Detection Of Transmissible Gastroenteritis Virus Research Articles

LAMP-visualized photofuel cell self-powered dual-mode sensing platform for detection of transmissible gastroenteritis virus

The detection of transmissible gastroenteritis virus (TGEV) is of great significance to reduce the loss of pig industry. A LAMP-visualization/PFC self-powered dual-mode output sensor platform was constructed to detect TGEV by combining a simple and intuitive photoelectrochromic material with a highly sensitive PFC self-powered sensing platform without external power supply. The PFC sensing substrate was constructed using CdS nanoparticles modified ZnO NRs (CdS/ZnO NRs) as the photoanode, which exhibited high photoactivity, and Prussian blue (PB) as the cathode. After LAMP reaction on the optical anode, visual signals caused by PB discolorimetry can be detected semi-quantitatively, or PFC power density electrical signals collected by electrochemical workstation can be used. The output power density value is logarithm of TGEV concentration. The linear relationship was good within the detection range of 0.075 fg/μL-7.5 ng/μL, with a detection limit of 0.025 fg/μL (S/N = 3). This multi-signal output sensing platform provides more choices for quantifying TGEV detection results, and the two methods can be mutually verified, which meets the needs of different scenarios and improves the reliability of detection. It has a good effect in the actual sample detection, without the use of expensive and complex instruments, and has a broad application prospect.

Ultrasensitive detection porcine transmissible gastroenteritis virus based on the dual-photoelectrode photofuel cell with in-situ isothermal amplification

Loop-mediated isothermal amplification (LAMP) as a nucleic acid detection technology has many advantages than conventional polymerase chain reaction in terms of sensitivity, specificity, and equipment requirements. And combining photocatalytic fuel cell (PFC) power density readout with high sensitivity, we developed a LAMP-based dual-photoelectrode photocatalytic fuel cell based self-powered biosensors (LAMP PFC-SPBs) for the ultra-sensitive detection of transmissible gastroenteritis virus (TGEV). In this sensor, the specially designed primers were immobilized on the photosensitive material CdS-modified sensing substrate with a distinct electrochemical signal and amplified TGEV within 1 h. A wide detection range of the LAMP PFC-SPBs was demonstrated, ranging from 0.075 fg μL−1 to 7.5 ng μL−1, with a lower detection limit of 0.025 fg μL−1. In-situ LAMP PFC-SPBS had great merits in simplicity (no complex thermal cycles, no need for expensive instruments), sensitivity, specificity, and provides a new perspective on the combination of nucleic acid amplification and electrochemistry.

Rapid detection of transmissible gastroenteritis virus in swine small intestine samples using real-time reverse transcription recombinase polymerase amplification

A rapid and specific real-time reverse-transcription recombinase polymerase amplification assay (RT-RPA) was developed to detect the transmissible gastroenteritis virus (TGEV) in this study. The primers and exo probe were designed to be specific for a portion of spike (S) gene conserved in TGEV, but absent in the closely related porcine respiratory coronavirus (PRCV). The amplification was performed at 40 °C for 20 min. The assay could only detect the TGEV, and there was no cross-reaction with other pathogens tested. Using the in vitro transcribed TGEV RNA as template, the limit of detection of the developed RT-RPA was 100 copies per reaction. The assay performance was evaluated by testing 76 clinical samples by RT-RPA and a real-time RT-PCR. Fourteen samples were TGEV RNA positive in RT-RPA (18.4%, 14/76), which were also positive in the real-time RT-PCR. The diagnostic agreement between the two assays was 100% (76/76). The R2 value of RT-RPA and real-time RT-PCR was 0.959 by linear regression analysis. The developed RT-RPA assay provides a useful alternative tool for rapid, simple and reliable detection of TGEV in resource-limited diagnostic laboratories and on-site facilities.

