Mortality from scale drop disease in farmed Lates calcarifer in Southeast Asia     

Saengchan Senapin  Ha Thanh Dong  Watcharachai Meemetta  Warachin Gangnonngiw  Pakakul Sangsuriya  Rapeepun Vanichviriyakit  Molruedee Sonthi  Bunlung Nuangsaeng 《Journal of fish diseases》2019,42(1):119-127

In Southeast Asia, a new disease called scale drop disease (SDD) caused by a novel Megalocytivirus (SDDV) has emerged in farmed Asian sea bass (Lates calcarifer) in Singapore, Malaysia and Indonesia. We received samples from an Eastern Thai province that also showed gross signs of SDD (loss of scales). Clinical samples of 0.2–1.1 kg L. calcarifer collected between 2016 and 2018 were examined for evidence of SDDV infection. Histopathology was similar to that in the first report of SDDV from Singapore including necrosis, inflammation and nuclear pyknosis and karyorrhexis in the multiple organs. Intracytoplasmic inclusion bodies were also observed in the muscle tissue. In a density‐gradient fraction from muscle extracts, TEM revealed enveloped, hexagonal megalocytiviral‐like particles (~100–180 nm). By PCR using primers derived from the Singaporean SDDV genome sequence, four different genes were amplified and sequenced from the Thai isolate revealing 98.7%–99.9% identity between the two isolates. Since viral inclusions were rarely observed, clinical signs and histopathology could not be used to easily distinguish between SDD caused by bacteria or SDDV. We therefore recommend that PCR screening be used to monitor broodstock, fry and grow‐out fish to estimate the current impact of SDDV in Southeast Asia and to prevent its spread.  相似文献   

Draft genome sequence of scale drop disease virus (SDDV) retrieved from metagenomic investigation of infected barramundi,Lates calcarifer (Bloch, 1790)     

Pattanapon Kayansamruaj  Chayanit Soontara  Ha T. Dong  Kornsunee Phiwsaiya  Saengchan Senapin 《Journal of fish diseases》2020,43(10):1287-1298

Scale drop disease virus (SDDV) is a novel viral pathogen considered to be distributed in farmed barramundi (Lates calcarifer) in South-East Asia. Despite the severity of the disease, only limited genomic information related to SDDV is available. In this study, samples of SDDV-infected fish collected in 2019 were used. The microbiome of brain tissue was investigated using Illumina HiSeq DNA sequencing. Taxonomic analysis showed that SDDV was the main pathogen contained in the affected barramundi. De novo metagenome assembly recovered the SDDV genome, named isolate TH2019, 131 kb in length, and comprised of 135 ORFs. Comparison between this genome and the Singaporean SDDV reference genome revealed that the nucleotide identity within the aligned region was 99.97%. Missense, frameshift, insertion and deletion mutations were identified in 26 ORFs. Deletion of four deduced amino acid sequence in ORF_030L, identical to the SDDV isolate previously identified in Thailand, would be a potential biomarker for future strain classification. Interestingly, the genome of SDDV TH2019 harboured a unique 7,695-bp-long genomic region containing six hypothetical protein-encoded genes. Collectively, this study demonstrated that the SDDV genome can be sequenced directly, although with limited coverage depth, using metagenomic analysis of barramundi sample with severe infection.  相似文献   

Cytotoxicity of Streptococcus agalactiae secretory protein on tilapia cultured cells     

Iyapa Palang  Ikuo Hirono  Saengchan Senapin  Wanna Sirimanapong  Boonsirm Withyachumnarnkul  Rapeepun Vanichviriyakit 《Journal of fish diseases》2020,43(10):1229-1236

Streptococcus agalactiae secrete virulence factors believed to be able of killing host tissues, especially under elevated water temperature. A direct effect of S. agalactiae secretory products on tilapia cells was tested on the tilapia kidney (TK-1) cell culture. The bacteria were cultured under four different temperature levels: 22, 29, 32 and 37°C; the cell-free portion was processed through SDS-PAGE; and distinct bands were identified by LC-MS/MS. At least, three virulence factors were identified, Bsp, PcsB and CAMP factor, with increasing levels as the cultured temperature rose. Expressions of bsp, pcsB and cfb were also up-regulated with the rising of the temperature in S. agalactiae culture. The supernatant from the bacteria cultured under specified temperatures was added into TK-1 cell-cultured wells. Morphological damage and mortality of the cultured cells, as determined by MTT method, were increased progressively from the supernatant treatment according to the rise of temperature in S. agalactiae culture. This study suggests that the production of the three virulence factors of S. agalactiae reported herein is temperature-dependent, and it is likely that CAMP factor directly kills the TK-1 cells since the other two types of protein are involved in S. agalactiae cell division and the bacterial adherence to host tissues.  相似文献   

Aeromonas jandaei and Aeromonas veronii caused disease and mortality in Nile tilapia,Oreochromis niloticus (L.)          下载免费PDF全文

