, respectively. Genomic Southern hybridization suggested the presence of a single copy of beta2M in the flounder genome, and reverse transcription-polymerase chain reaction (RT-PCR) and Northern blot analysis detected the beta2M transcript in the head kidney, spleen, body kidney, liver, and muscle tissues of the flounder. PCR amplification and sequence analysis revealed the lack of an intron in the beta2M gene. The phylogenetic analysis confirmed the evolutionary diversion of the beta2M protein among warm-blooded vertebrates and fish, and the separation between freshwater and seawater fish.

Chlorella virus Marburg topoisomerase II: high DNA cleavage activity as a characteristic of Chlorella virus type II enzymes.

Although the formation of a covalent enzyme-cleaved DNA complex is a prerequisite for the essential functions of topoisomerase II, this reaction intermediate has the potential to destabilize the genome. Consequently, all known eukaryotic type II enzymes maintain this complex at a low steady-state level. Recently, however, a novel topoisomerase II was discovered in Paramecium bursaria chlorella virus-1 (PBCV-1) that has an exceptionally high DNA cleavage activity [Fortune et al. (2001) J. Biol. Chem. 276, 24401-24408]. If robust DNA cleavage is critical to the physiological functions of chlorella virus topoisomerase II, then this remarkable characteristic should be conserved throughout the viral family. Therefore, topoisomerase II from Chlorella virus Marburg-1 (CVM-1), a distant family member, was expressed in yeast, isolated, and characterized. CVM-1 topoisomerase II is 1058 amino acids in length, making it the smallest known type II enzyme. The viral topoisomerase II displayed a high DNA strand passage activity and a DNA cleavage activity that was approximately 50-fold greater than that of human topoisomerase IIalpha. High DNA cleavage appeared to result from a greater rate of scission rather than promiscuous DNA site utilization, inordinately tight DNA binding, or diminished religation rates. Despite the fact that CVM-1 and PBCV-1 topoisomerase II share approximately 67% amino acid sequence identity, the two enzymes displayed clear differences in their DNA cleavage specificity/site utilization. These findings suggest that robust DNA cleavage is intrinsic to the viral enzyme and imply that chlorella virus topoisomerase II plays a physiological role beyond the control of DNA topology.

Complete nucleotide sequence of the hirame rhabdovirus, a pathogen of marine fish.

Reverse transcription-polymerase chain reaction (RT-PCR) derived clones were constructed for the hirame rhabdovirus (HIRRV) CA-9703 strain from Korea, and the DNA was sequenced. The 3'-end of genomic RNA was cloned by poly(A)-tailing of the genomic RNA before reverse transcription, and the 5'-end of the genome was cloned by poly(G)- or poly(C)-tailing of the first strand, followed by PCR. The remainder of the genomic DNA was cloned by reverse transcription-polymerase chain reaction using primers that were based on the published rhabdovirus sequences. The complete genome of HIRRV CA-9703 strain comprises 11,034 nucleotides and encodes six genes in the order of: 3'-leader, N, P, M, G, NV, L, and 5'-trailer. These genes are separated by conserved sequences or gene junctions, with one-nucleotide gene spacers. The first 16 of the 19 nucleotides at the ends of the HIRRV genome are complementary, and the first four nucleotides at the 3'-ends of the HIRRV, infectious hematopoietic necrosis virus (IHNV), viral hemorrhagic septicemia virus (VHSV), and snakehead rhabdovirus (SHRV) genomes are identical. The HIRRV proteins share the highest amino acid sequence homology (ranging from 72% to 92%) with the proteins of IHNV, of all the known fish rhabdoviruses, and the highest sequence homology with respect to the L protein was shared among HIRRV, IHNV, VHSV, and SHRV. Although there were differences in the degrees of relatedness, phylogenetic trees that were derived from multiple sequence alignments of the rhabdovirus proteins showed similar patterns of relationship among these viruses, in which fish Novirhabdoviruses formed a separate clade from spring viremia of carp virus (SVCV), unassigned fish rhabdovirus that was closer to mammalian rhabdoviruses.

Cloning and sequence analysis of cDNA for the proteasome activator PA28-beta subunit of flounder (Paralichthys olivaceus).

Proteasome is a large multisubunit complex involved in intracellular proteolysis in antigen processing for loading MHC class I molecules. Two activators PA28-alpha and PA28-beta, which are induced by interferon-gamma (IFN-gamma), activate this latent enzyme complex. Genes encoding these activators, PSME1 and PSME2, respectively, have been characterized from various mammalian but only from zebrafish among piscine. We have cloned a PSME2 gene homologue from a leukocyte cDNA library of flounder, a marine fish. The flounder PSME2 gene (fPSME2) encompasses 1063 nucleotides and encodes a polypeptide of 242 amino acids (aa), with a deduced molecular weight of 27.2 kDa. The deduced protein has 82% sequence similarity to that of zebrafish and 73-74% sequence similarity to that of various mammalians and shows higher level sequence homology in the C-terminal region. There was a PA28-beta protein subunit-specific insert located at the corresponding to the KEKE motif of PA28-alpha protein. A phylogenetic tree derived using deduced amino acid sequences showed a diversion of piscine PSME2 from mammalian counterpart after diversion of PSME1 and PSME2 from a common ancestral gene. Northern blot analysis revealed a higher level expression of fPSME2 gene in kidney, spleen and muscle tissues of bacterial lipopolysaccharide (LPS) stimulated flounder than those from non-induced flounder.