The icp11 gene encoding the highly abundant DNA mimic protein of white spot syndrome virus (WSSV) was cloned into the pTYB1 and pGEX-6P-1 expression vectors and introduced into E. coli by transformation. After induction, C-terminally intein-tagged ICP11 (ICP11-intein) and N-terminally glutathione-S-transferase (GST)-tagged ICP11 (GST-ICP11) proteins with molecular masses of 64 and 35 kDa were obtained. These proteins were purified by SDS-PAGE and used for immunization of Swiss mice for monoclonal antibody (MAb) production. Two MAbs specific for ICP11 were selected; these MAbs can be used to detect natural WSSV infection in Penaeus vannamei by dot blotting, western blotting or immunohistochemistry without cross-reaction with other shrimp tissues or other common shrimp viruses. The detection sensitivity of the MAbs was approximately 0.7 fmole/spot of GST-ICP11 as determined by dot blotting. These MAbs showed stronger immunoreactivity than other MAbs from previous studies that are specific for VP28 and VP19. A combination of MAbs specific for ICP11, VP28 and VP19 increased the detection sensitivity of WSSV during early infection to a sensitivity 250 times lower than that of one-step PCR. Therefore, the MAbs specific for ICP11 could be used to confirm and enhance the detection sensitivity for WSSV infection in shrimp using various types of antibody-based assays.
A portion of the VP26 gene (VP26F109) encoding a structural protein of white spot syndrome virus was expressed, purified by SDS-PAGE and used for immunization of Swiss mice for monoclonal antibody (MAb) production. Three groups of MAbs specific to different epitopes on VP26 were selected; these MAbs can be used to detect natural WSSV infection in Penaeus vannamei using dot blotting, Western blotting or immunohistochemistry without cross-reaction with other shrimp tissues or other common shrimp viruses. The detection sensitivity of the MAbs was ranged 7-14 fmole per spot of the rVP26F109 as determined using dot blotting. A combination of three MAbs specific to VP26 with MAbs specific to VP28, VP19 and ICP11 increased the detection sensitivity of WSSV during early infection. Therefore, the MAbs specific to VP26 could be used to confirm and to enhance the detection sensitivity for WSSV infection in shrimp with various types of antibody-based assays.
Scale drop disease virus (SDDV) is one of the most important pathogens that causes scale drop disease (SDD) in Asian sea bass (Lates calcarifer). The outbreaks of this disease are one of the factors causing substantial losses in Asian sea bass aquaculture. In this study, the uracil‐DNA glycosylase (UDG)‐supplemented cross‐priming amplification (UCPA) combined with a colorimetric detection method using the hydroxynaphthol blue (HNB) and lateral flow dipstick (LFD) for detection of SDDV was developed. The UDG was utilized to prevent carryover contamination, and the CPA reactions can be readily observed by HNB and LFD. The CPA primers and probe were designed to target the major capsid protein (MCP) gene of the SDDV. The optimized UCPA conditions were performed at the temperature of 61°C for 60 min. The UCPA assays demonstrated specificity to SDDV without cross‐reaction to other tested viruses including red‐spotted grouper nervous necrosis virus (RGNNV), infectious spleen and kidney necrosis virus (ISKNV) and Lates calcarifer herpes virus (LCHV), and other bacterial species commonly found in aquatic animals. The sensitivity of the UCPA‐HNB and UCPA‐LFD was 100 viral copies/µl and 10 pg of extracted total DNA, which was 10‐fold more sensitive than that of conventional PCR. The UCPA‐HNB and UCPA‐LFD assays could be used to detect the SDDV infection in all 25 confirmed SDDV‐infected fish samples. Therefore, the UCPA coupled with HNB and LFD was rapid, simple and effective and might be applied for diagnosis of SDDV infection.
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