H T Dong  C Techatanakitarnan  P Jindakittikul  A Thaiprayoon  S Taengphu  W Charoensapsri  P Khunrae  T Rattanarojpong  S Senapin 《Journal of fish diseases》2017,40(10):1395-1403

Diseases caused by motile aeromonads in freshwater fish have been generally assumed to be linked with mainly Aeromonas hydrophila while other species were probably overlooked. Here, we identified two isolates of non‐A. hydrophila recovered from Nile tilapia exhibiting disease and mortality after exposed to transport‐induced stress and subsequently confirmed their virulence in artificial infection. The bacterial isolates were identified as Aeromonas jandaei and Aeromonas veronii based on phenotypic features and homology of 16S rDNA. Experimental infection revealed that the high dose of A. jandaei (3.7 × 10⁶ CFU fish^?1) and A. veronii (8.9 × 10⁶ CFU fish^?1) killed 100% of experimental fish within 24 h, while a 10‐fold reduction dose killed 70% and 50% of fish, respectively. When the challenge dose was reduced 100‐fold, mortality of the fish exposed to A. jandaei and A. veronii decreased to 20% and 10%, respectively. The survivors from the latter dose administration were rechallenged with respective bacterial species. Lower mortality of rechallenged fish (0%–12.5%) compared to the control groups receiving a primary infection (37.5%) suggested that the survivors after primary infection were able to resist secondary infection. Fish exposed to either A. jandaei or A. veronii exhibited similar clinical signs and histological manifestation.  相似文献   

CRISPR-based platform for rapid,sensitive and field-deployable detection of scale drop disease virus in Asian sea bass (Lates calcarifer)     

Thanwarat Sukonta  Saengchan Senapin  Watcharachai Meemetta  Thawatchai Chaijarasphong 《Journal of fish diseases》2022,45(1):107-120

Scale drop disease virus (SDDV) is a major pathogen of Asian sea bass that has emerged in many countries across the Asia Pacific since 1992 and carries the potential to cause drastic economic losses to the aquaculture sector. The lack of an approved vaccine for SDDV necessitates timely prevention as the first line of defence against the disease, but current diagnostic platforms still face challenges that render them incompatible with field applications, particularly in resource-limited settings. Here, we developed a novel detection platform for SDDV based on a CRISPR-Cas12a-based nucleic acid detection technology combined with recombinase polymerase amplification (RPA-Cas12a). Using the viral adenosine triphosphatase (SDDV-ATPase) gene as a target, we achieved the detection limit of 40 copies per reaction and high specificity for SDDV. The coupling with fluorescence and lateral flow readouts enables naked-eye visualization and straightforward data interpretation requiring minimal scientific background. Compared with semi-nested PCR in field sample evaluation, our RPA-Cas12a assay is more sensitive and capable of detecting SDDV in asymptomatic fish. Importantly, the entire workflow can be carried out at a constant temperature of 37°C within an hour from start to finish, thus removing the need for an expensive thermal cycling apparatus and long turnaround times associated with PCR-based methods. Therefore, owing to its high accuracy, rapidity and user-friendliness, the developed RPA-Cas12a platform shows the potential for diagnosis of SDDV at point of need and could be a valuable tool to help protect fish farming communities from large-scale epidemics.  相似文献   

Molecular isolation and characterization of a haemocyanin of Macrobrachium rosenbergii reveal its antibacterial activities          下载免费PDF全文

Chutima Srisuk  Saengchan Senapin  William G Bendena  Siwaporn Longyant  Paisarn Sithigorngul  Parin Chaivisuthangkura 《Aquaculture Research》2018,49(1):505-516

Haemocyanin is a multi‐subunit protein complex found in the haemolymph and is involved in the immune system of crustaceans. In this study, a haemocyanin gene of Macrobrachium rosenbergii, designated MrHc, was successfully isolated. The MrHc gene contained an open reading frame (ORF) of 1,992 nucleotides, encoding a protein of 663 amino acid residues with a molecular mass of 76.5 kDa. The deduced amino acid sequence contained distinct structural motifs of the haemocyanin superfamily, including an all‐alpha domain, a copper‐containing domain and an immunoglobulin‐like domain. Based on the phylogenetic analysis, the MrHC protein demonstrated a close relationship with the haemocyanins of Palaemon carinicauda and Macrobrachium nipponense. The MrHc gene was expressed in various shrimp tissues, including the hepatopancreas, gill, haemocytes, stomach and muscle. After Macrobrachium rosenbergii nodavirus (MrNV) challenge tests, the MrHc gene was up‐regulated 237‐fold at day 2. A recombinant protein of the MrHc immunoglobulin‐like domain exhibited antibacterial activity against Vibrio vulnificus, V. parahaemolyticus, Aeromonas caviae, A. veronii, A. hydrophila and Bacillus cereus. This study suggested that MrHc may play important roles in the shrimp innate immune response to MrNV infection and bacterial infection.  相似文献