Development of a cost-efficient micro-detection slide system for the detection of multiple shrimp pathogens.

In view of the current demand for rapid detection and identification of pathogens, point-of-care testing (POCT) with fast portability, low consumption, and increased sensitivity and specificity has become more and more popular. The emerging nucleic acid isothermal amplification technology (NAIAT) has shown potential advantages in the development of rapid microbial detection. In this study, a micro-detection slide system was developed based on the NAIAT of various nucleic acids of shrimp pathogens. The system included a micro-detection slide with 48 identical detecting cells precoated with all detection reagents, except the sample template. The process of producing the micro-detection slides mainly combined super-hydrophobic/super-oleophobic and super-hydrophilic materials to obtain separated spaces for detection, and aerosol pollution was eliminated in the form of water-in-oil. The micro-detection slide system was capable of simultaneously detecting 4 groups of samples and 8 important shrimp pathogens and is a relatively low-cost, portable, and high-throughput nucleic acid (RNA and DNA) detection technology. The establishment of this technology will provide key technical support for the construction of biosecurity systems for healthy shrimp culture.

Delivery of plasmid DNA to shrimp hemocytes by Infectious hypodermal and hematopoietic necrosis virus (IHHNV) nanoparticles expressed from a baculovirus insect cell system.

Virus-like particles (VLPs) are potential containers for delivery of therapeutic agents at the nanoscale. In this study, the capsid protein of Infectious hypodermal and hematopoietic necrosis virus (IHHNV) was expressed in a baculovirus insect cell system. The 37-kDa recombinant protein containing the hexahistidine residues (His Tag) at N-terminal was purified using immobilized metal affinity chromatography (IMAC) and assembled into VLPs with a diameter of 23 ±â€¯3 nm analyzed by transmission electron microscopy. We also verified that disassembly/reassembly of IHHNV-VLPs was controlled in the presence and absence of DTT. The efficiency of IHHNV-VLPs to encapsulate plasmid DNA was about 48.2%, and the VLPs encapsulating the pcDNA3.1(+)-EGFP plasmid DNA could recognize the primary shrimp hemocytes and deliver the loaded plasmid into cells by detection of expressed enhanced green fluorescent protein (EGFP). These results implied that the IHHNV-VLPs might be a good candidate for packaging and delivery of expressible plasmid DNA, and may produce an antiviral product in shrimp cells for gene therapy.

Complete genome sequence of shrimp hemocyte iridescent virus (SHIV) isolated from white leg shrimp, Litopenaeus vannamei.

Infection with shrimp hemocyte iridescent virus (SHIV), a new virus of the family Iridoviridae isolated in China, results in a high mortality rate in white leg shrimp (Litopenaeus vannamei). The complete genome sequence of SHIV was determined and analyzed in this study. The genomic DNA was 165,809 bp long with 34.6% G+C content and 170 open reading frames (ORFs). Dotplot analysis showed that the longest repetitive region was 320 bp in length, including 11 repetitions of an 18-bp sequence and 3.1 repetitions of a 39-bp sequence. Two phylogenetic trees were constructed based on 27 or 16 concatenated sequences of proteins encoded by genes that are conserved between SHIV homologous and other iridescent viruses. The results of this study, suggest that SHIV should be considered a member of the proposed new genus "Xiairidovirus".

Quantitative detection method of Enterocytozoon hepatopenaei using TaqMan probe real-time PCR.

A TaqMan probe and a pair of specific primers were selected from the small subunit ribosomal DNA (SSU rDNA) sequence of Enterocytozoon hepatopenaei (EHP); this real-time PCR assay was developed and optimized. It showed a good linearity in detecting standards of EHP SSU rDNA fragments from 4 × 102 to 4 × 108 copies/reaction using the established method. The detection limit of the qPCR method was as low as 4 × 101 copies per reaction, which was higher than the conventional PCR and SYBR Green I-based EHP qPCR reported. Using the qPCR assay, EHP was detected in four batches of slow-growing Penaeus vannamei specimens collected from Tianjin and Zhejiang Province in China was detected using qPCR. The results showed that all the hepatopancreas from the slow-growing P. vannamei specimens were detected as EHP-positive. EHP copies of hepatopancreas in some batches had a negative correlation with the body mass index (BMI) of shrimps; however, not all batches of specimens had this negative correlation between EHP copies of hepatopancreas and BMI. This qPCR technique is sensitive, specific and easy to perform (96 tests in <3 h), which provides technical support for the detection and prevention of EHP.

Detection and quantification of shrimp hemocyte iridescent virus by TaqMan probe based real-time PCR.