Discovery of a novel swine enteric alphacoronavirus (SeACoV) in southern China

Outbreaks of diarrhea in newborn piglets without detection of transmissible gastroenteritis virus (TGEV), porcine epidemic diarrhea virus (PEDV) and porcine deltacoronavirus (PDCoV), have been recorded in a pig farm in southern China since February 2017. Isolation and propagation of the pathogen in cell culture resulted in discovery of a novel swine enteric alphacoronavirus (tentatively named SeACoV) related to the bat coronavirus HKU2 identified in the same region a decade ago. Specific fluorescence signal was detected in Vero cells infected with SeACoV by using a positive sow serum collected in the same farm, but not by using TGEV-, PEDV- or PDCoV-specific antibody. Electron microscopy observation demonstrated that the virus particle with surface projections was 100–120nm in diameter. Complete genomic sequencing and analyses of SeACoV indicated that the extreme amino-terminal domain of the SeACoV spike (S) glycoprotein structurally similar to the domain 0 of the alphacoronavirus NL63, whereas the rest part of S structurally resembles domains B to D of the betacoronavirus. The SeACoV-S domain 0 associated with enteric tropism had an extremely high variability, harboring 75-amino-acid (aa) substitutions and a 2-aa insertion, compared to that of HKU2, which is likely responsible for the extended host range or cross-species transmission. The isolated virus was infectious in pigs when inoculated orally into 3-day-old newborn piglets, leading to clinical signs of diarrhea and fecal virus shedding. These results confirmed that it is a novel swine enteric coronavirus representing the fifth porcine coronavirus.

Desarrollo de una prueba de reacción en cadena de la polimerasa anidada para el diagnóstico de la gastroenteritis transmisible del cerdo

The aim of this study was to develop a nested polymerase chain reaction (nested PCR) for the rapid detection of transmissible gastroenteritis virus (TGEV) of pigs. The primers were designed on the basis of highly conserved regions of several TGEV sequences included in the analysis. External primers were used to amplify a fragment of the expected size (441 bp) in all the samples evaluated using reverse transcriptase polymerase chain reaction (RT-PCR), but with very low intensity. In the second amplification (nested PCR), internal primers were used to amplify a fragment of the expected size (168 bp), with good concentration. The performance of the test based on virus isolates in tissue culture and in clinical samples was judged good for the virological diagnosis of transmissible gastroenteritis of pigs.

A real-time TaqMan ® RT-PCR assay with an internal amplification control for rapid detection of transmissible gastroenteritis virus in swine fecal samples

A TaqMan probe-based real-time RT-PCR assay was developed for simultaneous detection of RNA of transmissible gastroenteritis virus (TGEV) in pig fecal samples and RNA of enhanced green fluorescent protein (EGFP) added exogenously as an internal amplification control. The TGEV primers and probe were designed to be specific to a portion of the S gene sequence conserved in all TGEV isolates, but absent in the closely related porcine respiratory coronaviruses. The optimized TaqMan assay detected a minimum of 2.8 copies of in vitro transcribed RNA of the target S gene and RNA extracted from 1 TCID 50/ml of TGEV. Using 113 clinical samples received at our diagnostic laboratory over a 4-year period, the performance of the assay was tested and compared with that of a previously described nested RT-PCR assay. All the fecal samples which tested positive for TGEV by the nested RT-PCR assay also tested positive by the TaqMan assay. However, approximately 9% of the samples that tested negative by the nested RT-PCR assay tested positive by the TaqMan assay. These results indicate that the developed TaqMan assay is a highly sensitive diagnostic test for rapid detection of TGEV in pig fecal samples.

Development of a novel real-time RT-PCR assay with LUX primer for the detection of swine transmissible gastroenteritis virus

Real-time RT-PCR assay, based on light upon extension (LUX) fluorogenic primer and LightCycle technology, was developed for rapid detection of transmissible gastroenteritis virus (TGEV). Viral RNA from different TGEV isolates and clinical specimens was detected. To evaluate the sensitivity of the assay, a gel-based RT-PCR method targeted at the same 101 bp sequence was also developed. Serial 10-fold dilutions of TGEV RNA were detected by the two methods. Although the real time method used only 2 μl RNA for each reaction, a 10-fold increase of sensitivity over that of the gel-based method, which used 10 μl RNA was demonstrated. The study indicates that the LUX assay reported below is rapid, reliable and sensitive and it has the potential for use as an alternative molecular method for TGEV diagnosis.

Detection of transmissible gastroenteritis virus by RT-PCR and differentiation from porcine respiratory coronavirus

An RT-PCR method was developed that amplified genetic material from the 5′ end of the S protein gene of both transmissible gastroenteritis virus (TGEV) and porcine respiratory coronavirus (PRCV), but discriminated between the two by the size of the product generated. A number of restriction endonuclease enzymes were assessed for recognition of the amplicons so produced. The assay was shown to detect viral RNA from all of the 26 different TGEV and PRCV isolates examined, covering a period from 1946 to 1996. Detection of TGEV in clinical specimens was possible using a spin column method to extract RNA and sensitivity was compared to virus isolation and antigen detection ELISA. The method could provide a means of confirming positive results from immunological screening tests such as FAT and ELISA, reducing the need for virus isolation and convalescent serology.

Detection of porcine respiratory coronavirus and transmissible gastroenteritis virus by an enzyme-linked immunosorbent assay

An enzyme-linked immunosorbent assay (ELISA) for the detection of transmissible gastroenteritis virus (TGEV) and porcine respiratory coronavirus (PRCV) was developed. A bovine TGEV-specific polyclonal antibody was purified by affinity chromatography with the TRIO Bioprocessing System and was used as the capture antibody, at a concentration of 1.5 μg/well. The F5.39 monoclonal antibody was obtained by the fusion of spleen lymphocytes from TGEV immunized mice with NS-1 myeloma cells. This mAb was used as a second antibody for the ELISA to detect TGEV in field cases, 53 intestinal samples were taken from pigs exhibiting clinical signs of transmissible gastroenteritis. All the positive samples detected by the ELISA were confirmed as positive by immunofluorescence or cell culture immunofluorescence. To study the ability of this ELISA to detect PRCV in nasal swabs and lung samples, 20 seven-day-old piglets were inoculated with a Quebec strain of PRCV. The ELISA was able to detect PRCV in both kinds of samples.

The application of immunogold silver staining (IGSS) for the detection of transmissible gastroenteritis virus in fixed tissues.

Protein A-gold (PAG) and a primary porcine antiserum were used in immunogold silver staining (IGSS) for the detection of transmissible gastroenteritis virus (TGEV) in formalin-fixed paraffin-embedded tissue sections of small intestine originating from infected pigs. Immunogold electron microscopy was used to evaluate the reactivity of the prepared PAG marker with the specific porcine TGEV antiserum. Gold particles were closely associated with single virions and immune aggregates of TGEV. When IGSS, using PAG as the marker, was applied to tissue sections, dark staining of TGEV-infected villous enterocytes was observed. Background was low, allowing good visualization by light microscopy of the distribution of viral antigen. Two other gold conjugates, protein A/G-gold (PA/GG) and protein G-gold (PGG), were tested in IGSS. The labeling with PA/GG was comparable to that obtained with PAG. However, no staining was observed when PGG was used. The use of IGSS and PAG offers advantages and may represent a useful technique for the detection of other viral pathogens.

Comparison of solid-phase A-protein immune electron microscopy, direct electron microscopy and dot-ELISA for detection of transmissible gastroenteritis virus in feces

Comparison of solid-phase A-protein immune electron microscopy, direct electron microscopy and dot-ELISA for detection of transmissible gastroenteritis virus in feces

Detection of transmissible gastroenteritis virus neutralising antibody in cats.

SummaryHigh titres of neutralising activity to transmissible gastroenteritis virus (TGEV), a porcine coronavirus, were found in sera and peritoneal fluids from cats infected with feline infectious peritonitis (FIP). A small proportion of cats, from a hospital population unaffected by FIP, also had neutralising activity. Procedures to remove non-specific viral inhibitors, including treatment by heat inactivation, trypsin, sulphydryl reagent and kaolin absorption were unsuccessful. The active component was unable to neutralise another porcine coronavirus, haemagglutinating encephalomyelitis virus or the porcine enterovirus, Talfan. Gel filtration of feline sera and peritoneal fluid demonstrated high levels of the neutralising activity in the area corresponding to 7S IgG, which could be removed by absorption with specific anti-IgG serum and these properties are suggested to be consistent with those of antibody. These findings imply that there is a coronavirus in cats which is antigenically related to TGEV and its possible nature is discussed.