Shrimp hemocyte iridescent virus (SHIV) is a recently reported shrimp virus, which threats the cultured white-leg shrimp Litopenaeus vannamei and can cause huge economic loss in shrimp farming industry in China. A quantitative real time polymerase chain reactio (qPCR) assay was developed using a TaqMan probe to detect and quantify SHIV. A pair of qPCR primers, which amplify a 188 bp DNA fragment, and a TaqMan probe were selected from ATPase gene (ORF114R) of the SHIV genome. The primers and TaqMan probe used in this assay were shown to be specific for SHIV and did not react with White spot syndrome virus (WSSV), Infectious hypodermal and hematopoietic necrosis virus (IHHNV), Hepatopancreatic parvovirus (HPV), Vibrio parahaemolyticus causing acute hepatopancreatic necrosis disease (VPAHPND), and Enterocytozoon hepatopenaei (EHP), or healthy shrimp DNA. The detection limit of the qPCR method was as low as 4 copies per reaction. The diagnostic sensitivity and the diagnostic specificity of the qPCR compared with nested PCR were 95.3% and 99.2%, respectively. The resulting standard curves showed high correlation coefficient values (R2 = 0.998) in the range of 4 × 109 to 4 × 100 DNA copies/reaction. Test of farm samples showed that SHIV was detected in L. vannamei, Fenneropenaeus chinensis and Macrobrachium rosenbergii contained SHIV ranged from 1.21E+02 to 7.95E+07 copies (µg DNA)-1. Quantitative detection of different tissues in artificial infected shrimp showed that haemolymph contained the highest SHIV load and muscle contained lowest SHIV load.

Development and validation of a TaqMan RT-qPCR for the detection of convert mortality nodavirus (CMNV).

Covert mortality nodavirus (CMNV), an emerging RNA virus, is the pathogen of viral covert mortality disease (VCMD), which has emerged as a cause of serious losses in shrimp aquaculture in China. To improve VCMD diagnosis, a one-step, real-time TaqMan probe-based reverse transcription quantitative PCR (RT-qPCR) was developed in this study. The TaqMan RT-qPCR was optimized firstly, whereby the best results were obtained with 0.2 µM of each primer, 0.2 µM probe, and 0.5 µL Enzyme Mix II. The optimal reaction program was determined as 15 min at 51ºC for reverse transcription and 5 min at 95 ºC, followed by 40 cycles of denaturation at 94 ºC for 10 s, and annealing and extension at 52.7 ºC for 30 s. The optimized assay detected as little as 9.6 pg total RNA from CMNV-infected shrimp and 5.7 copies of the target plasmid. The RT-qPCR assay for CMNV with a high correlation coefficient (r2 = 0.996) was developed basing on the standard curve generated by plotting the threshold cycle values (y) against the common logarithmic copies (log10nc as x; nc is copy number) of pMD20-CMNV. The diagnostic sensitivity and specificity of this assay versus the previously reported RT-qPCR was 96.2% and 98.0%, respectively. This method is highly specific to CMNV, as it showed no cross-reactivity with other common shrimp viruses. It is anticipated that the newly developed and optimized RT-qPCR assay will be instrumental for the rapid diagnosis and quantitation of CMNV.

Characterization of a new member of Iridoviridae, Shrimp hemocyte iridescent virus (SHIV), found in white leg shrimp (Litopenaeus vannamei).

A newly discovered iridescent virus that causes severe disease and high mortality in farmed Litopenaeus vannamei in Zhejiang, China, has been verified and temporarily specified as shrimp hemocyte iridescent virus (SHIV). Histopathological examination revealed basophilic inclusions and pyknosis in hematopoietic tissue and hemocytes in gills, hepatopancreas, periopods and muscle. Using viral metagenomics sequencing, we obtained partial sequences annotated as potential iridoviridae. Phylogenetic analyses using amino acid sequences of major capsid protein (MCP) and ATPase revealed that it is a new iridescent virus but does not belong to the five known genera of Iridoviridae. Transmission electron microscopy showed that the virus exhibited a typical icosahedral structure with a mean diameter of 158.6 ± 12.5 nm (n = 30)(v-v) and 143.6 ± 10.8 nm (n = 30)(f-f), and an 85.8 ± 6.0 nm (n = 30) nucleoid. Challenge tests of L. vannamei via intermuscular injection, per os and reverse gavage all exhibited 100% cumulative mortality rates. The in situ hybridization showed that hemopoietic tissue, gills, and hepatopancreatic sinus were the positively reacting tissues. Additionally, a specific nested PCR assay was developed. PCR results revealed that L. vannamei, Fenneropenaeus chinensis, and Macrobrachium rosenbergii were SHIV-positive, indicating a new threat existing in the shrimp farming industry in China.